CN113732520A

CN113732520A - Code printing equipment for SIP packaging of 5G communication radio frequency chip and use method thereof

Info

Publication number: CN113732520A
Application number: CN202111037982.8A
Authority: CN
Inventors: 张金国; 谈卫东; 骆江伟; 张要伟
Original assignee: Jiangsu Fulian Communication Technology Co ltd
Current assignee: Jiangsu Fulian Communication Technology Co ltd
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-12-03

Abstract

The invention discloses code printing equipment for SIP packaging of a 5G communication radio frequency chip and a using method thereof. The packaging of being convenient for all can carrying out effectual centre gripping drive to not unidimensional encapsulation through drive mechanism, and the high efficiency of the subsequent ink pad printing technology of being convenient for goes on, is convenient for dismantle the debugging maintenance alone to the ink pad printing subassembly through quick detach mechanism, has improved efficiency and the effect of using.

Description

Code printing equipment for SIP packaging of 5G communication radio frequency chip and use method thereof

Technical Field

The invention relates to the technical field of SIP packaging production, in particular to a code printing device for SIP packaging of a 5G communication radio frequency chip and a using method thereof.

Background

With the development of science and technology, the fifth generation mobile communication technology develops rapidly, the fifth generation mobile communication technology is a new generation broadband mobile communication technology with the characteristics of high speed, low time delay and large connection, and is a network infrastructure for realizing man-machine-object interconnection, the 5G communication technology is an indispensable chip, the chip needs to be assembled through SIP packaging in the production process, the SIP packaging surface needs to be printed, and the chip is marked by adopting a laser code printing technology.

Some shortcomings of the existing code printing equipment are as follows: 1. the existing code printing equipment is inconvenient for carrying out integral clamping and simultaneously moving on SIP chip packaging row groups of different sizes, is inconvenient for carrying out code printing on the packages arranged in multiple groups in sequence, and reduces the code printing efficiency. 2. The code printer of the existing code printing equipment is not convenient to detach independently, needs to debug and maintain on the equipment, consumes time and labor, and reduces the operation efficiency.

Disclosure of Invention

The invention mainly aims to provide a code printing device for SIP packaging of a 5G communication radio frequency chip and a using method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

the code printing equipment for SIP packaging of the 5G communication radio frequency chip comprises a base, a transmission mechanism, a third frame body and a quick-release mechanism, and is characterized in that the transmission mechanism which is convenient for effectively clamping and driving the packages with different sizes is installed inside the left side and the right side of the base, the third frame body is welded on the outer wall of the upper end of the center of the base, a top block is welded at the lower end of the center of the third frame body, the quick-release mechanism which is convenient for efficiently removing a code printing assembly is installed at the lower end of the top block, and a code printing device is inserted at the lower end of the quick-release mechanism;

drive mechanism includes spout, slider, bolt, first support body and emery wheel, the spout is seted up inside the base left and right sides front and back end, the slider inlays the dress inside the spout, first thread groove has been seted up to slider front end inside, the second thread groove has been seted up to spout front end lateral wall, bolt engagement installs inside first thread groove and second thread groove, first support body is equipped with in the slider upper end welding, the emery wheel is installed to first support body downside, the side welding is equipped with the second support body on the first support body front and back end, the drive wheel is installed to the lateral wall under the second support body middle part, drive wheel lateral wall cover is equipped with the belt, second support body rear end drive wheel upper end runs through the second support body and is connected with the motor.

Preferably, the quick release mechanism comprises a groove, an insert block, a through groove, an insert column and a spring, the groove is formed in the lower end of the top block, the insert block is inserted into the groove, the through groove is formed in the top block at the outer end of the two sides of the groove, slots are formed in the left end and the right end of the insert block, the insert column is inserted into the slots and the through groove, side slots are formed in the upper side and the lower side of the through groove, a limiting block is connected to the upper end and the lower end of the insert column in a penetrating mode through the side slots, and the spring is mounted at the outer end of the limiting block; the imprinter is dismantled alone and is maintained or clearance more fast.

Preferably, the size of the sliding groove is matched with that of the sliding block; more stable movement adjustment.

Preferably, the screw thread on the outer wall of the bolt is meshed with the screw threads on the inner walls of the first screw groove and the second screw groove; and effectively fixing the regulated part.

Preferably, twelve groups are uniformly arranged on the second screw grooves; is convenient to adjust according to various size requirements.

Preferably, the diameter size of the grinding wheel is twice of the width size of the first frame body; the effective clamping transmission of encapsulation is more convenient.

Preferably, the limiting block is connected with one end of the spring, and the other end of the spring is connected with the side wall of the side groove; the potential energy conversion of the spring is effectively utilized to achieve the effect of quick disassembly.

Preferably, the cross section sizes of the slot and the through groove are matched with the cross section size of the inserted column; more stable cartridge is fixed.

Preferably, the upper side and the lower side of the spring are symmetrically arranged; the stress of the inserting column in the inserting process is more stable.

A use method of code printing equipment for SIP packaging of a 5G communication radio frequency chip comprises the following steps:

the method comprises the following steps: the inserting columns are manually pulled to the two sides to move towards the outer ends in the through grooves and the slots, the limiting blocks on the upper side and the lower side are driven to move outwards in the side-opening grooves to extrude the springs, the springs are compressed and deformed, and when the inserting columns are separated from the slots, the code printer is pulled downwards to drive the inserting blocks to be separated from the grooves for debugging and maintenance;

step two: after the code printer is debugged, the inserting columns are pulled to the two sides again to move outwards to be separated from the grooves, the inserting blocks at the upper end of the code printer are inserted into the grooves in an aligning mode, the pulling force of the inserting columns is released, the springs convert elastic potential energy into kinetic energy and push the limiting blocks inwards to drive the inserting columns to move inwards in the through grooves to be inserted into the inserting grooves, the inserting blocks can be fixed, and meanwhile the code printer is fixed;

step three: the bolts are twisted towards the outside of the front end and the back end and taken out from the first screw groove and the second screw groove in a meshing rotation mode, the first frame body is pushed towards the outside or the inside, the sliding block is driven to slide left and right in the sliding groove, and the distance between the grinding wheels at two sides is adjusted according to the SIP packaging width size of the code to be printed;

step four: after the distance is adjusted, aligning the second screw groove after the position is adjusted with the first screw groove, installing bolts in the first screw groove and the second screw groove towards the inner ends of the front side and the rear side in a meshing rotation mode to complete the fixation of the sliding block, and simultaneously completing the fixation of the first frame bodies on the two sides and the fixation of the grinding wheels on the two sides after the distance is adjusted;

step five: the motor is controlled to rotate through the external control equipment to drive the driving wheel at the rearmost end to rotate, the belt is driven to rotate through friction, the grinding wheels correspondingly connected with each group of driving wheels and the lower side are driven to rotate towards the rear end through friction transmission of the belt, the packaging to be printed is horizontally placed and inserted from the front end of the grinding wheel, two side walls of the packaging are moved towards the rear side of the base under the friction rotation of the grinding wheels at two sides, and meanwhile, the code printer is controlled to perform intermittent code printing to complete the code printing process.

Compared with the prior art, the invention has the following beneficial effects: 1. adopt embedded sliding mode to adjust the distance between the first support body of both sides to the size between the first support body of both sides is adjusted to the encapsulation of printing code is arranged the size difference of group as required, thereby makes the more effectual centre gripping of both sides emery wheel in the left and right sides by the printing code encapsulation, is convenient for drive the encapsulation through the rotational friction of emery wheel and moves forward when to the encapsulation centre gripping, reaches efficient printing code effect, has increased the printing code efficiency of printing code equipment.

2. Adopt elastic potential energy conversion, under the effect of outside pulling force, to insert the post and insert in the slot at inserted block upside both ends, accomplish the quick fixation to downside ink recorder, when needs maintain the debugging ink recorder, through to inserting the post pulling and make the stopper remove the extrusion spring to the outer end in the side fluting, make and insert the post and break away from the slot in to outside, can stimulate ink recorder downwards and drive the inserted block and follow the downward separation in the recess, the completion is convenient for direct debugging maintenance to independent dismantlement of ink recorder, the result of use of ink recorder is improved.

Drawings

Fig. 1 is a schematic perspective view of a code printing device for SIP packaging of a 5G communication radio frequency chip according to the present invention.

Fig. 2 is a schematic diagram of a partially enlarged structure a in fig. 1 of a code printing device for SIP packaging of a 5G communication radio frequency chip according to the present invention.

Fig. 3 is a schematic view of a partial three-dimensional structure of a transmission mechanism of a code printing device for SIP packaging of a 5G communication radio frequency chip according to the present invention.

Fig. 4 is a schematic front sectional view of a quick release mechanism of an encoding device for SIP packaging of a 5G communication rf chip according to the present invention.

In the figure: 1. a base; 201. a chute; 202. a slider; 203. a first screw groove; 204. a second screw groove; 205. a bolt; 206. a first frame body; 207. a grinding wheel; 208. a second frame body; 209. a driving wheel; 210. a motor; 211. a belt; 3. a third frame body; 4. a top block; 501. a groove; 502. inserting a block; 503. a slot; 504. a through groove; 505. side grooving; 506. inserting a column; 507. a limiting block; 508. a spring; 6. and a code printer.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-4, a code printing device for SIP packaging of a 5G communication radio frequency chip comprises a base 1, a transmission mechanism, a third frame body 3 and a quick release mechanism, and is characterized in that the transmission mechanism which is convenient for effectively clamping and driving the packages with different sizes is installed inside the left side and the right side of the base 1, the third frame body 3 is welded on the outer wall of the upper end of the center of the base 1, a top block 4 is welded on the lower end of the center of the third frame body 3, the quick release mechanism which is convenient for efficiently removing a code printing assembly is installed on the lower end of the top block 4, and a code printing device 6 is inserted in the lower end of the quick release mechanism;

the transmission mechanism comprises a sliding groove 201, a sliding block 202, a bolt 205, a first frame body 206 and a grinding wheel 207, the sliding groove 201 is formed inside the front end and the rear end of the left side and the right side of the base 1, the sliding block 202 is embedded inside the sliding groove 201, a first spiral groove 203 is formed inside the front end of the sliding block 202, a second spiral groove 204 is formed in the side wall of the front end of the sliding groove 201, the bolt 205 is meshed and installed inside the first spiral groove 203 and the second spiral groove 204, the upper end of the sliding block 202 is welded with the first frame body 206, the grinding wheel 207 is installed on the lower side of the first frame body 206, a second frame body 208 is welded on the upper side of the front end and the rear end of the first frame body 206, a transmission wheel 209 is installed on the lower side wall of the middle of the second frame body 208, a belt 211 is sleeved on the side wall of the transmission wheel 209, and the upper end of the rear end of the second frame body 208 penetrates through the second frame body 208 and is connected with a motor 210.

Specifically, the quick release mechanism comprises a groove 501, an insert block 502, a through groove 504, an insert column 506 and a spring 508, wherein the groove 501 is arranged inside the lower end of the top block 4, the insert block 502 is inserted into the groove 501, the through groove 504 is arranged inside the top block 4 at the outer end of the two sides of the groove 501, slots 503 are arranged inside the left end and the right end of the insert block 502, the insert column 506 is inserted into the slots 503 and the through groove 504, side slots 505 are arranged on the upper side and the lower side of the through groove 504, a limit block 507 is connected inside the side slot 505 at the upper end and the lower end of the insert column 506 through, and the spring 508 is arranged at the outer end of the limit block 507; the imprinter 6 is more quickly individually disassembled for maintenance or cleaning.

Specifically, the size of the sliding chute 201 is matched with that of the sliding block 202; more stable movement adjustment.

Specifically, the threads on the outer wall of the bolt 205 are meshed with the threads on the inner walls of the first screw groove 203 and the second screw groove 204; and effectively fixing the regulated part.

Specifically, twelve groups are uniformly arranged on the second screw grooves 204; is convenient to adjust according to various size requirements.

Specifically, the diameter of the grinding wheel 207 is twice the width of the first frame 206; the effective clamping transmission of encapsulation is more convenient.

Specifically, the limiting block 507 is connected with one end of the spring 508, and the other end of the spring 508 is connected with the side wall of the side slot 505; the potential energy conversion of the spring is effectively utilized to achieve the effect of quick disassembly.

Specifically, the cross-sectional dimensions of the slot 503 and the through slot 504 are matched with the cross-sectional dimension of the plug 506; more stable cartridge is fixed.

Specifically, the spring 508 is symmetrically installed at the upper and lower sides; the force applied to the plug 506 is more stable during the insertion process.

the method comprises the following steps: manually pulling the inserting columns 506 to both sides to enable the inserting columns to move towards the outer ends in the through grooves 504 and the slots 503, simultaneously driving the limiting blocks 507 at the upper and lower sides to move outwards in the side open grooves 505 to extrude the springs 508 to be compressed and deformed, and when the inserting columns 506 are separated from the slots 503, pulling the code printer 6 downwards to drive the inserting blocks 502 to be separated from the grooves 501 for debugging and maintenance;

step two: after the code printer 6 is debugged, the inserting columns 506 are pulled to the two sides again to move outwards to be separated from the grooves 501, the inserting blocks 502 at the upper end of the code printer 6 are inserted into the grooves 501 in an aligning mode, the pulling force on the inserting columns 506 is released, the springs 508 convert elastic potential energy into kinetic energy and push the limiting blocks 507 inwards to drive the inserting columns 506 to move inwards in the through grooves 504 to be inserted into the inserting grooves 503, the inserting blocks 502 can be fixed, and meanwhile the code printer 6 is fixed;

step three: the bolt 205 is twisted to the outside of the front end and the back end and taken out from the first screw groove 203 and the second screw groove 204 in a meshing rotation mode, the first frame body 206 is pushed to the outside or the inside, the sliding block 202 is driven to slide left and right in the sliding groove 201, and the distance between the grinding wheels 207 on the two sides is adjusted according to the SIP packaging width size to be printed;

step four: after the distance is adjusted, the second screw groove 204 after the position is adjusted is aligned with the first screw groove 203, the bolt 205 is installed in the first screw groove 203 and the second screw groove 204 towards the inner ends of the front side and the rear side in a meshing rotation mode, the fixing of the sliding block 202 is completed, meanwhile, the fixing of the first frame bodies 206 on the two sides is completed, and the fixing of the grinding wheels 207 on the two sides after the distance is adjusted is completed;

step five: the motor 210 is controlled to rotate through external control equipment to drive the driving wheel 209 at the rearmost end to rotate, the belt 211 is driven to rotate through friction force, the friction transmission through the belt 211 drives each group of driving wheels 209 and the grinding wheels 207 correspondingly connected with the lower sides to rotate towards the rear end, the packaging to be printed is horizontally placed and inserted from the front ends of the grinding wheels 207, the two side walls of the packaging are moved towards the rear side of the base 1 under the friction rotation of the grinding wheels 207 at the two sides, meanwhile, the code printer 6 is controlled to perform intermittent code printing, and the code printing process is completed.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The code printing equipment for SIP packaging of the 5G communication radio frequency chip comprises a base (1), a transmission mechanism, a third frame body (3) and a quick-release mechanism, and is characterized in that the transmission mechanism which is convenient for effectively clamping and driving the packages with different sizes is installed inside the left side and the right side of the base (1), the third frame body (3) is welded on the outer wall of the upper end of the center of the base (1), a top block (4) is welded at the lower end of the center of the third frame body (3), the quick-release mechanism which is convenient for efficiently removing a code printing assembly is installed at the lower end of the top block (4), and a code printer (6) is inserted at the lower end of the quick-release mechanism;

the transmission mechanism comprises a sliding groove (201), a sliding block (202), a bolt (205), a first frame body (206) and a grinding wheel (207), the sliding groove (201) is formed inside the front end and the rear end of the left side and the right side of the base (1), the sliding block (202) is embedded inside the sliding groove (201), a first spiral groove (203) is formed inside the front end of the sliding block (202), a second spiral groove (204) is formed on the side wall of the front end of the sliding groove (201), the bolt (205) is installed inside the first spiral groove (203) and the second spiral groove (204) in a meshed mode, the upper end of the sliding block (202) is provided with the first frame body (206) in a welded mode, the grinding wheel (207) is installed on the lower side of the first frame body (206), the second frame body (208) is installed on the upper side of the front end and the rear end of the first frame body (206) in a welded mode, a transmission wheel (209) is installed on the lower side wall of the middle of the second frame body (208), and a belt (211) is sleeved on the side wall of the transmission wheel (209), the upper end of the rear end driving wheel (209) of the second frame body (208) penetrates through the second frame body (208) and is connected with a motor (210).

2. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 1, wherein: quick detach mechanism includes recess (501), inserted block (502), logical groove (504), post (506) and spring (508), set up inside kicking block (4) lower extreme in recess (501), inserted block (502) cartridge is inside recess (501), logical groove (504) have been seted up to recess (501) both sides outer end kicking block (4) inside, both ends are inside to have seted up slot (503) about inserted block (502), inserted post (506) cartridge is inside slot (503) and logical groove (504), side fluting (505) have been seted up to both sides about logical groove (504), both ends run through side fluting (505) internal connection has stopper (507) about inserted post (506), spring (508) are installed to stopper (507) outer end.

3. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 1, wherein: the size of the sliding groove (201) is matched with that of the sliding block (202).

4. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 1, wherein: the screw thread of the outer wall of the bolt (205) is meshed with the screw thread of the inner wall of the first screw groove (203) and the second screw groove (204).

5. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 1, wherein: and twelve groups of second screw grooves (204) are uniformly formed.

6. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 1, wherein: the diameter size of the grinding wheel (207) is twice of the width size of the first frame body (206).

7. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 2, wherein: the limiting block (507) is connected with one end of a spring (508), and the other end of the spring (508) is connected with the side wall of the side groove (505).

8. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 2, wherein: the cross section sizes of the slot (503) and the through slot (504) are matched with the cross section size of the plug column (506).

9. The imprinting device for SIP packaging of a 5G communication radio frequency chip according to claim 2, wherein: the springs (508) are symmetrically arranged at the upper side and the lower side.

10. The use method of the code printing device for SIP packaging of the 5G communication radio frequency chip based on any one of claims 1-9 is characterized in that: the method comprises the following steps:

the method comprises the following steps: the inserting columns (506) are manually pulled towards two sides to enable the inserting columns to move towards the outer ends in the through grooves (504) and the inserting grooves (503), meanwhile, the limiting blocks (507) on the upper side and the lower side are driven to move outwards in the side opening grooves (505) to squeeze the springs (508), so that the springs are compressed and deformed, and when the inserting columns (506) are separated from the inserting grooves (503), the code printer (6) is pulled downwards to drive the inserting blocks (502) to be separated from the groove (501) for debugging and maintenance;

step two: after the code printer (6) is debugged, the inserting columns (506) are pulled to the two sides again to move outwards to be separated from the grooves (501), the inserting blocks (502) at the upper end of the code printer (6) are inserted into the grooves (501) in an aligning mode, the pulling force of the inserting columns (506) is released, the springs (508) convert elastic potential energy into kinetic energy to drive the limiting blocks (507) to drive the inserting columns (506) to move inwards in the through grooves (504) to be inserted into the inserting grooves (503), the fixing of the inserting blocks (502) can be completed, and meanwhile the fixing of the code printer (6) is completed;

step three: the bolt (205) is twisted to the outside of the front end and the back end and is taken out from the first screw groove (203) and the second screw groove (204) in a meshing rotation mode, the first frame body (206) is pushed to the outside or the inside, the sliding block (202) is driven to slide left and right in the sliding groove (201), and the distance between the grinding wheels (207) on the two sides is adjusted according to the SIP packaging width size of the code to be printed;

step four: after the distance is adjusted, aligning the second screw groove (204) after the position is adjusted with the first screw groove (203), installing a bolt (205) in the first screw groove (203) and the second screw groove (204) towards the inner ends of the front side and the rear side in a meshing rotation mode, completing the fixing of the sliding block (202), simultaneously completing the fixing of the first frame bodies (206) on the two sides, and completing the fixing of the grinding wheels (207) on the two sides after the distance is adjusted;

step five: the motor (210) is controlled to operate through external control equipment to drive the driving wheel (209) at the rearmost end to rotate, the belt (211) is driven to rotate through friction force, the friction transmission through the belt (211) drives each group of driving wheels (209) and the grinding wheel (207) correspondingly connected with the lower side to rotate towards the rear end, the package to be printed is horizontally placed and inserted from the front end of the grinding wheel (207), the two side walls of the package are moved towards the rear side of the base (1) under the friction rotation of the grinding wheels (207) at the two sides, meanwhile, the code printer (6) is controlled to perform discontinuous code printing, and the code printing process is completed.