CN210387753U

CN210387753U - Winding type copper pipe's blowing device

Info

Publication number: CN210387753U
Application number: CN201921007799.1U
Authority: CN
Inventors: 董德江; 陈灿仙
Original assignee: Shaoxing Shangyu Taixing Refrigeration Accessories Co Ltd
Current assignee: Shaoxing Shangyu Taixing Refrigeration Accessories Co Ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2020-04-24
Anticipated expiration: 2029-07-01

Abstract

The utility model discloses a winding type copper pipe discharging device, wherein a copper pipe winding frame is detachably arranged between a pair of vertical parts of a discharging supporting plate and is arranged in a clockwise rotation manner; the discharging supporting plate moves back and forth and is arranged at the left end of the upper end surface of the main supporting plate; the pair of upper limiting supporting plates are positioned right above the pair of lower limiting supporting plates; a pair of upper limiting rollers which are arranged in bilateral symmetry are pivoted between the pair of upper limiting supporting plates; a pair of lower limiting rollers which are arranged in bilateral symmetry are pivoted between the pair of lower limiting supporting plates; the pair of upper limiting supporting plates and the pair of lower limiting supporting plates are vertically arranged in a lifting way and are synchronously far away or close to each other; a cutting unit is arranged on the cutting support plate; a length limiting plate is arranged on the right side of the upper end surface of the main supporting plate in a left-right moving mode; core rods horizontally penetrate through the length limiting plate from left to right; utility model advantage: the copper pipe is convenient to straighten, the length accuracy of the cut copper pipe is guaranteed, and the length of the copper pipe can be adjusted.

Description

Winding type copper pipe's blowing device

Technical Field

The utility model relates to a copper pipe processing technology field, concretely relates to winding type copper pipe's blowing device.

Background

Copper pipe also known as copper tubing, non ferrous metal pipe's one kind, be the seamless pipe of suppression and drawing, the copper pipe possesses firm, corrosion-resistant characteristic, form into the tap water pipeline of modern contractor in all house commodity rooms, the heat supply, the first-selected of refrigeration piping erection, during the use, for convenient carrying people all twine the copper pipe on the wire reel, during the use, straighten the copper pipe with equipment, but current copper pipe blowing equipment function singleness, it is inconvenient to use, and current equipment can't once straighten the copper pipe, need multiple operation, not only waste time and energy, and in relapse, tensile in-process many times, this section copper pipe receives the influence in aspects such as size precision, crookedness, lead to the copper pipe length accuracy after the cutting also to receive the influence at last.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a winding type copper pipe's blowing device to the inaccurate technical problem that leads to follow-up cutting length of copper pipe at the in-process of flare-outing.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a winding type copper pipe discharging device comprises a main support plate, a discharging device and a limiting device; the discharging device comprises a U-shaped discharging supporting plate and a copper pipe winding frame, wherein the U-shaped discharging supporting plate is arranged with an upward opening; the copper pipe winding frame is detachably arranged between the pair of vertical parts of the feeding supporting plate and is arranged in a clockwise rotating mode; the discharging supporting plate moves back and forth and is arranged at the left end of the upper end surface of the main supporting plate; the limiting device is positioned on the right side of the discharging device; the limiting device comprises a pair of upper limiting supporting plates and a pair of lower limiting supporting plates, wherein the upper limiting supporting plates and the lower limiting supporting plates are symmetrically arranged in front and back; the pair of upper limiting supporting plates are positioned right above the pair of lower limiting supporting plates; a pair of upper limiting rollers which are arranged in bilateral symmetry are pivoted between the pair of upper limiting supporting plates; a pair of lower limiting rollers which are arranged in bilateral symmetry are pivoted between the pair of lower limiting supporting plates; the lower limiting roller is positioned right below the upper limiting roller on the corresponding side; the pair of upper limiting supporting plates and the pair of lower limiting supporting plates are vertically arranged in a lifting way and are synchronously far away or close to each other; a U-shaped cutting support plate with a downward opening is arranged between the middle parts of the upper end surfaces of the pair of upper limiting support plates; a cutting unit is arranged on the cutting support plate; a length limiting plate is arranged on the right side of the upper end surface of the main supporting plate in a left-right moving mode; core rods horizontally penetrate through the length limiting plate from left to right; the left part of the core bar is inserted between the pair of upper limiting rollers and the pair of lower limiting rollers, and the left end surface of the core bar is positioned between the vertical tangent planes of the pair of upper limiting rollers close to the proximal ends; the pair of upper limiting rollers and the pair of lower limiting rollers are arranged up and down symmetrically relative to the horizontal plane where the core rod is located; the core bar is positioned at the upper side of the copper pipe winding frame.

Preferably, a discharging rotating motor is fixed on the rear end face of the discharging supporting plate; the rear side rotating central shaft of the copper pipe winding frame is detachably and fixedly connected with the front end of an output shaft of the discharging rotating motor.

Preferably, a front-back moving groove matched with the discharging support plate is formed at the left end of the upper end surface of the main support plate; a pair of cylindrical front and rear guide rods which are symmetrically arranged at left and right are formed on the front and rear side walls of the front and rear moving groove, and a front and rear driving threaded rod is pivoted between the centers of the front and rear guide rods; the front and back direction of the discharging support plate is sleeved on the pair of front and back guide rods and is in threaded connection with the front and back driving threaded rods; a front driving motor and a rear driving motor are fixed on the rear side wall of the front-rear moving groove; the rear end of the front and rear driving threaded rod is fixedly connected with an output shaft of the front and rear driving motor.

Preferably, a vertical limit plate is formed on the upper end surface of the main supporting plate; the vertical limiting plate is arranged between the emptying device and the pair of upper limiting supporting plates; the vertical limiting plate is formed with a front monitoring groove and a rear monitoring groove in rectangular groove shapes; a blocking plate is arranged in the front and rear monitoring grooves in a front and rear movement mode; a pair of front-back moving inserted rods which are symmetrically arranged up and down are formed on the end surfaces far away from the pair of stop plates; the front and back moving insertion rods are horizontally inserted in the front and back direction on the side walls of the corresponding sides of the front and back monitoring grooves; a pressure spring is sleeved on the forward and backward moving inserted bar; one end of the pressure spring is fixed on the blocking plate, and the other end of the pressure spring is fixed on the side wall of the corresponding side of the front and rear monitoring grooves; the centers of the front and rear side walls of the front and rear monitoring grooves are provided with pressure sensors; the pressure sensor controls the front and rear driving motors; the front monitoring groove and the rear monitoring groove are positioned on the upper side of the copper pipe winding frame; the core bar is positioned on the horizontal symmetrical surface of the front and the rear monitoring grooves.

Preferably, the lower end face of the discharging support plate is provided with a plurality of rollers; the roller abuts against the lower side wall of the front-back moving groove.

Preferably, a pair of inverted L-shaped lifting support plates which are symmetrically arranged front and back are formed in the middle of the upper end surface of the main support plate; a pair of vertical guide rods which are symmetrically arranged left and right are formed between the horizontal part of the lifting support plate and the upper end surface of the main support plate; vertical driving motors are fixed at the front end and the rear end of the middle part of the upper end surface of the main supporting plate; a vertically arranged vertical driving threaded rod is fixed at the upper end of an output shaft of the vertical driving motor; the upper part and the lower part of the vertical driving threaded rod are provided with external thread parts with opposite rotation directions; the upper limit supporting plate and the lower limit supporting plate are vertically sleeved on a pair of vertical guide rods on the corresponding sides and are in threaded connection with different external thread parts of the vertical driving threaded rod.

Preferably, the cutting unit comprises a cutting lifting cylinder; a cutting motor is fixed at the lower end of an output shaft of the cutting lifting cylinder; a cutting circular disc cutter is fixed at the left end of an output shaft of the cutting motor; the cutting motor and the cutting circular disc cutter are positioned between the vertical tangent planes at one ends of the pair of upper limiting rollers, which are close to each other; when the core bar is arranged at the leftmost end, the right end face of the cutting circular disc cutter is flush with the left end face of the core bar.

Preferably, the front end and the rear end of the right end of the upper end surface of the main supporting plate are respectively fixed with a left driving cylinder and a right driving cylinder; the length limiting plate is fixed at the left end of the output shaft of the left and right driving cylinders.

Preferably, a material taking moving groove which penetrates through the main supporting plate up and down is formed at the right end of the main supporting plate; a pair of cylindrical material taking guide rods symmetrically arranged front and back are formed on the left side wall and the right side wall of the material taking moving groove, and a material taking driving threaded rod is pivoted between the centers of the cylindrical material taking guide rods; a material taking driving motor is fixed at the center of the left side wall of the material taking moving groove; an output shaft of the material taking driving motor is fixedly connected with the left end of the material taking driving threaded rod; a material taking support plate is arranged in the material taking moving groove in a left-right moving manner; the left and right direction of the material taking supporting plate is sleeved on the pair of material taking guide rods and is in threaded connection with the material taking driving threaded rod; the core bar is detachably installed on the left end face of the material taking support plate.

The beneficial effects of the utility model reside in that: the copper pipe is convenient to straighten, the length accuracy of the cut copper pipe is guaranteed, and the length of the copper pipe can be adjusted.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic structural view of a cross section a-a in fig. 1 according to the present invention;

fig. 3 is a schematic structural view of a section B-B in fig. 2 according to the present invention;

in the figure, 10, a main supporting plate; 100. a material taking moving groove; 101. moving the slot forward and backward; 11. lifting the supporting plate; 111. a vertical guide bar; 12. a material taking guide rod; 13. a front and rear guide bar; 20. a discharging device; 21. A copper pipe winding frame; 22. a material placing support plate; 221. a roller; 23. driving the threaded rod back and forth; 24. a discharging rotating motor; 30. a limiting device; 31. a vertical limiting plate; 310. front and rear monitoring tanks; 32. a blocking plate; 321. Moving the inserted link forward and backward; 322. a pressure spring; 33. a pressure sensor; 34. a vertical drive motor; 341. a vertical drive threaded rod; 35. a lower limiting support plate; 351. a lower limit roller; 36. an upper limiting support plate; 361. an upper limit roller; 362. cutting the supporting plate; 37. cutting the lifting cylinder; 371. cutting the motor; 372. cutting a circular cutter; 38. a length limiting plate; 381. a left and right driving cylinder; 39. taking a material supporting plate; 391. a core bar; 392. A material taking driving motor; 393. the material is taken and the threaded rod is driven.

Detailed Description

As shown in fig. 1 to 3, a winding type copper tube discharging device comprises a main supporting plate 10, a discharging device 20 and a limiting device 30; the blowing device 20 comprises a blowing support plate 22 with a U shape and an copper pipe winding frame 21, wherein the opening of the blowing support plate is upwards arranged; the copper pipe winding frame 21 is detachably arranged between a pair of vertical parts of the discharging support plate 22 and is arranged in a clockwise rotation mode; the discharging supporting plate 22 is arranged at the left end of the upper end surface of the main supporting plate 10 in a front-and-back movement manner; the limiting device 30 is positioned at the right side of the discharging device 20; the limiting device 30 comprises a pair of upper limiting supporting plates 36 and a pair of lower limiting supporting plates 35 which are symmetrically arranged in the front-back direction; a pair of upper limit support plates 36 are positioned right above the pair of lower limit support plates 35; a pair of upper limiting rollers 361 which are arranged symmetrically left and right are pivoted between the pair of upper limiting supporting plates 36; a pair of lower limiting rollers 351 which are symmetrically arranged left and right are pivoted between the pair of lower limiting supporting plates 35; the lower limiting roller 351 is positioned right below the upper limiting roller 361 on the corresponding side; the pair of upper limit supporting plates 36 and the pair of lower limit supporting plates 35 are vertically arranged in a lifting way and are synchronously far away or close to each other; a U-shaped cutting support plate 362 with a downward opening is arranged between the middle parts of the upper end surfaces of the upper limiting support plates 36; a cutting unit is provided on the cutting support plate 362; a length limiting plate 38 is arranged on the right side of the upper end surface of the main supporting plate 10 moving left and right; the length limiting plate 38 is horizontally provided with a core rod 391 from left to right; the left part of the core rod 391 is inserted between the pair of upper limiting rollers 361 and the pair of lower limiting rollers 351, and the left end surface is positioned between the vertical tangent planes of the pair of upper limiting rollers 361 near the end; the pair of upper limiting rollers 361 and the pair of lower limiting rollers 351 are arranged up and down symmetrically relative to the horizontal plane where the core rod 391 is located; the core rod 391 is located at the upper side of the copper pipe winding frame 21.

As shown in fig. 1, a discharging rotating motor 24 is fixed on the rear end face of the discharging support plate 22; the rear side rotating central shaft of the copper pipe winding frame 21 is detachably and fixedly connected with the front end of the output shaft of the discharging rotating motor 24.

As shown in fig. 1 and 2, a front-back moving groove 101 matched with the discharging support plate 22 is formed at the left end of the upper end surface of the main support plate 10; a pair of cylindrical front and rear guide rods 13 which are arranged symmetrically left and right are formed on the front and rear side walls of the front and rear moving groove 101, and a front and rear driving threaded rod 23 is pivoted between the centers of the front and rear guide rods; the front and back direction of the discharging support plate 22 is sleeved on the pair of front and back guide rods 13 and is in threaded connection with the front and back driving threaded rods 23; a front and rear driving motor is fixed on the rear side wall of the front and rear moving groove 101; the rear end of the front and rear driving threaded rod 23 is fixedly connected with an output shaft of a front and rear driving motor.

As shown in fig. 1 to 3, a vertical limit plate 31 is formed on the upper end surface of the main support plate 10; the vertical limiting plate 31 is arranged between the emptying device 20 and the pair of upper limiting supporting plates 36; the vertical limiting plate 31 is formed with a front and rear monitoring groove 310 in the shape of a rectangular groove; a blocking plate 32 is arranged in the front and rear monitoring grooves 310 in a front and rear movement manner; a pair of front-back moving insertion rods 321 which are symmetrically arranged up and down are formed on the end surfaces of the pair of stop plates 32 far away; the forward-backward movement insertion rod 321 is horizontally inserted in the forward-backward direction on the side wall of the corresponding side of the forward-backward monitoring groove 310; a pressure spring 322 is sleeved on the forward-backward moving inserted bar 321; one end of the pressure spring 322 is fixed on the blocking plate 32, and the other end is fixed on the side wall of the corresponding side of the front and rear monitoring groove 310; the pressure sensors 33 are arranged at the centers of the front and rear side walls of the front and rear monitoring grooves 310; the pressure sensor 33 controls the front and rear driving motors; the front and rear monitoring grooves 310 are positioned on the upper side of the copper pipe winding frame 21; the core rod 391 is located on the horizontal symmetry plane of the front and rear monitoring slots 310.

As shown in fig. 2, a plurality of rollers 221 are mounted on the lower end surface of the discharging support plate 22; the roller 221 abuts against the lower side wall of the forward-backward moving groove 101.

As shown in fig. 2, a pair of inverted L-shaped lifting support plates 11 symmetrically arranged front and back are formed in the middle of the upper end surface of the main support plate 10; a pair of vertical guide rods 111 which are arranged in bilateral symmetry are formed between the horizontal part of the lifting support plate 11 and the upper end surface of the main support plate 10; the front end and the rear end of the middle part of the upper end surface of the main supporting plate 10 are fixed with vertical driving motors 34; a vertically arranged vertical driving threaded rod 341 is fixed at the upper end of an output shaft of the vertical driving motor 34; the vertical driving threaded rod 341 is formed with external thread parts with opposite rotation directions at the upper and lower parts thereof; the upper and lower

limit support plates

36 and 35 are vertically fitted over a pair of vertical guide rods 111 of the respective sides and are screwed on different external threaded portions of the vertical driving threaded rod 341.

As shown in fig. 1 and 2, the cutting unit includes a cutting lift cylinder 37; a cutting motor 371 is fixed at the lower end of the output shaft of the cutting lifting cylinder 37; a cutting circular disc cutter 372 is fixed at the left end of an output shaft of the cutting motor 371; the cutting motor 371 and the cutting circular disc 372 are positioned between the vertical tangent planes at one ends of the pair of upper limiting rollers 361; when the core rod 391 is at the leftmost end, the right end surface of the cutting disk 372 is flush with the left end surface of the core rod 391.

As shown in fig. 1 and 2, left and right driving cylinders 381 are respectively fixed to the front and rear ends of the right end of the upper end surface of the main support plate 10; the length limit plate 38 is fixed to the left ends of the output shafts of the pair of left and right drive cylinders 381.

As shown in fig. 1 and 2, a material taking moving groove 100 is formed at the right end of the main supporting plate 10 and penetrates up and down; a pair of cylindrical material taking guide rods 12 symmetrically arranged front and back are formed on the left side wall and the right side wall of the material taking moving groove 100, and a material taking driving threaded rod 393 is pivoted between the centers of the cylindrical material taking guide rods; a material taking driving motor 392 is fixed at the center of the left side wall of the material taking moving groove 100; an output shaft of the material taking driving motor 392 is fixedly connected with the left end of the material taking driving threaded rod 393; a material taking support plate 39 is arranged in the material taking moving groove 100 and moves left and right; the material taking support plate 39 is sleeved on the pair of material taking guide rods 12 in the left-right direction and is in threaded connection with the material taking driving threaded rod 393; the core rod 391 is detachably mounted on the left end face of the material taking support plate 39.

The working principle of the winding type copper pipe emptying device is as follows:

the copper pipe is wound on the copper pipe winding frame 21, the copper pipe winding frame 21 is installed between a pair of vertical parts of the discharging support plate 22, a rear side rotating central shaft is fixedly connected with an output shaft of the discharging rotating motor 24, then the length limiting plate 38 is moved leftwards and rightwards according to the cutting length of the copper pipe, then one end of the copper pipe is pulled to penetrate through the front and rear monitoring groove 310, the pair of upper limiting rollers 361 and the pair of lower limiting rollers 351, then the copper pipe is sleeved on the core rod 391 until the right end abuts against the left end face of the length limiting plate 38, the distance between the horizontal tangent planes of the ends, close to the pair of upper limiting rollers 361 and the pair of lower limiting rollers 355, of the copper pipe is the same as the outer diameter of the copper pipe, then the cutting unit; under the action of the pair of upper limiting rollers 361, the pair of lower limiting rollers 351 and the core rod 391, the linearity of the copper pipe can be improved;

due to the existence of the pair of pressure sensors 33, the feeding supporting plate 22 can be controlled to move back and forth, so that the copper pipe is ensured not to incline in the front and back directions, and the difficulty degree of subsequent straightening is reduced;

because the interval between a pair of upper limiting roller 361 and a pair of lower limiting roller 351 is adjustable, the core rod 391 is detachably arranged, all can be adjusted and replaced according to the inner diameter and the outer diameter of the copper pipe, and the copper pipe is suitable for copper pipes with different sizes.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. The utility model provides a blowing device of wound form copper pipe which characterized in that: comprises a main supporting plate (10), a discharging device (20) and a limiting device (30); the blowing device (20) comprises a blowing support plate (22) with a U shape and an upward opening and a copper pipe winding frame (21); the copper pipe winding frame (21) is detachably arranged between a pair of vertical parts of the discharging support plate (22) and is arranged in a clockwise rotating mode; the discharging supporting plate (22) is arranged at the left end of the upper end surface of the main supporting plate (10) in a front-and-back movement manner; the limiting device (30) is positioned on the right side of the discharging device (20); the limiting device (30) comprises a pair of upper limiting supporting plates (36) and a pair of lower limiting supporting plates (35) which are symmetrically arranged in the front-back direction; the pair of upper limiting supporting plates (36) are positioned right above the pair of lower limiting supporting plates (35); a pair of upper limiting rollers (361) which are arranged symmetrically left and right are pivoted between the pair of upper limiting supporting plates (36); a pair of lower limiting rollers (351) which are arranged symmetrically left and right are pivoted between the pair of lower limiting supporting plates (35); the lower limiting roller (351) is positioned right below the upper limiting roller (361) on the corresponding side; a pair of upper limiting support plates (36) and a pair of lower limiting support plates (35) are vertically arranged in a lifting way and are synchronously far away or close to each other; a U-shaped cutting support plate (362) with a downward opening is arranged between the middle parts of the upper end surfaces of the upper limiting support plates (36); a cutting unit is arranged on the cutting support plate (362); a length limiting plate (38) is arranged on the right side of the upper end surface of the main supporting plate (10) moving left and right; the length limiting plate (38) is horizontally provided with a core bar (391) in the left and right direction; the left part of the core bar (391) is inserted between the pair of upper limiting rollers (361) and the pair of lower limiting rollers (351) and the left end surface is positioned between the vertical tangent planes of the pair of upper limiting rollers (361) near the end; the pair of upper limiting rollers (361) and the pair of lower limiting rollers (351) are arranged in a vertically symmetrical mode relative to a horizontal plane where the core rod (391) is located; the core bar (391) is positioned at the upper side of the copper pipe winding frame (21).

2. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: a discharging rotating motor (24) is fixed on the rear end face of the discharging supporting plate (22); the rear side rotating central shaft of the copper pipe winding frame (21) is detachably and fixedly connected with the front end of an output shaft of the discharging rotating motor (24).

3. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: a front-back moving groove (101) matched with the discharging support plate (22) is formed at the left end of the upper end surface of the main support plate (10); a pair of cylindrical front and rear guide rods (13) which are arranged symmetrically left and right are formed on the front and rear side walls of the front and rear moving groove (101), and a front and rear driving threaded rod (23) is pivoted between the centers of the front and rear guide rods; the front and back direction of the discharging support plate (22) is sleeved on the pair of front and back guide rods (13) and is in threaded connection with the front and back driving threaded rods (23); a front and rear driving motor is fixed on the rear side wall of the front and rear moving groove (101); the rear end of the front and rear driving threaded rod (23) is fixedly connected with an output shaft of a front and rear driving motor.

4. The winding type copper pipe discharging device according to claim 3, wherein: a vertical limit plate (31) is formed on the upper end surface of the main support plate (10); the vertical limiting plate (31) is arranged between the emptying device (20) and the pair of upper limiting supporting plates (36); a front monitoring groove and a rear monitoring groove (310) in a rectangular groove shape are formed in the vertical limiting plate (31); a blocking plate (32) is arranged in the front and rear monitoring grooves (310) in a front and rear movement mode; a pair of front-back moving inserted rods (321) which are symmetrically arranged up and down are formed on the end surfaces of the pair of stop plates (32) far away from each other; the front-back moving insertion rod (321) is horizontally inserted in the front-back direction on the side wall of the corresponding side of the front-back monitoring groove (310); a pressure spring (322) is sleeved on the forward and backward moving inserted bar (321); one end of a pressure spring (322) is fixed on the blocking plate (32), and the other end is fixed on the side wall of the corresponding side of the front and rear monitoring groove (310); pressure sensors (33) are arranged at the centers of the front side wall and the rear side wall of the front monitoring groove and the rear monitoring groove (310); the pressure sensor (33) controls the front and rear driving motors; the front and rear monitoring grooves (310) are positioned on the upper side of the copper pipe winding frame (21); the core rod (391) is positioned on the horizontal symmetrical plane of the front and rear monitoring grooves (310).

5. The winding type copper pipe discharging device according to claim 2, wherein: a plurality of rollers (221) are arranged on the lower end surface of the discharging supporting plate (22); the roller (221) abuts against the lower side wall of the forward-backward movement groove (101).

6. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: a pair of inverted L-shaped lifting support plates (11) which are symmetrically arranged front and back are formed in the middle of the upper end surface of the main support plate (10); a pair of vertical guide rods (111) which are arranged symmetrically left and right are formed between the horizontal part of the lifting support plate (11) and the upper end surface of the main support plate (10); vertical driving motors (34) are fixed at the front end and the rear end of the middle part of the upper end surface of the main supporting plate (10); a vertically arranged vertical driving threaded rod (341) is fixed at the upper end of an output shaft of the vertical driving motor (34); the upper part and the lower part of the vertical driving threaded rod (341) are provided with external thread parts with opposite rotation directions; the upper limit support plate (36) and the lower limit support plate (35) are vertically sleeved on a pair of vertical guide rods (111) on the corresponding sides and are screwed on different external thread parts of the vertical driving threaded rod (341).

7. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: the cutting unit comprises a cutting lifting cylinder (37); a cutting motor (371) is fixed at the lower end of an output shaft of the cutting lifting cylinder (37); a cutting circular cutter (372) is fixed at the left end of an output shaft of the cutting motor (371); the cutting motor (371) and the cutting circular knife (372) are positioned between the vertical tangent planes at one ends of the pair of upper limiting rollers (361) close to each other; when the core rod (391) is at the leftmost end, the right end surface of the cutting disc cutter (372) is flush with the left end surface of the core rod (391).

8. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: left and right driving cylinders (381) are respectively fixed at the front end and the rear end of the right end of the upper end surface of the main supporting plate (10); the length limit plate (38) is fixed to the left ends of the output shafts of the pair of left and right drive cylinders (381).

9. The winding type copper pipe emptying device according to claim 1, wherein the winding type copper pipe emptying device comprises: a material taking moving groove (100) which penetrates through the upper part and the lower part is formed at the right end of the main supporting plate (10); a pair of cylindrical material taking guide rods (12) which are symmetrically arranged front and back are formed on the left side wall and the right side wall of the material taking moving groove (100), and a material taking driving threaded rod (393) is pivoted between the centers of the cylindrical material taking guide rods; a material taking driving motor (392) is fixed at the center of the left side wall of the material taking moving groove (100); an output shaft of the material taking driving motor (392) is fixedly connected with the left end of the material taking driving threaded rod (393); a material taking support plate (39) is arranged in the material taking moving groove (100) in a left-right moving manner; the material taking support plate (39) is sleeved on the pair of material taking guide rods (12) in the left-right direction and is in threaded connection with the material taking driving threaded rod (393); the core rod (391) is detachably arranged on the left end surface of the material taking support plate (39).