CN114888003A - Inner wall deoiling equipment of internal thread copper pipe - Google Patents

Abstract

The invention provides oil removing equipment for the inner wall of an internal thread copper pipe, which comprises a supporting structure for supporting the internal thread copper pipe, a heating system arranged above the supporting structure, a water spraying structure and a ventilation structure, wherein the water spraying structure and the ventilation structure are arranged at one end of the internal thread copper pipe; the device also comprises a moving seat component which can move towards the central axis direction of the internal thread copper pipe, a lower track arranged below the moving seat component, and a rotary wiping structure arranged on the moving seat component, wherein the rotary wiping structure is provided with a clamping structure. A first material platform and a second material platform are respectively arranged on two sides of the lower track, an oil pipe to be removed is arranged on the first material platform, and an oil pipe which is removed is arranged on the second material platform. The inner wall oil removing equipment for the inner threaded copper pipe provided by the invention can efficiently remove oil stains on the inner wall of the inner threaded copper pipe, simultaneously realizes comprehensive technical effects of transferring, cleaning and annealing, and improves the production efficiency.

Description

Inner wall deoiling equipment of internal thread copper pipe

Technical Field

The invention relates to the technical field of cleaning of inner walls of pipes, in particular to inner wall oil removing equipment for an internal thread copper pipe.

Background

The internal thread copper pipe is a red copper pipe with a smooth outer surface and a certain number of regular threads on the inner surface, and during the manufacturing process of the internal thread of the copper pipe, some copper scraps and oil stains are often present on the inner wall of the thread copper pipe, so that the internal thread copper pipe is required to be cleaned in the existing manufacturing process of the internal thread of the copper pipe.

At present, the cleaning process of the internally threaded copper pipe has some problems:

(1) the traditional internal thread copper pipe is generally cleaned in a manner of bundling, intensively soaking for degreasing, repeatedly hoisting, and taking out copper scraps by water flow, and the cleaning manner is long in cleaning time, and the external wall of the internal thread copper pipe is easily damaged by utilizing the bundling manner for cleaning;

in addition, the oil is insoluble in water, and oil stain residues exist on the inner wall of the copper pipe more or less;

(2) because the inner wall of the internal thread copper pipe is in a thread structure, the water flow cannot easily clean copper scraps on the inner wall of the internal thread copper pipe, and some copper scraps can be adhered to the inner wall of the copper pipe, so that the cleaning effect is poor.

A new thought is proposed in this scheme to solve the inner wall deoiling problem of internal thread copper pipe.

Disclosure of Invention

The invention aims to provide equipment and a method for removing oil on the inner wall of an internal thread copper pipe, which solve the technical problem of how to efficiently remove oil stains on the inner wall of the internal thread copper pipe, realize the comprehensive technical effects of transferring, cleaning and annealing, and improve the production efficiency.

An oil removing device for the inner wall of an internal thread copper pipe comprises a supporting structure for supporting the internal thread copper pipe, a heating system arranged above the supporting structure, a water spraying structure and a ventilation structure, wherein the water spraying structure and the ventilation structure are arranged at one end of the internal thread copper pipe;

the device comprises a moving seat assembly, a lower rail and a rotary wiping structure, wherein the moving seat assembly moves along the central axis direction of the internal thread copper pipe, the lower rail is arranged below the moving seat assembly, the rotary wiping structure is arranged on the moving seat assembly, and a clamping structure is arranged on the rotary wiping structure.

The two sides of the lower track are respectively provided with a first material platform and a second material platform, the first material platform is provided with an oil pipe to be removed, and the second material platform is provided with a removed oil pipe.

The heating system comprises an electromagnetic induction heater, a rotary cylinder connected above the electromagnetic induction heater, a lifting cylinder connected above the rotary cylinder, and a moving plate arranged above the lifting cylinder, wherein a power wheel is arranged on the moving plate, and the power wheel is movably arranged in the upper track;

the electromagnetic induction heater is provided with two lifting rings, the two lifting rings are coaxially arranged at two ends of the heating coil respectively, and the lifting rings and the heating coil are internally provided with a to-be-removed oil pipe in a separable penetrating mode.

The ventilation structure comprises a fan and an air pipe arranged on the fan, wherein one end of the air pipe is detachably connected with one end of the internal thread copper pipe.

The water spraying structure comprises a water tank, a liquid pump arranged on the water tank, and a water spraying pipe, wherein one end of the water spraying pipe is connected with the liquid pump, and the other end of the water spraying pipe is detachably connected with one end of the internal thread copper pipe.

The rotary wiping structure comprises a rotary drum, a telescopic rod arranged in the rotary drum in a sliding manner, an electric push rod connected with the outer end of the telescopic rod, an end plate I arranged at one end of the rotary drum, and a protection drum sleeved outside the electric push rod and connected with the end plate I, wherein the protection drum is connected with a rotary power mechanism;

the other end of the rotary drum is provided with a plurality of protruding rods and a second end plate connected with the outer ends of the protruding rods in an annular array, the inner end of each telescopic rod is provided with a plurality of extrusion blocks, and each extrusion block is arranged between every two adjacent protruding rods;

rags are wound outside the protruding rods.

The clamping structure is arranged on the outer side of the protection cylinder; the clamping structure comprises a telescopic cylinder arranged outside the protection barrel and a clamping cylinder connected with the telescopic cylinder, wherein a first arc plate and a second arc plate are arranged on the clamping cylinder, an oil pipe is to be removed by clamping between the first arc plate and the second arc plate, and the oil pipe to be removed is stacked on a first material platform.

A collecting structure is arranged below the other end of the internal thread copper pipe and is connected with the water tank through a water circulation structure;

the collecting structure comprises a collecting box, supporting plates arranged on two sides of the collecting box and a splash guard arranged above the collecting box;

the water circulation structure comprises a water pump, a first water pipe and a second water pipe, wherein the first water pipe and the second water pipe are respectively arranged at two ends of the water pump, the first water pipe is connected with the water tank, and the second water pipe is connected with the collecting box.

The supporting structure comprises a supporting seat arranged at one end of the internal thread copper pipe and a supporting plate arranged at the other end of the internal thread copper pipe, wherein a supporting arc plate is arranged on one side of the supporting seat, a butt joint pipe is arranged above the supporting arc plate and penetrates through the supporting seat, and one end of the butt joint pipe is inserted into the internal thread copper pipe.

The movable seat assembly comprises a front movable seat and a rear movable seat which are arranged in parallel, one end of the protection cylinder is arranged on the front movable seat through a first bearing, the other end of the protection cylinder is coaxially provided with a rotating shaft, the rotating shaft is arranged on the rear movable seat through a second bearing, and the rotating shaft is connected with a motor through a transmission belt;

the bottom ends of the front moving seat and the rear moving seat are respectively provided with a moving wheel.

The invention achieves the following remarkable effects:

(1) be provided with electromagnetic induction heater in this scheme, be provided with rings on the electromagnetic induction heater to the cooperation ventilation structure has realized following two technological effects: firstly, the internal thread copper pipe is lifted, so that the transfer process of the internal thread copper pipe is facilitated, and secondly, under the condition of electromagnetic induction heating of the internal thread copper pipe, oil stains on the inner side wall of the internal thread copper pipe are oxidized and reacted with a large amount of introduced air to generate carbon dioxide, water or other impurities, so that the oil stains are removed cleanly and thoroughly;

thirdly, the low-temperature annealing temperature of the internal thread copper pipe is 260-300 ℃, the internal thread copper pipe is mainly internally filled with drawing oil, and the base material of the drawing oil is mineral base oil, so that the drawing oil can be basically combusted within the low-temperature annealing temperature range of the internal thread copper pipe, and the induction heating also has the technical effect of annealing the internal thread copper pipe;

(2) the scheme is provided with the water spraying structure, and after the heating of the internal thread copper pipe is finished, water is sprayed into the internal thread copper pipe, so that on one hand, the inner wall of the internal thread copper pipe is washed, and burnt impurities are washed out, on the other hand, the technical effect of annealing water cooling is achieved, the internal thread copper pipe is rapidly cooled, and the mechanical property of the internal thread copper pipe is ensured;

(3) the cleaning cloth is tightly pressed and mounted, the rotary drum gradually extends into the copper pipe along with the movement of the front and rear moving seat, the cleaning cloth continuously cleans the inner wall of the copper pipe, moisture and impurities are removed, and the cleanliness of the internal thread copper pipe is improved;

(4) with clamping structure setting on a protection section of thick bamboo, realized multi-functional technological effect, firstly a protection section of thick bamboo rotates under the effect of motor, and then drives clamping structure and be swing motion, will expect that the pipe clamp of treating that the bench is first gets up, send into the below of electromagnetic induction heater to can also with the internal thread copper pipe centre gripping after the deoiling, send to material bench two on, simplify equipment, the cost is reduced has promoted the production efficiency of internal thread copper pipe deoiling.

Drawings

Fig. 1 is a working state diagram of an inner wall oil removing device in an embodiment of the invention.

Fig. 2 is a schematic view of an installation structure of a rotary wiping structure in an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a rotary wiping structure in an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a clamping structure according to an embodiment of the invention.

Fig. 5 is a schematic structural diagram of a heating and cleaning device in an embodiment of the invention.

FIG. 6 is a schematic view of a connection structure between a support base and a water tank according to an embodiment of the present invention.

Wherein the reference numerals are: 1. a first material platform; 2. a pipe to be degreased; 3. a lower rail; 4. a rear moving seat; 41. a forward moving seat; 5. a motor; 6. a material platform II; 7. the oil pipe is removed; 8. a protective cylinder; 81. a rotating shaft; 82. an electric push rod; 83. a telescopic rod; 84. extruding the block; 9. a clamping structure; 91. a telescopic cylinder; 92. a clamping cylinder; 93. a first arc plate; 94. a second arc plate; 10. a rotating drum; 101. a wipe; 102. a first end plate; 103. a second end plate; 105. a protruding rod; 11. an upper rail; 12. moving the plate; 13. a fan; 131. an air duct; 14. a water tank; 141. a liquid pump; 142. a water spray pipe; 15. a supporting seat; 151. supporting the arc plate; 152. a groove is embedded; 153. butt-joint pipes; 16. a water pump; 161. a first water pipe; 17. an internal threaded copper tube; 18. a water pipe II; 19. a heating coil; 20. a hoisting ring; 21. a collection box; 211. a support plate; 212. a splash guard; 22. a rotating cylinder; 23. a lifting cylinder; 24. a support structure; 25. a heating system; 26. a water spray structure; 27. a ventilation structure; 28. a moving seat assembly; 29. a rotating wiping structure.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is described below by way of specific embodiments.

Referring to fig. 1-6, an inner wall degreasing device for an internal thread copper pipe comprises a supporting structure 24 for supporting an internal thread copper pipe 17, a heating system 25 arranged above the supporting structure 24, a water spraying structure 26 and a ventilation structure 27 arranged at one end of the internal thread copper pipe 17, wherein the heating system 25 is slidably arranged on an upper rail 11;

the device further comprises a moving seat assembly 28 moving along the central axis direction of the internal thread copper pipe 17, a lower rail 3 arranged below the moving seat assembly 28, and a rotary wiping structure 29 arranged on the moving seat assembly 28, wherein a clamping structure 9 is arranged on the rotary wiping structure 29.

Two sides of the lower rail 3 are respectively provided with a first material platform 1 and a second material platform 6, the first material platform 1 is provided with an oil pipe 2 to be removed, and the second material platform 6 is provided with an oil pipe 7 to be removed.

The heating system 25 comprises an electromagnetic induction heater, a rotary cylinder 22 connected above the electromagnetic induction heater, a lifting cylinder 23 connected above the rotary cylinder 22, and a moving plate 12 arranged above the lifting cylinder 23, wherein a power wheel is arranged on the moving plate 12, and the power wheel is movably arranged in the upper rail 11;

the electromagnetic induction heater is provided with two lifting rings 20, the two lifting rings 20 are respectively coaxially arranged at two ends of the heating coil 19, and the lifting rings 20 and the heating coil 19 are detachably provided with the oil pipe 2 to be removed in a penetrating manner.

The ventilation structure 27 comprises a fan 13 and an air pipe 131 arranged on the fan 13, wherein one end of the air pipe 131 is detachably connected with one end of the internal thread copper pipe 17.

The water spraying structure 26 includes a water tank 14, a liquid pump 141 disposed on the water tank 14, and a water spraying pipe 142 having one end connected to the liquid pump 141, and the other end of the water spraying pipe 142 is detachably connected to one end of the internal threaded copper pipe 17.

The rotary wiping structure 29 comprises a rotary drum 10, an expansion rod 83 arranged in the rotary drum 10 in a sliding manner, an electric push rod 82 connected with the outer end of the expansion rod 83, an end plate I102 arranged at one end of the rotary drum 10, and a protection drum 8 sleeved outside the electric push rod 82 and connected with the end plate I102, wherein the protection drum 8 is connected with a rotary power mechanism;

the rotating power mechanism comprises a motor 5 and a transmission belt.

The other end of the rotary drum 10 is provided with a plurality of protruding rods 105 and a second end plate 103 connected with the outer ends of the protruding rods 105 in an annular array, the inner end of the telescopic rod 83 is provided with a plurality of extrusion blocks 84, and the extrusion blocks 84 are arranged between two adjacent protruding rods 105;

the outside of the protruding rods 105 is wrapped with the cloth 101.

A clamping structure 9 is arranged on the outer side of the protection cylinder 8; the clamping structure 9 comprises a telescopic cylinder 91 arranged outside the protective cylinder 8 and a clamping cylinder 92 connected with the telescopic cylinder 91, wherein a first arc plate 93 and a second arc plate 94 are arranged on the clamping cylinder 92, the first arc plate 93 and the second arc plate 94 are clamped between the first arc plate 93 and the second arc plate 94 to be removed with the oil pipe 2, and the plurality of pipes 2 to be removed with the oil are stacked on the first material table 1.

A collecting structure is arranged below the other end of the internal thread copper pipe 17 and is connected with the water tank 14 through a water circulation structure;

the collecting structure comprises a collecting box 21, supporting plates 211 arranged at two sides of the collecting box 21 and a splash guard 212 arranged above the collecting box 21;

the water circulation structure comprises a water pump 16, and a first water pipe 161 and a second water pipe 18 which are respectively arranged at two ends of the water pump 16, wherein the first water pipe 161 is connected with the water tank 14, and the second water pipe 18 is connected with the collecting tank 21.

The supporting structure 24 comprises a supporting seat 15 arranged at one end of the inner threaded copper pipe 17 and a supporting plate 211 arranged at the other end of the inner threaded copper pipe 17, a supporting arc plate 151 is arranged on one side of the supporting seat 15, a butt joint pipe 153 is arranged above the supporting arc plate 151, the butt joint pipe 153 penetrates through the supporting seat 15, and one end of the butt joint pipe 153 is inserted into the inner threaded copper pipe 17.

Preferably, the support seat 15 and the upper side of the support arc plate 151 are provided with the embedded groove 152, and after the copper pipe is supported on the support arc plate 151, one end of the copper pipe enters the embedded groove 152, so that the copper pipe is blocked, and a large amount of water leakage is avoided; since the support base 15 is provided in the water tank 14, even if water leaks, the water enters the water tank 14.

The moving seat assembly 28 comprises a front moving seat 41 and a rear moving seat 4 which are arranged in parallel, one end of the protection cylinder 8 is arranged on the front moving seat 41 through a first bearing, the other end of the protection cylinder 8 is coaxially provided with a rotating shaft 81, the rotating shaft 81 is arranged on the rear moving seat 4 through a second bearing, and the rotating shaft 81 is connected with the motor 5 through a transmission belt;

the bottom ends of the front moving seat 41 and the rear moving seat 4 are respectively provided with a moving wheel.

The specific working process of the invention is as follows:

the device is prepared and assembled according to the description of the technical features. The method comprises the following steps that a pipe 2 to be degreased is arranged on a material platform I1, a motor 5 is started, a clamping structure 9 is enabled to rotate to the direction of the material platform I1, a telescopic cylinder 91 and a clamping cylinder 92 are adjusted, the pipe 2 to be degreased is clamped by a first arc plate 93 and a second arc plate 94, and due to the fact that the upper end face of the material platform I1 is an inclined face, a plurality of pipes 2 to be degreased are arranged on the inclined face, and after one pipe 2 to be degreased is clamped, the rest pipes 2 to be degreased naturally fall;

under the action of the motor 5, the protection cylinder 8 rotates, the protection cylinder 8 is coaxially connected with the rotating shaft 81, the motor 5 drives the rotating shaft 81 to drive the protection cylinder 8 to rotate, when the pipe 2 to be degreased rotates right above the protection cylinder 8, the motor 5 stops, the front moving seat 41 and the rear moving seat 4 move forwards to drive the pipe 2 to be degreased to move towards the electromagnetic induction heater, so that the copper pipe penetrates through the lifting ring 20 and the heating coil 19, then the clamping cylinder 92 is separated from the pipe 2 to be degreased, and the pipe 2 to be degreased is driven to be placed on the supporting structure 24 under the action of the power wheel on the moving plate 12;

the air pipe 131 is connected with the butt joint pipe 153, the fan 13 is started to blow air into the internal thread copper pipe 17, the electromagnetic induction heater is started to heat the internal thread copper pipe 17, and oil stains in the internal thread copper pipe are burnt, so that the oil stains are thoroughly cleaned; after heating is finished, the air pipe 131 is taken down, the water spray pipe 142 is connected with the butt joint pipe 153, water is sprayed into the inner threaded copper pipe 17, on one hand, the inner threaded copper pipe 17 is cooled, on the other hand, impurities on the inner wall of the inner threaded copper pipe 17 are washed, cleaning water flows out from the other end of the inner threaded copper pipe and enters the collecting box 21, and the collecting box 21 is connected with the water tank 14 through a water circulation structure, so that the water resource can be recycled;

preferably, when the internal thread copper pipe 17 is long, the length of the rotary drum 10 is not enough to contact each part of the internal thread copper pipe 17, and a lifting cylinder 23 and a rotary cylinder 22 are arranged in the scheme, so that the internal thread copper pipe 17 can rotate 180 degrees, and the cleaning cloth 101 at the end of the rotary drum 10 can contact two ends of the internal thread copper pipe 17; the scheme is provided with the rotary drum 10 and the telescopic rod 83, under the action of the motor 5, the rotary drum 10 is made to do reciprocating swing motion, the end heads of the telescopic rod 83 and the rotary drum 10 are respectively provided with the extrusion block 84 and the end plate II 103, the cleaning cloth 101 is tightly pressed, the rotary drum 10 gradually extends into the internal thread copper pipe 17 along with the motion of the front and back moving seat 4, the cleaning cloth 101 continuously cleans the inner wall of the internal thread copper pipe 17, moisture and impurities are removed, and the cleanliness of the internal thread copper pipe 17 is improved;

after the internal thread copper pipe 17 is cleaned, the internal thread copper pipe 17 is lifted by utilizing the lifting ring 20 and the electromagnetic induction coil and moves towards the clamping structure 9, the motor 5 is started, the clamping structure 9 moves towards the internal thread copper pipe 17, clamping of the internal thread copper pipe 17 is realized, the protection barrel 8 is rotated, the removed oil pipe 7 falls on the material platform II 6, and then the next internal thread copper pipe 17 is subjected to an oil removing process.

Note: in the scheme, the pipe to be degreased 2, the internal thread copper pipe 17 and the pipe to be degreased 7 are all the same copper pipes and are only in different positions or states and are distinguished by different names, and the description is given here.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims (9)

1. The inner wall oil removing equipment for the internal thread copper pipe is characterized by comprising a supporting structure (24) for supporting the internal thread copper pipe (17), a heating system (25) arranged above the supporting structure (24), a water spraying structure (26) and a ventilation structure (27) arranged at one end of the internal thread copper pipe (17), wherein the heating system (25) is arranged on an upper rail (11) in a sliding manner;

the device is characterized by further comprising a moving seat assembly (28) moving along the central axis direction of the internal thread copper pipe (17), a lower rail (3) arranged below the moving seat assembly (28), and a rotary wiping structure (29) arranged on the moving seat assembly (28), wherein a clamping structure (9) is arranged on the rotary wiping structure (29).

2. The inner wall oil removing equipment for the internally threaded copper pipe according to claim 1, wherein the heating system (25) comprises an electromagnetic induction heater, a rotating cylinder (22) connected above the electromagnetic induction heater, a lifting cylinder (23) connected above the rotating cylinder (22), and a moving plate (12) arranged above the lifting cylinder (23), wherein a power wheel is arranged on the moving plate (12) and movably arranged in the upper rail (11);

the electromagnetic induction heater is provided with two lifting rings (20), the two lifting rings (20) are respectively coaxially arranged at two ends of the heating coil (19), and the lifting rings (20) and the heating coil (19) are detachably arranged in a penetrating manner to be provided with the oil pipe (2).

3. The inner wall oil removing equipment for the internally threaded copper pipe according to claim 2, wherein the ventilation structure (27) comprises a fan (13) and an air pipe (131) arranged on the fan (13), and one end of the air pipe (131) is detachably connected with one end of the internally threaded copper pipe (17).

4. The inner wall degreasing device for the internally threaded copper pipe as recited in claim 2, wherein the water spray structure (26) comprises a water tank (14), a liquid pump (141) disposed on the water tank (14), and a water spray pipe (142) having one end connected to the liquid pump (141), and the other end of the water spray pipe (142) is detachably connected to one end of the internally threaded copper pipe (17).

5. The equipment for removing the oil on the inner wall of the internally threaded copper pipe according to claim 1, wherein the rotary wiping structure (29) comprises a rotary drum (10), a telescopic rod (83) arranged inside the rotary drum (10) in a sliding manner, an electric push rod (82) connected with the outer end of the telescopic rod (83), a first end plate (102) arranged at one end of the rotary drum (10), and a protection barrel (8) sleeved outside the electric push rod (82) and connected with the first end plate (102), wherein the protection barrel (8) is connected with a rotary power mechanism;

the other end of the rotary drum (10) is provided with a plurality of protruding rods (105) in an annular array and a second end plate (103) connected with the outer ends of the protruding rods (105), the inner end of the telescopic rod (83) is provided with a plurality of extrusion blocks (84), and the extrusion blocks (84) are arranged between two adjacent protruding rods (105);

the outer sides of the protruding rods (105) are wound with cleaning cloth (101).

6. The inner wall degreasing equipment for the internally threaded copper pipe as recited in claim 5, wherein the clamping structure (9) is arranged outside the protective cylinder (8); the clamping structure (9) comprises a telescopic cylinder (91) arranged on the outer side of the protection cylinder (8) and a clamping cylinder (92) connected with the telescopic cylinder (91), wherein a first arc plate (93) and a second arc plate (94) are arranged on the clamping cylinder (92), the first arc plate (93) and the second arc plate (94) are clamped between the first arc plate (93) and the second arc plate (94) to be provided with the oil pipe (2), and the oil pipe (2) to be provided with the oil pipe is stacked on the first material platform (1).

7. The inner wall oil removing equipment for the internally threaded copper pipe according to claim 4, wherein a collecting structure is arranged below the other end of the internally threaded copper pipe (17), and the collecting structure is connected with the water tank (14) through a water circulation structure;

the collecting structure comprises a collecting box (21), supporting plates (211) arranged on two sides of the collecting box (21) and a splash guard (212) arranged above the collecting box (21);

the water circulation structure comprises a water pump (16), and a first water pipe (161) and a second water pipe (18) which are respectively arranged at two ends of the water pump (16), wherein the first water pipe (161) is connected with the water tank (14), and the second water pipe (18) is connected with the collection box (21).

8. The inner wall degreasing equipment for the internal thread copper pipe according to claim 7, wherein the supporting structure (24) comprises a supporting seat (15) arranged at one end of the internal thread copper pipe (17) and a supporting plate (211) arranged at the other end of the internal thread copper pipe (17), a supporting arc plate (151) is arranged at one side of the supporting seat (15), a butt joint pipe (153) is arranged above the supporting arc plate (151), the butt joint pipe (153) penetrates through the supporting seat (15), and one end of the butt joint pipe (153) is inserted into the internal thread copper pipe (17).

9. The inner wall oil removing device for the internally threaded copper pipe according to claim 5, wherein the moving seat assembly (28) comprises a front moving seat (41) and a rear moving seat (4) which are arranged in parallel, one end of the protective cylinder (8) is arranged on the front moving seat (41) through a first bearing, the other end of the protective cylinder (8) is coaxially provided with a rotating shaft (81), the rotating shaft (81) is arranged on the rear moving seat (4) through a second bearing, and the rotating shaft (81) is connected with the motor (5) through a transmission belt;

the bottom ends of the front moving seat (41) and the rear moving seat (4) are respectively provided with a moving wheel.

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