CN204167360U - Automatic double surface gluer in a kind of LED silk - Google Patents

Abstract

The utility model provides the automatic double surface gluer in a kind of LED silk, belongs to field of mechanical technique.It solve existing point gum machine to need manually the LED silk coating fluorescent glue to be taken off, the technical problems such as labour intensity is large.Automatic double surface gluer in this kind of LED silk, this device comprises a frame, frame has substrate, there is between frame and substrate actuator one and actuator one can drive substrate along frame anterior-posterior translation, substrate is fixed with Connection Block, Connection Block inside is cavity and its open top, frame also have actuator two and lubricating structure, actuator two is connected in frame and lubricating structure and actuator two are connected, actuator two can drive lubricating structure to be displaced downwardly in Connection Block, frame also has the gluing part be connected with actuator two, there is bottom Connection Block the removal hole run through, removal hole place has the disassembly mechanism that position LED silk in the inner can be ejected.The utility model has can by the advantage under glue-coated LED silk fast fetching.

Description

Automatic double surface gluer in a kind of LED silk

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of automatic double surface gluer, the automatic double surface gluer particularly in a kind of LED silk.

Background technology

Along with the fast development of LED industry, the range of application of high-power LED is progressively being magnified, and LED industry is also increasing to the demand of glue spreader, and required precision is also more and more higher.

Through retrieval, as Chinese patent literature discloses a kind of automatic dispensing machine [patent No.: ZL201210320147.X; Authorization Notice No.: CN102814264A].This automatic dispensing machine, comprises support and gluing mechanism taken out by some glue, it is characterized in that: also comprise front and back feed mechanism, put glue driving mechanism and left/right movement device; Described front and back feed mechanism comprises supporting plate, base plate, row guide rail, row track base, feed nut, feed screw, feeding motor and screw bolt seat, described row track base is fixedly connected with supporting plate, row guide rail is fixedly connected with base plate, feed nut is fixedly connected with supporting plate, feed screw two ends respectively with a screw bolt seat pivot joint, feeding motor is fixedly connected with feed screw; Base plate is fixedly connected with support, and screw bolt seat is fixedly connected with base plate, another screw bolt seat is fixedly connected with support, or two screw bolt seats are fixedly connected with base plate; Described left/right movement device comprises row screw bolt seat, row nut seat, row screw rod, row motor and portal frame, and the principal post of described portal frame is fixedly connected with support, and row screw bolt seat is fixedly connected with the crossbeam of portal frame, and row nut seat is taken out gluing mechanism with some glue and is fixedly connected with.

Although point gum machine disclosed in this patent can make LED silk from moving row, realize putting glue successively, but, when this point gum machine is used for LED silk point glue, need manually the LED silk coating fluorescent glue to be taken off, production efficiency is low, labour intensity is large, and therefore, the automatic double surface gluer designed in a kind of LED silk is necessary.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes the automatic double surface gluer in a kind of LED silk, this automatic double surface gluer have can by under glue-coated LED silk fast fetching, feature that labour intensity is low.

The purpose of this utility model realizes by following technical proposal: the automatic double surface gluer in a kind of LED silk, this device comprises a frame, it is characterized in that, described frame has substrate, there is between described frame and substrate actuator one and actuator one can drive substrate along frame anterior-posterior translation, described substrate is fixed with Connection Block, described Connection Block inside is cavity and its open top, the both sides of the open end of described Connection Block have recessed positioning recess, described frame also have actuator two and lubricating structure, above-mentioned actuator two is connected in lubricating structure in frame and above-mentioned and actuator two is connected, lubricating structure described in above-mentioned actuator two can drive is displaced downwardly in Connection Block, described frame also has the gluing part be connected with actuator two, there is bottom described Connection Block the removal hole run through, described removal hole place has the disassembly mechanism that position LED silk in the inner can be ejected.

Operation principle of the present utility model is as follows: operator drives substrate to move by actuator one, substrate drives Connection Block to move, along with the movement of Connection Block, Connection Block can be made to be in immediately below lubricating structure, driving lubricating structure to moving down in Connection Block by actuator two, being lubricated by the cavity of lubricating structure to Connection Block; By needing the LED silk being coated with fluorescent glue to be placed in Connection Block, positioning recess is utilized to be located at the two ends of LED silk; Substrate is driven to move by actuator one, substrate drives Connection Block to move, along with the movement of Connection Block, Connection Block can be made to be in immediately below gluing part, by gluing part by the surface of fluorescent glue Tu at LED silk, the LED silk coating fluorescent glue can be ejected from Connection Block by disassembly mechanism, complete the gluing operation of LED silk.

Described disassembly mechanism comprises in shaft-like push rod and is connected in the dismounting cylinder in frame, and the upper end of described push rod is positioned at removal hole place, and the piston rod of described push rod lower end and above-mentioned dismounting cylinder is connected.

When needing the LED silk coating fluorescent glue to eject, the piston rod controlling dismounting cylinder moves up, and the piston rod of dismounting cylinder drives push rod to move up, and along with push rod moves up, the LED silk coating fluorescent glue can be ejected.

Alternatively scheme, the dismounting cylinder that described disassembly mechanism comprises the top board in tabular and is connected on substrate, the bottom of described top board and Connection Block inner chamber matches, and the piston rod of above-mentioned dismounting cylinder is connected in the middle part of top board.

When needing the LED silk coating fluorescent glue to eject, the piston rod controlling dismounting cylinder moves up, and the piston rod of dismounting cylinder drives top board to move up, and along with top board moves up, the LED silk coating fluorescent glue can be ejected.

Described actuator one is for being connected in the cylinder one in frame, and the piston rod of aforesaid substrate and cylinder one is connected.

When Connection Block needs mobile, the piston rod of control cylinder one drives substrate to move, and substrate can drive Connection Block to move left and right.

Described actuator one comprises motor, travelling gear and driving rack, and above-mentioned motor is connected in frame, and above-mentioned travelling gear is connected in the rotating shaft of motor, and above-mentioned driving rack is connected on substrate and driving rack is meshed with travelling gear.

When Connection Block moves by needs, control the axis of rotation of motor, the rotating shaft band nutating gear of motor rotates, and travelling gear drives driving rack to move, and driving rack drives substrate to move, and substrate can drive Connection Block to move left and right.

This device also comprises a link, and described link top is connected on actuator two, and above-mentioned lubricating structure and gluing part are all connected to link bottom, and described lubricating structure and gluing part are all positioned at substrate top.

When needs are to LED silk surface coating, drive link to move down by actuator two, link can drive lubricating structure and gluing part to move down.

Described lubricating structure comprises connecting rod, pressing plate one, sponge brush and fuel reserve tank, above-mentioned small end and actuator two are connected, above-mentioned connecting rod lower end is connected mutually with pressing plate one, above-mentioned sponge brush is connected on the downside of pressing plate one, and above-mentioned fuel reserve tank to be connected on the upside of pressing plate one and pressing plate one to have the oil through run through.

When needing to lubricate the cavity of Connection Block, add the lubricating oil of 2/3 volume in fuel reserve tank, moved down by actuator two drivening rod, connecting rod band dynamic pressure plate one moves down, pressing plate one drives sponge brush to move down, along with sponge brush moves down gradually, lubricating oil can be coated in the cavity of Connection Block by sponge brush.

Alternatively scheme, described lubricating structure comprises connecting rod, pressing plate one, pressing plate two, sponge brush and fuel reserve tank, above-mentioned small end and actuator two are connected, above-mentioned connecting rod lower end is connected mutually with pressing plate one, described pressing plate two has the trepanning run through and pressing plate two is enclosed within connecting rod, the quantity of described sponge brush is two: brush body one and brush body two, above-mentioned brush body one to be enclosed within connecting rod and to be pressed between pressing plate one and pressing plate two, described brush body one sidepiece stretches out pressing plate one and pressing plate two, above-mentioned brush body two is connected in pressing plate one bottom, above-mentioned fuel reserve tank is connected on the upside of pressing plate two, described pressing plate one have some oil throughs run through.

When needing to lubricate the cavity of Connection Block, add the lubricating oil of 2/3 volume in fuel reserve tank, moved down by actuator two drivening rod, connecting rod band dynamic pressure plate one moves down, pressing plate one drives sponge brush to move down, along with sponge brush moves down gradually, lubricating oil can be coated in the cavity of Connection Block by sponge brush.

Described fuel reserve tank ringwise and inner be the shoe cream room for storing fluid, described pressing plate two has the oil guiding hole run through, Oil Guide rope is at oil guiding hole place and the two ends of Oil Guide rope lay respectively at fuel reserve tank and between pressing plate one and pressing plate two.

Lubricating oil in fuel reserve tank, by the guide effect of Oil Guide rope, can make lubricating oil can flow in sponge brush.

Described Oil Guide rope comprises outer tube in a tubular form and is positioned at the cotton cord of outer tube, and outer tube is all stretched out in the two ends of described cotton cord.

The lubricating oil of fuel reserve tank flows in sponge brush along cotton cord, can play protective action by outer tube to the lubricating oil in cotton cord.

Described connecting rod comprises in the shaft-like body of rod one and the tubular body of rod two, the above-mentioned body of rod two upper end and actuator two are connected, the above-mentioned body of rod one lower end and pressing plate one are connected, and the described body of rod two lower end is enclosed within the body of rod one upper end and has between and pressing plate one can be made to obtain the buffer structure cushioned.

Described buffer structure comprises the gear edge of the body of rod two lower end inside protrusion and the convex shoulder of the body of rod one upper end protrusion, and under the Action of Gravity Field of the body of rod one, above-mentioned convex shoulder is resisted against gear along place.

By the gear edge of the body of rod two and the convex shoulder of the body of rod one, can carry out spacing to the body of rod two, prevent the body of rod one to be separated with both bodies of rod two.

On the described body of rod one, also cover has spring, and the two ends of spring are pushed up respectively and are pressed in convex shoulder and keep off along upper.

The body of rod one and the body of rod two can be made to play cushioning effect by spring, working stability, reliable can be guaranteed.

Described buffer structure comprises bar shaped spacing hole that the body of rod two sidepiece runs through and the plush copper that the body of rod one upper end is protruded, above-mentioned plush copper stretches out bar shaped spacing hole, the outside of the described body of rod two lower end has the spring base of protrusion, and the two ends of a spring are connected on plush copper and spring base respectively.

The plush copper of the body of rod one is in the bar shaped spacing hole of the body of rod two, can carry out spacing to the body of rod two, prevent the body of rod one to be separated with both bodies of rod two; The body of rod one and the body of rod two can be made to play cushioning effect by spring, working stability, reliable can be guaranteed.

Described actuator two is for being connected in the cylinder two in frame, and the piston rod of above-mentioned link upper end and cylinder two is connected, and link lower end and the body of rod two upper end are connected.

When link moves down by needs, the piston rod of control cylinder two moves down, and the piston rod of cylinder two can drive link to move down.

Described gluing part comprises nozzle, tube connector, rubber-storing cylinder and oil cylinder, said nozzle is connected on link, described nozzle lower end and aforesaid substrate just right, one end and the upper end of nozzle of above-mentioned tube connector are connected, the other end of tube connector is positioned at rubber-storing cylinder, have the piston being divided into two cavitys in described rubber-storing cylinder, piston rod and the above-mentioned piston of above-mentioned oil cylinder are connected.

When needs gluing, add the fluorescent glue of 2/3 volume in rubber-storing cylinder, the piston rod controlling oil cylinder moves down, the piston rod of oil cylinder drives piston to move down, along with moving down of piston, fluorescent glue in rubber-storing cylinder is expressed in nozzle by tube connector, by nozzle, fluorescent glue is spread upon LED silk surface.

Compared with prior art, the automatic double surface gluer in this LED silk has the following advantages:

1, the utility model drives push rod to move up by the piston rod dismantling cylinder, along with push rod moves up, can by under glue-coated LED silk fast fetching, labour intensity is low.

2, the two ends of LED silk can be located by the positioning recess of Connection Block, can guarantee the precision of LED silk gluing, gluing precision is high; Lubricated by the cavity of sponge brush to Connection Block, be convenient to the LED silk coating fluorescent glue to take off, production efficiency is high.

3, can make the body of rod one and the body of rod two cushioning effects by spring, working stability is good.

4, the lubricating oil of fuel reserve tank flows in sponge brush along cotton cord, and can play protection to the lubricating oil in cotton cord by outer tube, protective action is good.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is the planar structure schematic diagram of gluing part in the utility model.

Fig. 3 is the planar structure schematic diagram that the utility model removes part.

Fig. 4 is the full sectional view that the utility model removes part.

In figure, 1, frame; 2, cylinder one; 3, substrate; 4, Connection Block; 4a, positioning recess; 4b, removal hole; 5, rubber-storing cylinder; 6, oil cylinder; 7, link; 8, cylinder two; 9, the body of rod two; 9a, gear edge; 10, the body of rod one; 10a, convex shoulder; 11, fuel reserve tank; 12, pressing plate one; 13, sponge brush; 14, push rod; 15, tube connector; 16, nozzle; 17, piston; 18, spring; 19, cylinder is dismantled.

Embodiment

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As Figure 1 and Figure 4, automatic double surface gluer in this LED silk, this device comprises a frame 1, frame 1 has substrate 3, there is between frame 1 and substrate 3 actuator one and actuator one can drive substrate 3 along frame 1 anterior-posterior translation, substrate 3 is fixed with Connection Block 4, the mode that Connection Block 4 is bolted is connected on the substrate 3; Connection Block 4 inside is cavity and its open top, and the both sides of the open end of Connection Block 4 have recessed positioning recess 4a, can be positioned by positioning recess 4a to the two ends of LED silk; Frame 1 also has actuator two and lubricating structure, and actuator two is connected in frame 1 and lubricating structure and actuator two are connected, and actuator two is fixed in frame 1 by bolted mode; Actuator two can drive lubricating structure to be displaced downwardly in Connection Block 4, frame 1 also has the gluing part be connected with actuator two, has the removal hole 4b run through bottom Connection Block 4, and removal hole 4b place has the disassembly mechanism that position LED silk in the inner can be ejected.

As Figure 1 and Figure 4, disassembly mechanism comprises in shaft-like push rod 14 and the dismounting cylinder 19 be connected in frame 1, and the mode that dismounting cylinder 19 is bolted is connected in frame 1; The upper end of push rod 14 is positioned at removal hole 4b place, and the external diameter of push rod 14 is less than the diameter of removal hole 4b; Push rod 14 lower end is connected with the piston rod of dismounting cylinder 19, and the piston rod of the mode that push rod 14 is bolted and dismounting cylinder 19 is connected.

According to actual conditions, disassembly mechanism also can adopt another scheme, that is: the disassembly mechanism dismounting cylinder 19 that comprises top board in tabular and be connected on the substrate 3, and the mode that dismounting cylinder 19 is bolted is connected on the substrate 3; The bottom of top board and Connection Block 4 inner chamber matches, and the piston rod of dismounting cylinder 19 is connected in the middle part of top board, and the piston rod of the mode that top board is bolted and dismounting cylinder 19 is connected.

As shown in Figure 1, actuator one is for being connected in the cylinder 1 in frame 1, and the mode that cylinder 1 is bolted is connected in frame 1; Substrate 3 is connected with the piston rod of cylinder 1, and the piston rod of the mode that substrate 3 is bolted and cylinder 1 is solid.

According to actual conditions, actuator one also can adopt another scheme, that is: actuator one comprises motor, travelling gear and driving rack, and motor is connected in frame 1, and the mode that motor is bolted is connected in frame 1; Travelling gear is connected in the rotating shaft of motor, and travelling gear is connected in the rotating shaft of motor by the mode that key connects; Driving rack is connected on the substrate 3 and driving rack is meshed with travelling gear, and the mode that driving rack is bolted is connected on the substrate 3.

As shown in Figure 1, this device also comprises a link 7, and link 7 top is connected on actuator two, and lubricating structure and gluing part are all connected to link 7 bottom, and lubricating structure and gluing part are all positioned at substrate 3 top.

As shown in Figure 1, lubricating structure comprises connecting rod, pressing plate 1, sponge brush 13 and fuel reserve tank 11, and small end and actuator two are connected, and connecting rod lower end is connected mutually with pressing plate 1, sponge brush 13 is connected on the downside of pressing plate 1, and sponge brush 13 is connected on the downside of pressing plate 1 by screw; Fuel reserve tank 11 to be connected on the upside of pressing plate 1 and pressing plate 1 to have the oil through run through, the mode that fuel reserve tank 11 is bolted is connected on the upside of pressing plate 1, bottom fuel reserve tank 11, there is oil outlet, lubricating oil can flow out from the oil outlet of fuel reserve tank 11, flows to sponge brush 13 from the oil through of pressing plate 1.

According to actual conditions, lubricating structure also can adopt another scheme, that is: lubricating structure comprises connecting rod, pressing plate 1, pressing plate two, sponge brush 13 and fuel reserve tank 11, small end and actuator two are connected, connecting rod lower end is connected mutually with pressing plate 1, pressing plate two has the trepanning run through and pressing plate two is enclosed within connecting rod, the quantity of sponge brush 13 is two: brush body one and brush body two, brush body one to be enclosed within connecting rod and to be pressed between pressing plate 1 and pressing plate two, brush body one has through hole, and brush body one can be enclosed within connecting rod; Brush body one sidepiece stretches out pressing plate 1 and pressing plate two, and brush body two is connected in pressing plate 1 bottom, and brush body two is connected in pressing plate 1 bottom by screw; Fuel reserve tank 11 is connected on the upside of pressing plate two, and the mode that fuel reserve tank 11 is bolted is connected on the upside of pressing plate two; Pressing plate 1 has some oil throughs run through, in this scenario, the quantity of oil through is three; Fuel reserve tank 11 ringwise and inner be the shoe cream room for storing fluid, pressing plate two has the oil guiding hole run through, Oil Guide rope is at oil guiding hole place and the two ends of Oil Guide rope lay respectively at fuel reserve tank 11 and between pressing plate 1 and pressing plate two, adopt this structure, lubricating oil in fuel reserve tank 11, by the guiding of Oil Guide rope, makes lubricating oil flow in sponge brush 13; Oil Guide rope comprises outer tube in a tubular form and is positioned at the cotton cord of outer tube, and outer tube is all stretched out in the two ends of cotton cord, adopts this structure, and the lubricating oil of fuel reserve tank 11 flows in sponge brush 13 along cotton cord, can play protective action by outer tube to the lubricating oil in cotton cord.

As shown in Figure 1, Figure 3, connecting rod comprises in the shaft-like body of rod 1 and the tubular body of rod 29, and the body of rod 29 upper end and actuator two are connected, and the body of rod 1 lower end and pressing plate 1 are connected, and the body of rod 1 lower end is connected by the mode of welding with pressing plate 1; The body of rod 29 lower end is enclosed within the body of rod 1 upper end and has between and pressing plate 1 can be made to obtain the buffer structure cushioned, and the body of rod 1 can move in the body of rod 29.

As shown in Figure 1, Figure 3, the convex shoulder 10a that the gear that buffer structure comprises the body of rod 29 lower end inside protrusion protrudes along 9a and the body of rod 1 upper end, under the Action of Gravity Field of the body of rod 1, convex shoulder 10a is resisted against gear along 9a place, adopt this structure, can carry out spacing to the body of rod 29, prevent the body of rod 1 to be separated with both bodies of rod 29; On the body of rod 1, also cover has spring 18, the two ends of spring 18 are pushed up respectively and are pressed in convex shoulder 10a and keep off along on 9a, the upper end of spring 18 is fixed on convex shoulder 10a by the mode of welding, the lower end of spring 18 is fixed on gear along on 9a by the mode of welding, adopt this structure, the body of rod 1 and the body of rod 29 can be made to play cushioning effect, working stability, reliable can be guaranteed.

According to actual conditions, buffer structure also can adopt another scheme, that is: buffer structure comprises bar shaped spacing hole that the body of rod 29 sidepiece runs through and the plush copper that the body of rod 1 upper end is protruded, plush copper stretches out bar shaped spacing hole, adopt this structure, can carry out spacing to the body of rod 29, prevent the body of rod 1 to be separated with both bodies of rod 29; The outside of the body of rod 29 lower end has the spring base of protrusion, and spring base is fixed on the body of rod 29 times weakness by the mode of welding; The two ends of a spring 18 are connected on plush copper and spring base respectively, the upper end of spring 18 is fixed in plush copper by the mode of welding, the lower end of spring 18 is fixed in spring base by the mode of welding, adopt this structure, the body of rod 1 and the body of rod 29 can be made to play cushioning effect, working stability, reliable can be guaranteed.

As shown in Figure 1, actuator two is for being connected in the cylinder 28 in frame 1, and the mode that cylinder 28 is bolted is fixed in frame 1; Link 7 is connected with the piston rod of cylinder 28, and the piston rod of the mode that link 7 is bolted and cylinder 28 is connected.

As shown in Figure 1 and Figure 2, gluing part comprises nozzle 16, tube connector 15, rubber-storing cylinder 5 and oil cylinder 6, and nozzle 16 is connected on link 7, and the mode that nozzle 16 is bolted is connected on link 7; Nozzle 16 lower end and substrate 3 just right, one end and nozzle 16 upper end of tube connector 15 are connected, and the other end of tube connector 15 is positioned at rubber-storing cylinder 5, and the mode that rubber-storing cylinder 5 is bolted is fixed on link 7; Have the piston 17 being divided into two cavitys in rubber-storing cylinder 5, piston rod and the piston 17 of oil cylinder 6 are connected, and the mode that oil cylinder 6 is bolted is fixed on link 7, and the mode that the piston rod of oil cylinder 6 is bolted and piston 17 are connected.

Operation principle of the present utility model is as follows: add the lubricating oil of 2/3 volume in fuel reserve tank 11, lubricating oil flows out from the oil outlet of fuel reserve tank 11, flows to sponge brush 13 from the oil through of pressing plate 1; Add the fluorescent glue of 2/3 volume in rubber-storing cylinder 5; The piston rod of operator's control cylinder 1 drives substrate 3 to move, and substrate 3 drives Connection Block 4 to move, and along with the movement of Connection Block 4, is in by Connection Block 4 immediately below sponge brush 13; The piston rod of control cylinder 28 drives link 7 to move down, link 7 drives the body of rod 29 to move down, the body of rod 29 drives the body of rod 1 to move down, the body of rod 1 is with dynamic pressure plate 1 to move down, pressing plate 1 drives sponge brush 13 to move down, along with sponge brush 13 moves down gradually, lubricating oil is coated in the cavity of Connection Block 4 by sponge brush 13; The piston rod of control cylinder 28 moves up, and by needing the LED silk being coated with fluorescent glue to be placed in Connection Block 4, utilizes positioning recess 4a to be located at the two ends of LED silk; The piston rod of control cylinder 1 drives substrate 3 to move, and substrate 3 drives Connection Block 4 to move, and along with the movement of Connection Block 4, is in by Connection Block 4 immediately below nozzle 16; The piston rod of control cylinder 28 drives link 7 to move down, and link 7 drives nozzle 16 to move down; The piston rod controlling oil cylinder 6 moves down, the piston rod of oil cylinder 6 drives piston 17 to move down, along with moving down of piston 17, fluorescent glue in rubber-storing cylinder 5 is expressed in nozzle 16 by tube connector 15, by nozzle 16, fluorescent glue is sprayed on LED silk surface, and the piston rod controlling dismounting cylinder 19 moves up, the piston rod of dismounting cylinder 19 drives push rod 14 to move up, along with push rod 14 moves up, the LED silk coating fluorescent glue is ejected, complete the gluing operation of LED silk.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (10)

1. the automatic double surface gluer in a LED silk, this device comprises a frame (1), it is characterized in that, described frame (1) has substrate (3), between described frame (1) and substrate (3), there is actuator one and actuator one can drive substrate (3) along frame (1) anterior-posterior translation, described substrate (3) is fixed with Connection Block (4), described Connection Block (4) inside is cavity and its open top, the both sides of the open end of described Connection Block (4) have recessed positioning recess (4a), (1) also has actuator two and lubricating structure to described frame, the frame (1) that is connected in above-mentioned actuator two goes up and above-mentioned lubricating structure and actuator two are connected, lubricating structure described in above-mentioned actuator two can drive is displaced downwardly in Connection Block (4), described frame (1) also has the gluing part be connected with actuator two, described Connection Block (4) bottom has the removal hole (4b) run through, described removal hole (4b) place has the disassembly mechanism that position LED silk in the inner can be ejected.

2. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, described disassembly mechanism comprises in shaft-like push rod (14) and the dismounting cylinder (19) be connected in frame (1), the upper end of described push rod (14) is positioned at removal hole (4b) place, and the piston rod of described push rod (14) lower end and above-mentioned dismounting cylinder (19) is connected.

3. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, the dismounting cylinder (19) that described disassembly mechanism comprises the top board in tabular and is connected on substrate (3), the bottom of described top board and Connection Block (4) inner chamber matches, and the piston rod of above-mentioned dismounting cylinder (19) is connected in the middle part of top board.

4. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, described actuator one is for being connected in the cylinder one (2) in frame (1), and aforesaid substrate (3) is connected with the piston rod of cylinder one (2).

5. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, described actuator one comprises motor, travelling gear and driving rack, above-mentioned motor is connected in frame (1), above-mentioned travelling gear is connected in the rotating shaft of motor, and above-mentioned driving rack is connected in the upper and driving rack of substrate (3) and is meshed with travelling gear.

6. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, this device also comprises a link (7), described link (7) top is connected on actuator two, above-mentioned lubricating structure and gluing part are all connected to link (7) bottom, and described lubricating structure and gluing part are all positioned at substrate (3) top.

7. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, described lubricating structure comprises connecting rod, pressing plate one (12), sponge brush (13) and fuel reserve tank (11), above-mentioned small end and actuator two are connected, above-mentioned connecting rod lower end is connected mutually with pressing plate one (12), above-mentioned sponge brush (13) is connected in pressing plate one (12) downside, and above-mentioned fuel reserve tank (11) is connected in pressing plate one (12) upside and pressing plate one (12) has the oil through run through.

8. the automatic double surface gluer in LED silk according to claim 1, it is characterized in that, described lubricating structure comprises connecting rod, pressing plate one (12), pressing plate two, sponge brush (13) and fuel reserve tank (11), above-mentioned small end and actuator two are connected, above-mentioned connecting rod lower end is connected mutually with pressing plate one (12), described pressing plate two has the trepanning run through and pressing plate two is enclosed within connecting rod, the quantity of described sponge brush (13) is two: brush body one and brush body two, above-mentioned brush body one to be enclosed within connecting rod and to be pressed between pressing plate one (12) and pressing plate two, described brush body one sidepiece stretches out pressing plate one (12) and pressing plate two, above-mentioned brush body two is connected in pressing plate one (12) bottom, above-mentioned fuel reserve tank (11) is connected on the upside of pressing plate two, described pressing plate one (12) have some oil throughs run through.

9. the automatic double surface gluer in LED silk according to claim 8, it is characterized in that, described fuel reserve tank (11) ringwise and inner be the shoe cream room for storing fluid, described pressing plate two has the oil guiding hole run through, and Oil Guide rope is positioned at oil guiding hole place and the two ends of Oil Guide rope lay respectively at fuel reserve tank (11) and between pressing plate one (12) and pressing plate two; Described Oil Guide rope comprises outer tube in a tubular form and is positioned at the cotton cord of outer tube, and outer tube is all stretched out in the two ends of described cotton cord.

10. the automatic double surface gluer in LED silk according to claim 6, it is characterized in that, described gluing part comprises nozzle (16), tube connector (15), rubber-storing cylinder (5) and oil cylinder (6), said nozzle (16) is connected on link (7), described nozzle (16) lower end and aforesaid substrate (3) just right, one end and nozzle (16) upper end of above-mentioned tube connector (15) are connected, the other end of tube connector (15) is positioned at rubber-storing cylinder (5), there is in described rubber-storing cylinder (5) piston (17) being divided into two cavitys, piston rod and the above-mentioned piston (17) of above-mentioned oil cylinder (6) are connected.