CN217458339U - Cable and hydrogen pipe synchronous winding and unwinding devices - Google Patents

Abstract

The utility model discloses a cable and hydrogen tube synchronous winding and unwinding device, which comprises a cable drum component, a hydrogen drum component, a speed reducing motor, a large chain wheel, a small chain wheel and a chain; the cable drum assembly comprises a cable drum body, an electric slip ring and a cable drum self-rope-arranging assembly; the hydrogen drum component comprises a hydrogen drum barrel, a hydrogen rotary joint and a hydrogen drum self-rope-arranging component, wherein a cable and a hydrogen pipe are respectively wound on the cable drum barrel and the hydrogen drum barrel, and the cable drum barrel and the hydrogen drum barrel are respectively connected to output shafts on two sides of the speed reducing motor; the cable drum self-rope-arranging component and the hydrogen drum self-rope-arranging component are connected through a coupler, the large chain wheel and the small chain wheel are respectively arranged on the hydrogen drum body and the drum self-rope-arranging component, and the chain is meshed with the large chain wheel and the small chain wheel. The advantages are that: the synchronous retraction and release of the cable and the hydrogen pipe and the synchronous transmission of electricity and hydrogen can be realized.

Description

Cable and hydrogen pipe synchronous winding and unwinding devices

Technical Field

The utility model relates to a strong, light current and flammable, explosive gas transport technical field especially relate to a cable and hydrogen pipe synchronous winding and unwinding devices.

Background

The cable drum is a cable winding device which provides a power supply, a control power supply and a control signal for the mobile equipment and is used for controlling the winding and unwinding of the cable; the air pipe reel is an air pipe winding device for providing air for the mobile equipment and is used for controlling the winding and unwinding of the air pipe. At present, the winding and unwinding drums in the market are mainly in a spring driving type and a motor driving type, but the vast majority of products are in the form of single-form cable winding and unwinding drums or air pipe winding and unwinding drums. With the improvement of the demand, it is of great significance to design a cable and a gas winding and unwinding device which can synchronously wind and unwind cables with the same speed for combustible and explosive gases such as hydrogen and strong electricity, weak electricity and control signals.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cable and hydrogen pipe receive and release device in step to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a cable and hydrogen pipe synchronous winding and unwinding device comprises a frame body, a cable reel assembly, a hydrogen reel assembly, a speed reducing motor, a large chain wheel, a small chain wheel and a chain, wherein the cable reel assembly, the hydrogen reel assembly, the speed reducing motor, the large chain wheel, the small chain wheel and the chain are installed in the frame body; the cable drum assembly comprises a cable drum body, an electric slip ring and a cable drum self-rope-arranging assembly; the hydrogen drum assembly comprises a hydrogen drum barrel, a hydrogen rotary joint and a hydrogen drum self-rope-arranging assembly, wherein a cable and a hydrogen pipe are respectively wound on the cable drum barrel and the hydrogen drum barrel, the cable drum barrel and the hydrogen drum barrel are respectively connected to output shafts on two sides of the speed reducing motor, the diameters of the cable drum barrel and the hydrogen drum barrel are equal, the cable drum barrel and the hydrogen drum barrel are enabled to coaxially rotate, and the winding speeds of the cable and the hydrogen pipe are enabled to be consistent; the cable drum self-rope-arranging assembly is connected with the hydrogen drum self-rope-arranging assembly through a coupler, the large chain wheel and the small chain wheel are respectively arranged on the hydrogen drum barrel and the hydrogen drum self-rope-arranging assembly, and the chain is meshed with the large chain wheel and the small chain wheel; the electric slip ring and the hydrogen rotary joint are respectively arranged on the cable drum body and the hydrogen drum body; the hydrogen rotary joint is connected with the hydrogen pipe.

Preferably, the cable drum self-rope-arranging assembly comprises a cable drum rope arranger and a cable drum lead screw, the cable drum lead screw is horizontally arranged below the cable drum body, one end of the cable drum lead screw is connected with the cable drum rope arranger, the other end of the cable drum lead screw is freely arranged, and the cable drum rope arranger is arranged on the cable drum lead screw; the hydrogen drum self-rope-arranging device comprises a hydrogen drum rope arranger and a hydrogen drum lead screw, the hydrogen drum lead screw is horizontally arranged below the hydrogen drum body, one end of the hydrogen drum lead screw is connected with the hydrogen drum rope arranger, the other end of the hydrogen drum lead screw is freely arranged, and the hydrogen drum rope arranger is arranged on the hydrogen drum lead screw; the hydrogen reel lead screw with the cable reel lead screw is through shaft coupling coaxial coupling and both revolve to opposite, little sprocket is fixed on the hydrogen reel lead screw, big sprocket is fixed on the hydrogen reel barrel, big sprocket drives little sprocket through the chain and rotates, and then drive cable reel lead screw and hydrogen reel lead screw rotate, makes cable reel rope winding displacement ware and hydrogen reel rope winding displacement ware respectively along cable reel lead screw and hydrogen reel lead screw remove in opposite directions.

Preferably, the cable drum assembly further comprises cable drum compression rollers, and a plurality of cable drum compression rollers parallel to the cable drum barrel are uniformly arranged at intervals in the circumferential direction of the cable drum barrel; the stator of the electric slip ring is fixed on the frame body, and the rotor of the electric slip ring is fixed on the central shaft of the cable drum body.

Preferably, the cable drum self-rope-arranging assembly further comprises a cable drum linear slide rail, and the cable drum linear slide rail is arranged below the cable drum lead screw in parallel; the lower end of the cable drum rope guider is matched with the cable drum linear slide rail, so that the cable drum rope guider moves along the cable drum linear slide rail.

Preferably, the hydrogen drum assembly further comprises a hydrogen drum compression roller and an air slip ring, and a plurality of hydrogen drum compression rollers parallel to the hydrogen drum compression roller are uniformly arranged at intervals in the circumferential direction of the hydrogen drum body; the stator of the gas slip ring is fixed on the frame body, and the rotor of the gas slip ring is fixed on the central shaft of the hydrogen winding drum body.

Preferably, the hydrogen reel is from arranging the rope subassembly and still includes hydrogen reel linear slide rail, hydrogen reel linear slide rail parallel arrangement is in the below of hydrogen reel lead screw, the lower extreme of hydrogen reel rope arranger with hydrogen reel linear slide rail cooperation makes hydrogen reel rope arranger follows hydrogen reel linear slide rail removes.

Preferably, the row spacing of the cable drum rope guider and the row spacing of the hydrogen drum rope guider are respectively larger than the diameter of the cable and the diameter of the hydrogen pipe.

Preferably, the cable drum rope guider and the hydrogen drum rope guider have the same structure; the rope guider comprises a rope guider body, and an upper wheel group and a lower wheel group which are arranged at the upper side and the lower side of the rope guider at intervals; the upper wheel set comprises two upper pulleys which are arranged in parallel at the left and the right, the middle parts of the upper pulleys are inwards sunken along the radial direction of the upper pulleys to form an upper wheel groove, and a circular upper space is formed between the two upper pulleys; the lower pulleys comprise two lower pulleys which are arranged in parallel front and back, the middle parts of the lower pulleys are inwards sunken along the radial direction of the lower pulleys to form lower pulley grooves, and a circular lower space is formed between the two lower pulleys; the axes of the upper space and the lower space are vertical, and the circle centers of the upper space and the lower space are positioned on the same straight line; the diameter of the upper space and the diameter of the lower space are both larger than the diameter of the cable and the diameter of the hydrogen pipe;

the rope arranging frame is provided with a sliding block, the sliding block is matched with the corresponding linear sliding rail, and the rope arranging frame is installed on the corresponding lead screw and can move along the lead screw.

Preferably, the support body is rectangular frame structure, the support body is including controlling consecutive three region, is respectively for being used for installing cable drum subassembly, gear motor and hydrogen drum subassembly cable region, motor region and hydrogen region.

Preferably, the hydrogen reel barrel is provided with a limiter, and the limiter coaxially rotates along with the hydrogen reel barrel to enable the hydrogen reel barrel and the cable reel barrel to rotate within a set range.

The utility model has the advantages that: the combustible and explosive hydrogen can be safely and efficiently collected and released at the same speed of a hydrogen pipe and a cable under the environment of integrating the cable for transmitting strong current, weak current and control signals.

Drawings

Fig. 1 is a schematic structural diagram of a retracting device in an embodiment of the present invention;

fig. 2 is a schematic view of another view structure of the retracting device according to the embodiment of the present invention;

fig. 3 is a side view of the retracting device according to an embodiment of the present invention;

fig. 4 is a front view of the retracting device according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a rope guider in an embodiment of the present invention;

fig. 6 is a schematic view of another perspective structure of the rope guider according to the embodiment of the present invention.

In the figure: 1. a cable drum body; 2. a cable drum self-aligning assembly; 21. a cable drum rope arranger; 22. a cable drum lead screw; 23. a cable drum linear slide rail; 3. a cable drum compression roller; 4. an electrical slip ring; 5. a hydrogen gas drum body; 6. the hydrogen reel self-rope-arranging component; 61. a hydrogen reel rope guider; 62. a hydrogen drum lead screw; 63. a hydrogen drum linear slide rail; 7. a hydrogen drum compression roller; 8. a hydrogen swivel joint; 9. a reduction motor; 10. a frame body; 11. a large sprocket; 12. a small sprocket; 13. a chain; 14. a stopper; 15. an upper pulley; 16. a lower pulley; 17. a rope arranging frame; 18. a slide block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only.

As shown in fig. 1 to 4, the present embodiment provides a cable and hydrogen tube synchronous winding and unwinding device, which includes a frame 10, and a cable reel assembly, a hydrogen reel assembly, a speed reducing motor 9, a large sprocket 11, a small sprocket 12, and a chain 13 which are installed in the frame 10; the cable drum assembly comprises a cable drum body 1, an electric slip ring 4 and a cable drum self-rope-arranging assembly 2; the hydrogen drum assembly comprises a hydrogen drum barrel 5, a hydrogen rotary joint 8 and a hydrogen drum self-rope-arranging assembly 6, wherein a cable and a hydrogen pipe are respectively wound on the cable drum barrel 1 and the hydrogen drum barrel 5, the cable drum barrel 1 and the hydrogen drum barrel 5 are respectively connected to output shafts on two sides of the speed reducing motor 9, the diameters of the cable drum barrel 1 and the hydrogen drum barrel 5 are equal, the cable drum barrel 1 and the hydrogen drum barrel 5 are enabled to coaxially rotate, and the winding speeds of the cable and the hydrogen pipe are enabled to be consistent; the cable drum self-rope-arranging component 2 is connected with the hydrogen drum self-rope-arranging component 6 through a coupler, the large chain wheel 11 and the small chain wheel 12 are respectively arranged on the hydrogen drum barrel 5 and the hydrogen drum self-rope-arranging component 6, and the chain 13 is meshed with the large chain wheel 11 and the small chain wheel 12; the electric slip ring 4 and the hydrogen rotary joint 8 are respectively arranged on the cable drum body 1 and the hydrogen drum body 5; the hydrogen rotary joint 8 is connected with a hydrogen pipe.

In this embodiment, the cable drum self-aligning assembly 2 includes a cable drum aligning device 21 and a cable drum lead screw 22, the cable drum lead screw 22 is horizontally disposed below the cable drum body 1, one end of the cable drum lead screw 22 is connected to the cable drum aligning device 21, the other end of the cable drum lead screw 22 is freely disposed, and the cable drum aligning device 21 is mounted on the cable drum lead screw 22; the hydrogen drum self-rope-arranging device comprises a hydrogen drum rope arranging device 61 and a hydrogen drum lead screw 62, the hydrogen drum lead screw 62 is horizontally arranged below the hydrogen drum barrel 5, one end of the hydrogen drum lead screw 62 is connected with the hydrogen drum rope arranging device 61, the other end of the hydrogen drum lead screw 62 is freely arranged, and the hydrogen drum rope arranging device 61 is installed on the hydrogen drum lead screw 62; hydrogen reel lead screw 62 with cable reel lead screw 22 is through shaft coupling coaxial coupling and both revolve to opposite, little sprocket 12 is fixed on the hydrogen reel lead screw 62, big sprocket 11 is fixed on the hydrogen reel barrel 5, big sprocket 11 drives little sprocket 12 through chain 13 and rotates, and then drive cable reel lead screw 22 and hydrogen reel lead screw 62 rotate, makes cable reel rope winding jib 21 and hydrogen reel rope winding jib 61 follow cable reel lead screw 22 and hydrogen reel lead screw 62 respectively and remove in opposite directions.

The cable drum component and the hydrogen drum component are respectively arranged on output shafts on two sides of the speed reducing motor 9, and the coaxial rotation of the cable drum component and the hydrogen drum component is ensured. The bottom diameters of the cable drum body 1 and the hydrogen drum body 5 are adjusted according to the diameter of the cable and the diameter of the hydrogen pipe, so that the nominal diameters of the cable drum body 1 and the hydrogen drum body 5 are consistent, and the winding speed of the cable and the hydrogen pipe is further guaranteed to be consistent.

The small chain wheel 12 is arranged on the hydrogen drum screw 62, and the large chain wheel 11 is arranged on the hydrogen drum body 5. Gear motor 9 rotates, big sprocket 11 rotates along with hydrogen reel barrel 5 on the hydrogen reel barrel 5, and then rotates through chain 13 drive little sprocket 12, drive hydrogen reel lead screw 62 and rotate, drive cable reel lead screw 22 through the shaft coupling simultaneously and rotate, and then make cable reel rope winding jib 21 and hydrogen reel rope winding jib 61 move along opposite directions/back of the body motion mutually, make cable and hydrogen pipe closely twine/unfold respectively on cable reel barrel 1 and hydrogen reel barrel 5, and then realize the synchronous of cable and hydrogen pipe and receive and release.

In this embodiment, the cable drum assembly further includes cable drum compression rollers 3, and a plurality of cable drum compression rollers 3 parallel to the cable drum barrel 1 are uniformly arranged at intervals in the circumferential direction of the cable drum barrel 1; the stator of the electric slip ring 4 is fixed on the frame body 10, and the rotor of the electric slip ring 4 is fixed on the central shaft of the cable drum body 1.

The arrangement of the cable drum compression roller 3 is for pressing the cable, and the cable can be smoothly wound or unfolded on the cable drum body 1. The electrical slip ring 4 is arranged to ensure that the cable can transmit electrical signals and control signals uniformly, continuously and stably along with the rotation of the cable drum.

The cable drum self-rope-arranging assembly 2 further comprises a cable drum linear slide rail 23, and the cable drum linear slide rail 23 is arranged below the cable drum lead screw 22 in parallel; the lower end of the cable drum rope guider 21 is matched with the cable drum linear slide rail 23, so that the cable drum rope guider 21 moves along the cable drum linear slide rail 23.

The cable drum linear slide 23 is provided to guide the cable drum liner 21 to move on the cable drum lead screw 22 more smoothly.

In this embodiment, the hydrogen drum assembly further comprises a hydrogen drum compression roller 7 and an air slip ring, and a plurality of hydrogen drum compression rollers 7 parallel to the hydrogen drum are uniformly arranged at intervals in the circumferential direction of the hydrogen drum body 5; the stator of the gas slip ring is fixed on the frame body 10, and the rotor of the gas slip ring is fixed on the central shaft of the hydrogen winding drum body 5.

The hydrogen drum compression roller 7 is arranged for compressing the hydrogen pipe, and ensures that hydrogen can be smoothly wound or unfolded on the hydrogen drum body 5. The gas slip ring is arranged to ensure that the hydrogen can be uniformly, continuously and stably transmitted along with the rotation of the hydrogen reel.

The hydrogen reel is from arranging rope subassembly 6 and still includes hydrogen reel linear slide rail 63, hydrogen reel linear slide rail 63 parallel arrangement is in the below of hydrogen reel lead screw 62, the lower extreme of hydrogen reel rope winding jib 61 with hydrogen reel linear slide rail 63 cooperation makes hydrogen reel rope winding jib 61 follows hydrogen reel linear slide rail 63 removes.

The hydrogen drum linear slide rail 63 is provided to guide the hydrogen drum rope guider 61 to move on the hydrogen drum lead screw 62 more smoothly.

The hydrogen rotary joint 8 that sets up on the hydrogen reel barrel 5 is used for with hydrogen pipe intercommunication, and the setting of hydrogen rotary joint 8 kneck extrusion deformation influences hydrogen and normally transmits in hydrogen pipe when can avoiding hydrogen pipe winding on hydrogen reel barrel 5.

In this embodiment, the row spacing of the cable reel rope guider 21 and the row spacing of the hydrogen reel rope guider 61 are respectively greater than the diameter of the cable and the diameter of the hydrogen pipe, so that the cable reel rope guider 21 and the hydrogen reel rope guider 61 can be ensured to move by a distance greater than the diameter of the cable and the diameter of the hydrogen pipe when the cable reel barrel 1 and the hydrogen reel barrel 5 rotate by one turn, and the cable and the hydrogen pipe are tightly wound on the cable reel barrel 1 and the hydrogen reel barrel 5 respectively.

As shown in fig. 5 and 6, in the present embodiment, the cable drum rope guider 21 and the hydrogen drum rope guider 61 have the same structure; the rope arranger comprises a rope arranger 17 and a frame body 10, as well as an upper wheel group and a lower wheel group which are arranged at the upper side and the lower side of the rope arranger 17 at intervals; the upper wheel set comprises two upper pulleys 15 which are arranged in parallel from left to right, the middle parts of the upper pulleys 15 are inwards sunken along the radial direction of the upper pulleys to form upper wheel grooves, and a circular upper space is formed between the two upper pulleys 15; the lower pulleys 16 comprise two lower pulleys 16 which are arranged in parallel front and back, the middle parts of the lower pulleys 16 are inwards sunken along the radial direction to form lower wheel grooves, and a circular lower space is formed between the two lower pulleys 16; the axes of the upper space and the lower space are vertical, and the circle centers of the upper space and the lower space are positioned on the same straight line; the diameter of the upper space and the diameter of the lower space are both larger than the diameters of the cable and the hydrogen pipe; the rope arranging frame 17 is provided with a sliding block 18, the sliding block 18 is matched with a corresponding linear sliding rail, and the rope arranging frame 17 is installed on a corresponding lead screw and can move along the lead screw.

The diameter of the upper and lower spaces is about 5mm greater than the cable or hydrogen tube. The axes of the upper space and the lower space are vertical, the circle centers of the upper space and the lower space are positioned on the same straight line, 90-degree arrangement is formed, the cable and the hydrogen pipe below the rope guider can be guaranteed to shake, the cable and the hydrogen pipe can be kept vertical to corresponding winding drums after passing through the rope guider, and winding is uniform.

In this embodiment, the support body 10 is a rectangular frame structure, the support body 10 includes that the left and right sides are consecutive three region, are respectively for being used for installing cable drum subassembly, gear motor 9 and hydrogen drum subassembly cable region, motor region and hydrogen region. The frame body 10 is arranged in a blocking mode, so that the integrity of a corresponding area is better, the function division is clearer, and the installation and the disassembly are convenient.

In this embodiment, the hydrogen drum body 5 is provided with the stopper 14, and the stopper 14 rotates coaxially with the hydrogen drum body 5, so that the hydrogen drum body 5 and the cable drum body 1 rotate within a set range.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the utility model provides a cable and hydrogen pipe receive and release device in step, the device have realized that flammable, explosive hydrogen is under the environment of the cable of integrated transmission forceful electric power, weak current and control signal, and safety, efficient realize receiving and releasing of hydrogen pipe and cable with speed.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (10)

1. The utility model provides a cable and hydrogen pipe receive and release device in step which characterized in that: comprises a frame body, a cable drum component, a hydrogen drum component, a speed reducing motor, a large chain wheel, a small chain wheel and a chain, wherein the cable drum component, the hydrogen drum component, the speed reducing motor, the large chain wheel, the small chain wheel and the chain are arranged in the frame body; the cable drum assembly comprises a cable drum body, an electric slip ring and a cable drum self-rope-arranging assembly; the hydrogen drum assembly comprises a hydrogen drum barrel, a hydrogen rotary joint and a hydrogen drum self-rope-arranging assembly, wherein a cable and a hydrogen pipe are respectively wound on the cable drum barrel and the hydrogen drum barrel, the cable drum barrel and the hydrogen drum barrel are respectively connected to output shafts on two sides of the speed reducing motor, the diameters of the cable drum barrel and the hydrogen drum barrel are equal, the cable drum barrel and the hydrogen drum barrel are enabled to coaxially rotate, and the winding speeds of the cable and the hydrogen pipe are enabled to be consistent; the cable drum self-rope-arranging assembly is connected with the hydrogen drum self-rope-arranging assembly through a coupler, the large chain wheel and the small chain wheel are respectively arranged on the hydrogen drum barrel and the hydrogen drum self-rope-arranging assembly, and the chain is meshed with the large chain wheel and the small chain wheel; the electric slip ring and the hydrogen rotary joint are respectively arranged on the cable drum body and the hydrogen drum body; the hydrogen rotary joint is connected with a hydrogen pipe.

2. The cable and hydrogen tube synchronous retraction device according to claim 1, wherein: the cable drum self-rope-arranging component comprises a cable drum rope arranger and a cable drum lead screw, wherein the cable drum lead screw is horizontally arranged below the cable drum body, one end of the cable drum lead screw is connected with the cable drum rope arranger, the other end of the cable drum lead screw is freely arranged, and the cable drum rope arranger is arranged on the cable drum lead screw; the hydrogen reel self-rope-arranging device comprises a hydrogen reel rope arranger and a hydrogen reel lead screw, wherein the hydrogen reel lead screw is horizontally arranged below a hydrogen reel barrel, one end of the hydrogen reel lead screw is connected with the hydrogen reel rope arranger, the other end of the hydrogen reel lead screw is freely arranged, and the hydrogen reel rope arranger is arranged on the hydrogen reel lead screw; the hydrogen reel lead screw with the cable reel lead screw is through shaft coupling coaxial coupling and both revolve to opposite, little sprocket is fixed on the hydrogen reel lead screw, big sprocket is fixed on the hydrogen reel barrel, big sprocket drives little sprocket through the chain and rotates, and then drive cable reel lead screw and hydrogen reel lead screw rotate, makes cable reel rope winding displacement ware and hydrogen reel rope winding displacement ware respectively along cable reel lead screw and hydrogen reel lead screw remove in opposite directions.

3. The synchronous cable and hydrogen tube retraction device according to claim 2, wherein: the cable drum component also comprises cable drum compression rollers, and a plurality of cable drum compression rollers parallel to the cable drum barrel are uniformly arranged at intervals in the circumferential direction of the cable drum barrel; the stator of the electric slip ring is fixed on the frame body, and the rotor of the electric slip ring is fixed on the central shaft of the cable drum body.

4. The cable and hydrogen tube synchronous retraction device according to claim 3, wherein: the cable drum self-rope-arranging assembly further comprises a cable drum linear slide rail, and the cable drum linear slide rail is arranged below the cable drum lead screw in parallel; the lower end of the cable drum rope guider is matched with the cable drum linear slide rail, so that the cable drum rope guider moves along the cable drum linear slide rail.

5. The cable and hydrogen tube synchronous retraction device according to claim 4, wherein: the hydrogen winding drum assembly also comprises a hydrogen winding drum compression roller and an air slip ring, and a plurality of hydrogen winding drum compression rollers parallel to the hydrogen winding drum are uniformly arranged at intervals in the circumferential direction of the hydrogen winding drum body; the stator of the gas slip ring is fixed on the frame body, and the rotor of the gas slip ring is fixed on the central shaft of the hydrogen winding drum body.

6. The cable and hydrogen tube synchronous retraction device according to claim 5, wherein: the hydrogen reel is from arranging the rope subassembly and still includes hydrogen reel linear slide rail, hydrogen reel linear slide rail parallel arrangement is in the below of hydrogen reel lead screw, the lower extreme of hydrogen reel rope arranger with hydrogen reel linear slide rail cooperation makes hydrogen reel rope arranger follows hydrogen reel linear slide rail removes.

7. The cable and hydrogen tube synchronous retraction device according to claim 6, wherein: the row distance of the cable drum rope guider and the row distance of the hydrogen drum rope guider are respectively larger than the diameter of the cable and the diameter of the hydrogen pipe.

8. The cable and hydrogen tube synchronous retraction device according to claim 7, wherein: the cable drum rope guider and the hydrogen drum rope guider have the same structure; the rope guider comprises a rope guider body, and an upper wheel group and a lower wheel group which are arranged at the upper side and the lower side of the rope guider at intervals; the upper wheel set comprises two upper pulleys which are arranged in parallel at the left and the right, the middle parts of the upper pulleys are inwards sunken along the radial direction of the upper pulleys to form an upper wheel groove, and a circular upper space is formed between the two upper pulleys; the lower wheel set comprises two lower pulleys which are arranged in parallel front and back, the middle parts of the lower pulleys are inwards sunken along the radial direction of the lower pulleys to form a lower wheel groove, and a circular lower space is formed between the two lower pulleys; the axes of the upper space and the lower space are vertical, and the circle centers of the upper space and the lower space are positioned on the same straight line; the diameter of the upper space and the diameter of the lower space are both larger than the diameters of the cable and the hydrogen pipe;

the rope arranging frame is provided with a sliding block, the sliding block is matched with the corresponding linear sliding rail, and the rope arranging frame is installed on the corresponding lead screw and can move along the lead screw.

9. The cable and hydrogen tube synchronous retraction device according to claim 1, wherein: the support body is rectangular frame structure, the support body is including controlling consecutive three region, is respectively for being used for installing cable drum subassembly, gear motor and hydrogen drum subassembly cable region, motor region and hydrogen region.

10. The cable and hydrogen tube synchronous retraction device according to claim 1, wherein: the hydrogen reel barrel is provided with a limiter, and the limiter rotates coaxially with the hydrogen reel barrel to enable the hydrogen reel barrel and the cable reel barrel to rotate within a set range.

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