CN215599339U - Socket on-off withstand voltage testing device - Google Patents

Abstract

The utility model relates to the field of socket testing and discloses a socket on-off withstand voltage testing device which comprises a testing module and a power supply mechanism, wherein the power supply mechanism is arranged below the testing module; the test module comprises an insertion piece mounting seat, a first lifting mechanism, an on-off tester and a withstand voltage tester, wherein the on-off tester and the withstand voltage tester are connected with the test module; the power supply mechanism comprises a power supply mounting seat and a second lifting mechanism, and the power supply mounting seat is arranged above the second lifting mechanism and connected with the second lifting mechanism; the test module is matched with the power supply mechanism to complete the test. The utility model realizes the detection automation of the on-off test and the voltage withstanding test of the socket module, greatly improves the detection working efficiency, reduces the working cost, can detect the produced socket module and ensures the quality of the produced socket module.

Description

Socket on-off withstand voltage testing device

Technical Field

The utility model relates to the field of socket testing, in particular to a socket on-off withstand voltage testing device.

Background

The market demand of the power socket is large, the socket module is a core component, the socket is widely applied, and the using amount of the socket is very large. In order to ensure the usability of the socket module, various tests are usually performed before leaving the factory, wherein the on-off test and the voltage withstanding test are key detection links of the socket module. At present, most manufacturers generally adopt a sampling detection mode by a quality inspection department to carry out on-off test and voltage withstanding test on socket products, the test mode may have the possibility of missing detection, and a tester with high voltage electricity which is directly operated manually also has certain potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a socket on-off withstand voltage testing device capable of automatically detecting a socket module.

The technical scheme adopted by the utility model for solving the technical problems is as follows: withstand voltage testing arrangement of socket break-make, its characterized in that: the power supply device comprises a test module and a power supply mechanism, wherein the power supply mechanism is arranged below the test module; the test module comprises an inserting sheet mounting seat and a first lifting mechanism, wherein the inserting sheet mounting seat is arranged below the first lifting mechanism and connected with the first lifting mechanism; the bottom of the inserting piece mounting seat is provided with an inserting piece inserted into an inserting hole on the socket module; the on-off tester is connected with the insert mounting seat on the on-off testing module; the voltage resistance tester is connected with the insert mounting seat on the voltage resistance test module;

the power supply mechanism comprises a power supply mounting seat and a second lifting mechanism, and the power supply mounting seat is arranged above and connected with the second lifting mechanism; the power supply mounting seat comprises a jack and a power supply system, the jack is vertically arranged at the top of the power supply mounting seat, the jack is matched with an electrode sheet arranged at the bottom of the socket module, and the jack is connected with the power supply system.

Further, the method comprises the following steps: the power supply system comprises a power column and a power supply insertion sheet, the power supply insertion sheet is vertically arranged in the insertion hole, the power column is horizontally arranged on the side of the power supply mounting seat, the power column is intersected with the insertion hole, and the power column is connected with the power supply insertion sheet.

Further, the method comprises the following steps: the power supply insertion piece is of a V-shaped structure.

Further, the method comprises the following steps: the automatic lifting device is characterized by further comprising an electric control unit, wherein the electric control unit comprises a PLC (programmable logic controller) and a control circuit thereof, the control circuit is respectively connected with the first lifting mechanism and the second lifting mechanism, and the electric control unit controls the lifting of the first lifting mechanism and the lifting of the second lifting mechanism.

Further, the method comprises the following steps: the test module is provided with a two-hole on-off test module, a three-hole on-off test module and a voltage withstanding test module, and is provided with an insert mounting seat and a first lifting mechanism; the on-off tester is respectively connected with the inserting sheet mounting seat on the two-hole on-off testing module and the inserting sheet mounting seat on the three-hole on-off testing module; the withstand voltage tester is connected with the inserted sheet mount pad on the withstand voltage test module.

Further, the method comprises the following steps: the inserted sheet mount pad is equipped with the hole with the inserted sheet intercommunication, and the inserted sheet mount pad passes through the wire with the break-make tester and is connected, and the inserted sheet mount pad passes through the wire with the withstand voltage tester and is connected.

Further, the method comprises the following steps: first elevating system includes second cylinder connecting seat and test cylinder, and test cylinder's piston and second cylinder connecting seat top are connected, and second cylinder connecting seat bottom is connected with the inserted sheet mount pad.

Further, the method comprises the following steps: the second lifting mechanism comprises a power supply cylinder and a cylinder connecting seat, the bottom of the cylinder fixing connecting seat is connected with a piston of the power supply cylinder, and the top of the cylinder fixing connecting seat is connected with a power supply mounting seat.

Further, the method comprises the following steps: the power supply cylinder is provided with a fixed support fixed with the power supply cylinder.

Further, the method comprises the following steps: the jack is of a V-shaped structure.

The utility model has the beneficial effects that: the utility model comprises a test module and a power supply mechanism, wherein the power supply mechanism is arranged below the test module; the power supply mechanism supplies power to the socket module to be detected, and the test module performs on-off detection and voltage withstanding detection on the socket module; the socket module detection device has the advantages that the detection automation of the on-off test and the voltage withstanding test of the socket module is realized, the detection working efficiency is greatly improved, the working cost is reduced, the produced socket module can be detected, and the quality of the produced socket module is ensured.

Drawings

FIG. 1 is a schematic structural diagram of a socket on-off withstand voltage testing device according to the present invention;

FIG. 2 is a schematic structural diagram of a power supply mechanism according to the present invention;

labeled as: the power supply device comprises a power supply cylinder 1, a first cylinder connecting seat 2, a power supply mounting seat 3, a power column 31, a power supply insertion sheet 32, a jack 33, an insertion sheet mounting seat 4, a second cylinder connecting seat 5, a test cylinder 6, a two-hole on-off test module 71, a three-hole on-off test module 72, a pressure resistance test module 73, a fixed support 8 and a socket module 9.

Detailed Description

The utility model is further described with reference to the following figures and detailed description.

As shown in fig. 1, the socket on-off withstand voltage testing device of the utility model tests a socket module 9 of a socket, wherein a socket on the socket module 9 comprises a two-pole socket consisting of a live pole L and a zero pole N and a three-pole socket consisting of a live pole L, a zero pole N and a ground pole E, and each pole is provided with a corresponding jack; the device comprises a test module and a power supply mechanism, wherein the power supply mechanism is arranged below the test module, and when the socket module 9 is tested, the socket module 9 is positioned between the test module and the power supply mechanism.

The test module comprises an inserting sheet mounting seat 4 and a first lifting mechanism, wherein the inserting sheet mounting seat 4 is arranged below the first lifting mechanism and connected with the first lifting mechanism; the bottom of the inserting piece mounting seat 4 is provided with a plurality of inserting pieces which are inserted into the jacks on the socket module 9, and the number of the inserting pieces corresponds to the number of the jacks; the position of the plug-in sheet is matched with the position of the jack on the socket module 9; the on-off test needs to test the two-pole socket and the three-pole socket respectively, and the two-pole socket is tested firstly, and then the three-pole socket is tested; when testing, the insert below the insert mounting seat 4 is inserted into the jack on the socket module 9. Specifically, the test module is provided with a two-hole on-off test module 71, a three-hole on-off test module 72 and a voltage withstanding test module 73, and is provided with an insertion sheet mounting seat 4 and a first lifting mechanism, so that two-pole sockets and three-pole sockets on the socket module 9 can be tested respectively.

The socket module further comprises an on-off tester and a withstand voltage tester, and the on-off tester and the withstand voltage tester are used for carrying out on-off test and withstand voltage test on the socket module 9. The on-off tester is respectively connected with the inserting piece mounting seat 4 on the two-hole on-off testing module 71 and the inserting piece mounting seat 4 on the three-hole on-off testing module 72; the withstand voltage tester is connected with the insert mounting seat 4 on the withstand voltage testing module 73; the plug-in mounting seat 4 can be provided with a hole for mounting two kinds of testers, the hole can be communicated with the plug-in, and the testers can identify the plug-in by detecting current or voltage.

The power supply mechanism is used for supplying power to the socket module 9 and positioning and moving the socket module, and comprises a power supply mounting seat 3 and a second lifting mechanism, wherein the power supply mounting seat 3 is arranged above the second lifting mechanism and is connected with the second lifting mechanism; the power supply mounting seat 3 comprises a jack 33 and a power supply system, the jack 33 is vertically arranged at the top of the power supply mounting seat 3, the position of the jack 33 is matched with the position of an electrode plate at the bottom of the socket module 9, and the jack 33 is connected with the power supply system;

when the socket module 9 is powered on, the second lifting mechanism power supply mounting base 3 is arranged below the socket module 9, the electrode plate at the bottom of the socket module 9 is arranged in the jack 33, and the electrode plate is connected with a power supply insertion sheet 32 in a power supply system;

when the two-hole on-off test is carried out on the socket module 9, the socket module 9 is electrified, the socket module 9 is arranged on the power supply mounting seat 3, the socket module 9 is positioned below the plug-in mounting seat 4 of the two-hole on-off test module 71, and the plug-in is arranged in the jack of the socket module 9;

when the three-hole on-off test is carried out on the socket module 9, the socket module 9 is electrified, the socket module 9 is arranged on the power supply mounting seat 3, the socket module 9 is positioned below the plug-in mounting seat 4 of the three-hole on-off test module 72, and the plug-in is arranged in a jack of the socket module 9;

when the socket module 9 is subjected to a voltage withstanding test, the socket module 9 is powered on, the socket module 9 is arranged on the power supply mounting base 3, the socket module 9 is positioned below the plug-in mounting base 4 of the voltage withstanding test module 73, and the plug-in is arranged in a jack of the socket module 9.

Specifically, power supply system includes power post 31 and power supply inserted sheet 32, and the vertical setting of power supply inserted sheet 32 is in jack 33, and the level of power post 31 sets up at 3 lateral parts of power supply mount pad, and power post 31 intersects with jack 33, and power post 31 is connected with power supply inserted sheet 32, and is preferred, power supply inserted sheet 32 is V type structure, the direction when being convenient for with the cooperation of 4 below electrode slices of inserted sheet mount pad. The power supply system is a system which is composed of a power supply system and a power transmission and distribution system and is used for generating electric energy and supplying and conveying the electric energy to electric equipment, the power supply system plays a role of electrifying the plug-in mounting seat 4, so that the subsequent test is convenient, the purpose of inputting current or voltage required by the test to the plug-in mounting seat 4 can be achieved, and other forms such as a relay, a triode and the like which are directly or indirectly communicated with the power supply are also included.

The automatic lifting device comprises a first lifting mechanism, a second lifting mechanism and an electric control unit, wherein the first lifting mechanism is connected with the first lifting mechanism, the second lifting mechanism is connected with the second lifting mechanism, and the electric control unit controls the first lifting mechanism to lift and the second lifting mechanism to lift. The action and action holding time of the motion mechanism are adjusted by the PLC, so that the operation is simple and the control is convenient.

Specifically, inserted sheet mount pad 4 is equipped with the hole with the inserted sheet intercommunication, and this hole is used for inserted sheet mount pad 4 to be connected with the tester, makes things convenient for the test of tester, and inserted sheet mount pad 4 passes through the wire with the break-make tester to be connected, and inserted sheet mount pad 4 passes through the wire with the withstand voltage tester to be connected.

Specifically, first elevating system includes second cylinder connecting seat 5 and test cylinder 6, and test cylinder 6's piston is connected with 5 tops of second cylinder connecting seat, and 5 bottoms of second cylinder connecting seat are connected with inserted sheet mount pad 4. The second lifting mechanism comprises a power supply cylinder 1 and a cylinder connecting seat 2, the bottom of the cylinder fixing connecting seat 2 is connected with a piston of the power supply cylinder 1, and the top of the cylinder fixing connecting seat 2 is connected with a power supply mounting seat 3. The lifting mechanism is used for moving each module to complete positioning during testing, and is suitable for achieving the purpose, such as a gear transmission mechanism, a spiral transmission mechanism, a hydraulic cylinder and the like.

Specifically, power supply cylinder 1 is equipped with rather than fixed bolster 8, the fixed of power supply cylinder 1 of being convenient for.

Specifically, the insertion hole 33 is of a V-shaped structure, and the insertion hole 33 is matched with an electrode sheet at the bottom of the insertion sheet mounting seat 4, so that the insertion guide of the electrode sheet and the mounting of the power supply insertion sheet 32 are facilitated; in addition, the power supply insertion sheet 32 is arranged in the insertion hole 33, and the two are V-shaped structures and are mutually adaptive.

When the socket module 9 is tested, the on-off test is performed first, and then the withstand voltage test is performed. Firstly, the socket module is powered on, when the socket module 9 reaches the on-off position, the electric control unit sends a signal, the power supply mechanism drives to move upwards through the power supply cylinder 1, in the operation process, firstly, the power supply mounting seat 3 is in contact with the electrode plate below the socket module 9, the electrode plate is guided through the two jacks 33 on the power supply mounting seat 3, the power supply cylinder 1 continues to extend upwards, the electrode plate slides into the V-shaped jack of the power supply insertion sheet 32 along with the jack 33 slide on the power supply mounting seat 3, when the power supply cylinder 1 reaches the set position, the electrode plate just slides into the V-shaped jack bottom of the power supply insertion sheet 32, the electrode plate is tightly clamped by the power supply insertion sheet 32, the external power supply passes through the power column 3, the power supply insertion sheet 32 supplies power to the socket module, and the power supply is completed.

The on-off test, the socket module 9 is arranged in the on-off test position, when the socket module 9 is powered on, the electronic control unit sends a signal, the two-hole on-off test module 71 is driven to run downwards through the test cylinder 6, in the motion process, the inserting piece below the inserting piece mounting seat 4 is inserted into the inserting hole in the socket module 9, when the test cylinder 6 reaches a preset position, the preparation before the test is completed, and then the detection and the observation are carried out through the on-off tester. After the two-hole on-off test is performed, the test cylinder 6 drives the two-hole on-off test module to return to the original position, then the three-hole on-off test is performed, and the three-hole on-off test module 72 performs the above-mentioned operation.

Withstand voltage test, accomplish the break-make test after, socket module 9 moves to withstand voltage test department, accomplish when socket module 9 circular telegram, withstand voltage test module 73 drives the downward operation through test cylinder 6, in the motion process, the inserted sheet of inserted sheet mount pad 4 below is inserted in the jack on socket module 9, reach preset position when test cylinder 6, prepare before the completion test, then detect, observe through the withstand voltage tester, the test finishes, test cylinder 6 drives withstand voltage test module and returns the original position.

Claims (10)

1. Withstand voltage testing arrangement of socket break-make, its characterized in that: the power supply device comprises a test module and a power supply mechanism, wherein the power supply mechanism is arranged below the test module; the test module comprises an inserting sheet mounting seat (4) and a first lifting mechanism, wherein the inserting sheet mounting seat (4) is arranged below the first lifting mechanism and is connected with the first lifting mechanism; the bottom of the inserting piece mounting seat (4) is provided with an inserting piece inserted into an inserting hole on the socket module (9); the on-off tester is connected with the insert mounting seat (4) on the on-off testing module, and the voltage-resistant tester is connected with the insert mounting seat (4) on the voltage-resistant testing module;

the power supply mechanism comprises a power supply mounting seat (3) and a second lifting mechanism, and the power supply mounting seat (3) is arranged above the second lifting mechanism and connected with the second lifting mechanism; the power supply mounting seat (3) comprises a jack (33) and a power supply system, the jack (33) is vertically arranged at the top of the power supply mounting seat (3), the jack (33) is matched with an electrode sheet arranged at the bottom of the socket module (9), and the jack (33) is connected with the power supply system.

2. The apparatus according to claim 1, wherein: the power supply system comprises a power column (31) and a power supply insertion sheet (32), the power supply insertion sheet (32) is vertically arranged in a jack (33), the power column (31) is horizontally arranged on the side of the power supply mounting seat (3), the power column (31) is intersected with the jack (33), and the power column (31) is connected with the power supply insertion sheet (32).

3. The apparatus according to claim 2, wherein: the power supply insertion sheet (32) is of a V-shaped structure.

4. The apparatus according to claim 1, wherein: the automatic lifting device is characterized by further comprising an electric control unit, wherein the electric control unit comprises a PLC (programmable logic controller) and a control circuit thereof, the control circuit is respectively connected with the first lifting mechanism and the second lifting mechanism, and the electric control unit controls the lifting motion of the first lifting mechanism and the lifting motion of the second lifting mechanism.

5. The apparatus according to claim 1, wherein: the test module is provided with a two-hole on-off test module (71), a three-hole on-off test module (72) and a pressure resistance test module (73), and is provided with an insert mounting seat (4) and a first lifting mechanism; the on-off tester is respectively connected with the inserting piece mounting seat (4) on the two-hole on-off testing module (71) and the inserting piece mounting seat (4) on the three-hole on-off testing module (72); the withstand voltage tester is connected with the insert mounting seat (4) on the withstand voltage test module (73).

6. The apparatus according to claim 1, wherein: inserted sheet mount pad (4) are equipped with the hole with the inserted sheet intercommunication, and inserted sheet mount pad (4) pass through the wire with the break-make tester and are connected, and inserted sheet mount pad (4) pass through the wire with the withstand voltage tester and are connected.

7. The apparatus according to claim 1, wherein: first elevating system includes second cylinder connecting seat (5) and test cylinder (6), and the piston and the second cylinder connecting seat (5) top of test cylinder (6) are connected, and second cylinder connecting seat (5) bottom is connected with inserted sheet mount pad (4).

8. The apparatus according to claim 1, wherein: the second lifting mechanism comprises a power supply cylinder (1) and a cylinder connecting seat (2), the bottom of the cylinder fixing connecting seat (2) is connected with a piston of the power supply cylinder (1), and the top of the cylinder fixing connecting seat (2) is connected with a power supply mounting seat (3).

9. The apparatus according to claim 8, wherein: the power supply cylinder (1) is provided with a fixed support (8) fixed with the power supply cylinder.

10. The socket on-off withstand voltage testing device according to any one of claims 1 to 9, wherein: the jack (33) is of a V-shaped structure.

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