CN215248079U - Dual-core four-suction-nozzle high-speed asynchronous chip burning test robot - Google Patents

Abstract

The utility model belongs to burn and record test machine field, especially a high-speed asynchronous chip of four suction nozzles of dual-core burns and records test robot, which comprises a bod, the top position of organism installs the X axle, slidable mounting has left side to get material suction nozzle system and right side and gets material suction nozzle system on the X axle, the below of getting material suction nozzle system and right side to get material suction nozzle system on a left side is equipped with 1-8 of installing on the organism respectively and burns and burn test station and 9-16 and burn and record test station, and gets material suction nozzle system and right side and get material suction nozzle system respectively with 1-8 burn and record test station and 9-16 and burn and record the corresponding setting of test station, the top central point of organism puts and is provided with braid ejection of compact system and braid charge-in system. The utility model discloses an increase suction nozzle and station quantity, ingenious cross motion logic, idle time is little, handling efficiency is high, solves the bottleneck of present chip burning record survey machine in efficiency promotion, has realized that speed is multiplied and has improved, through the synchronous asynchronous mixed mode of 4 suction nozzles of double-end, can reach the productivity more than 4000.

Description

Dual-core four-suction-nozzle high-speed asynchronous chip burning test robot

Technical Field

The utility model relates to a burn and record test machine technical field, especially relate to a high-speed asynchronous chip of four suction nozzles of double-core burns and records test robot.

Background

The burner is a tool for writing data on a programmable integrated circuit, and is mainly used for programming (or writing) chips such as a singlechip (including an embedded type)/a memory (including a BIOS);

the patent with the application number of CN201820651866.2 discloses an automatic chip burning test machine, which comprises a tray conveying mechanism, a tray guide rail and a feeding tray arranged on the tray guide rail, wherein the tray conveying mechanism comprises a tray guide rail and a feeding tray arranged on the tray guide rail; the material sucking mechanism comprises a mechanical arm and a sucker arranged at the lower end of the mechanical arm; the burning area is positioned on one side of the material sucking mechanism; the material supplementing disc is arranged on the other side of the material sucking mechanism; when sucking materials, a feeding tray is positioned in a tray feeding area, and the tray feeding area is positioned right below the suckers. The utility model discloses an automatic test machine of burning of chip, the burning machine of this embodiment puts tray feeding area setting at the manipulator front end, leans on tightly to burn the district, and the feed supplement dish that will not use for a long time is put robotic arm's left rear end. After the mechanical arm takes the materials from the feeding area, the chip is carried to the burning area, arm changing actions are not needed, carrying stroke is greatly reduced, and efficiency of carrying the chip is effectively improved.

However, the same type of non-linked burning tester in the market currently has 1-2 suction nozzles at a single end, 1-8 stations, and a speed of 600 plus 2000 pcs/h, and the production efficiency of the prior art reaches the upper limit and is difficult to break through more than 2000 when being improved upwards.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art, and providing a dual-core four-suction-nozzle high-speed asynchronous chip burning test robot.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a dual-core four-suction-nozzle high-speed asynchronous chip burning test robot comprises a robot body, wherein an X shaft is mounted at the top of the robot body, a left material taking suction nozzle system and a right material taking suction nozzle system are slidably mounted on the X shaft, 1-8 burning test stations and 9-16 burning test stations mounted on the robot body are respectively arranged below the left material taking suction nozzle system and the right material taking suction nozzle system, the left material taking suction nozzle system and the right material taking suction nozzle system are respectively arranged corresponding to the 1-8 burning test stations and the 9-16 burning test stations, a braid discharging system and a braid feeding system are arranged at the top center of the robot body, and the braid discharging system is located on one side of the braid feeding system.

Preferably, the braid discharging system and the braid feeding system are located below the X axis and between the 1-8 burning test station and the 9-16 burning test station.

Preferably, the X-axis stroke range between the braid discharging system and the braid feeding system is a cross stroke range.

Preferably, all the suction nozzle taking and placing positions of the braid discharging system and the braid feeding system are arranged in a straight line.

Preferably, the X-axis is a linear guide.

The utility model discloses in, a double-core four suction nozzle high speed asynchronous chip burns record test robot, through increasing suction nozzle and station quantity, ingenious cross motion logic, idle time is little, handling efficiency is high, solves the bottleneck of present chip burning record survey machine in efficiency promotion, has realized that speed is multiplied and improves, through the synchronous asynchronous mixed mode of 4 suction nozzles of double-end, can reach the productivity more than 4000.

Drawings

Fig. 1 is a schematic structural diagram of a dual-core four-nozzle high-speed asynchronous chip burning test robot provided by the utility model;

fig. 2 is a schematic perspective view of a dual-core four-nozzle high-speed asynchronous chip burning test robot according to the present invention;

fig. 3 is a schematic top view of the dual-core four-nozzle high-speed asynchronous chip burning test robot according to the present invention;

fig. 4 is a schematic view of the dual-core four-nozzle high-speed asynchronous chip burning test robot according to the present invention.

In the figure: 1 is 1-8 burning test stations, 2 is 9-16 burning test stations, 3 is a braid discharging system, 4 is a braid feeding system, 5 is a left material taking suction nozzle system, 6 is a right material taking suction nozzle system, and 7 is an X axis.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a dual-core four-nozzle high-speed asynchronous chip burning test robot comprises a body 8, an X-axis 7 is installed at the top of the body 8, a left material taking nozzle system 5 and a right material taking nozzle system 6 are installed on the X-axis 7 in a sliding mode, 1-8 burning test stations 1 and 9-16 burning test stations 2 installed on the body 8 are respectively arranged below the left material taking nozzle system 5 and the right material taking nozzle system 6, the left material taking nozzle system 5 and the right material taking nozzle system 6 are respectively arranged corresponding to the 1-8 burning test stations 1 and 9-16 burning test stations 2, a braid discharging system 3 and a braid feeding system 4 are arranged at the top center of the body 8, and the braid discharging system 3 is located on one side of the braid feeding system 4.

The utility model discloses in, braid discharge system 3 and braid charge-in system 4 are located the below of X axle 7, and are located 1-8 and burn between test station 1 and 9-16 and burn between test station 2.

The utility model discloses in, 7 stroke ranges of X axle between braid discharge system 3 and the braid charge-in system 4 are alternately stroke ranges, and material suction nozzle system 5 is got on a left side and material suction nozzle system 6 is got alternately the blowing in this within range with the right side, controls the beat and coincide, each other does not collide.

The utility model discloses in, all suction nozzles of braid discharge system 3 and braid charge-in system 4 get the position and get a straight line and arrange, the business turn over material of the chip of being convenient for.

The utility model discloses in, X axle 7 is linear guide, is convenient for get the horizontal slip of material suction nozzle system 5 and right side material suction nozzle system 6 on a left side.

The utility model discloses in, theory of operation carries out the feeding of chip through braid feeding system 4, behind the chip feeding, gets material suction nozzle system 5 and right side through a left side and get material suction nozzle system 6 and get the material, then, get material suction nozzle system 5 and right side and get material suction nozzle system 6 and put into 1-8 burn and record test station 1 and 9-16 burn and record test station 2 and burn and record the test to the chip, then, get material suction nozzle system 5 and right side again and get material suction nozzle system 6 and take out the chip through a left side, put into and carry out the ejection of compact in braid discharging system 3.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. A dual-core four-suction-nozzle high-speed asynchronous chip burning test robot comprises a machine body (8) and is characterized in that an X-axis (7) is installed at the top of the machine body (8), a left material taking suction nozzle system (5) and a right material taking suction nozzle system (6) are installed on the X-axis (7) in a sliding mode, 1-8 burning test stations (1) and 9-16 burning test stations (2) installed on the machine body (8) are respectively arranged below the left material taking suction nozzle system (5) and the right material taking suction nozzle system (6), the left material taking suction nozzle system (5) and the right material taking suction nozzle system (6) are respectively arranged corresponding to the 1-8 burning test stations (1) and 9-16 burning test stations (2), a taping discharging system (3) and a taping feeding system (4) are arranged at the top center of the machine body (8), and the braid discharging system (3) is positioned at one side of the braid feeding system (4).

2. The dual-core four-nozzle high-speed asynchronous chip burning test robot as claimed in claim 1, wherein the taping discharging system (3) and the taping feeding system (4) are located below the X-axis (7) and between the 1-8 burning test stations (1) and the 9-16 burning test stations (2).

3. The dual-core four-nozzle high-speed asynchronous chip burning test robot as claimed in claim 1, wherein the stroke range of the X-axis (7) between the taping discharging system (3) and the taping feeding system (4) is a cross stroke range.

4. The dual-core four-nozzle high-speed asynchronous chip burning test robot as claimed in claim 1, wherein all nozzle pick-and-place positions of the braid discharging system (3) and the braid feeding system (4) are arranged in a straight line.

5. The dual-core four-nozzle high-speed asynchronous chip burning test robot as claimed in claim 1, wherein said X-axis (7) is a linear guide rail.

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