CN207602539U - A kind of silicon dice transfer device - Google Patents

Abstract

The utility model discloses a kind of silicon dice transfer devices, including about two spaced frames and the column being connected between two frames, the interior parallel of each frame is arranged at intervals with several guide rails, the guide rail in two frames corresponds, and a pillar that can be slided along its length is respectively connected between guide rail described in corresponding each two, the same side of each pillar is respectively connected with the push rod for sliding along direction extension, the extending end of the push rod is connected with the U-shaped tentacle that can block silicon chip, the corresponding pillar linkage setting of the guide rail in the same frame.The silicon dice transfer device can disposably push in several pieces silicon chips to Carrier box, reduce the time of fragment, ensure the consistency of experiment condition.

Description

A kind of silicon dice transfer device

Technical field

The utility model is related to silicon chip production and processing technical fields more particularly to one kind to be used to help silicon chip and produce and process The silicon dice transfer device shifted in the process.

Background technology

Solar battery sheet needs to carry out a large amount of accurate experiment comparison during research and development and process improving, realistic The condition of testing is consistent, for this reason, it may be necessary to which same type cell piece is carried out formula decile of dealing out the cards, specifically, the formula of dealing out the cards is divided into：It will dress It is loaded in multiple silicon chips in a Carrier box and carries out decile as a test group according to every certain amount, and this certain number of silicon chip Extracting mode can then be carried out according to 1,2,3,4,5 ... sequence extraction decile or according to 1,3,5,7,9 ..., 2,4, 6th, 8,10 ... sequence extraction carry out decile or according to 1,5,10,15,20 ..., 2,6,11,16,21 ..., 3,7,12, 17th, 22 ... sequence extraction carries out decile, this in a manner that certain rule extracts silicon chip, usually relies on and manually uses tweezers By cell piece from Carrier box branching away one by one, can take a substantial amount of time in this way, working efficiency is especially low；Simultaneously Abnormal, the consistency of breaking test condition such as cell piece appearance scuffing, breakage are easy to cause during manually taking piece, fragment, The situations such as the failure of an experiment is caused to occur.

Therefore, there is an urgent need for a kind of novel silicon dice transfer devices to solve above-mentioned technical problem.

Utility model content

The purpose of this utility model is that proposing a kind of silicon dice transfer device, several pieces silicon chips can be disposably pushed to carrying In box, the time of fragment is reduced, ensures the consistency of experiment condition.

For this purpose, the utility model uses following technical scheme：

A kind of silicon dice transfer device including about two spaced frames and is connected between two frames Column, the interior parallel of each frame are arranged at intervals with several guide rails, and the guide rail one in two frames is a pair of Should, and a pillar that can be slided along its length is respectively connected between guide rail described in corresponding each two, it is each described The same side of pillar is respectively connected with the push rod for sliding along direction extension, and the extending end of the push rod, which is connected with, can block silicon The U-shaped tentacle of piece, the corresponding pillar linkage setting of the guide rail in the same frame.

Wherein, the guide rail slide and be detachably set to the frame two of the both ends corresponding to the guide rail On relative side.

Wherein, two sides of the frame are arranged at intervals with several locating grooves along its length respectively, described Guide rail can switch in the different locating grooves.

Wherein, the pillar include pillar ontology and the sliding part positioned at the pillar ontology both ends, the sliding part with The guide rail is slidably matched.

Wherein, the sliding part is link, and the link is internally provided with through-hole, and the guide rail is set across the through-hole It puts.

Wherein, the sliding part is ballhead, and the bottom of the guide rail offers sliding groove, the ball along its length Forming head is slideably positioned in the sliding groove.

Wherein, the push rod is slided and is detachably set on the pillar.

Wherein, the side corresponding to the push rod of the pillar offers card slot along its length, the push rod There is push rod connector corresponding to the end set of the pillar, the push rod connector is slideably positioned in the card slot.

Wherein, limiting device is provided in the card slot, the push rod is fixed therein a position.

Wherein, the pillar is connected with handle.

The beneficial effects of the utility model are：

The silicon dice transfer device of the utility model pushes pillar and then push rod is driven to be moved along the length direction of guide rail, And together towards the silicon chip linkage in Carrier box, until the tentacle of push rod end contacts and silicon chip is made to be caught in the U-type groove of tentacle Afterwards, pillar is continued to press on so as to which the corresponding silicon chip of tentacle be pushed to be directly transferred to test in Carrier box used, and then completes silicon The disposable transfer of piece loads, and reduces the time of fragment, and ensure the consistency of experiment condition.

Description of the drawings

Fig. 1 is the structure diagram of silicon dice transfer device provided by the utility model；

Fig. 2 is the side view of the silicon dice transfer device in Fig. 1；

Fig. 3 is the vertical view of the silicon dice transfer device in Fig. 1；

Fig. 4 is the attachment structure schematic diagram of the pillar and guide rail in Fig. 1；

Fig. 5 is the attachment structure schematic diagram of the push rod and pillar in Fig. 1.

In figure：1- frames；2- columns；3- guide rails；4- pillars；41- pillar ontologies；411- card slots；42- links；421- leads to Hole；5- push rods；51- push rod connectors；6- tentacles；7- handles.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

As shown in Figures 1 to 3, a kind of silicon dice transfer device, for by the silicon chip in a Carrier box according to formula decile of dealing out the cards Mode is transferred in another Carrier box, for being tested.The silicon dice transfer device includes about two spaced frames 1 And it is connected to the column 2 between two frames 1.The interior parallel of each frame 1 is arranged at intervals with several guide rails 3, two frames 1 In guide rail 3 correspond, and a branch that can be slided along its length is respectively connected between corresponding each two guide rail 3 Column 4, the same side of each pillar 4 are respectively connected with the push rod 5 for sliding along direction extension, and the extending end of push rod 5 is connected with energy Enough block the U-shaped tentacle 6 of silicon chip, 3 corresponding pillar 4 of the guide rail linkage setting in same frame 1.

The silicon dice transfer device of the utility model pushes pillar and then push rod is driven to be moved along the length direction of guide rail, And together towards the silicon chip linkage in Carrier box, until the tentacle of push rod end contacts and silicon chip is made to be caught in the U-type groove of tentacle Afterwards, pillar is continued to press on so as to which the corresponding silicon chip of tentacle be pushed to be directly transferred to test in Carrier box used, and then completes silicon The disposable transfer of piece loads, and reduces the time of fragment, and ensure the consistency of experiment condition.In this entire transfer process, It no longer needs to pinch silicon chip, silicon chip is avoided to be damaged or pollute.

In the present embodiment, it for example, it is assumed that the silicon chip in Carrier box is 100, needs to test its 10 grade point, because And 10 are extracted every time, and this 10 extracted every time can be：

1、2、3、4、5、6、7、8、9、10；11、12、13、14、15、16、17、18、19、20；……；91、92、93、94、 95、96、97、98、99、100；Or

1、11、21、31、41、51、61、71、81、91；2、12、22、32、42、52、62、72、82、92；……；10、20、 30、40、50、60、70、80、90、100。

Certainly, herein only two of which carry out 10 deciles extracting mode, it is not limited to this.In other implementations In example, 5 deciles or other deciles can also be carried out.

When in use, then the silicon chip that can be extracted as needed position in Carrier box determines the position of push rod, And the position of push rod can be adjusted by the position of pillar and guide rail.

The frame 1 of the utility model uses quadrilateral structure, the side being oppositely arranged including two groups, four vertex Connect column 2.Preferably, each side of two frames 1 and column 2 are using high molecular material, and use between each other The form of seamless welding is connected to become a tower structure, and the structural stability is strong, and reliability is high.It guide rail 3, pillar 4 and pushes away Bar 5 etc. is all connected to the inside of the tower structure.

Wherein, guide rail 3 slides and is detachably set to two relative sides at the both ends corresponding to guide rail 3 of frame 1 On, and guide rail 3 can be dismantled.Preferably, two sides of frame 1 are arranged at intervals with several positioning cards along its length respectively Slot, guide rail 3 can switch in different locating grooves.

Further, pillar 4 includes pillar ontology 41 and the sliding part positioned at 41 both ends of pillar ontology, sliding part and guide rail 3 are slidably matched.As a kind of preferred embodiment, as shown in figure 4, sliding part is link 42, link 42 is internally provided with through-hole 421, Guide rail 3 is set across through-hole 421.As another preferred embodiment, sliding part is ballhead, and the bottom of guide rail 3 is square along its length To sliding groove is offered, ballhead is slideably positioned in sliding groove.

Further, push rod 5 is slided and is detachably set on pillar 4.As shown in figure 5, pillar 4 corresponds to push rod 5 side offers card slot 411 along its length, and the end set corresponding to pillar 4 of push rod 5 has push rod connector 51, Push rod connector 51 is slideably positioned in card slot 411.

In order to ensure that push rod 5 can be flexibly fixed at any position, limiting device is provided in card slot 411.The limiting Device can be across the screw or pin being caught in after pillar 4 in push rod connector 51, or across 4 rear support of pillar in The supporting rod of the bottom of push rod connector 51.

Particularly, tentacle 6 is removably connected to push rod 5, installation direction can according to the direction residing for silicon chip flexibly come It is fixed.

For the ease of all pillars 4 is made to link together, all pillars 4 in the utility model are connected to one by a connecting rod It rises, and is connected with handle 7, by pushing handle 7, can realize the movement together of pillar 4 and above push rod 5, such as to being pushed forward It moves or pulls back.

The advantage of the silicon dice transfer device is：

1st, the quantity of decile can be needed according to cell piece, push rod and tentacle are flexibly installed, disposably turns required cell piece It moves in Carrier box, reduces the time of fragment, stablize experimental reliability, reduce time, material input cost；

2nd, each component is mainly made of high molecular material, light-weight, small, and occupied space position is small, convenient for placing, It is easy for operation；

3rd, guide rail, pillar, tentacle are all using detachable pattern, convenient for maintenance and cleaning.

The technical principle of the utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality With novel principle, and it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on explanation herein, Those skilled in the art would not require any inventive effort the other specific embodiments that can associate the utility model, These modes are fallen within the scope of protection of the utility model.

Claims (10)

1. a kind of silicon dice transfer device, which is characterized in that including about two spaced frames (1) and be connected to two institutes The column (2) between frame (1) is stated, the interior parallel of each frame (1) is arranged at intervals with several guide rails (3), two institutes The guide rail (3) stated in frame (1) corresponds, and be respectively connected with an energy between guide rail (3) described in corresponding each two Enough pillars (4) slided along its length, the same side of each pillar (4), which is respectively connected with, slides along direction extension Push rod (5), the extending end of the push rod (5) are connected with the U-shaped tentacle (6) that can block silicon chip, in the same frame (1) The corresponding pillar (4) the linkage setting of the guide rail (3).

2. silicon dice transfer device according to claim 1, which is characterized in that the guide rail (3) is slided and detachably set In on two relative sides at the both ends corresponding to the guide rail (3) of the frame (1).

3. silicon dice transfer device according to claim 2, which is characterized in that two sides of the frame (1) point It is not arranged at intervals with several locating grooves along its length, the guide rail (3) can switch in the different locating grooves.

4. silicon dice transfer device according to claim 1, which is characterized in that the pillar (4) includes pillar ontology (41) With the sliding part positioned at pillar ontology (41) both ends, the sliding part is slidably matched with the guide rail (3).

5. silicon dice transfer device according to claim 4, which is characterized in that the sliding part be link (42), the extension Ring (42) is internally provided with through-hole (421), and the guide rail (3) is set across the through-hole (421).

6. silicon dice transfer device according to claim 4, which is characterized in that the sliding part be ballhead, the guide rail (3) bottom offers sliding groove along its length, and the ballhead is slideably positioned in the sliding groove.

7. silicon dice transfer device according to claim 1, which is characterized in that the push rod (5) is slided and detachably set In on the pillar (4).

8. silicon dice transfer device according to claim 7, which is characterized in that the pillar (4) corresponds to the push rod (5) side offers card slot (411), the end set corresponding to the pillar (4) of the push rod (5) along its length There is push rod connector (51), the push rod connector (51) is slideably positioned in the card slot (411).

9. silicon dice transfer device according to claim 8, which is characterized in that limiting dress is provided in the card slot (411) It puts, the push rod (5) is fixed therein a position.

10. according to claim 1~9 any one of them silicon dice transfer device, which is characterized in that the pillar (4) is connected with Handle (7).