CN216133173U - Testing arrangement is used in lead acid battery production - Google Patents

Abstract

The utility model provides a testing device for lead-acid storage battery production, which is simple in structure, low in production cost and high in testing efficiency, and comprises a rack, wherein a main control system and a testing system are arranged on the rack, an induction device for inducing an external storage battery is arranged on the upper end surface of the rack, a plug for being electrically connected with the external storage battery is movably arranged on the rack, a movable driving mechanism for driving the plug to move is arranged on the rack, and the induction device, the driving device and the main control system are electrically connected with the testing system.

Description

Testing arrangement is used in lead acid battery production

Technical Field

The utility model relates to the technical field of storage battery production equipment, in particular to a test device for lead-acid storage battery production.

Background

After the storage battery is produced, the storage battery is required to be subjected to factory test, and the storage battery after the test is qualified can be sold. The existing storage battery is generally subjected to wiring detection manually, and the detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

Therefore, aiming at the problems, the utility model provides the test device for the production of the lead-acid storage battery, which has the advantages of simple structure, low production cost and high test efficiency.

In order to realize the technical problem, the solution scheme adopted by the utility model is as follows: the utility model provides a lead acid battery production is with testing arrangement, includes the frame, be provided with major control system, test system in the frame, the frame up end is provided with the induction system who is used for responding to outside battery, mobile being provided with in the frame is used for the plug of being connected with outside battery electricity, be provided with the activity actuating mechanism who is used for the drive plug activity in the frame, induction system, drive arrangement, major control system are connected with the test system electricity.

The further improvement is that: the induction system comprises a plurality of induction rods, the induction rods can be arranged on the rack in a sliding mode up and down mode, the upper end portions of the induction rods penetrate out of the rack, first elastic pieces are arranged between the induction rods and the rack, corresponding micro switches are arranged at the lower end portions of the induction rods, the lower end portions of the induction rods can trigger the micro switches, and the micro switches are electrically connected with the master control system.

The further improvement is that: the first elastic piece is a first spring, the first spring is sleeved on the sensing rod, the sensing rod is connected with a first nut through threads, the upper end face of the first nut can be abutted against the rack, and the upper end and the lower end of the first spring are abutted against the first nut and the rack respectively.

The further improvement is that: the movable driving mechanism comprises a plurality of positioning plates and an adjusting support, the positioning plates are movably arranged on the rack, a first releasable locking device is arranged between the positioning plates and the rack, and the plug is arranged on the adjusting support.

The further improvement is that: the adjusting support comprises a first adjusting plate, the first adjusting plate can slide left and right and is arranged on the rack, a second locking device is arranged between the first adjusting plate and the rack, a second adjusting plate can slide left and right on the first adjusting plate, a third adjusting plate can slide up and down on the second adjusting plate, a third locking device is arranged between the third adjusting plate and the second adjusting plate, the plug can slide front and back on the third adjusting plate, a fourth locking device is arranged between the third adjusting plate and the plug, and a sliding driving device used for driving the second adjusting plate to slide left and right is arranged on the adjusting plate.

The further improvement is that: the sliding driving device is a cylinder.

The further improvement is that: the testing device is characterized in that a display screen and a control button are arranged on the rack, and the display screen and the control button are electrically connected with the master control system and the testing system.

The further improvement is that: the rack can be provided with a pressing plate in a vertically sliding manner.

The further improvement is that: the frame can slide from top to bottom and be provided with the crane, the clamp plate sets up in the crane below, the clamp plate is provided with the second elastic component between the crane.

By adopting the technical scheme, the utility model has the beneficial effects that: 1. the testing efficiency is high; 2, the adjustment is convenient, and the battery can be suitable for external storage batteries with various specifications; 3. the stability is strong when the test is carried out.

Drawings

FIG. 1 is a schematic diagram of a test device for lead-acid battery production according to an embodiment of the utility model.

Fig. 2 is a sectional view a-a in fig. 1.

FIG. 3 is a top view of an adjustment bracket according to an embodiment of the utility model.

Fig. 4 is a schematic structural diagram of an induction device according to an embodiment of the present invention.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, an embodiment of the utility model discloses a testing device for lead-acid battery production, which includes a rack 1, wherein a main control system and a testing system (the testing system is the prior art, and the specific structure of the testing system is not the content of improvement and protection of the utility model) are arranged on the rack 1, a plurality of sliding through holes are arranged on the upper end surface of the rack 1, an induction rod 41 can be arranged in the sliding through holes in a vertically sliding manner, a mounting plate 14 is fixedly arranged on the rack 1, a sliding through hole is arranged at the lower end of the mounting bag for the lower end of the induction rod 41 to penetrate out, and a microswitch 42 corresponding to the induction rod 41 is arranged below the mounting plate 14 on the rack 1; the induction rod 41 is sleeved with a first spring 43, the induction rod 41 is connected with a first nut 44 through threads, the upper end face of the first nut 44 can be abutted against the rack 1, and the upper end and the lower end of the first spring 43 are abutted against the first nut 44 and the mounting plate 14 respectively.

The micro switch 42 is electrically connected with the master control system and the test system, and when an external storage battery is placed on the rack 1, the sensing rod 41 is pressed down to trigger the micro switch 42, so that the master control system and the test system can be started.

The improved rack is characterized in that a sliding plate 51 can be arranged on the rack 1 in a left-right sliding mode, an I-shaped sliding groove 13 is formed in the upper end face of the rack 1, an I-shaped sliding rail is arranged on the lower end face of the sliding plate 51 and can be arranged in the I-shaped sliding groove 13 in a sliding mode, a first fastening nut 511 is arranged on the rack 1, and two first waist-shaped holes 512 are formed in the sliding plate 51 and are used for the first fastening nut 511 to penetrate through.

The sliding plate 51 is fixedly provided with a first adjusting plate 52, the first adjusting plate 52 is fixedly provided with an air cylinder 521, and the air cylinder 521 is electrically connected with a main control system and a testing system. The second adjusting plate 53 is arranged on the first adjusting plate 52 in a left-right sliding mode, two guide columns 522 are fixedly arranged on the second adjusting plate 53, two guide through holes are formed in the first adjusting plate 52 to allow the guide columns 522 to penetrate, and the driving rod of the air cylinder 521 is fixedly connected with the second adjusting plate 53.

The second adjusting plate 53 can be provided with a third adjusting plate 54 in a vertically sliding manner, a second fastening screw is arranged on the third adjusting plate 54, and a second waist-shaped hole is formed in the second adjusting plate 53 for the second fastening screw to pass through.

A plurality of plugs 6 are arranged on the third adjusting plate 54 in a sliding manner, a third fastening screw is arranged on each plug 6, and a third waist-shaped hole for the third fastening screw to pass through is formed in the third adjusting plate 54.

The rack 1 is detachably provided with three positioning plates 3, fourth fastening screws 31 penetrate through the positioning plates 3, and a plurality of threaded holes are formed in the upper end face of the rack and used for the fourth fastening screws 31 to penetrate through. The positioning plate 3 surrounds the sensing rod 41.

In order to facilitate operation and to conveniently obtain a test result, the rack 1 is provided with a display screen 11 and a control button 12, and the display screen 11 and the control button 12 are electrically connected with the main control system and the test system.

In order to make external storage battery more firm when testing, the fixed assistant support that is provided with in frame 1, it is provided with crane 22 to slide from top to bottom on the assistant support 21, crane 22's below is provided with clamp plate 23, the clamp plate up end is provided with a plurality of guide bars 231, it supplies guide bar 231 to pass to have seted up the direction through-hole on the crane 22, the cover is equipped with second spring 232 on the guide bar, second spring 232 both ends respectively with clamp plate 23 and crane 22 fixed connection.

An external storage battery in production is taken and placed in the area provided with the induction rod 41, and the positioning plates 3 are arranged in contrast with the external storage battery, so that the three positioning plates 3 respectively titrate the left side surface, the front side surface and the rear side surface of the external storage battery.

The driving rod of the driving cylinder 521 is extended so that the plug 6 can be correspondingly inserted into the socket of the external secondary battery. The adjusting bracket is adjusted and fixed at this time.

After the adjusting bracket and the positioning plate 3 are adjusted, an external storage battery is placed, the micro switch 42 is triggered, the cylinder 521 drives the plug 6 to be inserted into the socket, the plug 6 is electrically connected with the master control system and the testing system, the external storage battery is tested, and a testing result is displayed on the display screen 11.

Modifications and variations of the present invention are within the scope of the claims and are not limited by the disclosure of the embodiments.

Claims (9)

1. The utility model provides a testing arrangement is used in lead acid battery production which characterized in that: the multifunctional testing machine comprises a frame, be provided with master control system, test system in the frame, the frame up end is provided with the induction system who is used for responding to outside battery, the mobile plug that is used for being connected with outside battery electricity that is provided with in the frame, be provided with the activity actuating mechanism who is used for the drive plug activity in the frame, induction system, drive arrangement, master control system are connected with the test system electricity.

2. The test device for lead-acid storage battery production according to claim 1, characterized in that: the induction system comprises a plurality of induction rods, the induction rods can be arranged on the rack in a sliding mode up and down mode, the upper end portions of the induction rods penetrate out of the rack, first elastic pieces are arranged between the induction rods and the rack, corresponding micro switches are arranged at the lower end portions of the induction rods, the lower end portions of the induction rods can trigger the micro switches, and the micro switches are electrically connected with the master control system.

3. The test device for lead-acid storage battery production according to claim 2, characterized in that: the first elastic piece is a first spring, the first spring is sleeved on the sensing rod, the sensing rod is connected with a first nut through threads, the upper end face of the first nut can be abutted against the rack, and the upper end and the lower end of the first spring are abutted against the first nut and the rack respectively.

4. The test device for lead-acid storage battery production according to claim 1, characterized in that: the movable driving mechanism comprises a plurality of positioning plates and an adjusting support, the positioning plates are movably arranged on the rack, a first releasable locking device is arranged between the positioning plates and the rack, and the plug is arranged on the adjusting support.

5. The test device for lead-acid storage battery production according to claim 4, characterized in that: the adjusting support comprises a first adjusting plate, the first adjusting plate can slide left and right and is arranged on the rack, a second locking device is arranged between the first adjusting plate and the rack, a second adjusting plate can slide left and right on the first adjusting plate, a third adjusting plate can slide up and down on the second adjusting plate, a third locking device is arranged between the third adjusting plate and the second adjusting plate, the plug can slide front and back on the third adjusting plate, a fourth locking device is arranged between the third adjusting plate and the plug, and a sliding driving device used for driving the second adjusting plate to slide left and right is arranged on the adjusting plate.

6. The test device for lead-acid storage battery production according to claim 5, characterized in that: the sliding driving device is a cylinder.

7. The test device for lead-acid storage battery production according to claim 1, characterized in that: the testing device is characterized in that a display screen and a control button are arranged on the rack, and the display screen and the control button are electrically connected with the master control system and the testing system.

8. The test device for lead-acid storage battery production according to claim 1, characterized in that: the rack can be provided with a pressing plate in a vertically sliding manner.

9. The test device for lead-acid storage battery production according to claim 8, characterized in that: the frame can slide from top to bottom and be provided with the crane, the clamp plate sets up in the crane below, the clamp plate is provided with the second elastic component between the crane.

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