RU2790732C1 - Fusion welding device - Google Patents

Abstract

FIELD: fusion welding.

SUBSTANCE: fusion welding of a packaging tape in a portable packaging machine, containing an engine for performing fusion welding operations, a movable assembly for performing fusion welding operations and a fixed assembly for performing fusion welding operations, and the engine for performing fusion welding work is connected to the movable unit for performing fusion welding work by means of a transmission mechanism. The fusion welding device consists of a central connecting component capable of rotation, and the central connecting component includes a first input part, a second input part and a connecting part of the fixing structure.

EFFECT: performance of automatic band crimping and fusion welding work with a relatively simple structure and connections for two-way transmission of motion and engagement changes, automatically raise of the movable assembly to perform fusion welding work without the need for a handle and associated operations.

19 cl, 12 dwg

Description

The invention relates to a fusion welding device, in particular to a device for fusion welding of a packaging tape in a portable packaging machine.

Prior Art

There is a method for sealing straps, for example, using a polyethylene terephthalate (PET) or polypropylene (PP) strapping strap to strap products or packages in a portable electric packaging machine and then tension and seal the two pieces of the strap using frictional heat. As for the portable packaging machine, it is designed to carry out sequential steps in a small number of operations by automatic operation of the machine, and the structure of the machine is preferably as simple as possible and has a rational layout, while the machine is light in weight and attractive in appearance.

Disclosure of invention

The technical problem to be solved by the invention is to provide a fusion sealing apparatus that can be used in a portable packaging machine for sealing a packaging tape and is easy to operate and simple in structure. To solve this problem according to the invention, the following technical solutions are proposed.

The fusion welding device comprises an engine for performing fusion welding operations, a movable assembly for performing fusion welding operations and a fixed assembly for performing fusion welding operations, wherein the engine for performing fusion welding operations is connected to the movable assembly for performing fusion welding operations by means of transmission mechanism; the fusion welding device comprises a central connecting component that is rotatable, and the central connecting component includes a first input part, a second input part and a connecting part of the fixing structure.

The first input part is communicatively coupled to the gear coupling of the fusion welding motor, and the fusion welding motor is capable of driving, through the first output component, the first input part to cause it to rotate in the second direction and thus drive the central connecting component to rotate it in the second direction, and after rotation through a predetermined angle, the two said components disengage, said predetermined angle corresponding to the angle of rotation necessary to move the movable assembly for fusion welding work to the work site for fusion welding.

The second input part, based on driving the motor, rotates in the first direction to cause rotation of the central connecting component in the first direction and cause the first input part to connect to the first output component.

In addition, the first input part is a gear sector, the first output component is a gear; the second input part is a gear wheel and, based on driving the motor to perform fusion welding work, performs rotation in the first direction.

In addition, the fusion welding apparatus is provided with a locking structure for fixing the state of fusion welding work related to the movable unit for performing fusion welding work, wherein the locking structure is inclined, and the upper end of the locking structure is rotatably connected to the connecting part of the locking structure. structure, the axis of rotation is parallel to the axis of rotation of the central connecting component, and the lower end of the fixing structure is connected to the movable unit for performing fusion welding work; wherein the fusion welding device is provided with a limiting structure for limiting the maximum rotation angle of the central connecting component in the second direction; the fusion welding apparatus is configured such that during the execution of fusion welding operations, the fixing structure is in a fixed state, and the first input part and the first output component are in a disengaged state, and the central connecting component maintains a tendency to rotate during the second direction of rotation so that the fusion welding movable unit is not raised, before the fusion welding operation is started, the fusion welding movable unit is in the raised state, the fixing structure is in the unlatched state, and the first input part and the first output the component is in a connected state.

In addition, the fixing structure for fixing the state when performing fusion welding work includes an upper assembly and a lower assembly, the upper assembly being rotatably connected to the connecting part of the fixing structure, and the lower assembly being rotatably connected to the movable assembly for performing fusion welding operations. ; a compression spring is installed between the upper node and the lower node, and for one of the nodes, which include the upper node and the lower node, a length adjustment component is provided, and for the other of the nodes, an insertion connecting component is provided to mate with the length adjustment component; the fusion welding device is equipped with a limit structure to limit the maximum rotation angle of the second-direction rotating center joint component. The fixing structure, the movable assembly for performing fusion welding work and the central connecting component are designed so that during the execution of fusion welding work, the fixing structure is in a fixed state, and the first input part and the first output component are in the state in which they are removed from engagement, and the central connecting component retains a tendency to rotate in the second direction of rotation, the axis of rotation for connecting by rotation of the fixing structure and the connecting part of the fixing structure is located outside the first side of the plane; before starting the fusion welding work, the movable unit for performing the fusion welding work is in the raised state, the fixing structure is in the unfixed state, the rotation axis for connecting by rotation of the fixing structure and the connecting part of the fixing structure is located outside the second side of the plane, and the first input part and the first output component is in a connected state; said plane is a plane that passes through the axis of rotation of the central connecting component and the axis of rotation for connection by rotation of the movable unit for performing fusion welding work and the fixing structure.

In addition, the movable assembly for performing fusion welding work includes a setting frame, wherein the setting frame is rotatably mounted on the setting base, and the setting frame is also connected to the central connecting component with a fixing structure to fix the state when performing fusion welding work, and rotation of the central connecting component in the second direction causes the movable unit to perform fusion welding work to a corner to perform fusion welding with the fixing structure and fixed without rotation in the reverse direction.

In addition, the movable assembly for performing fusion welding work contains a component for performing fusion welding work and a connecting component for power supply for performing fusion welding work, wherein the component for performing fusion welding work and the connecting component for power supply for performing work on fusion welding jointly connected, and a connecting component for power input for performing fusion welding work is connected to one end of the transmission mechanism through an eccentric structure, and the other end of the transmission mechanism is connected to the output end of the motor for performing fusion welding work; a component for performing fusion welding work is slidably connected to a guide on the mounting frame; the hinge axis of the component for performing fusion welding work and the connecting component for power supply for performing fusion welding work is parallel to the axis of rotation of the mounting frame.

In addition, the movable assembly for performing fusion welding work includes an upper spring for accommodating the installation frame installed between the installation frame and the installation base.

In addition, the fusion welding motor and the transmission mechanism form a one-way motion transmission connection, wherein when the central connecting component moves in the first direction, the connection of the fusion welding motor and the transmission mechanism is disconnected, and the fusion welding motor fusion welding does not drive the transmission mechanism.

In addition, the fusion welding operation motor and the second input part form a one-way motion transmission connection, and when the central connecting component moves in the second direction, the connection of the fusion welding operation motor and the second input part is disconnected, and the operation motor fusion welding does not drive the second input part, and the central connecting component is driven to rotate by the driving force of the engine received by the first input part; the motor for performing the fusion welding work is configured to automatically rotate in the reverse direction upon completion of the fusion welding work, and the central connecting component generates a rotation to the initial state in the first direction by connecting with the second input part.

In addition, the second input part is a gear wheel, and the motor for performing fusion welding work is able to drive the second input part to rotate in the first direction through the second output component; wherein the first output component, the second output component and the drive pulley of the transmission mechanism are mounted on the output shaft of the motor for performing fusion welding work, and the second output component and the drive pulley of the transmission mechanism are connected to the output shaft to provide one-way rotation in the opposite direction, and when the engine for fusion welding operation is rotated forward, the drive pulley of the transmission mechanism is capable of being driven, and when the fusion welding motor is rotating in the reverse direction, the second output component is capable of being driven to rotate.

In addition, the front end of the toothed sector of the first input part contains a flexible toothed component that mates with the first output component in the first direction.

In addition, the flexible tooth component is a flexible sheet and is connected to the front side of the tooth sector in the first direction by a connecting structure.

In addition, the first output component is a gear, the first input is a gear sector; the first output component has a shaft hole, and the motor output shaft is inserted into the shaft hole, and a torsion spring is installed between the motor output shaft and the first output component; there is a space in the circumferential direction between the motor output shaft and the first output component, the motor output shaft has a first drive portion and drives the first input portion gear sector to rotate in the second direction, the motor output shaft has a second drive portion and drives the gear sector the first input part for its rotation in the first direction after the gear sector is detached from the motor output gear and rotated to the connected state.

The operating direction of the torsion spring is such that after the gear sector of the first input part rotates through a certain angle and disengages from the motor output gear, the first output component is driven and continues to rotate when the motor output shaft stops rotating, so that the first output component could get out of connection with the first drive part.

The end surface of the first output component has a hole for connection with a torsion spring, wherein the torsion spring is put on the shaft, and one end of the torsion spring is connected with the hole for connection with the torsion spring.

The motor drive shaft part where the motor drive shaft is connected to the first output component has flats, the motor shaft hole in the first output component has a protrusion, and the two sides of the protrusion respectively mate with the first drive part and the second drive part of the engine output shaft.

The torsion spring drives the first output component to continue rotation when the motor output shaft stops rotating after the gear sector of the first input part rotates at a certain angle, so that the first output component comes out of connection with the first drive part and rotates to contact the second drive part.

The central angle corresponding to the specified space is less than the angle between adjacent teeth of the toothed sector of the first input part.

The end surface of the first output component has a hole for connection with a torsion spring, and the torsion spring is put on the part of the shaft with flats, one end of the torsion spring is connected with the hole for connection with the torsion spring, and the torsion spring has a coil with straight sections, mating with the shape of the shaft part with flats and connected to a part of the shaft with flats.

The fusion sealing device is a fusion sealing device for a packaging tape, and the portable packaging machine does not include a reset handle for the fusion sealing device and a tension device, and "resetting" means a state in which the movable unit for for fusion welding work can be opened to place a packing tape between the movable fusion welding work unit and the fixed fusion welding work unit after rotation of the central connecting component in the first direction.

By implementing the technical solutions of the invention, the described fusion welding apparatus can perform automatic strip crimping and fusion welding work with a relatively simple structure and connections for two-way transmission of motion and engagement changes, and can automatically raise the movable assembly to perform fusion welding work without the need for a handle. and related operations.

Brief description of the drawings

In FIG. 1 schematically shows a portable packaging machine according to an embodiment of the invention;

in fig. 2 shows the main structure of a fusion welding device during fusion welding operations according to an embodiment of the portable packaging machine of the invention;

in fig. 3 is a construction according to an embodiment of the portable packaging machine of the invention, exploded view;

in fig. 4 is the design in FIG. 2, exploded view;

in fig. 5 - interface of the main structures of the device for fusion welding after reset according to an embodiment of the portable packaging machine of the invention;

in fig. 6 - interface of the main structures of the device for fusion welding during the performance of fusion welding according to an embodiment of the portable packaging machine of the invention;

in fig. 7 shows the main structure of the fusion welding apparatus when the engine for performing fusion welding operations is prepared to start performing fusion welding operations according to an embodiment of the portable packaging machine of the invention;

in fig. 8 is an enlarged view of area A in FIG. 6;

in fig. 9 is an exploded view explaining the mating of the first input part, the motor shaft and the first output component according to another embodiment of the invention;

in fig. 10 is a front view explaining the mating of the first input part, the motor shaft and the first output component according to another embodiment of the invention;

in fig. 11 and FIG. 12 is a part of the construction of the invention during fusion welding work and in the initial state for the embodiments shown in FIG. 9 and FIG. 10 respectively, front views.

Embodiments of the invention

With reference to the figures, the fusion welding apparatus according to the invention comprises a motor 200 for performing fusion welding operations, a movable assembly for performing fusion welding operations, and a fixed assembly for performing fusion welding operations; a motor for performing fusion welding work is connected to a movable unit for performing fusion welding work by means of a transmission mechanism; The fusion welding apparatus comprises a central connecting component 1 which is rotatably connected to a fixed mounting base 100, and 10 denotes a pivoting shaft of the central connecting component. The central connecting component contains the first input part 11, the second input part 12 and the connecting part 13 of the fixing structure. The mounting base 100 is mounted on the base 300 of the portable packaging machine.

The first input part 11 is a gear sector and is connected with the possibility of transmitting movement with the gear clutch of the output component 201 of the engine 200 to perform fusion welding work. The first output component 201 is a gear and is mounted on the output shaft 205 of the motor. The fusion welding motor 200 can drive the first input portion 11 to rotate in the second direction (counterclockwise rotation of the first input portion in FIG. 5) by the first output component 201, and thereby drive the movement of the central connecting component 1 to rotate in the second direction as a whole, and after rotation through a predetermined angle, the two said components disengage, said predetermined angle corresponding to the angle of rotation necessary to move the movable unit for fusion welding work to the work site fusion welding (i.e. moving from the corner in Fig. 5 to the corner in Fig. 6). By using the gear sector, the timing of the gear clutch and the rotation angle are controlled by determining the angle of the gear sector, the structure is simple and the operation of the gear clutch is reliable and stable.

The second input part 12, based on the operation of the fusion welding motor 200, will rotate in the first direction, whereby the central connecting component 1 rotates in the first direction and the first input part 11 is connected to the first output component 201.

The fusion welding device is equipped with a locking structure for fixing the state of fusion welding work related to the movable unit for performing fusion welding work, and the locking structure is inclined, the upper end of the locking structure and the connecting part 13 of the locking structure are hingedly connected by a shaft 21 , wherein the shaft 21 is parallel to the shaft 10, the lower end of the fixing structure is rotatably connected to the movable assembly for performing fusion welding work; the fusion welding apparatus is provided with a limit structure for limiting the maximum rotation angle of the central connecting component 1 in the second direction during fusion welding work. At the maximum angle of rotation, the gear sector and the output component disengage, and the limiting structure consists of a stop 101 on the frame and a stop element 14 on the central connecting component 1.

Preferably, the above locking structure consists of an upper assembly and a lower assembly, the upper assembly comprising a first connecting component 24, and the connecting component 24 and the output connecting component 13 for pressing and fixing for performing fusion welding work are hinged by means of a shaft 21, the second connecting component 25 is located on the lower node, and the second connecting component 25 is rotatably connected to the movable node for performing fusion welding work. A compression spring 22 is installed between the upper node and the lower node. The first connecting component in the upper assembly includes a nut 26 and is connected to the length adjustment component 23 by a threaded connection, and the length adjustment component 23 is inserted into the second connecting component 25. The fixing structure, the movable assembly for performing fusion welding work and the central connecting component 1 are made so that during the fusion welding work (FIG. 6) the fixing structure is in a fixed state, and the first input part 11 and the output component 201 are in a state in which they are disengaged, the central connecting component 1 maintains a tendency to rotate in the second direction of rotation, and the axis of rotation for connecting by rotation of the fixing structure and the connecting part 13 of the fixing structure is located outside the first side of the plane; before starting fusion welding work (Fig. 5), the movable unit for performing fusion welding work is in a raised state, the fixing structure is in an unfixed state, the axis of rotation for connecting by rotation of the fixing structure and the connecting part of the fixing structure is located outside the second side of the plane, and the first input part 11 and the output component 201 are in a connected state; said plane is a plane which passes through the rotation axis of the central connecting component and the rotation axis for connection by rotation of the movable assembly for performing fusion welding work and the fixing structure, and the first side and the second side are divided into front and rear sides of the plane.

The movable assembly for performing fusion welding work includes a mounting frame 31, wherein the mounting frame 31 is rotatably mounted on the mounting base 100 by a bearing 32, and the mounting frame 31 is also connected to the central connecting component by a fixing structure to fix the state when performing work fusion welding; in particular, the mounting frame 31 is rotatably connected to the second connecting component 25 by the pin 27. Thus, the rotation of the central connecting component 1 in the second direction causes the movable unit to perform fusion welding work to a certain angle to perform fusion welding with fixing structure and fixation without rotation in the opposite direction.

The fusion welding mover includes an upper spring 37 for positioning a mounting frame between mounting frame 31 and mounting base 100.

The movable assembly for performing fusion welding work includes a component 33 for performing fusion welding work and a connecting component 34 for supplying power for performing fusion welding work, wherein the component 33 for performing fusion welding work and the connecting component 34 are hinged, and the connecting component 34 for supplying power for performing fusion welding work is connected to one end of the transmission mechanism 202 by means of an eccentric shaft 35; the transmission mechanism 202 may be a belt transmission mechanism, wherein the eccentric shaft 35 is connected to the transmission driven pulley 203, and the transmission drive pulley 204 is connected to the motor output shaft 205 to perform fusion welding work; the fusion welding component 33 is slidably connected to the guide 36 on the installation frame 31, and a snap-in ball can be installed in the curved groove between their sides, the hinge axis of the fusion welding component 33 and the connecting component 34 for supply power for performing fusion welding work is parallel to the axis of rotation of the mounting frame 31 and also parallel to the eccentric shaft 35.

The fusion welding operation motor 200 and the transmission mechanism 202 form a connection for one-way transmission of motion, wherein when the central connecting component 1 is driven by the fusion welding operation motor 200 to move in the first direction, the connection of the fusion operation motor 200 fusion welding and transmission mechanism 202 is disabled, and the motor 200 does not drive the transmission mechanism 202 to perform fusion welding work. fusion welding.

The fusion welding motor 200 and the second input portion 12 form a one-way drive connection, but in the opposite direction to the direction of the one-way drive connection between the fusion welding motor 200 and the transmission mechanism 202, and when the central the connecting component is driven by the fusion welding operation motor 200 by the first input portion 11 and moves in the second direction, the connection of the fusion welding motor and the second input portion is disconnected, and the central connecting component is driven to rotate the driving by the motor force perceived by the first input part.

The fusion welding operation motor 200 is configured to automatically reverse after completion of the fusion welding operation by receiving an automatic reverse rotation signal by setting the fusion welding operation time, and can rotate the center connecting component to the home position at the first direction by connecting with the second inlet part 12. When the portable packaging machine is started, immediately after power is applied, the fusion welding motor 200 also rotates in the reverse direction to reset the device.

The second input part 12 is also a toothed sector with a certain toothed sector angle. The fusion welding motor 200 may drive the second input portion 12 to rotate in the first direction via the second output component 206. The second output component 206 is also a gear. With regard to the one-way rotation of the second output component 206, it can also be connected to the output shaft 205 of the engine to perform fusion welding work using the freewheel bearing 207 in the appropriate direction.

Thus, in the invention, the first output component 201, the second output component 206, and the drive pulley 204 of the transmission mechanism are mounted on the output shaft of the motor for performing fusion welding work, thereby facilitating automatic control, which can achieve operation without a handle to return to the initial position with taking into account the technical solutions of the invention, and greatly simplifying the design. The term "return to the original position" means that when the central connecting component rotates in the first direction, the movable unit for fusion welding work can be opened to place a packing tape between the movable unit for fusion welding work and the fixed unit for fusion welding work. fusion welding; after rotating the central connecting component to the first position, opening can be carried out automatically using the return spring 37.

The front end of the tooth sector of the first input part 11 contains a flexible component that mates with the first output component 201 in the first direction, so that it can have extended adaptability when the central connecting component 1 returns to its original position and rotates in the first direction, allowing automatic connection portable packaging machine as a whole. The flexible tooth component is a flexible metal sheet 5 and is connected to the front side 15 of the tooth sector in the first direction by a connecting structure. The first tooth 16 at the front end of the tooth sector in the first direction is a half tooth with a recess 17 on the front side. The flexible sheet 5 is located in front of the recess 17, and the recess 17 is used to act on the flexible sheet and apply elastic deformation.

The fixed fusion welding unit is a fixed structure at the bottom of the portable packaging machine, and a fixed friction structure 4 is located on the upper surface. heated and friction welded.

During the fusion welding operation, the fusion welding operation motor 200 is rotated forward for a certain time according to the predetermined time, and the joint of the packaging tape is welded. After the specified time elapses without manual intervention, the fusion welding operation motor 200 receives a reverse rotation signal according to the specified time interval.

When the fusion welding motor 200 starts to rotate in the opposite direction, the central connecting component 1 as a whole rotates in the first direction (in the clockwise direction in Fig. 6) mating with the second output component 206 and the second input part. Thus, the first input part 11 rotates from the state of disengagement with the first output component to the state of engagement of said two components, and continues to rotate to the position shown in FIG. 5, however, since the fusion welding motor 200 and the transmission mechanism 202 form a one-way motion transmission connection, the transmission mechanism does not rotate in the reverse direction. After rotating the fixing structure connecting part 13 in the first direction, the rotation axis between the inclined fixing structure and the fixing structure connecting part 13 also rotates outward of the second side of the aforementioned plane, whereby the fixing structure is unlocked, and the installation frame 31 can be rotated and raised to its original position, and the connected packing tape can be removed and at the same time the packing tape to be tied and welded can be placed (FIG. 5).

After the first input part 11 is subjected to the above actions, the central connecting component as a whole rotates in the first direction (counterclockwise direction in FIG. 5), whereby the second input part 12 rotates to the position shown in FIG. 5. However, the fusion welding motor 200 and transmission mechanism 202 provide one-way transmission of motion. Thus, although the output component 201 is engaged with the second input portion 12, the transmission mechanism does not rotate in the opposite direction. After rotating the fixing structure connecting part 13 in the first direction, the rotation axis between the inclined fixing structure and the fixing structure connecting part 13 also rotates outwardly on the second side of the above plane, thereby releasing the fixation, and the mounting frame 31 can be rotated and raised in the state shown in FIG. . 5. The bonded packing tape can be removed, and at the same time, the packing tape can be installed, which needs to be wrapped and welded.

In the next cycle of packaging work, the start switch can be pressed and the packaging tape will be tensioned by the tensioner; after the packing tape is tensioned, the amount of current of the tensioner driving motor is changed to receive signals from the fusion welding motor 200, and the fusion welding motor 200 starts to rotate forward, so that the output component 201 is driven to rotate, the first input part 11 is driven and rotated in the second direction, and thus the central connecting component 1 as a whole rotates in the second direction, and the rotation axis between the inclined locking structure and the connecting part 13 of the locking structure also rotates outward of the first side of the plane to ensure fixation; in this state, the compression spring 22 maintains the rotation of the central connecting component 1 in the second direction of rotation, so that the stop member 14 is pressed against the stop 101 of the limiting structure, and under the action of the compression spring 22, the installation frame 31 is pressed in the lower direction to the angle of the fusion welding work and is in the position required for fusion welding work. At this point, the first input portion 11 moves just enough to disengage from the first output component 201 (FIG. 6). At the same time, since the fusion welding motor 200 and the second input portion 12 form a one-way motion transmission connection, the second input portion 12 only rotates at an appropriate angle with the central connecting component 1.

In the fusion welding operation state, the fusion welding operation motor 200 drives the fusion welding operation component 33 to move back and forth along the guide 36 by means of the transmission mechanism 202, the eccentric shaft 35, and the connection component 34 for inlet capacity to perform fusion welding work in order to perform fusion welding work. At the same time, since the fusion welding motor 200 and the second input portion 12 form a one-way motion transmission connection, the second input portion 12 is not driven and does not interfere with the fixed state. At the same time, since the gear sector has been disengaged from the output component 201 (FIG. 6) and the said state is maintained by the locking structure, the first input portion 11 will not interfere with the locked state. Thus, the central connecting component 1 is freely maintained in a normal working condition.

After completion of the fusion welding work, the motor 200 for performing the fusion welding work starts to rotate in the reverse direction.

With reference to FIG. 9, 10, 11 and 12 are the same reference numbers in FIG. 9 - 12 and fig. 1 to 8 designate the same components, allowing the description of the above embodiments to be used.

In this embodiment, the connection diagram of the first input part 11 and the first output component 201 includes the following features.

The motor output component 201 has a shaft hole 212, the motor output shaft 205 is inserted into the shaft hole 212, and a torsion spring 214 is installed between the motor output shaft 205 and the first output component 201 (hereinafter referred to as the motor output gear); there is space G in the circumferential direction between the motor output shaft 205 and the shaft output gear 201, the motor output shaft 205 has a first driving portion 2051 and drives the gear sector of the first input portion 11 to rotate in the second direction, the motor output shaft 205 has a second the driving part 2052 and drives the gear sector of the first input part 11 to rotate in the first direction after the gear sector 11 is detached from the motor output gear 201 and rotated to the connected state.

The operating direction of the torsion spring 214 is such that after the gear sector of the first input portion 11 rotates at a certain angle and disengages from the motor output gear 201, the motor output gear 201 is driven and continues to rotate when the motor output shaft 205 stops rotating. so that the motor output gear 201 (protrusion 215 in this embodiment) can disengage from the first drive portion 2051 and contact the second drive portion 2052. The central angle corresponding to space G is less than the angle between adjacent teeth of the first input portion gear sector eleven.

The portion of the motor drive shaft 205 where the motor drive shaft 205 is connected to the motor output gear 201 is flattened, and the planes on both sides are used as the first drive portion 2051 and the second drive portion 2052. The motor shaft hole 212 in the motor output gear has a protrusion 215, and two sides of the protrusion 215 mate with the first driving part 2051 and the second driving part 2052 of the motor output shaft, respectively, and can move in both directions.

The upper end surface of the output gear wheel 201 of the engine has a hole 216 for connection with a torsion spring, and the torsion spring 214 is put on a part of the shaft with flats, one end 217 of the torsion spring 214 is inserted into the hole 216 for connection with the torsion spring, and the torsion spring 214 has a coil with straight sections, mating with the shape of the part of the shaft with flats and connected with the part of the shaft with flats.

When the gear sector of the first input part 11 rotates in the direction of the home position, the motor output gear 201 can have a certain rotation angle with respect to the motor output shaft 205 due to the space G in the circumferential direction and the torsion spring 214, which has a wide adaptability range and eliminates jamming between the gear sector of the first input part 11 and the output gear 201 of the motor and provides automatic connection to ensure the overall operation of the portable packaging machine.

It should be understood that in the description of the invention, the orientation or relative position indicated by the concepts "one end", "other end", "outside", "inside", "horizontal", "end", "length", "outer end", " left", "right", etc., are based on the orientation or relative position shown in the drawings and are used only for convenience and simplification of the description of the invention, and not to indicate or suggest that the specified device or element should have a particular orientation, design and functioning in a particular orientation, and for this reason should not be construed as limiting the invention. The terms "first", "second" are used only for brevity of description and do not indicate or imply relative importance.

The above description relates only to specific embodiments of the invention, but the structural elements of the invention are not limited to this. Any changes or modifications made by those skilled in the art within the scope of the invention fall within the protection scope of the invention.

Claims (25)

1. A device for fusion welding, containing a motor for performing fusion welding work, a movable unit for performing fusion welding work and a fixed unit for performing fusion welding work, and the motor for performing fusion welding work is connected to a movable unit for performing work on fusion welding by means of a transmission mechanism; the fusion welding device includes a central connecting component that is rotatable, and the central connecting component includes a first input part, a second input part, and a connecting part of the fixing structure; the first input part is communicatively coupled to the gear coupling of the fusion welding motor, and the fusion welding motor is capable of driving, through the first output component, the first input part to cause it to rotate in the second direction and thus drive the central connecting component to rotate it in the second direction, and after rotation through a predetermined angle, the two said components disengage, said predetermined angle corresponding to the angle of rotation necessary to move the movable assembly for fusion welding work to the work site fusion welding; the second input part, based on driving the motor, rotates in the first direction to cause rotation of the central connecting component in the first direction and cause the connection of the first input part with the first output component. 2. The fusion welding apparatus according to claim 1, wherein the first input portion is a gear sector, the first output component is a gear; the second input part is a gear wheel and, based on driving the motor to perform fusion welding work, performs rotation in the first direction. 3. The fusion welding apparatus according to claim 1, which is provided with a locking structure for fixing the state of fusion welding work related to the movable unit for performing fusion welding work, wherein the locking structure is obliquely disposed, and the upper end of the locking structure is connected with the possibility rotation with the connecting part of the fixing structure, the rotation axis is parallel to the rotation axis of the central connecting component, and the lower end of the fixing structure is connected to the movable unit for performing fusion welding work; wherein the fusion welding device is provided with a limiting structure for limiting the maximum rotation angle of the central connecting component in the second direction; the fusion welding apparatus is configured such that during the execution of fusion welding operations, the fixing structure is in a fixed state, and the first input part and the first output component are in a disengaged state, and the central connecting component maintains a tendency to rotate during the second direction of rotation so that the fusion welding movable unit is not raised, before the fusion welding operation is started, the fusion welding movable unit is in the raised state, the fixing structure is in the unlatched state, and the first input part and the first output the component is in a connected state. 4. The device for fusion welding according to claim 1, in which the locking structure for fixing the state when performing fusion welding work contains an upper node and a lower node, the upper node is connected with the possibility of rotation with the connecting part of the fixing structure, and the lower node is connected with the possibility rotation with a movable unit for fusion welding work; a compression spring is installed between the upper node and the lower node, and for one of the nodes, which include the upper node and the lower node, a length adjustment component is provided, and for the other of the nodes, an insertion connecting component is provided to mate with the length adjustment component; the fusion welding device is provided with a limit structure for limiting the maximum rotation angle of the second-direction rotating center joint component; the fixing structure, the movable unit for performing fusion welding work and the central connecting component are designed so that during the execution of fusion welding work, the fixing structure is in a fixed state, and the first input part and the first output component are in a state in which they are removed from engagement, and the central connecting component retains a tendency to rotate in the second direction of rotation, the axis of rotation for connecting by rotation of the fixing structure and the connecting part of the fixing structure is located outside the first side of the plane; before starting the fusion welding work, the movable unit for performing the fusion welding work is in the raised state, the fixing structure is in the unfixed state, the rotation axis for connecting by rotation of the fixing structure and the connecting part of the fixing structure is located outside the second side of the plane, and the first input part and the first output component is in a connected state; said plane is a plane that passes through the axis of rotation of the central connecting component and the axis of rotation for connection by rotation of the movable unit for performing fusion welding work and the fixing structure. 5. The fusion welding apparatus according to claim 1, wherein the movable assembly for performing fusion welding operations comprises a mounting frame, wherein the mounting frame is rotatably mounted on the mounting base, and the mounting frame is also connected to the central connecting component by a fixing structure for fixing the state when performing fusion welding work, and rotating the central connecting component in the second direction causes the movable unit for performing fusion welding work to rotate through an angle to perform fusion welding with the fixing structure and fixing without rotation in the reverse direction. 6. The fusion welding device according to Claim. 1, in which the movable unit for performing fusion welding work contains a component for performing fusion welding work and a connecting component for supplying power for performing fusion welding work, and the component for performing fusion welding work and a connecting component for power input for performing fusion welding work are hingedly connected, and a connecting component for supplying power for performing fusion welding work is connected to one end of the transmission mechanism by an eccentric structure, and the other end of the transmission mechanism is connected to the output end of the motor for performing work fusion welding; a component for performing fusion welding work is slidably connected to a guide on the mounting frame; the hinge axis of the component for performing fusion welding work and the connecting component for power supply for performing fusion welding work is parallel to the axis of rotation of the installation frame. 7. The fusion welding apparatus according to claim 1, wherein the movable assembly for performing fusion welding work comprises an upper spring for receiving a mounting frame installed between the mounting frame and the mounting base. 8. The fusion welding apparatus according to claim 1, wherein the fusion welding motor and the transmission mechanism form a connection for one-way transmission of motion, wherein, when the central connecting component moves in the first direction, the connection of the fusion welding motor and gear is turned off and the fusion welding motor does not drive the gear. 9. The fusion welding apparatus according to claim 1, wherein the fusion welding operation motor and the second inlet form a one-way motion transmission connection, and when the central connecting member moves in the second direction, the connection of the fusion welding operation motor and the second input part is turned off, and the engine for performing fusion welding work does not drive the second input part, and the central connecting component is driven to rotate by the driving force of the engine perceived by the first input part; wherein the motor for performing fusion welding work is configured to automatically reverse rotation upon completion of the fusion welding work, and the central connecting component generates a rotation to the initial state in the first direction by connecting with the second input part. 10. The fusion welding apparatus according to claim 9, wherein the second input portion is a gear wheel and the motor for performing fusion welding operations is capable of driving the second input portion to rotate in the first direction via the second output component; wherein the first output component, the second output component and the drive pulley of the transmission mechanism are mounted on the output shaft of the motor for performing fusion welding work, and the second output component and the drive pulley of the transmission mechanism are connected to the output shaft to provide one-way rotation in the opposite direction, and when the engine for fusion welding operation is rotated forward, the drive pulley of the transmission mechanism is capable of being driven, and when the fusion welding motor is rotating in the reverse direction, the second output component is capable of being driven to rotate. 11. The fusion welding apparatus of claim 2, wherein the front end of the toothed sector of the first input portion comprises a flexible toothed component that mates with the first output component in a first direction. 12. The fusion welding apparatus according to claim 11, wherein the flexible toothed component is a flexible sheet and is connected to the front side of the toothed sector in the first direction by a connecting structure. 13. The fusion welding apparatus of claim 1, wherein the first input portion 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 is a gear, the first input is a gear sector; the first output component has a shaft hole, and the motor output shaft is inserted into the shaft hole, and a torsion spring is installed between the motor output shaft and the first output component; there is a space in the circumferential direction between the motor output shaft and the first output component, the motor output shaft has a first drive portion and drives the first input portion gear sector to rotate in the second direction, the motor output shaft has a second drive portion and drives the gear sector a first input portion for rotating it in a first direction after detaching the gear sector from the output gear of the engine and turning into a connected state; the operating direction of the torsion spring is such that after the gear sector of the first input part rotates through a certain angle and disengages from the motor output gear, the first output component is driven and continues to rotate when the motor output shaft stops rotating, so that the first output component can get out of the connection with the first drive part. 15. The fusion welding apparatus according to claim 14, wherein the end surface of the first output component has a hole for connection with a torsion spring, and the torsion spring is put on the shaft, and one end of the torsion spring is connected with the hole for connection with the torsion spring. 16. The fusion welding apparatus according to claim 14, wherein the motor drive shaft portion where the motor drive shaft is connected to the first output component has flats, the motor shaft hole in the first output component has a protrusion, and two sides of the protrusion respectively mate with the first a driving part and a second driving part of the motor output shaft. 17. The fusion welding apparatus according to claim 16, wherein the torsion spring drives the first output component to continue rotating when the motor output shaft stops rotating after the gear sector of the first input portion rotates through a predetermined angle so that the first output component comes out of the joint. with the first drive part and rotates to contact the second drive part. 18. The fusion welding device according to claim 14, wherein the central angle corresponding to said space is less than the angle between adjacent teeth of the toothed sector of the first input portion. 19. The fusion welding apparatus according to claim 14, wherein the end surface of the first output component has a hole for connection with a torsion spring, and the torsion spring is put on the part of the shaft with flats, one end of the torsion spring is connected with the hole for connection with the torsion spring, and the torsion spring has a coil with straight sections, mating with the shape of the flattened shaft part and connected to the flattened shaft part.

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