CN218555850U - Device capable of automatically controlling dipping of soldering flux - Google Patents

Abstract

The utility model discloses a device that ability automatic control soaks scaling powder, include: the device comprises a rack, a support layer and an operation layer, wherein the rack comprises the support layer and the operation layer, the support layer is provided with an air cylinder, the air cylinder is connected with one end of an air cylinder shaft, the other end of the air cylinder shaft is connected with the center of a guide rod mounting plate, the guide rod mounting plate is provided with a plurality of guide rods, the operation layer comprises a top plate, one ends of the guide rods are connected with the top angle of the guide rod mounting plate, and the other ends of the guide rods are connected with the top plate; the device can guarantee that the utmost point ear of battery soaks the solder flux simultaneously through the lift of a cylinder control roof, and the harmony is better, and simple and practical cost is lower.

Description

Device capable of automatically controlling dipping of soldering flux

Technical Field

The utility model relates to a battery manufacturing technology field, concretely relates to can automatic control soak device of scaling powder.

Background

In the current cast-weld process of the battery busbar of the power type lead-acid storage battery, in order to ensure the cast-weld effect, the tab position of cast-weld must be soaked with soldering flux before cast-weld, the time control of soaking the soldering flux is very important, the existing cast-weld process of the power type lead-acid storage battery generally adopts a semi-automatic production mode, a semi-finished product needing cast-weld needs to be manually placed on a cast-weld flux soaking worktable, because of manual operation, the time is controlled by manual operation according to feeling, the time of soaking the soldering flux is inevitably inconsistent, and the cast-weld quality and cast-weld consistency are indirectly influenced, therefore, mechanical soaking is adopted, and the soaking-aid quality is ensured.

The invention provides an automatic scaling powder smearing device of a storage battery electrode lug cast welding machine, which comprises a base, wherein a rack is arranged on the base, a clamp for clamping a storage battery is inversely hung on the rack, a telescopic cylinder is arranged at the lower end of the rack, the rack is driven by the telescopic cylinder to move up and down, a pulling cylinder is arranged on the left side of the base, a clamping clamp is arranged on the telescopic rod of the pulling cylinder, the clamping clamp is clamped by the clamping clamp and pulled by the pulling cylinder to move on the rack, a scaling powder placing groove is formed in the upper end of the base, sponge stained with scaling powder is placed in the scaling powder placing groove, a residual agent erasing groove is formed in the left side of the scaling powder placing groove, and cotton cloth for erasing redundant scaling powder is laid in the residual agent erasing groove. Drive the frame through telescopic cylinder and reciprocate, put the battery in proper order at the scaling powder standing groove and surplus agent and erase the inslot, carry out the scaling powder automatically and paint and erase the work with surplus agent, need not the manual work and paint and erase the work, improve work efficiency, reduce the cost of labor. The scheme can realize automatic smearing of the welding flux of the pole lug of the storage battery, but the balance of the base cannot be ensured by using the four cylinders to control the lifting of the base, so that the pole lug is immersed in the welding flux at the same time.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the technical problems that the dipping time cannot be controlled by manually dipping the soldering flux at present, and the cast-weld quality and the cast-weld consistency are influenced are solved. The device capable of automatically controlling the dipping of the soldering flux is provided, the lifting of the top plate is controlled by one air cylinder, and the air cylinder is controlled by a time relay, so that the dipping time of the tabs of the storage battery is consistent, and the cast-weld quality is ensured.

In order to solve the technical problem, the utility model discloses the technical scheme who takes does: an apparatus capable of automatically controlling flux immersion, comprising: the guide rod mounting plate is provided with a plurality of guide rods.

The utility model provides a device that can automatic control soak scaling powder, is through the lift of a cylinder control roof, and the cylinder is located the supporting layer, and cylinder axle one end is connected with the cylinder, and the other end is connected with the guide arm mounting panel, has set up four guide arms perpendicularly on four angles of guide plate mounting panel, and the top and the roof of four guide arms are connected, and the ejecting roof of guide arm can guarantee the highly uniform who soaks through the length of the ejecting roof of fine setting guide arm.

Preferably, the operation layer comprises a top plate, one end of the guide rod is connected with the top corner of the guide rod mounting plate, and the other end of the guide rod is connected with the top plate. The cylinder controls the guide rod mounting plate to move up and down through the expansion of the cylinder shaft, guide rods are arranged at four corners of the guide rod mounting plate, the top of each guide rod is connected with the top plate, and the guide rod mounting plate moves up and down to drive the top plate to move up and down, so that whether the battery tabs are soaked in the welding flux or not is controlled.

Preferably, the guide rod is perpendicular to the guide rod mounting plate, the guide rod mounting plate is parallel to the top plate, and the length of the guide rod is greater than the distance between the guide rod mounting plate and the top plate. The cylinder controls the reciprocating of the top plate to realize the simultaneous reciprocating of the whole plane of the top plate, so that the battery tabs are ensured to be immersed simultaneously, the coordination is better, the simple and practical cost is lower, the immersed height consistency can be ensured by finely adjusting the lengths of the parts of the four guide rods for ejecting the top plate, and the flux immersion consistency is ensured.

Preferably, the top plate is provided with a plurality of mutually parallel notches, and the bottom of the top plate is provided with a heating device. The notch unanimity is placed to the position and the shape that have set up a plurality of notches that are parallel to each other on the roof, and the notch is placed to the position and the shape that these notches were arranged and the solder flux at frame top, and the utmost point ear of battery can contact with the solder flux through these notches, and the heating device that the roof bottom set up can heat the solder flux, also preheats in advance for utmost point ear simultaneously, increases the cast joint effect.

Preferably, the bottom of the cylinder is connected with a first cylinder block, the top of the cylinder is connected with a second cylinder block, and the first cylinder block and the second cylinder block are parallel to each other. The first cylinder block and the second cylinder block are square, and the connecting parts of the first cylinder block and the second cylinder block are in the center positions, so that the cylinder is fixed.

Preferably, the first cylinder block is connected with one end of a cylinder support rod, and the other end of the cylinder support rod is connected with the second cylinder block. Four cylinder support rods distributed at four corners are arranged between the first cylinder block and the second cylinder block, and the distance between the first cylinder block and the second cylinder block can be adjusted by adjusting the cylinder support rods, so that the interval of the cylinder shaft lifting guide rod mounting plate is controlled.

Preferably, a switch is arranged on the rack, a time relay is arranged on the rack, the switch is connected with the air cylinder, and the time relay is connected with the air cylinder. The storage battery is placed on the top plate, the switch is pressed, the cylinder controls the top plate to descend, the tabs of the storage battery are soaked in the flux, after the time set by the time relay is reached, the time relay controls the cylinder to lift the top plate, the tabs of the storage battery are separated from the flux, and therefore the soaking time of each tab of the storage battery is the same.

The utility model discloses a substantive effect is: the lifting of the top plate is controlled by one air cylinder, the height of the pole lug of the storage battery immersed in the flux is controlled by finely adjusting the length of the top plate ejected out of the guide rod, and the time of immersing the storage battery in the flux is controlled by a time relay, so that the heights and the times of immersing the storage batteries in the flux are consistent, and the quality of cast welding of the final storage batteries is consistent.

Drawings

FIG. 1 is a front view of the embodiment;

FIG. 2 is a side view of the embodiment;

fig. 3 is a top view of the embodiment.

Wherein: 1. the device comprises a rack, 2, a supporting layer, 3, an operation layer, 4, a cylinder, 5, a cylinder shaft, 6, a guide rod mounting plate, 7, a top plate, 8, a guide rod, 9, a first cylinder block, 10, a second cylinder block, 11, a cylinder supporting rod, 12, a switch, 13 and a notch.

Detailed Description

The following description will further specifically explain embodiments of the present invention by referring to the accompanying drawings.

An apparatus for automatically controlling flux immersion, as shown in fig. 1 and 2, comprises: the frame 1, two-layer altogether is divided on the frame 1, is the operation layer 3 that is located the topmost and is located the supporting layer 2 of operation layer 3 below respectively, and operation layer 3 is used for placing the battery to operate the battery, and supporting layer 2 is used for controlling the lift of operation layer 3.

The supporting layer 2 is provided with a cylinder 4, the bottom of the cylinder 4 is provided with a first cylinder block 9, the top of the cylinder 4 is provided with a second cylinder block 10, and the first cylinder block 9 and the second cylinder block 10 are parallel to each other. The first cylinder block 9 and the second cylinder block 10 are square, and the connecting parts with the cylinder 4 are in the central positions, so that the cylinder 4 is fixed. Four cylinder support rods 11 distributed at four corners are arranged between the first cylinder block 9 and the second cylinder block 10, and the distance between the first cylinder block 9 and the second cylinder block 10 can be adjusted by adjusting the cylinder support rods 11, so that the section of the lifting guide rod mounting plate 6 of the cylinder shaft 5 is controlled

Be provided with a cylinder axle 5 on the cylinder 4, the central point that 5 tops of cylinder axle and guide arm mounting panel 6 put to be connected, and reciprocating of guide arm mounting panel 6 is controlled through the flexible of cylinder axle 5 to cylinder 4, is equipped with guide arm 8 on four angles of guide arm mounting panel 6, and the top of guide arm 8 is connected with roof 7, and reciprocating of guide arm mounting panel 6 has driven reciprocating of roof 7 to whether control battery tab soaks to help in the solder flux.

Set up a plurality of notches 13 that are parallel to each other on roof 7, the notch is placed unanimously with the solder flux at frame top in the position and the shape that these notches 13 arranged, and the utmost point ear of battery can contact with the solder flux through these notches 13, and heating device is installed to the bottom of roof 7, and the heating device that sets up bottom roof 7 can heat the solder flux, also preheats in advance for the utmost point ear simultaneously, increases the cast joint effect.

The frame 1 is provided with a switch 12, the switch 12 is connected with the cylinder 4 and can control the lifting of the cylinder 4, the frame 1 is also provided with a time relay, the time relay is connected with the cylinder 4, and the time relay controls the operation of the cylinder 4 after reaching the specified time. The storage battery is placed on the top plate 7, the switch 12 is pressed, the cylinder 4 controls the top plate 7 to descend, the tabs of the storage battery are soaked in the welding flux, after the time set by the time relay is reached, the time relay controls the cylinder 4 to lift the top plate 7, and the tabs of the storage battery are separated from the welding flux, so that the soaking time of each tab of the storage battery is ensured to be the same.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (7)

1. A device capable of automatically controlling dipping of soldering flux is characterized by comprising: the device comprises a rack (1), wherein the rack (1) comprises a supporting layer (2) and an operation layer (3), the supporting layer (2) is provided with a cylinder (4), the cylinder (4) is connected with one end of a cylinder shaft (5), the other end of the cylinder shaft (5) is connected with the center of a guide rod mounting plate (6), and the guide rod mounting plate (6) is provided with a plurality of guide rods (8).

2. The device capable of automatically controlling flux leaching according to claim 1, wherein the operation layer (3) comprises a top plate (7), one end of the guide rod (8) is connected with the top corner of the guide rod mounting plate (6), and the other end of the guide rod (8) is connected with the top plate (7).

3. The device capable of automatically controlling the flux immersion according to claim 2, wherein the guide rod (8) is perpendicular to the guide rod mounting plate (6), the guide rod mounting plate (6) and the top plate (7) are parallel to each other, and the length of the guide rod (8) is greater than the distance between the guide rod mounting plate (6) and the top plate (7).

4. The device for automatically controlling flux immersion as claimed in claim 2, wherein said top plate (7) is provided with a plurality of notches (13) parallel to each other, and a heating device is provided at the bottom of said top plate (7).

5. The device capable of automatically controlling flux dipping according to claim 1, wherein the bottom of the cylinder (4) is connected with a first cylinder block (9), the top of the cylinder (4) is connected with a second cylinder block (10), and the first cylinder block (9) and the second cylinder block (10) are parallel to each other.

6. The device capable of automatically controlling flux immersion as claimed in claim 5, wherein the first cylinder block (9) is connected with one end of a cylinder support rod (11), and the other end of the cylinder support rod (11) is connected with the second cylinder block (10).

7. The device capable of automatically controlling the flux soaking according to claim 1 or 2, wherein a switch (12) is arranged on the frame (1), a time relay is arranged on the frame (1), the switch (12) is connected with the cylinder (4), and the time relay is connected with the cylinder (4).

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