CN114684525B

CN114684525B - Suspension device for storing printed matter warehouse

Info

Publication number: CN114684525B
Application number: CN202210605429.8A
Authority: CN
Inventors: 汤良军; 黄道军; 郑鹏飞; 李升�; 吴勇; 王洋; 胡云汉; 卜阳; 姥志勇; 王伯安
Original assignee: Xuzhou Pacific Printing Co ltd
Current assignee: Xuzhou Pacific Printing Co ltd
Priority date: 2022-05-31
Filing date: 2022-05-31
Publication date: 2022-08-12
Anticipated expiration: 2042-05-31
Also published as: CN114684525A

Abstract

The invention relates to a suspension device for storing a printed matter warehouse, which comprises I-shaped steels, a bending balance assembly and a traction device, wherein the I-shaped steels are sequentially and fixedly connected with a driving track through a connecting frame, suspension rods are symmetrically arranged on the connecting frame, connecting arms are symmetrically arranged on two sides of the connecting frame and are fixedly connected with the I-shaped steels through bolts, a connecting plate is inserted between two adjacent connecting arms, the bending balance assembly is arranged on the I-shaped steels and comprises a balance transmission block, an installation rod and a steel cable rope, the balance transmission block is slidably arranged on the installation rod, trapezoidal convex blocks are symmetrically arranged on the balance transmission block, and the installation rod is fixedly connected with the two adjacent I-shaped steels through the bolts. The suspension device for storing the printed matter warehouse provided by the invention has the advantages of small I-steel deformation, stable suspension vehicle track traveling and convenience in laying and overhauling in the warehouse.

Description

Suspension device for storing printed matter warehouse

Technical Field

The invention relates to a suspension device, in particular to a suspension device for a storage warehouse for printed matters.

Background

Finished goods or semi-finished goods are generally fully stacked in a warehouse of a printing factory, the goods are placed in containers in order to save warehouse space, the containers are stacked in a layer-by-layer mode, a scaffold with the same height is arranged beside each stack of the containers, a worker climbs the scaffold to match with a suspension trolley, the finished goods or the semi-finished goods in the containers are conveyed, the suspension trolley is laid above each stack of the containers through a plurality of I-shaped steels or I-shaped frames, when the suspension trolley carries a load on a track, the I-shaped steels can generate stress deformation due to long-term load, particularly, when a crane travels to the connecting position between the middle of the I-shaped steels and the adjacent I-shaped steels, the I-shaped steels are seriously deformed due to stress deformation caused by long-term gravity load and cannot be recovered, the deformation accumulation easily causes the serious deformation of the track, even the butt joint deformation and disconnection of the I-shaped steels, causing a danger to the operation of the suspension cars.

Therefore, there is a need to provide a new suspension device for storing a printed product warehouse to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides the suspension device for the warehouse for storing the printed matters, which has the advantages of small I-steel deformation, stable rail travelling of a suspension vehicle and convenience for laying and overhauling in the warehouse.

The invention provides a suspension device for storing a printed product warehouse, which comprises: the I-shaped steel, a plurality of the I-shaped steel are fixedly connected with a running track in sequence through a connecting frame, suspension rods are symmetrically arranged on the connecting frame, connecting arms are symmetrically arranged on two sides of the connecting frame, the connecting arms are fixedly connected with the I-shaped steel through bolts, a connecting plate is inserted between every two adjacent connecting arms, a bending balance assembly is arranged on the I-shaped steel and comprises a balance transmission block, an installation rod and steel cable ropes, the balance transmission block is slidably arranged on the installation rod, trapezoidal convex blocks are symmetrically arranged on the balance transmission block and inserted in through holes formed in the I-shaped steel, the installation rod is fixedly connected with the two adjacent I-shaped steel through bolts, one ends of the two steel cable ropes are respectively tied on two sides of the balance transmission block, and the other ends of the two steel cable ropes sequentially penetrate through holes formed in the I-shaped steel on the same side and the through holes formed in the suspension rods and the connecting plates,

the mounting rod is sleeved with a reset spring, one end of the reset spring is fixedly connected with the mounting rod, the other end of the reset spring is fixedly connected with the balance transmission block, the bottom end of the mounting rod is provided with a deformation early warning assembly, the deformation early warning assembly comprises a protection box, the protection box is fixedly mounted at the bottom end of the mounting rod, a detection rod is slidably mounted on the protection box, the top end of the detection rod is contacted with the bottom end of the balance transmission block, the bottom end of the detection rod is connected with a pressure sensor through a spring, the pressure sensor is fixedly mounted in the protection box, a battery and a single chip microcomputer which are electrically connected with the pressure sensor are mounted in the protection box, an indicator lamp is embedded on the outer shell of the protection box and is electrically connected with the single chip microcomputer,

the deformation early warning assembly further comprises a communication module, the communication module is electrically connected with the single chip microcomputer, and the communication module is communicated with an external monitoring center through a data line or a wireless communicator;

a shell body fixed connection, braced frame one end and draw gear, braced frame's the other end rotates and is connected with the transmission gyro wheel.

Preferably, the bending balance assembly further comprises a steering guide wheel, the steering guide wheel is mounted on the side wall of the suspension rod and located right above the connecting frame, the suspension rod is provided with a through hole through which the steel cable passes, and a pulley is mounted in the through hole.

Preferably, the connecting frame is symmetrically provided with limiting holes for the steel cable to pass through under the steering guide wheel.

Preferably, two-way threaded rod, two are installed to the symmetry in the link frame two-way threaded rod rotates with the link frame to be connected, and common symmetry installs L type splint on two-way threaded rod, L type splint and two-way threaded rod threaded connection.

Preferably, the lugs are symmetrically installed at four corners of the connecting frame, the auxiliary assembly is installed on the lugs and comprises a rotating shaft, the rotating shaft is rotatably installed on the lugs, the rotating shaft is fixedly provided with a stabilizing support, and the anchoring rods are symmetrically installed on the stabilizing support.

Preferably, the top ends of the suspension rods are provided with suspension plates, the suspension plates are symmetrically provided with riveting rods, and the riveting rods are in threaded connection with the suspension plates.

Preferably, the transmission assembly further comprises a plurality of auxiliary supports, the auxiliary supports are uniformly arranged on the supporting frame, auxiliary rollers are rotatably arranged on the plurality of auxiliary supports, and the auxiliary rollers are matched with the I-shaped steel in a rolling manner.

Compared with the related art, the suspension device for storing the printed matter warehouse provided by the invention has the following beneficial effects:

1. in the invention, adjacent I-beams are connected through a connecting frame, then are fixed through a suspension rod, and are fixed at the middle parts of the I-beams through connecting arms, then the connecting plates are inserted into the adjacent connecting arms to complete the fixation of the middle parts of the I-beams, the bending balance assembly is arranged on the I-beams, when a traction device travels to the middle parts of the I-beams, the transmission rollers of the transmission assembly contact and downwards extrude the balance transmission block, the balance transmission block moves downwards, the middle parts of the I-beams are lifted through the traction of a steel cable rope, so that the stress deformation generated by the load of a part of the traction device is counteracted, when the traction device travels to the joint of the I-beams, the travelling wheels of the traction device contact and downwards extrude the balance transmission block, the steel cable rope is dragged in the same way, the joint is lifted by the adjacent I-beams, so that the I-beams are less deformed when the traction device travels on a rail, the stable operation of the suspension trolley is convenient;

2. according to the invention, the connecting frame drives the L-shaped clamping plates to further consolidate the adjacent I-shaped steel through the bidirectional threaded rod, the suspension rod is fixed on the roadway through the suspension plate and the riveting rod, and the auxiliary assembly is arranged to enable the connecting frame to be more stably installed in the complex roadway through the matching of the rotating shaft, the stabilizing support and the anchor rod;

3. according to the invention, the deformation early warning assembly is arranged at the bottom end of the mounting rod, the deformation of the I-beam can be monitored in real time by utilizing the cooperation of the protection box, the detection rod, the pressure sensor, the battery, the single chip microcomputer, the indicating lamp and the communication module, and the deformed I-beam can be maintained, reinforced or replaced quickly during maintenance through dynamic monitoring of the communication module and display of the indicating lamp, so that the maintenance of the later-stage suspension vehicle is more convenient.

Drawings

Fig. 1 is a schematic structural view of a suspension device for storing a printed product warehouse according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the connection frame shown in FIG. 1;

FIG. 3 is a schematic structural view of the connection frame shown in FIG. 1 spliced with an I-beam;

FIG. 4 is a schematic view of the connection frame shown in FIG. 1 with auxiliary components mounted thereon;

FIG. 5 is a schematic structural view of the flexure balancing assembly shown in FIG. 1;

FIG. 6 is a schematic structural diagram of the balance transmission block shown in FIG. 5;

FIG. 7 is a schematic structural view of the transmission assembly shown in FIG. 1;

fig. 8 is a schematic structural view of the balance driving block and the mounting rod shown in fig. 5 with a deformation warning assembly mounted thereon.

Reference numbers in the figures: 1. i-shaped steel; 2. a connecting frame; 201. a limiting hole; 21. a bidirectional threaded rod; 22. an L-shaped splint; 23. lifting lugs; 3. a suspension rod; 31. a suspension plate; 32. riveting a connecting rod; 4. a connecting arm; 401. a T-shaped groove; 5. a connecting plate; 6. a bend balancing assembly; 61. a balance transmission block; 611. a trapezoidal bump; 62. mounting a rod; 63. a wire rope; 64. a steering guide wheel; 65. a return spring; 66. a deformation early warning component; 661. a protective case; 662. a detection lever; 663. a pressure sensor; 664. a battery; 665. a single chip microcomputer; 666. an indicator light; 667. a communication module; 7. an auxiliary component; 71. a rotating shaft; 72. a stabilizing bracket; 73. an anchor rod; 8. a transmission assembly; 81. a support frame; 82. a transmission roller; 83. an auxiliary support; 84. an auxiliary roller; 9. a traction device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 7, a suspension device for a storage warehouse of printed matters according to an embodiment of the present invention includes: the device comprises I-shaped steel 1, a connecting frame 2, a suspension rod 3, a connecting arm 4, a connecting plate 5, a bending balance assembly 6, a transmission assembly 8 and a traction device 9.

The I-steel 1 is sequentially and fixedly connected with a running track through a connecting frame 2, suspension rods 3 are symmetrically arranged on the connecting frame 2, connecting arms 4 are symmetrically arranged on two sides of the connecting frame 2, the connecting arms 4 are fixedly connected with the I-steel 1 through bolts, a connecting plate 5 is inserted between every two adjacent connecting arms 4, a bending balance assembly 6 is arranged on the I-steel 1, the bending balance assembly 6 comprises a balance driving block 61, a mounting rod 62 and steel cable ropes 63, the balance driving block 61 is slidably mounted on the mounting rod 62, trapezoidal convex blocks 611 are symmetrically arranged on the balance driving block 61 and inserted in through holes formed in the I-steel 1, the mounting rod 62 is fixedly connected with the two adjacent I-steel 1 through bolts, one ends of the two steel cable ropes 63 are respectively tied on two sides of the balance driving block 61, the other ends of the two steel cable ropes 63 sequentially penetrate through holes formed in the I-steel 1 on the same side, and the suspension rods 3 and the connecting plates 5 are tied together, a draw gear 9 slidable mounting for suspending the car in midair is on the driving track of constituteing by a plurality of I-steel 1, and the symmetry is installed balanced transmission piece 61 transmission complex transmission assembly 8 on draw gear 9, and transmission assembly 8 includes braced frame 81, braced frame 81 one end and draw gear 9's shell body fixed connection, and braced frame 81's other end rotates and is connected with drive roller 82.

It should be noted that: when in use, the adjacent I-beams 1 are connected one by one through the connecting frames 2, then are fixed on a roadway through the suspension rods 3, after the adjacent connecting arms 4 are connected by the connecting plates 5, the running rail main body is installed, then the balance transmission block 61 of the bending balance assembly 6 is fixed at the joint of the adjacent I-beams 1 by the installation rods 62, then the steel cable rope 63 is installed to play a role in traction and balance, then the traction device 9 provided with the transmission assembly 8 is installed on the running rail, after the whole running rail is installed, when the traction device 9 runs to the middle part of the I-beam 1 in operation, the balance transmission block 61 is contacted and downwards extruded through the transmission roller 82 of the transmission assembly 8, the middle part of the I-beam 1 is lifted through the traction of the steel cable rope 63 when the balance transmission block 61 moves downwards, so as to counteract the stress deformation generated by the load of a part of the traction device 9, when the traction device 9 travels to the joint of the I-steel 1, the traveling wheels of the traction device 9 contact and downwards extrude the balance transmission block 61, the steel cable rope 63 is pulled to play a balance adjustment role in the same way, and the adjacent I-steel 1 plays a role in lifting the joint to offset stress deformation, so that when the traction device 9 travels on a rail, the I-steel 1 deforms little, and the stable operation of the suspension vehicle is facilitated.

In the embodiment: offer T type groove 401 on the linking arm 4, connecting plate 5 passes through T type connector card through both ends in the T type groove 401 of two adjacent linking arms 4, then utilizes the installation rings to be used for knot wire rope 63, accomplishes the connection to between two adjacent linking arms 4, is convenient for quick joint like this on two adjacent linking arms 4.

Wherein, hang the top of pole 3 and all install suspension plate 31, the symmetry is equipped with riveting pole 32 on suspension plate 31, riveting pole 32 and suspension plate 31 threaded connection, suspension rod 3 is when fixed suspending like this, through utilizing riveting pole 32 to fix on tunnel and top rock wall then through rotating the threaded sleeve that hangs on the board 31 and be connected with riveting pole 32, be convenient for on the uneven tunnel rock wall of pothole through suspension plate 31 and riveting pole 32 screw thread regulation to suspension plate 31 and keep the level to guarantee track mounted's levelness.

Referring to fig. 2, 4 and 5, the bending balance assembly 6 further includes a turning guide wheel 64, the turning guide wheel 64 is used for pulling the steel cable 63 to be installed on the side wall of the suspension rod 3 and located right above the connection frame 2, the suspension rod 3 is provided with a through hole through which the steel cable 63 passes, a pulley is installed in the through hole, and limiting holes 201 through which the steel cable 63 passes are symmetrically formed right below the turning guide wheel 64 on the connection frame 2.

It should be noted that: when the steel cable 63 of the bending balance assembly 6 is used for traction and balance adjustment, the steel cable 63 is tied with the connecting plate 5 and the balance transmission block 61 through pulleys erected in through holes formed in the steering guide wheel 64 and the suspension rod 3, the steel cable 63 vertically penetrates through the limiting hole 201 after penetrating through the connecting frame 2, and therefore when the steel cable 63 is used for transmission balance, the steel cable 63 has no other extra friction, the steel cable 63 is small in abrasion, and the transmission balance is more stable.

Referring to fig. 6, a return spring 65 is sleeved on the mounting rod 62, one end of the return spring 65 is fixedly connected with the mounting rod 62, and the other end of the return spring 65 is fixedly connected with the balance transmission block 61.

It should be noted that: therefore, after the balance transmission block 61 is pressed down by the transmission roller 82, the balance transmission block can be quickly reset under the action of the reset spring 65, and the next balance adjustment is facilitated.

Referring to fig. 2 and 3, two bidirectional threaded rods 21 are symmetrically installed in the connection frame 2, the two bidirectional threaded rods 21 are rotatably connected with the connection frame 2, L-shaped clamping plates 22 are symmetrically installed on the two bidirectional threaded rods 21, and the L-shaped clamping plates 22 are in threaded connection with the bidirectional threaded rods 21.

It should be noted that: after the connecting frame 2 fixes the two adjacent I-beams 1 through the bolts, the two-way threaded rods 21 are rotated simultaneously, the two-way threaded rods 21 drive the two L-shaped clamping plates 22 symmetrically installed to be close to the I-beams 1 simultaneously, and the two adjacent I-beams 1 are clamped together, so that the connecting frame 2 is more stable in connection of the I-beams 1.

Referring to fig. 1 and 4, lifting lugs 23 are symmetrically installed at four corners of the connecting frame 2, an auxiliary assembly 7 is installed on the lifting lugs 23, the auxiliary assembly 7 includes a rotating shaft 71, the rotating shaft 71 is rotatably installed on the lifting lugs 23, a stabilizing bracket 72 is fixedly installed on the rotating shaft 71, and anchor rods 73 are symmetrically installed on the stabilizing bracket 72.

It should be noted that: the connecting frame 2 is connected with the auxiliary assembly 7 through the lifting lugs 23 at the four corners, and the stabilizing support 72 of the auxiliary assembly 7 is nailed into a roadway through the anchor rods 73, so that the connecting frame 2 is further fixedly installed.

Referring to fig. 1 and 4, the transmission assembly 8 further includes auxiliary brackets 83, a plurality of the auxiliary brackets 83 are uniformly installed on the supporting frame 81, and the plurality of the auxiliary brackets 83 are rotatably installed with auxiliary rollers 84, and the auxiliary rollers 84 are in rolling fit with the i-steel 1.

It should be noted that: therefore, when the transmission assembly 8 moves along with the traction device 9, the auxiliary roller 84 is tightly attached to the upper edge of the I-steel 1 and synchronously rolls, so that the traction device 9 moves more stably, and the auxiliary roller 84 is matched with the auxiliary bracket 83 to limit the support frame 81 to be pressed downwards, so that the long and narrow support frame 81 cannot deform and bend to cause transmission failure of the transmission roller 82.

Example two:

on the basis of the first embodiment, the second embodiment has the same structure, and the only difference is that, referring to fig. 8, the bottom end of the mounting rod 62 is provided with the deformation early warning assembly 66, the deformation early warning assembly 66 includes a protection box 661, the protection box 661 is fixedly provided with the bottom end of the mounting rod 62, the protection box 661 is slidably provided with a detection rod 662, the top end of the detection rod 662 is in contact with the bottom end of the balance transmission block 61, the bottom end of the detection rod 662 is connected with a pressure sensor 663 through a spring, the pressure sensor 663 is fixedly provided in the protection box 661, the protection box 661 is provided with a battery 664 and a single chip microcomputer 665 which are electrically connected with the pressure sensor 663, an indicator lamp 666 is embedded in an outer shell 661 of the protection box, and the indicator lamp 666 is electrically connected with the single chip microcomputer 665;

the deformation early warning assembly 66 further comprises a communication module 667, the communication module 667 is electrically connected with the single chip microcomputer 665, and the communication module 667 is communicated with an external monitoring center through a data line or a wireless communicator.

It should be noted that: therefore, when the traction device 9 moves to any joist steel 1 of the travelling track, the transmission roller 82 presses the balance transmission block 61 to move downwards, the balance transmission block 61 drives the detection rod 662 to move downwards synchronously, the detection rod 662 moves downwards to contact the pressure sensor 663, the pressure sensor 663 is pressed and then transmits pressure detection data to the single chip microcomputer 665, the indication lamp 666 is controlled to be on according to the pressure detection data through a program set on the single chip microcomputer 665, then the detection data are transmitted to the supervision center through the communication module 667, so that the deformation of the joist steel 1 at the moving position of the traction device 9 can be monitored in real time, meanwhile, the deformation early warning component 66 arranged at the connecting position of other joist steels 1 can detect the deformation of the joist steel 1 which does not pass through the traction device 9, when the deformation amount of the joist steel 1 is overlarge, the balance transmission block 61 bends and deforms downwards when the joist steel 1, the balanced transmission block 61 moves downwards synchronously (here, the I-steel 1 extrudes the trapezoidal bump 611 to move downwards through the trapezoidal sliding groove arranged on the trapezoidal bump 611 in a matched mode at the joint of the I-steel 1, when the I-steel 1 deforms by pressing downwards, the trapezoidal sliding groove at the position of the I-steel 1 extrudes the trapezoidal bump 611), so that the extrusion detection rod 662 extrudes the pressure sensor 663 downwards, the detection data of the pressure sensor 663 is transmitted to a supervision center through the single chip microcomputer 665 and the communication module 667, the indication lamp 666 is controlled to display, real-time monitoring on the running track is achieved, stable running of the guide rail suspension vehicle is guaranteed, and the deformed position can be maintained and overhauled quickly according to the later period of convenience of the abnormal data position of the pressure sensor 663.

The working principle of the suspension device for storing the printed product warehouse provided by the invention is as follows:

when in use, the adjacent I-beams 1 are connected one by one through the connecting frames 2, then are fixed on a roadway through the suspension rods 3, after the adjacent connecting arms 4 are connected by the connecting plates 5, the running rail main body is installed, then the balance transmission block 61 of the bending balance assembly 6 is fixed at the joint of the adjacent I-beams 1 by the installation rods 62, then the steel cable rope 63 is installed to play a role in traction and balance, then the traction device 9 provided with the transmission assembly 8 is installed on the running rail, after the whole running rail is installed, when the traction device 9 runs to the middle part of the I-beam 1 in operation, the balance transmission block 61 is contacted and downwards extruded through the transmission roller 82 of the transmission assembly 8, the middle part of the I-beam 1 is lifted through the traction of the steel cable rope 63 when the balance transmission block 61 moves downwards, so as to counteract the stress deformation generated by the load of a part of the traction device 9, when the traction device 9 travels to the joint of the I-steel 1, the traveling wheels of the traction device 9 contact and downwards extrude the balance transmission block 61, the steel cable rope 63 is dragged to play a balance adjusting role in the same way, and the adjacent I-steel 1 plays a role in hoisting the joint to offset stress deformation, so that when the traction device 9 travels on a rail, the I-steel 1 deforms little, and the stable operation of the suspension vehicle is facilitated.

Then, by arranging the deformation early warning assembly 66, when the traction device 9 moves to any joist steel 1 of the running track, the transmission roller 82 presses the balance transmission block 61 to move downwards, the balance transmission block 61 drives the detection rod 662 to move downwards synchronously, the detection rod 662 contacts the pressure sensor 663 when moving downwards, the pressure sensor 663 is pressed and transmits pressure detection data to the single chip microcomputer 665, the indication lamp 666 is controlled to be on according to the pressure detection data through a program set on the single chip microcomputer 665, then the detection data is transmitted to the supervision center through the communication module 667, so that the deformation of the joist steel 1 at the moving position of the traction device 9 can be monitored in real time, meanwhile, the deformation early warning assembly 66 arranged at the connecting position of other joist steels 1 can detect the deformation of the joist steel 1 which does not pass through the traction device 9, when the deformation of the joist steel 1 is too large, the balance transmission block 61 bends and deforms downwards when the joist steel 1, the synchronous downstream of balanced driving piece 61 to extrusion detection pole 662 moves extrusion pressure sensor 663 downwards, through singlechip 665 and communication module 667 with pressure sensor 663's detected data through transmission to supervision center, and control pilot lamp 666 shows, thereby realize carrying out real-time supervision to the orbit, guarantee the steady operation that the guide rail hung the car, and be convenient for maintain and overhaul deformation department fast according to the later stage of being convenient for of pressure sensor 663 data anomaly department.

In order to facilitate the statistics of the internal warehouse management of the company, the pressure sensor 663 is an YL7-4 type pressure sensor, the single chip microcomputer 665 is a D41 type single chip microcomputer, and the communication module 667 is a 78-4G type PLC communication module, which can be purchased in the market or customized by a private person.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A suspension device for a store of printed products, comprising: the device comprises I-shaped steels (1), wherein a plurality of I-shaped steels (1) are sequentially and fixedly connected with a track of a track through a connecting frame (2), suspension rods (3) are symmetrically arranged on the connecting frame (2), connecting arms (4) are symmetrically arranged on two sides of the connecting frame (2), the connecting arms (4) are fixedly connected with the I-shaped steels (1) through bolts, and a connecting plate (5) is inserted between every two adjacent connecting arms (4);

the bending balance assembly (6) is arranged on the I-shaped steel (1), the bending balance assembly (6) comprises a balance transmission block (61), an installation rod (62) and steel cable ropes (63), the balance transmission block (61) is slidably installed on the installation rod (62), trapezoidal convex blocks (611) are symmetrically arranged on the balance transmission block (61), the trapezoidal convex blocks (611) are inserted into through holes formed in the I-shaped steel (1), the installation rod (62) is fixedly connected with two adjacent I-shaped steels (1) through bolts, one ends of the two steel cable ropes (63) are respectively tied on two sides of the balance transmission block (61), and the other ends of the two steel cable ropes (63) sequentially penetrate through holes formed in the I-shaped steel (1) on the same side and are tied with the connecting plate (5) through the suspension rods (3),

the mounting device is characterized in that a reset spring (65) is sleeved on the mounting rod (62), one end of the reset spring (65) is fixedly connected with the mounting rod (62), the other end of the reset spring (65) is fixedly connected with the balance transmission block (61), a deformation early warning assembly (66) is mounted at the bottom end of the mounting rod (62), the deformation early warning assembly (66) comprises a protection box (661), the protection box (661) is fixedly mounted at the bottom end of the mounting rod (62), a detection rod (662) is slidably mounted on the protection box (661), the top end of the detection rod (662) is in contact with the bottom end of the balance transmission block (61), the bottom end of the detection rod (662) is connected with a pressure sensor (663) through a spring, the pressure sensor (663) is fixedly mounted in the protection box (661), and a battery (664) and a single chip microcomputer (665) which are electrically connected with the pressure sensor (663) are mounted in the protection box (661), an indicator light (666) is embedded on the outer shell of the protective box (661), the indicator light (666) is electrically connected with the singlechip (665),

the deformation early warning assembly (66) further comprises a communication module (667), the communication module (667) is electrically connected with the single chip microcomputer (665), and the communication module (667) is communicated with an external monitoring center through a data line or a wireless communicator;

draw gear (9), be used for pulling the crane draw gear (9) slidable mounting is on the driving track of constituteing by a plurality of I-steel (1), and draw gear (9) are gone up the symmetry and are installed balanced transmission piece (61) transmission complex drive assembly (8), drive assembly (8) are including braced frame (81), braced frame (81) one end and the shell body fixed connection of draw gear (9), the other end of braced frame (81) is rotated and is connected with drive roller (82).

2. The suspension device for the storage of printed matter according to claim 1, wherein the bending balance assembly (6) further comprises a turning guide wheel (64), the turning guide wheel (64) is used for pulling and turning the steel cable rope (63) to be installed on the side wall of the suspension rod (3) and located right above the connecting frame (2), the suspension rod (3) is provided with a through hole through which the steel cable rope (63) passes, and a pulley is installed in the through hole.

3. The hanging device for storing the printed matter warehouse as claimed in claim 2, wherein the connecting frame (2) is symmetrically provided with limiting holes (201) for the steel cable (63) to pass through under the steering guide wheel (64).

4. The hanging device for storing the printed matter warehouse as claimed in claim 3, wherein two-way threaded rods (21) are symmetrically installed in the connecting frame (2), two of the two-way threaded rods (21) are rotatably connected with the connecting frame (2), L-shaped clamping plates (22) are symmetrically installed on the two-way threaded rods (21) together, and the L-shaped clamping plates (22) are in threaded connection with the two-way threaded rods (21).

5. The hanging device for storing the printed matter warehouse according to claim 1, wherein lifting lugs (23) are symmetrically installed at four corners of the connecting frame (2), an auxiliary assembly (7) is installed on each lifting lug (23), each auxiliary assembly (7) comprises a rotating shaft (71), each rotating shaft (71) is rotatably installed on each lifting lug (23), a stabilizing support (72) is fixedly installed on each rotating shaft (71), and anchor rods (73) are symmetrically installed on each stabilizing support (72).

6. The hanging device for storing the printed matter warehouse according to claim 1, characterized in that the top ends of the hanging rods (3) are respectively provided with a hanging plate (31), the hanging plates (31) are symmetrically provided with riveting rods (32), and the riveting rods (32) are in threaded connection with the hanging plates (31).

7. The hanging device for storing the printed matter warehouse as claimed in claim 1, wherein the transmission assembly (8) further comprises a plurality of auxiliary supports (83), the plurality of auxiliary supports (83) are uniformly arranged on the supporting frame (81), and auxiliary rollers (84) are rotatably arranged on the plurality of auxiliary supports (83), and the auxiliary rollers (84) are in rolling fit with the I-shaped steel (1).