CN221008769U - Winding machine for inductance transformer - Google Patents

Abstract

The utility model relates to the technical field of winding equipment of transformer coils, in particular to an inductance transformer winding machine, which comprises a discharging assembly and an extrusion wheel assembly, wherein the discharging assembly and the extrusion wheel assembly are used for guiding and dragging a wire harness and/or a copper pipe to a discharging station, and the extrusion wheel assembly is rotationally connected with the discharging assembly and is relatively rotated to be opened and closed on the discharging assembly; a locking mechanism is also arranged between the discharging component and the extrusion wheel component; the wire harness winding device is used for guiding and pulling the wire harness and/or copper pipes to the discharging assembly and the extrusion wheel assembly on the discharging station to be rotationally connected, a locking mechanism is arranged at the rotary opening and closing position between the discharging assembly and the extrusion wheel assembly, if the wire harness is pulled between the discharging assembly and the extrusion wheel assembly, the wire harness is wound, the extrusion wheel assembly is rotationally opened, and the discharging assembly and the extrusion wheel assembly are in a phase separation state, so that the wound wire harness is easily tidied.

Description

Winding machine for inductance transformer

Technical Field

The utility model relates to the technical field of winding equipment of transformer coils, in particular to an inductance transformer winding machine.

Background

Winding machines for transformers typically utilize an idler roller to pull a conveyor wire bundle. Meanwhile, the wire harness is required to be positioned between the two rollers for traction and conveying, the existing two rollers are of a fixed structure, the size of the inductance transformer is small, the internal mechanical structure of the inductance transformer winding machine is complex in layout, if the wire harness generates winding phenomenon during traction and conveying, the machine is required to be stopped for processing, but due to the fact that the two rollers are of the fixed structure, the winding wire harness is not easy to arrange.

Thus, there is a need for further improvement.

Disclosure of utility model

The utility model aims to provide an inductance transformer winding machine which is used for guiding and pulling a wire harness and/or a copper pipe to a discharging assembly and a squeezing wheel assembly on a discharging station to be rotationally connected, a locking mechanism is arranged at a rotational opening and closing position between the discharging assembly and the squeezing wheel assembly, if the wire harness is pulled between the discharging assembly and the squeezing wheel assembly, the squeezing wheel assembly is rotationally opened, and the wound wire harness is easy to arrange under the state that the discharging assembly and the squeezing wheel assembly are separated.

The winding machine for the inductance transformer comprises a discharging assembly and an extrusion wheel assembly, wherein the discharging assembly and the extrusion wheel assembly are used for guiding and dragging a wire harness and/or a copper pipe to a discharging station, the discharging assembly is rotationally connected with the extrusion wheel assembly, and the extrusion wheel assembly is relatively rotationally opened and closed on the discharging assembly; a locking mechanism is also arranged between the discharging component and the extrusion wheel component;

The extrusion wheel assembly is rotationally closed on the discharging assembly, and is fixed on the discharging assembly through the locking of the locking mechanism;

When the locking mechanism is in an unlocking state, the extrusion wheel assembly rotates to be opened on the discharging assembly, the wire harness is wound, the locking mechanism rotates to be opened on the extrusion wheel assembly in the unlocking state, and the discharging assembly and the extrusion wheel assembly are in a phase separation state, so that the wound wire harness is easy to arrange.

The locking mechanism comprises a lock catch assembly movably arranged on the discharging assembly and a locking seat arranged on the extrusion wheel assembly; when the lock catch assembly moves to a position buckled with the locking seat, the locking mechanism is in a locking state; when the lock catch assembly moves to a position separated from the locking seat, the locking mechanism is in an unlocking state.

The locking seat is provided with a locking groove for locking and positioning the lock catch assembly, the locking mechanism is in a locking state, one end of the lock catch assembly acts on the locking groove, and the locking mechanism is arranged to prevent the extrusion wheel assembly from rotating towards the outer side of the discharging assembly at will, so that the extrusion wheel assembly and the discharging assembly are prevented from being not matched in place, and the machine cannot normally perform winding work.

The locking mechanism comprises a locking component, the locking component comprises a clutch driving piece and a lock catch, the lock catch is arranged on the clutch driving piece, the clutch driving piece is rotationally arranged on the discharging component, and the clutch driving piece drives the lock catch to move through rotation;

the extrusion wheel assembly is rotationally closed on the discharging assembly, and the clutch driving piece drives the lock catch to move to a position for locking the extrusion wheel assembly;

when the clutch driving piece drives the lock catch to move to the unlocking position of the extrusion wheel assembly, the extrusion wheel assembly rotates relative to the discharging assembly to open.

The clutch driving piece drives the lock catch to unlock or lock, and the clutch driving piece is arranged towards the opening at the outer side of the machine body, so that an operator can easily touch and control the clutch driving piece.

The discharging assembly comprises more than two first guide wheels used for dragging the guide wire harness and an outgoing line module matched with the first guide wheels for dragging the guide wire harness, each first guide wheel is rotatably arranged on the discharging assembly, and an outgoing line cylinder is arranged on the outgoing line module corresponding to each first guide wheel;

Through more than two first guide wheels and wire outlet cylinders, wire harnesses with different or same specification and size are simultaneously or independently pulled on the discharging assembly;

The extrusion wheel assembly comprises more than two first rollers, each first roller is rotatably arranged on the extrusion wheel assembly and is in one-to-one correspondence with each first guide wheel, the extrusion wheel assembly further comprises a plurality of first drivers, and the output end of each first driver is in one-to-one correspondence with each first roller;

When the wire harness passes through one of the first guide wheels of the discharging assembly to be pulled, the corresponding first driver drives the corresponding first roller to move and approach the first guide wheel, so that the wire harness on the first guide wheel is extruded, and the wire harness enters the corresponding wire outlet barrel along the rotating first guide wheel under the action of the first guide wheel which is extruded by the first roller.

The discharging assembly comprises more than two second guide wheels used for dragging and guiding the copper pipe and copper pipe guiding-out modules matched with the second guide wheels for dragging and guiding the copper pipe, each second guide wheel is rotatably arranged on the discharging assembly, and copper pipe guiding-out cylinders are arranged on the copper pipe guiding-out modules corresponding to each second guide wheel;

the copper pipes with different or same specification and size are simultaneously or independently pulled on the discharging component through more than two second guide wheels and copper pipe guiding-out cylinders;

The extrusion wheel assembly comprises more than two second rollers, each second roller is rotatably arranged on the extrusion wheel assembly and is in one-to-one correspondence with each second guide wheel, the extrusion wheel assembly also comprises a plurality of second drivers, and the output end of each second driver is in one-to-one correspondence with each second roller;

When the wire harness is pulled by one of the second rollers of the discharging assembly, the corresponding second driver drives the corresponding second roller to move and approach the second guide wheel, so that the copper pipe on the second guide wheel is extruded, and the copper pipe enters the corresponding copper pipe guiding-out cylinder along the rotating second guide wheel under the action of the second guide wheel extruded by the second roller.

The second guide wheel is provided with a tooth slot at the position corresponding to the second roller in extrusion contact with the copper pipe, when the copper pipe body is extruded towards the second guide wheel by the second roller, the copper pipe body is limited on the tooth slot, so that the phenomenon that the copper pipe body is extruded and deformed when the copper pipe body is extruded is avoided, and the damage to the outer surface of the copper pipe body is avoided.

The discharging assembly comprises a fixed frame, a connecting shaft penetrating through each first guide wheel and each second guide wheel is arranged on the fixed frame, one end of the connecting shaft is in transmission connection with the output end of the third driver through the transmission assembly, and the output end of the third driver drives the connecting shaft to rotate through the transmission assembly, so that each first guide wheel and each second guide wheel on the connecting shaft synchronously rotate.

The extrusion wheel assembly further comprises a frame member rotationally connected with one side of the discharging assembly, a plurality of swinging members are arranged on the frame member at intervals, the swinging members are rotationally arranged on the frame member, each first roller and each second roller are rotationally arranged on the corresponding swinging members, each first driver and each second driver are fixedly arranged on the outer side of the frame member, the output end of each first driver and each second driver drives the corresponding swinging member, the swinging members swing and drive the corresponding first roller or second roller to move, so that the first roller swings along with the swinging members to be close to the corresponding first guide wheels, and the second roller swings along with the swinging members to be close to the corresponding second guide wheels.

The clamping mechanism is arranged below the discharging assembly, the clamping mechanism is vertically movably arranged on the machine body of the winding machine of the inductance transformer, the discharging assembly is in a discharging state, the clamping mechanism moves to a clamping position for clamping the wire harness or the copper pipe of the discharging assembly, after the clamping mechanism moves to clamp the wire harness or the copper pipe of the discharging assembly, the wire harness or the copper pipe of the discharging assembly moves along with the clamping mechanism, and the wire harness or the copper pipe is pulled out of the discharging station by the clamping mechanism.

The utility model has the following beneficial effects:

The discharging component and the extruding wheel component are rotationally connected, a locking mechanism is arranged at the rotating opening and closing position between the discharging component and the extruding wheel component, if the wire harness is pulled between the discharging component and the extruding wheel component, the wire harness is wound, the extruding wheel component is rotated to be opened, the discharging component and the extruding wheel component are in a phase separation state, and even if the internal mechanical structure layout of the induction transformer winding machine is complex, the wound wire harness can be easily tidied.

Drawings

Fig. 1 is a schematic perspective view of a winding machine of a sensing transformer according to an embodiment of the utility model.

Fig. 2 is a schematic view illustrating an opened state of the discharging assembly and the pressing wheel assembly according to an embodiment of the present utility model.

FIG. 3 is a schematic view of a rotating closed discharge assembly of an embodiment of the present utility model.

Fig. 4 is a schematic perspective view of a discharging assembly according to an embodiment of the utility model.

Fig. 5 is a schematic perspective view of a second guiding wheel according to an embodiment of the utility model.

Fig. 6 is a schematic cross-sectional view of a first roller according to an embodiment of the utility model in a stationary state.

Fig. 7 is a schematic cross-sectional view illustrating an active state of a first roller according to an embodiment of the utility model.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1, an induction transformer winding machine designed for the purpose comprises a discharging assembly 1 and a squeezing wheel assembly 2, wherein the discharging assembly 1 and the squeezing wheel assembly 2 are used for guiding and pulling a wire harness and/or a copper pipe to a discharging station, and the squeezing wheel assembly 2 is rotatably connected with the discharging assembly 1; a locking mechanism 3 is arranged between the discharging component 1 and the extrusion wheel component 2;

The extrusion wheel assembly 2 is rotationally closed on the discharging assembly 1, and the extrusion wheel assembly 2 is fixedly locked on the discharging assembly 1 through the locking mechanism 3;

in the unlocked state, the locking mechanism 3 rotates and opens the squeezing wheel assembly 2 on the discharging assembly 1.

The locking mechanism 3 comprises a lock catch assembly 4 movably arranged on the discharging assembly 1 and a locking seat 5 arranged on the extruding wheel assembly 2; when the lock catch assembly 4 moves to a position buckled with the locking seat 5, the locking mechanism 3 is in a locking state; when the locking assembly 4 moves to a position separated from the locking seat 5, the locking mechanism 3 is in an unlocking state.

The locking seat 5 is provided with a locking groove 24 for locking and positioning the locking component 4, and one end of the locking component 4 acts on the locking groove 24 when the locking mechanism 3 is in a locking state.

The locking mechanism 3 comprises a locking assembly 4, the locking assembly 4 comprises a clutch driving piece 6 and a lock catch 7, the lock catch 7 is arranged on the clutch driving piece 6, the clutch driving piece 6 is rotatably arranged on the discharging assembly 1, and the clutch driving piece 6 drives the lock catch 7 to move through rotation;

The extrusion wheel assembly 2 is rotationally closed on the discharging assembly 1, and the clutch driving piece 6 drives the lock catch 7 to move to a position for locking the extrusion wheel assembly 2;

When the clutch driving piece 6 drives the lock catch 7 to move to the unlocking position of the extrusion wheel assembly 2, the extrusion wheel assembly 2 rotates relative to the discharging assembly 1 to open.

The discharging assembly 1 comprises more than two first guide wheels 8 for dragging the guide wire harness and an outgoing line module 9 matched with the first guide wheels 8 for dragging the guide wire harness, wherein each first guide wheel 8 is rotatably arranged on the discharging assembly 1, and an outgoing line cylinder 10 is arranged on the outgoing line module 9 corresponding to each first guide wheel 8;

Through more than two first guide wheels 8 and wire outlet cylinders 10, wire harnesses with different or same specification and size are simultaneously or independently pulled on the discharging assembly 1;

The extrusion wheel assembly 2 comprises more than two first rollers 11, each first roller 11 is rotatably arranged on the extrusion wheel assembly 2 and is in one-to-one correspondence with each first guide wheel 8, the extrusion wheel assembly 2 further comprises a plurality of first drivers 12, and the output end of each first driver 12 is in one-to-one correspondence with each first roller 11;

When the wire harness passes through one of the first guide wheels 8 of the discharging assembly 1 to be pulled, the corresponding first driver 12 drives the corresponding first roller 11 to move and approach the first guide wheel 8, so as to squeeze the wire harness on the first guide wheel 8, and under the action of the first roller 11 squeezing the rotating first guide wheel 8, the wire harness enters the corresponding wire outlet barrel 10 along the rotating first guide wheel 8.

The discharging assembly 1 comprises more than two second guide wheels 15 for traction and guiding the copper pipe and a copper pipe guiding-out module 16 matched with the second guide wheels 15 for traction and guiding the copper pipe, each second guide wheel 15 is rotatably arranged on the discharging assembly 1, and a copper pipe guiding-out cylinder 17 is arranged on the copper pipe guiding-out module 16 corresponding to each second guide wheel 15;

Copper pipes with different or same specification and size are simultaneously or independently pulled on the discharging component 1 through more than two second guide wheels 15 and copper pipe guide cylinders 17;

The extrusion wheel assembly 2 comprises more than two second rollers 18, each second roller 18 is rotatably arranged on the extrusion wheel assembly 2 and is in one-to-one correspondence with each second guide wheel 15, the extrusion wheel assembly 2 further comprises a plurality of second drivers 19, and the output end of each second driver 19 is in one-to-one correspondence with each second roller 18;

when the wire harness passes through one of the second rollers 18 of the discharging assembly 1 to be pulled, the corresponding second driver 19 drives the corresponding second roller 18 to move and approach the second guide wheel 15, so that the copper pipe on the second guide wheel 15 is extruded, and the copper pipe enters the corresponding copper pipe guide cylinder 17 along the rotating second guide wheel 15 under the action of the second guide wheel 15 which is extruded and rotated by the second roller 18.

The second guide wheel 15 is provided with tooth grooves 26 at positions corresponding to the second roller 18 for pressing and contacting the copper pipe, and when the copper pipe body is pressed towards the second guide wheel 15 by the second roller 18, the copper pipe body is limited on the tooth grooves 26.

The discharging assembly 1 comprises a fixed frame 20, a connecting shaft 21 penetrating through each first guide wheel 8 and each second guide wheel 15 is arranged on the fixed frame 20, one end of the connecting shaft 21 is in transmission connection with the output end of a third driver 23 through a transmission assembly 22, and the output end of the third driver 23 drives the connecting shaft 21 to rotate through the transmission assembly 22, so that each first guide wheel 8 and each second guide wheel 15 on the connecting shaft 21 synchronously rotate.

In the present embodiment, the third driver 23 is a motor, and the transmission assembly 22 may be a gear transmission set, a chain sprocket transmission set, or a pulley transmission set.

In this embodiment, the fixed frame 20 of the discharging assembly 1 is rotatably connected to one end of the frame member 13 of the extrusion wheel assembly 2 through a rotation shaft.

In this embodiment, the locking seat 5 is fixed to the other end of the frame member 13 by means of screws.

In this embodiment, the other end of the fixed frame 20 is provided with a mounting seat, the clutch driving member 6 has a handle-shaped structure, and one end of the clutch driving member 6 is rotatably connected with the mounting seat through a rotating shaft.

In this embodiment, the catch 7 is connected to the clutch drive 6 by means of a pin or screw.

The extrusion wheel assembly 2 further comprises a frame member 13 rotatably connected with one side of the discharging assembly 1, a plurality of swinging members 14 are arranged on the frame member 13 at intervals, the swinging members 14 are rotatably arranged on the frame member 13, each first roller 11 and each second roller 18 are rotatably arranged on the corresponding swinging member 14, each first driver 12 and each second driver 19 are fixedly arranged on the outer side of the frame member 13, the output end of each first driver 12 and each second driver 19 drives the corresponding swinging member 14, the swinging members 14 swing and drive the corresponding first roller 11 or second roller 18 to move, so that the first roller 11 swings along with the swinging members 14 to be close to the corresponding first guide wheels 8, and the second roller 18 swings along with the swinging members 14 to be close to the corresponding second guide wheels 15.

In this embodiment, the first driver 12 and the second driver 19 are each a cylinder, an oil cylinder, or a motor provided with an electric telescopic push rod.

The clamping mechanism for clamping the material is arranged below the discharging assembly 1, the clamping mechanism is vertically movably arranged on a machine body 25 of the winding machine of the inductance transformer, the discharging assembly 1 moves to a clamping position for clamping the wire harness or the copper pipe of the discharging assembly 1 in a discharging state, after the clamping mechanism moves to clamp the wire harness or the copper pipe of the discharging assembly 1, the wire harness or the copper pipe of the discharging assembly 1 moves along with the clamping mechanism, and the wire harness or the copper pipe is pulled out of a discharging station by the clamping mechanism.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. An induction transformer coiling machine, is including being used for direction and drawing pencil and/or copper pipe to ejection of compact subassembly (1), extrusion wheel subassembly (2) on ejection of compact station, its characterized in that: the discharging component (1) is rotationally connected with the extruding wheel component (2), and the extruding wheel component (2) is rotationally opened and closed on the discharging component (1); a locking mechanism (3) is arranged between the discharging component (1) and the extrusion wheel component (2);

The extrusion wheel assembly (2) is rotationally closed on the discharging assembly (1), and the extrusion wheel assembly (2) is fixed on the discharging assembly (1) through the locking of the locking mechanism (3);

The locking mechanism (3) is in an unlocking state, and the extrusion wheel assembly (2) is rotated and opened on the discharging assembly (1).

2. The induction transformer winding machine of claim 1, wherein: the locking mechanism (3) comprises a lock catch assembly (4) movably arranged on the discharging assembly (1) and a locking seat (5) arranged on the extruding wheel assembly (2); when the lock catch assembly (4) moves to a position buckled with the locking seat (5), the locking mechanism (3) is in a locking state; when the lock catch assembly (4) moves to a position separated from the locking seat (5), the locking mechanism (3) is in an unlocking state.

3. The induction transformer winding machine of claim 2, wherein: the locking seat (5) is provided with a locking groove (24) for locking and positioning the locking assembly (4), and one end of the locking assembly (4) acts on the locking groove (24) when the locking mechanism (3) is in a locking state.

4. The induction transformer winding machine of claim 1, wherein: the locking mechanism (3) comprises a locking assembly (4), the locking assembly (4) comprises a clutch driving piece (6) and a lock catch (7), the lock catch (7) is arranged on the clutch driving piece (6), the clutch driving piece (6) is rotatably arranged on the discharging assembly (1), and the clutch driving piece (6) rotates and drives the lock catch (7) to move;

the extrusion wheel assembly (2) is rotationally closed on the discharging assembly (1), and the clutch driving piece (6) drives the lock catch (7) to move to a position for locking the extrusion wheel assembly (2);

When the clutch driving piece (6) drives the lock catch (7) to move to an unlocking position of the extrusion wheel assembly (2), the extrusion wheel assembly (2) rotates relative to the discharging assembly (1) to open.

5. The induction transformer winding machine of claim 1, wherein: the discharging assembly (1) comprises more than two first guide wheels (8) for dragging the guide wire harness and an outgoing line module (9) matched with the first guide wheels (8) for dragging the guide wire harness, each first guide wheel (8) is rotatably arranged on the discharging assembly (1), and an outgoing line cylinder (10) is arranged on the outgoing line module (9) corresponding to each first guide wheel (8);

Through more than two first guide wheels (8) and wire outlet cylinders (10), wire harnesses with different or same specification and size are simultaneously or independently pulled on the discharging assembly (1);

The extrusion wheel assembly (2) comprises more than two first rollers (11), each first roller (11) is rotatably arranged on the extrusion wheel assembly (2) and is in one-to-one correspondence with each first guide wheel (8), the extrusion wheel assembly (2) further comprises a plurality of first drivers (12), and the output end of each first driver (12) is in one-to-one correspondence with each first roller (11);

When the wire harness passes through one of the first guide wheels (8) of the discharging assembly (1) to be pulled, the corresponding first driver (12) drives the corresponding first roller (11) to move and approach the first guide wheel (8), so that the wire harness on the first guide wheel (8) is extruded, and the wire harness enters the corresponding wire outlet barrel (10) along the rotating first guide wheel (8) under the action of the first roller (11) extruding the rotating first guide wheel (8).

6. The induction transformer winding machine of claim 5, wherein: the discharging assembly (1) comprises more than two second guide wheels (15) for guiding the copper pipe in a traction mode and copper pipe guiding-out modules (16) matched with the second guide wheels (15) for guiding the copper pipe in a traction mode, each second guide wheel (15) is rotatably arranged on the discharging assembly (1), and copper pipe guiding-out cylinders (17) are arranged on the copper pipe guiding-out modules (16) corresponding to each second guide wheel (15);

Copper pipes with different or same specification and size are simultaneously or independently pulled on the discharging component (1) through more than two second guide wheels (15) and copper pipe guide cylinders (17);

The extrusion wheel assembly (2) comprises more than two second rollers (18), each second roller (18) is rotatably arranged on the extrusion wheel assembly (2) and is in one-to-one correspondence with each second guide wheel (15), the extrusion wheel assembly (2) further comprises a plurality of second drivers (19), and the output end of each second driver (19) is in one-to-one correspondence with each second roller (18);

When the wire harness is pulled by one of the second rollers (18) of the discharging assembly (1), the corresponding second driver (19) drives the corresponding second roller (18) to move and approach the second guide wheel (15), so that the copper pipe on the second guide wheel (15) is extruded, and the copper pipe enters the corresponding copper pipe guiding-out cylinder (17) along the rotating second guide wheel (15) under the action of the second guide wheel (15) extruded by the second roller (18).

7. The induction transformer winding machine of claim 6, wherein: the second guide wheel (15) is provided with tooth grooves (26) at positions corresponding to the second rollers (18) for extruding and contacting the copper pipe, and when the copper pipe body is extruded towards the second guide wheel (15) by the second rollers (18), the copper pipe body is limited on the tooth grooves (26).

8. The induction transformer winding machine of claim 6, wherein: the discharging assembly (1) comprises a fixed frame (20), a connecting shaft (21) penetrating through each first guide wheel (8) and each second guide wheel (15) is arranged on the fixed frame (20), one end of the connecting shaft (21) is in transmission connection with the output end of the third driver (23) through a transmission assembly (22), and the output end of the third driver (23) drives the connecting shaft (21) to rotate through the transmission assembly (22), so that each first guide wheel (8) and each second guide wheel (15) on the connecting shaft (21) synchronously rotate.

9. The induction transformer winding machine of claim 6, wherein: the extrusion wheel assembly (2) further comprises a frame piece (13) rotationally connected with one side of the discharging assembly (1), a plurality of swinging pieces (14) are arranged on the frame piece (13) at intervals, the swinging pieces (14) are rotationally arranged on the frame piece (13), each first roller (11) and each second roller (18) are rotationally arranged on the corresponding swinging piece (14), each first driver (12) and each second driver (19) are fixedly arranged on the outer side of the frame piece (13), the output end of each first driver (12) and the output end of each second driver (19) drive the corresponding swinging piece (14), the swinging pieces (14) swing and drive the corresponding first rollers (11) or second rollers (18) to move, so that the first rollers (11) swing along with the swinging pieces (14) to be close to the corresponding first guide wheels (8), and the second rollers (18) swing along with the swinging pieces (14) to be close to the corresponding second guide wheels (15).

10. The induction transformer winding machine of claim 1, wherein: the clamping mechanism for clamping the material is arranged below the discharging assembly (1), the clamping mechanism is vertically movably arranged on a machine body (25) of the winding machine of the inductance transformer, the discharging assembly (1) is in a discharging state, the clamping mechanism moves to a clamping position for clamping the wire harness or the copper pipe of the discharging assembly (1), and after the clamping mechanism moves to clamp the wire harness or the copper pipe of the discharging assembly (1), the wire harness or the copper pipe of the discharging assembly (1) moves along with the clamping mechanism, and the wire harness or the copper pipe is pulled out of a discharging station by the clamping mechanism.