CN218775202U - 72 station OTP check out test set - Google Patents

Abstract

The utility model provides a 72 station OTP check out test set, including material loading portion, host computer portion and unloading portion, host computer portion both sides are equipped with A side OPT detecting element and B side OPT detecting element respectively, A side OPT detecting element is including nine A face testing platform that set gradually, each A face testing platform includes A face detection lens subassembly and upper and lower two-layer A face detection station respectively, each A face detection station includes two A face product grades respectively, each A face detection lens subassembly includes four A face detection lenses that correspond with four A face product grades respectively, B side OPT detecting element is including nine B face testing platform that set gradually, each B face testing platform includes B face detection lens subassembly and upper and lower two-layer B face detection station respectively, each B face detection station includes two B face product grades respectively, each B face detection lens subassembly includes four B face detection lenses that correspond with four B face product grades respectively, the check out test set of this embodiment, put together 72 detection stations in a concentrated way, OTP efficiency has been improved.

Description

72 station OTP check out test set

Technical Field

The utility model belongs to the technical field of the OTP, especially, relate to a 72 station OTP check out test set.

Background

With the continuous development of program code memories, one Time Programmable (OTP) is widely used in electronic devices due to its advantage of low cost.

OTP detector utilizes optical instrument, and FPC manual connection realizes automatic Gamma regulatory function, classifies, takes notes to store data, defect review, data upload etc. function according to software judged result to the product, OTP detector among the prior art, and the most is quadruplex position OTP detector, test probe quantity: 4, the number of PG: 8, the OTP burns the workshop section and also can only adopt the single line, influences electronic equipment's OTP efficiency, and some structures are too fat, lead to occupying great processing place.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the OTP detects the machine to prior art, because mostly be quadruplex position OTP detects the machine, the test probe quantity is 4, and PG quantity is 8, and the OTP burns the workshop section and also can only adopt the single line, influences the defect of electronic equipment's OTP efficiency, provides a 72 station OTP check out test set.

The utility model provides an above-mentioned technical problem adopted technical scheme as follows:

the utility model provides a 72 station OTP check out test set, including the portion of feeding, host computer portion and the unloading portion that set gradually from right side to left side, one side that the portion of feeding kept away from the host computer portion is equipped with one and is used for putting into the material level of full Tray, the portion of feeding with the opposite one side both ends of host computer portion are equipped with an A handover platform and a B handover platform respectively, the intermediate position of the portion of feeding is equipped with one and the material level correspond set up and will pass through linear motion from the elevating system that full Tray that the material level transported comes rises, one and the material level of feeding correspond set up and carry out the correction mechanism of layer by layer to full Tray that elevating system rises and a robot pan feeding transport mechanism that will pass through the product that correction mechanism corrected is sent to A handover platform and B handover platform;

the main machine part is respectively provided with an A-side OPT detection unit corresponding to the A transfer platform and a B-side OPT detection unit corresponding to the B transfer platform along two sides of the length direction of the main machine part, the A-side OPT detection unit comprises nine A-side detection platforms which are sequentially arranged, each A-side detection platform comprises an A-side detection lens component and an upper layer of A-side detection station and a lower layer of A-side detection station, each A-side detection station comprises two A-side product positions, each A-side detection lens component comprises four A-side detection lenses respectively corresponding to the four A-side product positions, the B-side OPT detection unit comprises nine B-side detection platforms which are sequentially arranged, each B-side detection platform comprises a B-side detection lens component and an upper layer of B-side detection station and a lower layer of B-side detection station, each B-side detection station comprises two B-side product positions, each B-side detection lens component comprises four B-side detection lenses corresponding to four B-side product positions, an A-side linear motor and a B-side linear motor are further arranged between the A-side OPT detection unit and the B-side OPT detection unit, a first alignment camera is arranged on one side of the A-side OPT detection unit opposite to the feeding part, a second alignment camera is arranged on one side of the B-side OPT detection unit opposite to the feeding part, an A-side feeding and conveying arm is arranged on one side of the A-side linear motor opposite to the feeding part, is positioned above the first alignment camera, is used for taking materials from the A-transfer platform, is conveyed to the first alignment camera in an aligned mode, and is conveyed to each A-side detection station in the A-side OPT detection unit after the alignment, and a second feeding and conveying arm is arranged on one side of the B-side linear motor opposite to the feeding part, is positioned above the second alignment camera, and is conveyed from the B-transfer platform to the second feeding platform The alignment camera aligns and sends the aligned materials to a B-side feeding and conveying arm of each B-side detection station in the B-side OPT detection unit;

unloading portion with host portion one side relative be equipped with one with A unloading transfer platform that A side OPT detecting element corresponds and one with B unloading transfer platform that B side OPT detecting element corresponds, A side linear electric motor with one side relative of unloading portion is equipped with one and follows each A face detection station gets the A side unloading of getting to be handed over A unloading transfer platform in A side OPT detecting element and carries the arm, B side linear electric motor with one side relative of unloading portion is equipped with one and follows each B face detection station in the B side OPT detecting element gets the B side unloading of getting to be handed over B unloading transfer platform and carries the arm.

Furthermore, an A code scanning mechanism for scanning codes of the products on the A transfer platform and a B code scanning mechanism for scanning codes of the products on the B transfer platform are respectively arranged between the A transfer platform and the B transfer platform.

Furthermore, an empty track position and an NG-track position which are arranged on one side of the full-feeding track position are further arranged on one side, far away from the host machine part, of the feeding part.

Furthermore, the loading part is also provided with an empty Tray carrying manipulator which is used for carrying the empty Tray to the empty Tray position and the empty Tray position of the NG-Tray position after the products on the full Tray are taken out.

Further, one side that unloading portion and host computer portion carried on the back mutually is equipped with in proper order and sweeps a yard NG assembly line, connects downstream equipment unloading equipment and an OTP-NG assembly line, unloading portion still is equipped with and is located transfer platform top in A unloading transfer platform and B unloading be used for from A unloading transfer platform and B unloading transfer platform get the product and send to sweep yard NG assembly line, connect downstream equipment unloading equipment or the unloading transfer manipulator of OTP-NG assembly line.

The utility model provides a 72 station OTP inspection equipment that embodiment provided above, including the material loading portion, the host computer portion and the unloading portion that set gradually from right side to left side, the host computer portion is equipped with an A side OPT detecting element and a B side OPT detecting element respectively along its length direction's both sides, the A side OPT detecting element includes nine A side detecting platforms that set gradually, each A side detecting platform includes an A side detecting lens subassembly and upper and lower two-layer A side detecting stations respectively, each A side detecting station includes two A side product grades respectively, each A side product grade can put into a product, thus, the A side OPT detecting element has 36A side product grades, that is, the A side OPT detecting element has 36 detecting stations, each A side detecting lens subassembly includes four A side detecting lenses that correspond to four A side product grades respectively, that is, thus, the product is put to A side product grade, then move to A side detecting lens department, the A side detecting lens is pressed to the specified grade position, carry out optical detection drawing, then carry out the conveying by algorithm, the A side detecting lens subassembly includes four A side detecting lenses that correspond to four A side product grades respectively, that each B side detecting lens subassembly includes two-side detecting lens components that each B side detecting element includes two-side detecting platforms that set gradually, thus, each B side detecting platform includes nine A side detecting platform includes two-side detecting elements that each B side detecting element includes 36A side detecting element and B side detecting element that each B side detecting element includes two-B side detecting element that set gradually, thus, each B side detecting element includes two-side detecting element that each B side detecting element includes two-B detecting element that each B side detecting element that set up and each B side detecting element respectively, the OTP inspection equipment provided by the embodiment has the advantages that 72 detection stations are concentrated together, OTP efficiency is improved, the space is designed by adopting an upper detection station A and a lower detection station B, the length of the equipment is controlled within 13 meters, the equipment model change time efficiency is shortened, the operation observability of personnel is met, and the defects that most of OTP detection machines in the prior art are four OTP stations, the number of detection probes is 4, the number of PGs is 8, and the OTP burning working section can only adopt a single line, so that the OTP efficiency of electronic equipment is influenced are effectively overcome.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an overall schematic view of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 2 is a side view of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a top view of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 5 is a partial top view of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a material loading portion of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 7 is a top view of a loading portion of a 72-station OTP inspection apparatus according to an embodiment of the present invention.

Fig. 8 is a partial overall schematic view of a 72-station OTP inspection apparatus according to an embodiment of the present invention, in which a material loading portion and a main machine portion thereof are connected together.

Fig. 9 is a partial top view of a 72-station OTP inspection apparatus according to an embodiment of the present invention, in which a loading portion and a main machine portion thereof are connected together.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 9 together, a 72-station OTP inspection apparatus according to an embodiment of the present invention includes a feeding portion 100, a host portion 200, and a discharging portion 300 sequentially arranged from right to left, wherein a side of the feeding portion 100 away from the host portion 200 is provided with a feeding position 101 for placing a Tray full of trays, where Tray is a Tray for placing a product, the product is a display screen, the Tray full of trays is the Tray full of display screens, two ends of a side of the feeding portion 100 opposite to the host portion 200 are respectively provided with an a handover platform 102 and a B handover platform 103, so that the feeding portion 100 has a double-station feeding function, the middle position of material loading portion 100 is equipped with one with material level 101 corresponds the setting and will follow through linear motion the material level 101 transports the elevating system 104 that comes full Tray dish rises, one with material level 101 corresponds the setting and just to the straightening mechanism 105 that the full Tray dish that elevating system 104 rose carries out layer by layer correction and will pass through the product that straightening mechanism 105 corrected is sent to A hands over platform 102 and B hands over platform 103's robot pan feeding transport mechanism 106, elevating system 104 sends the Tray dish layer by layer to straightening mechanism 105, straightening mechanism 105 to the full Tray dish that elevating system 104 rose corrects the layer by layer to open CCD vision system, open blue light, carry out the counterpoint and get the material, by robot pan feeding transport mechanism 106 robot pan feeding transport product extremely A platform 102 with B hands over platform 103 (pan feeding), so that get into host computer portion 200.

An a-side OPT detection unit 201 and a B-side OPT detection unit 202 are respectively arranged on two sides of the host part 200 along the length direction, the a-side OPT detection unit 201 and the B-side OPT detection unit 202 are respectively arranged on two sides of the host part 200 and correspond to the a-transfer platform 102, the a-side OPT detection unit 201 comprises nine a-side OPT detection platforms 2011 which are sequentially arranged, each a-side OPT detection platform 2011 comprises an a-side detection lens assembly 2012 and upper and lower a-side detection stations 2013, each a-side detection station 2013 comprises two a-side product positions 20131, each a-side detection lens assembly 2012 comprises four a-side detection lenses 20121 which respectively correspond to the four a-side product positions 20131, and each a-side product position 20131 can be placed with a product, so that the a-side OPT detection unit 201 has 36 a-side product positions 20131, and the a-side OPT detection unit 201 has 36 detection stations 201, the B-side OPT detecting unit 202 includes nine B-side detecting platforms 2021, each B-side detecting platform 2021 includes a B-side detecting lens assembly 2022 and upper and lower B-side detecting stations 2023, each B-side detecting station 2023 includes two B-side product positions 20231, each B-side detecting lens assembly 2022 includes four B-side detecting lenses 20221 corresponding to the four B-side product positions 20231, each B-side product position 20231 can be loaded with a product, the B-side OPT detecting unit 202 has 36B-side product positions 20231, that is, the B-side OPT detecting unit 202 has 36 detecting stations, so that the host portion has 72 detecting stations, an a-side linear motor 203 and a B-side linear motor 204 are further provided between the a-side OPT detecting unit 201 and the B-side OPT detecting unit 202, a first pair of phase machines 205 is provided on a side of the a-side OPT detecting unit 201 opposite to the loading portion 100, a second phase shifter 206 is arranged on the side of the B-side OPT detection unit 202 opposite to the feeding section 100, an a-side feeding and carrying arm 207 is arranged on the side of the a-side linear motor 203 opposite to the feeding section 100, the feeding arm is positioned above the first phase shifter 205, the a-side feeding and carrying arm is used for feeding the products from the a-side feeding and carrying platform 102 to the first phase shifter 205, the products are aligned and then carried to the a-side detection stations 20131 in the a-side OPT detection unit 201, the products are placed to the a-side product position 20131 through the a-side feeding and carrying arm 207 and then are carried to the a-side detection lens 20121, the a-side detection lens 20121 is pressed to a predetermined position, optical detection and image taking are performed, an OTP output algorithm is performed, the products are then fed to the discharging section 300 through the a-side discharging and carrying arm 209 after OTP, the OTP is arranged on the side of the B-side linear motor 204 opposite to the feeding section 100, a second phase shifter arm 206 is used for feeding the products from the B-side feeding platform 103 to the B-side detection station 20231, the B-side detection arm 20221 and carrying arm is used for feeding the OTP detection and carrying arm 20221 and carrying arm 210, the OTP detection and carrying arm 2022, the optical detection and carrying arm 202b detection and carrying arm 20221 and carrying arm detects the products after OTP detection and carrying arm 20221 and carrying arm 2, the OTP detection and carrying arm 2022, the products are moved to the feeding the optical detection and carrying arm 202b detection and carrying arm 2022, the products after OTP detection and carrying arm 210, the optical detection of the optical detection and carrying arm 202b detection of the feeding detection of the products; like this, the OTP check out test set that this embodiment provided, concentrate on 72 detection stations together, OTP efficiency has been improved, and the space is through the design that adopts upper and lower two-layer A detection station 2013 and B detection station 2023, equipment length control is in 13 meters, make equipment remodel ageing shorter, personnel's operation observability has been satisfied, the OTP detecting machine of prior art has been solved effectively, because mostly four-station OTP detecting machine, the quantity of detecting probe is 4, PG quantity is 8, OTP burns the workshop section and also can only adopt the single line, influence the defect of electronic equipment's OTP efficiency.

An a blanking transfer platform 301 corresponding to the a side OPT detection unit 201 and a B blanking transfer platform 302 corresponding to the B side OPT detection unit 202 are arranged on the opposite side of the blanking portion 300 from the host portion 200, an a side blanking conveying arm 209 for taking and transferring the material from each a side detection station 20131 in the a side OPT detection unit 201 to the a blanking transfer platform 301 is arranged on the opposite side of the a side linear motor 203 from the blanking portion 300, so that the material is transferred to the a blanking transfer platform 301 after OTP, and a B side blanking arm 210 for taking the material from each B side detection station 20231 in the B side OPT detection unit 202 to the B blanking transfer platform 302 is arranged on the opposite side of the B side linear motor 204 from the blanking portion 300, so that the material is transferred to the B blanking transfer platform 302 after OTP.

In this embodiment, the full TRAY is placed at the loading position 101 in two modes, manual/AGV.

In this embodiment, a plurality of maintenance passages are provided on both sides of the host 200, which facilitates maintenance.

In this embodiment, the loading portion 100 is further provided with an empty Tray bit 107 and an NG-Tray bit 108 disposed on the side of the loading position 101, which is away from the host portion 100.

In this embodiment, the loading unit 100 is further provided with an empty Tray transfer robot 109 for transferring empty TRAYs to the empty Tray position 107 and the NG-Tray position 108 after the products on the full Tray are taken out.

In this embodiment, a sweep code NG pipeline 306, a downstream equipment receiving blanking device 304 and an OTP-NG pipeline 305 are sequentially disposed on the opposite side of the blanking portion 300 from the host portion 200, and the blanking portion 300 is further provided with a blanking transfer manipulator 303 which is disposed above the blanking transfer platform a 301 and the blanking transfer platform B302 and used for taking products from the blanking transfer platform a 301 and the blanking transfer platform B302 and sending the products to the sweep code NG pipeline 306, the downstream equipment receiving blanking device 304 or the OTP-NG pipeline 305.

The utility model provides a 72 station OTP check equipment that embodiment provided above, including the material loading portion, the host computer portion and the unloading portion that set gradually from right side to left side, the host computer portion is equipped with an A side OPT detecting element and a B side OPT detecting element respectively along its length direction's both sides, A side OPT detecting element includes nine A side detecting platform that set gradually, each A side detecting platform includes an A side detecting lens subassembly and upper and lower two-layer A side detecting station respectively, each A side detecting station includes two A side product grades respectively, each A side product grade can put into a product, thus, A side OPT detecting element has 36A side product grades, namely, A side OPT detecting element has 36 detecting stations, each A side detecting lens subassembly includes four A side detecting lenses that correspond with four A side product grades respectively, namely, thus, the product is put to the A side product grade, then move to A side detecting lens department, A side detecting lens pushes down to the regulation position, carry out grade detection drawing, then carry out the material through the algorithm, the material is carried by the A side detecting lens subassembly, the B side detecting element includes two-side detecting element that each B side product grade detecting element includes two-side detecting element that sets up to the B side detecting element respectively, thus, each B side detecting element includes nine A side detecting element that each B side product grade can put into a product grade and B side detecting element respectively, thus, each B side detecting element includes 36B side detecting element, each B side detecting element that sets up to the B side detecting element separately, thus, each B side detecting element and the B side detecting element separately, thus, each B side detecting element has two-side detecting element separately, each B detecting element that sets up to set up to the B side detecting element separately, the detection lens on the B surface is pressed down to a specified position to perform optical detection and image taking, then OTP is output through an algorithm, and the OTP is taken by a blanking conveying arm on the B side and is sent to a blanking part, so that the OTP detection equipment provided by the embodiment integrates 72 detection stations together, the OTP efficiency is improved, the equipment length is controlled within 13 meters through the design of adopting an A detection station and a B detection station on an upper layer and a lower layer, the equipment model change timeliness is shortened, the observation performance of personnel operation is met, and the defect that the OTP efficiency of electronic equipment is influenced because most of four-station OTP detectors in the prior art, the number of detection probes is 4, the number of PGs is 8, and a burning working section only adopts a single line is overcome.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The OTP inspection equipment with the 72 stations is characterized by comprising a feeding part, a host part and a discharging part which are sequentially arranged from right to left, wherein a feeding position for placing a full Tray is arranged at one side, away from the host part, of the feeding part, an A handover platform and a B handover platform are respectively arranged at two ends of one side, opposite to the host part, of the feeding part, and a lifting mechanism, which is arranged corresponding to the feeding position and used for lifting the full Tray conveyed from the feeding position through linear motion, a correcting mechanism, which is arranged corresponding to the feeding position and used for correcting the full Tray lifted by the lifting mechanism, and a robot feeding conveying mechanism, which is used for conveying products corrected by the correcting mechanism to the A handover platform and the B handover platform, are arranged at the middle position of the feeding part;

the host part is respectively provided with an A-side OPT detection unit corresponding to the A-transferring platform and a B-side OPT detection unit corresponding to the B-transferring platform along two sides of the length direction of the host part, the A-side OPT detection unit comprises nine A-side detection platforms which are sequentially arranged, each A-side detection platform respectively comprises an A-side detection lens assembly and upper and lower A-side detection stations, each A-side detection station respectively comprises two A-side product positions, each A-side detection lens assembly respectively comprises four A-side detection lenses respectively corresponding to the four A-side product positions, the B-side OPT detection unit comprises nine B-side detection platforms which are sequentially arranged, each B-side detection platform respectively comprises a B-side detection lens assembly and upper and lower B-side detection stations, each B-side detection station respectively comprises two B-side product positions, each B face detection lens subassembly includes four respectively with four B face detection camera lenses that B face product position corresponds, still be equipped with an A side linear electric motor and a B side linear electric motor between A side OPT detecting element and the B side OPT detecting element, A side OPT detecting element with the relative one side of material loading portion is equipped with a first counterpoint camera, B side OPT detecting element with the relative one side of material loading portion is equipped with a second counterpoint camera, A side linear electric motor with the relative one side of material loading portion is equipped with one and is located first counterpoint camera top and follow A hands over the platform get the material and send to first counterpoint camera counterpoint and send to after counterpoint in A side OPT detecting element each A side material loading of A face detection station carries the arm, B side linear electric motor with the relative one side of material loading portion is equipped with one and is located second counterpoint camera top and follow B hands over the platform and send to second material loading platform The alignment camera aligns and sends the aligned materials to a B-side feeding and conveying arm of each B-side detection station in the B-side OPT detection unit;

unloading portion with host portion one side relative be equipped with one with A unloading transfer platform that A side OPT detecting element corresponds and one with B unloading transfer platform that B side OPT detecting element corresponds, A side linear electric motor with one side relative of unloading portion is equipped with one and follows each A face detection station gets the A side unloading of getting to be handed over A unloading transfer platform in A side OPT detecting element and carries the arm, B side linear electric motor with one side relative of unloading portion is equipped with one and follows each B face detection station in the B side OPT detecting element gets the B side unloading of getting to be handed over B unloading transfer platform and carries the arm.

2. The apparatus according to claim 1, wherein an a code scanning mechanism for scanning the code of the product on the a-transfer platform and a B code scanning mechanism for scanning the code of the product on the B-transfer platform are respectively disposed between the a-transfer platform and the B-transfer platform.

3. A 72-station OTP inspection apparatus as set forth in claim 1, wherein the loading portion is further provided with an empty Tray and an NG-Tray on a side thereof remote from the host portion.

4. A 72 station OTP inspection apparatus as set forth in claim 3 wherein said loading section is further provided with an empty Tray transfer robot for transferring empty TRAYs to empty and NG-Tray positions after the full Tray has been filled with product.

5. The 72-station OTP inspection device as claimed in claim 1, wherein a scanning NG line, a downstream equipment unloading equipment and an OTP-NG line are sequentially disposed on a side of the unloading part opposite to the host part, and the unloading part is further provided with an unloading transfer manipulator above the A unloading transfer platform and the B unloading transfer platform for taking products from the A unloading transfer platform and the B unloading transfer platform and delivering the products to the scanning NG line, the downstream equipment unloading equipment or the OTP-NG line.

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