CN215731864U

CN215731864U - Negative pressure formation probe device

Info

Publication number: CN215731864U
Application number: CN202121178468.1U
Authority: CN
Inventors: 李求奖; 刘伟; 徐伟强; 曹骥; 曹政
Original assignee: Zhejiang Hangke Technology Co Ltd
Current assignee: Zhejiang Hangke Technology Co Ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2022-02-01
Anticipated expiration: 2031-05-28

Abstract

A negative pressure formation probe device comprises: the base comprises a bottom plate, a linear driving module and a guide device, wherein the linear driving module and the guide device are both arranged on the bottom plate; the probe mechanism is arranged above the base and comprises a telescopic rod group, a guide rail first slide block fixing plate, a tab contact probe and a sucker assembly, wherein the telescopic rod group comprises an upper telescopic rod group and a lower telescopic rod group which are respectively an upper telescopic rod group and a lower telescopic rod group, and the lower telescopic rod group is movably and horizontally arranged at the lower part of the guide rail first slide block fixing plate; the upper layer telescopic rod group is movably and horizontally arranged on the upper part of the guide rail first slide block fixing plate; and the probe adjusting mechanism is arranged at one end, far away from the lug contact probe, of the probe mechanism and comprises a probe mounting part, a sucker fixing part and an upper and lower adjusting mechanism. The utility model has the beneficial effects that: can charge and discharge square batteries with various lengths, greatly improve the production efficiency and save the equipment cost.

Description

Negative pressure formation probe device

Technical Field

The utility model relates to a negative pressure formation probe device, and belongs to the field of automatic production of square batteries.

Background

Square cell is in the automated production in-process, because anchor clamps also should follow battery length and change after the remodelling, but current equipment can not adjust according to the battery model, therefore can dispose different anchor clamps in order to adapt to the square cell of different models, lead to the equipment limitation big, whole automated production efficiency reduces, cost increase.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a negative pressure formation probe device which is capable of telescopically designing a probe, can extend into a clamp channel, can simply and easily carry out charging and discharging states on square batteries with various lengths, greatly improves the production efficiency, saves the equipment cost and is beneficial to automatic production.

The utility model provides a negative pressure formation probe device, which is characterized by comprising:

the base comprises a bottom plate, a linear driving module and a guide device, wherein the linear driving module and the guide device are both arranged on the bottom plate, and the direction of a movable part of the linear driving module is consistent with that of a moving part of the guide device;

the probe mechanism is arranged above the base and comprises a telescopic rod group, a guide rail first slide block fixing plate, a tab contact probe and a sucker assembly, wherein the telescopic rod group comprises an upper telescopic rod group and a lower telescopic rod group which are respectively an upper telescopic rod group and a lower telescopic rod group, the lower telescopic rod group is movably and horizontally arranged at the lower part of the guide rail first slide block fixing plate, the first end part of the lower telescopic rod group is slidably arranged on the probe adjusting mechanism, the second end part of the lower telescopic rod group is connected with the tab contact probe, and the contact end of the tab contact probe faces outwards along the axial direction of the telescopic rod assembly and is used for being in contact connection with a tab of a square battery; the upper-layer telescopic rod group is movably and horizontally arranged at the upper part of the guide rail first slide block fixing plate, the first end part of the upper-layer telescopic rod group is slidably arranged on the probe adjusting mechanism, and the second end part of the upper-layer telescopic rod group is connected with the sucker component;

the probe adjusting mechanism is arranged at one end, far away from the lug contact probe, of the probe mechanism and comprises a probe mounting part, a sucker fixing part and an up-and-down adjusting mechanism, the probe mounting part is horizontally mounted on a movable part of the linear driving module and a movable part of the guide device, the probe mounting part and the sucker fixing part are respectively provided with a plurality of sliding connecting parts along the axial direction, an end plate is respectively mounted at the end part of the probe mounting part, the two end plates are opposite, and a vertical sliding rail is arranged on each end plate; the two ends of the probe mounting part are connected with the end plate in a sliding manner; the upper and lower adjusting mechanism is arranged between the probe installation part and the sucker fixing part and used for adjusting the gap between the probe installation part and the sucker fixing part.

The positioning device is arranged between the probe mechanism and the bottom plate, and comprises a limiting plate and a positioning assembly, wherein the limiting plate is arranged at the bottom of the probe mounting part; the positioning assembly is arranged on the bottom plate under the limiting plate and used for limiting the limiting plate.

Further, the bottom plate is a rectangular plate, the linear driving module and the guiding device are arranged along the width direction of the bottom plate, the linear driving module comprises a cylinder output fixing plate serving as a movable part and a linear driving cylinder for driving the cylinder output fixing plate to move, the linear driving cylinder is mounted on the bottom plate, and the telescopic end of the linear driving cylinder is connected with the cylinder output fixing plate; the guide device comprises a guide shaft supporting seat, a guide shaft and a linear bearing fixing seat serving as a moving part, the guide shaft is rotatably arranged on the bottom plate through the guide shaft supporting seat, and the guide shaft is arranged along the telescopic direction of the linear driving through cylinder; the linear bearing fixing seat is sleeved on the guide shaft; the probe mounting part is horizontally arranged on the cylinder output fixing plate and the linear bearing fixing seat.

Further, the upper layer telescopic rod group comprises an upper connecting rod and a sucker moving seat, the lower layer telescopic rod group comprises a lower connecting rod, a probe fixing plate and a linear bearing, the bottom of the guide rail first slide block fixing plate is connected with the lifting end of the up-down adjusting mechanism, a vertical sliding track is arranged at the upper part of the guide rail first slide block fixing plate, and the vertical sliding track is arranged along the lifting direction of the lifting end of the up-down adjusting mechanism; the sucker moving seat is slidably arranged on a vertical sliding track of the guide rail first slide block fixing plate; the first end part of the upper connecting rod is slidably arranged on the sliding connecting part of the sucker fixing part, the second end part of the upper connecting rod is arranged on the sucker moving seat in a penetrating way, and the first end part and the second end part are in clearance fit; the tail end of the second end part is provided with the sucker component; the probe fixing plate is arranged at the lower part of the guide rail first slide block fixing plate, and the linear bearing is embedded in the probe fixing plate; the lower connecting rod is arranged along the width direction of the bottom plate, the first end part of the lower connecting rod can be slidably arranged on the sliding connection part of the probe installation part, and the second end part penetrates through the linear bearing and then is provided with a tab contact probe and a temperature probe.

Furthermore, the probe mounting part comprises an end plate, a probe base fixing plate, a first sliding block fixing plate and a first transverse sliding track, wherein two end parts of the probe base fixing plate are respectively provided with one end plate, and the inner end surface of each end plate is provided with a sliding rail; the first transverse sliding track is axially laid on one side end face of the probe base fixing plate along the probe base fixing plate; a plurality of first sliding block fixing plates are slidably arranged on the first transverse sliding track; each set of telescopic rod group corresponds to the first slide block fixing plate, and the first slide block fixing plate is connected with the first end of the lower connecting rod.

Furthermore, the sucker fixing part comprises a sucker fixing bottom plate, end sliders, a second transverse sliding track and a second slider fixing plate, wherein one end slider is fixedly arranged at each of two ends of the sucker fixing bottom plate, and the end sliders are slidably arranged on the end plate slide rails at the same side; the second transverse sliding track is axially laid on one side end face of the sucker fixing bottom plate along the sucker fixing bottom plate; a plurality of second sliding block fixing plates are slidably arranged on the second transverse sliding track; each set of telescopic rod group corresponds to the second slide block fixing plate, and the second slide block fixing plate is connected with the first end of the upper connecting rod.

Furthermore, a set of liquid collecting cups is fixedly arranged at the top of the second sliding block fixing plate.

Further, the up-down adjusting mechanism comprises a screw rod, a nut and a screw rod fixing seat, and the nut is fixed on the side surface of the probe base fixing plate; the lead screw passes through the lead screw fixing base is vertical install in the side of sucking disc PMKD, and the lead screw wear to locate in the nut, and with nut threaded connection, the tip of lead screw is furnished with the hand wheel for the clearance size between adjustment probe base fixed plate and the sucking disc PMKD.

Further, the driving cylinder of the linear driving module is an air cylinder.

The utility model has the beneficial effects that: the negative pressure formation probe device is provided with a probe adjusting mechanism which is pushed by the driving cylinder, so that the telescopic shaft pushes the probe mechanism. The probe mechanism is used for respectively carrying out charge and discharge test, negative pressure process and temperature monitoring on the square battery. The negative pressure formation probe device is high in product compatibility rate, suitable for various square batteries, capable of improving production efficiency, saving space cost and capable of enabling products to be streamlined.

Drawings

FIG. 1 is a schematic structural view of a negative pressure formation probe apparatus according to the present invention;

FIG. 2 is a schematic view of the mid-base mechanism of the mechanism;

FIG. 3a is one of the schematic diagrams of the probe adjustment mechanism of the mechanism;

FIG. 3b is a second schematic diagram of the probe adjusting mechanism of the mechanism;

fig. 4 is a schematic diagram of a probe mechanism of the mechanism.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

With reference to the accompanying drawings:

embodiment 1 a negative pressure formation probe apparatus according to the present invention includes:

the base 100 comprises a bottom plate 110, a linear driving module 120 and a guide device 130, wherein the linear driving module 120 and the guide device are both mounted on the bottom plate 110, and the moving part of the linear driving module 120 is in the same direction as the moving part of the guide device;

the probe mechanism 200 is arranged above the base 100 and comprises a telescopic rod group 210, a guide rail first slider fixing plate 220, a tab contact probe 230 and a sucker assembly 240, wherein the telescopic rod group 210 is divided into an upper telescopic rod group and a lower telescopic rod group which are respectively an upper telescopic rod group and a lower telescopic rod group, the lower telescopic rod group is movably and horizontally arranged at the lower part of the guide rail first slider fixing plate 220, the first end part of the lower telescopic rod group is slidably arranged on the probe adjusting mechanism 300, the second end part of the lower telescopic rod group is connected with the tab contact probe 230, and the contact end of the tab contact probe 230 faces outwards along the axial direction of the telescopic rod assembly and is used for being in contact connection with the tab of the square battery; the upper layer telescopic rod group is slidably and horizontally arranged at the upper part of the guide rail first slide block fixing plate 220, the first end part of the upper layer telescopic rod group is slidably arranged on the probe adjusting mechanism 300, and the second end part is connected with the sucker assembly 240;

the probe adjusting mechanism 300 is arranged at one end of the probe mechanism, which is far away from the tab contact probe, and comprises a probe mounting part 310, a sucker fixing part 320 and an upper and lower adjusting mechanism 330, wherein the probe mounting part 310 is horizontally mounted on a movable part of the linear driving module 120 and a movable part of the guide device, the probe mounting part and the sucker fixing part are respectively provided with a plurality of sliding connecting parts along the axial direction, the end part of the probe mounting part 310 is respectively provided with an end plate 340, the two end plates 340 are opposite, and the end plate 340 is provided with a vertical sliding rail 341; both ends of the probe mounting part 310 are slidably connected with the end plate 340; the vertical adjustment mechanism 330 is disposed between the probe mounting portion 310 and the suction cup fixing portion 320, and is used for adjusting the gap between the probe mounting portion 310 and the suction cup fixing portion 320.

The positioning device is arranged between the probe mechanism 200 and the bottom plate 110, and comprises a limiting plate 401 and a positioning assembly 402, wherein the limiting plate 401 is arranged at the bottom of the probe mounting part 310; the positioning assembly 402 is arranged on the bottom plate 110 under the limiting plate 401 and used for limiting the limiting plate, and the positioning assembly and the limiting plate are limited and blocked, so that the battery pack is suitable for batteries with various lengths, and the idle running time is saved.

The bottom plate 110 is a rectangular plate, the linear driving module 120 and the guide device 130 are both arranged along the width direction of the bottom plate, the linear driving module 120 includes a cylinder output fixing plate 121 as a movable part and a linear driving cylinder 122 for driving the cylinder output fixing plate to move, the linear driving cylinder 122 is mounted on the bottom plate 110, and the telescopic end of the linear driving cylinder 122 is connected with the cylinder output fixing plate 121; the guide device 130 includes a guide shaft supporting base 131, a guide shaft 132, and a linear bearing fixing base 133 as a moving part, the guide shaft 132 is rotatably mounted on the base plate 110 through the guide shaft supporting base 131, and the guide shaft 132 is arranged along the extension and contraction direction of the linear driving cylinder 122; the linear bearing fixing seat 133 is sleeved on the guide shaft 132; the probe mounting portion 310 is horizontally mounted on the cylinder output fixing plate 121 and the linear bearing fixing seat 133.

The upper layer telescopic rod group comprises an upper connecting rod 211 and a sucker moving seat 212, the lower layer telescopic rod group comprises a lower connecting rod 213, a probe fixing plate 215 and a linear bearing 214, the bottom of the guide rail first slider fixing plate 220 is connected with the lifting end of the up-down adjusting mechanism 330, a vertical sliding track 221 is arranged at the upper part of the guide rail first slider fixing plate 220, and the vertical sliding track 221 is arranged along the lifting direction of the lifting end of the up-down adjusting mechanism 330; the suction cup moving base 212 is slidably mounted on the vertical sliding rail 221 of the guide rail first slider fixing plate 220; the first end of the upper connecting rod 211 is slidably mounted on the sliding connection portion of the suction cup fixing portion 320, and the second end of the upper connecting rod 211 is inserted into the suction cup moving seat 212, and the first end and the second end are in clearance fit; the end of the second end is provided with the sucker component 240; the probe fixing plate 215 is installed at the lower part of the guide rail first slider fixing plate 220, and the linear bearing 214 is embedded in the probe fixing plate 215; the lower connecting rod 213 is arranged along the width direction of the base plate 110, a first end of the lower connecting rod 213 is slidably mounted on the sliding connection portion of the probe mounting portion 310, and a second end of the lower connecting rod passes through the linear bearing 214 and then is mounted with the tab contact probe 230 and the temperature probe 240.

The probe mounting portion 310 includes a probe base fixing plate 312, a first slider fixing plate 313 and a first transverse sliding rail 314, two end portions of the probe base fixing plate 312 are respectively mounted with an end plate 341, and an inner end surface of the end plate 341 is provided with a sliding rail 341; the first transverse sliding rail 314 is laid on one side end face of the probe base fixing plate 312 along the axial direction of the probe base fixing plate 312; a plurality of first sliding block fixing plates 313 are slidably mounted on the first transverse sliding rail 314; each set of the telescopic rod group corresponds to the first sliding block fixing plate 313, and the first sliding block fixing plate 313 is connected with the first end of the lower connecting rod 213.

The sucker fixing part 320 comprises a sucker fixing bottom plate 321, end sliding blocks 322, a second transverse sliding track 323 and a second sliding block fixing plate 324, wherein one end sliding block 322 is fixedly arranged at each of two ends of the sucker fixing bottom plate 321, and the end sliding blocks 322 are slidably arranged on the end plate sliding rails 341 at the same side; the second transverse sliding rail 323 is laid on the end surface of one side of the sucker fixing bottom plate 321 along the axial direction of the sucker fixing bottom plate 321; a plurality of second slider fixing plates 324 are slidably mounted on the second transverse sliding rail 323; each set of the telescopic rod group corresponds to the second slider fixing plate 324, and the second slider fixing plate 324 is connected with the first end of the upper connecting rod 211.

A set of liquid collecting cups 325 is fixedly arranged at the top of the second slide block fixing plate 324.

The up-down adjusting mechanism 330 is used for adjusting the parallelism of the probe base fixing plate and the sucker fixing base plate, and comprises a screw rod 331, a nut 332 and a screw rod fixing seat 333, wherein the nut 332 is fixed on the side surface of the probe base fixing plate 312; the screw 331 is vertically installed on the side surface of the suction cup fixing base plate 321 through the screw fixing seat 333, the screw 331 penetrates through the nut 332 and is in threaded connection with the nut 332, a hand wheel is assembled at the end part of the screw 331, and the screw and the nut are driven to move relatively through the rotation of the hand wheel so as to adjust the size of a gap between the probe base fixing plate and the suction cup fixing base plate.

The linear driving cylinder 122 of the linear driving module 120 is an air cylinder and drives the output fixing plate 121, so that the probe base fixing plate 312 and the sucker fixing base plate 321 push the telescopic rod, and therefore the probe can move back and forth by contacting the lug with the probe.

The embodiments described in this specification are merely illustrative of implementations of the inventive concept and the scope of the utility model should not be considered limited to the specific forms set forth in the embodiments but include equivalent technical means as would be recognized by those skilled in the art based on the inventive concept.

Claims

1. A negative pressure formation probe device, characterized by comprising:

2. The negative pressure formation probe device according to claim 1, wherein: the positioning device is arranged between the probe mechanism and the bottom plate and comprises a limiting plate and a positioning assembly, and the limiting plate is arranged at the bottom of the probe mounting part; the positioning assembly is arranged on the bottom plate under the limiting plate and used for limiting the limiting plate.

3. The negative pressure formation probe device according to claim 1 or 2, wherein: the bottom plate is a rectangular plate, the linear driving module and the guide device are arranged along the width direction of the bottom plate, the linear driving module comprises a cylinder output fixing plate as a movable part and a linear driving cylinder for driving the cylinder output fixing plate to move, the linear driving cylinder is installed on the bottom plate, and the telescopic end of the linear driving cylinder is connected with the cylinder output fixing plate; the guide device comprises a guide shaft supporting seat, a guide shaft and a linear bearing fixing seat serving as a moving part, the guide shaft is rotatably arranged on the bottom plate through the guide shaft supporting seat, and the guide shaft is arranged along the telescopic direction of the linear driving through cylinder; the linear bearing fixing seat is sleeved on the guide shaft; the probe mounting part is horizontally arranged on the cylinder output fixing plate and the linear bearing fixing seat.

4. The negative pressure formation probe device according to claim 3, wherein: the upper-layer telescopic rod group comprises an upper connecting rod and a sucker moving seat, the lower-layer telescopic rod group comprises a lower connecting rod, a probe fixing plate and a linear bearing, the bottom of the guide rail first slide block fixing plate is connected with the lifting end of the up-down adjusting mechanism, a vertical sliding track is arranged at the upper part of the guide rail first slide block fixing plate, and the vertical sliding track is arranged along the lifting direction of the lifting end of the up-down adjusting mechanism; the sucker moving seat is slidably arranged on a vertical sliding track of the guide rail first slide block fixing plate; the first end part of the upper connecting rod is slidably arranged on the sliding connecting part of the sucker fixing part, the second end part of the upper connecting rod is arranged on the sucker moving seat in a penetrating way, and the first end part and the second end part are in clearance fit; the tail end of the second end part is provided with the sucker component; the probe fixing plate is arranged at the lower part of the guide rail first slide block fixing plate, and the linear bearing is embedded in the probe fixing plate; the lower connecting rod is arranged along the width direction of the bottom plate, the first end part of the lower connecting rod can be slidably arranged on the sliding connection part of the probe installation part, and the second end part penetrates through the linear bearing and then is provided with a tab contact probe and a temperature probe.

5. The negative pressure formation probe device according to claim 4, wherein: the probe mounting part comprises end plates, a probe base fixing plate, a first sliding block fixing plate and a first transverse sliding rail, wherein two end parts of the probe base fixing plate are respectively provided with one end plate, and the inner end surface of each end plate is provided with a sliding rail; the first transverse sliding track is axially laid on one side end face of the probe base fixing plate along the probe base fixing plate; a plurality of first sliding block fixing plates are slidably arranged on the first transverse sliding track; each set of telescopic rod group corresponds to the first slide block fixing plate, and the first slide block fixing plate is connected with the first end of the lower connecting rod.

6. The negative pressure formation probe device according to claim 5, wherein: the sucker fixing part comprises a sucker fixing bottom plate, end sliders, a second transverse sliding track and a second slider fixing plate, one end slider is fixedly mounted at each of two end parts of the sucker fixing bottom plate, and the end sliders are slidably mounted on the end plate slide rails at the same side; the second transverse sliding track is axially laid on one side end face of the sucker fixing bottom plate along the sucker fixing bottom plate; a plurality of second sliding block fixing plates are slidably arranged on the second transverse sliding track; each set of telescopic rod group corresponds to the second slide block fixing plate, and the second slide block fixing plate is connected with the first end of the upper connecting rod.

7. The negative pressure formation probe device according to claim 6, wherein: and a set of liquid collecting cups is fixedly arranged at the top of the second sliding block fixing plate.

8. The negative pressure formation probe device according to claim 6, wherein: the up-down adjusting mechanism comprises a screw rod, a nut and a screw rod fixing seat, and the nut is fixed on the side surface of the probe base fixing plate; the lead screw passes through the lead screw fixing base is vertical install in the side of sucking disc PMKD, and the lead screw wear to locate in the nut, and with nut threaded connection, the tip of lead screw is furnished with the hand wheel for the clearance size between adjustment probe base fixed plate and the sucking disc PMKD.