CN212542370U - Semiconductor intelligent sand blowing production line - Google Patents

Abstract

The utility model relates to a semiconductor wafer technical field specifically is a semiconductor intelligence blows husky production line, and it can improve and blow husky efficiency, easy operation, and it includes the workstation and blows husky machine, a serial communication port, the other magazine that sets up of workstation snatchs the robot, the middle piece robot of getting, blows husky and gets the piece robot, be provided with two correspondences on the workstation blow husky location platform, two of getting the piece robot correspond the middle magazine of getting the piece robot is placed the district, it includes the carousel to blow husky machine, evenly be provided with the wafer on the carousel and place the board, the wafer is placed the board slope and is arranged and the up end is provided with the wafer support column.

Description

Semiconductor intelligent sand blowing production line

Technical Field

The utility model relates to a semiconductor wafer technical field specifically is a semiconductor intelligence blows husky production line.

Background

Silicon is a grey, fragile and quadrivalent nonmetallic chemical element, a semiconductor wafer mainly comprises silicon and is a thin grey wafer, the silicon is very easy to break, a sand blowing machine is needed to blow sand after the silicon wafer is processed, the traditional operation is completed manually, the silicon wafer is taken out of a material box and placed into the sand blowing machine, the silicon wafer is taken out of the material box and placed back into the material box after sand blowing is completed, the operation is difficult, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve current semiconductor wafer and blow husky operating efficiency low, the operation difficulty, the problem of easy piece, the utility model provides a semiconductor intelligence blows husky production line, and it can improve and blow husky efficiency, easy operation.

The technical scheme is as follows: the utility model provides a semiconductor intelligence sand blowing production line, its includes the workstation and blows husky machine, its characterized in that, the other magazine that sets up of workstation snatchs the robot, gets the piece robot in the middle of, blows husky and gets the piece robot, be provided with two correspondences on the workstation blow husky location platform, two correspondences of getting the piece robot in the middle of the magazine of getting the piece robot places the district, it includes the carousel to blow husky machine, evenly be provided with the wafer on the carousel and place the board, the wafer is placed the board slope and is arranged and the up end is provided with the wafer support column.

The magazine grabbing robot is further characterized in that a magazine manipulator is mounted on the magazine grabbing robot and comprises a left clamping plate and a right clamping plate which are symmetrically arranged, the left clamping plate and the right clamping plate are respectively mounted at one ends of a left clamping jaw and a right clamping jaw, the other ends of the left clamping jaw and the right clamping jaw are respectively connected with a fixing seat through a connecting rod, the connecting rod comprises a front connecting rod and a rear connecting rod which are arranged in parallel, two ends of the front connecting rod are respectively hinged with the left clamping jaw/the right clamping jaw and the fixing seat, one end of the rear connecting rod is hinged with the left clamping jaw or the right clamping jaw, gears are mounted at the other ends of the rear connecting rod, the gears connected with the two rear connecting rods are meshed;

the inner side surfaces of the left clamping plate and the right clamping plate are all sawtooth surfaces, and the outer side surfaces of the left clamping plate and the right clamping plate are fixedly connected with the left clamping jaw and the right clamping jaw through connecting frames respectively;

the middle sheet taking robot is provided with a middle sheet taking manipulator, the middle sheet taking manipulator comprises two sheet taking forks, the upper surfaces of the end parts of the sheet taking forks are provided with vacuum material sucking holes, and air channels communicated with the vacuum material sucking holes are formed in the sheet taking forks;

the sand blowing and slice taking robot is provided with two flexible claws, the outer surfaces of the flexible claws are silica gel layers, air cavities are arranged in the flexible claws, and the air cavities are connected with an air source through hoses;

a cylindrical groove is formed in the middle of the positioning table, a step surface for supporting a semiconductor wafer is arranged in the cylindrical groove, two first abdicating grooves matched with the wafer taking fork are formed in the side surface of the positioning table, and second abdicating grooves matched with the two flexible claws are formed in the positioning table;

the magazine grabbing robot is provided with one, and the middle piece taking robot, the sand blowing piece taking robot and the sand blowing machine are provided with two and are respectively arranged on two sides of the workbench.

After the utility model is adopted, the magazine grabbing robot sends the magazine filled with the semiconductor wafers to the magazine placing area, the middle wafer taking robot takes out the wafers and places the wafers on the positioning tables, the sand blowing and wafer taking robot takes out the wafers and places the wafers on the wafer placing plate of the sand blowing machine for sand blowing operation, and the two positioning tables and the two magazine placing areas can realize wafer feeding without sand blowing operation and wafer discharging with sand blowing operation, thereby effectively improving sand blowing efficiency and simplifying operation; furthermore, flexible claws are adopted to grab the wafers to realize feeding and discharging at the sand blowing machine, so that the phenomenon of fragments of the product is avoided, and the product quality is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a magazine robot;

FIG. 3 is a schematic view of a sand blower;

FIG. 4 is a schematic view of the intermediate film taking robot and magazine;

FIG. 5 is a front view of the positioning table structure;

FIG. 6 is a top view of the positioning table structure;

FIG. 7 is a schematic view of a flexible jaw structure.

Detailed Description

See fig. 1 to 7, a semiconductor intelligence sand blowing production line, it includes workstation 1 and two sand blowing machine 2, workstation 1 is other to set up a magazine and snatchs robot 3, two middle piece robots 4 of getting, two sand blowing get piece robots 5, be provided with two location platforms 6 that correspond a sand blowing and get piece robots 5 on the workstation 1, two magazine placing areas that correspond a middle piece robot 4 of getting, magazine placing areas are used for vertically placing magazine 7, including four location platforms 6 and four magazine placing areas altogether, sand blowing machine 2 includes carousel 8, evenly be provided with the wafer on the carousel 8 and place board 9, the wafer is placed board 9 slope and is arranged and the up end is provided with four wafer support columns 10, play the effect of supporting the semiconductor wafer.

The magazine grabbing robot 3 is provided with a magazine manipulator, the magazine manipulator comprises a left clamping plate 11 and a right clamping plate 12 which are symmetrically arranged, the left clamping plate 11 and the right clamping plate 12 are respectively arranged at one end of a left clamping jaw 13 and one end of a right clamping jaw 14, the other end of the left clamping jaw 13 and the other end of the right clamping jaw 14 are respectively connected with a fixed seat 15 through a connecting rod, the connecting rod comprises a front connecting rod 16 and a rear connecting rod 17 which are arranged in parallel, two ends of the front connecting rod 16 are respectively hinged with the left clamping jaw 13/the right clamping jaw 14 and the fixed seat 15, one end of the rear connecting rod 17 is hinged with the left clamping jaw 13 or the right clamping jaw 14, one gear 18 is connected with a driving motor, the driving motor enables one gear 18 to rotate, the other gear 18 rotates along with the gear, the two rear connecting rods 17 swing synchronously, the two front connecting rods 16 also swing synchronously, and finally synchronous clamping or loosening of the left clamping plate 11 and the right clamping plate 12 is achieved.

The inner side surfaces of the left clamping plate 11 and the right clamping plate 12 are sawtooth surfaces, so that the material box 7 can be better clamped, and the outer side surfaces of the left clamping plate 11 and the right clamping plate 12 are fixedly connected with the left clamping jaw 13 and the right clamping jaw 14 through the connecting frame 19 respectively.

The middle piece taking robot 4 is provided with a middle piece taking manipulator, the middle piece taking manipulator comprises two piece taking forks 20 similar to a fork on a forklift, the upper surfaces of the end parts of the piece taking forks 20 are provided with vacuum material sucking holes, air channels communicated with the vacuum material sucking holes are formed in the piece taking forks, when a material is taken, the piece taking forks 20 are moved to the lower part of a wafer and then are lifted to be in contact with the bottom surface of the wafer, and the wafer is adsorbed by the vacuum material sucking holes to be carried.

The middle of the positioning table 6 is provided with a cylindrical groove 21, a step surface 22 for supporting a semiconductor wafer is arranged in the cylindrical groove 21, and the side surface of the positioning table 6 is provided with two first abdicating grooves 23 matched with the sheet taking fork 20, so that the sheet taking fork can enter to finish the sheet taking and sheet placing operation.

Install two flexible claw 24 on blowing sand and getting piece robot 5, flexible claw 24 surface is the silica gel layer, can not cause the damage to the wafer, be provided with the air cavity in the flexible claw 24, the air cavity passes through hose 26 and connects the air supply, let in gaseous back in the air cavity, the increase of air cavity internal pressure, flexible claw 24 can realize snatching at the inside bending under the effect of extrusion force, imitate the operation of staff, after gaseous follow air cavity discharge, pressure reduces, no longer produce the extrusion force, flexible claw resets and loosens the wafer, still set up on the locating table 6 and let the groove 25 of stepping down with two flexible claw 24 complex second, can let flexible claw 24 stretch into and grab the wafer.

The working principle is as follows: the magazine grabbing robot 3 grabs two magazines 7 to two magazine placing areas on one side of the workbench and vertically places the magazines 7 with openings on the side, one magazine 7 is filled with wafers without sand blowing, the other magazine is empty, the wafer taking fork 20 on the middle wafer taking robot 4 takes one wafer from the magazine 7 filled with wafers and places the wafer on one positioning table 6, the sand blowing and wafer taking robot 5 drives the flexible claws 24 to take the wafer from the positioning table 6 and place the wafer on the wafer placing plate 9 of the sand blowing machine 2, the rotary disc rotates to enter sand blowing, the middle wafer taking robot 4 places the next wafer on one positioning table 6, the sand blowing and wafer taking robot 5 works again and places the wafer into the sand blowing machine 2, the operation is repeated until the first wafer finishes sand blowing, when the middle wafer taking robot 4 places the wafer on one positioning table 6, the sand blowing and wafer taking robot 5 places the wafer which finishes sand blowing on the other positioning table 6, the sand blowing and taking robot 5 puts the wafer without sand blowing into the sand blowing machine 2, meanwhile, the middle taking robot 4 puts the wafer with sand blowing into an empty material box, and takes out the next wafer from the material box with the wafer, so that the feeding of the wafer for sand blowing and the blanking of the wafer with sand blowing are synchronously carried out, and the efficiency is greatly improved. And the material box grabbing robot 3 is responsible for taking and placing material boxes on two sides of the workbench and is used for discharging the material boxes subjected to sand blowing and feeding the material boxes subjected to sand blowing.

Claims (7)

1. The utility model provides a semiconductor intelligence sand blowing production line, its includes the workstation and blows husky machine, its characterized in that, the other magazine that sets up of workstation snatchs the robot, gets the piece robot in the middle of, blows husky and gets the piece robot, be provided with two correspondences on the workstation blow husky location platform, two correspondences of getting the piece robot in the middle of the magazine of getting the piece robot places the district, it includes the carousel to blow husky machine, evenly be provided with the wafer on the carousel and place the board, the wafer is placed the board slope and is arranged and the up end is provided with the wafer support column.

2. The semiconductor intelligent sand blowing production line according to claim 1, wherein a magazine manipulator is mounted on the magazine grabbing robot, the magazine manipulator comprises a left clamping plate and a right clamping plate which are symmetrically arranged, the left clamping plate and the right clamping plate are respectively mounted at one end of a left clamping jaw and one end of a right clamping jaw, the left clamping jaw and the other end of the right clamping jaw are respectively connected with a fixing seat through a connecting rod, the connecting rod comprises a front connecting rod and a rear connecting rod which are arranged in parallel, two ends of the front connecting rod are respectively hinged with the left clamping jaw/the right clamping jaw and the fixing seat, one end of the rear connecting rod is hinged with the left clamping jaw or the right clamping jaw, gears are mounted at the other end, the two gears connected with the rear connecting rod are meshed, and one of the gears is connected.

3. The semiconductor intelligent sand blowing production line according to claim 2, wherein the inner side faces of the left clamping plate and the right clamping plate are sawtooth surfaces, and the outer side faces of the left clamping plate and the right clamping plate are fixedly connected with the left clamping jaw and the right clamping jaw through connecting frames respectively.

4. The semiconductor intelligent sand blowing production line according to claim 1, wherein an intermediate piece taking manipulator is mounted on the intermediate piece taking robot, the intermediate piece taking manipulator comprises two piece taking forks, vacuum material sucking holes are formed in the upper surfaces of the end portions of the piece taking forks, and air channels communicated with the vacuum material sucking holes are formed in the piece taking forks.

5. The semiconductor intelligent sand blowing production line according to claim 4, wherein two flexible claws are mounted on the sand blowing and taking robot, the outer surfaces of the flexible claws are silica gel layers, and air cavities are arranged in the flexible claws and are connected with an air source through hoses.

6. The semiconductor intelligent sand blowing production line of claim 5, wherein a cylindrical groove is formed in the middle of the positioning table, a step surface for supporting a semiconductor wafer is arranged in the cylindrical groove, two first yielding grooves matched with the sheet taking forks are formed in the side surface of the positioning table, and second yielding grooves matched with the two flexible claws are further formed in the positioning table.

7. The semiconductor intelligent sand blowing production line as claimed in claim 1, wherein one magazine grabbing robot is provided, and two middle piece taking robots, two sand blowing piece taking robots and two sand blowing machines are arranged on two sides of the workbench respectively.

Images