DE212018000036U1 - Electrical test device for printed circuit boards - Google Patents

Abstract

Electrical test apparatus for printed circuit boards, characterized in that it comprises a table (1), a support plate (2), a support plate (3), a test needle (4) and a stop rod (5), wherein the support plate is located above the table, while the support plate is located above the support plate, wherein on the support plate a plurality of printed circuit boards (6) are placeable, and wherein the test needle is located above printed circuit boards, wherein the lower end of the stop rod is attached to the table, wherein the upper end of the stop rod by the support plate and the support plate pass, the abutment rod abuttingly contacting the edge of the printed circuit boards placed on the support plate, and wherein between the support plate and the support plate a first elastic connection element is arranged, while between the support plate and the table a second elastic connection element is arranged;
the test needle being fixed to the connecting member (7) rotatably connected to the base (8), and above the table, a lifting drive mechanism for driving a raising and lowering movement of the base in an upward and downward direction;
wherein an engagement groove (81) is provided on the base and a mounting hole (811) is provided on the underside of the engagement groove, wherein an elastic detent member is installed inside the mounting hole, and an inward recessed positioning pit (71) is provided on a side wall of the connector member. is provided, wherein the elastic latching element has a projection (8121), and wherein the projection is clamped in the positioning pit, in order to realize a positioning of the connecting element;
wherein the test apparatus further comprises a controller (9), and wherein the lift drive mechanism and the test needle are each electrically connected to the controller.

Description

Field of the invention

The present invention is in the technical field of test equipment and more particularly relates to an electrical test apparatus for printed circuit boards.

State of the art

A printed circuit board is also referred to as PCB (Printed Circuit Board) and is an important electronic component. In the circuit board manufacturing process, it is inevitable that an external factor may result in a short circuit, an open circuit, an electrical leak, or other electrical defects. In addition, the circuit boards are constantly evolving according to the trend that they have a high density, a small distance and more layers. If a faulty circuit board is not excluded in time and gets into a next production process, this inevitably causes a greater cost waste. Moreover, in addition to controlling the production process, it is also necessary to improve the testing technique for the circuit boards in order to increase the product yield.

At present, a manual test is usually performed for each board to determine if the circuits of the respective parts of the board have an abnormality. However, some electrical tests are high voltage tests which, due to a very high test voltage, pose an extremely high safety risk for the test personnel. In addition, it may easily come at a contact between the test needle and the circuit board due to an excessive force to damage the test needle or the circuit board.

Object of the invention

The main object of the present invention is to provide an electrical test apparatus for printed circuit boards, which not only improves the safety in the inspection of a printed circuit board and the inspection efficiency and the quality of the printed circuit board is ensured, but also effectively prevents damage in the test process of the circuit board ,

In order to solve the above-mentioned technical problem, the present invention provides the following technical solution, namely, a circuit board electrical tester comprising a table, a support plate, a support plate, a test needle and a stopper rod, the support plate being above the table is located while the support plate is above the support plate, wherein on the support plate a plurality of circuit boards can be placed, and wherein the test needle is then above the correspondingly placed circuit board. The lower end of the stopper rod is fixed to the table and the upper end of the stopper rod passes through the support plate and the carrier plate, the stopper rod abuttingly contacts the edge of the placed printed circuit boards, and wherein between the carrier plate and the support plate a first elastic connecting element is arranged while between the support plate and the table, a second elastic connecting element is arranged.

The test needle is fixed to the connecting member which is rotatably connected to the base, wherein above the table, a lifting drive mechanism is arranged, which serves to drive a lifting and lowering movement of the base in an upward and downward direction.

On the base, an engagement groove is provided, wherein on the underside of the engagement groove, a mounting hole is provided, wherein inside the mounting hole, an elastic locking element is installed, wherein on a side wall of the connecting element an inwardly recessed Positioniergrube is provided, wherein the resilient locking element has a projection and wherein the projection is clamped in the positioning pit to realize positioning of the connecting element.

The test apparatus further includes a controller, wherein the lift drive mechanism and the test needle are each electrically connected to the controller.

Preferably, the resilient detent member further comprises a pressure element and a positioning spring, wherein the pressure element has the projection, and wherein the positioning spring between the pressure element and the underside of the mounting hole, so that the projection protrudes on the mounting hole.

Preferably, the lift drive mechanism comprises a screw and a lift drive motor for driving the lift and lower movement of the base in the up and down direction, the lift drive motor being fixed to the table, and an output shaft of the lift drive motor being connected to a screw this screw is connected to the base.

Preferably, the tester fermer comprises a guide rod, wherein on the surface of the guide rod, a guide rail along the upward and downward direction is arranged, and wherein a guide structure matched to the guide rail is arranged on the base, so that the base can be moved along the direction of the guide rail.

Preferably, a shaft hole is provided on both sidewalls of the engagement groove, the connector being provided with a connection hole, the connector being inserted in the engagement groove, and a rotation shaft passing through the connection hole and the shaft hole to realize that the connection member is rotatable connected to the base.

Preferably, the first elastic connecting element and the second elastic connecting element are each a support spring, wherein the support spring is placed on the stop rod.

The test apparatus according to the present invention has at least the advantages described below.

In the test apparatus according to the present invention, a plurality of circuit boards may be placed on the support board with the test pin located above the printed circuit boards and with the test pin attached to the connection element with the connection element connected to the base and above the table a lift drive mechanism is arranged which during the testing of a printed circuit board for driving a lifting and lowering movement of the base in an upward and downward movement is arranged so that the operator need not touch the circuit board in the testing process. Automated control is used throughout the inspection process to save manpower and increase test efficiency.

According to the present invention, an engagement groove is provided on the base, wherein a mounting hole is provided on the underside of the engagement groove, wherein inside the mounting hole, an elastic locking element is installed, wherein on a side wall of the connecting element, an inwardly recessed positioning pit is provided, and wherein the elastic latching element has a projection, wherein the projection is clamped in the positioning pit in order to realize a positioning of the connecting element. With too much contact force between the test needle and the circuit board, the projection can slide out of the positioning pit, and rotation occurs between the connection member and the base, whereby damage to the circuit board can be effectively prevented.

According to the present invention, a first elastic connecting element is arranged between the carrier plate and the support plate, while a second elastic connecting element is arranged between the supporting plate and the table, the first elastic connecting element and the second elastic connecting element each being a supporting spring. wherein the support spring can provide a buffering function for the printed circuit board placed on the carrier board to prevent damage to the printed circuit board caused by the test needle when the test needle and the circuit board come into contact with each other.

According to the present invention, a plurality of circuit boards may be placed on the support plate, with the upper end of the abutment rod passing through the support plate and the support plate and the abutment rod abutting the edge of the circuit boards placed on the support plate, whereby a plurality of circuit boards can be placed simultaneously so that Repeated placement by the operating staff can be avoided and thus the workload can be reduced.

list of figures

• 1 shows a schematic structural view of a preferred embodiment of the test apparatus according to the present utility model,
• 2 shows a schematic structural view of a base of the embodiment of the test apparatus according to the present utility model,
• 3 shows a cross-sectional view of the base of the embodiment of the test apparatus according to the present utility model and
• 4 shows a schematic structural view of a connecting element of the embodiment of the test apparatus according to the present utility model.

• Tisch 1, Stützplatte 2, Trägerplatte 3, Prüfnadel 4, Anschlagstange 5, Leiterplatte 6, Verbindungselement 7, Positioniergrube 71, Verbindungsloch 72, Basis 8, Eingriffsrille 81, Montageloch 811, Druckelement 812, Vorsprung 8121, Positionierfeder 813, Wellenloch 814, Schraube 82, Hebeantriebsmotor 83, Führungsstange 84, Führungsschiene 841, Steuergerät 9, Stützfeder 10.

The accompanying drawings include the following reference numerals:

• table 1 , Support plate 2 , Support plate 3 , Test needle 4 , Stop rod 5 , Circuit board 6 , Connecting element 7 , Positioning pit 71 , Communication hole 72 , Base 8th , Engaging groove 81 , Mounting hole 811 , Pressure element 812 , Head Start 8121 , Positioning spring 813 , Shaft hole 814 , Screw 82 , Lift drive motor 83 , Guide rod 84 , Guide rail 841 , Control unit 9 , Support spring 10 ,

Detailed Description of the Preferred Embodiment

With reference to the figures, the preferred embodiment of the present invention will be explained in more detail below, so that the advantages and features of the present invention will be more easily understood by those skilled in the art.

An inventive electrical test device for a printed circuit board, as shown in 1 to 4 is shown comprises a table 1 , a support plate 2 , a support plate 3 , a test needle 4 and a stopper rod 5 , with the support plate 2 above the table 1 is located while the carrier plate 3 above the support plate 2 being, being on the carrier plate 3 Several printed circuit boards can be placed so that the test needle 4 above the top PCB 6 located. The lower end of the stop rod 5 is at the table 1 attached and the top end of the stop bar 5 goes through the support plate 2 and the carrier plate 3 through, leaving the stopper rod 5 the edge of the placed circuit boards 6 touched thrusting. Between the carrier plate 3 and the support plate 2 a first elastic connecting member is disposed while between the support plate 2 and the table 1 a second elastic connecting element is arranged.

The test needle 4 is on the connecting element 7 attached, rotatable with the base 8th connected, and above the table 1 is a lifting drive mechanism for driving a lifting and lowering movement of the base 8th arranged in the up and down direction.

At the base 8th is an engagement groove 81 provided, wherein at the bottom of the engagement groove 81 a mounting hole 811 is provided, and wherein inside the mounting hole 811 an elastic locking element is installed, wherein on a side wall of the connecting element 7 an inwardly recessed positioning pit 71 is provided, wherein the elastic locking element has a projection 8121 and wherein the projection 8121 in the positioning pit 71 is trapped to a positioning of the connecting element 7 to realize.

The tester also includes a controller 9 , wherein the lift drive mechanism and the test needle 4 each with the control unit 9 are electrically connected.

The elastic latching element further comprises a pressure element 812 and a positioning spring 813 , wherein the pressure element 812 the lead 8121 and wherein the positioning spring 813 between the pressure element 812 and the underside of the mounting hole 811 so that the lead 8121 at the mounting hole 811 protrudes.

The lift drive mechanism includes a screw 82 and a lift drive motor 83 for driving the lifting and lowering movement of the base 8th in the up and down direction, the lift drive motor 83 at the table 1 is fixed, and wherein an output shaft of the lift drive motor 83 with the screw 82 is connected, with the screw 82 with the base 8th connected is.

The testing device further comprises a guide rod 84 , being on the surface of the guide rod 84 a guide rail 841 along the upward and downward directions, and at the base 8th one on the guide rail 841 coordinated management structure is arranged so that the base 8th along the direction of the guide rail 841 can be moved.

On the two side walls of the engagement groove 81 is a shaft hole 814 provided, wherein the connecting element 7 with a connection hole 72 is provided, and wherein the connecting element 7 into the engagement groove 81 is inserted, and wherein a rotary shaft through the connection hole 72 and the shaft hole 814 goes through to realize that the connecting element 7 rotatable with the base 8th connected is.

Preferably, the first elastic connecting element and the second elastic connecting element are each a support spring 10 , wherein the support spring 10 on the stop rod 5 is attached.

The operation of the test device according to the invention is based on the operating principle explained below. Several circuit boards are manually placed on the carrier plate, after which the lift drive mechanism, under the control of the controller, lowers the test pin to test the circuit board. The support spring provides a specific buffer function. After the finished test, the base lifts under the action of the lift drive mechanism and then the top layer tested board is manually removed and the board of the underlying layer is subsequently tested, thereby improving board test security and test efficiency, thus improving the quality of the board PCB can be ensured.

The above explanations are merely illustrative of the present invention with reference to a preferred embodiment. However, the scope of protection of the application is not limited thereto. All structurally equivalent embodiments or direct or indirect applications in other related technical fields which will become apparent to those skilled in the art from the description and the figures, are also subject matter of the present invention.

Claims (6)

Electrical test apparatus for printed circuit boards, characterized in that it comprises a table (1), a support plate (2), a support plate (3), a test needle (4) and a stop rod (5), wherein the support plate is located above the table, while the support plate is located above the support plate, wherein on the support plate a plurality of printed circuit boards (6) are placeable, and wherein the test needle is located above printed circuit boards, wherein the lower end of the stop rod is attached to the table, wherein the upper end of the stop rod by the support plate and the support plate pass, the abutment rod abuttingly contacting the edge of the printed circuit boards placed on the support plate, and wherein between the support plate and the support plate a first elastic connection element is arranged, while between the support plate and the table a second elastic connection element is arranged; the test needle being fixed to the connecting member (7) rotatably connected to the base (8), and above the table, a lifting drive mechanism for driving a raising and lowering movement of the base in an upward and downward direction; wherein an engagement groove (81) is provided on the base and a mounting hole (811) is provided on the underside of the engagement groove, wherein an elastic detent member is installed inside the mounting hole, and an inward recessed positioning pit (71) is provided on a side wall of the connector member. is provided, wherein the elastic latching element has a projection (8121), and wherein the projection is clamped in the positioning pit, in order to realize a positioning of the connecting element; wherein the test apparatus further comprises a controller (9), and wherein the lift drive mechanism and the test needle are each electrically connected to the controller. Electrical tester for printed circuit boards after Claim 1 characterized in that the resilient detent member further comprises a pressure member (812) and a positioning spring (813), the pressure member having the projection, and wherein the positioning spring is located between the pressure member and the bottom of the mounting hole such that the projection on the Mounting hole protrudes. Electrical tester for printed circuit boards after Claim 1 characterized in that the lift drive mechanism comprises a screw (82) and a lift drive motor (83) for driving the lift and lower movement of the base in the up and down direction, the lift drive motor being fixed to the table, and an output shaft of the lift drive motor is connected to the screw while the screw is connected to the base. Electrical tester for printed circuit boards after Claim 3 characterized in that the test apparatus further comprises a guide bar (84), wherein on the surface of the guide bar a guide rail (841) is arranged along the up and down direction, and wherein a guide structure tuned to the guide rail is arranged on the base that the base can be moved along the direction of the guide rail. Electrical tester for printed circuit boards after Claim 1 characterized in that a shaft hole (814) is provided on the two side walls of the engagement groove, the connection member being provided with a connection hole (72), the connection member being inserted in the engagement groove, and a rotation shaft through the connection hole and the shaft hole goes through to realize that the connecting element is rotatably connected to the base. Electrical tester for printed circuit boards after Claim 1 , characterized in that it is in the first elastic connecting element and the second elastic connecting element in each case a support spring (10), wherein the support spring is placed on the stop rod.

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