CN209935278U

CN209935278U - Buffering transition platform for automatic LED wafer sorting machine

Info

Publication number: CN209935278U
Application number: CN201920631111.0U
Authority: CN
Inventors: 陈国强; 董月宁; 代立民
Original assignee: Shandong Hongrui Photoelectric Technology Co Ltd
Current assignee: Shandong Hongrui Photoelectric Technology Co Ltd
Priority date: 2019-05-06
Filing date: 2019-05-06
Publication date: 2020-01-14
Anticipated expiration: 2029-05-06

Abstract

The utility model discloses a buffer transition platform for an automatic LED wafer sorting machine, which comprises a buffer table, wherein the buffer table is supported and accurately positioned with the buffer table through four guide shafts, and the buffer table can slide in the Z direction; the cushion table supports and is provided with the cylinder, and the baffle is connected to the cylinder, and the cylinder is ventilated and is driven the baffle and go upward along Z to, is provided with two Z on the cushion table to the stopper, and two Z are spacing on going upward to stopper restriction baffle, and the upper surface of lower right baffle and lower left baffle is on the coplanar, and when the baffle rose topmost, the platform that lower right baffle and lower left baffle formed and the wafer frame parallel and level that is about to material loading and unloading guaranteed that the wafer frame passes through smoothly.

Description

Buffering transition platform for automatic LED wafer sorting machine

Technical Field

The utility model relates to a LED wafer automatic separation machine, specific theory relates to a buffering transition platform for LED wafer automatic separation machine belongs to LED wafer manufacturing technical field.

Background

The current LED wafer is selected separately at the sorting in-process, need remove the wafer from a station to another station, because the structure reason of LED wafer selection self at present, hardly guarantees that the wafer frame passes through smoothly, can cause to select separately the efficiency ratio lower, want to realize in narrow and small space moving the wafer from a station to another station, also need the very complicacy that the manipulator set up.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the buffer transition platform is provided, and the buffer transition platform can ensure that the wafer rack can pass through smoothly in a narrow space; the structure realizes the loading and unloading of the wafer in a limited space; thereby improving the sorting efficiency.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a LED wafer automatic separation machine is with buffering transition platform, includes the cushion block, its characterized in that: the buffer table is accurately positioned with the buffer table support through four guide shafts, and can slide in the Z direction;

the buffer table support is provided with a cylinder which is connected with the clapboard,

the air cylinder is ventilated to drive the clapboard to move upwards along the Z direction,

two Z-direction stoppers are arranged on the buffer table and limit the partition plate to move upwards for limiting,

the upper surfaces of the lower right clapboard and the lower left clapboard are on the same plane,

when the baffle rises to the topmost, the platform that lower right baffle and lower left baffle formed with the wafer cassette parallel and level that is about to the unloading, guarantee that the wafer cassette passes through smoothly.

The following is a further improvement of the above technical solution:

the air cylinder is ventilated to drive the clapboard to move downwards along the Z direction,

the clapboard is provided with an upper right clapboard and an upper left clapboard,

the upper surfaces of the upper right clapboard and the upper left clapboard are on the same plane,

the right baffle and the left baffle form a platform and are about to the wafer rack parallel and level of material loading when the baffle all descends, guarantee that the wafer rack passes through smoothly.

A Z-stop is fastened to the buffer table, the Z-stop having a concave notch that limits a rising position of the partition plate.

The cylinder is connected with the partition board through a piston rod of the cylinder, and four shaft sleeves are connected to four corners of the partition board;

each shaft sleeve is provided with a guide shaft, and the guide shaft is in interference fit with the buffer table and is fastened by a locking screw;

due to the matching of the shaft sleeve and the guide shaft, the partition plate can move up and down under the driving of the cylinder along the relative sliding direction of the shaft sleeve and the guide shaft.

The lower right baffle and the upper right baffle are fastened with the baffles through bolts, and the lower right baffle and the upper right baffle are arranged at the position, close to the end part of one side, of the buffer table.

The lower left clapboard and the upper left clapboard are fastened with the clapboards through bolts, the lower left clapboard corresponds to the lower right clapboard in position, and the upper left clapboard is arranged opposite to the upper right clapboard.

The lower right baffle and the lower left baffle form a platform.

The utility model adopts the above technical scheme, compare with prior art, have following advantage: the cylinder is ventilated and is driven the baffle to descend along Z, makes right baffle and last left baffle form a platform and with be about to the wafer frame parallel and level of material loading and unloading, guarantees that the wafer frame passes through smoothly, makes the material loading and the unloading of wafer obtain realizing in limited space through this structure.

Drawings

Fig. 1 is a schematic structural diagram of a buffer transition platform for an automatic sorting machine of LED chips in an embodiment of the present invention;

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

FIG. 3 is a sectional view taken along line B-B of FIG. 1;

in the figure, the position of the upper end of the main shaft,

1-a separator; 2-lower right baffle plate; 3-mounting a right clapboard; 4-lower left baffle plate; 5-upper left baffle plate; 7-shaft sleeve; 8-locking screws; 9-a buffer stage; a 10-Z-direction stopper; 11-a guide shaft; 12-a cushion table support; 13-positioning plate; 17-cylinder.

Detailed Description

In the embodiment, as shown in fig. 1, fig. 2 and fig. 3, a buffer transition platform for an automatic sorting machine for LED chips comprises a buffer table 9, wherein the buffer table 9 is precisely positioned with a buffer table support 12 through four guide shafts 11, and the buffer table 9 can slide in the Z direction.

The buffer table support 12 is provided with an air cylinder 17, the air cylinder 17 is connected with the partition board 1, the air cylinder 17 is ventilated to drive the partition board 1 to move upwards along the Z direction, the buffer table 9 is provided with two Z direction stoppers 10, the two Z direction stoppers 10 limit the partition board 1 to move upwards for limiting, and the upper surfaces of the lower right partition board 2 and the lower left partition board 4 are on the same plane.

When baffle 1 rose to the top, the platform that lower right baffle 2 and lower left baffle 4 formed and the wafer frame parallel and level that are about to material loading and unloading guaranteed that the wafer frame passes through smoothly.

The cylinder 17 is ventilated and is driven baffle 1 and down along the Z, is provided with right baffle 3 and last left baffle 5 on the baffle 1, goes up right baffle 3 and the upper surface of last left baffle 5 on the coplanar, goes up right baffle 3 and last left baffle 5 and forms a platform and the wafer frame parallel and level that is about to material loading and unloading when baffle 1 is all lower down, guarantees that the wafer frame passes through smoothly.

A Z-stopper 10 is fastened to the buffer table 9, and the Z-stopper 10 has a concave notch that restricts the rising position of the partition board 1.

The buffer table 9 is accurately positioned with the buffer table support 12 through four guide shafts 11 and slides in the Z direction.

The air cylinder 17 is fixed on the buffer table 9, the air cylinder 17 is connected with the partition plate 1 through a piston rod of the air cylinder 17, four shaft sleeves 7 are connected to four corners of the partition plate 1, the guide shaft 11 is in interference fit with the buffer table 9 and is fastened by the locking screw 8, and due to the matching of the shaft sleeves 7 and the guide shaft 11, the partition plate 6 can move up and down under the driving of the air cylinder 17 along the relative sliding direction of the shaft sleeves 7 and the guide shaft 11.

Still include right baffle 2 and last right baffle 3 down, right baffle 2 and last right baffle 3 pass through bolt and baffle 6 fastening down, and right baffle 2 and last right baffle 3 set up on the position that the cushion chamber 9 is close to one side tip down, still include left baffle 4 and last left baffle 5 down, and left baffle 4 and last left baffle 5 pass through bolt and baffle 6 fastening down, and left baffle 4 is corresponding with the position of right baffle 2 down, goes up left baffle 5 and sets up with last right baffle 3 relatively.

The lower right partition plate 2 and the lower left partition plate 4 form a platform, and the upper right partition plate 3 and the upper left partition plate 5 form a platform.

Two Z-stops 10 are also included, the two Z-stops 10 being fastened to the buffer table 9, the Z-stops 10 having concave notches which limit the raised position of the partitions 6.

During operation, the cylinder 17 is ventilated to drive the partition plate 6 to move upwards along the Z direction, the two Z direction stoppers 10 limit the partition plate 6 to move upwards for spacing, so that a platform formed by the lower right partition plate 2 and the lower left partition plate 4 is parallel and level with a wafer rack which is about to feed and discharge, and the wafer rack is ensured to pass through smoothly.

The cylinder 17 is ventilated to drive the partition plate 6 to move downwards along the Z direction, so that the upper right partition plate 3 and the upper left partition plate 5 form a platform and are parallel and level with the wafer rack to be subjected to feeding and discharging, the wafer rack is guaranteed to pass through smoothly, and the feeding and discharging of wafers are realized in a limited space through the structure.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a LED wafer automatic separation machine is with buffering transition platform, includes cushion table (9), its characterized in that: the buffer table (9) is accurately positioned with the buffer table support (12) through the four guide shafts (11), and the buffer table (9) can slide in the Z direction;

the cushion table support (12) is provided with a cylinder (17), the cylinder (17) is connected with the clapboard (1),

the air cylinder (17) is ventilated to drive the clapboard (1) to move upwards along the Z direction,

two Z-direction stoppers (10) are arranged on the buffer table (9), the two Z-direction stoppers (10) limit the upward limit of the partition plate (1),

the upper surfaces of the lower right clapboard (2) and the lower left clapboard (4) are on the same plane,

when the clapboard (1) rises to the topmost end, a platform formed by the lower right clapboard (2) and the lower left clapboard (4) is flush with the wafer rack to be blanked.

2. The buffering transition platform for the automatic sorting machine of the LED wafer as claimed in claim 1, wherein: the air cylinder (17) is ventilated to drive the clapboard (1) to move downwards along the Z direction,

an upper right clapboard (3) and an upper left clapboard (5) are arranged on the clapboard (1),

the upper surfaces of the upper right clapboard (3) and the upper left clapboard (5) are on the same plane,

when the partition plate (1) descends to the lowest end, the upper right partition plate (3) and the upper left partition plate (5) form a platform which is flush with the wafer rack to be loaded.

3. The buffering transition platform for the automatic sorting machine of the LED wafer as claimed in claim 2, wherein: a Z-direction stopper (10) is fastened to the buffer table (9), and the Z-direction stopper (10) has a concave notch that restricts the rising position of the partition plate (1).

4. The buffering transition platform for the automatic sorting machine of the LED wafer as claimed in claim 3, wherein: the air cylinder (17) is connected with the partition board (1) through a piston rod of the air cylinder (17), and four corners of the partition board (1) are respectively connected with the shaft sleeves (7);

the guide shaft (11) is assembled on each shaft sleeve (7), and the guide shaft (11) is in interference fit with the buffer table (9) and is fastened by a locking screw (8);

due to the matching of the shaft sleeve (7) and the guide shaft (11), the partition plate (1) can move up and down along the relative sliding direction of the shaft sleeve (7) and the guide shaft (11) under the driving of the air cylinder (17).

5. The buffering transition platform for the LED wafer automatic sorting machine according to claim 4, wherein: the lower right partition plate (2) and the upper right partition plate (3) are fastened with the partition plate (1) through bolts, and the lower right partition plate (2) and the upper right partition plate (3) are arranged at the position, close to the end part of one side, of the buffer table (9).

6. The buffering transition platform for the LED wafer automatic sorting machine of claim 5, wherein: the novel combined type water-saving filter is characterized by further comprising a lower left partition plate (4) and an upper left partition plate (5), wherein the lower left partition plate (4) and the upper left partition plate (5) are fastened with the partition plate (1) through bolts, the lower left partition plate (4) corresponds to the lower right partition plate (2), and the upper left partition plate (5) is arranged opposite to the upper right partition plate (3).

7. The buffering transition platform for the automatic sorting machine of the LED wafer as claimed in claim 6, wherein: the lower right clapboard (2) and the lower left clapboard (4) form a platform.