CN218874213U - Circulating cooling structure and wall-penetrating welding machine - Google Patents

Abstract

The utility model relates to a circulating cooling structure and a through-wall welding machine, belonging to the cooling field of the through-wall welding machine, comprising a frame, a rotating frame, a fixed welding arm, a movable welding arm, a welding head, a cooling box, a circulating device, a circulating conveying mechanism and a water tank; the rotating frame is rotatably arranged at the lower end of the rack; a driving motor for driving the rotating frame to rotate is arranged on the rack; the fixed welding arm is arranged at the lower end of the rotating frame; the movable welding arm is arranged at the lower end of the rotating frame in a sliding manner; the rotating frame is provided with a moving mechanism for driving the movable welding arm to move; two welding heads and two cooling boxes are symmetrically arranged; the circulating device is communicated with the two cooling boxes; the circulating conveying mechanism is arranged on the water tank, and the output end of the circulating conveying mechanism is connected with the input end of the circulating device; the output end of the circulating device is connected with the return end of the circulating conveying mechanism. The utility model discloses can circulate and cool down the cooling to the cooling.

Description

Circulating cooling structure and wall-penetrating welding machine

Technical Field

The utility model relates to a wear wall machine cooling field, especially relate to a circulative cooling structure and wear wall welding machine.

Background

The lead-acid storage battery has wide application, is widely applied to the fields of energy, traffic, electric power, starting and the like due to the advantages of stable quality, low price, long cycle life, simple and convenient use and the like, and is essential for various departments of national economy. When a traditional lead-acid storage battery manufacturer produces a battery, the structural design of the battery is a bridge-crossing welding mode, and in order to reduce the lead weight of the battery and improve the performance of the battery, the structural design of the existing battery adopts a through-wall welding mode.

The wall-penetrating welding machine must use a wall-penetrating welding electrode and a welding spot tool, and the working principle of the wall-penetrating welding machine is as follows: q = I2R t, so it is known that the through-wall welding machine uses electric current to generate heat to melt the lead alloy and join the two cells together, and the generated heat is mainly at the welding head. The through-wall welding electrode is generally made of copper alloy, heat is continuously generated at a welding spot along with the operation process of the through-wall welding of the battery, when the temperature of the welding spot exceeds a certain value, the effect of the through-wall welding is directly influenced, such as lead flying, a large amount of defective products or scrapped products can be generated in the production process of the battery, and therefore cooling treatment needs to be carried out on a welding joint.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that exists among the background art, provide one kind can circulate and cool down refrigerated circulative cooling structure and wear wall welding machine to the cooling.

The technical scheme of the utility model: a circulating cooling structure and a through-wall welding machine comprise a rack, a rotating frame, a fixed welding arm, a movable welding arm, a welding head, a cooling box, a circulating device, a circulating conveying mechanism and a water tank;

the rotating frame is rotatably arranged at the lower end of the rack; a driving motor for driving the rotating frame to rotate is arranged on the rack; the fixed welding arm is arranged at the lower end of the rotating frame; the movable welding arm is arranged at the lower end of the rotating frame in a sliding manner; the rotating frame is provided with a moving mechanism for driving the movable welding arm to move; two welding heads and two cooling boxes are symmetrically arranged; the two welding heads are respectively arranged on the fixed welding arm and the movable welding arm and are symmetrically arranged; the two cooling boxes are symmetrically arranged on the fixed welding arm and the movable welding arm; the circulating device is communicated with the two cooling tanks; the circulating conveying mechanism is arranged on the water tank, and the output end of the circulating conveying mechanism is connected with the input end of the circulating device; the output end of the circulating device is connected with the return end of the circulating conveying mechanism.

Preferably, the circulating device comprises a water inlet pipe, a water outlet pipe and a connecting hose; the water inlet pipe, the water outlet pipe and the connecting hose are respectively provided with two parts; the water inlet pipe is communicated with the lower end of the cooling box; the water outlet pipe is communicated with the upper end of the cooling box; the water outlet pipe arranged at the fixed welding arm is communicated with the water inlet pipe arranged at the rotating frame through a connecting hose; the water outlet pipe arranged at the movable welding arm is communicated with the circulating conveying mechanism through a connecting hose.

Preferably, the circulating conveying mechanism comprises a water pump, a water supply pipe and a water return pipe; the water pump is arranged on the rack, is positioned at the lower end of the rack and is communicated with the rack; the output end of the water pump is connected with a water supply pipe; the water pump is communicated with a water inlet pipe positioned at the fixed welding arm; the water return pipe is communicated with a connecting hose positioned at the movable welding arm.

Preferably, the rotating frame is provided with a support frame; the support frame is connected with the water inlet pipe and the water return pipe; the water feeding pipe and the water return pipe are both rotatably arranged at the upper end of the frame.

Preferably, a rotary connecting mechanism is arranged at the joint of the rack and the rotating frame; the rotary connecting mechanism comprises an installation frame, a connecting frame and a rolling body; the mounting frame is arranged on the rack, and the connecting frame is arranged on the rotating frame; the connecting frame is positioned inside the mounting frame; the rolling element is provided with a plurality ofly, and a plurality of rolling elements all set up between mounting bracket and link, and the rolling element rotates with mounting bracket and link to be connected.

Preferably, the connecting frame is provided with a connecting bolt; the connecting bolts are arranged in a plurality of numbers, and the connecting bolts are connected with the rotating frame in a threaded mode and are connected with the connecting frame in a clamped mode.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model discloses in, the water pump takes the coolant liquid in the water tank out, and carry in the delivery tube, the delivery tube carries the coolant liquid in the inlet tube, the inlet tube carries the coolant liquid in the cooler bin that is located fixed welding arm department, make the liquid level of the coolant liquid in the cooler bin rise, thereby from the outlet pipe output, through connecting hose carry on another cooler bin's inlet tube, and carry in the cooler bin, another outlet pipe of reuse can carry the coolant liquid in the return pipe through connecting hose, through the return pipe flow back to the water tank in accomplishing a cooling cycle, the cooler bin is laminated with fixed welding arm and activity welding arm, thereby can improve the cooling effect, connecting hose can provide the space that the activity welded arm moved; in the application, one end of the rack connected with the rotating frame can move along the vertical direction; when carrying out the wall welding, place the below of rotating turret with battery case, and treat that welded part is located between fixed arm and the activity of welding arm, move down through the drive frame, make the frame drive the rotating turret downward movement, the rotating turret drives fixed arm and the activity of welding arm downward movement, make the soldered connection move to with the part of welding piece parallel and level, move through the movable arm that welds of moving mechanism drive, the activity welds the arm and moves, make two soldered connections clip the welding piece, can carry out welding operation, after the welding is accomplished, the separation of the movable arm that welds of moving mechanism drive, frame rebound, when needs change welding direction, accessible driving motor drive rotating turret rotation degree, realize the welding of different angles.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic view of a partial structure of an embodiment of the present invention;

fig. 3 is a partially enlarged schematic view of a portion a in fig. 1.

Reference numerals: 1. a frame; 2. a rotating frame; 3. a drive motor; 4. a rotating connection mechanism; 401. a mounting frame; 402. a connecting frame; 403. a rolling body; 404. a connecting bolt; 51. fixing the welding arm; 52. a movable welding arm; 501. welding a head; 6. a moving mechanism; 7. a cooling tank; 8. a circulation device; 801. a water inlet pipe; 802. a water outlet pipe; 803. a connecting hose; 9. a circulating conveying mechanism; 901. a water pump; 902. a water supply pipe; 903. a water return pipe; 10. a water tank; 11. a support frame.

Detailed Description

Example one

As shown in fig. 1-3, the utility model provides a circulating cooling structure and wall-through welding machine, including frame 1, rotating turret 2, fixed welding arm 51, movable welding arm 52, soldered connection 501, cooling tank 7, circulating device 8, circulating conveying mechanism 9 and water tank 10;

the rotating frame 2 is rotatably arranged at the lower end of the rack 1; a driving motor 3 for driving the rotating frame 2 to rotate is arranged on the frame 1; the fixed welding arm 51 is arranged at the lower end of the rotating frame 2; the movable welding arm 52 is arranged at the lower end of the rotating frame 2 in a sliding way; the rotating frame 2 is provided with a moving mechanism 6 for driving the movable welding arm 52 to move; two welding heads 501 and two cooling boxes 7 are symmetrically arranged; the two welding heads 501 are respectively arranged on the fixed welding arm 51 and the movable welding arm 52 and are symmetrically arranged; the two cooling boxes 7 are symmetrically arranged on the fixed welding arm 51 and the movable welding arm 52; the circulating device 8 is communicated with the two cooling boxes 7; the circulating conveying mechanism 9 is arranged on the water tank 10, and the output end of the circulating conveying mechanism 9 is connected with the input end of the circulating device 8; the output end of the circulating device 8 is connected with the return end of the circulating conveying mechanism 9.

The circulating device 8 comprises a water inlet pipe 801, a water outlet pipe 802 and a connecting hose 803; two water inlet pipes 801, two water outlet pipes 802 and two connecting hoses 803 are arranged; the water inlet pipe 801 is communicated with the lower end of the cooling box 7; the water outlet pipe 802 is communicated with the upper end of the cooling tank 7; the water outlet pipe 802 arranged at the fixed welding arm 51 is communicated with the water inlet pipe 801 arranged at the rotating frame 2 through a connecting hose 803; the water outlet pipe 802 provided at the movable welding arm 52 communicates with the circulating conveyance mechanism 9 through a connection hose 803. The circulating conveying mechanism 9 comprises a water pump 901, a water supply pipe 902 and a water return pipe 903; the water pump 901 is arranged on the rack 1, is positioned at the lower end of the rack 1, and is communicated with the rack 1; the output end of the water pump 901 is connected with a water supply pipe 902; the water pump 901 is communicated with a water inlet pipe 801 positioned at the fixed welding arm 51; the return pipe 903 communicates with a connection hose 803 at the movable welding arm 52.

The rotating frame 2 is provided with a support frame 11; the support frame 11 is connected with a water inlet pipe 801 and a water return pipe 903; the water feeding pipe 902 and the water return pipe 903 are both rotatably arranged at the upper end of the frame 1; the support frame 11 can support the water inlet pipe 801 and the water return pipe 903 and prevent the water inlet pipe 801 and the water return pipe 903 from scattering; the frame 1 supports the upper ends of the water feeding pipe 902 and the water returning pipe 903, and when the rotating frame 2 rotates by 90 degrees, the water feeding pipe 902 and the water feeding pipe 902 are not affected to continuously convey cooling liquid.

In this embodiment, the water pump 901 pumps out the coolant in the water tank 10 and conveys the coolant into the water supply pipe 902, the water supply pipe 902 conveys the coolant into the water inlet pipe 801, the water inlet pipe 801 conveys the coolant into the cooling tank 7 located at the fixed welding arm 51, so that the liquid level of the coolant in the cooling tank 7 rises, the coolant is output from the water outlet pipe 802, conveyed onto the water inlet pipe 801 of another cooling tank 7 through the connecting hose 803 and conveyed into the cooling tank 7, the another water outlet pipe 802 is used again and can convey the coolant into the water return pipe 903 through the connecting hose 803, the coolant flows back into the water tank 10 through the water return pipe 903 to complete a cooling cycle, the cooling tank 7 is attached to the fixed welding arm 51 and the movable welding arm 52, so that the cooling effect can be improved, and the connecting hose 803 can provide a space for the movable welding arm 52 to move; in the application, one end of the rack 1 connected with the rotating frame 2 can move along the vertical direction; when wall-penetrating welding is carried out, a battery shell is placed below the rotating frame 2, the part to be welded is located between the fixed welding arm 51 and the movable welding arm 52, the driving frame 1 moves downwards, the frame 1 drives the rotating frame 2 to move downwards, the rotating frame 2 drives the fixed welding arm 51 and the movable welding arm 52 to move downwards, the welding head 501 moves to the part parallel to the welding block, the movable welding arm 52 is driven to move through the moving mechanism 6, the movable welding arm 52 drives the welding head 501 to move, the two welding heads 501 clamp the welding block, welding operation can be carried out, after welding is completed, the moving mechanism 6 drives the movable welding arm 52 to separate, the frame 1 moves upwards, when the welding direction needs to be changed, the rotating frame 2 can be driven to rotate 90 degrees through the driving motor 3, and welding at different angles is achieved.

Example two

As shown in fig. 1-3, compared with the first embodiment, the circulating cooling structure and the through-wall welding machine of the present invention have a rotary connection mechanism 4 disposed at the connection between the frame 1 and the rotating frame 2; the rotary connecting mechanism 4 comprises a mounting frame 401, a connecting frame 402 and a rolling body 403; the mounting frame 401 is arranged on the rack 1, and the connecting frame 402 is arranged on the rotating frame 2; the connecting frame 402 is positioned inside the mounting frame 401; the rolling body 403 is provided in plurality, the plurality of rolling bodies 403 are all provided between the mounting frame 401 and the connecting frame 402, and the rolling bodies 403 are rotatably connected with the mounting frame 401 and the connecting frame 402. The connecting frame 402 is provided with a connecting bolt 404; the connecting bolts 404 are provided in plurality, and the plurality of connecting bolts 404 are all connected with the rotating frame 2 by screw thread and are clamped with the connecting frame 402.

In this embodiment, the connecting frame 402 can be detachably connected to the rotating frame 2 through the connecting bolts 404, when the rotating frame 2 rotates, the weight of the rotating frame 2 is transmitted to the connecting frame 402, the connecting frame 402 presses on the rolling bodies 403, and the mounting frame 401 supports the rolling bodies 403, the connecting frame 402 and the rotating frame 2, so that the rotating frame 2 moves more stably, and the mounting frame 401 is supported by the machine frame 1.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (6)

1. A circulating cooling structure and a wall-penetrating welding machine are characterized by comprising a rack (1), a rotating frame (2), a fixed welding arm (51), a movable welding arm (52), a welding head (501), a cooling box (7), a circulating device (8), a circulating conveying mechanism (9) and a water tank (10);

the rotating frame (2) is rotatably arranged at the lower end of the rack (1); a driving motor (3) for driving the rotating frame (2) to rotate is arranged on the rack (1); the fixed welding arm (51) is arranged at the lower end of the rotating frame (2); the movable welding arm (52) is arranged at the lower end of the rotating frame (2) in a sliding manner; a moving mechanism (6) for driving the movable welding arm (52) to move is arranged on the rotating frame (2); two welding heads (501) and two cooling boxes (7) are symmetrically arranged; the two welding heads (501) are respectively arranged on the fixed welding arm (51) and the movable welding arm (52) and are symmetrically arranged; the two cooling boxes (7) are symmetrically arranged on the fixed welding arm (51) and the movable welding arm (52); the circulating device (8) is communicated with the two cooling boxes (7); the circulating conveying mechanism (9) is arranged on the water tank (10), and the output end of the circulating conveying mechanism (9) is connected with the input end of the circulating device (8); the output end of the circulating device (8) is connected with the return end of the circulating conveying mechanism (9).

2. A circulating cooling structure and through-wall welding machine as claimed in claim 1, characterized in that the circulating means (8) comprises a water inlet pipe (801), a water outlet pipe (802) and a connecting hose (803); two water inlet pipes (801), two water outlet pipes (802) and two connecting hoses (803) are arranged; the water inlet pipe (801) is communicated with the lower end of the cooling box (7); the water outlet pipe (802) is communicated with the upper end of the cooling tank (7); a water outlet pipe (802) arranged at the fixed welding arm (51) is communicated with a water inlet pipe (801) arranged at the rotating frame (2) through a connecting hose (803); a water outlet pipe (802) arranged at the movable welding arm (52) is communicated with the circulating conveying mechanism (9) through a connecting hose (803).

3. A circulating cooling structure and through-wall welding machine as claimed in claim 2, characterized in that the circulating conveying mechanism (9) comprises a water pump (901), a water supply pipe (902) and a water return pipe (903); the water pump (901) is arranged on the rack (1), is positioned at the lower end of the rack (1), and is communicated with the rack (1); the output end of the water pump (901) is connected with the water supply pipe (902); the water pump (901) is communicated with a water inlet pipe (801) positioned at the fixed welding arm (51); the water return pipe (903) is communicated with a connecting hose (803) at the movable welding arm (52).

4. A circulating cooling structure and through-wall welding machine as claimed in claim 3, characterized in that the rotating frame (2) is provided with a support frame (11); the support frame (11) is connected with the water inlet pipe (801) and the water return pipe (903); the water supply pipe (902) and the water return pipe (903) are both rotatably arranged at the upper end of the frame (1).

5. A circulating cooling structure and a through-wall welding machine as claimed in claim 1, characterized in that the connection of the frame (1) and the rotating frame (2) is provided with a rotating connection mechanism (4); the rotary connecting mechanism (4) comprises a mounting frame (401), a connecting frame (402) and a rolling body (403); the mounting frame (401) is arranged on the rack (1), and the connecting frame (402) is arranged on the rotating frame (2); the connecting frame (402) is positioned inside the mounting frame (401); the number of the rolling bodies (403) is multiple, the rolling bodies (403) are all arranged between the mounting frame (401) and the connecting frame (402), and the rolling bodies (403) are rotatably connected with the mounting frame (401) and the connecting frame (402).

6. A circulating cooling structure and through-wall welding machine as claimed in claim 5, characterized in that the connecting frame (402) is provided with connecting bolts (404); the connecting bolts (404) are arranged in a plurality of numbers, and the connecting bolts (404) are in threaded connection with the rotating frame (2) and are clamped with the connecting frame (402).

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