阅读说明：本技术 一种半导体器材料研发的选择测试装置 (Selection testing arrangement of semiconductor device material research and development ) 是由 许海渐 王海荣 王磊 于 2021-10-08 设计创作，主要内容包括：本发明提供一种半导体器材料研发的选择测试装置,涉及半导体测试技术领域,解决了虽然能够通过半导体材料与测试电路的接触实现半导体材料导电状态的测试,但是结构过于单一,不能够通过结构上的改进在实现半导体导电测试的过程中自动实现指示灯的多重清洁以及接触片的擦拭清洁的问题。一种半导体器材料研发的选择测试装置,包括主体板；所述主体板固定在工作台上,且主体板上安装有安装座,并且安装座上放置有毛坯。因卡槽共设有两个,且两个卡槽分别开设在两个支撑板上；两个卡槽均为矩形槽状结构,且两个卡槽内共同插接有一个安装座,并且当固定螺栓拧紧后安装座呈夹紧固定状,从而无需单独使用螺栓对安装座进行固定。(The invention provides a selective test device for semiconductor material research and development, relates to the technical field of semiconductor test, and solves the problems that although the test of the conductive state of a semiconductor material can be realized through the contact of the semiconductor material and a test circuit, the structure is too single, and the multiple cleaning of an indicator light and the wiping cleaning of a contact piece cannot be automatically realized in the process of realizing the semiconductor conductive test through structural improvement. A selective test device for semiconductor material research and development comprises a main body plate; the main body plate is fixed on the workbench, the mounting seat is installed on the main body plate, and a blank is placed on the mounting seat. The two clamping grooves are arranged on the two supporting plates respectively; two draw-in grooves are rectangle slot-shaped structure, and peg graft jointly in two draw-in grooves and have a mount pad to the mount pad is tight fixed form of clamp after fixing bolt screws up, thereby need not the exclusive use bolt and fix the mount pad.)

1. A selective test device for semiconductor material research and development is characterized in that: comprises a main body plate (1); the main body plate (1) is fixed on the workbench, the main body plate (1) is provided with a mounting seat (2), and a blank (5) is placed on the mounting seat (2); the main body plate (1) includes: the two supporting plates (101) are arranged, and the two supporting plates (101) are symmetrically welded on the bottom end face of the main body plate (1); the number of the fixing bolts (102) is two, and the two fixing bolts (102) are inserted into the main body plate (1); the fixing bolt (102) is in threaded connection with the workbench, and the main body plate (1) is in an elastic deformation shape after the fixing bolt (102) is screwed; an auxiliary part (3) is arranged on the main body plate (1), and a testing part (4) is arranged on the auxiliary part (3);

the auxiliary portion (3) includes:

the auxiliary block (308), the auxiliary block (308) is installed on the sliding rod (305), and a groove (309) is formed in the auxiliary block (308); through holes (310) are formed in the groove (309) in a linear array shape, and the through holes (310) are aligned with the indicator light (401); the height of the auxiliary block (308) is equal to that of the baffle (104), and the height of the auxiliary block (308) and that of the baffle (104) are both higher than that of the impeller (405);

the test section (4) includes:

the indicating lamp (401) is installed on the base body (301), and the base body (301) is rotatably connected with a rotating base (402); the rotating seat (402) is of an annular structure, and the rotating seat (402) is sleeved on the outer side of the indicator lamp (401); a rotating shaft (403) is rotatably connected to the rotating seat (402), a wiping block B (404) is installed on the rotating shaft (403), and the wiping block B (404) is in contact with the indicator lamp (401); the impeller (405), the impeller (405) is installed on the rotating shaft (403), and the impeller (405) is aligned with the indicator light (401);

the sliding rod (305) is of a bent structure, and the sliding rod (305) is in contact with the rotating seat (402).

2. The selective test apparatus for semiconductor device material development of claim 1, wherein: the main body plate (1) further comprises:

the number of the clamping grooves (103) is two, and the two clamping grooves (103) are respectively arranged on the two supporting plates (101); two draw-in grooves (103) are the rectangle groove form structure, and peg graft jointly in two draw-in grooves (103) and have a mount pad (2) to when fixing bolt (102) screw up back mount pad (2) be the clamp and fix the form.

3. The selective test apparatus for semiconductor device material development of claim 1, wherein: the main body plate (1) further comprises:

the number of the baffle plates (104) is two, and the two baffle plates (104) are symmetrically welded on the main body plate (1); the two baffle plates (104) are both in a trapezoidal block structure, and the two baffle plates (104) are both in contact with the blank (5).

4. The selective test apparatus for semiconductor device material development of claim 1, wherein: the mounting seat (2) is of an I-shaped structure, a contact piece (201) is adhered to the mounting seat (2), and the contact piece (201) is connected with the indicator light (401) through a lead.

5. The selective test apparatus for semiconductor device material development of claim 1, wherein: the auxiliary portion (3) includes:

the base body (301), the base body (301) is fixedly connected to the main body plate (1) through bolts, two sliding grooves (302) are symmetrically formed in the base body (301), and the two sliding grooves (302) are both of a T-shaped groove structure;

the sliding block (303), the sliding block (303) is a rectangular block structure, the sliding block (303) is in contact with the blank (5), and two bulges (304) are welded on the sliding block (303); the two bulges (304) are connected with the two sliding grooves (302) in a sliding mode, and the sliding block (303) is connected with the indicator lamp (401) through a lead.

6. The selective test apparatus for semiconductor device material development of claim 1, wherein: the auxiliary portion (3) further includes:

the sliding rod (305), the sliding rod (305) is installed on the sliding block (303), and the sliding rod (305) is connected to the base body (301) in a sliding manner; two elastic pieces (306) are sleeved on the sliding rod (305), and the two elastic pieces (306) jointly form an elastic reset structure of the sliding block (303) and the sliding rod (305).

7. The selective test apparatus for semiconductor device material development of claim 1, wherein: the auxiliary portion (3) further includes:

a wiping block A (307), the wiping block A (307) is adhered on the sliding block (303), and the wiping block A (307) is elastically contacted with the contact piece (201).

Technical Field

The invention belongs to the technical field of semiconductor testing, and particularly relates to a selective testing device for semiconductor material research and development.

Background

In the process of developing semiconductor materials, a plurality of semiconductor materials need to be subjected to power-on test to test the conduction condition of the semiconductor materials.

As in application No.: CN201410606182.7, a semiconductor test fixture, comprising: a substrate; the test device comprises a substrate, a plurality of test needles and a plurality of test pins, wherein the plurality of test needles are positioned on the substrate, each test needle comprises a first test needle, and each first test needle comprises a first body, a first test end positioned at one end of the first body and a first connecting end positioned at the other end of the first body; an insulator covering a first body surface of the first test pin; the second testing needle is positioned on the surface of the insulator and surrounds the first testing needle, the second testing needle is coaxial with the first testing needle, the second testing needle comprises a second body, a second testing end positioned at one end of the second body and a second connecting end positioned at the other end of the second body, and the surface of the second testing end is flush with the surface of the first testing end; and the detection unit is electrically connected with the first connecting end of the first test needle or the second connecting end of the second test needle. Whether the contact between the test needle head and the tested terminal is good or not is detected through the detection unit when the electrical performance is tested.

The semiconductor test apparatus similar to the above application has the following disadvantages at present:

one is that, although the existing device can realize the test of the conductive state of the semiconductor material through the contact between the semiconductor material and the test circuit, the structure is too single, and the multiple cleaning of the indicator light and the wiping cleaning of the contact sheet cannot be automatically realized in the process of realizing the semiconductor conductive test through structural improvement; moreover, most of the contact pieces of the existing device are fixed on the main body plate through bolts, so that the contact pieces are not convenient to assemble and disassemble, and cannot be combined with the main body plate through structural improvement; finally, the fixing bolt of the existing device main body plate is easy to loosen, and the elastic looseness prevention of the fixing bolt cannot be realized through structural improvement.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a selective testing apparatus for semiconductor material research and development is provided to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a selective testing device for semiconductor material development, so as to solve the problem that the existing device can realize the test of the conductive state of the semiconductor material through the contact between the semiconductor material and the testing circuit, but the structure is too single, and the multiple cleaning of the indicator light and the wiping cleaning of the contact sheet cannot be automatically realized through the improvement of the structure in the process of realizing the semiconductor conductive test; moreover, most of the contact pieces of the existing device are fixed on the main body plate through bolts, so that the contact pieces are not convenient to assemble and disassemble, and cannot be combined with the main body plate through structural improvement; finally, the fixing bolt of the existing device main body plate is easy to loosen, and the problem of elastic looseness prevention of the fixing bolt cannot be realized through structural improvement.

The invention relates to a selective test device for semiconductor material research and development, which is achieved by the following specific technical means:

a selective test device for semiconductor material research and development comprises a main body plate; the main body plate is fixed on the workbench, a mounting seat is arranged on the main body plate, and a blank is placed on the mounting seat; the main part board includes: the two support plates are symmetrically welded on the bottom end face of the main body plate; the two fixing bolts are arranged and are inserted into the main body plate; the fixing bolt is in threaded connection with the workbench, and the main body plate is in an elastic deformation shape after the fixing bolt is screwed down; the main body board is provided with an auxiliary part, and the auxiliary part is provided with a testing part.

Further, the main body plate further includes: the clamping grooves are arranged in two, and the two clamping grooves are respectively formed in the two supporting plates; the two clamping grooves are of rectangular groove-shaped structures, an installation seat is inserted into the two clamping grooves together, and the installation seat is in a clamping and fixing state after the fixing bolt is screwed down; the two baffles are symmetrically welded on the main body plate; two baffles are trapezoidal block structures and are in contact with the blank.

Furthermore, the mounting base is of an I-shaped structure, a contact piece is adhered to the mounting base, and the contact piece is connected with the indicator light through a lead.

Further, the auxiliary portion includes: the seat body is fixedly connected to the main body plate through bolts, two sliding grooves are symmetrically formed in the seat body, and the two sliding grooves are of T-shaped groove structures; the sliding block is of a rectangular block structure and is in contact with the blank, and two bulges are welded on the sliding block; two archs and two sliding tray sliding connection, and the sliding block is connected with the pilot lamp through the wire.

Further, the auxiliary portion further includes:

the sliding rod is arranged on the sliding block and is connected to the seat body in a sliding manner; two elastic pieces are sleeved on the sliding rod, and the two elastic pieces jointly form an elastic reset structure of the sliding block and the sliding rod.

Further, the auxiliary portion further includes:

and the wiping block A is adhered to the sliding block and is in elastic contact with the contact piece.

Further, the auxiliary portion further includes:

the auxiliary block is arranged on the sliding rod and provided with a groove; through holes are formed in the grooves in a linear array shape and are aligned with the indicator lamps; the height of the auxiliary block is equal to that of the baffle, and the height of the auxiliary block and the height of the baffle are both higher than that of the impeller.

Further, the test section includes:

the indicating lamp is arranged on the seat body, and the seat body is rotatably connected with a rotating seat; the rotating seat is of an annular structure and is sleeved outside the indicating lamp; the rotating seat is rotatably connected with a rotating shaft, the rotating shaft is provided with a wiping block B, and the wiping block B is contacted with the indicator light; the impeller is installed on the rotating shaft and aligned with the indicator light.

Furthermore, the sliding rod is of a bent structure and is in contact with the rotating seat.

Compared with the prior art, the invention has the following beneficial effects:

through the matching arrangement of the main body plate and the mounting seat, firstly, two supporting plates are arranged, and the two supporting plates are symmetrically welded on the bottom end face of the main body plate; the number of the fixing bolts is two, and the two fixing bolts are inserted in the main body plate; the fixing bolt is in threaded connection with the workbench, and the main body plate is in an elastic deformation shape after the fixing bolt is screwed down, so that the locking of the fixing bolt can be realized through the elastic return of the main body plate;

secondly, two clamping grooves are arranged, and the two clamping grooves are respectively formed in the two supporting plates; two draw-in grooves are rectangle slot-shaped structure, and peg graft jointly in two draw-in grooves and have a mount pad to the mount pad is tight fixed form of clamp after fixing bolt screws up, thereby need not the exclusive use bolt and fix the mount pad.

Through the arrangement of the auxiliary part, firstly, the wiping block A is adhered to the sliding block and is in elastic contact with the contact piece, so that the contact piece can be wiped and cleaned through the wiping block A when the sliding block slides forwards and backwards;

secondly, the auxiliary block is arranged on the sliding rod and provided with a groove; through holes are formed in the grooves in a linear array manner and are aligned with the indicating lamps, so that wind power collected by the grooves and the through holes can blow to the indicating lamps when the sliding rod slides backwards, and further wind power heat dissipation of the indicating lamps and pneumatic cleaning of dust on the indicating lamps are realized;

thirdly, the indicator light is arranged on the seat body, and the seat body is rotatably connected with a rotating seat; the rotating seat is of an annular structure and is sleeved outside the indicating lamp; the rotating seat is rotatably connected with a rotating shaft, the rotating shaft is provided with a wiping block B, and the wiping block B is in contact with the indicator lamp, so that dust on the outer wall of the indicator lamp can be adhered and cleaned through the wiping block B when the rotating seat rotates;

fourthly, because the impeller is arranged on the rotating shaft and aligned with the indicator light, the temperature reduction and wind power dust removal of the indicator light can be realized through the impeller when the rotating shaft rotates; fifthly, the sliding rod is of a bent structure and is in contact with the rotating seat, so that the rotating seat can rotate when the sliding rod slides backwards.

Through the setting of baffle and auxiliary block, because of the height of auxiliary block and baffle equals, and the height of auxiliary block and baffle all is higher than the height of impeller to can realize colliding with the protection of impeller through auxiliary block and baffle.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is a left side view of the present invention.

Fig. 5 is a schematic top view of the present invention.

Fig. 6 is an enlarged view of the structure of fig. 5B according to the present invention.

Fig. 7 is an axial view of the present invention in a disassembled configuration.

Fig. 8 is an enlarged view of the structure of fig. 7 at C according to the present invention.

FIG. 9 is an enlarged axial view of the auxiliary portion and the test portion of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body plate; 101. a support plate; 102. fixing the bolt; 103. a card slot; 104. a baffle plate; 2. a mounting seat; 201. a contact piece; 3. an auxiliary part; 301. a base body; 302. a sliding groove; 303. a slider; 304. a protrusion; 305. a slide bar; 306. an elastic member; 307. a wiping block A; 308. an auxiliary block; 309. a groove; 310. a through hole; 4. a test section; 401. an indicator light; 402. a rotating seat; 403. a rotating shaft; 404. a wiping block B; 405. an impeller; 5. and (5) blank.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides a selective test device for semiconductor material research and development, which comprises a main body plate 1; the main body plate 1 is fixed on the workbench, the main body plate 1 is provided with an installation seat 2, and a blank 5 is placed on the installation seat 2; the main body plate 1 is provided with an auxiliary part 3, and the auxiliary part 3 is provided with a testing part 4; the assist portion 3 includes: the base body 301 is fixedly connected to the main body plate 1 through bolts, two sliding grooves 302 are symmetrically formed in the base body 301, and the two sliding grooves 302 are both of a T-shaped groove structure; the sliding block 303, the sliding block 303 is a rectangular block structure, the sliding block 303 is in contact with the blank 5, and two protrusions 304 are welded on the sliding block 303; the two protrusions 304 are in sliding connection with the two sliding grooves 302, and the sliding block 303 is connected with the indicator lamp 401 through a lead, so that the power-on condition test can be realized when the blank 5 is in contact with the sliding block 303 and the contact piece 201; a sliding rod 305, wherein the sliding rod 305 is installed on the sliding block 303, and the sliding rod 305 is connected to the base body 301 in a sliding manner; the sliding rod 305 is sleeved with two elastic pieces 306, and the two elastic pieces 306 jointly form an elastic reset structure of the sliding block 303 and the sliding rod 305, so that the sliding block 303 can be automatically reset through the elastic pieces 306 after the sliding block 303 loses extrusion force; a wiping block A307, wherein the wiping block A307 is adhered to the sliding block 303, and the wiping block A307 is elastically contacted with the contact piece 201, so that the wiping cleaning of the contact piece 201 can be realized through the wiping block A307 when the sliding block 303 slides forwards and backwards; the auxiliary block 308, the auxiliary block 308 is installed on the sliding rod 305, and the auxiliary block 308 is provided with a groove 309; through holes 310 are formed in the groove 309 in a linear array shape, and the through holes 310 are aligned with the indicator lamp 401, so that when the sliding rod 305 slides backwards, wind power collected at the groove 309 and the through holes 310 can blow to the indicator lamp 401, and further wind power heat dissipation of the indicator lamp 401 and pneumatic cleaning of dust on the indicator lamp 401 are achieved; the height of the auxiliary block 308 is equal to that of the baffle 104, and the height of the auxiliary block 308 and that of the baffle 104 are both higher than that of the impeller 405, so that the impeller 405 can be protected against collision through the auxiliary block 308 and the baffle 104.

Referring to fig. 4, the main body plate 1 includes: two supporting plates 101 are arranged, and the two supporting plates 101 are symmetrically welded on the bottom end face of the main body plate 1; two fixing bolts 102 are arranged, and the two fixing bolts 102 are inserted into the main body plate 1; the fixing bolt 102 is in threaded connection with the workbench, and the main body plate 1 is in an elastic deformation shape after the fixing bolt 102 is screwed down, so that the locking of the fixing bolt 102 can be realized through the elastic return of the main body plate 1; the number of the clamping grooves 103 is two, and the two clamping grooves 103 are respectively arranged on the two supporting plates 101; two draw-in grooves 103 are rectangle slot-shaped structure, and peg graft jointly in two draw-in grooves 103 and have a mount pad 2 to after fixing bolt 102 screws up mount pad 2 is the tight fixed form of clamp, thereby need not the exclusive use bolt and fix mount pad 2.

Referring to fig. 1, the main body plate 1 further includes: the number of the baffle plates 104 is two, and the two baffle plates 104 are symmetrically welded on the main body plate 1; two baffles 104 are trapezoidal block structures, and two baffles 104 all contact with blank 5 to the convenience when can improve blank 5 and place.

Referring to fig. 7, the mounting base 2 has an i-shaped structure, a contact piece 201 is adhered to the mounting base 2, and the contact piece 201 is connected to an indicator lamp 401 through a wire.

Referring to fig. 2 and 3, the test section 4 includes: the indicating lamp 401 is installed on the base body 301, and the base body 301 is rotatably connected with a rotating base 402; the rotating seat 402 is of an annular structure, and the rotating seat 402 is sleeved outside the indicator lamp 401; a rotating shaft 403 is rotatably connected to the rotating seat 402, a wiping block B404 is installed on the rotating shaft 403, and the wiping block B404 is in contact with the indicator lamp 401, so that when the rotating seat 402 rotates, dust on the outer wall of the indicator lamp 401 can be adhered and cleaned through the wiping block B404; the impeller 405, the impeller 405 is installed on the rotating shaft 403, and the impeller 405 is aligned with the indicator light 401, so that when the rotating shaft 403 rotates, the temperature of the indicator light 401 can be reduced and dust can be removed by wind power through the impeller 405.

Referring to fig. 5 and 6, the sliding rod 305 has a curved structure, and the sliding rod 305 is in contact with the rotating seat 402, so that the rotation of the rotating seat 402 can be achieved when the sliding rod 305 slides backward.

In another embodiment, the through holes 310 are tapered hole-shaped structures, so that the wind force collecting effect can be improved.

The specific use mode and function of the embodiment are as follows:

when the main body plate 1 and the mounting seat 2 are fixed, firstly, the mounting seat 2 is inserted into the clamping groove 103, then the two fixing bolts 102 are in threaded connection with a workbench, firstly, the main body plate 1 is in an elastic deformation shape after the fixing bolts 102 are screwed, and therefore the locking of the fixing bolts 102 can be realized through elastic return of the main body plate 1; secondly, the mounting base 2 is in a clamping and fixing state after the fixing bolt 102 is screwed down, so that the mounting base 2 does not need to be fixed by using a bolt alone;

when the impeller is placed, the auxiliary block 308 and the baffle 104 are equal in height, and the auxiliary block 308 and the baffle 104 are higher than the impeller 405, so that collision protection of the impeller 405 can be realized through the auxiliary block 308 and the baffle 104;

during the insertion of the blank 5, the blank 5 contacts the sliding block 303, then the blank 5 is pushed further, and the blank 5 contacts the contact piece 201, and the circuit is completed through the blank 5, so that the detection of the power-on state of the blank 5 is completed, and during the operation, firstly, the wiping block a307 is adhered to the sliding block 303, and the wiping block a307 is elastically contacted with the contact piece 201, so that the wiping cleaning of the contact piece 201 can be realized through the wiping block a307 when the sliding block 303 slides back and forth; secondly, since the auxiliary block 308 is installed on the sliding rod 305, and the auxiliary block 308 is provided with a groove 309; through holes 310 are formed in the groove 309 in a linear array shape, and the through holes 310 are aligned with the indicator lamp 401, so that when the sliding rod 305 slides backwards, wind power collected at the groove 309 and the through holes 310 can blow to the indicator lamp 401, and further wind power heat dissipation of the indicator lamp 401 and pneumatic cleaning of dust on the indicator lamp 401 are achieved; thirdly, the indicator lamp 401 is installed on the base body 301, and the base body 301 is rotatably connected with a rotating base 402; the rotating seat 402 is of an annular structure, and the rotating seat 402 is sleeved outside the indicator lamp 401; a rotating shaft 403 is rotatably connected to the rotating seat 402, a wiping block B404 is installed on the rotating shaft 403, and the wiping block B404 is in contact with the indicator lamp 401, so that when the rotating seat 402 rotates, dust on the outer wall of the indicator lamp 401 can be adhered and cleaned through the wiping block B404; fourthly, because the impeller 405 is installed on the rotating shaft 403 and the impeller 405 is aligned with the indicator light 401, when the rotating shaft 403 rotates, the temperature reduction and wind power dust removal of the indicator light 401 can be realized through the impeller 405; fifth, since the sliding rod 305 has a curved structure and the sliding rod 305 contacts the rotating seat 402, the rotating seat 402 can rotate when the sliding rod 305 slides backward.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.