CN215964877U - Singlechip PIN is around foot check out test set feed mechanism - Google Patents

Abstract

The utility model discloses a distribution mechanism of a single chip microcomputer PIN winding PIN detection device, which comprises a distribution fixing plate and a distribution upright post, the top of the material-distributing upright post is provided with a material-feeding runner, one end of the material-feeding runner is provided with a material-distributing runner, one end of the material-distributing fixing plate far away from the material-distributing upright post is provided with a defective product runner through a fixing bracket, a good product placing jig is arranged on the upper surface of one end of the defective product runner through a good product jig fixing seat, a material distributing block is arranged between the material distributing runner and the defective product runner, the two sides of the distributing block are respectively connected with the two sides of the distributing flow channel through connecting blocks, the distributing block is hinged with the connecting blocks, a material ejecting component for pushing the single chip microcomputer to translate to the good product placing jig is arranged at the position, corresponding to the good product placing jig, of one side, close to the material distributing block, of the material distributing upright column, divide material stand one side to be equipped with and be connected with the distributing block and promote the distributing block around the rotatory jacking subassembly of connecting block. The utility model can distribute materials according to the detection result of the supplied materials, and has high efficiency and high precision.

Description

Singlechip PIN is around foot check out test set feed mechanism

Technical Field

The utility model belongs to the field of single chip microcomputer processing, and particularly relates to a distribution mechanism of a PIN winding detection device of a single chip microcomputer.

Background

The single chip microcomputer is an integrated circuit chip, and has multiple functions of data processing, random storage, read-only storage and the like, multiple I/O ports and interrupt systems, a timer/counter and the like. In the process of processing the single chip microcomputer, the foot winding needs to be carried out on the single chip microcomputer. In the prior art, the foot winding of the single chip microcomputer is completed through foot winding equipment. Most of the existing foot winding devices do not have a mechanism for detecting the supplied materials of the single chip microcomputer before the foot winding, so that the quality of the single chip microcomputer cannot be guaranteed before the single chip microcomputer enters the foot winding mechanism. In order to solve the problem, some mechanisms for incoming material detection are arranged in the existing equipment, but after the incoming material detection is carried out, manual or simple mechanisms are needed for distributing the materials, so that the efficiency is low, and the accuracy is not high.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a distribution mechanism of the PIN winding detection equipment of the single chip microcomputer, aiming at the defects of the prior art, the distribution mechanism can be used for distributing materials according to the detection result of supplied materials, and is high in efficiency and high in accuracy.

The technical scheme adopted by the utility model is as follows: a distribution mechanism of a single chip microcomputer PIN winding foot detection device comprises a distribution fixing plate and a distribution upright post arranged at one end of the upper surface of the distribution fixing plate, wherein a feeding runner which is obliquely arranged is arranged at the top of the distribution upright post, a distribution runner which is obliquely arranged and communicated with the feeding runner is arranged at the lower end of the feeding runner, a material blocking and distribution assembly is arranged at the end, close to the feeding runner, of the distribution runner, one end, away from the distribution upright post, of the distribution fixing plate is provided with a defective product runner which is obliquely arranged through a fixing support, a good product placing jig is arranged on the upper surface of the end, close to the distribution runner, of the defective product runner, a distribution block is arranged between the distribution runner and the defective product runner, one end of the distribution block is communicated with the distribution runner, and the other end of the distribution block is respectively communicated with the defective product runner and the good product placing jig through upward and downward movement, the utility model discloses a material distributing device, including distributor block, dividing block, connecting block, dividing stand, singlechip, lifting assembly, jacking assembly, lifting assembly, jacking assembly, the jacking assembly is connected and promotes the distributor block around the connecting block is rotatory to the one side of dividing the stand, the one side of dividing the block is close to the bottom, and the corresponding position of the tool is placed to the yields to the good product.

In one embodiment, the feeding runner, the distributing runner and the defective runner have the same inclination angle.

In one embodiment, the material blocking and distributing assembly is a material blocking and distributing cylinder with a piston rod end extending to the inner side of the feeding flow channel.

In one embodiment, the ejection assembly comprises an ejection cylinder and an ejection rod which is connected with the ejection cylinder and pushes the single chip microcomputer to translate to a good product placing jig.

In one embodiment, the jacking assembly comprises a fixed block connected with the material distribution upright post, and one side of the fixed block, which is far away from the material distribution upright post, is hinged with a jacking cylinder which is connected with the material distribution block and pushes the material distribution block to rotate around the connecting block.

The utility model has the beneficial effects that:

1. through the arrangement of the distributing block, the distributing block is respectively communicated with the defective product flow channel and the good product placing jig through displacement, so that material is distributed;

2. the jacking assembly and the jacking assembly are respectively used for assisting the distributing block to move and pushing the single chip microcomputer to move, so that smooth distribution is guaranteed.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

In the figure: 51. a material distributing fixing plate; 52. a material distributing upright post; 53. a feed runner; 54. a material distributing flow channel; 55. the material blocking and distributing assembly is arranged on the material conveying device; 56. fixing a bracket; 57. a defective product flow channel; 58. a good product fixture fixing seat; 59. a good product placing jig; 510. a material distributing block; 511. connecting blocks; 512. a material ejecting component; 513. a jacking assembly; 5121. a material ejection cylinder; 5122. a lifter bar; 5131. a fixed block; 5132. and (5) jacking the cylinder.

Detailed Description

The utility model will be described in further detail with reference to the following drawings and specific embodiments.

As shown in fig. 1, a distribution mechanism of a PIN-around-PIN detection device for a single chip microcomputer comprises a distribution fixing plate 51 and a distribution upright post 52 arranged at one end of the upper surface of the distribution fixing plate 51, wherein a feeding channel 53 is obliquely arranged at the top of the distribution upright post 52, a distribution channel 54 obliquely arranged and communicated with the feeding channel 53 is arranged at the lower end of the feeding channel 53, a material blocking and distribution assembly 55 is arranged at one end of the distribution channel 54 close to the feeding channel 53, a defective product channel 57 obliquely arranged is arranged at one end of the distribution fixing plate 51 far away from the distribution upright post 52 through a fixing support 56, a good product placing jig 59 is arranged on the upper surface of one end of the defective product channel 57 close to the distribution channel 54 through a good product jig fixing seat 58, a distribution block 510 is arranged between the distribution channel 54 and the defective product channel 57, one end of the distribution block 510 is communicated with the distribution channel 54, and the other end of the distribution block is respectively connected with the defective product placing jig 57 and the good product placing jig 59 through upward and downward moving Lead to, the distributor block 510 both sides are connected with branch material runner 54 both sides through connecting block 511 respectively, the distributor block 510 is articulated with connecting block 511, the position that the jig 59 corresponds is placed with the yields to one side that the distributor block 510 is close to the branch material stand 52 is equipped with the liftout subassembly 512 that promotes the singlechip translation to the yields and place the jig 59, the position that one side that the distributor block 510 is close to the bottom of branch material stand 52 is equipped with and is connected with the distributor block 510 and promotes the jacking subassembly 513 that the distributor block 510 is rotatory around connecting block 511.

In this embodiment, the feeding flow passage 53, the material distributing flow passage 54 and the defective product flow passage 57 have the same inclination angle.

In this embodiment, the material blocking and distributing assembly 55 is a material blocking and distributing cylinder with a piston rod end extending to the inner side of the feeding flow channel 53.

In this embodiment, the liftout subassembly 512 includes liftout cylinder 5121 and ejector rod 5122 that is connected with liftout cylinder 5121 and promotes the singlechip translation to the non-defective products and places tool 59.

In this embodiment, the jacking assembly 513 includes a fixing block 5131 connected to the material separating upright 52, and a jacking cylinder 5132 connected to the material separating block 510 and pushing the material separating block 510 to rotate around the connecting block 511 is hinged to a side of the fixing block 5131 away from the material separating upright 52.

The mechanism is arranged at the rear section of the blanking mechanism in the distribution mechanism of the single chip PIN winding detection equipment, a supplied material detection mechanism is arranged above the distribution mechanism, and the supplied material detection mechanism is arranged opposite to a distribution runner 54 of the mechanism. The blanking mechanism 4 feeds the single chip microcomputer into the feeding channel 53, and the single chip microcomputer enters the material distribution channel 54 from the feeding channel 53. At this time, the incoming material detection mechanism 6 located above the detection mechanism detects the incoming material. When the detected single chip microcomputer is a defective product, the piston rod end of the jacking cylinder 5132 of the jacking assembly 513 is in a retraction state, the distributing block 510 is respectively communicated with the distributing flow channel 54 and the defective product flow channel 57 in the state, and the defective product single chip microcomputer detected by incoming materials is directly discharged from the defective product flow channel 57. When the detected single chip microcomputer is good, the piston rod end of the jacking cylinder 5132 of the jacking assembly 513 is in an extending state, and the distributing block 510 is respectively communicated with the distributing flow channel 54 and the good placement jig 59. The ejection cylinder 5121 of the ejection assembly 512 extends out of the piston rod end to drive the ejection rod 5122 to push the single chip microcomputer into the good product placing jig 59, so that the good product is subjected to subsequent processing.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (5)

1. The utility model provides a singlechip PIN is around foot check out test set feed mechanism which characterized in that: the material distribution device comprises a material distribution fixing plate and a material distribution upright post arranged at one end of the upper surface of the material distribution fixing plate, wherein a material feeding flow channel which is obliquely arranged is arranged at the top of the material distribution upright post, a material distribution flow channel which is obliquely arranged and communicated with the inside of the material feeding flow channel is arranged at the lower end of the material feeding flow channel, a material blocking and material distribution assembly is arranged at the end, close to the material feeding flow channel, of the material distribution flow channel, a defective product flow channel which is obliquely arranged is arranged at one end, far away from the material distribution upright post, of the material distribution fixing plate through a fixing support, a defective product placing jig is arranged on the upper surface of the end, close to the material distribution flow channel, of the defective product flow channel through a defective product jig fixing seat, a material distribution block is arranged between the material distribution flow channel and the defective product flow channel, one end of the material distribution block is communicated with the material distribution flow channel, the other end of the material distribution flow channel is communicated with the defective product placing jig through an upward moving block and a downward moving block, and the two sides of the material distribution flow channel are respectively connected through connecting blocks, the distributor block is articulated with the connecting block, the position that the jig corresponds is placed with the yields to one side that the branch material stand is close to the distributor block is equipped with the liftout subassembly that promotes the singlechip translation to the yields and place the jig, the position that one side that the branch material stand is close to the distributor block is close to the bottom is equipped with and is connected with the distributor block and promotes the jacking subassembly that the distributor block is rotatory around the connecting block.

2. The distribution mechanism of the PIN winding detection equipment of the single chip microcomputer according to claim 1, characterized in that: the feeding runner, the distributing runner and the defective product runner are consistent in inclination angle.

3. The distribution mechanism of the PIN winding detection equipment of the single chip microcomputer according to claim 1 or 2, which is characterized in that: the material blocking and distributing assembly is a material blocking and distributing cylinder with a piston rod end extending to the inner side of the feeding flow channel.

4. The distribution mechanism of the PIN winding detection equipment of the single chip microcomputer according to claim 1 or 2, which is characterized in that: the liftout subassembly includes the liftout cylinder and is connected and promotes the singlechip translation to the yields and place the liftout pole of tool with the liftout cylinder.

5. The distribution mechanism of the PIN winding detection equipment of the single chip microcomputer according to claim 1 or 2, which is characterized in that: the jacking assembly comprises a fixing block connected with the distributing stand column, and one side, far away from the distributing stand column, of the fixing block is hinged with a jacking cylinder which is connected with the distributing block and pushes the distributing block to rotate around the connecting block.

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