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CN-121978373-A - Adjusting device for battery pack detection mechanism

CN121978373ACN 121978373 ACN121978373 ACN 121978373ACN-121978373-A

Abstract

The application discloses an adjusting device for a battery pack detection mechanism, which relates to the field of adjusting devices and comprises a first bracket, a second bracket, a first driving assembly and a second driving assembly, wherein the length direction of the first bracket is set to be a first direction, the second bracket is connected to the first bracket in a sliding mode, the length direction of the second bracket is set to be a second direction, the first direction and the second direction are vertically arranged, and the first driving assembly is arranged on the second bracket. According to the application, after the position of the induction plate is determined through the first inductor, the first cylinder is started to drive the insert block to be inserted into the first slot, so that the first driving assembly can drive the plurality of probes on the plate body to move together and change the position in the first direction, after the position of the sliding frame is determined through the second inductor, the sliding frame is connected through the second driving structure, and the position of each probe in the second direction is changed through the first driving structure, so that the cost of independently driving each probe is reduced.

Inventors

  • Deng Shunguang
  • LIU XUEBAO

Assignees

  • 上海豫彬智能科技有限公司

Dates

Publication Date
20260505
Application Date
20260316

Claims (10)

  1. 1. An adjusting device for a battery pack detecting mechanism, characterized in that it is used for adjusting the detecting position of the battery pack detecting mechanism (1), and it comprises: A first bracket (2), wherein the length direction of the first bracket (2) is set as a first direction; The second bracket (3) is connected to the first bracket (2) in a sliding manner, the length direction of the second bracket (3) is set to be a second direction, and the first direction and the second direction are vertically arranged; a first driving assembly (4), the first driving assembly (4) being mounted on the second bracket (3), the first driving assembly (4) being used for driving the second bracket (3) to move in a first direction; The docking assembly (5), the docking assembly (5) is installed on the second bracket (3), the docking assembly (5) is used for being connected with the battery pack detection mechanism (1), when the docking assembly (5) is connected with the battery pack detection mechanism (1), the first driving assembly (4) can sequentially drive the second bracket (3), the docking assembly (5) and the battery pack detection mechanism (1) to move along the first direction, so that the detection position of the battery pack detection mechanism (1) is integrally changed; The second driving assembly (6), the second driving assembly (6) is installed on the second support (3), and the second driving assembly (6) can be connected with the battery pack detection mechanism (1) and change the detection position of the battery pack detection mechanism (1) in the second direction.
  2. 2. The adjusting device for a battery pack detection mechanism according to claim 1, wherein the first driving assembly (4) comprises: A first driving member (41), the first driving member (41) being mounted on the second bracket (3); the rotating shaft (42) is rotatably connected to the second bracket (3), and the first driving piece (41) is used for driving the rotating shaft (42) to rotate; A first gear (43), the first gear (43) being mounted on the rotating shaft (42); the first rack (44) is arranged on the first bracket (2), and the first gear (43) and the first rack (44) are meshed.
  3. 3. The adjustment device for a battery pack detection mechanism according to claim 1, wherein the docking assembly (5) comprises: A first sensor (51), the first sensor (51) being mounted on the second bracket (3), the first sensor (51) being for sensing a position of the battery pack detection mechanism (1); A first air cylinder (52), wherein the first air cylinder (52) is arranged on the second bracket (3), and the first sensor (51) and the first air cylinder (52) are electrically connected; The plug-in block (53), the plug-in block (53) is installed at the expansion end of first cylinder (52), first cylinder (52) are used for driving plug-in block (53) to connect battery package detection mechanism (1).
  4. 4. The adjusting device for a battery pack detection mechanism according to claim 1, wherein the second driving assembly (6) includes: a third bracket (61), the third bracket (61) being slidably connected to the second bracket (3); A first driving structure (62), the first driving structure (62) being mounted on the third bracket (61), the first driving structure (62) being for driving the third bracket (61) to move in the second direction; -a second drive structure (63), the second drive structure (63) being mounted on a third bracket (61); A second sensor (64), the second sensor (64) being mounted on the second drive structure (63), the second sensor (64) being for sensing the position of the battery pack detection mechanism (1); The inserting rod (65), the inserting rod (65) is installed on the second driving structure (63), and the second driving structure (63) is used for driving the inserting rod (65) to be close to and connected with the battery pack detection mechanism (1).
  5. 5. The adjustment device for a battery pack detection mechanism according to claim 4, wherein the first driving structure (62) comprises: a second driving piece (621), the second driving piece (621) being mounted on the third bracket (61); a second gear (622), the second gear (622) being capable of being driven in rotation by a second driving member (621); And the second rack (623) is arranged on the second bracket (3), and the second gear (622) and the second rack (623) are meshed.
  6. 6. The adjusting device for a battery pack detection mechanism according to claim 4, wherein the second driving structure (63) comprises: A second cylinder (631), the second cylinder (631) being mounted on the third bracket (61), the second cylinder (631) being for driving the plunger (65) to approach and connect with the battery pack detection mechanism (1); The third air cylinder (632), the third air cylinder (632) is installed at the movable end of the second air cylinder (631), the second inductor (64) is installed on the third air cylinder (632), the inserting rod (65) is installed at the movable end of the third air cylinder (632), and the third air cylinder (632) is used for pushing the battery pack detection mechanism (1); Fourth cylinder (633), fourth cylinder (633) is installed at the expansion end of third cylinder (632), fourth cylinder (633) are used for promoting battery package detection mechanism (1), fourth cylinder (633) can cooperate third cylinder (632) to fix the testing position of battery package detection mechanism (1).
  7. 7. The adjusting device for the battery pack detection mechanism according to claim 3, wherein the first sensor (51) is provided with a sensing groove (511), two adjacent surfaces inside the sensing groove (511) are respectively provided with a transmitter (512) and a receiver (513), and when the transmitter (512) and the receiver (513) are blocked, the first sensor (51) controls the first cylinder (52) to be started through electric connection.
  8. 8. The adjusting device for a battery pack detection mechanism according to claim 7, wherein the first sensor (51) is provided with a trigger assembly (7), and the trigger assembly (7) can enable the first sensor (51) to control the first cylinder (52) to be started through electric connection when contacting the battery pack detection mechanism (1).
  9. 9. The adjusting device for a battery pack detection mechanism according to claim 8, wherein the first sensor (51) is provided with a chute (514), the chute (514) and the sensor slot (511) are communicated, and the triggering component (7) comprises: the trigger (71) is arranged in the chute (514), and the trigger (71) and the first sensor (51) are electrically connected; The sliding rod (72) is connected in the sliding groove (514) in a sliding way; The battery pack detection mechanism comprises a contact block (73), wherein the contact block (73) is arranged on a sliding rod (72), an inclined surface (731) is formed in the contact block (73), and the battery pack detection mechanism (1) can slide along the inclined surface (731) and push the contact block (73) to be close to a trigger (71); And the elastic piece (74) is arranged between the trigger (71) and the contact block (73), and the elastic piece (74) is used for pushing the contact block (73) away from the trigger (71).
  10. 10. The adjusting device for a battery pack detection mechanism according to claim 9, wherein the elastic member (74) is a spring, the spring is sleeved around the slide rod (72), one end of the spring is fixedly connected with the contact block (73), and the other end of the spring is fixedly connected with the first sensor (51).

Description

Adjusting device for battery pack detection mechanism Technical Field The application relates to the technical field of adjusting devices, in particular to an adjusting device for a battery pack detecting mechanism. Background With the rapid development of the new energy automobile industry, the battery pack is taken as a core component, and the quality detection requirement of the battery pack is growing. At present, the detection of the battery pack mainly depends on automatic detection equipment, but because the battery packs are various in specification (the thickness, the pole spacing and the like are large in difference), the detection equipment needs to be frequently adjusted to adapt to the battery packs of different types. In order to adapt to battery packs with different specifications, the prior art drives each detection probe independently, so that the applicability of the device is improved, but the cost of independently driving each detection probe is high. Disclosure of Invention In order to solve the problem that the independent driving cost of each detection probe is high, the application provides an adjusting device for a battery pack detection mechanism. The application provides an adjusting device for a battery pack detection mechanism, which is used for adjusting the detection position of the battery pack detection mechanism, and adopts the following technical scheme: Comprising the following steps: A first bracket, a length direction of which is set as a first direction; The second bracket is connected to the first bracket in a sliding manner, the length direction of the second bracket is set to be a second direction, and the first direction and the second direction are vertically arranged; The first driving assembly is mounted on the second bracket and used for driving the second bracket to move along a first direction; The docking assembly is arranged on the second bracket and is used for being connected with the battery pack detection mechanism, and when the docking assembly is connected with the battery pack detection mechanism, the first driving assembly can sequentially drive the second bracket, the docking assembly and the battery pack detection mechanism to move along the first direction, so that the detection position of the battery pack detection mechanism is integrally changed; The second driving assembly is installed on the second support, and the second driving assembly can be connected with the battery pack detection mechanism and change the detection position of the battery pack detection mechanism in the second direction. By adopting the technical scheme, the second bracket is driven by the first driving component to move along the first direction, the battery pack detection mechanism is connected with the butt joint component, so that the battery pack detection mechanism can move along the second bracket in the first direction, and meanwhile, the second driving component can be connected with the battery pack detection mechanism and drive the battery pack detection mechanism to move along the second direction, so that the adjustment of the detection positions of the battery pack detection mechanism in two vertical directions is realized, and the cost for adjusting the detection positions one by one is reduced. Optionally, the first driving assembly includes: a first driving member mounted on the second bracket; The rotating shaft is rotationally connected to the second bracket, and the first driving piece is used for driving the rotating shaft to rotate; the first gear is arranged on the rotating shaft; the first rack is arranged on the first bracket, and the first gear and the first rack are meshed. Through adopting above-mentioned technical scheme, first driving piece drive pivot rotates, and then drives and install in pivot first gear rotation, because first gear meshes with the first rack of installing on first support for first gear can drive the second support and follow the first direction with the help of first rack and remove. Optionally, the docking assembly includes: The first sensor is arranged on the second bracket and is used for sensing the position of the battery pack detection mechanism; the first air cylinder is arranged on the second bracket, and the first sensor and the first air cylinder are electrically connected; the inserting block is arranged at the movable end of the first air cylinder, and the first air cylinder is used for driving the inserting block to be connected with the battery pack detection mechanism. Through adopting above-mentioned technical scheme, but first inductor response battery package detection mechanism's position, first inductor is connected with first cylinder electricity, can control first cylinder start after sensing battery package detection mechanism position, and first cylinder drive insert connects battery package detection mechanism, realizes adjusting device and battery package detection mechanism's connection. Op