CN217755041U

CN217755041U - Stock bin for IC (integrated circuit) support plate

Info

Publication number: CN217755041U
Application number: CN202221837195.1U
Authority: CN
Inventors: 周俊强; 邵梦豪; 曹葵康; 温延培
Original assignee: Tztek Technology Co Ltd
Current assignee: Tztek Technology Co Ltd
Priority date: 2022-07-18
Filing date: 2022-07-18
Publication date: 2022-11-08
Anticipated expiration: 2032-07-18

Abstract

The utility model provides a stock bin for an IC carrier plate, which comprises a stock bin lifting main body, a stock bin driving component, a stack feeding and discharging induction component and a controller; the stack feeding and discharging sensing assembly is arranged on the bin lifting main body, is in telecommunication connection with the controller and is used for sensing feeding and discharging; the bin driving assembly is in driving connection with the bin lifting main body and is used for driving products in the bin lifting main body to lift successively in the Z-axis direction so as to realize stacked feeding and discharging of the products; through this feed bin, can bear for the IC support plate of different models provides, and can be convenient for stack formula business turn over material, improved the efficiency and the technical accuracy of business turn over material.

Description

Stock bin for IC (integrated circuit) support plate

Technical Field

The utility model relates to an IC support plate bears the utensil field, concretely relates to feed bin for IC support plate.

Background

IC carrier plate, circuit board (including FPC and PCB tin-spraying plate, gold-depositing plate, gold-plating plate, silver-depositing plate, tin-depositing plate, OSP anti-oxidation plate, etc.) and silicon chip are widely used in electronic and electric equipments at present, and are also important materials for materializing circuit principle.

In the prior art, the production of board products such as IC carrier boards includes a plurality of processes, in which the board products are carried in carriers such as magazines many times or several times. However, in the existing stock bin, the materials can not be fed and discharged and counted one by one, and the structure is single, so that the bearing of the carrier plates with multiple specifications can not be met.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a stock bin for an IC carrier plate, which can solve the problems.

A stock bin for an IC carrier plate comprises a stock bin lifting main body, a stock bin driving assembly, a stacking feeding and discharging induction assembly and a controller; the stack feeding and discharging sensing assembly is arranged on the bin lifting main body, is in telecommunication connection with the controller and is used for sensing feeding and discharging; the bin driving assembly is in driving connection with the bin lifting main body and is used for driving products in the bin lifting main body to lift gradually in the Z-axis direction so as to achieve stacking type feeding and discharging of the products.

Further, the bin lifting main body comprises a guide bottom plate, a guide positioning assembly, bin side plates, a bin loading bottom plate, a bin back plate and bin side reinforcing plates; the distance between the guide positioning assembly and the bin side plate is adjustable so as to adapt to IC carrier plates of different specifications; the two bin side reinforcing plates are arranged on two sides of the bin back plate oppositely, the tops of the bin side reinforcing plates are fixedly connected with two sides of the bottom surface of the bin loading bottom plate, and the back surfaces of the bin side reinforcing plates are connected with the bin driving assembly.

Furthermore, the guide positioning assembly comprises a guide column assembly, a guide column adapter plate, a guide column sliding block, a guide column sliding rail, a wheel groove plate, an adjusting wheel and an adjusting stop block; the two guide post sliding rails are arranged on the guide base plate in parallel, and the guide post adapter plate is connected with the guide post sliding rails in a sliding manner through the guide post sliding blocks; the bottom end of the guide column assembly is fixed to the guide column adapter plate, and the upper part of the guide column assembly penetrates through a plurality of strip slotted holes formed in the bin material loading bottom plate; the adjusting wheel is connected with the guide column adapter plate and drives the guide column assembly to move along the X direction of the wheel groove plate; the adjusting stop blocks are arranged on two sides of the guide bottom plate and limit the guide column assembly.

Further, the bin driving assembly comprises a fixed block, a fixed plate, a bin lifting screw rod assembly, a bin lifting motor assembly, a bin side rail, a bin lifting slide block, a tooth fork mounting plate and a bin Z-axis drag chain; one end of the fixed block is fixedly connected with the rack, and the other end of the fixed block is connected with the fixed plate; two bin side rails are arranged in parallel along the vertical direction of two side parts of the fixed plate; a bin lifting screw rod assembly driven by the bin lifting motor assembly is arranged between the two bin side rails on the fixing plate; the tooth fork mounting plate is connected with the bin side rail in a sliding fit manner through two bin lifting slide blocks which are arranged in series; the end parts of the two sides of the front end surface of the tooth fork mounting plate are fixedly connected with the rear end surface of the bin back plate of the bin lifting main body; the Z-axis drag chain of the storage bin is arranged on one side edge of the fixed plate.

Further, the stack feeding and discharging sensing assembly comprises a top material sensor, a bottom material sensor, a top lifting limiter and a bottom lifting limiter; the top material sensor is arranged at the top of the bin side plate and/or the bin back plate; the bottom material sensor is arranged on the bin loading bottom plate and used for sensing whether a material is fed from the upper part; the top lifting limiter and the bottom lifting limiter are arranged on the front side face of the bin side plate and used for limiting the lifting threshold value of the bin driving assembly driving the bin lifting main body.

Compared with the prior art, the beneficial effects of the utility model reside in that: through this feed bin, can bear for the IC support plate of different models provides, and can be convenient for stack formula business turn over material, improved the efficiency and the technical accuracy of business turn over material.

Drawings

FIG. 1 is a schematic view of an angle of a bin for an IC carrier of the present invention;

FIG. 2 is a schematic view of another view angle of the material bin for IC carrier of the present invention;

fig. 3 is a schematic diagram of a state that a guide column assembly in the guide positioning assembly is at the outermost side to carry a carrier plate of the largest specification.

In the figure, the position of the upper end of the main shaft,

10. a bin lifting main body;

101. a guide base plate; 102. a guide post assembly; 103. a guide post adapter plate; 104. a guide post slider; 105. a guide post slide rail; 106. a wheel groove plate; 107. an adjustment wheel; 108. adjusting the stop block; 109. a bin side plate; 110. a bin loading bottom plate; 111. a bin back plate; 112. a bin side reinforcing plate; 113. a bakelite block; 114. a bottom plate reinforcing rib; 115. transferring angle iron;

20. a bin drive assembly;

201. a fixed block; 202. a fixing plate; 203. a stock bin lifting screw rod assembly; 204. a bin lifting motor assembly; 205. a bin side rail; 206. a stock bin lifting slide block; 207. a slider adapter plate; 208. a tooth fork mounting plate; 209. a guard plate is arranged on the bin baffle; 210. the motor is connected with the lower guard plate in a switching way; 211. a Z-axis drag chain of a stock bin;

301. a top material sensor; 302. a bottom material sensor; 303. a top lift stop; 304. bottom lift stopper.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A magazine for IC carriers, as shown in fig. 1 to 3, includes a magazine lifting body 10, a magazine driving assembly 20, a stack feeding and discharging sensing assembly, and a controller, which are not shown.

The feed and discharge principle is as follows: the stack feeding and discharging sensing assembly is arranged on the stock bin lifting main body 10, is in telecommunication connection with the controller and is used for sensing feeding and discharging; the bin driving assembly 20 is in driving connection with the bin lifting main body 10 and is used for driving the products in the bin lifting main body 10 to lift one by one in the Z-axis direction, so that stacked feeding and discharging of the products are realized.

The bin lifting body 10 includes a guide bottom plate 101, a guide positioning assembly, a bin side plate 109, a bin loading bottom plate 110, a bin back plate 111, and a bin side reinforcing plate 112.

Connection relation: the distance between the guide positioning assembly and the bin side plate 109 is adjustable so as to adapt to IC carrier plates with different specifications; the two bin side reinforcing plates 112 are oppositely arranged on two sides of the bin back plate 111, the top of the bin side reinforcing plate 112 is fixedly connected with two sides of the bottom surface of the bin loading bottom plate 110, and the back of the bin side reinforcing plate 112 is connected with the bin driving assembly 20.

Further, the guide positioning assembly comprises a guide column assembly 102, a guide column adapter plate 103, a guide column sliding block 104, a guide column sliding rail 105, a wheel groove plate 106, an adjusting wheel 107 and an adjusting stop block 108; the two guide post slide rails 105 are arranged on the guide base plate 101 in parallel, and the guide post adapter plate 103 is connected with the guide post slide rails 105 in a sliding manner through the guide post slide blocks 104; the bottom end of the guide column assembly 102 is fixed to the guide column adapter plate 103, and the upper part of the guide column assembly 102 penetrates through a plurality of strip slotted holes formed in the bin loading bottom plate 110; the adjusting wheel 107 is connected with the guide column adapter plate 103 to drive the guide column assembly 102 to move along the wheel groove plate 106X direction; the adjusting stoppers 108 are disposed on both sides of the guide base plate 101 to limit the position of the guide post assembly 102.

Further, a plurality of bakelite blocks 113 are arranged on the bin loading bottom plate 110; the plurality of bakelite blocks 113 and the plurality of strip slotted holes on the bin loading bottom plate 110 are arranged at intervals. Alternatively, a form of laying an elastic base mat may be adopted.

Further, a bottom plate reinforcing rib 114 and a transfer angle iron 115 are further provided at the bottoms of both sides of the guide bottom plate 101 to enhance stability and facilitate transfer connection.

The bin driving assembly 20 includes a fixing block 201, a fixing plate 202, a bin lifting screw rod assembly 203, a bin lifting motor assembly 204, a bin side rail 205, a bin lifting slide block 206, a tooth fork mounting plate 208, and a bin Z-axis drag chain 211.

Connection relation: one end of the fixing block 201 is fixedly connected with the frame, and the other end of the fixing block 201 is connected with the fixing plate 202; two bin side rails 205 are arranged in parallel along the vertical direction of two side parts of the fixing plate 202; a bin lifting screw rod assembly 203 driven by the bin lifting motor assembly 204 is arranged between the two bin side rails 205 on the fixing plate 202; the feed fork mounting plate 208 is connected with the feed bin side rail 205 in a sliding fit manner through two feed bin lifting slide blocks 206 arranged in series; the end parts of the two sides of the front end surface of the fork mounting plate 208 are fixedly connected with the rear end surface of the bin back plate 111 of the bin lifting main body 10; the bin Z-axis drag chain 211 is disposed on one side of the fixed plate 202.

Further, the bin driving assembly 20 further includes a bin baffle upper guard plate 209 and a motor transfer lower guard plate 210, the upper end of the front plate surface of the fixing plate 202 is vertically and fixedly connected with the bin baffle upper guard plate 209, and the front plate surface of the bin baffle upper guard plate 209 is connected with the top of the back surface of the bin back plate 111; the front plate surface of the motor transfer lower guard plate 210 is connected with the bottom of the back surface of the bin back plate 111.

Further, the bin lift slide 206 is connected to the back of the fork mounting plate 208 via a slide adapter plate 207.

The stacking material inlet and outlet sensing assembly comprises a top material sensor 301, a bottom material sensor 302, a top lifting limiter 303 and a bottom lifting limiter 304; the top material sensor 301 is arranged on the top of the bin side plate 109 and/or the bin back plate 111; the bottom material sensor 302 is arranged on the bin loading bottom plate 110 and used for sensing whether the material is fed from the upper part; the top and

bottom elevation stoppers

303 and 304 are disposed on the front side of the bin side plate 109 to limit an elevation threshold of the bin driving assembly 20 driving the bin elevating main body 10.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. The utility model provides a feed bin for IC support plate which characterized in that: the storage bin comprises a storage bin lifting main body (10), a storage bin driving assembly (20), a stacking feeding and discharging induction assembly and a controller;

the stack feeding and discharging sensing assembly is arranged on the bin lifting main body (10), is in telecommunication connection with the controller and is used for sensing feeding and discharging;

the bin driving assembly (20) is in driving connection with the bin lifting main body (10) and is used for driving products in the bin lifting main body (10) to lift gradually in the Z-axis direction so as to achieve stacking type feeding and discharging of the products.

2. The IC carrier magazine of claim 1, wherein: the bin lifting main body (10) comprises a guide bottom plate (101), a guide positioning assembly, a bin side plate (109), a bin loading bottom plate (110), a bin back plate (111) and a bin side reinforcing plate (112); the distance between the guide positioning assembly and the bin side plate (109) is adjustable so as to adapt to IC carrier plates of different specifications; the two opposite bin side reinforcing plates (112) are arranged on two sides of the bin back plate (111), the top of each bin side reinforcing plate (112) is fixedly connected with two sides of the bottom surface of the bin material loading bottom plate (110), and the back of each bin side reinforcing plate (112) is connected with the bin driving assembly (20).

3. The IC carrier magazine of claim 2, wherein: the guide positioning assembly comprises a guide column assembly (102), a guide column adapter plate (103), a guide column sliding block (104), a guide column sliding rail (105), a wheel groove plate (106), an adjusting wheel (107) and an adjusting stop block (108); the two guide post sliding rails (105) are arranged on the guide base plate (101) in parallel, and the guide post adapter plate (103) is connected with the guide post sliding rails (105) in a sliding manner through the guide post sliding blocks (104); the bottom end of a guide column assembly (102) is fixed to the guide column adapter plate (103), and the upper part of the guide column assembly (102) penetrates through a plurality of strip slotted holes formed in the bin loading bottom plate (110) to be arranged; the adjusting wheel (107) is connected with the guide column adapter plate (103) and drives the guide column assembly (102) to move along the X direction of the wheel groove plate (106); the adjusting stoppers (108) are arranged on two sides of the guide bottom plate (101) to limit the guide column assembly (102).

4. The bin for the IC carrier of claim 3, wherein: a plurality of bakelite blocks (113) are arranged on the bin loading bottom plate (110); the plurality of bakelite blocks (113) and a plurality of strip slotted holes on the bin loading bottom plate (110) are arranged at intervals.

5. The IC carrier magazine of claim 2, wherein: the bin driving assembly (20) comprises a fixing block (201), a fixing plate (202), a bin lifting screw rod assembly (203), a bin lifting motor assembly (204), a bin side rail (205), a bin lifting slide block (206), a tooth fork mounting plate (208) and a bin Z-axis drag chain (211); one end of the fixing block (201) is fixedly connected with the rack, and the other end of the fixing block (201) is connected with the fixing plate (202); two bin side rails (205) are arranged in parallel along the vertical direction of two side parts of the fixing plate (202); a bin lifting screw rod assembly (203) driven by the bin lifting motor assembly (204) is arranged between the two bin side rails (205) on the fixing plate (202); the feed dog mounting plate (208) is connected with the feed bin side rail (205) in a sliding fit manner through two feed bin lifting sliding blocks (206) which are arranged in series; the end parts of two sides of the front end surface of the tooth fork mounting plate (208) are fixedly connected with the rear end surface of a bin back plate (111) of the bin lifting main body (10); the bin Z-axis drag chain (211) is arranged on one side edge of the fixing plate (202).

6. The IC carrier magazine of claim 5, wherein: the bin driving assembly (20) further comprises a bin baffle upper protection plate (209) and a motor transfer lower protection plate (210), the upper end of the front plate surface of the fixing plate (202) is vertically and fixedly connected with the bin baffle upper protection plate (209), and the front plate surface of the bin baffle upper protection plate (209) is connected with the top of the back surface of the bin back plate (111); the front plate surface of the motor switching lower protection plate (210) is connected with the bottom of the back surface of the bin back plate (111).

7. The bin for the IC carrier of claim 5, wherein: the stack feeding and discharging sensing assembly comprises a top material sensor (301), a bottom material sensor (302), a top lifting limiter (303) and a bottom lifting limiter (304); the top material sensor (301) is arranged on the top of the bin side plate (109) and/or the bin back plate (111); the bottom material sensor (302) is arranged on the bin loading bottom plate (110) and is used for sensing whether the material is fed from the top; the top lifting limiter (303) and the bottom lifting limiter (304) are arranged on the front side of the bin side plate (109) and used for limiting the lifting threshold value of the bin driving assembly (20) for driving the bin lifting main body (10).