CN114585164A

CN114585164A - Processing equipment for mobile phone integrated mainboard

Info

Publication number: CN114585164A
Application number: CN202210137199.7A
Authority: CN
Inventors: 邱中华; 邱根波
Original assignee: Shenzhen Huaer Bosi Technology Co ltd
Current assignee: Shenzhen Huaer Bosi Technology Co ltd
Priority date: 2022-02-15
Filing date: 2022-02-15
Publication date: 2022-06-03

Abstract

The invention relates to the technical field of mobile phone integrated mainboards, in particular to processing equipment for a mobile phone integrated mainboard. The coating component is positioned on the upper side of the inner end of the processing component, the processing component comprises a fixed base, a rotating base, a placement platform, a feeding groove, a plate blank body, a through groove, a material taking plate, a supporting column and a middle bearing column, the rotating base is connected to the upper end of the fixed base through a rotating shaft, the placement platform is positioned above the rotating base, the feeding groove is uniformly formed in the outer side of the upper end of the placement platform, through the arrangement of the coating component, the plate blank can be processed through semi-automatic equipment, a worker can be prevented from directly contacting with the processing of the plate blank, the worker can be effectively protected, meanwhile, the coating component can be used for synchronously processing a plurality of plate blanks, and the processing speed of the plate blank can be improved.

Description

Processing equipment for mobile phone integrated mainboard

Technical Field

The invention relates to the technical field of mobile phone integrated mainboards, in particular to processing equipment for a mobile phone integrated mainboard.

Background

The integrated mainboard of present cell-phone can make the blank in the course of working, can pile up very complicated glass fiber layer simultaneously and glue together with the resin in order to form a solid layer. This new single fiberglass layer would then be coated with a layer of copper on the top and bottom sides. A chemical substance called photoresist is then coated on top of the copper layer, and at present, in the process of coating the chemical substance, the chemical substance is often manually coated by workers, so that the production speed of the blanks is slow, and meanwhile, the chemical substance directly contacts with the workers and causes physical harm to the workers.

Disclosure of Invention

The invention aims to provide processing equipment for an integrated mainboard of a mobile phone, so as to solve the problems in the process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a processing equipment for integrated mainboard of cell-phone, the coating subassembly is located the inner upside of processing subassembly, and wherein the processing subassembly is including unable adjustment base, rotating base, settling platform, blowing groove, blank body, run through logical groove, get the flitch, support column and middle part and hold the post, rotating base connects in unable adjustment base's upper end by the pivot, and wherein settling platform is located rotating base's top, the blowing groove is evenly seted up in the upper end outside of settling platform, and wherein the blank body is placed in the inside of blowing groove, it evenly runs through and sets up on settling platform to run through logical groove, and wherein gets the flitch and be located the inner downside that runs through logical groove, support column welded connection is in getting the lower extreme of flitch and inclines, and wherein the middle part is accepted the post welded connection and is in rotating base's upper end medial side.

Preferably, the through groove runs through the discharging grooves and is formed, wherein the angle interval between every two adjacent discharging grooves is sixty degrees, the material taking plate is located below the slab body, the support columns are connected to the rotating base in a welded mode, the middle bearing columns run through the middle end of the placement platform and are arranged, the guide sliding grooves are symmetrically formed in two sides of one end of each middle bearing column, the upper sliding blocks and the lower sliding blocks run through one ends of the guide sliding grooves, and one ends of the upper sliding blocks and the lower sliding blocks are connected with the placement platform in a welded mode.

Preferably, the middle side of the inner end of the middle bearing column is provided with an operating telescopic rod, the upper end of the operating telescopic rod is provided with a disk connected with a screw, the disk is connected with the upper slide block and the lower slide block in a welding manner, the upper end of the middle bearing column is provided with a work doing cylinder connected with the screw, the lower side of the inner end of the work doing cylinder is uniformly provided with a distance increasing touch panel connected with the screw in a welding manner, the distance increasing touch panel is arranged in an arc manner, the lower end of the work doing cylinder is uniformly penetrated and provided with a butt joint guide groove, and the position of the butt joint guide groove and the position of the slab body are arranged in an up-and-down corresponding manner.

Preferably, the coating subassembly is including drive shaft, linkage disc, coating transfer pipe, defeated material lateral pipe, guide planking, introduction board, restriction frame and charge pipeline, and wherein the linkage disc is connected at the lower extreme of drive shaft by the screw, the coating transfer pipe is located the outside of linkage disc, and wherein defeated material lateral pipe is evenly connected at the lower extreme of coating transfer pipe by the screw, guide planking symmetry is located the upper end both sides of coating transfer pipe, and wherein the introduction board is fixed in the one end of guide planking, the restriction frame is located the top of coating transfer pipe, and wherein the charge pipeline is arranged in the upper end both sides of restriction frame by the screwed connection.

Preferably, the driving shaft penetrates through the middle side of the upper end of the acting cylinder and is connected with the acting cylinder through a rotating shaft, the coating transit pipe is arranged in an annular pipe, the coating transit pipe is welded with the linkage disc, annular grooves are formed in the upper end of the coating transit pipe and the lower end of the limiting outer frame, and the two ends of the guide outer plate are located inside the coating transit pipe and the limiting outer frame respectively.

Preferably, welded connection is carried out between guide planking and the coating transfer pipe, wherein guide planking and introduce the structure for integrated into one piece between the board, the shape that the board was arranged is for trapezoidal, wherein introduces the board and is located the inner both sides of restriction frame, the restriction frame is connected in the inner medial side of acting drum by the screw, and wherein the charging conduit runs through the acting drum upper end and arranges, the quantity that defeated material lateral pipe arranged is three groups, and the angle interval between every defeated material lateral pipe of group is one hundred twenty degrees.

Preferably, one end of the material conveying branch pipe is provided with a paint storage cylinder in welded connection, wherein a pull distance through groove is formed in the middle side of the lower end of the paint storage cylinder in a penetrating mode, a connecting support plate is arranged at one end of the pull distance through groove in a penetrating mode, one end of the connecting support plate is located at the inner end of the paint storage cylinder, protruding blocks which are integrally formed are evenly arranged at the upper end of the connecting support plate, and the upper ends of the protruding blocks are provided with extension guide pillars in welded connection.

Preferably, the upper end of the extension guide pillar penetrates through the paint storage cylinder to be arranged, the upper end of the extension guide pillar is provided with a dislocation end cap in welded connection, the dislocation end cap is located at the lower end of the distance-increasing contact plate, an upper ejection spring is sleeved on the extension guide pillar and located between the paint storage cylinder and the dislocation end cap, one side of the lower end of the connecting support plate is provided with an integrally formed sealing block, and one end of the sealing block is provided with an integrally formed material homogenizing scraper.

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

1. by the arrangement of the invention, the plate blank can be processed by semi-automatic equipment, so that direct contact between workers and the processing of the plate blank can be avoided, the workers can be effectively protected, and meanwhile, the invention can synchronously process a plurality of plate blanks and improve the processing speed of the plate blank;

2 through the arrangement of the invention, chemical substances can be uniformly coated on the upper end of the slab, so that the slab can be better protected, and the discharging and coating of the invention are synchronous, so that the aim of saving raw materials can be fulfilled.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic semi-sectional perspective view of the mounting platform of the present invention;

FIG. 3 is a schematic right-view, half-cut, of a working cylinder of the present invention;

FIG. 4 is a schematic right side view of a half section of a paint cartridge according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 3 according to the present invention;

fig. 6 is an enlarged view of the invention at B in fig. 4.

In the figure: the device comprises a fixed base 1, a rotating base 11, a placement platform 12, a discharge chute 13, a slab body 14, a through groove 15, a material taking plate 16, a support column 17, a middle bearing column 18, a guide chute 1801, an upper slider 1802 and a lower slider, a control telescopic rod 1803, a working cylinder 1804, a distance increasing collision plate 1805, a butt joint guide groove 1806, a driving shaft 2, a linkage disc 21, a paint transfer pipe 22, a material delivery branch pipe 23, a paint storage cylinder 2301, a distance pulling through groove 2302, a connecting support plate 2303, a protruding block 2304, an extension guide column 2305, a staggered end cap 2306, an upper ejection spring 2307, a sealing block 2308, a material homogenizing scraper plate 2309, a material guiding outer plate 24, an introduction plate 25, a limiting outer frame 26 and a feeding pipeline 27.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: comprises a processing component with a plurality of blanks for synchronous operation and a coating component with uniform coating function, the coating component is positioned at the upper side of the inner end of the processing component, wherein the processing component comprises a fixed base 1, a rotating base 11, a mounting platform 12, a feeding groove 13, a slab body 14, a through groove 15, a material taking plate 16, a support column 17 and a middle bearing column 18, the rotating base 11 is connected with the upper end of the fixed base 1 by a rotating shaft, wherein the placing platform 12 is positioned above the rotating base 11, the discharging grooves 13 are uniformly arranged at the outer side of the upper end of the placing platform 12, wherein the blank body 14 is arranged inside the charging slot 13, the through slots 15 are uniformly arranged on the mounting platform 12, wherein, the material taking plate 16 is positioned at the lower side of the inner end of the through groove 15, the support column 17 is welded at the middle side of the lower end of the material taking plate 16, and the middle receiving column 18 is welded at the middle side of the upper end of the rotating base 11.

The blank body 14 utilizes the blowing groove 13 can settle on mounting platform 12 to at the in-process that blank body 14 placed, make blank body 14 exceed mounting platform 12's upper end surface, and the portion that blank body 14 is outstanding utilizes butt joint guide slot 1806, can enter into the inside of doing work drum 1804, make the upper end surface of blank body 14 and do work drum 1804's inner end surface flush, the coating of the later stage of being convenient for.

One end of the control telescopic rod 1803 is connected with a driving electric appliance, and the control telescopic rod 1803 pushes the mounting platform 12 by means of the guide chute 1801 and the upper and lower sliding blocks 1802, so that the mounting platform 12 moves upwards.

Utilize rotating base 11 can carry out arbitrary regulation to the position of settling platform 12, the staff of being convenient for settles blank body 14, and the colleague utilizes and gets flitch 16 and support column 17, can be after blank body 14 coating is accomplished, can be ejecting, and the staff of being convenient for takes blank body 14.

Run through logical groove 15 and run through the blowing groove 13 and set up, wherein the angle interval between two adjacent blowing grooves 13 is sixty degrees, it is located the below of blank body 14 to get flitch 16, wherein support column 17 welded connection is on rotating base 11, middle part bearing post 18 runs through the middle-end of settling platform 12 and arranges, wherein middle part bearing post 18 one end bilateral symmetry sets up direction spout 1801, the one end of direction spout 1801 runs through to arrange by upper and lower slider 1802, wherein adopt welded connection between the one end of upper and lower slider 1802 and the settling platform 12.

The telescopic link 1803 is controlled to middle part reception post 18 inner medial side placement, wherein control telescopic link 1803 upper end and set up the disc of screw connection, all carry out welded connection between disc and two upper and lower slider 1802, middle part reception post 18 upper end sets up the acting cylinder 1804 of screw connection, wherein the inner downside of acting cylinder 1804 evenly sets up welded connection's increase range and supports touch panel 1805, increase range and support touch panel 1805 and present the arc and arrange, wherein acting cylinder 1804 lower extreme evenly runs through and sets up butt joint guide slot 1806, the position of butt joint guide slot 1806 corresponds about with the position of blank body 14 and arranges.

The coating component comprises a driving shaft 2, a linkage disc 21, a coating transit tube 22, a material delivery branch tube 23, a material delivery outer plate 24, an introduction plate 25, a limiting outer frame 26 and a feeding pipeline 27, wherein the linkage disc 21 is connected to the lower end of the driving shaft 2 through screws, the coating transit tube 22 is positioned on the outer side of the linkage disc 21, the material delivery branch tube 23 is uniformly connected to the lower end of the coating transit tube 22 through screws, the material delivery outer plate 24 is symmetrically positioned on two sides of the upper end of the coating transit tube 22, the introduction plate 25 is fixed to one end of the material delivery outer plate 24, the limiting outer frame 26 is positioned above the coating transit tube 22, and the feeding pipeline 27 is arranged on two sides of the upper end of the limiting outer frame 26 through screws.

Drive shaft 2 links to each other with the motor, drive shaft 2 can utilize linkage disc 21 to drive coating transfer pipe 22 and rotate, coating transfer pipe 22 drives guide planking 24 and introduces the board 25 and rotates in the inside of restriction frame 26 this moment, simultaneously under the effect of defeated material lateral pipe 23, coating storage cylinder 2301 can be driven rotatoryly, utilize charge-in pipeline 27, can be reinforced to the inside of restriction frame 26, the material can enter into the inside of coating transfer pipe 22 through guide planking 24 this moment, coating enters into the inside of coating storage cylinder 2301 through defeated material lateral pipe 234 afterwards.

The paint can be more easily introduced into the interior of the paint transition pipe 22 by the introduction plate 25.

The driving shaft 2 penetrates through the middle side of the upper end of the acting cylinder 1804 to be arranged, wherein the driving shaft 2 is connected with the acting cylinder 1804 through a rotating shaft, the coating transit tube 22 is arranged in an annular tube shape, the coating transit tube 22 is in welded connection with the linkage disc 21, annular grooves are formed in the upper end of the coating transit tube 22 and the lower end of the limiting outer frame 26, and two ends of the material guide outer plate 24 are located inside the coating transit tube 22 and the limiting outer frame 26 respectively.

The material guide outer plate 24 and the coating transit pipe 22 are connected in a welding mode, wherein the material guide outer plate 24 and the introducing plate 25 are in an integrally formed structure, the introducing plate 25 is trapezoidal in shape, the introducing plate 25 is located on two sides of the inner end of the limiting outer frame 26, the limiting outer frame 26 is connected to the middle side of the inner end of the acting cylinder 1804 through screws, the feeding pipeline 27 penetrates through the upper end of the acting cylinder 1804 to be arranged, the number of the material conveying branch pipes 23 is three, and the angle interval between each group of material conveying branch pipes 23 is one hundred twenty degrees.

Defeated material lateral pipe 23 one end sets up welded connection's coating storage cylinder 2301, and wherein coating storage cylinder 2301 lower extreme medial side runs through and sets up the logical groove 2302 of roll-off, and the logical groove 2302 one end of roll-off runs through and has arranged and connect extension board 2303, and wherein the one end of connecting extension board 2303 is located coating storage cylinder 2301's inner, connects extension board 2303 upper end and evenly sets up integrated into one piece's outstanding piece 2304, and wherein outstanding piece 2304 upper end sets up welded connection's extension guide pillar 2305.

The upper end of extending guide pillar 2305 runs through coating storage cylinder 2301 and arranges, wherein extend guide pillar 2305 upper end and set up welded connection's dislocation end cap 2306, dislocation end cap 2306 is located the lower extreme of increase range conflict board 1805, wherein extend guide pillar 2305 and go up the cover and have a top spring 2307, go up top spring 2307 and be located coating storage cylinder 2301 and dislocation end cap 2306 between, wherein connect extension board lower extreme one side and set up integrated into one piece's sealed stifled piece 2308, sealed stifled piece 2308 one end sets up integrated into one piece's material mixing scraper blade 2309.

In the rotating process of the paint storage cylinder 2301, the distance-increasing contact plate 1805 can utilize the dislocation end cap 2306 to push the extension guide pillar 2305, at the moment, the upward spring 2307 is subjected to accumulated force deformation, the further connecting support plate 2303 moves downwards in the distance-pulling through groove 2302, at the moment, the sealing blocking block 2308 leaves the distance-pulling through groove 2302, the distance-pulling through groove 2302 is subjected to flash joint, then, the paint can fall on the slab body 14 through the guide of the sealing blocking block 2308, and then, the material homogenizing scraper 2309 can uniformly scrape the paint on the slab body 14.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a processing equipment for integrated mainboard of cell-phone, includes the processing subassembly that has a plurality of blank synchronous operation and has the coating subassembly of evenly scribbling the function which characterized in that: the coating component is located at the upper side of the inner end of the processing component, the processing component comprises a fixed base, a rotating base, a placement platform, a feeding groove, a plate blank body, a through groove, a material taking plate, a supporting column and a middle bearing column, the rotating base is connected to the upper end of the fixed base through a rotating shaft, the placement platform is located above the rotating base, the feeding groove is evenly arranged on the outer side of the upper end of the placement platform, the plate blank body is placed inside the feeding groove, the through groove is evenly arranged on the placement platform in a penetrating mode, the material taking plate is located on the lower side of the inner end of the through groove in a penetrating mode, the supporting column is welded to the middle side of the lower end of the material taking plate, and the middle bearing column is welded to the middle side of the upper end of the rotating base.

2. The processing equipment for the integrated mainboard of the mobile phone, according to claim 1, is characterized in that: the through groove runs through the discharging groove and is opened, wherein the angle interval between two adjacent discharging grooves is sixty degrees, the material taking plate is located below the slab body, the support columns are welded on the rotating base, the middle bearing columns run through the middle end of the placement platform and are arranged, the guide sliding grooves are symmetrically formed in two sides of one end of each middle bearing column, the upper sliding blocks and the lower sliding blocks run through one ends of the guide sliding grooves, and the upper sliding blocks and the lower sliding blocks are welded between one ends of the upper sliding blocks and one ends of the lower sliding blocks and the placement platform.

3. The processing equipment for the mobile phone integrated mainboard according to claim 2, wherein: the middle part is accepted the inner medial side of post and is placed and control the telescopic link, wherein controls the disc that the telescopic link upper end set up the screw connection, disc and two all carry out welded connection between the upper and lower slider, middle part is accepted the post upper end and is set up the acting drum of screw connection, wherein the inner downside of acting drum evenly sets up welded connection's increase range touch panel, increase range touch panel presents the arc and arranges, wherein the acting drum lower extreme evenly runs through and sets up the butt joint guide slot, the position of butt joint guide slot corresponds the arrangement from top to bottom with the position of blank body.

4. The processing equipment for the integrated mainboard of the mobile phone, according to claim 1, is characterized in that: the coating assembly comprises a driving shaft, a linkage disc, a coating transfer pipe, a material conveying branch pipe, a material conveying outer plate, an introduction plate, a limiting outer frame and a feeding pipeline, wherein the linkage disc is connected to the lower end of the driving shaft through screws, the coating transfer pipe is located on the outer side of the linkage disc, the material conveying branch pipe is evenly connected to the lower end of the coating transfer pipe through screws, the material conveying outer plate is symmetrically located on two sides of the upper end of the coating transfer pipe, the introduction plate is fixed to one end of the material conveying outer plate, the limiting outer frame is located above the coating transfer pipe, and the feeding pipeline is arranged on two sides of the upper end of the limiting outer frame through screws.

5. The processing equipment for the integrated mainboard of the mobile phone, according to claim 4, is characterized in that: the device comprises a working cylinder, a driving shaft, a coating transfer pipe, a linkage disc, a limiting outer frame, a material guide outer plate and a material guide outer plate, wherein the driving shaft penetrates through the middle side of the upper end of the working cylinder and is connected with the working cylinder through a rotating shaft, the coating transfer pipe is arranged in an annular pipe, the coating transfer pipe is connected with the linkage disc in a welding mode, annular grooves are formed in the upper end of the coating transfer pipe and the lower end of the limiting outer frame, and the two ends of the material guide outer plate are located inside the coating transfer pipe and the limiting outer frame respectively.

6. The processing equipment for the mobile phone integrated mainboard of claim 5, wherein: carry out welded connection between guide planking and the coating transfer pipe, wherein the guide planking with introduce the structure for integrated into one piece between the board, the shape that the board was arranged is introduced to the board is trapezoidal, wherein introduces the inner both sides that the board is located the restriction frame, the restriction frame is by screw connection in the inner medial side of acting drum, and wherein the charge conduit runs through acting drum upper end and arranges, the quantity that defeated material bleeder is arranged is three groups, and the angle interval between the defeated material bleeder of every group is one hundred twenty degrees.

7. The processing equipment for the integrated mainboard of the mobile phone, according to claim 6, wherein: the coating storage cylinder is welded and connected to one end of the material conveying branch pipe, a pull distance through groove is formed in the middle side of the lower end of the coating storage cylinder in a penetrating mode, a connecting support plate is arranged at one end of the pull distance through groove in a penetrating mode, one end of the connecting support plate is located at the inner end of the coating storage cylinder, protruding blocks which are integrally formed are evenly arranged at the upper end of the connecting support plate, and extending guide pillars which are welded and connected are arranged at the upper ends of the protruding blocks.

8. The processing equipment for the integrated mainboard of the mobile phone, according to claim 7, wherein: the upper end of the extension guide pillar penetrates through the paint storage cylinder to be arranged, the upper end of the extension guide pillar is provided with a dislocation end cap in welded connection, the dislocation end cap is located at the lower end of the distance-increasing touch plate, an upper ejection spring is sleeved on the extension guide pillar and located between the paint storage cylinder and the dislocation end cap, one side of the lower end of the connecting support plate is provided with an integrally-formed sealing plug block, and one end of the sealing plug block is provided with an integrally-formed material homogenizing scraper.