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CN-224231953-U - High-integration-level electrical property testing device

CN224231953UCN 224231953 UCN224231953 UCN 224231953UCN-224231953-U

Abstract

A high-integration electrical performance testing device comprises a transmission detection assembly, a lifting base and a blocking cylinder. The conveying detection assembly comprises a conveying disc and a bearing jig. The conveyor pan is tracked. The transfer disk includes a transfer disk main body, a mounting hole, a fool-proof hole, and a blocking groove. The bearing jig comprises a second mounting hole. The second mounting holes are arranged corresponding to the mounting holes. The lifting base comprises a bearing base and an abutting cylinder. The bearing base comprises a bearing base main body and a positioning pin. The positioning pins are arranged corresponding to the fool-proof holes. The output end of the propping cylinder is fixedly connected with the bearing base. The propping cylinder is started to adjust the height of the bearing jig. And the blocking cylinder is started to block the blocking groove of the conveying disc. The high-integration electrical property testing device is provided with the conveying detection assembly, the lifting base and the blocking cylinder so as to facilitate automatic production.

Inventors

  • XIONG XILIN
  • WANG LIANGJUN

Assignees

  • 浙江赛英电力科技有限公司

Dates

Publication Date
20260512
Application Date
20250402

Claims (8)

  1. 1. The utility model provides a high integrated level electrical property testing arrangement which characterized in that: the high-integration electrical property testing device comprises a transmission detection assembly, a lifting base arranged below the transmission detection assembly, and a blocking cylinder arranged close to the lifting base, wherein the transmission detection assembly comprises a transmission disc arranged above the lifting base and a bearing jig fixedly arranged on the transmission disc through a connecting piece, two sides of the transmission disc are movably arranged on a crawler belt and are transmitted by the crawler belt, the transmission disc comprises a transmission disc main body, at least four mounting holes arranged on the transmission disc main body, at least two fool-proof holes arranged on the transmission disc main body, and at least one blocking groove arranged on the side edge of the transmission disc, the two fool-proof holes are symmetrically arranged by taking the central line of the transmission disc main body as a symmetrical line, the diameters of the two fool-proof holes are different, the blocking groove is arranged on the side edge of the conveying disc, which is not contacted with the caterpillar band, the bearing jig comprises at least four second mounting holes arranged on the bearing jig, the second mounting holes are arranged corresponding to the mounting holes, the lifting base comprises a bearing base body and an abutting cylinder arranged below the bearing base body, the bearing base body comprises a bearing base body and at least two positioning pins arranged on the bearing base body, the positioning pins are arranged on the end face of the bearing base body, which faces the conveying disc body, the positions and the shapes of the positioning pins are corresponding to the fool-proof holes, the output end of the abutting cylinder is fixedly connected with the bearing base body, the abutting cylinder is started, the supporting cylinder lifts the bearing base, so that the bearing base and the conveying disc are installed through the fool-proof holes and the locating pins, the height of the bearing jig is adjusted, the blocking cylinder is arranged on the same side of the lifting base as the crawler conveying direction, the blocking cylinder is started, the blocking groove of the conveying disc is blocked, and the conveying disc stops moving.
  2. 2. The high-integration electrical property testing device of claim 1, wherein the mounting holes are uniformly arranged at diagonal positions of the transfer plate.
  3. 3. The high-integrity electrical performance testing apparatus of claim 1, wherein: the bearing jig comprises a bearing groove arranged on the bearing jig and a plurality of fixing grooves arranged on the bearing groove.
  4. 4. The high-integration electrical property testing device of claim 3, wherein the carrying groove is arranged at the center of the carrying jig.
  5. 5. The high-integration electrical property testing device of claim 1, wherein the bearing base further comprises at least two weight-reducing grooves, and a plurality of weight-reducing grooves are uniformly formed on the bearing base.
  6. 6. The apparatus of claim 1, further comprising an electrical performance testing assembly disposed above the transport testing assembly, the electrical performance testing assembly disposed on a support table on which the track is mounted, the electrical performance testing assembly disposed above the transport testing assembly.
  7. 7. The high-integration electrical property testing device of claim 6, wherein the electrical property testing assembly comprises a transverse rail, a sliding block movably arranged on the transverse rail, a vertical air cylinder fixedly arranged on the sliding block, and a testing plate fixedly arranged at the output end of the vertical air cylinder, wherein the extending direction of the transverse rail is perpendicular to the conveying direction of the crawler belt, the vertical air cylinder is lifted in the lifting direction of the propping air cylinder, and a plurality of contacts are arranged on the testing plate.
  8. 8. The high-integration electrical property testing device of claim 1, wherein the blocking cylinder comprises a blocking cylinder body, a second output rod arranged at the output end of the blocking cylinder body, and a blocking arm movably arranged on the blocking cylinder body.

Description

High-integration-level electrical property testing device Technical Field The utility model relates to the field of bus bar testing devices, in particular to a high-integration electrical performance testing device. Background The busbar possibly refers to an electric connecting part of the power module, has the characteristics of repeatable electric performance, low inductance, interference resistance, good reliability, space saving, simple and quick assembly and the like, and is widely applied to the fields of power systems, communication base stations, military industry, transportation systems and the like. In the production process of the busbar, performance detection, such as electrical performance detection, voltage withstanding test, resistance test, wire harness internal resistance test, wire harness on-off test, NTC test and the like, is required to be performed on the manufactured integrated busbar. However, in the prior art, the conventional testing method usually depends on manual detection or low-precision automatic detection equipment, so that large-scale automatic detection cannot be realized, and the detection efficiency is low. Disclosure of utility model In view of the above, the present utility model provides a high-integration electrical performance testing device to solve the above-mentioned problems. A high-integration electrical property testing device comprises a transmission detection assembly, a lifting base arranged below the transmission detection assembly and a blocking cylinder arranged close to the lifting base. The conveying detection assembly comprises a conveying disc arranged above the lifting base and a bearing jig fixedly arranged on the conveying disc through a connecting piece. The two sides of the conveying disc are movably arranged on the crawler belt and conveyed by the crawler belt. The conveying disc comprises a conveying disc main body, at least four mounting holes arranged on the conveying disc main body, at least two fool-proof holes arranged on the conveying disc main body and at least one blocking groove arranged on the side edge of the conveying disc. The two fool-proof holes are symmetrically arranged by taking the central line of the conveying disc main body as a symmetrical line. The diameters of the two fool-proof holes are different. The blocking groove is arranged at the side edge of the conveying disc, which is not contacted with the caterpillar band. The bearing jig comprises at least four second mounting holes arranged on the bearing jig. The second mounting holes are arranged corresponding to the mounting holes. The lifting base comprises a bearing base and an abutting cylinder arranged below the bearing base. The bearing base comprises a bearing base main body and at least two positioning pins arranged on the bearing base main body. The locating pins are arranged on the end face of the bearing base body, which faces the conveying disc body, and the positions and the shapes of the locating pins are corresponding to the fool-proof holes. The output end of the propping cylinder is fixedly connected with the bearing base. The propping cylinder is started, and the propping cylinder lifts the bearing base, so that the bearing base and the conveying disc are installed through the fool-proof hole and the locating pin, and the height of the bearing jig is adjusted. The blocking cylinder is arranged on the same side of the lifting base as the crawler belt conveying direction. The blocking cylinder is started to block the blocking groove of the conveying disc, and the conveying disc stops moving. Further, the mounting holes are uniformly provided at diagonal positions of the transfer plate. Further, the bearing jig comprises a bearing groove arranged on the bearing jig and a plurality of fixing grooves arranged on the bearing groove. Further, the bearing groove is arranged at the center of the bearing jig. Further, the bearing base further comprises at least two weight reducing grooves, and the weight reducing grooves are uniformly formed in the bearing base. Further, the high-integration electrical performance testing device further comprises an electrical performance detecting component arranged above the conveying detecting component, the electrical performance detecting component is arranged on a supporting table provided with the crawler belt, and the electrical performance detecting component is arranged above the conveying detecting component. Further, the electrical property detection assembly comprises a transverse rail, a sliding block movably arranged on the transverse rail, a vertical air cylinder fixedly arranged on the sliding block, and a detection plate fixedly arranged at the output end of the vertical air cylinder, wherein the extending direction of the transverse rail is perpendicular to the conveying direction of the crawler belt, the vertical air cylinder is lifted in the lifting direction of the propping air cylinder, and a plurality of