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CN-224231800-U - Automatic testing arrangement of response

CN224231800UCN 224231800 UCN224231800 UCN 224231800UCN-224231800-U

Abstract

The utility model discloses an automatic induction testing device which comprises a frame and an induction assembly, wherein the induction assembly comprises a fixed block and a floating press block, the fixed block is arranged on the frame, the floating press block is rotationally connected with the fixed block, a reset piece is further connected between the floating press block and the fixed block, and the floating press block is used for touching and pressing a micro switch of a piece to be tested. So set up, in the test process, after pushing into the frame with the piece that awaits measuring, touch and press micro-gap switch through the floating briquetting to can begin to test, after the test, after pulling out the frame with the piece that awaits measuring, under the effect of piece that resets, the floating briquetting resets, need not additionally to increase the briquetting and touch and press micro-gap switch, easy operation is convenient.

Inventors

  • LI HUANSHENG
  • LV SHIJIAN
  • ZHANG HAO
  • MO ZONGJIE
  • XU ZHILIN

Assignees

  • 珠海精实测控技术股份有限公司

Dates

Publication Date
20260512
Application Date
20231219

Claims (9)

  1. 1. An auto-induction testing device, comprising: A frame; The induction assembly comprises a fixed block and a floating press block, wherein the fixed block is arranged on the frame, the floating press block is rotationally connected with the fixed block, a reset piece is further connected between the floating press block and the fixed block, and the floating press block is used for touching and pressing a micro switch of a piece to be detected.
  2. 2. The automatic induction testing device according to claim 1, wherein the floating press block is movably connected with the fixed block through a contour bolt.
  3. 3. An auto-induction test device according to claim 2, characterized in that the return element is provided as a first spring.
  4. 4. The automatic induction testing device according to claim 1, further comprising a testing slider movably connected to the fixed block, and a testing lever rotatably connected to the testing slider, wherein the testing lever is provided to the testing slider for driving the testing slider to move upward on the fixed block.
  5. 5. The automatic induction testing device according to claim 4, wherein the fixing block is provided with a kidney-shaped hole, and the testing floating block is connected to the kidney-shaped hole through a constant-height bolt.
  6. 6. The auto-induction test device according to claim 5, wherein a second spring is provided between the test slider and the fixed block.
  7. 7. The automatic induction testing device according to claim 1, further comprising an inlet and outlet assembly, wherein the inlet and outlet assembly comprises a bracket and a cylinder, the cylinder is arranged on the frame, the bracket is movably arranged on the frame, and the cylinder is used for driving the bracket to enter and exit the frame.
  8. 8. The automatic induction testing device according to claim 7, wherein guide strips are arranged on two sides of the support.
  9. 9. The automatic induction testing device according to claim 7, wherein the support is further provided with a blocking strip, and the blocking strip is used for preventing the support from colliding with the support.

Description

Automatic testing arrangement of response Technical Field The utility model relates to the technical field of electrical test box test equipment, in particular to an automatic induction test device. Background With the rapid development of the technology of the test fixture and the cost control, the time requirements of the exchange period are increasingly improved. The test fixture technology industry has gradually begun to enhance the need for ease of operation of test fixtures while reducing fixture costs. Among them, the problem of quick replacement of the electrical test case of the test fixture platform is most acute. The replacement method of the electric measuring box of the traditional test fixture platform is wide, but the following defects to be improved always exist. The device of the electric testing box of the traditional testing clamp platform needs to open an upper cover in testing, the traditional mode is that after the electric testing box is placed, the micro switch is pressed down by the pressing block, and because the pressing block is an independent part, the pressing block is easy to drop and lose, and meanwhile, a field tool is not well managed, the operation is complex, the electric testing box is required to be taken away, the electric testing box is taken out, the new electric testing box is replaced, the pressing block is put down, and 4 steps are carried out, so that operators are easy to miss operation or misoperation. Disclosure of utility model The utility model provides an automatic induction testing device, which aims at solving at least one of the technical problems existing in the prior art. The technical scheme of the utility model relates to an automatic induction testing device, which comprises: A frame; The induction assembly comprises a fixed block and a floating press block, wherein the fixed block is arranged on the frame, the floating press block is rotationally connected with the fixed block, a reset piece is further connected between the floating press block and the fixed block, and the floating press block is used for touching and pressing a micro switch of a piece to be detected. According to some embodiments of the utility model, the floating block is movably connected to the fixed block by a contour bolt. According to some embodiments of the utility model, the return element is provided as a first spring. According to some embodiments of the utility model, the test device further comprises a test floating block and a test rod, wherein the test floating block is movably connected with the fixed block, the floating block is rotatably connected with the test floating block, and the test rod is arranged on the test floating block and used for driving the test floating block to move upwards on the fixed block. According to some embodiments of the utility model, the fixed block is provided with a kidney-shaped hole, and the test floating block is connected to the kidney-shaped hole through a constant-height bolt. According to some embodiments of the utility model, a second spring is disposed between the test slider and the fixed block. According to some embodiments of the utility model, the device further comprises an access assembly, wherein the access assembly comprises a bracket and a cylinder, the cylinder is arranged on the frame, the bracket is movably arranged on the frame, and the cylinder is used for driving the bracket to access the frame. According to some embodiments of the utility model, the support is provided with guide bars on both sides. According to some embodiments of the utility model, the bracket is further provided with a blocking strip, and the blocking strip is used for preventing the bracket from colliding with the bracket. The beneficial effects of the utility model are as follows: 1. In the testing process, after the piece to be tested is pushed into the frame, the micro switch is pressed by the floating pressing block, so that the testing can be started, after the testing is finished, the piece to be tested is pulled out of the frame, and under the action of the reset piece, the floating pressing block is reset, the micro switch is not required to be pressed by additionally adding the pressing block, and the operation is simple and convenient. Drawings FIG. 1 is a schematic diagram of an auto-induction testing device according to an embodiment of the present utility model; FIG. 2 is a front view (hidden part structure) of an auto-induction testing device according to an embodiment of the present utility model; FIG. 3 is a schematic diagram of an induction component according to an embodiment of the present utility model FIG. 4 is an exploded view of the sensing assembly shown in FIG. 3; Fig. 5 is a schematic structural view of an access module according to an embodiment of the present utility model. Reference numerals: a frame 100; The device comprises a sensing assembly 200, a fixed block 210, a kidney-shaped hole 211, a floating block