CN109205224B

CN109205224B - Chip carrying method in burning equipment

Info

Publication number: CN109205224B
Application number: CN201810800305.9A
Authority: CN
Inventors: 王开来; 黄文豪; 赖汉进
Original assignee: Guangzhou Mingsen Technologies Co Ltd
Current assignee: Guangzhou Mingsen Technologies Co Ltd
Priority date: 2018-07-19
Filing date: 2018-07-19
Publication date: 2020-05-05
Anticipated expiration: 2038-07-19
Also published as: CN109205224A

Abstract

The invention discloses a chip carrying method in burning equipment.A driving mechanism drives a first group of burning seats to move to a commissioning station, and then drives the burning seats to move a double-step interval to the commissioning station, wherein the burning seat at the tail end moves a single-step interval or a double-step interval to the commissioning station; when the burning seat at the tail end moves into the commissioning station, the driving direction is changed, the burning seat is moved to a single-step interval or a double-step interval before moving into the commissioning station, and then the burning seat is driven to move to the double-step interval; the distance between two adjacent groups of burning seats is a single-step distance, and the distance between two groups of burning seats separated by one group of burning seats is a double-step distance; the carrying mechanism carries the chip into the burning seat at the commissioning station or/and carries the chip out of the burning seat at the commissioning station. The chip carrying method enables the moving distance of the burning seat to be more uniform, ensures higher burning efficiency and does not influence the normal information writing of the chip.

Description

Chip carrying method in burning equipment

Technical Field

The invention relates to chip processing equipment, in particular to a chip carrying method in burning equipment.

Background

With the development of information technology, a plurality of products are provided with chips, wherein before the chips are applied specifically, corresponding data needs to be burned into the chips through a chip burner. Generally, in the burning process, a chip needs to be placed in a chip slot of a burning seat, and then burning is performed, wherein a reading and writing needle of a burner extends upwards from the bottom end of the burning seat to the chip slot and contacts with a contact pin of the chip, so that reading and writing tasks can be performed on the chip, and related information can be written in.

In current burning equipment, the transport of chip and input mode mainly have two kinds, and the first kind is: the burning seats are still, the chip is sequentially moved into the burning seats by the conveying mechanism, and after burning is finished, the chip is conveyed to the next station in the burning seats by the conveying mechanism; the second method is as follows: the carrying mechanism is used for carrying the chip to be burned to the delivery station from the loading station and carrying the burned chip to the next station from the delivery station, and the burning seat sequentially moves to the delivery station, receives the chip to be burned and transmits the burned chip. Obviously, in the second mode, the burning seat and the carrying mechanism work cooperatively, so that the chip can be put in and carried more quickly, and the burning efficiency of the chip can be improved.

Specifically, the working process of the second mode is as follows: referring to fig. 1-5, a plurality of burning seats are equidistantly arranged on a burning mounting plate a along a driving direction, firstly, a conveying mechanism conveys a chip from a loading station C to a first group of burning seats in a commissioning station B, then the burning mounting plate a moves for a certain distance under the driving of the driving mechanism, so that a second group of burning seats moves to the commissioning station B, then the conveying mechanism conveys the chip to a second group of burning seats, and so on, the conveying mechanism conveys the chip to all the burning seats in sequence. In order to improve the burning efficiency, the burning operation is started after the chip is put into the burning seat, so that when the chip is put into the burning seat at the rear part, the chip in the burning seat at the front part can be burnt. For example, in fig. 3-4, after the chip is transported and placed into the sixth set of burning seats by the transporting mechanism, the chip in the first set of burning seats has completed the burning operation, so the burning mounting plate a needs to drive the first set of burning seats to move to the commissioning station B, and then the transporting mechanism transports the chip in the first set of burning seats to the next station and transports the new chip to be burned to the first set of burning seats; at the moment, the chips in the second group of burning seats are possibly burnt, then the burning mounting plate A moves for a certain distance, so that the second group of burning seats are positioned in the commissioning station B, then the chips in the second group of burning seats are transported to the next station, and meanwhile, new chips to be burnt are commissioned; and by parity of reasoning, the burned chips are sequentially and circularly transported to the next station, and the chips to be burned are put in at the same time.

Referring to fig. 3-4, in the process of launching the first set of burning seats to the sixth set of burning seats, the distance of each movement of the burning mounting plate a is equal, which is the distance between two adjacent rows; however, after the sixth group of burning seats finishes putting in the chip, the burning mounting plate A drives the first group of burning seats to move back to the putting station B, and the moving distance is far greater than the distance between two adjacent rows of burning seats; wherein, because the distance between first line and the sixth line is far away, after the sixth group burns record seat and accomplishes the chip and put in, in order to raise the efficiency, burn record mounting panel A can drive first group burn record seat with the fast speed and get back to in the commissioning station B, consequently lead to following problem easily:

because the moving speed of the burning mounting plate A is too high, larger vibration can be generated, the contact between a reading and writing needle and a chip is poor easily, and the information writing is influenced.

Disclosure of Invention

The invention aims to overcome the existing problems and provides a chip carrying method in burning equipment, which can enable the moving distance of a burning seat to be more uniform, thereby ensuring higher burning efficiency and not influencing the normal information writing of a chip.

The purpose of the invention is realized by the following technical scheme:

a chip carrying method in burning equipment comprises the following steps:

the driving mechanism drives the first group of burning seats to move to the commissioning station, and then sequentially drives the burning seats to move to the commissioning station by a double-step interval, wherein the burning seat at the tail end moves to the commissioning station by a single-step interval or a double-step interval; when the burning seat at the tail end moves into the commissioning station, the driving mechanism changes the driving direction, the burning seat is driven to move to the single-step interval or the double-step interval into the commissioning station, and then the burning seat is driven to move to the double-step interval into the commissioning station in sequence; after the first group of burning seats move back to the delivery station, a cycle is performed;

the distance between two adjacent groups of burning seats is a single-step distance, and the distance between two groups of burning seats separated by one group of burning seats is a double-step distance;

according to the mode, the driving mechanism continuously and circularly drives the burning seat to the commissioning station, and the carrying mechanism carries the chip into the burning seat at the commissioning station or/and carries the chip which is burnt in the burning seat at the commissioning station out.

In a preferred embodiment of the present invention, along the arrangement direction of the burning seats, the burning seat located at the frontmost is a first group, the burning seat located at the rearmost is an nth group, and N is an integer greater than 3; the driving direction of the driving mechanism includes a forward direction from the first group to the nth group and a return direction from the nth group to the first group;

when N is an odd number, in the initial state, in the advancing direction, starting from the first group, the driving mechanism sequentially drives the odd groups to move to the commissioning station until the Nth group; in the return direction, starting from the group N-1, the driving mechanism drives the even groups to move to the commissioning station in a reverse order, and when the second group moves to the commissioning station, the first group is driven to move back to the commissioning station.

In a preferred embodiment of the present invention, when N is an even number, in an initial state, the driving mechanism sequentially drives the odd groups to move to the commissioning station from the first group in the advancing direction, and drives the N-th group to move to the commissioning station after the N-1 th group moves to the commissioning station; in the returning direction, the driving mechanism drives the even groups to move to the delivery station in the reverse order from the Nth group, and drives the first group to move back to the delivery station after the second group moves to the delivery station.

The principle of the chip conveying method is as follows:

the driving mechanism drives the burning seats to move to the delivery station in a mode of separating a group of burning seats, so that the chips are sequentially put in the burning seats separated by a group in the advancing direction, namely the conveying mechanism does not sequentially put the chips in all the burning seats; and in the returning direction, the carrying mechanism continues to put the chips into the remaining burning seats. Specifically, in the return direction, when the second group of burning seats moves to the commissioning station, the first group is close to the commissioning station, and when the second group of burning seats is driven again, the first group can move back to the commissioning station in a short distance, and then the carrying mechanism carries the chip which is completed burning to the next station, and puts in a new chip to be burned.

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

1. in the chip carrying method, when the burning seat circularly returns to the commissioning station, the burning seat does not need to move for a long distance, so that the higher burning efficiency is ensured, and the normal information writing of the chip is not influenced.

2. In the chip carrying method, the moving distance of the burning seat is uniform, so that errors caused in the carrying process can be reduced.

Drawings

Fig. 1-5 are schematic diagrams of a conventional chip handling method, where fig. 1 is a diagram of a first group of burning seats moving into an commissioning station, fig. 2 is a diagram of a second group of burning seats moving into the commissioning station, fig. 3 is a diagram of a sixth group of burning seats moving into the commissioning station, fig. 4 is a diagram of the first group of burning seats moving into the commissioning station again, and fig. 4 is a diagram of the second group of burning seats moving into the commissioning station again.

Fig. 6 to 12 are schematic diagrams of a chip handling method according to an embodiment of the present invention, where fig. 6 is a diagram of a first group of burning seats moving into an commissioning station, fig. 7 is a diagram of a third group of burning seats moving into the commissioning station, fig. 8 is a diagram of a fifth group of burning seats moving into the commissioning station, fig. 9 is a diagram of a fourth group of burning seats moving into the commissioning station, fig. 10 is a diagram of a second group of burning seats moving into the commissioning station, fig. 11 is a diagram of the first group of burning seats moving into the commissioning station again, and fig. 12 is a diagram of the third group of burning seats moving into the commissioning station again.

Fig. 13 to 20 are schematic diagrams of another embodiment of the method for transporting a chip according to the present invention, where fig. 13 is a diagram of moving a first group of burning seats into an commissioning station, fig. 14 is a diagram of moving a third group of burning seats into the commissioning station, fig. 15 is a diagram of moving a fifth group of burning seats into the commissioning station, fig. 16 is a diagram of moving a sixth group of burning seats into the commissioning station, fig. 17 is a diagram of moving a fourth group of burning seats into the commissioning station, fig. 18 is a diagram of moving a second group of burning seats into the commissioning station, fig. 19 is a diagram of moving the first group of burning seats into the commissioning station again, and fig. 20 is a diagram of moving the third group of burning seats into the commissioning station again.

Detailed Description

In order to make those skilled in the art understand the technical solutions of the present invention well, the following description of the present invention is provided with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example 1

Referring to fig. 6 to 12, the chip handling method in this embodiment is: the driving mechanism drives the first group of burning seats to move to the commissioning station B, and then sequentially drives the burning seats to move to the commissioning station B by a double-step interval, wherein the burning seat at the tail end moves to the commissioning station B by a single-step interval or a double-step interval; when the burning seat at the tail end moves into the commissioning station B, the driving mechanism changes the driving direction, the burning seat is driven to move to the commissioning station B in a single-step interval or a double-step interval, and then the burning seat is sequentially driven to move to the commissioning station B in a double-step interval; after the first group of burning seats moves back to the delivery station B, a cycle is performed; the distance between two adjacent burning seats is a single-step distance, and the distance between two burning seats separated by one burning seat is a double-step distance.

According to the mode, the driving mechanism continuously and circularly drives the burning seat to the commissioning station B, and the carrying mechanism carries the chip into the burning seat at the commissioning station B or/and carries the chip which is burnt in the burning seat at the commissioning station B out.

Along the arrangement direction of the burning seats, the burning seat positioned at the forefront is a first group, the burning seat positioned at the rearmost is an Nth group, and N is an integer more than 3; the driving direction of the driving mechanism includes a forward direction from the first group to the nth group and a return direction from the nth group to the first group.

Referring to fig. 6-12, when N is an odd number, in this embodiment N equals five, and in the initial state, starting from the first group, the drive mechanism sequentially drives the odd groups to move into the delivery station B, until the fifth group, as shown in fig. 6-8, in the advancing direction; in the returning direction, starting from the fourth group, the driving mechanism drives the even groups to move into the delivery station B in the reverse order, and drives the first group to move back into the delivery station B after the second group moves into the delivery station B, as shown in FIGS. 9-11.

Obviously, in the forward direction, the chips are sequentially conveyed from the feeding station C to the burning seats separated by one group, and in the return direction, the conveying mechanism continues to feed the chips into the remaining burning seats. In one cycle, when the last group (second group) of burning seats moves to the commissioning station B, the first group of burning seats is close to the commissioning station B, so in the next cycle, the driving mechanism only needs to drive the first group of burning seats to move by a single step interval (distance between two adjacent groups of burning seats), then the chip which is completely burned is transported to the next station by the transporting mechanism, and a new chip to be burned is launched; therefore, higher working efficiency is ensured, and information writing of the chip is not influenced.

Example 2

Referring to fig. 13-20, when N is an even number, in this embodiment, N is equal to six, and in the initial state, in the forward direction, starting from the first group, the driving mechanism sequentially drives the odd groups to move into the delivery station B, and after the fifth group moves into the delivery station B, drives the sixth group to move into the delivery station B, as shown in fig. 13-16; in the return direction, starting from the sixth group, the driving mechanism drives the even groups to move into the delivery station B in the reverse order, and drives the first group to move back into the delivery station B after the second group moves into the delivery station B, as shown in FIGS. 17-19.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.

Claims

1. A chip carrying method in burning equipment is characterized in that:

the driving mechanism drives the burning seat to the commissioning station in a circulating mode, and the carrying mechanism carries the chip into the burning seat at the commissioning station or/and carries the chip which is burnt in the burning seat at the commissioning station out.

2. The method of claim 1, wherein along the arrangement direction of the plurality of burning seats, the first group of the burning seats located at the frontmost position, the Nth group of the burning seats located at the rearmost position, and N is an integer greater than 3; the driving direction of the driving mechanism includes a forward direction from the first group to the nth group and a return direction from the nth group to the first group;

3. The method for transporting the chip in the burning apparatus as claimed in claim 1, wherein when N is an even number, the driving mechanism sequentially drives the odd groups to move to the commissioning station from the first group in the advancing direction in the initial state, and drives the N group to move to the commissioning station after the N-1 group moves to the commissioning station; in the returning direction, the driving mechanism drives the even groups to move to the delivery station in the reverse order from the Nth group, and drives the first group to move back to the delivery station after the second group moves to the delivery station.