CN217071227U - Portable controllable electric welding equipment - Google Patents

Abstract

The utility model discloses portable controllable electric welding equipment, which comprises an equipment box body, a wire winding box, a power supply groove, an adjusting device, a heat dissipation box and a heat dissipation fan; the utility model relates to an electric welding equipment technical field possesses following beneficial effect: through the fixed resilience structure of scalable bonding tool, make the bonding tool can reason the equipment body work, but the flexible length of environment needs, can retrieve the bonding tool automatically moreover and lock fixedly, solved electric welding equipment and can not adapt to narrow operational environment's problem. The equipment is small in structure, the equipment can be directly lifted and moved by hands through the lifting handle above the equipment box body and the damping mobile equipment below the equipment box body, the impact force can be reduced through the damping mobile equipment when the equipment receives impact, and internal elements are protected from being vibrated. Through simple and easy electric welding drive structure, fine solution maintenance in the future is compound and many scheduling problems consuming time, realizes that small and exquisite simple and easy component can conveniently maintain clearance and maintenance work to equipment, has more saved the cost of production facility.

Description

Portable controllable electric welding equipment

Technical Field

The utility model relates to an electric welding equipment technical field specifically is a controllable electric welding equipment of portable.

Background

The common problems of electric welding equipment used in the industry at present are as follows:

1. the product equipment is large in volume and cannot work in a narrow environment;

2. the electric welding equipment is heavy, inconvenient to carry, poor in moving and supporting effects and easy to damage in the carrying process;

3. most electric welding equipment have complex structures, and the maintenance becomes difficult and cumbersome after problems occur, thereby increasing the cost of maintenance or production equipment.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a portable controllable electric welding device comprises a device box body, a wire winding box, a power supply groove, an adjusting device, a heat dissipation box and a heat dissipation fan; the electric welding machine is characterized in that the equipment box body is used for supporting machine body elements, the winding box is installed in the equipment box body, the power supply groove is installed in the equipment box body, the heat dissipation box is installed in the equipment box body, the adjusting device is installed above the inside of the equipment box body, the heat dissipation fan is installed in the equipment box body, an electric welding switch structure is arranged at the rear side of the inside of the equipment box body, and a telescopic welding head fixing resilience structure and an electric welding driving structure are arranged in the winding box body;

wherein, electric welding switch structure includes: the locking device comprises a hole groove, a switch post, a support plate, a return spring 33, a first contact block, a first switch buckle groove, a first switch buckle post, a first locking buckle groove, a first locking buckle post, a first buckle spring and a first locking groove;

the hole groove is formed in the equipment box body, the switch column is sleeved on the hole groove and the supporting plate, the supporting plate is installed on the equipment box body, the first contact block is installed at the tail end of the switch column, the first switch buckle groove and the first locking buckle groove are formed in the inner wall of the equipment box body, the first switch buckle column is installed in the first switch buckle groove, the first locking buckle column is installed in the first locking buckle groove, the first buckle spring is installed below the first switch buckle column and the first locking buckle column, and the first locking groove is formed in the switch column.

Preferably, a damping mobile device is arranged below the device box body.

Preferably, a heat dissipation net port is arranged on the equipment box body.

Preferably, an adjusting panel is arranged above the equipment box body.

Preferably, the retractable horn secures the resilient structure, comprising: the welding head switch comprises a rotating shaft, a winding drum, a rebound spring, a wire, a welding head switch, a second switch buckling groove, a second switch buckling column, a second locking buckling groove, a second locking buckling column, a second buckling spring and a second locking groove;

the utility model discloses an equipment box, including winding box, axis of rotation, reel suit, resilience spring suit, wire winding box inner wall and reel, the axis of rotation is installed at the winding box insidely, the reel suit is in the axis of rotation, resilience spring suit is in the axis of rotation and fixes on the winding box inner wall and reel, the wire winding is on the reel, the bonding tool is installed in wire one end, second switch buckle groove and second locking buckle groove are seted up inside the equipment box, second switch buckle post is installed at second switch buckle inslot, second locking buckle post is installed at second locking buckle inslot, second buckle spring mounting is in second switch buckle post and second locking buckle post below, second locking groove is seted up on the bonding tool.

Preferably, the electric welding driving structure comprises: the driving power supply, the varistor frame, the electric wire supporting plate, the varistor regulator and the second contact block;

the driving power supply is installed in the power supply groove, the varistor frame is installed below the inner portion of the equipment box, the varistor regulator is installed on the varistor frame, the electric wire supporting plate is installed in the equipment box, and the second contact blocks are installed on two sides of the driving power supply and the varistor regulator.

Advantageous effects

This controllable electric welding equipment of portable has possesses following beneficial effect:

1. through the fixed resilience structure of scalable bonding tool, make the bonding tool can reason the equipment body work, but the flexible length of environment needs, can retrieve the bonding tool automatically moreover and lock fixedly, solved electric welding equipment and can not adapt to narrow operational environment's problem.

2. The equipment is small in structure, the equipment can be directly lifted and moved by hands through the lifting handle above the equipment box body and the damping mobile equipment below the equipment box body, the impact force can be reduced through the damping mobile equipment when the equipment receives impact, and internal elements are protected from being vibrated.

3. Through simple and easy electric welding drive structure, fine solution maintenance in the future is compound and many scheduling problems consuming time, realizes that small and exquisite simple and easy component can be very convenient maintain clearance and maintenance work to equipment, has more saved the cost of production facility.

Drawings

Fig. 1 is a schematic view of a main view structure section of a portable controllable electric welding device.

Fig. 2 is a partial schematic view of a glass press-fit structure section of a portable controllable electric welding device.

Fig. 3 is a schematic diagram of a die box dismounting structure of a portable controllable electric welding device.

Fig. 4 is the utility model relates to a controllable electric welding equipment of portable electric welding switch structure principle schematic diagram.

In the figure: 1. an equipment box body; 2. a wire winding box; 3. a power supply slot; 4. an adjustment device; 5. a heat dissipation box; 6. a heat dissipation fan; 7. a hole groove; 8. a switch post; 9. a support plate; 10. a first contact block; 11. a first switch snap groove; 12. a first switch buckle column; 13. a first locking snap groove; 14. a first locking snap post; 15. a first snap spring; 16. a first locking groove; 17. A rotating shaft; 18. a bobbin; 19. a rebound spring; 20. a wire; 21. a welding head; 22. A second switch snap groove; 23. a second switch latch post; 24. a second locking snap groove; 25. A second locking buckle column; 26. a second snap spring; 27. a second locking groove; 28. a drive power supply; 29. a resistance changer frame; 30. a wire support plate; 31. a resistance-variable regulator; 32. a second contact block; 33. a return spring;

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-4, which illustrate a technical solution of the present invention.

Example 1: referring to fig. 1-4, a portable controllable electric welding device includes a device case 1, a winding case 2, a power supply tank 3, an adjusting device 4, a heat dissipation case 5 and a heat dissipation fan 6; the electric welding machine is characterized in that the equipment box body 1 is used for supporting machine body elements, the winding box 2 is installed in the equipment box body 1, the power supply groove 3 is installed in the equipment box body 1, the heat dissipation box 5 is installed in the equipment box body 1, the adjusting device 4 is installed above the inside of the equipment box body 1, the heat dissipation fan 6 is installed in the equipment box body 1, an electric welding switch structure is arranged at the rear part of the inside of the equipment box body 1, and a telescopic welding head fixing rebound structure and an electric welding driving structure are arranged in the winding box 2;

wherein, electric welding switch structure includes: the locking device comprises a hole groove 7, a switch column 8, a support plate 9, a return spring 33, a first contact block 10, a first switch buckle groove 11, a first switch buckle column 12, a first locking buckle groove 13, a first locking buckle column 14, a first buckle spring 15 and a first locking groove 16;

the hole groove 7 is formed in the equipment box body 1, the switch column 8 is sleeved on the hole groove 7 and the supporting plate 9, the supporting plate 9 is installed on the equipment box body 1, the first contact block 10 is installed at the tail end of the switch column 8, the first switch buckling groove 11 and the first locking buckling groove 13 are formed in the inner wall of the equipment box body 1, the first switch buckling column 12 is installed in the first switch buckling groove 11, the first locking buckling column 14 is installed in the first locking buckling groove 13, the first buckling spring 15 is installed below the first switch buckling column 12 and the first locking buckling column 14, and the first locking groove 16 is formed in the switch column 8.

It should be noted that the hole slot 7 and the supporting plate 9 are used for supporting the movement of the switch post 8, the first switch latching slot 11 and the first locking latching slot 13 are used for supporting the internal structure, when the device needs to be started, the first switch latching post 12 is pressed to move, so that the first locking latching post 14 elastically contracts from the first locking slot 16, the switch post 8 can be unlocked, and meanwhile, the switch post 8 is moved inwards through the return spring 33 until the first contact block 10 contacts with the driving power supply 28, so that the device is started.

Example 2: referring to fig. 1-2, a damping mobile device is arranged below the device box 1.

It should be noted that the shock absorbing movement can better support the device, maintain the device stable, and shock absorb the internal components.

Example 3: referring to fig. 2, a heat dissipation mesh is disposed on the equipment box 1.

It should be noted that the heat dissipation port can discharge the internal heat outside the device through the heat dissipation fan 6, so as to better maintain the safe temperature of the device.

Example 4: referring to fig. 1-3, an adjusting panel is disposed above the equipment box 1.

It should be noted that the adjusting panel can more conveniently adjust the output power accurately, and at the same time, can reduce the consumption of electric energy.

Example 5: referring to fig. 1-3, a retractable horn fixed spring-back structure includes: the rotating shaft 17, the bobbin 18, the rebound spring 19, the wire 20, the welding head 21, the second switch latch groove 22, the second switch latch post 23, the second locking latch groove 24, the second locking latch post 25, the second latch spring 26, and the second locking groove 27;

the utility model discloses an equipment box, including axis of rotation 17, bobbin 18, rebound spring 19, second switch buckle groove 22, second switch buckle post 23, second locking buckle post 25, second locking buckle post 24, axis of rotation 17 is installed inside winding box 2, bobbin 18 suit is on axis of rotation 17, rebound spring 19 suit is on axis of rotation 17 and fixes on winding box 2 inner wall and bobbin 18, wire 20 twines on bobbin 18, bonding tool 21 installs in wire 20 one end, second switch buckle groove 22 and second locking buckle groove 24 are seted up inside equipment box 1, second switch buckle post 23 is installed in second switch buckle groove 22, second locking buckle post 25 is installed in second locking buckle groove 24, second buckle spring 26 is installed in second switch buckle post 23 and second locking buckle post 25 below, second locking groove 27 is seted up on bonding tool 21.

It should be noted that, when the welding head 21 needs to be stretched, the second switch buckling column 23 is moved by pressing the second switch buckling columns 23 on both sides, so that the second locking buckling column 25 rebounds and contracts through the second buckling spring 26, the welding head 21 can be unlocked and pulled out, the winding drum 18 rotates on the rotating shaft 17, the wire 20 is pulled out by the welding head 21, and when the welding head 21 needs to be recovered, the winding drum 18 reversely rotates to the original position through the elastic deformation of the rebound spring 19, and the welding head 21 is fixed to the original position again.

Example 6: referring to fig. 1, the electric welding driving structure includes: a driving power source 28, a varistor holder 29, a wire support plate 30, a varistor adjuster 31, and a second contact block 32;

the driving power supply 28 is installed in the power supply groove 3, the varistor holder 29 is installed in the lower portion of the inside of the equipment box body 1, the varistor adjuster 31 is installed on the varistor holder 29, the electric wire supporting plate 30 is installed in the equipment box body 1, and the second contact block 32 is installed on two sides of the driving power supply 28 and the varistor adjuster 31.

It should be noted that the varistor holder 29 is used to support and detach the varistor, when the first contact block 10 contacts with the second contact block 32 on the driving power supply 28, the conducting wire 20 will be closed, so as to generate current from the driving power supply 28 to the varistor, and after the current is adjusted, the circuit will be short-circuited instantaneously, and a high temperature is generated at the welding head 21 to complete the electric welding work.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A portable controllable electric welding device comprises a device box body, a wire winding box, a power supply groove, an adjusting device, a heat dissipation box and a heat dissipation fan; the electric welding machine is characterized in that the equipment box body is used for supporting machine body elements, the winding box is installed in the equipment box body, the power supply groove is installed in the equipment box body, the heat dissipation box is installed in the equipment box body, the adjusting device is installed above the inside of the equipment box body, the heat dissipation fan is installed in the equipment box body, an electric welding switch structure is arranged at the rear side of the inside of the equipment box body, and a telescopic welding head fixing resilience structure and an electric welding driving structure are arranged in the winding box body;

wherein, electric welding switch structure includes: the locking device comprises a hole groove, a switch column, a supporting plate, a reset spring, a first contact block, a first switch buckle groove, a first switch buckle column, a first locking buckle groove, a first locking buckle column, a first buckle spring and a first locking groove;

the hole groove is formed in the equipment box body, the switch column is sleeved on the hole groove and the supporting plate, the supporting plate is installed on the equipment box body, the first contact block is installed at the tail end of the switch column, the first switch buckle groove and the first locking buckle groove are formed in the inner wall of the equipment box body, the first switch buckle column is installed in the first switch buckle groove, the first locking buckle column is installed in the first locking buckle groove, the first buckle spring is installed below the first switch buckle column and the first locking buckle column, and the first locking groove is formed in the switch column.

2. The portable controllable electric welding apparatus of claim 1, wherein a shock absorbing moving apparatus is provided below said apparatus housing.

3. The portable controllable electric welding apparatus of claim 1, wherein said apparatus housing is provided with a heat sink port.

4. The portable controllable electric welding apparatus of claim 1, wherein an adjustment panel is disposed above said apparatus housing.

5. The portable controllable electric welding apparatus of claim 1, wherein the retractable welding head secures the resilient structure, comprising: the welding head switch comprises a rotating shaft, a winding drum, a rebound spring, a wire, a welding head switch, a second switch buckling groove, a second switch buckling column, a second locking buckling groove, a second locking buckling column, a second buckling spring and a second locking groove;

the utility model discloses an equipment box, including winding box, axis of rotation, reel suit, resilience spring suit, wire winding box inner wall and reel, the axis of rotation is installed at the winding box insidely, the reel suit is in the axis of rotation, resilience spring suit is in the axis of rotation and fixes on the winding box inner wall and reel, the wire winding is on the reel, the bonding tool is installed in wire one end, second switch buckle groove and second locking buckle groove are seted up inside the equipment box, second switch buckle post is installed at second switch buckle inslot, second locking buckle post is installed at second locking buckle inslot, second buckle spring mounting is in second switch buckle post and second locking buckle post below, second locking groove is seted up on the bonding tool.

6. The portable controllable electric welding apparatus of claim 1, wherein the electric welding drive structure comprises: the driving power supply, the varistor frame, the electric wire supporting plate, the varistor regulator and the second contact block;

the driving power supply is installed in the power supply groove, the varistor frame is installed below the inner portion of the equipment box, the varistor regulator is installed on the varistor frame, the electric wire supporting plate is installed in the equipment box, and the second contact blocks are installed on two sides of the driving power supply and the varistor regulator.

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