KR102536724B1 - Carrier device for substrate inspection using magnetic repulsive force - Google Patents

Abstract

The present invention relates to a carrier device for inspecting a substrate capable of supporting a substrate to be inspected to be level with a plurality of probes descending from the top by supporting the substrate using a magnetic repulsive force, wherein the substrate to be inspected can be placed and fixed. An upper plate disposed under the upper plate and configured to allow a predetermined magnetic repulsive force to act between the upper plate and the intermediate plate, and a predetermined magnetic force disposed under the intermediate plate and disposed between the intermediate plate and the intermediate plate. It includes a base plate configured to act on the repulsive force, and a plurality of magnetic bodies forming upper and lower magnetic repulsive forces with the same polarity are installed on the lower surface of the upper plate and the upper surface of the intermediate plate, respectively, and the upper surface of the base plate And a plurality of magnetic bodies forming upper and lower magnetic repulsive forces with the same polarity are respectively installed on the lower surface of the intermediate plate, wherein the plurality of magnetic bodies are permanent magnets or electromagnets of the same polarity Provide a carrier device for substrate inspection do.

Description

Carrier device for substrate inspection using magnetic repulsive force

The present invention relates to a carrier device for inspecting a substrate, and more particularly, supports the substrate to be inspected using a magnetic repulsive force so that the substrate to be inspected is completely contacted horizontally in response to a plurality of probes descending from the top. It relates to a carrier device.

Recently, as the number of components mounted on boards increases and circuits are highly integrated, the number of electrodes arranged to mount components and contacts connected to other boards is gradually increasing. It is recognized as one of the most important processes.

For this purpose, the substrate inspection apparatus is a test head having a plurality of contact parts (eg, probes) so as to simultaneously contact a plurality of electrodes of the substrate to be inspected and test the state of each electrode and each part of the substrate to be inspected. In correspondence with the substrate inspection device, the substrate to be inspected may be supported by a predetermined carrier device. At this time, each electrode of the substrate to be inspected placed on the carrier device and the probes of the inspection head must be electrically connected by accurately contacting each other. In this process, the inspection head presses the substrate to be inspected with a predetermined pressure.

However, if the inspection head and the substrate to be inspected are not parallel to each other and are slightly tilted (in this specification, it is defined as "out of level"), when the inspection head is pressed toward the substrate to be inspected, at least one A portion of the electrode-contact portion pair where force is concentrated occurs, and the substrate to be inspected or the electrode may also be damaged in that portion.

In order to solve this uneven problem, Patent Publication No. 2000-0005901 (name: carrier board for testing of IC devices) (hereinafter referred to as 'prior art') is known, and in this prior art, Disclosed is a configuration in which a carrier device is floated by a spring. According to this configuration, when the test head is pressed against the substrate to be inspected, the spring is compressed more in the part where the force is concentrated and the spring is less compressed in the part where the force acts weakly, so that the pressing force is distributed to the object to be inspected. Damage to the substrate or electrode can be prevented. In particular, even if the inspection head and the substrate to be inspected are not level, they can be leveled according to the degree of compression of the spring, so that the electrodes of the inspection head and the electrodes of the substrate to be inspected can make good contact.

However, in the carrier device using the above spring, the elasticity of the spring may be weakened over time, and as the spring is worn due to friction between the spring and the surrounding guide members, the spring-based support function of the carrier device as a whole can lead to problems that weaken the

The present invention has been developed to solve the above problems, and an object of the present invention is to provide a carrier device configured to support a substrate to be inspected using a repulsive force between magnetic bodies instead of a substrate supporting structure using a spring.

According to one aspect of the present invention for achieving the above object, a carrier device supporting a substrate to be inspected so as to remain horizontal with the probes corresponding to a plurality of probes of a substrate inspection apparatus, and placing the substrate to be inspected An upper plate configured to be fixed, an intermediate plate disposed under the upper plate, and a base plate disposed under the intermediate plate, wherein the lower surface of the upper plate and the upper surface of the intermediate plate have the same polarity as each other. A plurality of magnetic bodies forming lower and lower magnetic repulsive forces are respectively installed, and a plurality of magnetic bodies forming upper and lower magnetic repulsive forces with the same polarity are respectively installed on the upper surface of the base plate and the lower surface of the intermediate plate. To, there is provided a carrier device for inspecting a substrate using a magnetic repulsive force.

According to the present invention, the plurality of magnetic bodies may be permanent magnets or electromagnets of the same polarity, and in particular, in the case of using the magnetic repulsive force of the electromagnet, the contact strength corresponding to the pressure of the plurality of probes is increased by controlling the power applied to the magnets. It can be controlled in various ways.

According to the present invention, it is preferable that the upper plate and the middle plate are provided surrounded by a fence frame having a certain height fixed on the base plate. Here, the intermediate plate is maintained at an upper portion spaced apart from the upper surface of the base plate at a predetermined interval so that magnetic materials can be repelled between the base plate and each side end of the width end on both sides of the center of the length of the intermediate plate It is preferable that holding protrusions are formed on the base plate, and each holding protrusion is inserted into the guide groove of the stepper fixed to the surface of the base plate or to both ends of the fence frame on the base plate to be maintained in an elevating state. In addition, the upper plate is maintained at an upper part spaced apart from the upper surface of the intermediate plate at a predetermined interval so that tilting by the repulsive force of the magnetic bodies between the intermediate plate and the upper plate is maintained, and is inserted into each side end of both length ends in the center of the width of the upper plate It is preferable that grooves are formed, and holding protrusions of steppers fixed on the intermediate plate are inserted into respective fitting grooves and maintained in a rotatable state.

As described above, the present invention eliminates the existing support structure using springs and adjusts the left and right angles of the substrate to be inspected using the magnetic repulsive force between the magnetic bodies over three stages, so that a plurality of probes descending from the top It is possible to more smoothly adjust the angle of the substrate to be inspected so as to keep the substrate horizontal. Thus, more efficient and perfect contact between the plurality of probes of the substrate inspection apparatus and the plurality of electrodes of the electrode pad of the substrate to be inspected can be ensured.

In addition, since the present invention excludes the existing support structure using a spring, problems such as weakening of the spring force due to long-term use or weakening of the support function due to deterioration of the spring such as wear and tear can be prevented, and moreover, compared to the existing spring support structure. It is also possible to design slim and durable devices.

In addition, in the case of using the magnetic repulsive force of an electromagnet in the carrier device for substrate inspection of the present invention, the magnetic repulsive force can be arbitrarily adjusted by controlling the power applied to the magnet, so that the contact strength corresponding to the pressure of the plurality of probes can be varied. control, and can actively respond to various inspection target substrates. In addition, even if the inspection head and the inspection target substrate are not level in various forms, it can effectively respond.

1 is an external perspective view of a carrier device for inspecting a substrate according to the present invention;
Figure 2 is an exploded perspective view of a part of the configuration of the carrier device for substrate inspection according to Figure 1;
Figure 3 is a coupling arrangement of a part of the configuration of the carrier device for substrate inspection according to Figure 2,
4 is a cross-sectional view taken along line AA of a part of the carrier device for inspecting a substrate according to FIG. 2;
Fig. 5 is a cross-sectional view along line BB of a part of the carrier device for inspecting a substrate according to Fig. 2;

Hereinafter, the present invention will be described in more detail through the accompanying drawings and embodiments.

In the following embodiments, the drawings and descriptions are omitted except for essential parts in describing the invention, and the same reference numerals are assigned to the same and similar elements throughout the specification, and detailed descriptions thereof will be omitted without repetition. do.

1 is an external perspective view of a carrier device for substrate inspection according to the present invention, FIG. 2 is an exploded perspective view of a part of the configuration of the carrier device for substrate inspection according to FIG. 1, FIG. 3 is a combined arrangement view of the device configuration according to FIG. 2, FIG. is a cross-sectional view of the device configuration according to FIG. 2 along line A-A, and FIG. 5 is a cross-sectional view along line B-B of the device configuration according to FIG.

The carrier device for inspecting a substrate according to the present invention moves a plurality of probes from top to bottom to contact a predetermined position of a substrate to be inspected, that is, a plurality of electrodes on an electrode pad, corresponding to the inspection device (not shown). It is configured to support the target substrate and balance the inspection target substrate using magnetic repulsive force. Here, the magnetic repulsive force refers to the pushing force acting between a plurality of magnetic bodies, and the inspection target pushed up by this magnetic repulsive force. Each electrode on the electrode pad maintains a horizontal state with each probe of the inspection head, so that perfect electrical contact can be made. Although not shown in the drawings, each of the probes provided in the inspection head of the inspection device may be provided in an arbitrary form of protruding structure or may be a pogo pin having a predetermined buffering means therein, and this structure is an electrode The same can be applied to the electrodes of the pad.

According to one embodiment of the present invention, the carrier device for inspecting a substrate may have a configuration using magnetic repulsive force over a total of three stages, and with a configuration in which these three stages of magnetic repulsive force act, ) An upper plate 100 configured to be placed and fixed, and an intermediate plate 200 disposed under the upper plate 100 and configured to allow a predetermined magnetic repulsive force to act between the upper plate 100 and the upper plate 100 and a base plate 300 disposed under the intermediate plate 200 and configured to allow a predetermined magnetic repulsive force to act between the intermediate plate 200 and the intermediate plate 200 .

The upper plate 100 and the middle plate 200 are configured to allow magnetic repulsive force to act between them, and the upper and lower surfaces of the upper plate 100 and the upper surface of the intermediate plate 200 have the same polarity. A plurality of magnets 110 and 210 forming a magnetic repulsive force may be respectively installed.

In addition, the base plate 300 and the intermediate plate 200 are also configured to allow magnetic repulsive force to act between them, and the upper surface of the base plate 300 and the lower surface of the intermediate plate 200 have the same polarity as each other, A plurality of magnetic bodies 310 and 220 forming a lower magnetic repulsive force may be respectively installed.

Here, the magnetic bodies 110, 210, 220, and 310 may be permanent magnets of the same polarity or electromagnets capable of adjusting magnetic force. In particular, in the case of an electromagnet, since the degree of repulsive force can be arbitrarily controlled by adjusting the applied current intensity, tilting for adjusting the horizontality or angle of the substrate to be inspected for each probe of the inspection device is more easily performed. There are advantages to being.

Referring to FIG. 1 of the present invention, the upper plate 100 and the middle plate 200 may be provided in a form surrounded by a fence frame 400 having a certain height fixed on the base plate 300. Here, the base plate 300 may preferably have a larger area than those components so that the upper plate 100, the middle plate 200, and the fence frame 400 surrounding them can be placed together. .

In addition, the upper surface of the base plate 300 allows the intermediate plate 200 surrounded by the fence frame 400 to be tilted between the base plate 300 and the repulsive force of the magnetic bodies 220 and 310. It is preferable to be maintained at the top spaced apart from the. To this end, the intermediate plate 200 may have holding protrusions 241 as shown in FIG. 2 formed at each side end of both width ends in the middle of the length, and each holding protrusion 241 is the base plate 300 It can be inserted into the guide groove 231 of the stepper 230 fixed to both ends of the fence frame 400 on the surface of the base plate 300 or the base plate 300 to be maintained in an elevating state. Here, the guide groove 231 may have an elongated shape in the vertical direction for the lifting action of the holding protrusions 241 .

From this configuration, the retaining protrusions 241 form guide grooves by repulsive force between the plurality of magnetic bodies 220 provided on the lower surface of the intermediate plate 200 and the magnetic bodies 310 provided on the upper surface of the base plate 300. While moving up and down along 231, the height of the intermediate plate 200 can be adjusted, and also the inclination of the intermediate plate 200 can be adjusted with the retaining protrusions 241 as the center.

In addition, the upper plate 100 positioned on top of the intermediate plate 200 is tilted by the repulsive force of the magnetic bodies 110 and 210 between the intermediate plate 200 and the intermediate plate 200 It is preferable to be maintained at the top spaced apart from the upper surface of the. To this end, the upper plate 100 has fitting grooves 120 (or holding protrusions) as shown in FIG. 2 formed at each side end of both length ends in the center of the width, and the fitting grooves 120 are provided with the middle plate. The retaining protrusions 131 (or guide grooves) of the stepper 130 fixed on the 200 may be inserted and maintained in a rotatable state.

From this configuration, a plurality of magnetic bodies 110 provided on the lower surface of the upper plate 100 and the magnetic bodies 210 provided on the upper surface of the middle plate 200 are formed by repulsive force between the holding protrusions 241 at the center. It is possible to adjust the inclination of the plate 100, and through this, each electrode on the electrode pad of the substrate to be inspected placed on the upper plate 100 is in a horizontal state with each probe of the inspection head so that complete electrical contact is made. will do

Meanwhile, in this embodiment, the magnetic bodies 210 provided on the upper surface of the middle plate 200 and the magnetic bodies 310 provided on the upper surface of the base plate 300 are all shown in a protruding form, and also the upper plate 100 ) The magnetic bodies 110 installed on the lower surface and the magnetic bodies 220 provided on the lower surface of the intermediate plate 200 are all shown in a recessed form, but the present invention is not limited thereto and the upper surface and base of the intermediate plate 200 The magnetic bodies 210 and 310 provided on the upper surface of the plate 300 are configured to have a recessed shape, and the magnetic bodies 110 and 220 provided on the lower surface of the upper plate 100 and the lower surface of the middle plate 200 Of course, it is also possible to configure them to have a protruding shape.

As described above, the carrier device for inspecting a substrate of the present invention excludes the existing spring support structure and uses the magnetic repulsive force between the magnetic bodies over three stages to adjust the front and rear left and right angles of the substrate to be inspected. It is possible to more smoothly adjust the angle of the substrate to be inspected so as to be level with the plurality of probes descending from the substrate inspection apparatus, and more efficient and complete contact between the plurality of probes of the substrate inspection device and the plurality of electrodes of the electrode pad of the substrate to be inspected. will be able to guarantee

In addition, since the carrier device for substrate inspection of the present invention excludes the existing spring support structure and uses the magnetic repulsive force between magnetic bodies, problems such as weakening of the spring force due to long-term use or weakening of the support function due to deterioration of the spring such as wear It can be prevented, and it is also possible to design a slimmer device compared to the existing spring support structure.

In addition, the carrier device for substrate inspection of the present invention has the advantage of being able to control the contact strength corresponding to the pressure of a plurality of probes in various ways by controlling the power applied to the magnet when the magnetic repulsive force of the electromagnet is used. there is.

Although various embodiments of the present invention have been described above, the contents described so far are merely examples of some of the preferred embodiments of the present invention, except for what may appear in the claims appended below. It is not limited by the above content. Therefore, the present invention understands that many changes, modifications and substitutions of equivalents can be made by those skilled in the art without departing from the technical spirit and gist of the invention within the scope described in the claims below. will have to

100: upper plate
200: middle plate
300: base plate
400: fence frame
110,210,220,310: magnetic body
120: fitting groove
130: stepper
131: retaining protrusion
230: stepper
231: guide home
241: retaining protrusion

Claims (5)

A carrier device corresponding to a plurality of probes of a substrate inspection apparatus and supporting a substrate to be inspected to remain horizontal with the probes,
An upper plate configured to place and fix the substrate to be inspected,
An intermediate plate disposed below the upper plate and configured to allow a predetermined magnetic repulsive force to act between the upper plate and the upper plate; and
A base plate disposed under the intermediate plate and configured to allow a predetermined magnetic repulsive force to act between the intermediate plate and the intermediate plate;
A plurality of magnetic bodies forming a magnetic repulsive force in the vertical direction with the same polarity are respectively installed on the lower surface of the upper plate and the upper surface of the intermediate plate,
A carrier device for inspecting a substrate using a magnetic repulsive force, characterized in that a plurality of magnetic bodies forming a magnetic repulsive force in the vertical direction with the same polarity are respectively installed on the upper surface of the base plate and the lower surface of the intermediate plate. According to claim 1,
Characterized in that the plurality of magnetic bodies are permanent magnets or electromagnets of the same polarity, a carrier device for inspecting a substrate using magnetic repulsion. According to claim 1,
The intermediate plate is maintained at an upper part spaced apart from the upper surface of the base plate by a predetermined interval so as to allow tilting by the repulsive force of the magnetic bodies between the base plate and the upper plate. A carrier device for inspecting a substrate using magnetic repulsion, characterized in that maintained at an upper portion spaced apart by a predetermined distance from the upper surface of the intermediate plate to enable tilting by the. According to claim 3,
The upper plate and the intermediate plate are provided surrounded by a fence frame having a constant height fixed on the base plate, and retaining protrusions are formed on each side of both width ends of the middle plate in the middle of the length, and each retaining protrusion Is inserted into the guide groove of the stepper fixed to the surface of the base plate or both ends of the fence frame on the base plate and is maintained in a movable state, a carrier device for inspecting a substrate using magnetic repulsive force. According to claim 3,
The upper plate has fitting grooves formed at each side end of both length ends at the center of the width, and holding protrusions of the stepper fixed on the intermediate plate are inserted into each fitting groove, so that the upper plate is maintained in a rotatable state Characterized in that, a carrier device for inspecting a substrate using a magnetic repulsive force.

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