CN113600436B - Cell-phone radiator block apparatus for producing with get rid of bubble function - Google Patents

Abstract

The invention relates to the field of hand tour, in particular to a mobile phone radiating block production device with a bubble removing function. The technical problems of the invention are as follows: the mobile phone radiating block production device with the bubble removing function is provided. The technical implementation scheme of the invention is as follows: a mobile phone radiating block production device with a bubble removing function comprises a bottom frame, a transportation assembly, a coating assembly, a drying assembly and the like; the upper part of the underframe is rotationally connected with the coating component; the upper part of the underframe is rotationally connected with the drying component; the coating component is fixedly connected with the drying component. When the invention is used, the two adjacent radiating fins are expanded in the shape of the inverted splayed, so that bubbles in the adjacent gaps are removed, the bubbles remained at the included angle position are automatically scraped, meanwhile, the radiating paint can be prevented from flowing to the bottom of the edge of the radiating block, the falling phenomenon of the radiating block is avoided, the flexible substrate is automatically torn off by using new pressure sensitivity, and the efficiency is improved.

Description

Cell-phone radiator block apparatus for producing with get rid of bubble function

Technical Field

The invention relates to the field of hand tour, in particular to a mobile phone radiating block production device with a bubble removing function.

Background

When the mobile phone runs on a large scale, the mobile phone can generate a large amount of heat, the temperature of the mobile phone can be rapidly increased due to untimely heat dissipation, so that a game is seriously blocked, in the prior art, one external radiator can be installed at the rear cover of the mobile phone, when the radiator blocks of the radiator are produced by the conventional device, a plurality of groups of radiator blocks are equidistantly adhered to a flexible substrate through glue, then the flexible substrate and the plurality of groups of radiator blocks are immersed into the heat dissipation paint together, so that the surface of the radiator blocks is coated with the heat dissipation paint, then the radiator blocks are taken out and dried, the gaps between adjacent radiator blocks are smaller, air bubbles appear at the gaps between the adjacent radiator blocks, the side parts of the radiator blocks are not coated with the heat dissipation paint, if the air bubbles are removed by extrusion expansion of the adjacent radiator blocks, the phenomenon that the edges of the radiator blocks are separated from the flexible substrate occurs, the heat dissipation paint flows to the bottom of the edges of the radiator blocks, and further, the radiator blocks are caused to fall off, and in addition, when the radiator blocks are dried by the conventional device, the flexible substrate is required to be taken down and a new glue material is adhered again, and the operation process is low in efficiency.

In summary, there is a need to develop a device for producing a heat dissipation block of a mobile phone with a function of removing bubbles, so as to overcome the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects that when the prior device is used for producing the radiating blocks of the radiator, due to the fact that gaps of adjacent radiating blocks are smaller, bubbles appear at the gaps of the adjacent radiating blocks after the radiating blocks are immersed into the radiating paint, the side surfaces of the radiating blocks are not covered with the radiating paint, if the adjacent two radiating blocks are extruded and expanded to remove the bubbles, the phenomenon that the edges of the radiating blocks are separated from a flexible substrate occurs, the radiating paint flows to the bottoms of the edges of the radiating blocks, and then the radiating blocks are separated, and in addition, when the prior device is used for drying the radiating blocks, the flexible substrate is required to be manually removed, cleaned and then attached with a new glue material, the operation process is complex, and the efficiency is low, the technical problem of the invention is that: the mobile phone radiating block production device with the bubble removing function is provided.

The technical implementation scheme of the invention is as follows: a mobile phone radiating block production device with a bubble removing function comprises a bottom frame, a control button, a first fixed block, a second fixed block, a first support frame, a second support frame, a third support frame, a first storage box, a transportation assembly, a coating assembly and a drying assembly; the upper surface of the underframe is fixedly connected with the control button; the lower surface of the underframe is fixedly connected with the first fixed block; the lower surface of the underframe is fixedly connected with the second fixed block; the upper surface of the underframe is fixedly connected with the first supporting frame; the upper surface of the underframe is fixedly connected with the second supporting frame; the upper surface of the underframe is fixedly connected with a third supporting frame; the upper part of the underframe is fixedly connected with a coating component which can completely cover the heat dissipation coating by the heat dissipation block; the upper part of the underframe is rotationally connected with the coating component; the upper part of the underframe is fixedly connected with a drying component capable of drying the heat-dissipating coating; the upper part of the underframe is rotationally connected with the drying component; the coating component is fixedly connected with the drying component; the upper parts of the first support frame and the second support frame are fixedly connected with the transportation assembly; the upper part of the third supporting frame is fixedly connected with the first storage box.

In addition, it is particularly preferred that the transportation assembly comprises a first electric slide rail, a first slide block, a first electric push rod, a first linkage block, a first limit rod, a first spring, a first electric clamp, a second limit rod, a second spring and a second electric clamp; the first electric sliding rail is in sliding connection with the first sliding block; the first electric sliding rail is fixedly connected with the first supporting frame; the first electric sliding rail is fixedly connected with the second supporting frame; the first sliding block is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the first linkage block; one side of the first linkage block is fixedly connected with the first limiting rod, and the other side of the first linkage block is fixedly connected with the second limiting rod; one side of the first linkage block is fixedly connected with the first spring, and the other side of the first linkage block is fixedly connected with the second spring; the outer surface of the first limiting rod is in sliding connection with the first electric clamp; the first spring is fixedly connected with the first electric clamp; the second limiting rod is in sliding connection with the second electric clamp; the second spring is fixedly connected with the second electric clamp; the first linkage block, the first limiting rod, the first spring, the second limiting rod and the second spring are symmetrically arranged in two groups by the center line of the first electric clamp.

In addition, it is particularly preferred that the paint component includes a first motor, a first transmission rod, a first transmission wheel, a second transmission rod, a third transmission wheel, a fourth transmission wheel, a third transmission rod, a first cam, a first connection plate, a first elastic expansion link, a first linkage plate, a first push plate, a second linkage block, a first limiting plate, a third spring, a third linkage block, a second limiting plate, a fourth spring, a fourth support frame, a second connection plate, a third limiting plate, a fourth limiting plate, a second electric slide rail, a second slide block, a first multistage electric expansion link, a first limiting block, a fourth linkage block, a fifth spring, a sixth spring, and a first dial block; the output end of the first motor is fixedly connected with a first transmission rod; the lower part of the first motor is fixedly connected with the underframe; the outer surface of the first transmission rod is fixedly connected with the first transmission wheel; the outer surface of the first transmission rod is rotationally connected with the underframe; the outer surface of the first transmission rod is fixedly connected with the drying assembly; the first driving wheel is in driving connection with the second driving wheel through a belt; the inside of the second driving wheel is fixedly connected with a second driving rod; the outer surface of the second transmission rod is rotationally connected with the fourth supporting frame; the outer surface of the second transmission rod is fixedly connected with a third transmission wheel; the third driving wheel is in driving connection with the fourth driving wheel through a belt; the inside of the fourth driving wheel is fixedly connected with a third driving rod; the outer surface of the third transmission rod is fixedly connected with the first cam; the lower part of the first cam is provided with a first connecting plate; the upper surface of the first connecting plate is fixedly connected with four groups of first elastic telescopic rods; the first connecting plate is fixedly connected with the fourth supporting frame; the upper parts of the four groups of first elastic telescopic rods are fixedly connected with a first linkage plate; the upper part of the first linkage plate is fixedly connected with the first push plate; the first push plate is fixedly connected with two groups of second linkage blocks; the first push plate is fixedly connected with two groups of third springs; the first push plate is fixedly connected with two groups of third linkage blocks; the first push plate is fixedly connected with two groups of fourth springs; the two groups of second linkage blocks are rotationally connected with the first limiting plate through rotating shafts; the second linkage block is fixedly connected with two groups of third springs; the two groups of third linkage blocks are rotationally connected with the second limiting plate through rotating shafts; the second limiting plate is fixedly connected with two groups of fourth springs; the upper part of the fourth supporting frame is fixedly connected with the second connecting plate; the lower part of the fourth supporting frame is fixedly connected with the underframe; the lower surface of the second connecting plate is fixedly connected with a third limiting plate; the lower surface of the second connecting plate is fixedly connected with a fourth limiting plate; the lower surface of the middle part of the second connecting plate is fixedly connected with a second electric sliding rail; the inside of the second electric sliding rail is in sliding connection with the second sliding block; the lower part of the second sliding block is fixedly connected with the first multi-stage electric telescopic rod; the lower part of the first multistage electric telescopic rod is fixedly connected with a first limiting block; the lower part of the first limiting block is fixedly connected with the fourth linkage block; the inner part of the first limiting block is contacted with the first shifting block; the fourth linkage block is fixedly connected with the fifth spring; the fourth linkage block is fixedly connected with the sixth spring.

In addition, it is particularly preferred that the drying assembly includes a fifth driving wheel, a sixth driving wheel, a first spline shaft, a third slider, a third electric slide rail, a first bevel gear, a second bevel gear, a first screw rod, a fourth slider, a first rail block, a fourth driving rod, a first straight gear, a fifth supporting frame, a second electric push rod, a first cleaning block, a first connecting block, a first rack, a first supporting plate, a third electric clamp, a fourth electric clamp, a first pressure sensitive adhesive, a first sponge block, a fourth electric slide rail, a fifth slider, a third electric push rod, a first dryer, a first supporting block, a sixth supporting frame, a third connecting plate, a fourth electric push rod, and a second dryer; the fifth driving wheel is in driving connection with the sixth driving wheel through a belt; the inside of the fifth driving wheel is fixedly connected with the first driving rod; the inner part of the sixth driving wheel is fixedly connected with the first spline shaft; the first spline shaft sliding rod is rotationally connected with the third sliding block; the first spline shaft sliding rod is fixedly connected with the first bevel gear; the first spline shaft sleeve is rotationally connected with the underframe; the third sliding block is in sliding connection with the third electric sliding rail; the third electric sliding rail is fixedly connected with the underframe; a second bevel gear is arranged on one side of the first bevel gear; the inside of the second bevel gear is fixedly connected with the first screw rod; the outer surface of the first screw rod is rotationally connected with the first guide rail block; the outer surface of the first screw rod is screwed with the fourth sliding block; the fourth sliding block is in sliding connection with the first guide rail block; the fourth sliding block is rotationally connected with a fourth transmission rod; the first guide rail block is fixedly connected with the fifth support frame; the outer surface of the fourth transmission rod is fixedly connected with the first straight gear; the fourth transmission rod is fixedly connected with the first supporting plate; the upper part of the fifth supporting frame is fixedly connected with two groups of second electric push rods; one side of the fifth support frame is provided with a first connecting block; the fifth supporting frame is fixedly connected with the underframe; the upper parts of the two groups of second electric push rods are fixedly connected with the first cleaning block; the first connecting block is fixedly connected with the first rack; the first connecting block is fixedly connected with the underframe; one side of the first supporting plate is fixedly connected with the third electric clamp, and the other side of the first supporting plate is fixedly connected with the fourth electric clamp; the upper surface of the first supporting plate is contacted with a first pressure-sensitive adhesive; the lower surface of the first supporting plate is fixedly connected with the first sponge block; the third electric clamp is in clamping connection with the first pressure sensitive adhesive; the fourth electric clamp is in clamping connection with the first pressure sensitive adhesive; a fourth electric sliding rail is arranged on one side of the first sponge block; the inside of the fourth electric sliding rail is in sliding connection with the fifth sliding block; the fourth electric sliding rail is fixedly connected with the sixth supporting frame; the fifth sliding block is in sliding connection with the third electric push rod; the third electric push rod is fixedly connected with the first dryer; the first dryer is fixedly connected with a plurality of groups of first supporting blocks; the fourth electric slide rail, the fifth slide block, the third electric push rod, the first dryer, the first supporting block and the sixth supporting frame are symmetrically provided with two groups by a first pressure-sensitive adhesive center line; a third connecting plate is arranged on one side of the sixth supporting frame; the two groups of sixth support frames are fixedly connected with the underframe; the upper part of the third connecting plate is fixedly connected with two groups of fourth electric push rods; the third connecting plate is fixedly connected with the underframe; the two groups of fourth electric push rods are fixedly connected with the second dryer.

In addition, it is particularly preferable that the lower portions of the third and fourth stopper plates are inclined outward.

Furthermore, it is particularly preferred that the fifth spring, the sixth spring and the first setting block are each provided with two groups symmetrically with respect to the fourth linkage block center line.

Furthermore, it is particularly preferred that the lower parts of both sets of first dials are inclined inward.

Furthermore, it is particularly preferred that the upper parts of the two sets of first shifting blocks are in contact with two long vertical surfaces inside the first limiting block.

Furthermore, it is particularly preferred that the first spur gear is located above the first rack.

The beneficial effects are that: 1. in order to solve the problems that when the existing device is used for producing the radiating blocks of the radiator, due to the fact that gaps between adjacent radiating blocks are smaller, bubbles appear at the gaps between the adjacent radiating blocks after the radiating blocks are immersed into the radiating paint, the side surfaces of the radiating blocks are not covered with the radiating paint, if the adjacent two radiating blocks are extruded and expanded to remove the bubbles, the edge of the radiating block is separated from the bottom of the edge of the radiating block, the radiating paint flows to the bottom of the edge of the radiating block, and then the radiating block is fallen, and in addition, when the existing device is used for drying the radiating block, the flexible substrate is required to be manually removed, cleaned and then attached with a new glue material, the operation process is complex, and the efficiency is low;

2. A transportation assembly, a coating assembly and a drying assembly are designed; when the device is ready to work, the device is placed on a workbench, a first fixing block and a second fixing block are fixed on the workbench through bolts, a power supply is connected, then a control button control device on the underframe is controlled to start to operate, a flexible substrate and radiating blocks are placed into a conveying assembly on the first support frame and the second support frame together, the conveying assembly fixes two ends of the flexible substrate, the radiating blocks are equidistantly arranged and adhered above the flexible substrate, then a proper amount of radiating paint is added into a first storage box on a third support frame, then the conveying assembly drives the flexible substrate to move downwards, the radiating blocks on the flexible substrate are immersed into the radiating paint, air bubbles can appear in gaps between adjacent radiating blocks at the moment, the side surface part of the radiating blocks is not covered with the radiating paint, then the conveying assembly drives the flexible substrate and the radiating blocks to move into the paint assembly, the coating component pushes the flexible substrate in the middle of the gap between two adjacent radiating blocks to move upwards, and simultaneously limits the edges on two sides of the two adjacent radiating blocks, so that the two radiating blocks are expanded in an inverted splayed shape, namely, the upper part of the gap between the two adjacent radiating blocks is big and the lower part is small, so that bubbles in the gap are eliminated, in the process, the coating component always presses the two inclined radiating blocks towards the flexible substrate, the edges of the radiating blocks are prevented from separating from the flexible substrate, the heat dissipation coating is prevented from flowing to the bottom of the edges of the radiating blocks, the falling phenomenon of the radiating blocks is avoided, at the moment, part of bubbles still remain at the position of an included angle between the bottom of the radiating block and the flexible substrate, part of the coating component is attached to the adjacent side surfaces of the two inclined radiating blocks, then the bubbles at the position of the included angle between the adjacent side surfaces of the two inclined radiating blocks and the flexible substrate are scraped, so that the heat dissipation coating is fully contacted with the radiating blocks, then sequentially removing bubbles in gaps of the radiating blocks, then driving the flexible substrate and the radiating blocks to move above the drying assembly by the conveying assembly, cleaning the radiating materials remained at the bottom of the flexible substrate, driving the flexible substrate and the radiating blocks to move downwards by the drying assembly, stopping fixing the flexible substrate by the conveying assembly, dropping the flexible substrate into the drying assembly, firstly drying the coatings at two ends of the plurality of groups of radiating blocks by the drying assembly, fixing the two ends of the plurality of groups of radiating blocks at the same time, drying the upper parts of the plurality of groups of radiating blocks by the drying assembly, reducing the heated viscosity of glue at the lower parts of the plurality of groups of radiating blocks, driving the plurality of groups of radiating blocks to move downwards, driving the flexible substrate to move downwards by the drying assembly, adhering new pressure-sensitive adhesive on the lower surface of the flexible substrate, driving the plurality of groups of radiating blocks to move upwards, tearing the flexible substrate by the new pressure-sensitive adhesive, continuously drying the plurality of groups of radiating blocks, liquefying the residual glue at the lower parts of the plurality of groups of radiating blocks after being heated by the drying assembly, and sucking liquefied glue;

3. When the invention is used, the two adjacent radiating fins are expanded in the shape of the inverted splayed, so that bubbles in the adjacent gaps are removed, the bubbles remained at the included angle position are automatically scraped, meanwhile, the radiating paint can be prevented from flowing to the bottom of the edge of the radiating block, the falling phenomenon of the radiating block is avoided, the flexible substrate is automatically torn off by using new pressure sensitivity, and the efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of a second perspective structure of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic perspective view of a transport assembly according to the present invention;

FIG. 5 is a schematic perspective view of a portion of the transport assembly of the present invention;

FIG. 6 is a schematic perspective view of a paint assembly of the present invention;

FIG. 7 is a schematic view of a first partial perspective view of a coating assembly of the present invention;

FIG. 8 is a side view of a portion of the construction of a paint assembly according to the present invention;

FIG. 9 is a schematic view of a second partial perspective view of the coating assembly of the present invention;

FIG. 10 is a schematic view of a third partial perspective view of a paint assembly of the present invention;

fig. 11 is a schematic perspective view of a drying assembly according to the present invention;

Fig. 12 is a schematic view showing a first partial perspective structure of the drying assembly according to the present invention;

fig. 13 is a schematic view showing a second partial perspective structure of the drying assembly according to the present invention;

fig. 14 is a side view showing a portion of the structure of the drying assembly according to the present invention.

In the figure: 1. chassis, 2, control button, 3, first fixed block, 4, second fixed block, 5, first support frame, 6, second support frame, 7, third support frame, 8, first storage box, 201, first electric slide rail, 202, first slider, 203, first electric push rod, 204, first linkage block, 205, first limit lever, 206, first spring, 207, first electric clamp, 208, second limit lever, 209, second spring, 2010, second electric clamp, 301, first motor, 302, first transmission lever, 303, first transmission lever, 304, second transmission lever, 305, second transmission lever, 306, third transmission lever, 307, fourth transmission lever, 308, third transmission lever, 309, first cam, 3010, first connecting plate, 3011, first elastic expansion link, 3012, first plate, 3013, first push plate, 3014, second linkage block, 3015, first limit plate, 3016, third spring 3017, third linkage block, 3018, second limiting plate, 3019, fourth spring, 3020, fourth support frame, 3021, second connecting plate, 3022, third limiting plate, 3023, fourth limiting plate, 3024, second electric slide rail, 3025, second slide block, 3026, first multi-stage electric telescopic link, 3027, first stopper, 3028, fourth linkage block, 3029, fifth spring, 3030, sixth spring, 3031, first dial block, 401, fifth drive wheel, 402, sixth drive wheel, 403, first spline shaft, 404, third slide block, 405, third electric slide rail, 406, first bevel gear, 407, second bevel gear, 408, first lead screw, 409, fourth slide block, 4010, first guide rail block, 4011, fourth drive rod, 4012, first spur gear, 3, fifth support frame, 4014, second electric push rod, 4015, first cleaning block 4016, first connection block 4016, 4017. the first rack, 4018, the first backup pad, 4019, the third electric clamp, 4020, the fourth electric clamp, 4021, the first pressure sensitive adhesive, 4022, the first sponge piece, 4023, the fourth electric slide rail, 4024, the fifth slider, 4025, the third electric putter, 4026, the first dryer, 4027, the first supporting piece, 4028, the sixth supporting frame, 4029, the third connecting plate, 4030, the fourth electric putter, 4031, the second dryer.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

Examples

1-3, the mobile phone radiating block production device with the bubble removing function comprises a bottom frame 1, a control button 2, a first fixed block 3, a second fixed block 4, a first supporting frame 5, a second supporting frame 6, a third supporting frame 7, a first storage box 8, a transportation assembly, a coating assembly and a drying assembly; the upper surface of the underframe 1 is fixedly connected with a control button 2; the lower surface of the underframe 1 is fixedly connected with a first fixed block 3; the lower surface of the underframe 1 is fixedly connected with a second fixed block 4; the upper surface of the underframe 1 is fixedly connected with a first supporting frame 5; the upper surface of the underframe 1 is fixedly connected with a second supporting frame 6; the upper surface of the underframe 1 is fixedly connected with a third supporting frame 7; the upper part of the underframe 1 is fixedly connected with a coating component which can completely cover the heat dissipation coating by the heat dissipation block; the upper part of the underframe 1 is rotationally connected with the paint component; the upper part of the underframe 1 is fixedly connected with a drying component capable of drying the heat-dissipating coating; the upper part of the underframe 1 is rotationally connected with the drying component; the coating component is fixedly connected with the drying component; the upper parts of the first supporting frame 5 and the second supporting frame 6 are fixedly connected with the transportation assembly; the upper part of the third supporting frame 7 is fixedly connected with the first storage box 8.

Working principle: when the device is ready to work, the device is placed on a workbench, the first fixing block 3 and the second fixing block 4 are fixed on the workbench through bolts, a power supply is connected, then the control button 2 on the underframe 1 is controlled to control the device to start to operate, the flexible substrate and the radiating blocks are placed into the conveying components on the first support frame 5 and the second support frame 6 together, the conveying components fix the two ends of the flexible substrate, the radiating blocks are equidistantly arranged and adhered above the flexible substrate, then a proper amount of radiating paint is added into the first storage box 8 on the third support frame 7, then the conveying components drive the flexible substrate to move downwards, so that the radiating blocks on the flexible substrate are immersed into the radiating paint, air bubbles appear in gaps between adjacent radiating blocks at the moment, the side surfaces of the radiating blocks are not covered with the radiating paint, then the conveying components drive the flexible substrate and the radiating blocks to move into the paint components, the coating component pushes the flexible substrate in the middle of the gap between two adjacent radiating blocks to move upwards, and simultaneously limits the edges on two sides of the two adjacent radiating blocks, so that the two radiating blocks are expanded in an inverted splayed shape, namely, the upper part of the gap between the two adjacent radiating blocks is big and the lower part is small, so that bubbles in the gap are eliminated, in the process, the coating component always presses the two inclined radiating blocks towards the flexible substrate, the edges of the radiating blocks are prevented from separating from the flexible substrate, the heat dissipation coating is prevented from flowing to the bottom of the edges of the radiating blocks, the falling phenomenon of the radiating blocks is avoided, at the moment, part of bubbles still remain at the position of an included angle between the bottom of the radiating block and the flexible substrate, part of the coating component is attached to the adjacent side surfaces of the two inclined radiating blocks, then the bubbles at the position of the included angle between the adjacent side surfaces of the two inclined radiating blocks and the flexible substrate are scraped, so that the heat dissipation coating is fully contacted with the radiating blocks, then get rid of the bubble in the radiating block clearance in proper order, then transport assembly drives flexible substrate and radiating block and moves to stoving subassembly top, stoving subassembly is earlier with the radiating material that remains in flexible substrate bottom washs cleanly, then transport assembly drives flexible substrate and radiating block down motion, then transport assembly stops fixed flexible substrate, flexible substrate falls into stoving subassembly, stoving subassembly is earlier with the coating at multiunit radiating block both ends stoving, then fix multiunit radiating block both ends simultaneously, then stoving subassembly is dried multiunit radiating block upper portion, glue heating viscosity of multiunit radiating block lower part reduces in this process, then stoving subassembly drives multiunit radiating block down motion, make multiunit radiating block drive flexible substrate down motion, make flexible substrate lower surface bonding new pressure sensitive adhesive, then stoving subassembly drives multiunit radiating block up motion, make new pressure sensitive adhesive tear flexible substrate remove, then stoving subassembly is continued to multiunit radiating block lower part remaining after being heated, the liquefaction glue that stoving subassembly is absorbed its liquefaction glue is clean, the invention has realized when using and has been realized automatic spreading the multiunit radiating block both ends, thereby adjacent radiating block upper portion is dried, automatic scraping is removed, and the bubble that remains in the multiunit radiating block lower part is heated, the bubble is removed automatically, the thermal insulation position is torn down, the radiating block is realized simultaneously, the heat absorption edge is more than the flexible substrate is torn down, the radiating block is used to the heat, the phenomenon is removed, the bottom is more is easy to the radiating edge to the edge has been torn to the flexible substrate, and has been used to the radiating effect to the edge to the heat.

As shown in fig. 4-5, the transport assembly includes a first electrically powered sliding rail 201, a first sliding block 202, a first electrically powered push rod 203, a first linkage block 204, a first stop lever 205, a first spring 206, a first electrically powered clamp 207, a second stop lever 208, a second spring 209, and a second electrically powered clamp 2010; the first electric sliding rail 201 is in sliding connection with the first sliding block 202; the first electric sliding rail 201 is fixedly connected with the first supporting frame 5; the first electric sliding rail 201 is fixedly connected with the second supporting frame 6; the first sliding block 202 is fixedly connected with the first electric push rod 203; the first electric push rod 203 is fixedly connected with the first linkage block 204; one side of the first linkage block 204 is fixedly connected with a first limiting rod 205, and the other side of the first linkage block 204 is fixedly connected with a second limiting rod 208; one side of the first linkage block 204 is fixedly connected with the first spring 206, and the other side of the first linkage block 204 is fixedly connected with the second spring 209; the outer surface of the first limiting rod 205 is in sliding connection with the first electric clamp 207; the first spring 206 is fixedly connected with the first electric clamp 207; the second limiting rod 208 is in sliding connection with the second electric clamp 2010; the second spring 209 is fixedly connected with the second electric clamp 2010; the first linkage block 204, the first limiting rod 205, the first spring 206, the second limiting rod 208 and the second spring 209 are symmetrically arranged in two groups along the line of the first electric clamp 207.

Firstly, one side of a flexible substrate is fixed in a first electric clamp 207, the other side of the flexible substrate is fixed in a second electric clamp 2010, the flexible substrate is positioned in a gap between two groups of first linkage blocks 204, the heat dissipation blocks are equidistantly arranged and adhered above the flexible substrate, then the first electric push rod 203 drives the first linkage blocks 204 to move downwards, the first linkage blocks 204 drive the components associated with the first linkage blocks to move downwards, the first electric clamp 207 and the second electric clamp 2010 transport the flexible substrate and the heat dissipation blocks into heat dissipation materials in a first storage box 8, so that the heat dissipation materials fully submerge the flexible substrate and the heat dissipation blocks, then the first electric slide rail 201 drives the first slide block 202 to drive the first electric push rod 203 to move towards a paint component, the first electric clamp 207 and the second electric clamp 2010 move the flexible substrate and the heat dissipation blocks towards the paint component, when the first group of two adjacent heat dissipating blocks move into the coating component, the coating component extrudes the flexible substrate, so that the flexible substrate drives the first electric clamp 207 and the second electric clamp 2010 to slide on the first limiting rod 205 and the second limiting rod 208 respectively, when the coating component stops extruding the flexible substrate, the first spring 206 and the second spring 209 drive the first electric clamp 207 and the second electric clamp 2010 to move back to the original positions respectively, so that the flexible substrate is in a straightened state again, when the coating component removes bubbles in all the heat dissipating block gaps, the first electric clamp 207 and the second electric clamp 2010 move the flexible substrate and the heat dissipating block upwards to be separated from the first storage box 8, then the first electric clamp 207 and the second electric clamp 2010 drive the flexible substrate and the heat dissipating block to move towards the drying component, the drying component removes heat dissipating materials remained below the flexible substrate, then the first electric clamp 207 and the second electric clamp 2010 drive the flexible substrate and the heat dissipation block to move downwards for a certain distance, then the first electric clamp 207 and the second electric clamp 2010 stop fixing the flexible substrate, the flexible substrate and the heat dissipation block fall into the drying assembly, the first electric clamp 207 and the second electric clamp 2010 move back to the original positions, and when the flexible substrate and the heat dissipation block are automatically driven to move into the coating assembly and the drying assembly during use, and meanwhile the flexible substrate is automatically straightened again.

As shown in fig. 6 to 10, the paint assembly includes a first motor 301, a first transmission rod 302, a first transmission wheel 303, a second transmission wheel 304, a second transmission rod 305, a third transmission wheel 306, a fourth transmission wheel 307, a third transmission rod 308, a first cam 309, a first connection plate 3010, a first elastic telescopic rod 3011, a first linkage plate 3012, a first push plate 3013, a second linkage block 3014, a first limit plate 3015, a third spring 3016, a third linkage block 3017, a second limit plate 3018, a fourth spring 3019, a fourth support frame 3020, a second connection plate 3021, a third limit plate 3022, a fourth limit plate 3023, a second electric slide rail 3024, a second slider 3025, a first multi-stage electric telescopic rod 3026, a first limit block 3027, a fourth linkage block 3028, a fifth spring 3029, a sixth spring 3030, and a first shift block 3031; the output end of the first motor 301 is fixedly connected with a first transmission rod 302; the lower part of the first motor 301 is fixedly connected with the underframe 1; the outer surface of the first transmission rod 302 is fixedly connected with a first transmission wheel 303; the outer surface of the first transmission rod 302 is rotationally connected with the underframe 1; the outer surface of the first transmission rod 302 is fixedly connected with the drying component; the first driving wheel 303 is in driving connection with the second driving wheel 304 through a belt; the second driving wheel 304 is fixedly connected with a second driving rod 305; the outer surface of the second transmission rod 305 is rotatably connected with a fourth supporting frame 3020; the outer surface of the second transmission rod 305 is fixedly connected with a third transmission wheel 306; the third transmission wheel 306 is in transmission connection with the fourth transmission wheel 307 through a belt; the inside of the fourth transmission wheel 307 is fixedly connected with a third transmission rod 308; the outer surface of the third transmission rod 308 is fixedly connected with the first cam 309; the first cam 309 is provided at a lower portion thereof with a first link plate 3010; the upper surface of the first connecting plate 3010 is fixedly connected with four groups of first elastic telescopic rods 3011; the first connecting plate 3010 is fixedly connected to the fourth support frame 3020; the upper parts of the four groups of first elastic telescopic rods 3011 are fixedly connected with a first linkage plate 3012; the upper part of the first linkage plate 3012 is fixedly connected with a first push plate 3013; the first pushing plate 3013 is fixedly connected with two groups of second linkage blocks 3014; the first pushing plate 3013 is fixedly connected with two groups of third springs 3016; the first pushing plate 3013 is fixedly connected with two groups of third linkage blocks 3017; the first pushing plate 3013 is fixedly connected with two groups of fourth springs 3019; the two groups of second linkage blocks 3014 are rotationally connected with the first limiting plates 3015 through rotating shafts; the second linkage block 3014 is fixedly connected with two groups of third springs 3016; the two groups of third linkage blocks 3017 are rotationally connected with the second limiting plates 3018 through rotating shafts; the second limiting plate 3018 is fixedly connected with two groups of fourth springs 3019; the upper part of the fourth supporting frame 3020 is fixedly connected with a second connecting plate 3021; the lower part of the fourth supporting frame 3020 is fixedly connected with the underframe 1; the lower surface of the second connecting plate 3021 is fixedly connected with a third limiting plate 3022; the lower surface of the second connecting plate 3021 is fixedly connected with a fourth limiting plate 3023; the lower surface of the middle part of the second connecting plate 3021 is fixedly connected with a second electric sliding rail 3024; the second electric slide rail 3024 is slidably connected to the second slider 3025; the lower part of the second sliding block 3025 is fixedly connected with a first multi-stage electric telescopic rod 3026; the lower part of the first multistage electric telescopic rod 3026 is fixedly connected with a first limiting block 3027; the lower part of the first limiting block 3027 is fixedly connected with a fourth linkage block 3028; the first limiting block 3027 is internally contacted with the first shifting block 3031; the fourth linkage block 3028 is fixedly connected with the fifth spring 3029; the fourth linkage block 3028 is fixedly coupled to the sixth spring 3030.

When the transporting assembly transports the flexible substrate and the heat dissipation blocks to the middle part of the gap between the first push plate 3013 and the fourth linkage block 3028, two groups of adjacent heat dissipation blocks are symmetrically positioned at two sides of the first push plate 3013, then the first motor 301 drives the first transmission rod 302 to drive the first transmission wheel 303 to rotate, the first transmission rod 302 drives the drying assembly to operate, the first transmission wheel 303 drives the second transmission wheel 304 to drive the second transmission rod 305 to rotate, the second transmission rod 305 rotates on the fourth supporting frame 3020, the second transmission rod 305 drives the third transmission wheel 306 to drive the fourth transmission wheel 307 to rotate, the fourth transmission wheel 307 drives the third transmission rod 308 to drive the first cam 309 to rotate, the first linkage plate 3012 is pushed to move upwards when the first cam 309 rotates, the first linkage plate 3012 stretches the four groups of first elastic telescopic rods 3011 on the first linkage plate 3010 when the first cam 309 rotates back to the original position, thereby realizing the up-and-down reciprocating motion of the first linkage plate 3012, at this time, the first linkage plate 3012 moves upwards, the first linkage plate 3012 drives the first push plate 3013 to move upwards, the first push plate 3013 pushes the flexible substrate in the middle of the gap between two adjacent heat dissipation blocks to move upwards, the flexible substrate drives the two heat dissipation blocks to move upwards, at the same time, the first linkage plate 3012 drives the two groups of second linkage blocks 3014 and the two groups of third linkage blocks 3017 to move upwards, the two groups of second linkage blocks 3014 simultaneously drive the first limiting plate 3015 to move upwards, the two groups of third linkage blocks 3017 simultaneously drive the second limiting plate 3018 to move upwards, the third limiting plate 3022 and the fourth limiting plate 3023 on the second connecting plate 3021 limit the edges of the two heat dissipation blocks respectively, the flexible substrate drives the two heat dissipation blocks to move upwards in opposite sides, thereby expanding the two heat dissipation blocks in a splayed shape, the two heat dissipation blocks are opposite to each other to form an inverted splayed shape, namely, the upper part of a gap between two adjacent heat dissipation blocks is big and the lower part is small, so that bubbles in the gap are eliminated, in the process, under the action of a third spring 3016 and a fourth spring 3019, a first limiting plate 3015 and a second limiting plate 3018 always press a flexible substrate to the two heat dissipation blocks, the detachment phenomenon caused by tilting of the two heat dissipation blocks is avoided, at the moment, partial bubbles still remain at the included angle position between the bottom of the heat dissipation block and the flexible substrate, then a first multistage electric telescopic rod 3026 drives a first limiting block 3027 to move downwards, the first limiting block 3027 drives an assembly related to the first limiting block 3027 to move, the lower parts of two groups of first shifting blocks 3031 are inserted into the gaps between the two groups of heat dissipation blocks, the distance between the upper parts of the two groups of first shifting blocks 3031 is larger than the distance between the two groups of heat dissipation blocks, in the process of continuing to move downwards, the two groups of heat dissipation blocks limit the two groups of first shifting blocks 3031, so that the two groups of first shifting blocks 3031 are closely attached to the two groups of radiating blocks respectively, meanwhile, the two groups of fifth springs 3029 and the two groups of sixth springs 3030 are compressed, after the first shifting blocks 3031 move to the included angle between the radiating blocks and the flexible substrate, the second electric sliding rail 3024 drives the second sliding block 3025 to drive the first multi-stage electric telescopic rod 3026 to move, the first multi-stage electric telescopic rod 3026 drives the components associated with the first multi-stage electric telescopic rod to move, so that the two groups of first shifting blocks 3031 scrape air bubbles at the included angle between the two radiating blocks and the flexible substrate, the radiating paint fully contacts the radiating blocks, then the first linkage plate 3012 moves downwards to the original position, the first push plate 3013 moves downwards to the original position, so that the flexible substrate is stopped to limit, the transportation component straightens the flexible substrate again, when in use, the two adjacent radiating blocks are automatically expanded in a reverse splayed shape, so that the air bubbles in the adjacent gaps are removed, and automatically scrape off the bubbles remained at the included angle position, and simultaneously prevent the heat dissipation coating from flowing to the bottom of the edge of the heat dissipation block, thereby avoiding the falling-off phenomenon of the heat dissipation block.

As shown in fig. 11-14, the drying assembly includes a fifth driving wheel 401, a sixth driving wheel 402, a first spline shaft 403, a third slider 404, a third electric sliding rail 405, a first bevel gear 406, a second bevel gear 407, a first screw 408, a fourth slider 409, a first guide block 4010, a fourth driving rod 4011, a first straight gear 4012, a fifth support frame 4013, a second electric push rod 4014, a first cleaning block 4015, a first connection block 4016, a first rack 4017, a first support plate 4018, a third electric clamp 4019, a fourth electric clamp 4020, a first pressure sensitive adhesive 4021, a first sponge block 4022, a fourth electric sliding rail 4023, a fifth slider 4024, a third electric push rod 4025, a first dryer 4026, a first support block 4027, a sixth support frame 4028, a third connection plate 4029, a fourth electric push rod 4030, and a second dryer 4031; the fifth driving wheel 401 is in driving connection with the sixth driving wheel 402 through a belt; the fifth driving wheel 401 is fixedly connected with the first driving rod 302; the inside of the sixth driving wheel 402 is fixedly connected with a first spline shaft 403; the first spline shaft 403 is rotationally connected with the third sliding block 404; the sliding rod of the first spline shaft 403 is fixedly connected with a first bevel gear 406; the first spline shaft 403 shaft sleeve is in rotary connection with the underframe 1; the third slider 404 is slidably connected with a third electric sliding rail 405; the third electric sliding rail 405 is fixedly connected with the chassis 1; a second bevel gear 407 is arranged on one side of the first bevel gear 406; the inside of the second bevel gear 407 is fixedly connected with the first screw rod 408; the outer surface of the first screw 408 is rotationally connected with the first guide rail block 4010; the outer surface of the first screw 408 is screwed with a fourth sliding block 409; the fourth slider 409 is slidably connected to the first rail block 4010; the fourth slider 409 is rotatably connected to a fourth transmission rod 4011; the first guide rail block 4010 is fixedly connected with a fifth supporting frame 4013; the outer surface of the fourth transmission rod 4011 is fixedly connected with a first straight gear 4012; the fourth transmission rod 4011 is fixedly connected with the first supporting plate 4018; the upper part of the fifth supporting frame 4013 is fixedly connected with two groups of second electric push rods 4014; a first connecting block 4016 is arranged on one side of the fifth supporting frame 4013; the fifth support 4013 is fixedly connected with the underframe 1; the upper parts of the two groups of second electric push rods 4014 are fixedly connected with a first cleaning block 4015; the first connecting block 4016 is fixedly connected with a first rack 4017; the first connecting block 4016 is fixedly connected with the underframe 1; one side of the first support plate 4018 is fixedly connected with a third electric clamp 4019, and the other side of the first support plate 4018 is fixedly connected with a fourth electric clamp 4020; the upper surface of the first support plate 4018 is in contact with the first pressure-sensitive adhesive 4021; the lower surface of the first supporting plate 4018 is fixedly connected with the first sponge block 4022; the third electric clamp 4019 is in clamping connection with the first pressure sensitive adhesive 4021; the fourth electric clamp 4020 is in clamping connection with the first pressure sensitive adhesive 4021; a fourth electric sliding rail 4023 is arranged on one side of the first sponge block 4022; the inside of the fourth electric sliding rail 4023 is in sliding connection with a fifth sliding block 4024; the fourth electric sliding rail 4023 is fixedly connected with a sixth supporting frame 4028; the fifth slider 4024 is slidably connected with the third electric push rod 4025; the third electric push rod 4025 is fixedly connected with the first dryer 4026; the first dryer 4026 is fixedly connected with a plurality of groups of first supporting blocks 4027; the fourth electric sliding rail 4023, the fifth sliding block 4024, the third electric push rod 4025, the first dryer 4026, the first supporting block 4027 and the sixth supporting frame 4028 are symmetrically provided with two groups by the center line of the first pressure sensitive adhesive 4021; a third connecting plate 4029 is arranged on one side of the sixth supporting frame 4028; the two groups of sixth support frames 4028 are fixedly connected with the underframe 1; the upper part of the third connecting plate 4029 is fixedly connected with two groups of fourth electric push rods 4030; the third connecting plate 4029 is fixedly connected with the chassis 1; both sets of fourth electric push rods 4030 are fixedly connected with the second dryer 4031.

When the transportation component transports the flexible substrate to the upper part of the first cleaning block 4015, the two groups of second electric push rods 4014 on the fifth supporting frame 4013 simultaneously drive the first cleaning block 4015 to move upwards, so that the first cleaning block 4015 contacts with the bottom surface of the flexible substrate, the transportation component continues to drive the flexible substrate to move, so that the first cleaning block 4015 cleans the heat dissipation residues remained on the bottom surface of the flexible substrate, then the first cleaning block 4015 moves downwards to the original position, the transportation component transports the flexible substrate and the heat dissipation block to the position right above the first pressure sensitive adhesive 4021, then the transportation component stops fixing the flexible substrate, the flexible substrate and the heat dissipation block fall to the upper surface of the first pressure sensitive adhesive 4021, then the two groups of first dryers 4026 dry the two ends of the plurality of groups of heat dissipation blocks, then the two groups of third electric push rods 4025 respectively drive the two groups of first dryers 4026 to move towards the heat dissipation block, so that the plurality of groups of first supporting blocks 4027 clamp the plurality of groups of heat dissipation blocks, then two groups of fourth electric push rods 4030 on a third connecting plate 4029 simultaneously push a second dryer 4031 to move, so that the second dryer 4031 moves above a plurality of groups of radiating blocks, then the second dryer 4031 starts to downwards convey heat, so that the heated viscosity of glue at the lower parts of the plurality of groups of radiating blocks is reduced, then two groups of fourth electric slide rails 4023 on two groups of sixth support frames 4028 respectively drive two groups of fifth slide blocks 4024 to downwards move, two groups of fifth slide blocks 4024 respectively drive two groups of third electric push rods 4025 to downwards move, thereby driving the plurality of groups of radiating blocks to downwards move, enabling the plurality of groups of radiating blocks to drive a flexible substrate to downwards move, enabling the lower surface of the flexible substrate to be adhered with a first pressure-sensitive adhesive 4021, then enabling the plurality of groups of radiating blocks to upwards move back to the original position, enabling the first pressure-sensitive adhesive 4021 to tear the flexible substrate, then a coating component drives a fifth driving wheel 401 to drive a sixth driving wheel 402 to rotate, the sixth driving wheel 402 drives the first spline shaft 403 to drive the first bevel gear 406 to rotate, and then the third electric sliding rail 405 drives the third sliding block 404 to drive the first spline shaft 403 to extend, so that the first spline shaft 403 drives the first bevel gear 406 to engage with the second bevel gear 407; the first bevel gear 406 drives the second bevel gear 407 to drive the first screw rod 408 to rotate, the first screw rod 408 drives the fourth slider 409 to slide downwards on the first guide rail block 4010, the fourth slider 409 drives the fourth transmission rod 4011 to drive the first support plate 4018 to move downwards, the first support plate 4018 drives the third electric clamp 4019, the fourth electric clamp 4020, the first pressure sensitive adhesive 4021 and the first sponge block 4022 to move downwards, the first pressure sensitive adhesive 4021 drives the flexible substrate to move downwards, the fourth transmission rod 4011 drives the first straight gear 4012 to move downwards, when the first straight gear 4012 moves downwards to mesh with the first rack 4017 on the first connecting block 4016, the first straight gear 4012 rolls on the first rack 4017, the first straight gear 4012 is enabled to drive the first straight gear 4012 to drive the first supporting plate 4018 to turn over one hundred and eighty degrees, the first supporting plate 4018 is enabled to drive the first sponge block 4022 to turn over one hundred and eighty degrees, at the moment, the first sponge block 4022 is located above the first supporting plate 4018, then the second dryer 4031 continues to dry multiple groups of heat dissipation blocks, glue at the bottoms of the multiple groups of heat dissipation blocks is heated and liquefied, then the multiple groups of heat dissipation blocks simultaneously move downwards to contact the first sponge block 4022, the first sponge block 4022 absorbs the liquefied glue, then the multiple groups of heat dissipation blocks move upwards to return to the original position to continue drying operation, and when the novel pressure-sensitive flexible substrate tearing-away device is used automatically, so that the next use is achieved, and the efficiency is improved.

The lower portions of the third and fourth stopper plates 3022 and 3023 are inclined outward.

The separation edges at the upper parts of two adjacent radiating blocks can be limited respectively.

The fifth spring 3029, the sixth spring 3030, and the first shift block 3031 are symmetrically arranged in two groups about the center line of the fourth linkage block 3028.

The two heat dissipation blocks can be matched with each other to scrape bubbles on the included angle between the two heat dissipation blocks and the flexible substrate.

The lower portions of both sets of first shift blocks 3031 are inclined inward.

Can be smoothly inserted into the gap between the two heat dissipation blocks.

The upper parts of the two groups of first shifting blocks 3031 are contacted with two long vertical surfaces inside the first limiting block 3027.

When the first shift blocks 3031 move downward, the first limiting block 3027 can limit the two groups of first shift blocks 3031, so that the first shift blocks 3031 move downward smoothly.

The first straight gear 4012 is located above the first rack 4017.

The first straight gear 4012 is engageable with the first rack 4017 after being moved downward, thereby rolling the first straight gear 4012 on the first rack 4017.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (7)

1. A mobile phone radiating block production device with a bubble removing function comprises a bottom frame (1), a first supporting frame (5), a second supporting frame (6), a third supporting frame (7) and a first storage box (8); the upper surface of the underframe (1) is fixedly connected with the first supporting frame (5); the upper surface of the underframe (1) is fixedly connected with a second supporting frame (6); the upper surface of the underframe (1) is fixedly connected with a third supporting frame (7); the upper part of the third supporting frame (7) is fixedly connected with the first storage box (8); the paint drying device is characterized by further comprising a transportation assembly, a paint assembly and a drying assembly; the upper part of the underframe (1) is fixedly connected with a coating component which can completely cover the heat dissipation coating by the heat dissipation block; the upper part of the underframe (1) is rotationally connected with the coating component; the upper part of the underframe (1) is fixedly connected with a drying component capable of drying the heat dissipation coating; the upper part of the underframe (1) is rotationally connected with the drying component; the coating component is fixedly connected with the drying component; the upper parts of the first supporting frame (5) and the second supporting frame (6) are fixedly connected with the transportation assembly;

the transportation assembly comprises a first electric sliding rail (201), a first sliding block (202), a first electric push rod (203), a first linkage block (204), a first limiting rod (205), a first spring (206), a first electric clamp (207), a second limiting rod (208), a second spring (209) and a second electric clamp (2010); the first electric sliding rail (201) is in sliding connection with the first sliding block (202); the first electric sliding rail (201) is fixedly connected with the first supporting frame (5); the first electric sliding rail (201) is fixedly connected with the second supporting frame (6); the first sliding block (202) is fixedly connected with the first electric push rod (203); the first electric push rod (203) is fixedly connected with the first linkage block (204); one side of the first linkage block (204) is fixedly connected with a first limiting rod (205), and the other side of the first linkage block (204) is fixedly connected with a second limiting rod (208); one side of the first linkage block (204) is fixedly connected with the first spring (206), and the other side of the first linkage block (204) is fixedly connected with the second spring (209); the outer surface of the first limiting rod (205) is in sliding connection with the first electric clamp (207); the first spring (206) is fixedly connected with the first electric clamp (207); the second limiting rod (208) is in sliding connection with the second electric clamp (2010); the second spring (209) is fixedly connected with the second electric clamp (2010); the first linkage block (204), the first limiting rod (205), the first spring (206), the second limiting rod (208) and the second spring (209) are symmetrically arranged in two groups by the center line of the first electric clamp (207);

The coating assembly comprises a first motor (301), a first transmission rod (302), a first transmission wheel (303), a second transmission wheel (304), a second transmission rod (305), a third transmission wheel (306), a fourth transmission wheel (307), a third transmission rod (308), a first cam (309), a first connecting plate (3010), a first elastic telescopic rod (3011), a first linkage plate (3012), a first push plate (3013), a second linkage block (3014), a first limiting plate (3015), a third spring (3016), a third linkage block (3017), a second limiting plate (3018), a fourth spring (3019), a fourth supporting frame (3020), a second connecting plate (3021), a third limiting plate (3022), a fourth limiting plate (3023), a second electric sliding rail (3024), a second sliding block (3025), a first multistage electric telescopic rod (3026), a first limiting block (3027), a fourth linkage block (3028), a fifth spring (3029), a sixth spring (3030) and a first poking block (1); the output end of the first motor (301) is fixedly connected with a first transmission rod (302); the lower part of the first motor (301) is fixedly connected with the underframe (1); the outer surface of the first transmission rod (302) is fixedly connected with a first transmission wheel (303); the outer surface of the first transmission rod (302) is rotationally connected with the underframe (1); the outer surface of the first transmission rod (302) is fixedly connected with the drying component; the first driving wheel (303) is in driving connection with the second driving wheel (304) through a belt; the inside of the second driving wheel (304) is fixedly connected with a second driving rod (305); the outer surface of the second transmission rod (305) is rotationally connected with a fourth supporting frame (3020); the outer surface of the second transmission rod (305) is fixedly connected with a third transmission wheel (306); the third driving wheel (306) is in driving connection with the fourth driving wheel (307) through a belt; the inside of the fourth driving wheel (307) is fixedly connected with a third driving rod (308); the outer surface of the third transmission rod (308) is fixedly connected with the first cam (309); a first connecting plate (3010) is arranged at the lower part of the first cam (309); the upper surface of the first connecting plate (3010) is fixedly connected with four groups of first elastic telescopic rods (3011); the first connecting plate (3010) is fixedly connected with the fourth supporting frame (3020); the upper parts of the four groups of first elastic telescopic rods (3011) are fixedly connected with a first linkage plate (3012); the upper part of the first linkage plate (3012) is fixedly connected with a first push plate (3013); the first pushing plate (3013) is fixedly connected with two groups of second linkage blocks (3014); the first pushing plate (3013) is fixedly connected with two groups of third springs (3016); the first pushing plate (3013) is fixedly connected with two groups of third linkage blocks (3017); the first pushing plate (3013) is fixedly connected with two groups of fourth springs (3019); the two groups of second linkage blocks (3014) are rotationally connected with the first limiting plate (3015) through rotating shafts; the first limiting plate (3015) is fixedly connected with two groups of third springs (3016); the two groups of third linkage blocks (3017) are rotationally connected with the second limiting plate (3018) through rotating shafts; the second limiting plate (3018) is fixedly connected with two groups of fourth springs (3019); the upper part of the fourth supporting frame (3020) is fixedly connected with the second connecting plate (3021); the lower part of the fourth supporting frame (3020) is fixedly connected with the underframe (1); the lower surface of the second connecting plate (3021) is fixedly connected with a third limiting plate (3022); the lower surface of the second connecting plate (3021) is fixedly connected with a fourth limiting plate (3023); the lower surface of the middle part of the second connecting plate (3021) is fixedly connected with a second electric sliding rail (3024); the inside of the second electric sliding rail (3024) is in sliding connection with the second sliding block (3025); the lower part of the second sliding block (3025) is fixedly connected with a first multi-stage electric telescopic rod (3026); the lower part of the first multistage electric telescopic rod (3026) is fixedly connected with a first limiting block (3027); the lower part of the first limiting block (3027) is fixedly connected with a fourth linkage block (3028); the inside of the first limiting block (3027) is contacted with the first shifting block (3031); the fourth linkage block (3028) is fixedly connected with the fifth spring (3029); the fourth linkage block (3028) is fixedly connected with the sixth spring (3030).

2. The mobile phone radiating block production device with the bubble removing function according to claim 1, wherein the drying component comprises a fifth driving wheel (401), a sixth driving wheel (402), a first spline shaft (403), a third sliding block (404), a third electric sliding rail (405), a first bevel gear (406), a second bevel gear (407), a first screw rod (408), a fourth sliding block (409), a first guide rail block (4010), a fourth driving rod (4011), a first straight gear (4012), a fifth supporting frame (4013), a second electric push rod (4014), a first cleaning block (4015), a first connecting block (4016), a first rack (4017), a first supporting plate (4018), a third electric clamp (4029), a fourth electric clamp (0), a first pressure-sensitive adhesive (4021), a first sponge block (4022), a fourth electric sliding rail (4023), a fifth sliding block (4024), a third electric push rod (5), a first dryer (4026), a first supporting block (4027), a sixth supporting frame (4028), a third electric push rod (4029) and a fourth electric push rod (4030); the fifth driving wheel (401) is in driving connection with the sixth driving wheel (402) through a belt; the inside of the fifth driving wheel (401) is fixedly connected with the first driving rod (302); the inside of the sixth driving wheel (402) is fixedly connected with a first spline shaft (403); the sliding rod of the first spline shaft (403) is rotationally connected with the third sliding block (404); the sliding rod of the first spline shaft (403) is fixedly connected with a first bevel gear (406); the shaft sleeve of the first spline shaft (403) is rotationally connected with the underframe (1); the third sliding block (404) is in sliding connection with a third electric sliding rail (405); the third electric sliding rail (405) is fixedly connected with the underframe (1); a second bevel gear (407) is arranged on one side of the first bevel gear (406); the inside of the second bevel gear (407) is fixedly connected with the first screw rod (408); the outer surface of the first screw rod (408) is rotationally connected with the first guide rail block (4010); the outer surface of the first screw rod (408) is screwed with a fourth sliding block (409); the fourth sliding block (409) is in sliding connection with the first guide rail block (4010); the fourth sliding block (409) is rotationally connected with a fourth transmission rod (4011); the first guide rail block (4010) is fixedly connected with a fifth supporting frame (4013); the outer surface of the fourth transmission rod (4011) is fixedly connected with the first straight gear (4012); the fourth transmission rod (4011) is fixedly connected with the first supporting plate (4018); the upper part of the fifth supporting frame (4013) is fixedly connected with two groups of second electric push rods (4014); one side of the fifth supporting frame (4013) is provided with a first connecting block (4016); the fifth supporting frame (4013) is fixedly connected with the underframe (1); the upper parts of the two groups of second electric push rods (4014) are fixedly connected with a first cleaning block (4015); the first connecting block (4016) is fixedly connected with the first rack (4017); the first connecting block (4016) is fixedly connected with the underframe (1); one side of the first support plate (4018) is fixedly connected with a third electric clamp (4019), and the other side of the first support plate (4018) is fixedly connected with a fourth electric clamp (4020); the upper surface of the first support plate (4018) is in contact with a first pressure-sensitive adhesive (4021); the lower surface of the first supporting plate (4018) is fixedly connected with a first sponge block (4022); the third electric clamp (4019) is in clamping connection with the first pressure sensitive adhesive (4021); the fourth electric clamp (4020) is in clamping connection with the first pressure sensitive adhesive (4021); a fourth electric sliding rail (4023) is arranged on one side of the first sponge block (4022); the inside of the fourth electric sliding rail (4023) is in sliding connection with a fifth sliding block (4024); the fourth electric sliding rail (4023) is fixedly connected with the sixth supporting frame (4028); the fifth sliding block (4024) is in sliding connection with the third electric push rod (4025); the third electric push rod (4025) is fixedly connected with the first dryer (4026); the first dryer (4026) is fixedly connected with a plurality of groups of first supporting blocks (4027); the fourth electric sliding rail (4023), the fifth sliding block (4024), the third electric push rod (4025), the first dryer (4026), the first supporting block (4027) and the sixth supporting frame (4028) are symmetrically provided with two groups by a first pressure-sensitive adhesive (4021) center line; a third connecting plate (4029) is arranged on one side of the sixth supporting frame (4028); the two groups of sixth support frames (4028) are fixedly connected with the underframe (1); the upper part of the third connecting plate (4029) is fixedly connected with two groups of fourth electric push rods (4030); the third connecting plate (4029) is fixedly connected with the underframe (1);

The two groups of fourth electric push rods (4030) are fixedly connected with the second dryer (4031).

3. The device for producing a heat dissipating block for a mobile phone with a function of removing air bubbles according to claim 2, wherein the lower parts of the third limiting plate (3022) and the fourth limiting plate (3023) are inclined outward.

4. A device for producing a heat sink for a mobile phone with a function of removing air bubbles according to any one of claims 1 to 3, wherein the fifth spring (3029), the sixth spring (3030) and the first shifting block (3031) are symmetrically arranged in two groups by using the center line of the fourth linkage block (3028).

5. The device for producing a heat sink for a mobile phone having a function of removing bubbles according to claim 4, wherein the lower portions of both the first dial blocks (3031) are inclined inward.

6. The device for producing a heat sink for a mobile phone with bubble removing function according to claim 4, wherein the upper parts of the two first poking blocks (3031) are contacted with two long vertical surfaces inside the first limiting block (3027).

7. A device for producing a heat sink for a mobile phone with a bubble removing function according to claim 2, wherein the first spur gear (4012) is located above the first rack (4017).

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