CN113649390A

CN113649390A - Dust removal equipment for integrated circuit tester

Info

Publication number: CN113649390A
Application number: CN202111046137.7A
Authority: CN
Inventors: 康丽云
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2021-11-16

Abstract

The invention discloses a dust removing device for an integrated circuit tester, which structurally comprises a dust suction pipe, a dust remover and a button, wherein the button is movably clamped with the front end of the dust remover, the rear end of the dust suction pipe is connected with the front end of the dust remover, inward suction is generated by the dust remover, dust on the surface of the integrated circuit tester can be sucked into a dust storage bin in the dust remover by the dust suction pipe, the sucked dust can be carried by small holes on a dust carrying surface on a blocking mechanism, when the dust remover stops running, the dust in the dust suction pipe can be blocked by the two blocking mechanisms and cannot be discharged outwards, an extending cutter can extend outwards along the surface of the dust remover through the inertia force generated by the reset of an extruded stress plate, so that the extending cutter can cut off hair wound on the dust carrying surface, and vibration beads can generate impact vibration on the inner wall of an internal cavity through the throwing force generated by the swinging of a swinging plate, thereby enabling the hair strands outside the coupling plate to be shaken off.

Description

Dust removal equipment for integrated circuit tester

Technical Field

The invention relates to the technical field of integrated circuit testing, in particular to a dust removal device for an integrated circuit tester.

Background

The dust remover for the integrated circuit tester is mainly used for cleaning dust on the surface of the integrated circuit tester, the dust suction port of the dust remover for the integrated circuit tester faces the surface of the integrated circuit tester, and the dust on the surface of the integrated circuit tester can be sucked by suction force generated inside the dust remover for the integrated circuit tester, and the dust adhered tightly can be swept by a brush at the head of the dust remover for the integrated circuit tester, so that the dust remover for the integrated circuit tester can suck the swept dust, and the dust remover for the integrated circuit tester mainly has the following defects based on the description, such as:

because the dust remover for the integrated circuit tester sucks dust through the internal air suction device, and the dust suction pipe has a certain length, if the dust sucked up by the integrated circuit tester does not completely enter the dust storage bin of the dust remover for the integrated circuit tester, the dust remover for the integrated circuit tester is closed, and the situation that the dust in the dust suction pipe falls into the surface of the integrated circuit tester again easily occurs.

Disclosure of Invention

In order to solve the problems, the invention provides a dust removal device for an integrated circuit tester.

In order to achieve the purpose, the invention is realized by the following technical scheme: a dust removal device for an integrated circuit tester structurally comprises a dust collection pipe, a dust remover and a button, wherein the button is movably clamped with the front end of the dust remover, and the rear end of the dust collection pipe is connected with the front end of the dust remover; the dust absorption pipe comprises a blocking mechanism, a pipe body and a brush head, wherein the blocking mechanism is fixed at the inner side position of the pipe body, and the brush head is installed at the left side position of the pipe body.

As a further optimization of the invention, the blocking mechanism comprises a fixed frame, an internal connecting wheel, a dust carrying surface and a through hole, the middle part of the internal connecting wheel is movably clamped with the fixed frame, the inner side of the dust carrying surface is attached to the surface of the internal connecting wheel, the through hole penetrates through the inner position of the dust carrying surface, and the dust carrying surface is made of polyester sponge with low density.

As a further optimization of the invention, the inner connecting wheel comprises an elastic strip, a connecting rod, a stress plate and a central block, wherein the elastic strip is wound at the outer position of the connecting rod, the connecting rod is fixed at the outer position of the central block, the inner part of the stress plate is movably clamped with the connecting rod, and six stress plates are uniformly distributed on the outer part of the central block in a circular manner.

The bearing plate comprises an impact block, a bearing plate and an elastic ring, wherein the impact block is movably clamped with the interior of the bearing plate, the elastic ring is arranged between the left side of the impact block and the left side of the inner wall of the bearing plate, and the impact block can generate impact vibration on the inner wall of the bearing plate through the inertia force generated by quick extension and reset of the mechanism.

As a further optimization of the invention, the carrying plate comprises two extending cutters, a plate surface and two pulling strips, wherein the extending cutters are in sliding fit with the interior of the plate surface, the pulling strips are arranged between the inner sides of the extending cutters and the inner wall of the plate surface, and the two extending cutters are uniformly and symmetrically distributed in the interior of the plate surface.

As a further optimization of the invention, the extension cutter comprises a reset sheet, a swinging plate and a rear plate, wherein the reset sheet is arranged between the left side of the swinging plate and the right side of the rear plate, the swinging plate is hinged with the right end of the rear plate, and the two swinging plates are uniformly and symmetrically distributed at the right end of the rear plate.

In a further preferred embodiment of the present invention, the oscillating plate includes a vibrating bead, a coupling plate, and a built-in cavity, the vibrating bead is mounted in the built-in cavity, the built-in cavity is embedded in the coupling plate, and the vibrating bead is made of alloy steel with a high density.

As a further optimization of the invention, the combination plate comprises a contact reducing groove, a rocking strip and a bearing plate, wherein the contact reducing groove is embedded in the inner part of the bearing plate close to the bottom, the rocking strip is fixed at the inner side of the contact reducing groove, and the contact reducing groove is of an arc concave surface structure.

The invention has the following beneficial effects:

1. produce inside suction through the dust remover, can make the dust absorption pipe with the dust suction of integrated circuit test instrument surface in the inside dust storage storehouse of dust remover to can carry inhaled dust through the aperture on the area dust surface on the stop gear, the inside dust of dust absorption pipe then can be kept out by two stop gear and can't outwards discharge when the dust remover stops the operation, the effectual inside dust of dust absorption pipe condition of reverse discharge after having avoided the dust remover stop operation.

2. Through the inertia force that the atress board that receives the extrusion resets and produces, can make to stretch out the cutter and outwards stretch out along the face to the messenger stretches out the cutter and can cut off the hair winding on the face of taking the dirt, and through the power of getting rid of that the swing board swing produced, can make the vibration pearl produce the striking vibration to the inner wall of built-in chamber, thereby make the outside hair of joint plate can be shaken off, the effectual hair winding of having avoided is difficult to by the inspiratory condition of dust remover on the face of taking the dirt face.

Drawings

Fig. 1 is a schematic structural diagram of a dust removing device for an integrated circuit tester according to the present invention.

FIG. 2 is a side view of the dust suction pipe of the present invention in a half-section.

FIG. 3 is a side view of a half-section of the blocking mechanism of the present invention.

FIG. 4 is a side view of a half-section of the inner wheel of the present invention.

FIG. 5 is a side view of a half-section of the stress plate of the present invention.

FIG. 6 is a side view of a half-section of the bearing plate of the present invention.

FIG. 7 is a side view of a half-section of an extended cutter according to the present invention.

FIG. 8 is a side view of a half-section of the swing plate of the present invention.

FIG. 9 is a side view of a half-section structure of the bonding board of the present invention.

In the figure: the dust collector comprises a dust collection pipe-1, a dust collector-2, a button-3, a blocking mechanism-11, a pipe body-12, a brush head-13, a fixed frame-a 1, an internal connecting wheel-a 2, a dust carrying surface-a 3, a through hole-a 4, an elastic strip-a 21, a connecting rod-a 22, a stress plate-a 23, a central block-a 24, an impact block-b 1, a bearing plate-b 2, an elastic ring-b 3, a protruding cutter-b 21, a plate surface-b 22, a pull back strip-b 23, a reset sheet-c 1, a swing plate-c 2, a rear plate-c 3, a vibration bead-c 21, a combination plate-c 22, an internal cavity-c 23, a contact reduction groove-d 1, a swing strip-d 2 and a bearing plate-d 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides a dust removal device for an integrated circuit tester, which structurally comprises a dust collection pipe 1, a dust remover 2 and a button 3, wherein the button 3 is movably clamped with the front end of the dust remover 2, and the rear end of the dust collection pipe 1 is connected with the front end of the dust remover 2; the dust collection pipe 1 comprises a blocking mechanism 11, a pipe body 12 and a brush head 13, wherein the blocking mechanism 11 is fixed at the inner side position of the pipe body 12, and the brush head 13 is installed at the left side position of the pipe body 12.

The blocking mechanism 11 comprises a fixed frame a1, an inner connecting wheel a2, a dust-carrying surface a3 and a through hole a4, wherein the middle part of the inner connecting wheel a2 is movably clamped with the fixed frame a1, the inner side of the dust-carrying surface a3 is attached to the surface of the inner connecting wheel a2, the through hole a4 penetrates through the inner position of the dust-carrying surface a3, the dust-carrying surface a3 is made of polyester sponge with low density, dust can be carried through small holes in the sponge, and the through hole a4 which is through from inside to outside is arranged on the dust-carrying surface a3, so that an object can extend out through the through hole a 4.

The internal wheel a2 comprises an elastic strip a21, a connecting rod a22, a stress plate a23 and a central block a24, the elastic strip a21 is wound at the outer position of the connecting rod a22, the connecting rod a22 is fixed at the outer position of the central block a24, the stress plate a23 is movably clamped with the connecting rod a22, the stress plate a23 is provided with six stress plates, the six stress plates are uniformly distributed in a circular shape outside the central block a24, the stress plate a23 can be contracted inwards along the connecting rod a22 through the extrusion of the connecting rod a22 by an object, and the stress plate a23 can be quickly pushed to reset after the stress plate a23 loses the extrusion of the object through the elastic strip a 21.

The bearing plate a23 comprises an impact block b1, a bearing plate b2 and an elastic ring b3, the impact block b1 is movably clamped with the bearing plate b2, the elastic ring b3 is installed between the left side of the impact block b1 and the left side of the inner wall of the bearing plate b2, the impact block b1 can generate impact vibration on the inner wall of the bearing plate b2 through the inertia force generated by quick extension and reset of a mechanism, and the bearing plate b2 can transmit the vibration to an object, so that dust carried outside the object can be vibrated and dropped.

The detailed use method and action of the embodiment are as follows:

in the invention, the dust on the surface of the integrated circuit test instrument can be sucked into a dust storage bin in the dust collector 2 by the dust collector 2 through generating an inward suction force, the sucked dust can be carried by small holes on a dust carrying surface a3 on the blocking mechanism 11, the inner connecting wheel a2 can be rotated along a fixed frame a1 by the suction force generated by the dust collector 2, when two dust carrying surfaces a3 are contacted, a stress plate a23 can be extruded to contract along a connecting rod a22 through extrusion generated between the two dust carrying surfaces a3, and the stress plate a23 can be pushed by an elastic strip a21 to extend outwards and reset in a region where the two dust carrying surfaces a3 are separated, so that the impact block b1 can generate impact vibration on the inner wall of a bearing plate b2, and the bearing plate b2 can transmit the vibration to a dust carrying surface a3, and the dust on the surface of the region where the dust carrying surface a3 rotates to the right side can be vibrated, when the dust collector 2 stops operating, the dust in the dust collection pipe 1 can be blocked by the two blocking mechanisms 11 and can not be discharged outwards, so that the situation that the dust in the dust collection pipe 1 can be discharged reversely after the dust collector 2 stops operating is effectively avoided.

Example 2

As shown in fig. 6-9:

wherein, accept board b2 including stretching out cutter b21, face b22, back pull strip b23, stretch out cutter b21 and face b 22's inside sliding fit, back pull strip b23 and install between the inboard that stretches out cutter b21 and face b 22's inner wall, it is equipped with two to stretch out cutter b21, and even inside at face b22 is the symmetric distribution, through the outside inertia force that produces that stretches out of mechanism, can make and stretch out cutter b21 outwards along face b22 to the messenger stretches out cutter b21 and can cut off the hair in the object outside.

The stretching cutter b21 comprises a reset plate c1, a swinging plate c2 and a rear plate c3, the reset plate c1 is installed between the left side of the swinging plate c2 and the right side of the rear plate c3, the swinging plate c2 is hinged with the right end of the rear plate c3, the number of the swinging plates c2 is two, the two swinging plates c2 are uniformly and symmetrically distributed at the right end of the rear plate c3, and when an object stretches outwards, thrust generated between the two swinging plates c2 by reverse airflow can enable the swinging plate c2 to swing and unfold towards two sides along the rear plate c3, so that cut hair cut sections can be separated.

The oscillating plate c2 comprises an oscillating bead c21, a coupling plate c22 and an internal cavity c23, wherein the oscillating bead c21 is mounted at an internal position of the internal cavity c23, the internal cavity c23 is embedded at an internal position of the coupling plate c22, the oscillating bead c21 is made of alloy steel with high density, and the oscillating bead c21 can generate impact oscillation on the inner wall of the internal cavity c23 through the throwing force generated by mechanism oscillation, so that hair outside the coupling plate c22 can fall off.

Wherein, combination board c22 is including subtracting touch groove d1, rocking strip d2, loading board d3, subtract and touch groove d1 and imbed in the inside of loading board d3 and lean on the bottom position, it is fixed in the inboard position that subtracts touch groove d1 to rock strip d2, subtract and touch groove d1 and be arc concave structure, can avoid producing great pressure to the dust through subtracting touch groove d1 to lead to the dust to adhere to the condition of being difficult to clear away in the inboard of loading board d 3.

The detailed use method and action of the embodiment are as follows:

in the invention, because the dust on the dust surface a3 can be removed by vibration, but the hair dropped by the personnel using the integrated circuit tester is easy to be wound on the surface of the dust surface a3 and is difficult to be sucked into the dust remover 2 after being sucked by the dust suction pipe 1, the extending cutter b21 can be extended from the inside of the through hole a4 along the plate surface b22 by the inertia force generated by resetting the pressed force-bearing plate a23, so that the extending cutter b21 can cut off the hair wound on the dust surface a3, and when the extending cutter b21 is extended outwards, the reverse airflow can generate thrust between the two swinging plates c2, so that the swinging plate c2 can swing and expand along the rear plate c3, therefore, the swinging plate c2 can separate the cut surface of the hair, and the swinging force generated by the swinging of the swinging plate c2 can make the vibrating bead c21 generate impact vibration on the inner wall of the built-in cavity c23, therefore, hair outside the combination plate c22 can be shaken off, the situation that the hair is wound on the surface of the dust-carrying surface a3 and is difficult to suck by the dust remover 2 is effectively avoided, the contact area between the inner sides of the two combination plates c22 can be reduced through the contact reducing groove d1, and the situation that the dust is attached to the inner side of the bearing plate d3 and is difficult to clean due to the fact that the inner sides of the combination plates c22 generate large pressure on the dust can be avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a dust collecting equipment for integrated circuit tester, its structure includes dust absorption pipe (1), dust remover (2), button (3), the front end activity block of button (3) and dust remover (2), its characterized in that: the rear end of the dust collection pipe (1) is connected with the front end of the dust remover (2);

dust absorption pipe (1) includes stop gear (11), body (12), brush head (13), stop gear (11) are fixed in the inboard position of body (12), the left side position in body (12) is installed in brush head (13).

2. The dust removing device for the integrated circuit tester as recited in claim 1, wherein: the blocking mechanism (11) comprises a fixed frame (a1), an inner connecting wheel (a2), a dust carrying surface (a3) and a through hole (a4), wherein the middle part of the inner connecting wheel (a2) is movably clamped with the fixed frame (a1), the inner side of the dust carrying surface (a3) is attached to the surface of the inner connecting wheel (a2), and the through hole (a4) penetrates through the inner position of the dust carrying surface (a 3).

3. The dust removing device for the integrated circuit tester as recited in claim 2, wherein: the internal wheel (a2) comprises an elastic strip (a21), a connecting rod (a22), a stress plate (a23) and a center block (a24), wherein the elastic strip (a21) is wound at the outer position of the connecting rod (a22), the connecting rod (a22) is fixed at the outer position of the center block (a24), and the inner part of the stress plate (a23) is movably clamped with the connecting rod (a 22).

4. The dust removing device for the integrated circuit tester as recited in claim 3, wherein: the stress plate (a23) comprises an impact block (b1), a bearing plate (b2) and an elastic ring (b3), wherein the impact block (b1) is movably clamped with the bearing plate (b2), and the elastic ring (b3) is installed between the left side of the impact block (b1) and the left side of the inner wall of the bearing plate (b 2).

5. The dust removing device for the integrated circuit tester as recited in claim 4, wherein: the bearing plate (b2) comprises an extending cutter (b21), a plate surface (b22) and a pull-back strip (b23), the extending cutter (b21) is in sliding fit with the plate surface (b22), and the pull-back strip (b23) is installed between the inner side of the extending cutter (b21) and the inner wall of the plate surface (b 22).

6. The dust removing device for the integrated circuit tester as recited in claim 5, wherein: the extension cutter (b21) comprises a reset piece (c1), a swinging plate (c2) and a rear plate (c3), wherein the reset piece (c1) is installed between the left side of the swinging plate (c2) and the right side of the rear plate (c3), and the swinging plate (c2) is hinged with the right end of the rear plate (c 3).

7. The dust removing device for the integrated circuit tester as recited in claim 6, wherein: the swing plate (c2) comprises a vibration ball (c21), a combination plate (c22) and an internal cavity (c23), wherein the vibration ball (c21) is arranged at the internal position of the internal cavity (c23), and the internal cavity (c23) is embedded at the internal position of the combination plate (c 22).

8. The dust removing device for the integrated circuit tester as recited in claim 7, wherein: the combination board (c22) is including subtracting touch groove (d1), rocking strip (d2), loading board (d3), subtract the inside of touching groove (d1) embedding in loading board (d3) and lean on the bottom position, it is fixed in and subtracts the inboard position that touches groove (d1) to rock strip (d 2).