CN212143226U - Storage battery end post oiling mechanism and oiling machine - Google Patents

Abstract

The utility model discloses a storage battery end post oil coating mechanism, which comprises a bracket; a first moving unit provided on the stand; a rotating unit provided on the first moving unit; the oiling module is arranged on the rotating unit; the first moving unit is arranged to drive the rotating unit to reciprocate along the linear direction, and the rotating unit is arranged to drive the oiling module to rotate around the driving direction of the first moving unit. When the storage battery end post oiling mechanism is used, a storage battery with an end post to be oiled can be placed below the storage battery end post oiling mechanism; then, the first moving unit drives the rotating unit and the oiling module to move towards the storage battery end post oiling mechanism, and in the process of driving the rotating unit to move, or when the first moving unit drives the rotating unit to move and the oiling module to move to the position of the end post, the rotating unit drives the oiling module to rotate so as to evenly oil the end post through the rotating oiling module.

Description

Storage battery end post oiling mechanism and oiling machine

Technical Field

The utility model relates to a battery apparatus for producing, concretely relates to battery end post oiling station constructs and oiling machine.

Background

The surface of the accumulator shell is contaminated with acid liquor in the charging process of the lead-acid accumulator, and the accumulator needs to be cleaned integrally after heat sealing. The moisture remained on the surface of the storage battery after cleaning easily causes the storage battery end post to rust, and in order to avoid the storage battery end post from rusting, the end post needs to be manually coated with anti-rust oil after the storage battery cleaning process.

However, the labor intensity of manual oiling is high, the oiling is not uniform, and the phenomenon of rusting still occurs when part of the storage battery end columns are oilless.

SUMMERY OF THE UTILITY MODEL

The problems that the labor intensity of thermal oiling is high, oiling is not uniform, and part of storage battery end columns still get rusty even if oil is not contained are solved. According to an aspect of the utility model, a battery end post oiling station is provided.

The storage battery end post oil coating mechanism comprises a bracket; a first moving unit provided on the stand; a rotating unit provided on the first moving unit; the oiling module is arranged on the rotating unit; the first moving unit is arranged to drive the rotating unit to reciprocate along the linear direction, and the rotating unit is arranged to drive the oiling module to rotate around the driving direction of the first moving unit.

When the storage battery end post oiling mechanism is used, a storage battery with an end post to be oiled can be placed below the storage battery end post oiling mechanism; then, the first moving unit drives the rotating unit and the oiling module to move towards the storage battery end post oiling mechanism, and in the process of driving the rotating unit to move, or when the first moving unit drives the rotating unit to move and the oiling module to move to the position of the end post, the rotating unit drives the oiling module to rotate so as to evenly oil the end post through the rotating oiling module.

In some embodiments, the number of the rotating units and the number of the oiling modules are the same, at least two oiling modules are arranged, and each oiling module is arranged on the first moving unit through one rotating unit independently. Because battery end post fat liquoring mechanism is equipped with two end posts, set up two fat liquoring modules and can carry out the fat liquoring to two end posts on the battery end post fat liquoring mechanism simultaneously, improve fat liquoring efficiency.

In some embodiments, the rotating units are each provided on the first moving unit by a second moving unit, respectively, the second moving unit being configured to drive the rotating units to reciprocate in a direction perpendicular to a driving direction of the first moving unit. Therefore, the distance between the two rotating units and the distance between the oiling modules arranged on the two rotating units can be adjusted through the second moving unit so as to adapt to storage batteries with different specifications.

In some embodiments, the oiling module comprises an oiling die; the oiling die comprises a die head arranged on the rotating unit, and a counter bore for the end column to extend into is arranged on one side of the die head, which is far away from the rotating unit; the hairbrush is arranged on the side wall of the counter bore; and an oil supply system for supplying oil to the brush.

Therefore, when the storage battery end post oiling mechanism is used, the first moving unit driving die head is sleeved on the end post, the rotating unit driving die head winds the end post, oil provided by the oil supply system is uniformly brushed on the surface of the end post through the hairbrush arranged on the side wall of the counter bore of the die head, and the storage battery shell is prevented from being stained with anti-rust oil.

In some embodiments, the oil supply system comprises an oil storage device; a pipeline for communicating the oil storage device with the brush; and a valve arranged on the pipeline and used for controlling the conduction or the blockage of the pipeline. So that whether the oil storage device supplies oil to the brush or not can be controlled by the valve.

In some embodiments, the oil supply system further includes an oil pan, and the conduit communicates with the brush through the oil pan. Thus, the rust preventive oil can be uniformly delivered to the brush through the oil pan.

In some embodiments, the first moving unit includes a cylinder and a first guide rail both provided on the bracket, and a first slider fitted on the first guide rail, the first slider being provided on a piston rod of the cylinder, and the second moving unit being provided on the first slider. Therefore, the first sliding block can be driven by the air cylinder to drive the second moving unit to reciprocate along the extending direction of the first guide rail.

In some embodiments, the second moving unit includes a second guide rail and a lead screw provided on the first slider, a second slider fitted on the second guide rail, and a nut fitted on the lead screw, the lead screw being rotatably provided on the first slider about an axis thereof, the lead screw being disposed in parallel with the second guide rail, the second slider and the nut being provided on the rotating unit, the second guide rail and the lead screw being disposed perpendicular to the first guide rail. Therefore, the nut, the rotating unit and the second sliding block can be driven to reciprocate along the extending direction of the screw rod and the second guide rail by rotating the screw rod, so that the position of the rotating unit on the second moving unit can be adjusted.

In some embodiments, the rotating unit adopts a rotating motor, a base of the rotating motor is arranged on the second sliding block and the nut, and the oiling module is arranged on a rotating shaft of the rotating motor.

The problems that the labor intensity of thermal oiling is high, oiling is not uniform, and part of storage battery end columns still get rusty even if oil is not contained are solved. According to an aspect of the utility model, an oiler is provided.

The oiling machine comprises a frame; the conveying system and the storage battery end post oil coating mechanism are arranged on the rack; the storage battery end post oiling mechanism is arranged above the conveying system and is arranged in a way that the first moving unit drives the oiling module to move along the vertical direction; the conveying system is arranged to convey the storage battery with the end post to be oiled to the lower part of the storage battery end post oiling mechanism; the storage battery end post oiling mechanism is the storage battery end post oiling mechanism.

When the oiling machine is used, the storage battery with the end post to be oiled can be placed on the conveying system, the storage battery with the end post to be oiled is conveyed to the lower part of the storage battery end post oiling mechanism through the conveying system, then, the end post of the storage battery is coated with the anti-rust oil through the storage battery end post oiling mechanism, after the storage battery end post oiling mechanism finishes end post oiling, the storage battery with the end post coated with the anti-rust oil can be conveyed away through the conveying system, the storage battery with the next end post to be oiled is conveyed to the lower part of the storage battery end post oiling mechanism, and continuous production of storage battery end post oiling is achieved.

In some embodiments, the oiler further comprises a control module, a positioning system, and a first limit system; the control module is arranged to control the first limiting system to prevent the storage battery from moving in the conveying direction of the conveying system within a set time when the positioning system detects that the conveying system conveys the storage battery to the position below the storage battery end post oiling mechanism. Therefore, the problem that the conveying system is easy to damage due to repeated starting and stopping when the storage battery end post oiling mechanism coats the end post of the storage battery with oil can be avoided.

In some embodiments, the oiler further comprises a second limiting system; the control module is arranged to control the second limiting system to operate for a set time to drive the storage battery to move to a set position along a conveying square perpendicular to the conveying system when the positioning system detects that the conveying system conveys the storage battery to the position below the storage battery end post oiling mechanism. Therefore, the position of the storage battery placed on the conveying system can be adjusted through the second limiting system, so that when the storage battery is located below the storage battery end post oiling mechanism, the storage battery end post oiling mechanism is located at a set position, and the die head of the storage battery end post oiling mechanism can be accurately sleeved on the outer side of the end post of the storage battery.

Drawings

Fig. 1 is a schematic structural view of a battery end post oiling mechanism according to an embodiment of the present invention;

fig. 2 is an enlarged schematic structural view of a portion a of the battery terminal post oiling mechanism shown in fig. 1;

fig. 3 is a schematic structural view of an alternate perspective of the battery terminal post oiling mechanism of fig. 1;

fig. 4 is an enlarged structural schematic diagram of a battery terminal post oiling mechanism shown in fig. 3 at the position B;

fig. 5 is a schematic structural diagram of an oiling machine according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 4 schematically show a battery end post oiling mechanism according to an embodiment of the present invention.

Referring to fig. 1 and 3, the battery terminal post oiling mechanism includes a bracket 20, a first moving unit 30, a rotating unit 40, and an oiling module 60; wherein, the first moving unit 30 is provided on the stand 20; the rotating unit 40 is provided on the first moving unit 30; the oiling module 60 is arranged on the rotating unit 40; the first moving unit 30 is configured to drive the rotating unit 40 and the oiling module 60 to reciprocate in a linear direction, and the rotating unit 40 is configured to drive the oiling module 60 to rotate around the driving direction of the first moving unit 30.

Referring to fig. 1, in some embodiments, the first moving unit 30 includes a cylinder 31, and a first guide rail 32 and a first slider 33 fitted to each other; wherein, the cylinder body of the cylinder 31 and the first guide rail 32 are installed on the bracket 20, the first slider 33 is provided on the piston rod of the cylinder 31, and the rotating unit 40 is provided on the first slider 33.

In other embodiments, the first moving unit 30 may also include only the cylinder 31 or the oil cylinder, the cylinder body of the cylinder 31 or the oil cylinder is installed on the bracket 20, and the rotating unit 40 is installed on the piston rod of the cylinder 31 or the oil cylinder.

In some embodiments, the rotating unit 40 is a rotating motor, the base of the rotating motor is arranged on the first sliding block 33, and the oiling module 60 is arranged on the rotating shaft of the rotating motor.

Referring to fig. 1, 3 and 4, in some embodiments, the oiling module 60 includes an oiling die 61; the oiling die 61 comprises a die head 611, a hairbrush 612 and an oil supply system 62; the die head 611 is arranged on the rotating unit 40, a counter bore 6111 for the end column 101 to extend into is arranged on one side of the die head 611, which is far away from the rotating unit 40, and the rotating unit 40 drives the die head 611 to rotate around the driving direction of the first moving unit 30 relative to the first moving unit 30; the brush 612 is arranged on the side wall of the counter bore 6111; the oil supply system 62 is used to supply oil to the brush 612, and the oil supply system 62 may be provided on the holder 20.

Referring to fig. 1 and 3, in some embodiments, the oil supply system 62 includes an oil reservoir 621, a conduit 622, and a valve 623; wherein, the oil storage device 621 can adopt an oil can; a conduit 622 communicates the oil reservoir 621 with the brush 612; a valve 623 is disposed on the pipe 622 for controlling the conduction or blockage of the pipe 622 to control whether the oil in the oil storage 621 can be delivered to the brush 612 through the pipe 622.

In some embodiments, the oil reservoir 621 and the valve 623 may be provided on the support 20.

In some embodiments, valve 623 may employ a solenoid valve.

In some embodiments, the oil reservoir 621 is disposed above the brush 612, so that when the valve 623 is opened, the rust preventive oil in the oil reservoir 621 can flow onto the brush 612 through the pipe 622 under the action of gravity.

Referring to fig. 1, in some embodiments, the oil supply system 62 further includes an oil pan 63, and the conduit 622 communicates with the brush 612 through the oil pan 63. The oil pan 63 is provided with an oil storage chamber 631 for storing oil and an opening 632 for communicating the oil storage chamber 631 with the outside, the opening 632 is disposed upward, and the oil pan 63 is provided with a passage for communicating the oil storage chamber 631 with the brush 612.

Referring to fig. 1 and 3, in some embodiments, the number of the rotating units 40 and the number of the oiling modules 60 are the same, and at least two oiling modules are provided, and each oiling module 60 is separately provided on the first moving unit 30 through one rotating unit 40. Because battery end post fat liquoring mechanism is equipped with two end posts 101, set up two fat liquoring modules 60 and can carry out the fat liquoring to two end posts 101 on the battery end post fat liquoring mechanism simultaneously, improve fat liquoring efficiency.

In some embodiments, the rotation units 40 are each provided on the first moving unit 30 by a second moving unit 50, respectively, and the second moving unit 50 is configured to drive the rotation units 40 to reciprocate in a direction perpendicular to the driving direction of the first moving unit 30. Therefore, the distance between the two rotating units 40 and the oiling modules 60 respectively arranged on the two rotating units 40 can be adjusted by the second moving unit 50 to adapt to the storage batteries 100 with different specifications.

Referring to fig. 1 to 3, in some embodiments, the second moving unit 50 includes a second guide rail 51 and a second slider 52 fitted to each other, and a lead screw 53 and a nut 54 fitted to each other; wherein, the second guide rail 51 and the lead screw 53 are arranged in parallel and are both arranged on the first moving unit 30, the lead screw 53 is arranged on the first moving unit 30 in a manner of rotating around its own axis, the second slider 52 and the nut 54 are arranged on the rotating unit 40, and the second guide rail 51 and the second lead screw 53 are arranged perpendicular to the driving direction of the first moving unit 30.

In some embodiments, the lead screw 53 and the second slider 52 are provided on the first slider 33, and are disposed perpendicularly to the first guide rail 32.

Referring to fig. 1, in some embodiments, to facilitate the installation of the lead screw 53 and the second rail 51, the lead screw 53 and the second rail 51 are installed on the first moving unit 30 through the installation plate 34, i.e., the installation plate 34 is provided on the first slider 33.

With continued reference to fig. 1, in some embodiments, the base of the rotary motor is provided on the second slide 52 and the nut 54.

Fig. 5 schematically shows an oiling machine according to an embodiment of the invention.

Referring to fig. 5, the oiler includes a frame 200; the conveying system 70 and the storage battery end post oil coating mechanism are arranged on the rack 200; the battery end post oiling mechanism is arranged above the conveying system 70 and is arranged such that the first moving unit 30 drives the oiling module 60 to move in the vertical direction; the conveyor system 70 is arranged to be able to convey the battery 100 to be oiled at the end post 101 to below the battery end post oiling mechanism; the storage battery end post oiling mechanism is the storage battery end post oiling mechanism.

With continued reference to fig. 5, in some embodiments, the conveyor system 70 may employ a conveyor belt as is commonly used in the art. When the storage battery 100 with the end post 101 to be oiled is conveyed to the position below the storage battery end post oiling mechanism by the conveying belt, the conveying belt stops moving, after the end post 101 of the storage battery 100 is coated with the anti-rust oil, the conveying belt is started again to convey the storage battery 100 with the end post 101 coated with the anti-rust oil, and the storage battery 100 with the next end post 101 to be oiled is conveyed to the position below the storage battery end post oiling mechanism; repeating the operation.

With continued reference to fig. 5, in some embodiments, the oiler further includes a control module, a positioning system, and a first position limiting system 80; the control module is configured to control the first stopping system 80 to stop the battery 100 from moving in the conveying direction of the conveying system 70 for a set time when the positioning system detects that the conveying system 70 conveys the battery 100 below the battery end post oiling mechanism.

In some embodiments, the positioning system may detect the battery 100 by using a visual sensor, for example, which is commonly used in the prior art, and the control module controls the conveying system 70 to stop moving for a set time or controls the first limiting system 80 to limit the movement of the battery 100 within a set time according to the visual sensor detecting that the battery 100 runs below the battery terminal post oiling mechanism; after the set time, the storage battery end post oiling mechanism finishes oiling the end post 101, the control module controls the conveying system 70 to restart or controls the first limiting system 80 to reset, and the end post 101 is conveyed to the next process by the conveying system 70 through the coated storage battery 100.

With continued reference to fig. 5, in some embodiments, the oiler further includes a second limiting system 90; the control module is configured to control the second limiting system 90 to operate for a set time to drive the battery 100 to move to a set position along a transport direction perpendicular to the transport system 70 when the positioning system detects that the transport system 70 transports the battery 100 below the battery end post oiling mechanism. Therefore, when the control module detects that the storage battery 100 runs below the storage battery end post oiling mechanism according to the positioning system, the control module controls the first limiting system 80 and the second limiting system 90 to reset after running for a set time.

In some embodiments, the first position-limiting system 80 and the second position-limiting system 90 may be air cylinders commonly used in the art, the cylinder bodies of the air cylinders are arranged on the frame 200, and the piston rods of the air cylinders are arranged along the horizontal direction and are arranged along the direction perpendicular to the conveying direction of the conveying system 70.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. Battery end post fat liquoring mechanism, its characterized in that includes:

a support (20);

a first moving unit (30) provided on the stand (20);

a rotating unit (40) provided on the first moving unit (30);

and an oiling module (60) provided on the rotating unit (40);

the first moving unit (30) is arranged to drive the rotating unit (40) to reciprocate in a linear direction, and the rotating unit (40) is arranged to drive the oiling module (60) to rotate around the driving direction of the first moving unit (30).

2. The battery terminal post oiling mechanism according to claim 1, wherein the number of the rotating units (40) and the oiling modules (60) is the same, at least two are provided, and each oiling module (60) is provided on the first moving unit (30) by one rotating unit (40) alone.

3. The battery terminal post oiling mechanism according to claim 2, wherein the rotating units (40) are each provided on the first moving unit (30) by a second moving unit (50), respectively, the second moving unit (50) being arranged to drive the rotating units (40) to reciprocate in a driving direction perpendicular to the first moving unit (30).

4. The battery end post oiling mechanism according to claim 1, 2 or 3, wherein the oiling module (60) comprises an oiling die (61);

the oiling die (61) includes:

the die head (611) is arranged on the rotating unit (40), and a counter bore (6111) for the end column (101) to extend into is arranged on one side of the die head (611) which is far away from the rotating unit (40);

a brush (612) arranged on the side wall of the counter bore (6111);

and an oil supply system (62) supplying oil to the brush (612).

5. The battery terminal post oiling mechanism of claim 4, wherein the oil supply system (62) comprises:

an oil reservoir (621);

a conduit (622) communicating the oil reservoir (621) with the brush (612);

and a valve (623) arranged on the pipeline (622) and used for controlling the conduction or the blockage of the pipeline (622).

6. The battery end post oiling mechanism of claim 5, wherein the oil supply system (62) further comprises an oil pan (63), and the conduit (622) communicates with the brush (612) through the oil pan (63).

7. The battery terminal post oiling mechanism according to claim 3, wherein the first moving unit (30) comprises a cylinder (31) and a first guide rail (32) both provided on the bracket (20), and a first slider (33) fitted on the first guide rail (32), the first slider (33) being provided on a piston rod of the cylinder (31), the second moving unit (50) being provided on the first slider (33);

the second moving unit (50) comprises a second guide rail (51) and a screw rod (53) which are arranged on the first slide block (33), a second slide block (52) which is matched on the second guide rail (51), and a nut (54) which is matched on the screw rod (53), the screw rod (53) is arranged on the first slide block (33) in a manner of rotating around the axis of the screw rod (53), the screw rod (53) is arranged in parallel with the second guide rail (51), the second slide block (52) and the nut (54) are arranged on the rotating unit (40), and the second guide rail (51) and the screw rod (53) are arranged perpendicular to the first guide rail (32);

the rotating unit (40) adopts a rotating motor, a base of the rotating motor is arranged on the second sliding block (52) and the nut (54), and the oiling module (60) is arranged on a rotating shaft of the rotating motor.

8. Oiling machine, its characterized in that includes:

a frame (200);

the conveying system (70) and the storage battery end post oil coating mechanism are arranged on the rack (200);

the storage battery end post oiling mechanism is arranged above the conveying system (70), and is arranged in a way that the first moving unit (30) drives the oiling module (60) to move along the vertical direction;

the conveying system (70) is arranged to convey a storage battery (100) to be oiled at an end post (101) to the lower part of the storage battery end post oiling mechanism;

the storage battery end post oiling mechanism is the storage battery end post oiling mechanism in any one of claims 1 to 7.

9. The oiling machine according to claim 8, further comprising a control module, a positioning system and a first limit system (80);

the control module is arranged to control the first limiting system (80) to prevent the storage battery (100) from moving along the conveying direction of the conveying system (70) within a set time when the positioning system detects that the conveying system (70) conveys the storage battery (100) to the position below the storage battery end post oiling mechanism.

10. The oiling machine according to claim 9, further comprising a second stop system (90);

the control module is arranged to control the second limiting system (90) to operate for a set time to drive the storage battery (100) to move to a set position along a conveying square perpendicular to the conveying system (70) when the positioning system detects that the conveying system (70) conveys the storage battery (100) to the position below the storage battery end post oiling mechanism.

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