CN220252085U - Insulating withstand voltage testing arrangement of insulating seat - Google Patents

Abstract

The utility model relates to an insulating base insulation voltage withstand test device, and belongs to the technical field of new energy automobiles. The test seat comprises a bottom frame, a positioning base used for placing the insulating seat is arranged on the bottom frame, a movable detection probe unit is arranged above the positioning base, the movable detection probe set can be close to the insulating seat and is electrically connected with a binding post on the insulating seat, the movable detection probe set is electrically connected with the insulating pressure-resistant tester through a connecting wire, and the insulating pressure-resistant tester detects high pressure resistance and insulativity on the binding post; or the mobile detection probe set can be remote from the insulating holder. The utility model has the advantages of this simple structure, the simple operation just safety can detect insulating nature and the high pressure resistance performance of insulating seat simultaneously, has improved work efficiency.

Description

Insulating withstand voltage testing arrangement of insulating seat

Technical Field

The utility model relates to an insulating base insulation voltage withstand test device, and belongs to the technical field of new energy automobiles.

Background

The electric automobile is used as a new energy automobile using electric energy, has the characteristics of wide source, cleanness, no pollution and the like, and gradually replaces the traditional automobile to become a development hot spot in the twenty-first century automobile industry. The insulating seat is a new energy automobile part, and comprises a metal binding post and an injection molding body, and insulation and high voltage resistance of the insulating seat need to be detected after injection molding is completed. At present, the high pressure is involved in the testing procedure, so that the safety of workers is affected to a certain extent in the testing process. There is a need for an insulation base insulation voltage withstanding testing device for detecting an insulation base.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the insulating base insulating pressure-resistant testing device aiming at the prior art, which has the advantages of simple structure, convenience and safety in operation, capability of detecting the insulativity and the high-pressure resistance of the insulating base and improvement of working efficiency.

The utility model solves the problems by adopting the following technical scheme: the insulation base insulation voltage withstand testing device comprises a testing base and an insulation voltage withstand tester, wherein the testing base comprises a bottom frame, a positioning base used for placing the insulation base is arranged on the bottom frame, a movable detection probe set is arranged above the positioning base, the movable detection probe set can be close to the insulation base and is electrically connected with a binding post on the insulation base, the movable detection probe set is electrically connected with the insulation voltage withstand tester through a connecting wire, and the insulation voltage withstand tester detects high voltage resistance and insulativity of a binding post; or the mobile detection probe set can be remote from the insulating holder.

The chassis is provided with a main support plate, the main support plate is provided with a vertically arranged travel cylinder, and the travel cylinder drives the movable detection probe set to do lifting motion, so that the movable detection probe set is close to or far away from the insulating seat.

The movable detection probe set comprises a first transverse cylinder mounting plate and a second transverse cylinder mounting plate which are arranged in parallel, a first transverse cylinder is arranged on the first transverse cylinder mounting plate, a first transverse cylinder extending rod is connected with the second transverse cylinder mounting plate through a connecting block, and a second transverse cylinder is arranged on the second transverse cylinder mounting plate; the first probe mounting seat is arranged on the second transverse moving cylinder mounting plate, the second probe mounting seat is arranged on the second transverse moving cylinder extending rod, and detection probes are respectively arranged on the first probe mounting seat and the second probe mounting seat.

The connecting wire comprises an anode connecting wire and a cathode connecting wire, the anode of the insulation voltage withstand tester is electrically connected with one detection probe through the anode connecting wire, and the cathode of the insulation voltage withstand tester is electrically connected with the other detection probe through the cathode connecting wire.

The travel cylinder both sides symmetry arranges the longitudinal guide, two be equipped with vertical slider on the longitudinal guide, first sideslip cylinder mounting panel both ends respectively with vertical slider fixed connection, when travel cylinder drive first sideslip cylinder mounting panel removed, vertical slider removes along the longitudinal guide, and then plays the guide effect to first sideslip cylinder mounting panel.

Compared with the prior art, the utility model has the advantages that: the insulating withstand voltage testing device of the insulating seat has the advantages of simple structure, convenience and safety in operation, capability of detecting the insulativity and the high-voltage resistance of the insulating seat simultaneously, and improvement of working efficiency.

Drawings

FIG. 1 is a schematic diagram of an insulation base insulation withstand voltage testing device according to an embodiment of the utility model;

FIG. 2 is a schematic view of the test seat of FIG. 1;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a side view of FIG. 2;

in the figure, a chassis 1, a positioning base 2, a detection probe 3, a first probe mounting seat 4, a connecting block 5, a first traversing cylinder 6, a travel cylinder 7, a main support plate 8, a longitudinal guide rail 9, a longitudinal slide block 10, a first traversing cylinder mounting plate 11, a transverse guide rail 12, a second traversing cylinder 13, a second traversing cylinder mounting plate 14, a locking seat 15, an electric control box 16, a reinforcing rib 17, a negative electrode connecting wire 18, a positive electrode connecting wire 19, an insulation and voltage withstanding tester 20 and a second probe mounting seat 21 are arranged.

Description of the embodiments

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1, 2, 3 and 4, an insulation base insulation voltage withstand test device in the present embodiment includes a test base and an insulation voltage withstand tester 20. Wherein, the test seat includes chassis 1, and chassis 1 top surface sets up the positioning base 2 that is used for placing the insulating seat, and positioning base 2 plays support and positioning action to the insulating seat, prevents that the insulating seat from shifting. The underframe 1 is provided with a main support plate 8 which is vertically arranged, the main support plate 8 is provided with a travel cylinder 7 which is vertically arranged, and an extension rod of the travel cylinder 7 is fixedly connected with a first transverse movement cylinder mounting plate 11. The first transverse cylinder mounting plate 11 is provided with the first transverse cylinder 6, the lateral surface of the first transverse cylinder mounting plate 11 is provided with the transverse guide rail 12, the transverse guide rail 12 is provided with the transverse sliding block, the first transverse cylinder 6 extends out of the rod to be provided with the connecting block, and the connecting block is fixedly connected with the transverse sliding block. The second sideslip cylinder mounting plate 14 is arranged at the bottom of the connecting block, and the first sideslip cylinder mounting plate 11 and the second sideslip cylinder mounting plate 14 are arranged in parallel. The second traversing cylinder mounting plate 14 is provided with a second traversing cylinder 13, the second traversing cylinder 13 extends out of the rod to form a second probe mounting seat 21, the second traversing cylinder mounting plate 14 is provided with a first probe mounting seat 4, and the first probe mounting seat 4 and the second probe mounting seat 21 are arranged in parallel. The first probe mount 4 and the second probe mount 21 are respectively provided with vertically arranged detection probes 3. The positive electrode of the insulation voltage withstand tester 20 is electrically connected with one detection probe 3 through a positive electrode connecting wire 19, and the negative electrode of the insulation voltage withstand tester 20 is electrically connected with the other detection probe 3 through a negative electrode connecting wire 18, so that the test seat is electrically connected with the insulation voltage withstand tester. The first traversing cylinder 6 drives the connecting block 8 and the traversing slide block to move transversely along the traversing guide rail 12, drives the second traversing cylinder mounting plate 14 to move synchronously, so that the first probe mounting seat 4 and the second probe mounting seat 21 move synchronously, the detection probes 3 move synchronously, two detection probes 3 correspond to two adjacent wire posts on the insulating seat, and the wire posts are detected in groups of two pairs, so that the current in the insulating voltage withstand tester is conducted. The stroke cylinder 7 drives the first transverse moving cylinder mounting plate 11 to move downwards, and then drives the first probe mounting seat 4 and the second probe mounting seat 21 to approach the insulating seat, so that the two detection probes 3 are electrically connected with the two adjacent wiring posts, and the insulating voltage-resistant tester tests the high voltage resistance and the insulativity of the two adjacent wiring posts. After the test is completed, the stroke cylinder drives the first traversing cylinder mounting plate to do ascending motion, and then drives the first probe mounting seat and the second probe mounting seat to keep away from the insulating seat, so that the two detection probes are separated from the two binding posts, at the moment, the second traversing cylinder drives the second probe mounting seat to keep away from the first probe mounting seat, so that the two detection probes correspond to the binding posts on the two outer sides, and then the stroke cylinder drives the first traversing cylinder mounting plate to do descending motion, so that the two monitoring probes are driven to be electrically connected with the binding posts on the two outer sides, and the insulating withstand voltage tester tests the high voltage resistance and the insulativity of the binding posts on the two outer sides.

Reinforcing ribs 17 are arranged between the side surfaces of the main supporting plate and the top surface of the underframe.

Longitudinal guide rails 9 are symmetrically arranged on two sides of the stroke cylinder 7, longitudinal sliding blocks 10 are arranged on the two longitudinal guide rails, two ends of the first transverse moving cylinder mounting plate are fixedly connected with the longitudinal sliding blocks respectively, and when the stroke cylinder drives the first transverse moving cylinder mounting plate to move, the longitudinal sliding blocks move along the longitudinal guide rails so as to guide the first transverse moving cylinder mounting plate.

An electric cabinet 16 is arranged on the side face of the underframe, and a starting button and a buzzer are arranged on the electric cabinet 16. Pressing a start button, starting the testing device to act, testing three binding posts by two detection probes, wherein each group of detection probes is used for testing 20s, the first 15s is used for testing 2800V high voltage resistance, the second 5s is used for testing insulation resistance, and an indicator lamp of the qualified insulation voltage resistance tester is lightened; if the test is not qualified, the test action stops resetting, and the buzzer warns.

The utility model has the advantages of this simple structure, the simple operation just safety can detect insulating nature and the high pressure resistance performance of insulating seat simultaneously, has improved work efficiency.

In addition to the above embodiments, the present utility model also includes other embodiments, and all technical solutions that are formed by equivalent transformation or equivalent substitution should fall within the protection scope of the claims of the present utility model.

Claims (5)

1. An insulating withstand voltage testing arrangement of insulating seat, its characterized in that: the test seat comprises a bottom frame, a positioning base used for placing the insulating seat is arranged on the bottom frame, a movable detection probe set is arranged above the positioning base, the movable detection probe set can be close to the insulating seat and is electrically connected with a binding post on the insulating seat, the movable detection probe set is electrically connected with the insulating pressure-resistant tester through a connecting wire, and the insulating pressure-resistant tester detects high pressure resistance and insulativity on a binding post; or the mobile detection probe set can be remote from the insulating holder.

2. The insulation base insulation withstand voltage testing device according to claim 1, wherein: the chassis is provided with a main support plate, the main support plate is provided with a vertically arranged travel cylinder, and the travel cylinder drives the movable detection probe set to do lifting motion, so that the movable detection probe set is close to or far away from the insulating seat.

3. The insulation base insulation withstand voltage testing device according to claim 2, wherein: the movable detection probe set comprises a first transverse cylinder mounting plate and a second transverse cylinder mounting plate which are arranged in parallel, a first transverse cylinder is arranged on the first transverse cylinder mounting plate, a first transverse cylinder extending rod is connected with the second transverse cylinder mounting plate through a connecting block, and a second transverse cylinder is arranged on the second transverse cylinder mounting plate; the first probe mounting seat is arranged on the second transverse moving cylinder mounting plate, the second probe mounting seat is arranged on the second transverse moving cylinder extending rod, and detection probes are respectively arranged on the first probe mounting seat and the second probe mounting seat.

4. The insulation base insulation withstand voltage testing device according to claim 1, wherein: the connecting wire comprises an anode connecting wire and a cathode connecting wire, the anode of the insulation voltage withstand tester is electrically connected with one detection probe through the anode connecting wire, and the cathode of the insulation voltage withstand tester is electrically connected with the other detection probe through the cathode connecting wire.

5. A dielectric withstand voltage testing apparatus according to claim 3, wherein: the travel cylinder both sides symmetry arranges the longitudinal guide, two be equipped with vertical slider on the longitudinal guide, first sideslip cylinder mounting panel both ends respectively with vertical slider fixed connection, when travel cylinder drive first sideslip cylinder mounting panel removed, vertical slider removes along the longitudinal guide, and then plays the guide effect to first sideslip cylinder mounting panel.