CN116692617B - Auxiliary device for winding and unwinding hose - Google Patents

Abstract

The invention discloses an auxiliary device for hose winding and unwinding, which relates to the field of hose winding and unwinding equipment, and comprises a transmission belt mechanism, a bearing plate and two transmission clamping mechanisms, wherein the transmission belt mechanism is axially arranged along an X axis, the bearing plate is positioned below the bottom of the transmission belt mechanism, and the two transmission clamping mechanisms are arranged at two ends of the transmission belt mechanism; the conveying belt mechanism is in sliding fit on the bearing plate based on the first sliding block guide rail mechanism; the transmission clamping mechanism comprises a transmission shaft and a clamping roller, and a gap for a hose to pass through is formed between the clamping roller and the transmission shaft; a preset interval is arranged between the conveying belt mechanism and the bearing plate, and the preset interval forms a storage space for accommodating the hose. The auxiliary device for winding and unwinding the hose is used for conveying the hose to the bearing plate through the cooperation of the transmission belt mechanism and the transmission clamping mechanism, and the hose is driven to be folded and stored on the bearing plate through the reciprocating motion of the transmission belt mechanism on the bearing plate, so that the uniformity of placing the hose is improved, and the occupied space for storing the hose is reduced.

Description

Auxiliary device for winding and unwinding hose

Technical Field

The invention mainly relates to the field of hose winding and unwinding equipment, in particular to an auxiliary device for winding and unwinding a hose.

Background

The hose is mainly divided into: threading hose, drainage hose, ventilation hose, gondola water faucet hose, pencil pipe, present fire control is with hosepipe and well drilling drain, all is the hose that has big gross weight, overlength length.

The winding and unwinding of the existing hose are manually assisted, and the hose occupies a large amount of space when being randomly placed after being folded, so that a large amount of effective space can be saved when the hose is neatly placed.

Disclosure of Invention

The auxiliary device for hose winding and unwinding is provided, and the auxiliary device for hose winding and unwinding is used for conveying a hose to a bearing plate in a matched mode through a transmission belt mechanism and a transmission clamping mechanism, and driving the hose to be folded and stored on the bearing plate by matching with the reciprocating motion of the transmission belt mechanism on the bearing plate, so that the arrangement uniformity of the hose is improved, and the occupied space of hose storage is reduced.

The invention provides an auxiliary device for hose winding and unwinding, which comprises a transmission belt mechanism, a bearing plate and two transmission clamping mechanisms, wherein the transmission belt mechanism is axially arranged along an X axis, the bearing plate is positioned below the bottom of the transmission belt mechanism, and the two transmission clamping mechanisms are arranged at two ends of the transmission belt mechanism;

the conveying belt mechanism is in sliding fit on the bearing plate based on the first sliding block guide rail mechanism;

the transmission clamping mechanism comprises a driving part, a transmission shaft and a clamping roller, wherein the driving part is in driving connection with the transmission shaft, and a gap for a hose to pass through is formed between the clamping roller and the transmission shaft;

the flexible pipe is folded and overlapped in the storage space.

Further, a base is arranged on the bearing plate, and the first slider guide rail mechanism is arranged on the base;

the first slider guide rail mechanism comprises a first linear guide rail and a plurality of first sliders, the first sliders are fixed at the bottom of the conveyor belt mechanism, and the first linear guide rail is arranged on the base;

the conveying belt mechanism is in sliding fit on the first linear guide rail of the base based on the plurality of first sliding blocks.

Further, a first driving device is arranged at the bottom of the transmission belt mechanism and comprises a first driving motor, a transmission rod and a transmission rack, and the transmission rack is fixed on two sides of the base;

the middle part of transfer line is provided with the driving gear, first driving motor drive is connected the driving gear, the both ends of transfer line all are provided with drive gear, the transfer line based on drive gear with the transmission rack meshing.

Further, the transmission belt mechanism comprises two frames which are axially arranged in parallel along the X-axis and a transmission belt which is positioned between the two frames;

two rotating rollers are arranged between the two frames, and the transmission belt is sleeved on the two rotating rollers.

Further, the two rotating rollers are rotatably arranged between the two frames, and the two rotating rollers are parallel to each other.

Further, one end of the transmission belt mechanism is set to be a first winding and unwinding end, and the other end of the transmission belt mechanism is set to be a second winding and unwinding end;

the two transmission clamping mechanisms are respectively arranged on the first winding and unwinding end and the second winding and unwinding end.

Further, the transmission clamping mechanism further comprises an adjusting mechanism;

the adjusting mechanism is arranged on the side wall of the conveying belt mechanism, the clamping roller is arranged on the adjusting mechanism, and the adjusting mechanism is used for adjusting the distance between the clamping roller and the transmission shaft.

Further, the transmission clamping mechanism positioned at the first winding and unwinding end further comprises an auxiliary roller, and the auxiliary roller is used for adjusting the angle of the hose entering the transmission belt mechanism.

Further, a clamping roller of the transmission clamping mechanism positioned at the first retraction end is arranged above the transmission shaft;

the clamping roller of the transmission clamping mechanism positioned at the second folding end is arranged at the side edge of the transmission shaft.

Further, the auxiliary device for hose winding and unwinding also comprises a second slider guide rail mechanism, wherein the second slider guide rail mechanism comprises a second linear guide rail and a plurality of second sliders which are axially arranged along the Y axis;

the base is in based on the second linear guide rail of the bearing plate, and the plurality of second sliding blocks are in sliding fit with the base.

The invention provides an auxiliary device for hose winding and unwinding, which is used for conveying a hose to a bearing plate by arranging a transmission belt mechanism and a transmission clamping mechanism in a matched manner, and driving the hose to be folded and stored on the bearing plate by matching with the reciprocating motion of the transmission belt mechanism on the bearing plate, so that the arrangement uniformity of the hose is improved, and the occupied space for storing the hose is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings which are required in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an auxiliary device for hose winding and unwinding in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of a first slider rail mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a first driving device according to an embodiment of the present invention;

FIG. 4 is a schematic view of a conveyor belt mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic view of a transmission clamping mechanism at a first retractable end according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a transmission clamping mechanism at a second retractable end according to an embodiment of the present invention;

FIG. 7 is a schematic view of a second slider rail mechanism according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a second driving device according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 shows a schematic diagram of an auxiliary device for winding and unwinding a hose according to an embodiment of the present invention, where the auxiliary device for winding and unwinding a hose includes a conveyor belt mechanism 2 arranged along an X-axis, a carrier plate 1 located below a bottom of the conveyor belt mechanism 2, and two transmission clamping mechanisms 4 disposed at two ends of the conveyor belt mechanism 2, and a first slider rail mechanism 3 is disposed on the carrier plate 1, and the conveyor belt mechanism 2 is slidably fitted on the carrier plate 1 based on the first slider rail mechanism 3.

Specifically, the carrying plate 1 is used for placing and accommodating the hose, a preset interval is arranged between the carrying plate 1 and the conveying belt mechanism 2, and a storage space for accommodating the hose is formed between the conveying belt mechanism 2 and the carrying plate 1 at the preset interval, so that the hose is folded and folded in the storage space of the carrying plate 1.

Specifically, fig. 2 shows a schematic structural diagram of a first slider rail mechanism in the embodiment of the present invention, a base 11 is disposed on the carrier board 1, the first slider rail mechanism 3 is disposed on the base 11, the first slider rail mechanism 3 includes a first linear rail 31 and a plurality of first sliders 32, the plurality of first sliders 32 are fixed at the bottom of the conveyor belt mechanism 2, the conveyor belt mechanism 2 is slidably engaged on the first linear rail 31 based on the plurality of first sliders 32, and the conveyor belt mechanism 2 can slide on the carrier board 1.

Further, two first linear guide rails 31 are arranged on the carrying plate 1, the two first linear guide rails 31 are symmetrically distributed on two sides of the base 11 of the carrying plate 1, and stability of sliding fit between the conveying belt mechanism 2 and the carrying plate 1 can be improved through the two first linear guide rails 31.

Specifically, fig. 3 shows a schematic diagram of a first driving device structure in the embodiment of the present invention, a first driving device 5 is disposed at the bottom of the conveyor belt mechanism 2, the first driving device 5 includes a first driving motor 51, a transmission rod 52 and a transmission rack 53, in this embodiment, the first driving device 5 is provided with two transmission rods 52 and two transmission racks 53, the two transmission racks 53 are respectively fixed on two sides of the base 11, one end of the transmission rod 52 is provided with a driving gear 521, the first driving motor 51 is connected to the driving gear 521 through a gear transmission mechanism, and the other end of the transmission rod 52 is provided with a transmission gear 522, and the transmission rod 52 is meshed with the transmission racks 53 based on the transmission gear 522. The first driving motor 51 drives the driving gear 521 to rotate, thereby driving the driving rod 52 to rotate, so that the driving rod 52 can move on the driving rack 53 based on the driving gears 522 at both ends.

Further, when the auxiliary device for winding and unwinding the hose works, the first driving device 5 is used for driving the conveyor belt mechanism 2 to slide on the carrying plate 1, so as to drive the hose to be folded and stored on the carrying plate 1.

Specifically, fig. 4 shows a schematic diagram of a structure of a belt mechanism in an embodiment of the present invention, where the belt mechanism 2 includes two frames 21 disposed in parallel along an X-axis direction, a transmission belt 22 disposed between the two frames 21, two rotating rollers 211 disposed between the two frames 21, the transmission belt 22 being sleeved on the two rotating rollers 211, the two rotating rollers 211 being rotatably connected between the two frames 21, and the two rotating rollers 211 being parallel to each other, and when a hose is wound and unwound, the belt mechanism 2 may rotate to drive the hose to move along a length direction of the transmission belt 22, and assist the hose to move by the transmission belt 22, thereby improving convenience and reliability of winding and unwinding the hose.

Further, the hose covers the transmission belt 22 along the length direction, so that enough friction force exists between the hose and the transmission belt 22, slipping of the hose and the transmission belt 22 in the transmission process is avoided, the hose can be kept in a tiled state on the transmission belt 22 for transmission and movement, reliability of folding and storage of the hose is improved, and hose folds and blocking of the hose on the transmission belt mechanism 2 are avoided.

Specifically, fig. 5 shows a schematic diagram of a transmission clamping mechanism structure at a first winding and unwinding end in the embodiment of the present invention, fig. 6 shows a schematic diagram of a transmission clamping mechanism structure at a second winding and unwinding end in the embodiment of the present invention, one end of the transmission belt mechanism 2 is set to be a first winding and unwinding end 23, the other end of the transmission belt mechanism 2 is set to be a second winding and unwinding end 24, two transmission clamping mechanisms 4 are respectively set on the first winding and unwinding end 23 and the second winding and unwinding end 24, the transmission clamping mechanism 4 includes a driving component 41, a transmission shaft 42 and a clamping roller 43, the transmission shaft 42 is set in the transmission belt mechanism 2, and the top of the transmission shaft 42 is level with a transmission belt 22 of the transmission belt mechanism 2 so as to drive a hose to move on the transmission belt 22. The driving member 41 is connected to the driving shaft 42, a gap is formed between the clamping roller 43 and the driving shaft 42 for a hose to pass through, and the hose extends out of the conveyor mechanism 2 from the gap of the driving clamping mechanism 4 of the second winding and unwinding end 24 after passing through the gap of the driving clamping mechanism 4 of the first winding and unwinding end 23.

Further, the driving component 41 may be a driving motor, and is configured to drive the transmission shaft 42 to rotate, and when the hose is fitted in the gap, the hose is driven to move in the conveyor mechanism 2 by driving the transmission shaft 42 to rotate.

Specifically, the transmission clamping mechanism 4 is further provided with an adjusting mechanism 44, the adjusting mechanism 44 comprises an execution cylinder, an installation seat and a transmission connecting rod, the installation seat is arranged on the frame 21, the execution cylinder is fixed on the installation seat, one end of the transmission connecting rod is arranged on the output end of the execution cylinder, the other end of the transmission connecting rod is connected with the clamping roller 43, the execution cylinder can drive the transmission connecting rod to move, so that the clamping roller 43 is driven to be close to or far away from the transmission shaft 42, the distance between the clamping roller 43 and the transmission shaft 42 is adjusted, and the gap between the clamping roller and the transmission shaft 42 is adjusted through the adjusting mechanism 44, so that the clamping fixation of a hose is realized.

Further, the transmission clamping mechanism 4 is provided with two clamping rollers 43 and two adjusting mechanisms 44, the two adjusting mechanisms 44 are symmetrically arranged on the two frames 21, the two clamping rollers 43 are symmetrically arranged outside one end side wall of the transmission shaft 42, and the stability of the transmission clamping mechanism 4 to hose clamping can be improved through the two clamping rollers 43 and the two adjusting mechanisms 44.

Specifically, referring to fig. 5, the transmission clamping mechanism 4 located at the first retraction end 23 further includes an auxiliary roller 45, the first retraction end 23 of the conveyor belt mechanism 2 is provided with an installation portion, the auxiliary roller 45 is rotatably disposed in the installation portion, the driving component 41 is disposed in the auxiliary roller 45, the driving component 41 may drive the auxiliary roller 45 to rotate, and the auxiliary roller 45 is connected with the transmission shaft 42 based on a transmission chain, so that the transmission shaft 42 may rotate synchronously with the auxiliary roller 45, and the auxiliary roller 45 is used for assisting rotation and input of a hose.

Further, when the auxiliary device for winding and unwinding the hose works, the auxiliary roller 45 can adjust the input angle when the hose is wound, so that the hose can be smoothly input into the transmission clamping mechanism 4 of the first winding and unwinding end 23, and is conveyed into the transmission clamping mechanism 4 of the second winding and unwinding end 24 through the conveying belt mechanism 2.

Further, the auxiliary roller 45 can increase the contact area between the hose and the transmission clamping mechanism 4, and provide initial transmission power for conveying the hose, so as to improve the convenience of conveying and storing the hose.

Specifically, referring to fig. 5, the clamping roller 43 of the transmission clamping mechanism 4 is disposed above the transmission shaft 42, that is, the gap distance between the clamping roller 43 and the transmission shaft 42 is adjusted along the Z-axis direction, and when the hose passes through the transmission clamping mechanism 4 of the first receiving and releasing end 23, the clamping roller 43 of the transmission clamping mechanism 4 can flatten the hose, so that the hose is kept in a flat state, thereby improving the reliability of folding and storing the hose.

Specifically, referring to fig. 6, the adjusting mechanism 44 and the clamping roller 43 of the driving clamping mechanism 4 at the second winding and unwinding end 24 are disposed at the side of the transmission shaft 42, that is, the adjustment of the distance between the clamping roller 43 and the transmission shaft 42 is adjusted along the axial direction of the X axis, and when the hose is output from the driving clamping mechanism 4 at the second winding and unwinding end 24, the clamping roller 43 of the driving clamping mechanism 4 can adjust the output direction of the hose, so that the hose can be output along the Z axis direction, that is, vertically output along the vertical direction to the carrier plate 1.

Specifically, the driving component 41 of the transmission clamping mechanism 4 located at the second winding and unwinding end 24 is disposed at a side edge of the transmission belt mechanism 2, the driving component 41 is connected to the transmission shaft 42 through a driving chain, and the driving component 41 drives the rotating roller 211 connected to the transmission belt mechanism 2, that is, the driving component 41 drives the transmission belt mechanism 2 and the transmission shaft 42 to work at the same time, so that the transmission belt mechanism 2 and the transmission clamping mechanism 4 rotate synchronously to drive the hose to transmit.

Further, when the hose is stored, the operator enters the hose into the conveyor mechanism 2 through the first winding and unwinding end 23 of the conveyor mechanism 2, adjusts the input angle of the hose through the transmission clamping mechanism 4 of the first winding and unwinding end 23, and vertically outputs the hose into the carrier plate 1 from the second winding and unwinding end 24 of the conveyor mechanism 2.

Specifically, the auxiliary device for hose winding and unwinding has the following working principle: when an operator stores the hose, one end of the hose is stretched to the transmission clamping mechanism 4 of the second storage end 24 after passing through the gap of the transmission clamping mechanism 4 of the first storage end 23, and is output to the carrier plate 1 through the gap of the transmission clamping mechanism 4 of the second storage end 24. When the driving part 41 of the transmission clamping mechanism 4 drives the transmission shaft 42 to rotate, the hose can be driven by the transmission shaft 42 to move, the first driving device 5 drives the transmission belt mechanism 2 to synchronously move, so that the transmission belt mechanism 2 synchronously conveys the hose in the moving process, at this time, the moving direction of the transmission belt mechanism 2 is opposite to the conveying direction of the hose, namely, the transmission belt mechanism 2 moves along the positive axis direction of the X axis, and the hose is conveyed along the negative axis direction of the X axis, so that the hose can be laid on the bearing plate 1 along the length direction of the bearing plate 1.

Further, after the first driving device 5 drives the conveyor belt mechanism 2 to move to a preset position, the driving component of the transmission clamping mechanism 4 stops driving, the conveying operation of the hose is interrupted, the hose is fixed on the conveyor belt mechanism 2 through the adjusting mechanism 44 and the clamping roller 43, the first driving device 5 drives the conveyor belt mechanism 2 to move reversely for a preset distance, so that the hose extending outside at the second winding and unwinding end 24 can be folded for a certain angle, the driving component of the transmission clamping mechanism 4 starts to work and drives the hose to convey, the first driving device 5 continues to drive the conveyor belt mechanism 2 to move, so that the movement of the conveyor belt mechanism 2 and the conveying of the hose are synchronously performed, at this time, the moving direction of the conveyor belt mechanism 2 is identical to the conveying direction of the hose, and the conveyor belt mechanism 2 is reset under the driving of the first driving device 5, so that the hose can be folded and covered after being laid on one layer of the bearing plate 1, and folded and laid on another layer of the bearing plate are folded and laid, and a folded and laid structure is formed.

Further, when the conveyor belt mechanism 2 is reset, the driving part 41 of the transmission clamping mechanism 4 stops driving operation, and the operation is repeated, so that the hose folded multi-layer is stored on the carrying plate 1.

Specifically, fig. 7 shows a schematic diagram of a second slider rail mechanism structure in the embodiment of the present invention, the auxiliary device for hose retraction is further provided with a second slider rail mechanism 6, the second slider rail mechanism 6 is disposed at the bottom of the base 11, the second slider rail mechanism 6 includes a second linear rail 61 axially arranged along the Y axis and a plurality of second sliders 62 slidably engaged with the second linear rail 61, the plurality of second sliders 62 are fixed at the bottom of the base 11, the second linear rail 61 is disposed on the carrier plate 1, and the base 11 can move axially along the Y axis on the second linear rail 61 based on the plurality of second sliders 62.

Further, fig. 8 shows a schematic diagram of a second driving device structure in the embodiment of the present invention, the second driving device 7 includes a second driving motor 71, a mating rack 72 and a plurality of gear transmission rods 73, the mating rack 72 is disposed on the carrier plate 1 and is located at a side of the second linear guide 61, the second driving motor 71 is disposed on the base 11, the plurality of gear transmission rods 73 includes a plurality of gear transmission rods 73 with bevel gears and more than one gear transmission rods 73 with spur gears, the spur gears of the gear transmission rods 73 are meshed with the mating rack 72, the second driving motor 71 is connected with the gear transmission rods 73 in a driving manner, and drives the gear transmission rods 73 to move on the mating rack 72, so as to drive the base 11 to move along a length direction of the second linear guide 61, thereby driving the conveyor belt mechanism 2 on the base 11 to move axially along the Y axis, and adjusting the relative position of the conveyor belt mechanism 2 on the carrier plate 1.

Further, the second slider rail mechanisms 6 are disposed on two sides of the carrying plate 1, and the second driving motor 71 may synchronously drive the second slider rail mechanisms 6 on two sides through the plurality of gear transmission rods 73, so that the base 11 and the conveyor belt mechanism 2 may move in the Y-axis axial direction smoothly.

Further, by setting the second slider guide rail mechanism 6 and the second driving device 7 to adjust the relative position of the conveying belt mechanism 2 on the carrying board 1, the hoses can be arranged on the carrying board 1 in a manner of folding and folding in multiple groups, so that the utilization efficiency of the storage space of the carrying board 1 is improved, and the uniformity of hose storage is improved.

Further, when the hose is used, the driving component 41 of the transmission clamping mechanism 4 can be used for reversing, so that the conveying pipe is driven to convey in the opposite direction, the hose is output from the first winding and unwinding end 23, and in the process of pipeline output, the first driving device 5 can stop working, and only the position of the conveying belt mechanism 2 needs to be timely adjusted by means of the second driving device 7, so that the hose can be continuously conveyed to the outside for use by matching with the transmission clamping mechanism 4.

The embodiment of the invention provides an auxiliary device for hose winding and unwinding, which is used for conveying a hose to a bearing plate 1 by arranging a transmission belt mechanism 2 and a transmission clamping mechanism 4 in a matched manner, and driving the hose to be folded and stored on the bearing plate 1 by matching with the reciprocating motion of the transmission belt mechanism on the bearing plate 1, so that the arrangement uniformity of the hose is improved, and the occupied space for hose storage is reduced.

In addition, the auxiliary device for hose winding and unwinding provided by the embodiment of the present invention has been described in detail, and specific examples should be adopted herein to illustrate the principles and embodiments of the present invention, and the description of the above examples is only for helping to understand the method and core ideas of the present invention; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present invention, the present description should not be construed as limiting the present invention in view of the above.

Claims (7)

1. The auxiliary device for hose winding and unwinding is characterized by comprising a transmission belt mechanism, a bearing plate and two transmission clamping mechanisms, wherein the transmission belt mechanism is axially arranged along an X axis, the bearing plate is positioned below the bottom of the transmission belt mechanism, and the two transmission clamping mechanisms are arranged at two ends of the transmission belt mechanism;

the conveying belt mechanism is in sliding fit on the bearing plate based on the first sliding block guide rail mechanism;

the transmission clamping mechanism comprises a driving part, a transmission shaft and a clamping roller, wherein the driving part is in driving connection with the transmission shaft, and a gap for a hose to pass through is formed between the clamping roller and the transmission shaft;

a preset interval is arranged between the transmission belt mechanism and the bearing plate, the preset interval forms a storage space for accommodating a hose, and the hose is folded and overlapped in the storage space;

the transmission belt mechanism comprises two frames which are axially and parallelly arranged along the X-axis and a transmission belt which is positioned between the two frames;

two rotating rollers are arranged between the two frames, the transmission belt is sleeved on the two rotating rollers and used for assisting the movement of a hose, and the hose is covered on the transmission belt along the length direction;

one end of the transmission belt mechanism is set to be a first winding and unwinding end, the other end of the transmission belt mechanism is set to be a second winding and unwinding end, and the two transmission clamping mechanisms are respectively arranged on the first winding and unwinding end and the second winding and unwinding end;

the clamping roller of the transmission clamping mechanism positioned at the first folding end is arranged above the transmission shaft;

the clamping roller of the transmission clamping mechanism positioned at the second folding end is arranged at the side edge of the transmission shaft.

2. The auxiliary device for winding and unwinding a hose according to claim 1, wherein a base is provided on the carrier plate, and the first slider rail mechanism is provided on the base;

the first slider guide rail mechanism comprises a first linear guide rail and a plurality of first sliders, the first sliders are fixed at the bottom of the conveyor belt mechanism, and the first linear guide rail is arranged on the base;

the conveying belt mechanism is in sliding fit on the first linear guide rail of the base based on the plurality of first sliding blocks.

3. The auxiliary device for winding and unwinding the hose according to claim 2, wherein a first driving device is arranged at the bottom of the transmission belt mechanism, and comprises a first driving motor, a transmission rod and a transmission rack, wherein the transmission rack is fixed at two sides of the base;

the middle part of transfer line is provided with the driving gear, first driving motor drive is connected the driving gear, the both ends of transfer line all are provided with drive gear, the transfer line based on drive gear with the transmission rack meshing.

4. The auxiliary device for winding and unwinding a hose according to claim 1, wherein two of the rotating rollers are rotatably disposed between two of the rims, and the two rotating rollers are parallel to each other.

5. The auxiliary device for winding and unwinding a hose according to claim 1, wherein the transmission clamping mechanism further comprises an adjustment mechanism;

the adjusting mechanism is arranged on the side wall of the conveying belt mechanism, the clamping roller is arranged on the adjusting mechanism, and the adjusting mechanism is used for adjusting the distance between the clamping roller and the transmission shaft.

6. The auxiliary device for winding and unwinding a hose according to claim 5, wherein the driving clamping mechanism at the first winding and unwinding end further comprises an auxiliary drum for adjusting an angle of the hose into the conveyor mechanism.

7. The auxiliary device for hose winding and unwinding according to claim 2, further comprising a second slider rail mechanism including a second linear rail and a plurality of second sliders arranged axially along the Y-axis;

the base is in based on the second linear guide rail of the bearing plate, and the plurality of second sliding blocks are in sliding fit with the base.