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NZ793745B2 - Fusion welding device - Google Patents
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NZ793745B2 - Fusion welding device - Google Patents

Fusion welding device

Info

Publication number
NZ793745B2
NZ793745B2 NZ793745A NZ79374521A NZ793745B2 NZ 793745 B2 NZ793745 B2 NZ 793745B2 NZ 793745 A NZ793745 A NZ 793745A NZ 79374521 A NZ79374521 A NZ 79374521A NZ 793745 B2 NZ793745 B2 NZ 793745B2
Authority
NZ
New Zealand
Prior art keywords
fusion welding
component
welding work
input part
motor
Prior art date
Application number
NZ793745A
Other versions
NZ793745A (en
Inventor
Yuhua He
Shuibo Jiang
Original Assignee
Taizhou Yongpai Pack Equipment Co Ltd
Filing date
Publication date
Application filed by Taizhou Yongpai Pack Equipment Co Ltd filed Critical Taizhou Yongpai Pack Equipment Co Ltd
Publication of NZ793745A publication Critical patent/NZ793745A/en
Publication of NZ793745B2 publication Critical patent/NZ793745B2/en

Links

Abstract

fusion welding device comprising a fusion welding work motor (200), a fusion welding work moving assembly, and a fusion welding work fixed assembly, where the fusion welding work motor (200) is connected with the fusion welding work moving assembly by means of a transmission mechanism (202). The fusion welding device is provided with a central connection component (1) that is able to rotate and is provided with a first input part (11), a second input part (12), and a locking structure connection part (13). The first input part (11) is transmissively connected to a clutch of the fusion welding work motor (200) and is able to drive, by means of a first output component (201), the first input part (11) to produce a rotation in a second direction and thereby drive the central connection component (1) to rotate in the second direction. After rotating to a set angle, the first input part (11) and the first output component (201) disengage, said set angle corresponding to an angle of rotation required for the fusion welding work moving assembly to move to a fusion welding working location. The second input part (12), on the basis of driving of the fusion welding work motor (200), produces a rotation in a first direction to cause the central connection component (1) to rotate in the first direction and cause the first input part (11) to engage with the first output component (201).

Claims (20)

1. A fusion welding device, comprising a fusion welding work motor, a fusion welding work moving assembly, and a fusion welding work fixed assembly, the fusion welding work motor being connected with the fusion welding work moving assembly by means of a transmission mechanism; the fusion welding device is provided with a central connection component that is able to rotate, and the central connection component is provided with a first input part, a second input part, and a locking structure connection part; wherein the first input part is transmissively connected to a clutch of the fusion welding work motor, and the fusion welding work motor is able to drive, by means of a first output component, the first input part to produce a rotation in a second direction, and thereby drive the central connection component to rotate in the second direction, and after rotating to a set angle, the first input part and the first output component disengage, said set angle corresponding to an angle of rotation required for the fusion welding work moving assembly to move to a fusion welding working location; and wherein the second input part, on the basis of driving of the motor, produces the rotation in a first direction, to cause the central connection component to produce rotation in the first direction and cause the first input part to engage with the first output component.
2. The fusion welding device according to claim 1, wherein the first input part is a sector gear, the first output component is a gear; the second input part is a gear, and on the basis of the driving of the fusion welding work motor, produces a rotation in the first direction.
3. The fusion welding device according to claim 1 or 2, wherein the fusion welding device is provided with a fusion welding working state locking structure of a fusion welding work moving assembly, the locking structure is arranged obliquely, and the upper end thereof is rotatably connected to the locking structure connection part, the axis of rotation is parallel to the axis of rotation of the central connection component, and the lower end thereof is connected with the fusion welding work moving assembly; the fusion welding device is provided with a limiting structure to limit the maximum rotation angle of the central connection component in the second direction; the fusion welding device is configured such that the locking structure is in a locked state when the fusion welding work is performed, and the first input partand first output component are in a disengaged state, and the central connection component maintains a tendency to rotate in a second rotational direction, so that the fusion welding work moving assembly is not lifted up, before the fusion welding work starts, the fusion welding work moving assembly is in a lifted state, the locking structure is in a non-locked state, and the first input part and the first output component are in a connected state.
4. The fusion welding device according to claim 3, wherein the fusion welding working state locking structure comprises an upper assembly and a lower assembly, the upper assembly is rotatably connected with the locking structure connection part, and the lower assembly is rotatably connected with the fusion welding work moving assembly; a compression spring is provided between the upper assembly and the lower assembly, and a length adjusting component is provided for one of the upper assembly and the lower assembly, and an inserting connection component mated with the length adjusting component is provided for the other; the fusion welding device is provided with a limiting structure to limit the maximum rotation angle of the central connection component rotating to the second direction; wherein the locking structure, the fusion welding work moving assembly, and the central connection component are configured such that when the fusion welding work is performing, the locking structure is in a locked state, and the first input part and the first output component are in a disengaged state, and the central connection component remains the tendency to rotate in the second rotation direction, the axis of rotation for the rotational connection between the locking structure and the locking structure connection part is outside the first side of the plane; before the fusion welding work starts, the fusion welding work moving assembly is in a lifted state, the locking structure is in a non-locked state, the axis of rotation for the rotational connection between the locking structure and the locking structure connection part is outside the second side of the plane, and the first input part and the first output component are in a connected state; the plane is the plane that passes through the axis of rotation of the central connection component and the axis of rotation for the rotational connection between the fusion welding work moving assembly and the locking structure.
5. The fusion welding device according to any one of the preceding claims, wherein the fusion welding work moving assembly comprises a mounting frame, the mounting frame is rotatably mounted on the mounting base, and the mounting frame is further connected with the central connection component by means of the fusion welding working state locking structure, the rotation of the central connection component in the second direction causes the fusion welding work moving assembly to rotate to an angle for the fusion welding work by means of the locking structure, and is locked without reverse rotation.
6. The fusion welding device according to any one of the preceding claims, wherein the fusion welding work moving assembly comprises a fusion welding working component and a fusion welding working power input connection component, and the fusion welding working component and the fusion welding working power input connection component are hinged, the fusion welding working power input connection component is connected with one end of the transmission mechanism by means of an eccentric structure, and the other end of the transmission mechanism is connected with an output end of the fusion welding work motor; the fusion welding working component is slidably connected to a guide rail on the mounting frame; the hinge axis of the fusion welding working component and the fusion welding working power input connection component is parallel to the axis of rotation of the mounting frame.
7. The fusion welding device according to any one of the preceding claims, wherein the fusion welding work moving assembly comprises a mounting frame top spring arranged between the mounting frame and the mounting base.
8. The fusion welding device according to any one of the preceding claims, wherein the fusion welding work motor and the transmission mechanism are in a one-way transmission connection relationship, when the central connection component moves in the first direction, the fusion welding work motor and the transmission mechanism are in a drive disengagement connection, and the fusion welding work motor does not drive the transmission mechanism.
9. The fusion welding device according to any one of claims 1 to 7, wherein the fusion welding work motor and the second input part are in a one-way transmission connection relationship, and when the central connection component moves in the second direction, the fusion welding work motor and the second input part are in a drive disengagement connection, and the fusion welding work motor does not drive the second input part, and the central connection component is driven to rotate by the motor driving force received by the first input part; wherein the fusion welding work motor is configured to automatically rotate in the reverse direction after the fusion welding work is completed, and the central connection component generates a reset rotation in the first direction by means of the connection with the second input part.
10. The fusion welding device according to claim 9, wherein the second input part is a gear, and the fusion welding work motor can drive the second input part to rotate in the first direction by means of the second output component; wherein the first output component, the second output component and a driving wheel of the transmission mechanism are all mounted on the output shaft of the fusion welding work motor, and the second output component and the driving wheel of the transmission mechanism are connected with the output shaft in a one-way drive in the opposite direction, when the fusion welding work motor is rotating forward, the driving wheel of the transmission mechanism can be driven, and when the fusion welding work motor is rotating reversely, the second output component can be driven to rotate.
11. The fusion welding device according to claim 2, wherein the front end of the sector gear of the first input part is provided with elastic tooth component that mate with the first output component in the first direction.
12. The fusion welding device according to claim 11, wherein the elastic tooth component adopts an elastic sheet and is connected to the front side of the sector gear in the first direction by means of a connection structure.
13. The fusion welding device according to claim 1, wherein the first input part is a sector gear, and the first output component is a gear.
14. The fusion welding device according to claim 1, wherein the first output component adopts a gear, the first input part is a sector gear; the first output component is provided with a shaft hole, and the motor output shaft penetrates the shaft hole, a torsion spring is provided between the motor output shaft and the first output component; there is a spacing in the circumferential direction between the motor output shaft and the first output component, the motor output shaft is provided with a first driving part to drive the sector gear of the first input part to rotate in the second direction, the motor output shaft is provided with a second driving part, and drives the sector gear of the first input part to rotate in a first direction after the sector gear is turned from being disconnected from the motor output gear to a connected state; wherein the working direction of the torsion spring is that after the sector gear of the first input part rotates at a certain angle and is disengaged from the motor output gear, the first output component is driven to continue to rotate when the motor output shaft stops rotating, to cause the first output component to disengage the connection with the first driving part.
15. The fusion welding device according to claim 14, wherein a torsion spring connection hole is provided on the end face of the first output component, the torsion spring is sleeved on the shaft, and one end of the torsion spring is connected with the torsion spring connection hole.
16. The fusion welding device according to claim 14 or 15, wherein the part where the motor drive shaft is connected with the first output component is a flat shaft, the motor shaft hole of the first output component is provided with a protrusion, and the two sides of the protrusion are respectively mated with the first driving part and the second driving part of the motor output shaft.
17. The fusion welding device according to claim 16, wherein the torsion spring drives the first output component to continue rotation when the motor output shaft stops rotating after the sector gear of the first input part rotates by a certain angle, such that the first output component disengages the connection with the first driving part and rotates to contact with the second driving part.
18. The fusion welding device according to any one of claims 14 to 17, wherein a central angle corresponding to the spacing is smaller than the angle between adjacent teeth of the sector gear of the first input part.
19. The fusion welding device according to any one of claims 14 to 18, wherein the end face of the first output component is provided with a torsion spring connecting hole, the torsion spring is sleeved on the flat shaft, one end of the torsion spring is connected with the torsion spring connecting hole, and the torsion spring is provided with a flat spring coil matching the shape of the flat shaft, and is connected with the flat shaft.
20. A fusion welding device, as substantially described herein with reference to and as illustrated by the accompanying drawings.
NZ793745A 2021-02-19 Fusion welding device NZ793745B2 (en)

Publications (2)

Publication Number Publication Date
NZ793745A NZ793745A (en) 2025-01-31
NZ793745B2 true NZ793745B2 (en) 2025-05-01

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