CN218896620U - Silicon part processing positioner - Google Patents

Abstract

The utility model provides a silicon part processing and positioning device which comprises a placing seat used for placing a silicon part, a base arranged at the lower end of the placing seat, a positioning assembly arranged on the base and used for abutting against the side end face of the silicon part after the silicon part is placed on the placing seat so as to push the silicon part to the center position of the placing seat, and an adsorption assembly arranged on the placing seat and used for starting to adsorb the silicon part on the placing seat after the positioning assembly pushes the silicon part to the center position of the placing seat and not adsorbing the silicon part on the placing seat after the positioning assembly closes.

Description

Silicon part processing positioner

Technical Field

The utility model relates to the technical field of silicon part processing equipment, in particular to a silicon part processing and positioning device.

Background

At present, in the field of semiconductors, silicon parts are high-consumption products, the silicon parts are different from the conventional metal parts in processing and manufacturing, and the metal clamps are adopted in mounting to easily clamp the surfaces of the silicon parts, so that the surfaces of the silicon parts are easy to crack and the like.

In the prior art, the positioning device comprises a placing seat for placing the silicon component, and the silicon component and the placing seat are fixed by wax adhesion. When the silicon part is installed on the placing seat, the surface of the placing seat needs to be heated, the surface of the placing seat is subjected to waxing after being heated, then the silicon part is placed on the waxed placing seat, after bonding and cooling, the silicon part can be stably placed on the placing seat, and the silicon part can be processed later.

Although the existing positioning device can solve the corresponding technical problems, a certain defect still exists objectively:

1. the traditional wax sticking positioning of the silicon part is mainly performed manually, the time consumed by positioning is long, and the silicon part is difficult to position quickly.

2. The silicon part is fixed on the placing seat in a wax sticking mode, after the silicon part is taken down from the placing seat, residues of the wax sticking are easy to adhere to the surface of the silicon part, the residues of the wax sticking are required to be cleaned again later, and when the silicon part is required to be taken down from the placing seat after being processed, the silicon part cannot be taken down from the placing seat conveniently and rapidly.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings of the prior art and provides a silicon part processing and positioning device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a silicon parts processing positioner, includes the seat of placing that is used for placing the silicon parts, set up in place the base of seat lower extreme, set up in be used for on the base behind the silicon parts place on place the seat butt silicon parts side terminal surface in order to promote the silicon parts to place the locating component of seat central point put, set up in place be located on the seat place be used for after locating component promotes the silicon parts to place seat central point put open the adsorption module that adsorbs the silicon parts on placing the seat and no longer adsorb the silicon parts on placing the seat after closing.

The further improvement is that: the positioning assembly comprises at least three supporting rods which can be arranged above the placing seat in a moving way in the radial direction of the placing seat and are annularly arranged around the center of the placing seat, at least three supporting rods which are close to or far away from the center of the placing seat when driven by external force, a telescopic cylinder which is arranged on the base and is connected with the supporting rods and is used for driving the supporting rods to be close to or far away from the center of the placing seat when opened, and a pressure sensing piece which is arranged on the base and is electrically connected with each telescopic cylinder and is used for simultaneously starting the telescopic cylinder to drive each supporting rod to be close to the center of the placing seat so that the silicon part is placed on the placing seat and then is pushed to the center of the placing seat by the side end face of the silicon part by the supporting rods, and a pressure sensing piece which is arranged between the supporting rods and is used for warning when the supporting rods are in the side end face of the supporting rods to reach preset pressure so as to prevent the supporting rods from excessively extruding the silicon part.

The further improvement is that: the pressure sensing piece is used for detecting the propping pressure when the propping rod is propped against the side end face of the silicon part, the pressure sensing piece comprises a sensing probe arranged on the propping rod and close to the center end of the placing seat, a signal receiver which is arranged on the base and electrically connected with the sensing probe and is used for receiving a pressure signal for detecting the propping pressure of the sensing probe, and a warning lamp which is arranged on the signal receiver and electrically connected with the signal receiver and is used for being lightened when the propping pressure detected by the sensing probe reaches a preset value and being extinguished when the propping pressure does not reach the preset value so as to warn.

The further improvement is that: and a contact plate used for improving the contact area between the propping rod and the silicon part when the propping rod butts against the side end surface of the silicon part is arranged on the periphery of the propping rod close to the end of the placing seat.

The further improvement is that: and an anti-slip layer used for increasing friction force between the silicon component and the contact plate when the contact plate abuts against the side end surface of the silicon component so as to prevent the silicon component from sliding on the contact plate is arranged on the contact plate and near the end of the placing seat.

The further improvement is that: the anti-slip layer is a rubber layer.

The further improvement is that: the adsorption component comprises a plurality of adsorption holes which are arranged on the placement seat and are annularly arranged around the center point of the placement seat, an adsorption channel which is arranged on the base and is communicated with the adsorption holes at one end, and a fixed end which is arranged on the base and is communicated with the other end of the adsorption channel.

After the technical scheme is adopted, the utility model has the beneficial effects that:

1. when the silicon part is required to be positioned, the silicon part is firstly placed on the placement seat, and then the silicon part is pushed to the center of the placement seat by the positioning component against the side end face of the silicon part, so that the silicon part is positioned on the placement seat, the time consumed by positioning is short, and the silicon part can be positioned quickly.

2. After the locating component promotes the silicon part to place seat central point put, adsorb the silicon part on placing the seat through starting adsorption component, can not cause the surface adhesion of silicon part to stick the wax residue, need not the follow-up clearance to stick the wax residue again to after silicon part processing, when need take off the silicon part from placing the seat, close adsorption component and make the silicon part no longer adsorb on placing the seat, thereby convenient and fast take off the silicon part from placing the seat.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a side cutaway view of the placement base, ejector pin, suction orifice, suction channel of the present utility model.

Reference numerals illustrate: the device comprises a placing seat 1, a base 2, an ejector rod 3, a telescopic electric cylinder 4, a control switch 5, a sensing probe 6, a signal receiver 7, a warning lamp 8, a contact plate 9, an anti-slip layer 10, an adsorption hole 11, an adsorption channel 12 and an air pump 13.

Detailed Description

The utility model will now be further described with reference to the drawings and specific examples.

Referring to fig. 1 to 2, the technical scheme adopted in this embodiment is as follows: the utility model provides a silicon parts processing positioner, is including being used for placing the seat 1 of placing the silicon parts, set up in place seat 1 lower extreme base 2, set up in be used for on base 2 place behind the seat 1 place the silicon parts on the back butt silicon parts side terminal surface in order to promote the silicon parts to place the locating component of seat 1 central point put, set up in place on the seat 1 be located place seat 1 central point put be used for after locating component promotes the silicon parts to place seat 1 central point put open with the silicon parts adsorb on place seat 1 and no longer adsorb the adsorption module on place seat 1 with the silicon parts after closing.

The positioning assembly comprises at least three propping rods 3 which are arranged above the placing seat 1 and are annularly arranged around the circle center of the placing seat 1 and used for being close to or far away from the circle center of the placing seat 1 when driven by external force, a telescopic cylinder 4 which is arranged on the base 2 and connected with the propping rods 3 and used for driving the propping rods 3 to be close to or far away from the circle center of the placing seat 1 when opened, and a control switch 5 which is arranged on the base 2 and used for starting the telescopic cylinder 4 to drive each propping rod 3 to be close to the circle center of the placing seat 1 simultaneously so that the silicon part is placed on the placing seat 1, and the control switch 5 is arranged between the propping rods 3 and the base 2 and used for warning when the propping rods 3 are propped against the side end surface of the silicon part to a preset pressure, so that the propping rods 3 excessively squeeze the silicon part, the propping rods 3 are four, and the propping rods 3 can be pushed to the circle center of the placing seat 1 when the silicon part is pushed by the four propping rods 3, and the silicon part can be moved to the circle center of the placing seat 1.

The pressure sensing piece comprises a sensing probe 6, a signal receiver 7, a warning lamp 8, and a warning lamp 8, wherein the sensing probe 6 is arranged on the propping rod 3 and is close to the center end of the placement seat 1, is used for detecting propping pressure when the propping rod 3 is propped against the side end face of the silicon part, the signal receiver 7 is arranged on the base 2 and is electrically connected with the sensing probe 6 and is used for receiving a pressure signal for detecting the propping pressure of the sensing probe 6, the warning lamp 8 is arranged on the signal receiver 7 and is electrically connected with the signal receiver 7, the warning lamp is used for being turned on when the propping pressure detected by the sensing probe 6 reaches a preset value and is turned off when the propping pressure does not reach the preset value, the sensing probe 6 is arranged on one of the propping rods 3, each propping rod 3 can be respectively arranged, and when the sensing probe 6 is arranged on one of the propping rods 3, the propping rod 3 is propping against the silicon part, and the sensing probe 6 can detect the propping force.

The outer periphery of the propping rod 3 is provided with a contact plate 9 near the end of the placing seat 1, which is used for improving the contact area between the propping rod 3 and the silicon part when the propping rod 3 is propped against the side end face of the silicon part.

An anti-slip layer 10 for increasing friction between the silicon component and the contact plate 9 to prevent the silicon component from sliding on the contact plate 9 when the contact plate 9 abuts against the side end surface of the silicon component is arranged on the contact plate 9 near the end of the placement seat 1.

The anti-slip layer 10 is a rubber layer.

The adsorption component comprises a plurality of adsorption holes 11 which are arranged on the placement seat 1 and are annularly arranged around the center point of the placement seat 1, an adsorption channel 12 which is arranged on the base 2 and one end of which is communicated with the adsorption holes 11, and an air pump 13 of which the fixed end is arranged on the base 2 and the output end of which is communicated with the other end of the adsorption channel 12.

The working principle of the utility model is as follows: when the silicon part is ready to be processed, the silicon part is placed above the adsorption hole 11 of the placement seat 1, then the control switch 5 is turned on, the telescopic electric cylinder 4 is started simultaneously to drive each push rod 3 to approach the circle center end of the placement seat 1, along with the push of one or two push rods 3, the silicon part moves on the placement seat 1, when the silicon part is pushed to other push rods 3, the side end face of the silicon part is pushed against by each push rod 3, the sensing probe 6 detects the push pressure along with the push rods 3, the signal receiver 7 receives a pressure signal for detecting the push by the sensing probe 6, and the warning lamp 8 is turned on when the push pressure reaches a preset value, so that an operator is reminded of timely closing the control switch 5, so that each push rod 3 stops moving, at the moment, the control switch 5 is turned on, the lower end face of the silicon part is adsorbed on the placement seat 1 through the adsorption channel 12 and the adsorption hole 11, and then the telescopic electric cylinder 4 is started simultaneously to drive each push rod 3 to approach the circle center end of the placement seat 1, the push rod 3 is separated from the side of the silicon part, the push rod 3 is separated from the silicon part on the side of the silicon part, and the silicon part is positioned on the side of the push rod 1, and the silicon part is required to be positioned quickly; after the silicon parts are processed, the air pump 13 is closed so that the silicon parts are not adsorbed on the placing seat 1, and the silicon parts are conveniently and quickly removed from the placing seat 1; when the push rod 3 is in contact with the silicon part, the contact plate 9 is in contact with the side end surface of the silicon part, so that the contact area between the push rod 3 and the silicon part can be increased, and the anti-slip layer 10 can increase the friction between the silicon part and the contact plate 9 to prevent the silicon part from sliding on the contact plate 9.

The utility model is to protect the structure of the product, the model of each element is not the content protected by the utility model, and the utility model is also known technology, and only the element which can realize the functions of the utility model can be used as a silicon part processing and positioning device for selection application in the market. Therefore, parameters such as the type of the element will not be described in detail in the present utility model. The utility model is contributed to scientifically combining the elements together.

While the basic principles and main features of the present utility model and advantages thereof have been shown and described, it will be understood by those skilled in the art that the present utility model is not limited by the foregoing embodiments, which are described merely by way of illustration of the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents. The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (7)

1. The utility model provides a silicon parts processing positioner, includes the seat of placing that is used for placing silicon parts, its characterized in that: the silicon component placing device comprises a base, a positioning component, an adsorption component and an adsorption component, wherein the base is arranged at the lower end of the placing seat, the positioning component is arranged on the base and used for being abutted against the side end face of the silicon component after the silicon component is placed on the placing seat so as to push the silicon component to the central position of the placing seat, the adsorption component is arranged on the placing seat and is positioned on the placing seat and used for opening the silicon component after the positioning component pushes the silicon component to the central position of the placing seat, and the adsorption component is not used for adsorbing the silicon component on the placing seat after the silicon component is closed.

2. A silicon part machining positioning device according to claim 1, wherein: the positioning assembly comprises at least three supporting rods which can be arranged above the placing seat in a moving way in the radial direction of the placing seat and are annularly arranged around the center of the placing seat, at least three supporting rods which are close to or far away from the center of the placing seat when driven by external force, a telescopic cylinder which is arranged on the base and is connected with the supporting rods and is used for driving the supporting rods to be close to or far away from the center of the placing seat when opened, and a pressure sensing piece which is arranged on the base and is electrically connected with each telescopic cylinder and is used for simultaneously starting the telescopic cylinder to drive each supporting rod to be close to the center of the placing seat so that the silicon part is placed on the placing seat and then is pushed to the center of the placing seat by the side end face of the silicon part by the supporting rods, and a pressure sensing piece which is arranged between the supporting rods and is used for warning when the supporting rods are in the side end face of the supporting rods to reach preset pressure so as to prevent the supporting rods from excessively extruding the silicon part.

3. A silicon part machining positioning device according to claim 2, wherein: the pressure sensing piece is used for detecting the propping pressure when the propping rod is propped against the side end face of the silicon part, the pressure sensing piece comprises a sensing probe arranged on the propping rod and close to the center end of the placing seat, a signal receiver which is arranged on the base and electrically connected with the sensing probe and is used for receiving a pressure signal for detecting the propping pressure of the sensing probe, and a warning lamp which is arranged on the signal receiver and electrically connected with the signal receiver and is used for being lightened when the propping pressure detected by the sensing probe reaches a preset value and being extinguished when the propping pressure does not reach the preset value so as to warn.

4. A silicon part machining positioning device according to claim 2, wherein: and a contact plate used for improving the contact area between the propping rod and the silicon part when the propping rod butts against the side end surface of the silicon part is arranged on the periphery of the propping rod close to the end of the placing seat.

5. A silicon part machining positioning device according to claim 4, wherein: and an anti-slip layer used for increasing friction force between the silicon component and the contact plate when the contact plate abuts against the side end surface of the silicon component so as to prevent the silicon component from sliding on the contact plate is arranged on the contact plate and near the end of the placing seat.

6. A silicon part machining positioning device according to claim 5, wherein: the anti-slip layer is a rubber layer.

7. A silicon part machining positioning device according to claim 1, wherein: the adsorption component comprises a plurality of adsorption holes which are arranged on the placement seat and are annularly arranged around the center point of the placement seat, an adsorption channel which is arranged on the base and is communicated with the adsorption holes at one end, and a fixed end which is arranged on the base and is communicated with the other end of the adsorption channel.

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