CN-224231701-U - Battery tray detection assembly and tool

Abstract

The utility model discloses a battery tray detection assembly and a tool, which relate to the technical field of product detection and comprise an ultrasonic probe, a workbench and a couplant acting piece arranged on the workbench, wherein the couplant acting piece comprises a pipeline arranged above the workbench and a moving mechanism for driving the pipeline to perform two-dimensional actions, the pipeline is divided into a plurality of water spraying pipes and water absorbing pipes, the water spraying pipes and the water absorbing pipes work alternatively, and when a battery tray to be detected is arranged on the workbench, the pipe orifices of the water spraying pipes and the water absorbing pipes can move into the battery tray by virtue of the moving mechanism, so that water spraying and water absorbing work in the battery tray can be sequentially realized. According to the utility model, through the design of the couplant acting piece with the water spraying and absorbing functions, the water spraying pipe and the water absorbing pipe in the couplant acting piece work alternately, so that not only can the couplant be conveyed into the battery tray be realized, but also the battery tray can be effectively dewatered and cleaned, and the detection precision and efficiency are improved.

Inventors

• SHU XI
• LI DING
• WAN LONG

Assignees

• 安徽万宇机械设备科技有限公司

Dates

Publication Date

20260512

Application Date

20250402

Claims (10)

1. 1. The utility model provides a battery tray detection component, its characterized in that includes ultrasonic probe (1), workstation (3) and locates couplant effect piece (4) on workstation (3), couplant effect piece (4) are including being located pipeline (5) of workstation (3) top to and be used for driving pipeline (5) to make motion mechanism (6) of two-dimensional action, pipeline (5) are established to a plurality of and divide into spray pipe and water absorption pipe, and spray pipe and water absorption pipe select one work, when battery tray (a) to be detected is arranged in on workstation (3), the mouth of pipe of spray pipe and water absorption pipe can rely on motion mechanism (6) to remove in battery tray (a), realizes in proper order the water spray and the water absorption work to battery tray (a).
2. 2. The battery tray inspection assembly of claim 1, wherein the water spray pipes and the water suction pipes are arranged in a vertical direction, and the pipe openings of the pipes facing the battery tray (a) are in a flush state, so that the pipe openings of the pipes are attached to the bottom wall of the battery tray (a) when the pipes move into the battery tray (a).
3. 3. The battery tray detection assembly according to claim 1 or 2, wherein the movement mechanism (6) is a two-dimensional movement mechanism for driving the pipeline (5) to perform horizontal and vertical movements, the two-dimensional movement mechanism comprises a first driving source (601) arranged on the workbench (3) and a second driving source (602) arranged on an execution end of the first driving source (601), the working direction of the execution end of the first driving source (601) is in a vertical state with the working direction of the execution end of the second driving source (602), and an object carrying strip (603) for installing the pipeline (5) is fixedly arranged on the execution end of the second driving source (602).
4. 4. A battery tray detection assembly according to claim 1 or 2, characterized in that the detection assembly further comprises a clamp provided on the table (3) for clamping the battery tray (a).
5. 5. The battery tray detection assembly according to claim 4, wherein the clamp comprises a plurality of clamping pieces (7) arranged in a surrounding state on the workbench (3), the actuating ends of the clamping pieces (7) form a limit area with adjustable size, the couplant acting piece (4) is located outside the limit area, the clamp further comprises a plurality of pressing pieces (8) arranged on the workbench (3), and the pressing pieces (8) are used for applying acting force towards the workbench (3) to the battery tray (a) in the limit area.
6. 6. The battery tray detection assembly according to claim 5, wherein a draining plate (2) is arranged at the top of the workbench (3), and a plurality of cushion blocks (9) for lifting the battery tray (a) are arranged in the area, located in the limiting area, of the draining plate (2).
7. 7. The battery tray detection assembly according to claim 1 or 2, further comprising a feeding manipulator (10) arranged beside the workbench (3), wherein a double-head driving source (11) is arranged on an end effector of the feeding manipulator (10), clamping plates (12) are fixedly arranged at two executing ends of the double-head driving source (11), and a clamping area with adjustable size is formed between the two clamping plates (12).
8. 8. A battery tray detection assembly according to claim 1 or 2, further comprising a detection manipulator (13) arranged beside the workbench (3), wherein the ultrasonic probe (1) is fixedly arranged on an end effector on the detection manipulator (13).
9. 9. A tool for applying the battery tray detection assembly according to any one of claims 1 to 8, comprising a pumping member (14), wherein the pumping member (14) comprises a third driving source (1401) arranged on a workbench (3) and a bracket (1402) arranged on an execution end of the third driving source (1401), the bracket (1402) is rotatably provided with a pumping pipe (1403), the pumping pipe (1403) is bent towards one end of a limit area, so that the pumping pipe (1403) is integrally arranged in an L shape, the bracket (1402) is provided with a fourth driving source (1404) for driving the pumping pipe (1403) to perform a rotation motion along the axial direction of the pumping pipe (1403), and when the bending end of the pumping pipe (1403) is driven by the third driving source (1401) to enter a cavity of the battery tray (a), the fourth driving source (1404) can drive the pumping pipe (1403) to perform a rotation motion until the bending end of the pumping pipe (1403) is attached to the bottom wall of the cavity of the battery tray (a).
10. 10. The tool of claim 9, wherein the fourth driving source (1404) is hinged on the bracket (1402) and is arranged perpendicular to the third driving source (1401), a switching block (1405) is arranged at an execution end of the fourth driving source (1404), and a connecting sheet (1406) fixedly connected with the pumping pipe (1403) is movably hinged on the switching block (1405).

Description

Battery tray detection assembly and tool Technical Field The utility model relates to the technical field of product detection, in particular to a battery tray detection assembly and a tool. Background The current phased array detection equipment comprises an open container, a product to be detected is generally placed in the open container, then a coupling agent is injected into the container until the coupling agent is beyond the position of a welding line to be detected of the product, and finally, an ultrasonic probe is driven by a manipulator to move to the position of the welding line to be detected, so that subsequent detection work can be carried out. The coupling agent is generally deionized water, so that water can be discharged only by opening a discharge outlet at the bottom of the container after detection is completed. However, the above-mentioned inspection apparatus can be applied only to products having smooth surfaces and no concave structures, and this type of products will not carry out water due to their own smooth structures during the process of taking out from the container, whereas other products having concave structures, such as battery trays, which require inspection of the weld seam on the inner side of the bottom end thereof, are generally used in battery modules of electric vehicles, and have complicated structures, and have concave areas on the surfaces, which are prone to accumulation of coupling agents during the inspection process. After the detection is finished, the traditional phased array detection equipment cannot effectively discharge the accumulated couplants, so that a large amount of couplants can be carried out along with products when the battery tray is taken out, resources are wasted, and pollution to the working environment is likely to be caused. Furthermore, the carried-out couplant can also affect the subsequent detection accuracy and even damage the equipment. The above-described inspection apparatus is not suitable for products having a concave structure. Based on this, we propose a battery tray detection assembly to solve the above-mentioned problems. Disclosure of utility model The utility model aims to solve the problems in the prior art and provides a battery tray detection assembly, wherein the detection assembly can realize the position change of a pipeline relative to a battery tray through a movement mechanism, so that the pipeline with water spraying and water absorbing functions can freely move in the battery tray and can perform water spraying or water absorbing work according to actual scenes. In order to solve the problems, the utility model provides the following technical scheme: the utility model provides a battery tray detects subassembly, includes ultrasonic probe, workstation and locates the couplant effect spare on the workstation, couplant effect spare is including the pipeline that is located the workstation top to and be used for driving the pipeline and do the motion mechanism of two-dimensional action, the pipeline is established to a plurality of and divide into spray pipe and water pipe that absorbs water, and spray pipe and water pipe select one work, when the battery tray that waits to detect is placed on the workstation, the mouth of pipe that spray pipe and water pipe can rely on motion mechanism to remove to in the battery tray, realizes in proper order the water spray and the work of absorbing water to the battery tray in. As a further scheme of the utility model, the water spraying pipes and the water absorbing pipes are arranged along the vertical direction, and the pipe orifices of the pipes facing the battery tray are in a flush state, so that the pipe orifices of the pipes are attached to the bottom wall of the battery tray when the pipes move into the battery tray. The two-dimensional motion mechanism comprises a first driving source arranged on the workbench and a second driving source arranged on an execution end of the first driving source, wherein the working direction of the execution end of the first driving source is vertical to the working direction of the execution end of the second driving source, and an object carrying strip for pipeline installation is fixedly arranged on the execution end of the second driving source. As a further proposal of the utility model, the detection component also comprises a clamp which is arranged on the workbench and used for clamping the battery tray. The clamp comprises a plurality of clamping pieces which are arranged on the workbench in a surrounding state, wherein the executing ends of the clamping pieces form a limit area with adjustable size, the couplant acting piece is positioned outside the limit area, the clamp also comprises a plurality of pressing pieces which are arranged on the workbench, and the pressing pieces are used for exerting acting force towards the workbench on the battery tray on the limit area. As a further scheme of the utility model, the top of t