KR100809578B1 - Contact probe - Google Patents

Abstract

A test probe device is provided to decrease signal pass of the applied current by integrating a receiving unit at the lower part of a probe unit and using conductive rubber as an elastic unit. A test probe device is composed of a probe unit(100) contacting to a contact terminal of an object; a cylinder-shaped receiving unit(200) integrally extended at the lower part of the probe unit and including a receiving groove recessed at the inside; cylinder-shaped conductive rubber(300) of which a portion is inserted and fixed in the receiving groove to provide elastic power; and a fixing unit(204) pressed at the end of the receiving unit to fix the conductive rubber. Current flows from the object to the lower part of the conductive rubber.

Description

Inspection probes

1 is a state diagram showing a state of inspecting an inspection object using a conventional inspection probe device.

2 is a cross-sectional view showing a conventional inspection probe device.

Figure 3 is a perspective view showing the inspection probe device according to an embodiment of the present invention.

Figure 4 is an exploded perspective view showing the inspection probe device according to an embodiment of the present invention.

5 is a cross-sectional view showing that the inspection probe device according to an embodiment of the present invention is mounted to the inspection socket.

<Explanation of symbols for main parts of drawing>

100: probe 102: projection

104: locking jaw 200: receiving portion

202: receiving groove 204: fixing part

300: conductive rubber

The present invention relates to an inspection device for inspection, and more particularly, is formed in the lower portion of the probe that is in contact with the contact terminal of the inspection object and the cylindrical receiving portion and the receiving groove therein is partially inserted into the receiving groove. The inspection probe device, characterized in that made of a cylindrical conductive rubber fixed to provide an elastic force.

Generally, many chips are mounted in various kinds of electronic products, and these chips play an important role in determining the performance of electronic products.

Chips are integrated circuits that perform various functions due to logic elements formed on a thin and small plate surface, and electrical signals transmitted from a circuit engine are transmitted through a bus to accomplish this operation.

A printed circuit board (PCB) is formed by coating copper on a thin substrate made of epoxy or bakelite resin, which is an insulator, to form circuit wiring, and includes electrical components such as integrated circuits, resistors, and switches. It is installed on a printed circuit board by being soldered on the circuit wiring.

Micro-chip is a chip made by densely integrated electronic circuits of such a circuit board, and it is essential to inspect the process by an inspection device to check whether a chip is mounted in an electronic product before it is assembled. It goes through.

In this test method, there is a method of performing a test by mounting a chip in a test socket device, and a test probe device is used to check the chip without damaging the chip in the socket device.

1 is a state diagram showing a state of inspecting an inspection object using a conventional inspection probe device.

As shown in the drawing, an inspection socket 3 is mounted on the inspection circuit board 4, and the microchip 1, which is an inspection object, is placed on the upper portion of the socket 3 so as to be inspected.

The inspection socket 3 is equipped with a plurality of inspection probes 5, and a contact pin 6 is connected to the lower end of the probe.

The current from the microchip flows to the circuit board side through the contact pins of the probe body and the lower end of the probe, with the tip of the probe 5 being in contact with various points of the microchip for inspection. The inspection of the can be performed.

2 is a cross-sectional view showing a conventional inspection probe device.

As shown in the drawing, the outer cylinder 8 and the inspection probe 7 installed to be slidably movable in the outer cylinder 8 are formed, and a contact pin 7 is formed at the lower end of the outer cylinder 8 and the outer cylinder ( 8) A compression coil spring 9 is accommodated therein to elastically support the probe 7.

When the microchip is inspected through such a configuration, the microchip is seated on the upper part of the socket for inspection, and the pressurization portion installed in the socket presses the microchip downward so that the microchip comes into contact with the probe of the probe.

However, such a conventional technique is that the current applied to the probe is transmitted by the external cylinder and the contact through the spring, so that the contact resistance is large and the elastic force of the spring due to the overcurrent is reduced, or the signal pass of the applied current is increased. There is a problem of low reliability.

Korean Patent Application Registration No. 0303404404, Registration No. 0281253, etc., which have improved such a probe device, have been proposed to use a conductive spring or a silicon portion having conductivity.

However, the conventional techniques are composed of the probe portion, the outer cylinder, the spring and the connection pins, and the structure thereof is complicated, and thus there is a difficulty in manufacturing, and there is still a problem that the reliability of the inspection is low due to the long signal path.

In addition, when the conductive material is used, frequent replacement is required due to the low durability of the conductive material, and thus there is a problem in that inspection efficiency is lowered.

The present invention has been made to solve the above problems, the present invention adopts a simple structure to reduce the signal path and to minimize the damage of the elastic portion due to the overcurrent to provide an inspection probe device for improving the reliability of the inspection There is this.

Another object of the present invention is to provide a test probe device for improved durability.

In order to achieve the above object, the present invention includes a probe that is in contact with the contact terminal of the inspection object; A cylindrical accommodating part integrally formed at the lower part of the probe part and having an accommodating groove formed therein; A cylindrical conductive rubber having a portion inserted and fixed in the receiving groove to provide an elastic force; And a fixing part formed by pressing to fix the conductive rubber to the end of the receiving part.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 and 4 are a perspective view and an exploded perspective view showing the inspection probe device according to an embodiment of the present invention.

As shown, the present invention comprises a probe part 100 and a receiving part 200 integrally formed under the probe part 100 and a conductive rubber 300 inserted into the receiving part.

The probe unit 100 has one or more protrusions 102 having a sharp top surface directly contacting the contact terminals of the test object.

The probe unit 100 is connected to a microchip, and the shape of the protrusion 102 of the probe unit 100 and a method of manufacturing the probe unit 100 have been proposed because many prior art materials and prior arts have been proposed. It will be omitted.

Next, the receiving unit 200 will be described.

Unlike the conventional method, the accommodating part 200 extends under the probe part 100 and has an accommodating groove 202 formed therein so that one side thereof is opened, and the conductive rubber 300 is formed. In order to provide elastic force to the probe, a portion is formed in a cylindrical shape and coupled to a receiving groove 202 formed in the receiving part 200.

In addition, the receiving groove 202 formed in the receiving part 200 is formed to fix the conductive rubber 300, and accommodates the upper portion of the conductive rubber 300 for a predetermined period and is interposed with the conductive rubber. It is desirable to join in a fit.

In addition, various methods have been proposed for the conductive rubber 300, and in particular, in order to impart conductivity to the polymer elastomer resin, as a conductive filler, fine metallic powders such as carbon black and graphite may be uniformly dispersed. Alternatively, by adding an excess filler to the silicon sheet, a method of making the silicon sheet conductive is used, and the conductive rubber produced by the conventional technology is excellent in elasticity and can pass a test current. The present invention makes use of this property.

Therefore, unlike the conventional spring portion consisting of a compression coil spring is made of a conductive rubber of a cylindrical shape to improve the durability of the probe device while providing an elastic force to the inspection device.

The accommodating part 200 includes a fixing part 204 formed by compressing an end of the accommodating part 200 to fix the conductive rubber 300 and to be constrained to the socket of the probe device. It is preferable that the locking step 104 is formed along the outer circumferential surface of the probe unit 100.

Since the forming of the fixing part 204 uses a conventional technique such as a method of compressing the end of the receiving part 200 by using the pressure connector, detailed description thereof will be omitted.

In addition, the fixing portion 204 formed at the end of the receiving portion 200 is preferably molded by inserting the conductive rubber into the receiving groove 202 and pressing the end of the receiving portion to the inner peripheral surface.

Next, a specific aspect of use of the present invention will be described.

5 is a cross-sectional view showing that the inspection probe device according to an embodiment of the present invention is mounted to the inspection socket.

As shown in the drawing, the inspection probe device is coupled to the inspection socket 3 and constrained to the socket by a catching jaw 104 formed on the outer circumferential surface of the probe, and the pressing part installed in the socket 3 is a microchip. By pressing downward, the microchip comes into contact with the probe portion of the probe device.

When the probe is in contact with the connecting portion 2 of the microchip, the conductive rubber of the probe moves downward, and when the inspection is completed, the probe moves upward again by the elastic force. In this case, the probe is configured to be constrained to the socket by a locking step formed on the outer circumferential surface of the probe.

As described above, it can be seen that the present invention provides the basic technical idea of providing an inspection probe device configured of an elastic portion made of conductive rubber, and within the scope of the basic idea of the present invention, the conventional art Of course, many other variations are possible for the knowledgeable.

As described above, in the present invention, the receiving part is integrally formed at the lower part of the probe part, and the conductive rubber is used as the elastic part to reduce the signal path of the applied current and prevent breakage of the elastic part due to overcurrent, thereby improving reliability of the inspection. Can be.

In addition, the present invention has an advantage that can provide a test probe device for improving the durability by connecting the probe to the end of the conductive rubber providing an elastic force.

Claims (4)

A probe part in contact with the contact terminal of the inspection object; A cylindrical accommodating part integrally formed at the lower part of the probe part and having an accommodating groove formed therein; A cylindrical conductive rubber having a portion inserted and fixed in the receiving groove to provide an elastic force; It consists of a fixed portion formed by pressing to secure the conductive rubber to the end of the receiving portion, An inspection probe device, characterized in that configured to allow a current to flow from the inspection object to the lower portion of the conductive rubber. The method of claim 1, The probe unit, An inspection probe device, characterized in that one or more protrusions having a sharp pointed upper surface directly contacting the contact terminal of the inspection object on the upper portion. delete The method of claim 1, The probe unit, Inspection probes, characterized in that the locking step is formed along the outer circumferential surface of the probe to be bound to the socket of the probe device.

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