CN109441692B - End double-control device for rotating mechanism - Google Patents

End double-control device for rotating mechanism Download PDF

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Publication number
CN109441692B
CN109441692B CN201811497694.9A CN201811497694A CN109441692B CN 109441692 B CN109441692 B CN 109441692B CN 201811497694 A CN201811497694 A CN 201811497694A CN 109441692 B CN109441692 B CN 109441692B
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control mechanism
maximum liquid
liquid
rotary
hole
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CN109441692A (en
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王娟娟
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Lingbi Haoxiang Information Technology Co Ltd
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Lingbi Haoxiang Information Technology Co Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B3/00Machines or engines of reaction type; Parts or details peculiar thereto
    • F03B3/04Machines or engines of reaction type; Parts or details peculiar thereto with substantially axial flow throughout rotors, e.g. propeller turbines
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B15/00Controlling
    • F03B15/02Controlling by varying liquid flow
    • F03B15/04Controlling by varying liquid flow of turbines
    • F03B15/06Regulating, i.e. acting automatically
    • F03B15/08Regulating, i.e. acting automatically by speed, e.g. by measuring electric frequency or liquid flow
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B3/00Machines or engines of reaction type; Parts or details peculiar thereto
    • F03B3/08Machines or engines of reaction type; Parts or details peculiar thereto with pressure-velocity transformation exclusively in rotors
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Fluid-Damping Devices (AREA)

Abstract

The invention discloses an end double-control device for a rotating mechanism, which comprises a bottom mounting substrate, wherein a plurality of main bolt holes are formed in the bottom mounting substrate. The invention utilizes the mechanical principle to control, so the service life is long, the degree of influence of the external environment is low, the manufacturing cost and the maintenance cost are both low, the practicability is strong, the device utilizes the fluidity of liquid rotation to control the unidirectional rotation capacity and the control capacity of the fastest rotation speed of the rotation mechanism, and is flexible control, so the control capacity is strong, moreover, the device is provided with a pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the maximum speed of the liquid during flowing can be effectively controlled, and the phenomenon of over-high speed can be effectively prevented, in addition, the device is provided with a spiral spring elastic compression type maximum liquid pressure effective control mechanism, and the unidirectional flow of the liquid can be effectively controlled, so the unidirectional rotation capacity of the device is controlled.

Description

End double-control device for rotating mechanism
Technical Field
The invention relates to the technical field of control devices, in particular to an end double-control device for a rotating mechanism.
Background
At present, in the control equipment, various control equipment is provided, most of the control equipment is provided with electronic components and a controller, and the controller has two defects, one of which is as follows: the use cost and the manufacturing cost are high, and the second is that: the service life is short because the external environment to which the device is subjected is large.
Disclosure of Invention
The present invention is directed to an end double control device for a rotary mechanism, which solves the above problems of the prior art.
In order to achieve the purpose, the invention provides the following technical scheme: an end double-control device for a rotating mechanism comprises a bottom mounting substrate, wherein a plurality of main bolt holes are formed in the bottom mounting substrate, a supporting block of an integrated structure with the bottom mounting substrate is arranged in the center of the upper surface of the bottom mounting substrate, a main hollow shell is mounted at the top of the supporting block, a second hollow structure and a first hollow structure which are arranged in parallel up and down are arranged in the main hollow shell, a first flow hole communicated with the second hollow structure and one side of the first hollow structure is formed in the main hollow shell, a second flow hole and a third flow hole communicated with the second hollow structure and the other side of the first hollow structure are formed in the main hollow shell, a spherical structure size control type liquid one-way flow mechanism is mounted between the second flow hole and the third flow hole, and a component mounting hole is formed in the middle of the first flow hole in the main hollow shell, the device is characterized in that a pipeline installation threaded structure rotary maximum liquid flow speed control mechanism is installed inside the component installation hole, a liquid raw material flow pipeline of an integrated structure with the main hollow shell is arranged at the top center of the main hollow shell, a raw material flow hole communicated with a second hollow structure is formed inside the raw material flow pipeline, a spiral spring elastic compression type maximum liquid pressure effective control mechanism is installed inside the raw material flow hole, a threaded plunger is connected to one side of the first hollow structure through a main threaded structure inside the main hollow shell, protruding structures are arranged at the centers of the threaded plunger and one end of the first hollow structure, a main rotating shaft is installed inside the two protruding structures through a bearing, a shaft body at one end of the main rotating shaft penetrates through the main hollow shell, a shaft body connecting flange plate is installed at the end of the main rotating shaft, and a spiral blade is installed on the shaft body inside the first hollow structure, the first hollow structure, the second hollow structure, the first flow hole, the second flow hole and the third flow hole are filled with hydraulic oil.
Further, the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism includes a hollow casing for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a center hole for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a tip insertion groove structure for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a through-hole structure for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a hollow structure for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a moving plate for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a valve plate for the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a tip structure for the pipe-mounted screw-structured rotary-type maximum liquid flow, The hollow shell for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is internally provided with a central hole for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the central hole for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is communicated with the two surfaces of the hollow shell for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, and the middle part of one side of the hollow shell for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is internally provided with a pipeline installation thread knot The structure rotating type maximum liquid flow speed control mechanism is inserted with a tip into a groove structure, the inside of the hollow shell of the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism is provided with a through hole structure for the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism in the middle of the other side of the center hole of the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism, the hollow shell of the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism is provided with a hollow structure for the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism at one end of the through hole structure for the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism, and a moving plate for the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism is arranged in the hollow structure for the pipeline installation thread structure rotating type maximum liquid flow speed control mechanism, the top end of the movable plate for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism is internally connected with a push rod for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism through a bearing for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism, a valve plate for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism is installed in the middle of the bottom end of the movable plate for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism, a plate body of the valve plate for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism penetrates through a through hole structure for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism, and the end part of the valve plate for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism is provided with a tip structure for the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism which is of an integrated structure with the valve plate The rod body of the push rod for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism penetrates through the hollow shell for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the push rod for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is connected inside the hollow shell for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism through the thread structure for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism at the penetrating position, and the end part of the push rod for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is provided with a force application plate for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism.
Further, the hollow shell for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism is installed inside the component installation hole, and two ends of the central hole for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism are communicated with the inside of the first flow hole.
Furthermore, the thread structure for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism comprises an internal thread structure arranged inside the hollow shell for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism and an external thread structure arranged on the push rod body for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, and the internal thread structure is meshed with the external thread structure.
Further, the spherical structure size control type liquid one-way flow mechanism comprises a shell for the spherical structure size control type liquid one-way flow mechanism, a spherical space for the spherical structure size control type liquid one-way flow mechanism, a ball valve for the spherical structure size control type liquid one-way flow mechanism, a liquid inlet hole for the spherical structure size control type liquid one-way flow mechanism and a liquid outlet hole for the spherical structure size control type liquid one-way flow mechanism; a spherical space for a spherical structure size control type liquid one-way flow mechanism is arranged at the center inside the shell for the spherical structure size control type liquid one-way flow mechanism, a ball valve for the spherical structure size control type liquid one-way flow mechanism is arranged inside the spherical space for the spherical structure size control type liquid one-way flow mechanism, a liquid inlet hole for the spherical structure size control type liquid one-way flow mechanism is arranged inside the shell for the spherical structure size control type liquid one-way flow mechanism, one end of the liquid inlet hole for the spherical structure size control type liquid one-way flow mechanism is communicated with the bottom of the spherical space center for the spherical structure size control type liquid one-way flow mechanism, the other end of the liquid inlet hole for the spherical structure size control type liquid one-way flow mechanism is communicated with the top center of the shell for the spherical structure size control type liquid one-way flow mechanism, the spherical structure size control type liquid unidirectional flow mechanism shell is internally provided with a liquid discharge hole for the spherical structure size control type liquid unidirectional flow mechanism, one end of the liquid discharge hole for the spherical structure size control type liquid unidirectional flow mechanism is communicated with the top of the spherical space center for the spherical structure size control type liquid unidirectional flow mechanism, and the other end of the liquid discharge hole for the spherical structure size control type liquid unidirectional flow mechanism is communicated with the bottom center of the spherical structure size control type liquid unidirectional flow mechanism shell.
Further, the structural radius of the spherical space for the spherical structure size controlled liquid one-way flow mechanism is larger than the structural radius of the ball valve for the spherical structure size controlled liquid one-way flow mechanism, and the structural radius of the ball valve for the spherical structure size controlled liquid one-way flow mechanism is larger than the structural radii of the liquid inlet hole for the spherical structure size controlled liquid one-way flow mechanism and the liquid outlet hole for the spherical structure size controlled liquid one-way flow mechanism.
Furthermore, the end parts of the liquid inlet hole for the spherical structure size control type liquid one-way flow mechanism and the liquid outlet hole for the spherical structure size control type liquid one-way flow mechanism are respectively communicated with the second flow hole and the third flow hole.
Further, the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring comprises a hollow shell for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, an air-liquid sealing ring for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a hollow structure for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a liquid discharge hole for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a valve plate insertion space for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a liquid inlet hole for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a movable plate for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a valve plate for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a A coil spring for the mechanism; the side surface of the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is sleeved with a spiral spring elastic compression type hollow structure for the maximum liquid pressure effective control mechanism, the center inside the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is provided with a hollow structure for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, one side of the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, which is positioned in the hollow structure for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, is provided with a liquid discharge hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, one end of the liquid discharge hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is communicated with one end of the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is positioned at the other side of the hollow structure for the spiral spring elastic compression type maximum liquid pressure effective control mechanism and is provided with a valve plate insertion space for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, one side of the valve plate insertion space for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, which is positioned at the spiral spring elastic compression type maximum liquid pressure effective control mechanism, is provided with a liquid inlet hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, the liquid inlet hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the other side of the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, and the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is positioned at the other side of the hollow shell for the spiral spring elastic compression type maximum liquid pressure effective control mechanism A moving plate for the compression type effective maximum liquid pressure control mechanism is arranged in the hollow structure for the compression type effective maximum liquid pressure control mechanism, the movable plate for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is provided with a valve plate for the spiral spring elastic compression type maximum liquid pressure effective control mechanism which is integrated with the movable plate at the center of the end surface at one side of the insertion space of the valve plate for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, the side surface of the movable plate for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is provided with a liquid through hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism which is communicated with two end surfaces of the movable plate, and the other end surface of the movable plate for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is provided with a spiral spring for the spiral spring elastic compression type maximum liquid pressure effective control mechanism.
Furthermore, the hollow liquid sealing ring for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is clamped inside the raw material flowing hole, and one end of the liquid inlet hole for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the second hollow structure.
Further, the initial length of the spiral spring for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is larger than the transverse length of the hollow structure for the spiral spring elastic compression type maximum liquid pressure effective control mechanism.
Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the mechanical principle to control, so the service life is long, the degree of influence of the external environment is low, the manufacturing cost and the maintenance cost are both low, the practicability is strong, the device utilizes the fluidity of the liquid rotation to control the unidirectional rotation capacity and the control capacity of the fastest rotation speed of the rotation mechanism, and is flexible control, so the control capacity is strong, moreover, the device is provided with a pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the maximum speed of the liquid during flowing can be effectively controlled, so the phenomenon of over-fast speed can be effectively prevented, in addition, the device is provided with a spiral spring elastic compression type maximum liquid pressure effective control mechanism, the internal maximum liquid pressure can be effectively controlled, thereby effectively preventing the damage of the components caused by the increase of the liquid pressure.
Drawings
FIG. 1 is a schematic view of a full-section structure of an end double control device for a rotary mechanism according to the present invention;
FIG. 2 is a schematic structural diagram of a rotary maximum fluid flow rate control mechanism of a pipe-mounted threaded structure in an end dual control device for a rotary mechanism according to the present invention;
FIG. 3 is a schematic structural view of a spherical structure size controlled liquid one-way flow mechanism in an end double control device for a rotary mechanism according to the present invention;
FIG. 4 is a schematic structural diagram of a spiral spring elastic compression type maximum hydraulic pressure effective control mechanism in an end double control device for a rotating mechanism according to the present invention;
in the figure: 1, a bottom mounting base plate, 2, a main bolt hole, 3, a support block, 4, a main hollow housing, 5, a first hollow structure, 6, a second hollow structure, 7, a main thread structure, 8, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism, 81, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism hollow housing, 82, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism center hole, 83, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism tip insertion groove structure, 84, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism through hole structure, 85, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism hollow structure, 86, a pipeline mounting thread structure rotary maximum liquid flow speed control mechanism moving plate, 87, a valve plate for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 88, a tip structure for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 89, a push rod for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 810, a force application plate for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 811, a bearing for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 812, a screw structure for a pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism, 9, a first flow hole, 10, a second flow hole, 11, a spherical-structured size-controlled liquid one-way flow mechanism, 111, a spherical-structured size-controlled liquid one-way flow mechanism housing, 112, a spherical space for a spherical-structured size-controlled liquid one-way flow mechanism, 113, ball valve for spherical structure size-controlled liquid one-way flow mechanism, 114, liquid inlet hole for spherical structure size-controlled liquid one-way flow mechanism, 115, liquid discharge hole for spherical structure size-controlled liquid one-way flow mechanism, 12, third flow hole, 13, component mounting hole, 14, raw material flow pipe, 15, raw material flow hole, 16, coil spring elastic compression type maximum liquid pressure effective control mechanism, 161, hollow shell for coil spring elastic compression type maximum liquid pressure effective control mechanism, 162, empty liquid seal ring for coil spring elastic compression type maximum liquid pressure effective control mechanism, 163, hollow structure for coil spring elastic compression type maximum liquid pressure effective control mechanism, 164, liquid discharge hole for coil spring elastic compression type maximum liquid pressure effective control mechanism, 165, valve plate insertion space for coil spring elastic compression type maximum liquid pressure effective control mechanism, 166, liquid inlet hole for coil spring elastic compression type maximum liquid pressure effective control mechanism, 167, moving plate for coil spring elastic compression type maximum liquid pressure effective control mechanism, 168, valve plate for coil spring elastic compression type maximum liquid pressure effective control mechanism, 169, liquid through hole for coil spring elastic compression type maximum liquid pressure effective control mechanism, 1610, coil spring for coil spring elastic compression type maximum liquid pressure effective control mechanism, 17, main rotation shaft, 18, protrusion structure, 19, shaft body connecting flange, 20, helical blade, 21, and threaded plunger.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the liquid-liquid separator comprises a bottom mounting base plate 1 with a plurality of main bolt holes 2 arranged inside, a supporting block 3 which is of an integral structure with the bottom mounting base plate 1 is arranged at the center of the upper surface of the bottom mounting base plate 1, a main hollow shell 4 is arranged at the top of the supporting block 3, two second hollow structures 6 and two first hollow structures 5 which are arranged in parallel up and down are arranged inside the main hollow shell 4, a first flow hole 9 which is communicated with one sides of the second hollow structures 6 and the first hollow structures 5 is arranged inside the main hollow shell 4, a second flow hole 10 and a third flow hole 12 which are communicated with the other sides of the second hollow structures 6 and the first hollow structures 5 are arranged inside the main hollow shell 4, a spherical structure size control type liquid one-way flow mechanism 11 is arranged between the second flow hole 10 and the third flow hole 12, and a component mounting hole 13 is arranged in the middle of the first flow hole 9 inside the main hollow shell 4, a pipeline installation threaded structure rotary maximum liquid flow speed control mechanism 8 is arranged inside the component installation hole 13, a liquid raw material flow pipeline 14 of an integrated structure with the component installation hole is arranged at the top center of the main hollow shell 4, a raw material flow hole 15 communicated with the second hollow structure 6 is arranged inside the raw material flow pipeline 14, a spiral spring elastic compression type maximum liquid pressure effective control mechanism 16 is arranged inside the raw material flow hole 15, a threaded plunger 21 is connected with the inside of the main hollow shell 4 through a main threaded structure 7 at one side of the first hollow structure 5, the threaded plunger 21 and the center of one end of the first hollow structure 5 are both provided with protruding structures 18, a main rotating shaft 17 is arranged inside the protruding structures 18 through a bearing, and a shaft body at one end of the main rotating shaft 17 penetrates through the main hollow shell 4, and a shaft body connecting flange 19 is arranged at the end part, a helical blade 20 is arranged on the shaft body of the main rotating shaft 17 positioned in the first hollow structure 5, and hydraulic oil is filled in the first hollow structure 5, the second hollow structure 6, the first flow hole 9, the second flow hole 10 and the third flow hole 12.
Referring to fig. 2, the pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism 8 includes a hollow casing 81 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a center hole 82 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a tip insertion groove structure 83 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a through-hole structure 84 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a hollow structure 85 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a moving plate 86 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a valve plate 87 for a pipe-mounted screw-structured rotary-type maximum liquid flow rate control mechanism, a tip structure 88 for a pipe-mounted screw-structured rotary-type, A push rod 89 for a rotary maximum liquid flow rate control mechanism of a pipe-mounted screw structure, a force application plate 810 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure, a bearing 811 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure, and a screw structure 812 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure, wherein a center hole 82 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure communicating with both surfaces of a hollow housing 81 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure is provided in the hollow housing 81 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure, and the center hole 82 for the rotary maximum liquid flow rate control mechanism of the pipe-mounted screw structure is provided in the middle of one side of the center hole 82 for the rotary maximum liquid flow rate control mechanism of the pipe A tip insertion groove structure 83 for a rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure is provided, a through-hole structure 84 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure is provided in the hollow casing 81 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure in the middle of the other side of the center hole 82 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure, a hollow structure 85 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure is provided at one end of the hollow casing 81 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure in the through-hole structure 84 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure in the hollow structure 85 for the rotary maximum liquid flow rate control mechanism having a pipe-mounted screw structure in the inside of the hollow structure 85 for the rotary maximum liquid A moving plate 86 for the maximum liquid flow rate control mechanism, a push rod 89 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism is connected to the inside of the top end of the moving plate 86 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism through a bearing 811 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism, a valve plate 87 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism is installed at the middle part of the bottom end of the moving plate 86 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism, the plate body of the valve plate 87 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism penetrates through the through hole structure 84 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism, and the end part of the valve plate 87 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism is provided with a pipe of an integral structure with the valve plate A tip structure 88 for a rotary maximum liquid flow rate control mechanism of a mounting screw structure, a rod body of a push rod 89 for a rotary maximum liquid flow rate control mechanism of a pipe mounting screw structure penetrates the hollow casing 81 for a rotary maximum liquid flow rate control mechanism of a pipe mounting screw structure, the push rod 89 for the pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism is connected at the penetration portion to the inside of the hollow casing 81 for the pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism through the pipe-mounted screw-structured rotary maximum liquid flow rate control mechanism screw 812, and the end of the push rod 89 for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is provided with a force application plate 810 for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism; the hollow housing 81 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism is installed inside the component installation hole 13, and both ends of the center hole 82 for the pipe installation thread structure rotary maximum liquid flow rate control mechanism are communicated with the inside of the first flow hole 9; the thread structure 812 for the maximum liquid flow speed control mechanism of the thread structure rotation type of the pipeline installation is composed of an internal thread structure arranged inside the hollow shell 81 for the maximum liquid flow speed control mechanism of the thread structure rotation type of the pipeline installation and an external thread structure arranged on the rod body of the push rod 89 for the maximum liquid flow speed control mechanism of the thread structure rotation type of the pipeline installation, and the internal thread structure is meshed with the external thread structure, and the thread structure mainly acts as: by using the force applying plate 810 for the threaded structure, the pipeline installation threaded structure rotary type maximum liquid flow speed control mechanism can realize the control of the size of the internal through hole, thereby playing a control role.
Referring to fig. 3, the spherical structure size-controlled liquid unidirectional flow mechanism 11 includes a spherical structure size-controlled liquid unidirectional flow mechanism housing 111, a spherical space 112 for the spherical structure size-controlled liquid unidirectional flow mechanism, a spherical structure size-controlled liquid unidirectional flow mechanism ball valve 113, a spherical structure size-controlled liquid unidirectional flow mechanism liquid inlet hole 114, and a spherical structure size-controlled liquid unidirectional flow mechanism liquid outlet hole 115; a spherical space 112 for a spherical structure size control type liquid one-way flow mechanism is provided at the center inside the case 111 for the spherical structure size control type liquid one-way flow mechanism, a ball valve 113 for a spherical structure size control type liquid one-way flow mechanism is installed inside the spherical space 112 for the spherical structure size control type liquid one-way flow mechanism in the case 111 for the spherical structure size control type liquid one-way flow mechanism, a liquid inlet hole 114 for a spherical structure size control type liquid one-way flow mechanism is provided inside the case 111 for the spherical structure size control type liquid one-way flow mechanism, one end of the liquid inlet hole 114 for the spherical structure size control type liquid one-way flow mechanism is communicated with the bottom of the center of the spherical space 112 for the spherical structure size control type liquid one-way flow mechanism, and the other end of the liquid inlet hole 114 for the spherical structure size control type liquid one-way flow mechanism is communicated A liquid discharge hole 115 for a spherical structure size control type liquid unidirectional flow mechanism is arranged in the shell 111 for the spherical structure size control type liquid unidirectional flow mechanism, one end of the liquid discharge hole 115 for the spherical structure size control type liquid unidirectional flow mechanism is communicated with the top of the center of a spherical space 112 for the spherical structure size control type liquid unidirectional flow mechanism, and the other end of the liquid discharge hole 115 for the spherical structure size control type liquid unidirectional flow mechanism is communicated with the center of the bottom of the shell 111 for the spherical structure size control type liquid unidirectional flow mechanism; the structural radius of the spherical space 112 for the spherical structure size-controlled liquid unidirectional flow mechanism is larger than the structural radius of the ball valve 113 for the spherical structure size-controlled liquid unidirectional flow mechanism, and the structural radius of the ball valve 113 for the spherical structure size-controlled liquid unidirectional flow mechanism is larger than the structural radii of the liquid inlet hole 114 for the spherical structure size-controlled liquid unidirectional flow mechanism and the liquid outlet hole 115 for the spherical structure size-controlled liquid unidirectional flow mechanism; the end parts of the liquid inlet hole 114 for the spherical structure size control type liquid one-way flow mechanism and the liquid outlet hole 115 for the spherical structure size control type liquid one-way flow mechanism are respectively communicated with the second flow hole 10 and the third flow hole 12, and the main functions are as follows: the ball valve 113 for a liquid one-way flow mechanism can control the liquid to flow only in one direction without discharging the liquid by using the gravity and the structural size of the ball valve itself.
Referring to fig. 4, the effective maximum liquid pressure control mechanism 16 of the coil spring elastic compression type includes a hollow casing 161 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, an air-liquid seal ring 162 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a hollow structure 163 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a liquid discharge hole 164 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a valve plate insertion space 165 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a liquid inlet hole 166 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a movable plate 167 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a valve plate 168 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, a liquid through hole 169 for the effective maximum liquid pressure control mechanism of the coil spring elastic compression type, and an elastic compression type of the coil spring A coil spring 1610 for a maximum hydraulic pressure effective control mechanism; a coil spring elastic compression type hollow structure 163 for the maximum liquid pressure effective control mechanism is arranged at the center inside the coil spring elastic compression type hollow shell 161 for the maximum liquid pressure effective control mechanism, a coil spring elastic compression type discharge hole 164 for the maximum liquid pressure effective control mechanism is arranged at one side of the coil spring elastic compression type hollow structure 163 for the maximum liquid pressure effective control mechanism 161, one end of the coil spring elastic compression type discharge hole 164 for the maximum liquid pressure effective control mechanism is communicated with one end of the coil spring elastic compression type hollow shell 161 for the maximum liquid pressure effective control mechanism, a valve plate insertion space 165 for the coil spring elastic compression type maximum liquid pressure effective control mechanism is provided on the other side of the coil spring elastic compression type maximum liquid pressure effective control mechanism hollow structure 163 of the coil spring elastic compression type hollow housing 161 for the maximum liquid pressure effective control mechanism, a coil spring elastic compression type maximum liquid pressure effective control mechanism liquid inlet hole 166 for the coil spring elastic compression type maximum liquid pressure effective control mechanism is provided on one side of the coil spring elastic compression type maximum liquid pressure effective control mechanism valve plate insertion space 165, the coil spring elastic compression type maximum liquid pressure effective control mechanism liquid inlet hole 166 is communicated with the other side of the coil spring elastic compression type maximum liquid pressure effective control mechanism hollow housing 161, a coil spring elastic compression type movable plate 167 for the maximum liquid pressure effective control mechanism is mounted inside the coil spring elastic compression type hollow structure 163 for the maximum liquid pressure effective control mechanism, the coil spring elastic compression type movable plate 167 for the maximum liquid pressure effective control mechanism is provided with a coil spring elastic compression type valve plate 168 for the maximum liquid pressure effective control mechanism of an integrated structure with the coil spring elastic compression type movable plate 165 at the center of the end surface on the side of the coil spring elastic compression type valve plate insertion space 165 for the maximum liquid pressure effective control mechanism, a coil spring elastic compression type liquid passage hole 169 for the maximum liquid pressure effective control mechanism of a coil spring elastic compression type is provided on the side surface of the coil spring elastic compression type movable plate 167 for the maximum liquid pressure effective control mechanism communicating the two end surfaces thereof, the other end face of the moving plate 167 for the coil spring elastic compression type maximum liquid pressure effective control mechanism is provided with a coil spring 1610 for the coil spring elastic compression type maximum liquid pressure effective control mechanism; the spiral spring elastic compression type air-liquid sealing ring 162 for the maximum liquid pressure effective control mechanism is clamped in the raw material flowing hole 15, and one end of the liquid inlet hole 166 for the maximum liquid pressure effective control mechanism is communicated with the second hollow structure 6; the initial length of the coil spring 1610 for the maximum effective control mechanism of fluid pressure in the elastic compression type of the coil spring is greater than the transverse length of the hollow structure 163 for the maximum effective control mechanism of fluid pressure in the elastic compression type of the coil spring, and the main functions are as follows: the elasticity of the spiral spring 1610 for the maximum effective control mechanism of the elastic compression type of the spiral spring is just the maximum pressure value, when the internal pressure value is larger than the elasticity of the spiral spring 1610 for the maximum effective control mechanism of the elastic compression type of the spiral spring, the internal liquid can be discharged in time, thereby reducing the pressure, so the elasticity of the spiral spring 1610 for the maximum effective control mechanism of the elastic compression type of the spiral spring is smaller than the maximum tension value of the internal components.
The specific use mode is as follows: during the operation of the invention, the end part of the rotating shaft at the tail part is fixedly connected with the shaft body mounting flange 19, then the operation can be carried out, when the rotating shaft rotates reversely, the hydraulic oil in the rotating shaft can not continuously flow due to the action of the spherical structure size control type liquid one-way flow mechanism 11, so that the pressure intensity of the liquid in the rotating shaft is increased, and further the helical blade 20 can not rotate, thereby limiting the reverse rotation of the rotating shaft, when the speed is required to be controlled, the rotating speed is increased by adjusting the pipeline mounting threaded structure rotary maximum liquid flow speed control mechanism 8, namely, when the rotating speed is larger than the flow speed controlled by the pipeline mounting threaded structure rotary maximum liquid flow speed control mechanism 8, and similarly, the speed reduction function is realized.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a two controlling means of tip for rotary mechanism, includes that inside is provided with bottom mounting substrate (1) of a plurality of king bolt holes (2), its characterized in that: the bottom mounting base plate (1) is characterized in that a supporting block (3) of an integral structure is arranged at the center of the upper surface of the bottom mounting base plate (1), a main hollow shell (4) is mounted at the top of the supporting block (3), two second hollow structures (6) and two first hollow structures (5) which are arranged in parallel up and down are arranged inside the main hollow shell (4), a first flow hole (9) which is communicated with one sides of the second hollow structures (6) and the first hollow structures (5) is formed inside the main hollow shell (4), a second flow hole (10) and a third flow hole (12) which are communicated with the other sides of the second hollow structures (6) and the first hollow structures (5) are formed inside the main hollow shell (4), a spherical structure size control type liquid one-way flow mechanism (11) is mounted between the second flow hole (10) and the third flow hole (12), and a part mounting mechanism is arranged in the middle of the first flow hole (9) in the inside of the main hollow shell (4) A hole (13), a pipeline installation threaded structure rotary maximum liquid flow speed control mechanism (8) is installed inside the component installation hole (13), a liquid raw material flow pipeline (14) of an integrated structure with the main hollow shell (4) is arranged at the top center of the main hollow shell (4), a raw material flow hole (15) communicated with the second hollow structure (6) is formed inside the raw material flow pipeline (14), a spiral spring elastic compression type maximum liquid pressure effective control mechanism (16) is installed inside the raw material flow hole (15), a threaded plunger (21) is connected to one side of the first hollow structure (5) inside the main hollow shell (4) through a main threaded structure (7), protruding structures (18) are arranged at the centers of one ends of the threaded plunger (21) and the first hollow structure (5), and a main rotating shaft (17) is installed inside the two protruding structures (18) through a bearing, the shaft body of main rotation axis (17) one end runs through main hollow shell (4), and tip installation shaft body connection ring flange (19), main rotation axis (17) is on being located the inside shaft body of first hollow structure (5) installation helical blade (20), the inside packing of first hollow structure (5), second hollow structure (6), first mobile hole (9), second mobile hole (10) and third mobile hole (12) has hydraulic oil.
2. The dual end control device for a rotary mechanism of claim 1, wherein: the pipeline installation thread structure rotary maximum liquid flow speed control mechanism (8) comprises a hollow shell (81) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a center hole (82) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a tip insertion groove structure (83) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a through hole structure (84) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a hollow structure (85) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a moving plate (86) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a valve plate (87) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, a tip structure (88) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, The pipeline installation thread structure rotary type maximum liquid flow speed control mechanism comprises a push rod (89) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, a force application plate (810) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, a bearing (811) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism and a thread structure (812) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, wherein a central hole (82) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism is formed in a hollow shell (81) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism and communicated with two surfaces of the hollow shell (81) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, and the hollow shell (81) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism is located in the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism A tip insertion groove structure (83) for a pipeline installation thread structure rotary maximum liquid flow speed control mechanism is arranged in the middle of one side of a center hole (82) for the degree control mechanism, a through hole structure (84) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is arranged in the middle of the other side of the center hole (82) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism inside a hollow shell (81), the hollow shell (81) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is provided with a hollow structure (85) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism at one end of the through hole structure (84) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the movable plate (86) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism is internally provided with a hollow structure (85) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, the top end of the movable plate (86) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism is internally connected with a push rod (89) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism through a bearing (811) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, a valve plate (87) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism is arranged in the middle of the bottom end of the movable plate (86) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, and the plate body of the valve plate (87) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism penetrates through the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism A through hole structure (84) for a large liquid flow speed control mechanism, and the end part of the valve plate (87) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is provided with a tip structure (88) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism which is of an integral structure with the valve plate, the rod body of the push rod (89) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism penetrates through the hollow shell (81) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, the push rod (89) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism is connected in the penetrating part of the hollow shell (81) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism through a thread structure (812) for the pipeline installation thread structure rotary maximum liquid flow speed control mechanism, and the end of the push rod (89) for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism is provided with an application plate (810) for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism.
3. The dual end control device for a rotary mechanism of claim 2, wherein: the hollow shell (81) for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism is installed inside the component installation hole (13), and two ends of a center hole (82) for the pipeline installation threaded structure rotary maximum liquid flow speed control mechanism are communicated with the inside of the first flow hole (9).
4. The dual end control device for a rotary mechanism of claim 2, wherein: the thread structure (812) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism comprises an internal thread structure arranged inside a hollow shell (81) for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism and an external thread structure arranged on a push rod (89) rod body for the pipeline installation thread structure rotary type maximum liquid flow speed control mechanism, and the internal thread structure is meshed with the external thread structure.
5. The dual end control device for a rotary mechanism of claim 1, wherein: the spherical structure size control type liquid one-way flow mechanism (11) comprises a shell (111) for the spherical structure size control type liquid one-way flow mechanism, a spherical space (112) for the spherical structure size control type liquid one-way flow mechanism, a ball valve (113) for the spherical structure size control type liquid one-way flow mechanism, an inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism and a drain hole (115) for the spherical structure size control type liquid one-way flow mechanism; a spherical space (112) for a spherical structure size control type liquid one-way flow mechanism is arranged at the center in the shell (111) for the spherical structure size control type liquid one-way flow mechanism, a ball valve (113) for a spherical structure size control type liquid one-way flow mechanism is arranged in the spherical space (112) for the spherical structure size control type liquid one-way flow mechanism in the shell (111) for the spherical structure size control type liquid one-way flow mechanism, a liquid inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism is arranged in the shell (111) for the spherical structure size control type liquid one-way flow mechanism, one end of the liquid inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism is communicated with the bottom of the center of the spherical space (112) for the spherical structure size control type liquid one-way flow mechanism, the other end of the liquid inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism is communicated with the center of the top of the shell (111) for the spherical structure size control type liquid one-way flow mechanism, the inside of the shell (111) for the spherical structure size control type liquid one-way flow mechanism is provided with a liquid discharge hole (115) for the spherical structure size control type liquid one-way flow mechanism, one end of the liquid discharge hole (115) for the spherical structure size control type liquid one-way flow mechanism is communicated with the top of the center of the spherical space (112) for the spherical structure size control type liquid one-way flow mechanism, and the other end of the liquid discharge hole (115) for the spherical structure size control type liquid one-way flow mechanism is communicated with the center of the bottom of the shell (.
6. The dual end control device for a rotary mechanism of claim 5, wherein: the structure radius of the spherical space (112) for the spherical structure size control type liquid one-way flow mechanism is larger than the structure radius of the ball valve (113) for the spherical structure size control type liquid one-way flow mechanism, and the structure radius of the ball valve (113) for the spherical structure size control type liquid one-way flow mechanism is larger than the structure radii of the liquid inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism and the liquid outlet hole (115) for the spherical structure size control type liquid one-way flow mechanism.
7. The dual end control device for a rotary mechanism of claim 5, wherein: the end parts of the liquid inlet hole (114) for the spherical structure size control type liquid one-way flow mechanism and the liquid outlet hole (115) for the spherical structure size control type liquid one-way flow mechanism are respectively communicated with the second flow hole (10) and the third flow hole (12).
8. The dual end control device for a rotary mechanism of claim 1, wherein: the effective control mechanism (16) of the maximum liquid pressure of the elastic compression type of the spiral spring comprises a hollow shell (161) for the effective control mechanism of the elastic compression type of the spiral spring, an air sealing ring (162) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a hollow structure (163) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a liquid discharge hole (164) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a valve plate insertion space (165) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a liquid inlet hole (166) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a moving plate (167) for the effective control mechanism of the maximum liquid pressure of the elastic compression type of the spiral spring, a liquid through hole (169) for a coil spring elastic compression type maximum liquid pressure effective control mechanism and a coil spring (1610) for a coil spring elastic compression type maximum liquid pressure effective control mechanism; the side surface of the hollow shell (161) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is sleeved with a spiral spring elastic compression type hollow sealing ring (162) for the maximum liquid pressure effective control mechanism, the center inside the hollow shell (161) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is provided with a hollow structure (163) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, one side of the hollow shell (161) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, which is located in the hollow structure (163) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, is provided with a liquid discharge hole (164) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism, one end of the liquid discharge hole (164) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the spiral spring elastic compression type maximum liquid pressure effective control mechanism One end of a hollow shell (161) for a control mechanism, a valve plate insertion space (165) for a coil spring elastic compression type maximum liquid pressure effective control mechanism is arranged at the other side of the hollow structure (163) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, a liquid inlet hole (166) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is arranged at one side of the valve plate insertion space (165) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, the liquid inlet hole (166) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the liquid inlet hole (166) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, and the other side of the hollow shell (161) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the liquid inlet hole (166) A coil spring elastic compression type movable plate (167) for the maximum liquid pressure effective control mechanism is arranged in the hollow structure (163) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, the movable plate (167) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is arranged in the center of the end face of one side of the valve plate insertion space (165) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, the valve plate (168) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is arranged in an integrated structure with the movable plate (167), a liquid through hole (169) for the coil spring elastic compression type maximum liquid pressure effective control mechanism is arranged on the side face of the movable plate (167) for the coil spring elastic compression type maximum liquid pressure effective control mechanism, and the movable plate and the liquid through hole are communicated with the two end faces of the movable plate, and a spiral spring (1610) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is arranged on the other end surface of the movable plate (167) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism.
9. The dual end control device for a rotary mechanism of claim 8, wherein: the air-liquid sealing ring (162) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is clamped in the raw material flowing hole (15), and one end of the liquid inlet hole (166) for the spiral spring elastic compression type maximum liquid pressure effective control mechanism is communicated with the second hollow structure (6).
10. The dual end control device for a rotary mechanism of claim 8, wherein: the initial length of the coil spring elastic compression type maximum hydraulic pressure effective control mechanism coil spring (1610) is larger than the transverse length of the coil spring elastic compression type maximum hydraulic pressure effective control mechanism hollow structure (163).
CN201811497694.9A 2018-12-07 2018-12-07 End double-control device for rotating mechanism Active CN109441692B (en)

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CN110221649B (en) * 2019-06-11 2021-05-07 新昌县云璟智能科技有限公司 Overload operation preventing rotary disk with rotation force control function
CN110206982B (en) * 2019-06-11 2021-06-11 郑明志 Heavy object strutting arrangement with universal regulatory function
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CN110577163B (en) * 2019-08-26 2020-09-29 湖北铭筑建设有限公司 Speed control device for building tower crane rotating mechanism
CN110771518A (en) * 2019-10-23 2020-02-11 华琳琳 Ground cleaning device for animal husbandry
CN110962916A (en) * 2019-11-12 2020-04-07 黄社灵 Air pressure control dislocation formula steering wheel connecting axle
CN110886711B (en) * 2019-12-12 2021-11-12 江苏四达重工有限公司 Constant-pressure control type thrust control device
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CN107890814A (en) * 2017-12-27 2018-04-10 刘晓莉 A kind of raw material with output pressure control function is stirred output device
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