CN108593698B - Heating device for manufacturing geothermal cable - Google Patents

Abstract

The invention discloses a heating device for manufacturing a geothermal cable, which structurally comprises a heating detection box, a work monitoring window, a main control case, an electric control panel, a work device display screen, a work state display lamp, a control button, a gas filter bottle, a main machine body and a cable output connecting pipe, wherein the middle part of the main machine body is fixedly provided with the heating detection box, the front part of the heating detection box is provided with the work monitoring window, the right part of the heating detection box is provided with the main control case, the front part of the main control case is provided with the electric control panel, the electric control panel is fixed at the front part of the main control case through bolts, and a large amount of carbon dioxide is filled while the temperature is reduced, so that the internal cable can be rapidly stopped from burning, the work safety and reliability of equipment are effectively improved, and the.

Description

Heating device for manufacturing geothermal cable

Technical Field

The invention relates to a heating device for manufacturing a geothermal cable, belonging to the field of geothermal manufacturing equipment.

Background

The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, and the heating purpose is achieved by conducting from bottom to top by utilizing the law of heat storage and upward radiation of the floor. The water floor heating is a heating mode which heats water to a certain temperature, conveys the water to a water pipe heat dissipation network under the floor and realizes the heating purpose by heating the floor. The low-temperature ground heating medium forms a temperature gradient gradually decreasing from the sole to the head in a room, so that the comfort of foot warming and head cooling is provided for people. The ground radiation heating conforms to the body-building theory of 'warm feet and cool tops' in traditional Chinese medicine, is the most comfortable heating mode at present, and is also a symbol of modern life quality. The heating principle of the floor heating system is radiation heat transfer, compared with air conditioning, heating and the like which are heated by forced convection circulation hot air, dust in the air flows much less, the spreading of harmful germs in the air is reduced, the indoor environment is more sanitary and cleaner, the floor heating system also creatively utilizes the human body temperature sensing characteristic, and people feel comfortable due to care under feet, so that families are full of warmth.

However, the existing equipment may catch fire when heating detection is carried out in the heating chamber due to uneven product quality during operation, and potential safety hazards exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a heating device for manufacturing a geothermal cable, so as to solve the problems that ignition is possibly caused when heating detection is carried out in a heating chamber due to uneven product quality during the operation of the existing equipment, and potential safety hazards exist.

In order to achieve the purpose, the invention is realized by the following technical scheme: a heating device for manufacturing a geothermal cable structurally comprises a heating detection box, a work monitoring window, a main control case, an electric control panel, a work device display screen, a work state display lamp, a control button, a gas filter bottle, a main machine body and a cable output connecting pipe, wherein the middle of the main machine body is fixedly provided with the heating detection box, the front part of the heating detection box is provided with the work monitoring window, the right part of the heating detection box is provided with the main control case, the front part of the main control case is provided with the electric control panel, the electric control panel is fixed at the front part of the main control case through bolts, the electric control panel is provided with the work device display screen, the work state display lamp is arranged below the work device display screen, the control button is arranged below the work state display lamp, the work state display lamp and the control button correspond to each other, the gas filter bottle is arranged in a groove, the left part of the host computer body is equipped with cable output connecting pipe, the work monitoring window passes through bolt and heating detection case fixed connection, the heating detection case includes temperature-detecting device, heating cabinet, signal to electric signal conversion device, anterior transmission, drive gear group, transfer line, bottom transmission, sliding power source contact device, liquid carbon dioxide extinguishing device, heating detection case shell, the upper portion of the inside of heating detection case shell is equipped with the heating cabinet, the fixed temperature-detecting device that is equipped with in upper portion of heating cabinet, the upper right side of heating cabinet is equipped with attitude carbon dioxide extinguishing device, the end and the signal to electric signal conversion device of temperature-detecting device are connected, signal to electric signal conversion device is connected with anterior transmission, anterior transmission and drive gear group link, the output and the transfer line of drive gear group are connected, the output line of the transmission rod is connected with the bottom transmission device, and the output end of the bottom transmission device is matched with the sliding power supply contact device.

Furthermore, the temperature detection device comprises a heat conduction bottom plate, a temperature detection bin shell, a thermosensitive working medium, an output support plate and an output connecting rod, wherein the outer part of the heat conduction bottom plate is in interference fit with the processing box, liquid metal is used for conducting heat between the heat conduction bottom plate and the processing box, silica gel is used for packaging, the heat conduction bottom plate and the temperature detection bin shell are of an integrated structure, the temperature detection bin shell is of a cylindrical structure, the output support plate is arranged inside the temperature detection bin shell, the thermosensitive working medium is arranged inside the temperature detection bin shell and the output support plate, the volume change coefficient of the thermosensitive working medium under normal conditions is 3-5%/K, the outer part of the output support plate is fixedly connected with the output connecting rod, and the temperature detection bin shell is a heat insulation shell.

Further, the heating cabinet is including processing case main part, processing business turn over line roller, processing case main part is established at the middle part of heating detection case shell, heating detection case shell passes through bolt and processing case main part fixed connection, both sides all are equipped with a set of processing business turn over line roller about processing case main part.

Further, the electric signal conversion device comprises a current induction coil, a sliding support frame, a support rod reset spring, a sliding support rod main body, an induction magnet and a power supply contact golden finger, wherein the current induction coil is arranged on the electric signal converter base, the current induction coil is fixedly connected with the electric signal converter base through a fixing block and a bolt, the sliding support frame is arranged below the current induction coil, the support rod reset spring is arranged below the sliding support frame, the right end of the support rod reset spring is connected with the sliding support rod main body, the middle part of the sliding support rod main body is in sliding connection with the sliding support frame through a clamping groove, the sliding support frame is movably connected with the sliding support rod main body through a bearing, the current induction coil is matched with the induction magnet block, the induction magnet is fixedly connected with the sliding support rod main, the power supply contact golden finger is connected with the current induction coil through a power line.

Further, anterior transmission includes front end transmission movable pulley, transmission connecting wire, transmission roller train, output connecting wire, slip bracing piece main part and front end transmission movable pulley's support fixed connection, front end transmission movable pulley and the cooperation of transmission connecting wire, the transmission connecting wire is connected with the gyro wheel of the left part of transmission roller train, the gyro wheel on the right of transmission roller train is connected with the output connecting wire, the output connecting wire is organized with drive gear and is connected.

Further, drive gear group includes bottom sprag base, receipts line roller, input rotating gear, output rotating gear support, drive gear output connecting wire, the bottom sprag base passes through bolt and support fixed connection, the upper portion of bottom sprag base is equipped with receives the line roller, receive the line roller through bearing and bottom sprag base swing joint, receive line roller and input rotating gear fixed connection, the upper portion of input rotating gear is equipped with output rotating gear, output rotating gear and input rotating gear meshing, output rotating gear's middle part is equipped with the belt and connects roller and drive gear output connecting wire cooperation, output rotating gear passes through bearing and output rotating gear support fixed connection.

Further, the transmission rod comprises a transmission rod support frame, a transmission rod main body, a power output connecting roller and a power output connecting roller, the transmission gear output connecting wire is connected with the power output connecting roller, the transmission rod main body, the power output connecting roller and the power output connecting roller are of an integrated structure, and the transmission rod main body is connected with the transmission rod support frame through a bearing.

Further, the sliding power supply contact device comprises a supporting slide rail, a movable slide block, a fire extinguishing power supply contact head and a processing inlet and outlet wire roller working power supply contact head, the movable slide block is arranged on the upper portion of the supporting slide rail, the processing inlet and outlet wire roller working power supply contact head is arranged above the movable slide block, and the fire extinguishing power supply contact head is arranged on the right of the processing inlet and outlet wire roller working power supply contact head.

Further, liquid carbon dioxide extinguishing device is including storing steel bottle, output connection pipe, fire-fighting solenoid valve, and the left part of storing the steel bottle is connected with output connection pipe, output connection pipe's lower part is connected with the solenoid valve of putting out a fire.

Advantageous effects

The invention provides a scheme of a heating device for manufacturing a geothermal cable, which is provided with a heating detection box, when equipment normally works, a cable enters from a wire inlet at the right part of a main machine body and then enters the inside of a main body of the processing box under the action of a processing wire inlet and outlet roller so as to carry out continuous heat-resistant detection, and then is output from a cable output connecting pipe at the left side of the equipment, when the cable has a problem in quality and starts to burn under the action of high temperature, the temperature inside the main body of the processing box sharply rises, a heat-conducting bottom plate can timely transfer heat to a thermosensitive working medium, the volume of the thermosensitive working medium expands, so that an output supporting plate and an output connecting rod are pushed upwards, a power supply is driven to be in contact with a golden finger, the power supply of a current induction coil is connected, then the current induction coil generates magnetic force to pull a sliding supporting rod main body, The transmission connecting line moves leftwards, when the front end transmits the movable pulley and the transmission connecting line moves leftwards, the transmission roller group can be driven to rotate, then the output connecting line is driven to contract, when the output connecting line moves, the wire receiving roller and the input rotating gear can be driven to rotate, when the wire receiving roller and the input rotating gear rotate, the output rotating gear and the transmission gear output connecting line can be driven to move, so that the transmission rod main body, the power output connecting roller and the power output connecting roller rotate, then the moving end of the bottom transmission device can be driven to move rightwards, the movable sliding block is driven to break the connection with the working power supply contact of the processing wire inlet and outlet roller, the movable sliding block moves rightwards and is connected with the fire extinguishing power supply contact, the electromagnetic valve is opened, carbon dioxide gas enters the heating box, and when the temperature is reduced, the safety and the reliability of the work of the equipment are effectively improved, and the safety of a user is effectively improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a heating apparatus for manufacturing a geothermal cable according to the present invention.

FIG. 2 is a schematic view of the heating detection box according to the present invention.

FIG. 3 is a schematic view showing the detailed structure of the heating detection box of the present invention.

FIG. 4 is a diagram of the operation of the heating detection box of the present invention.

In the figure: a heating detection box-1, a work monitoring window-2, a main control cabinet-3, an electric control panel-4, a work device display screen-5, a work state display lamp-6, a control button-7, a gas filter bottle-8, a main machine body-9, a cable output connecting pipe-10, a temperature detection device-11, a heating box-12, an electric signal conversion device-13, a front transmission device-14, a transmission gear set-15, a transmission rod-16, a bottom transmission device-17, a sliding power supply contact device-18, a liquid carbon dioxide fire extinguishing device-19, a heating detection box shell-110, a heat conduction bottom plate-111, a temperature detection bin shell-112, a heat sensitive working medium-113, an output support plate-114, an output connecting rod-115, a temperature detection bin shell-112, an output support, A processing box main body-121, a processing incoming and outgoing line roller-122, a current induction coil-131, a sliding support frame-132, a support rod reset spring-133, a sliding support rod main body-134, an induction magnet-135, a power supply contact golden finger-136, a front end transmission movable pulley-141, a transmission connection line-142, a transmission roller group-143, an output connection line-144, a bottom support base-151, a take-up roller-152, an input rotating gear-153, an output rotating gear-154, an output rotating gear bracket-155, a transmission gear output connection line-156, a transmission rod support frame-161, a transmission rod main body-162, a power output connection roller-163, a power output connection roller-164, a support slide rail-181, a movable slide block-182, a current induction coil-131, a, Fire extinguishing power supply contact-183, processing inlet and outlet wire roller working power supply contact-184, storage steel cylinder-191, output connecting pipe-192 and fire extinguishing electromagnetic valve-193.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 4, the present invention provides a heating device for manufacturing a geothermal cable, comprising: the structure of the device comprises a heating detection box 1, a work monitoring window 2, a main control case 3, an electric control panel 4, a work device display screen 5, a work state display lamp 6, a control button 7, a gas filter bottle 8, a main body 9 and a cable output connecting pipe 10, wherein the middle part of the main body 9 is fixedly provided with the heating detection box 1, the front part of the heating detection box 1 is provided with the work monitoring window 2, the right part of the heating detection box 1 is provided with the main control case 3, the front part of the main control case 3 is provided with the electric control panel 4, the electric control panel 4 is fixed at the front part of the main control case 3 through bolts, the electric control panel 4 is provided with the work device display screen 5, the work state display lamp 6 is arranged below the work device display screen 5, the control button 7 is arranged below the work state display lamp 6, and the work state display lamp 6 and the control, a gas filter bottle 8 is arranged in a groove below the electric control panel 4, a cable output connecting pipe 10 is arranged at the left part of the main machine body 9, and the work monitoring window 2 is fixedly connected with the heating detection box 1 through bolts; the heating detection box 1 comprises a temperature detection device 11, a heating box 12, an electric signal conversion device 13, a front transmission device 14, a transmission gear set 15, a transmission rod 16, a bottom transmission device 17, a sliding power supply contact device 18, a liquid carbon dioxide fire extinguishing device 19 and a heating detection box shell 110, wherein the heating box 12 is arranged on the upper part of the interior of the heating detection box shell 110, the temperature detection device 11 is fixedly arranged on the upper part of the heating box 12, the liquid carbon dioxide fire extinguishing device 19 is arranged on the upper right side of the heating box 12, the tail end of the temperature detection device 11 is connected with the electric signal conversion device 13, the electric signal conversion device 13 is connected with the front transmission device 14, the front transmission device 14 is connected with the transmission gear set 15, the output end of the transmission gear set 15 is connected with the transmission rod 16, and the output line of the transmission rod 16 is connected with, the output end of the bottom transmission device 17 is matched with the sliding power supply contact device 18, the temperature detection device 11 comprises a heat conduction bottom plate 111, a temperature detection bin shell 112, a heat-sensitive working medium 113, an output support plate 114 and an output connecting rod 115, the outer part of the heat conduction bottom plate 111 is in interference fit with the processing box, liquid metal is used for conducting heat between the heat conduction bottom plate 111 and the processing box, silica gel is used for packaging, the heat conduction bottom plate 111 and the temperature detection bin shell 112 are of an integrated structure, the temperature detection bin shell 112 is of a cylindrical structure, the output support plate 114 is arranged inside the temperature detection bin shell 112, the heat-sensitive working medium 113 is arranged inside the temperature detection bin shell 112 and the output support plate 114, the volume change coefficient of the heat-sensitive working medium 113 under the normal condition is 3-5%/K, and the outer part of the output support plate 114 is fixedly connected, the temperature detecting bin shell 112 is a heat insulation shell, the heating box 12 comprises a processing box main body 121 and a processing incoming and outgoing line roller 122, the processing box main body 121 is arranged in the middle of the heating detecting box shell 110, the heating detecting box shell 110 is fixedly connected with the processing box main body 121 through bolts, a set of processing incoming and outgoing line roller 122 is arranged on each of the left side and the right side of the processing box main body 121, the electric signal conversion device 13 comprises a current induction coil 131, a sliding support frame 132, a support rod reset spring 133, a sliding support rod main body 134, an induction magnet 135 and a power contact golden finger 136, the current induction coil 131 is arranged on an electric signal converter base, the current induction coil 131 is fixedly connected with the electric signal converter base through a fixed block and a bolt, the sliding support frame 132 is arranged below the current induction coil 131, the support rod reset spring 133 is arranged below the sliding support, the right end of the support rod reset spring 133 is connected with the sliding support rod main body 134, the middle part of the sliding support rod main body 134 is connected with the sliding support frame 132 through a clamping groove in a sliding manner, the sliding support frame 132 is movably connected with the sliding support rod main body 134 through a bearing, the current induction coil 131 is matched with the induction magnet 135, the induction magnet 135 is fixedly connected with the sliding support rod main body 134 through glue, the power supply contact golden finger 136 is connected with the current induction coil 131 through a power line, the front transmission device 14 comprises a front end transmission movable pulley 141, a transmission connecting line 142, a transmission roller set 143 and an output connecting line 144, the sliding support rod main body 134 is fixedly connected with a support of the front end transmission movable pulley 141, the front end transmission movable pulley 141 is matched with the transmission connecting line 142, and the transmission connecting line 142 is connected with a roller at the left part of the transmission roller, the right roller of the transmission roller group 143 is connected with the output connection line 144, the output connection line 144 is connected with the transmission gear group 15, the transmission gear group 15 includes a bottom support base 151, a wire receiving roller 152, an input rotation gear 153, an output rotation gear 154, an output rotation gear bracket 155, and a transmission gear output connection line 156, the bottom support base 151 is fixedly connected with the bracket through a bolt, the upper portion of the bottom support base 151 is provided with the wire receiving roller 152, the wire receiving roller 152 is movably connected with the bottom support base 151 through a bearing, the wire receiving roller 152 is fixedly connected with the input rotation gear 153, the upper portion of the input rotation gear 153 is provided with the output rotation gear 154, the output rotation gear 154 is engaged with the input rotation gear 153, the middle portion of the output rotation gear 154 is provided with a belt connection roller to be matched with the transmission gear output connection line 156, the output rotating gear 154 is fixedly connected with an output rotating gear bracket 155 through a bearing, the transmission rod 16 comprises a transmission rod support frame 161, a transmission rod main body 162, a power output connecting roller 163 and a power output connecting roller 164, the transmission gear output connecting wire 156 is connected with the power output connecting roller 163, the transmission rod main body 162, the power output connecting roller 163 and the power output connecting roller 164 are of an integrated structure, the transmission rod main body 162 is connected with the transmission rod support frame 161 through a bearing, the sliding power supply contact device 18 comprises a support sliding rail 181, a movable sliding block 182, a fire extinguishing power supply contact 183 and a processing wire inlet and outlet roller working power supply contact 184, the movable sliding block 182 is arranged on the upper portion of the support sliding rail 181, the processing wire inlet and outlet roller working power supply contact 184 is arranged above the movable sliding block 182, the fire extinguishing power supply contact 183 is arranged on the right of the processing wire inlet and outlet roller, the liquid carbon dioxide fire extinguishing apparatus 19 includes a storage cylinder 191, an output connection pipe 192, and a fire extinguishing solenoid valve 193, wherein the left portion of the storage cylinder 191 is connected to the output connection pipe 192, and the lower portion of the output connection pipe 192 is connected to the fire extinguishing solenoid valve 193.

The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, and the heating purpose is achieved by conducting from bottom to top by utilizing the law that the heat storage and the heat radiation upwards of the floor are utilized. The water floor heating is a heating mode which heats water to a certain temperature, conveys the water to a water pipe heat dissipation network under the floor and realizes the heating purpose by heating the floor. The low-temperature ground heating medium forms a temperature gradient gradually decreasing from the sole to the head in a room, so that the comfort of foot warming and head cooling is provided for people.

When the device is used, whether all parts are stably connected or not is checked, after the device is confirmed to be intact, the device is placed at a proper position, a power supply is connected, the working state and working parameters are adjusted, and then normal working can be started, the heating detection box 1 is arranged, when the device works normally, a cable enters from a wire inlet at the right part of a main machine body 9 and then enters the inside of a processing box main body 121 under the action of a processing wire inlet and outlet roller 122 so as to carry out continuous heat-resistant detection, and then is output from a cable output connecting pipe 10 at the left side of the device, when the cable quality is in problem and the cable starts to burn under the action of high temperature, the temperature inside the processing box main body 121 rises sharply, the heat conduction bottom plate 111 can transmit heat to a thermosensitive working medium 113 in time, and then the volume of the thermosensitive working medium 113 expands, so as to push an output supporting plate 114 and an output connecting, the power supply of the current induction coil 131 is connected, then the current induction coil 131 generates magnetic force to pull the sliding support rod main body 134 and the induction magnet 135 leftwards, so as to drive the front end transmission movable pulley 141 and the transmission connecting line 142 leftwards, when the front end transmission movable pulley 141 and the transmission connecting line 142 leftwards move, the transmission roller group 143 can be driven to rotate, then the output connecting line 144 is driven to contract, when the output connecting line 144 moves, the wire take-up roller 152 and the input rotating gear 153 can be driven to rotate, when the wire take-up roller 152 and the input rotating gear 153 rotate, the output rotating gear 154 and the transmission gear output connecting line 156 can be driven to move, so that the transmission rod main body 162, the power output connecting roller 163 and the power output connecting roller 164 can rotate, then the moving end of the bottom transmission device 17 can be driven to move rightwards, so as to drive the movable slider 182 to disconnect, the fire extinguishing device moves rightwards and is connected with a contact 183 of a fire extinguishing power supply, an electromagnetic valve is opened, carbon dioxide gas enters a heating box 12, and a large amount of carbon dioxide is charged while the temperature is reduced, so that the combustion of an internal cable is rapidly stopped, the working safety and reliability of the device are effectively improved, and the safety of a user is effectively improved.

The invention solves the problem that ignition may be caused when the existing equipment is heated and detected in a heating chamber due to uneven product quality during working, and potential safety hazards exist.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a heating device is used in geothermal cable manufacturing, its structure is including heating detection case (1), work monitoring window (2), main control machine case (3), automatically controlled panel (4), equipment display screen (5), operating condition display lamp (6), control button (7), gas filter bottle (8), the host computer body (9), cable output connecting pipe (10), its characterized in that:

the heating detection box (1) is fixedly arranged in the middle of the main machine body (9), a work monitoring window (2) is arranged at the front part of the heating detection box (1), a main control case (3) is arranged at the right part of the heating detection box (1), an electric control panel (4) is arranged at the front part of the main control case (3), the electric control panel (4) is fixed at the front part of the main control case (3) through bolts, a working device display screen (5) is arranged on the electric control panel (4), a working state display lamp (6) is arranged below the working device display screen (5), a control button (7) is arranged below the working state display lamp (6), the working state display lamp (6) and the control button (7) correspond to each other, a gas filter bottle (8) is arranged in a groove below the electric control panel (4), a cable output connecting pipe (10) is arranged at the left part of the main machine body (9), the work monitoring window (2) is fixedly connected with the heating detection box (1) through bolts;

the heating detection box (1) comprises a temperature detection device (11), a heating box (12), an electric signal conversion device (13), a front transmission device (14), a transmission gear set (15), a transmission rod (16), a bottom transmission device (17), a sliding power supply contact device (18), a liquid carbon dioxide fire extinguishing device (19) and a heating detection box shell (110), wherein the heating box (12) is arranged on the upper part of the interior of the heating detection box shell (110), the temperature detection device (11) is fixedly arranged on the upper part of the heating box (12), the liquid carbon dioxide fire extinguishing device (19) is arranged on the upper right part of the heating box (12), the tail end of the temperature detection device (11) is connected with the electric signal conversion device (13), the electric signal conversion device (13) is connected with the front transmission device (14), the front transmission device (14) is connected with the transmission gear set (15), the output end of the transmission gear set (15) is connected with a transmission rod (16), the output line of the transmission rod (16) is connected with a bottom transmission device (17), and the output end of the bottom transmission device (17) is matched with a sliding power supply contact device (18);

the temperature detection device (11) comprises a heat conduction bottom plate (111), a temperature detection bin shell (112), a thermosensitive working medium (113), an output support plate (114) and an output connecting rod (115), wherein the outside of the heat conduction bottom plate (111) is in interference fit with the processing box, liquid metal is used between the heat conduction bottom plate (111) and the processing box for heat conduction, silica gel is used for packaging, the heat conduction bottom plate (111) and the temperature detection bin shell (112) are of an integrated structure, the temperature detection bin shell (112) is of a cylindrical structure, the output support plate (114) is arranged inside the temperature detection bin shell (112), the thermosensitive working medium (113) is arranged inside the temperature detection bin shell (112) and the output support plate (114), the volume change coefficient of the thermosensitive working medium (113) under a normal condition is 3-5%/K, and the outside of the output support plate (114) is fixedly connected with the output connecting rod (115), the temperature detection bin outer shell (112) is a heat insulation outer shell;

the heating box (12) comprises a processing box main body (121) and processing line inlet and outlet rollers (122), the processing box main body (121) is arranged in the middle of a heating detection box shell (110), the heating detection box shell (110) is fixedly connected with the processing box main body (121) through bolts, and a group of processing line inlet and outlet rollers (122) are arranged on the left side and the right side of the processing box main body (121);

the electric signal conversion device (13) comprises a current induction coil (131), a sliding support frame (132), a support rod reset spring (133), a sliding support rod main body (134), an induction magnet (135) and a power contact golden finger (136), wherein the current induction coil (131) is arranged on an electric signal converter base, the current induction coil (131) is fixedly connected with the electric signal converter base through a fixed block and a bolt, the sliding support frame (132) is arranged below the current induction coil (131), the support rod reset spring (133) is arranged below the sliding support frame (132), the right end of the support rod reset spring (133) is connected with the sliding support rod main body (134), the middle part of the sliding support rod main body (134) is in sliding connection with the sliding support frame (132) through a clamping groove, and the sliding support frame (132) is movably connected with the sliding support rod main body (134) through a bearing, the current induction coil (131) is matched with the induction magnet (135), the induction magnet (135) is fixedly connected with the sliding support rod main body (134) through glue, and the power supply contact golden finger (136) is connected with the current induction coil (131) through a power line;

the front transmission device (14) comprises a front-end transmission movable pulley (141), a transmission connecting line (142), a transmission roller set (143) and an output connecting line (144), the sliding support rod main body (134) is fixedly connected with a support of the front-end transmission movable pulley (141), the front-end transmission movable pulley (141) is matched with the transmission connecting line (142), the transmission connecting line (142) is connected with a roller at the left part of the transmission roller set (143), a roller at the right side of the transmission roller set (143) is connected with the output connecting line (144), and the output connecting line (144) is connected with the transmission gear set (15);

the transmission gear set (15) comprises a bottom supporting base (151), a wire collecting roller (152), an input rotating gear (153), an output rotating gear (154), an output rotating gear support (155) and a transmission gear output connecting wire (156), wherein the bottom supporting base (151) is fixedly connected with the support through bolts, the upper portion of the bottom supporting base (151) is provided with the wire collecting roller (152), the wire collecting roller (152) is movably connected with the bottom supporting base (151) through a bearing, the wire collecting roller (152) is fixedly connected with the input rotating gear (153), the upper portion of the input rotating gear (153) is provided with the output rotating gear (154), the output rotating gear (154) is meshed with the input rotating gear (153), the middle portion of the output rotating gear (154) is provided with a belt connecting roller which is matched with the transmission gear output connecting wire (156), the output rotating gear (154) is fixedly connected with the output rotating gear bracket (155) through a bearing;

the transmission rod (16) comprises a transmission rod support frame (161), a transmission rod main body (162), a power output connecting roller (163) and a power output connecting roller (164), the transmission gear output connecting line (156) is connected with the power output connecting roller (163), the transmission rod main body (162), the power output connecting roller (163) and the power output connecting roller (164) are of an integrated structure, and the transmission rod main body (162) is connected with the transmission rod support frame (161) through a bearing;

the sliding power supply contact device (18) comprises a supporting slide rail (181), a movable sliding block (182), a fire extinguishing power supply contact head (183) and a working power supply contact head (184) of the processing wire inlet and outlet roller, wherein the movable sliding block (182) is arranged at the upper part of the supporting slide rail (181), the working power supply contact head (184) of the processing wire inlet and outlet roller is arranged above the movable sliding block (182), and the fire extinguishing power supply contact head (183) is arranged at the right side of the working power supply contact head (184) of the processing wire inlet and outlet roller;

the liquid carbon dioxide fire extinguishing device (19) comprises a storage steel cylinder (191), an output connecting pipe (192) and a fire extinguishing electromagnetic valve (193), wherein the left part of the storage steel cylinder (191) is connected with the output connecting pipe (192), and the lower part of the output connecting pipe (192) is connected with the fire extinguishing electromagnetic valve (193);

when the equipment normally works, a cable enters from a wire inlet at the right part of the main machine body and then enters the inside of the processing box main body under the action of a processing wire inlet and outlet roller so as to carry out continuous heat-resistant detection, then the cable is output from a cable output connecting pipe at the left part of the equipment, when the cable quality has problems and the cable starts to burn under the action of high temperature, the temperature inside the processing box main body is rapidly increased, the heat-conducting bottom plate can timely transmit heat to a thermosensitive working medium, then the volume of the thermosensitive working medium expands, so that the output supporting plate and the output connecting rod are pushed upwards so as to drive the power supply to be contacted with a golden finger and be communicated with the power supply of the current induction coil, then the current induction coil generates magnetic force to drive the sliding supporting rod main body and the induction magnet to the left so as to drive the front end transmission movable pulley and the transmission connecting, can drive the transmission roller group to rotate and then drive the output connecting line to contract, the output connecting line can drive the wire receiving roller and the input rotating gear to rotate when moving, the output rotating gear and the transmission gear can drive the output connecting line to move when the wire receiving roller and the input rotating gear rotate, thereby the transmission rod main body, the power output connecting roller and the power output connecting roller rotate and then can drive the moving end of the bottom transmission device to move rightwards, thereby driving the movable slide block to be disconnected with the working power supply contact of the processing wire inlet and outlet roller, moving rightwards and being connected with the fire extinguishing power supply contact, opening the electromagnetic valve, leading carbon dioxide gas to enter the heating box, when the temperature is reduced, a large amount of carbon dioxide is charged, so that the combustion of the cable inside is rapidly stopped, the working safety and reliability of the equipment are effectively improved, and the safety of a user is effectively improved.

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