CN218319389U - A suction means for adsorbing radiator product glued membrane - Google Patents

Abstract

The utility model discloses a suction means for adsorbing radiator product glued membrane, this suction means includes pneumatic control mechanism, vacuum adsorption mechanism, sucking disc feeding agencies, wherein, pneumatic control mechanism includes solenoid valve, air supply, photoemitter, signal line, PLC controller, links to each other air supply and air inlet of solenoid valve, and photoemitter fixes on the conveying table and lies in sucking disc feeding agencies below, links to each other PLC controller and solenoid valve; the vacuum adsorption mechanism comprises an air source distributor, a vacuum generation assembly and a connecting pipe assembly; the sucker material taking mechanism comprises a sucker material taking assembly and an air pipe assembly, and the vacuum generation assembly is connected with the sucker material taking assembly through the air pipe assembly. The utility model discloses an absorbing device can adsorb the glued membrane of radiator product front end automatically, and whole process need not artifical manually operation, and degree of automation is high, improved production efficiency, reduces the input of cost of labor.

Description

A suction means for adsorbing radiator product glued membrane

Technical Field

The utility model relates to a technical field of vacuum plastic uptake packagine machine packing radiator especially relates to a suction means that is arranged in vacuum plastic uptake packagine machine, absorbs radiator product front end glued membrane.

Background

Vacuum plastic-sucking packing machines are used for packing small solid articles such as tablets, pills, hygienic pills, candy and the like, and with the gradual development of plastic packing industry, in recent years, the vacuum plastic-sucking packing machines in China are used for packing and transferring small electric appliances, artware, toys, shoes and some electronic products. Such as finished product packages of MP3, earphones, USB, toys, batteries, artware, sports shoes and the like, and plastic uptake packages of products such as hardware stamping parts, lathe parts, computer connectors, electronic components and the like.

The existing vacuum plastic packaging is also used for packaging of automobile radiator cores and the like, a plastic film/adhesive film forms vacuum with a radiator product through a vacuum plastic packaging machine, and then the adhesive film is tightly attached to the surface of the radiator product to complete the plastic absorption of the radiator product; the staff snatchs the front end of radiator product glued membrane with the absorption structure on the vacuum plastic uptake packing, again pulls the radiator product forward, then decides to glued membrane rear end to accomplish getting of radiator product glued membrane and deciding of gluing membrane between radiator product and the radiator product.

When the existing vacuum plastic-absorbing package is used for vacuum plastic-absorbing packaging of a radiator, a large chuck on a suction structure is manually operated by a worker, the large chuck clamps a glue film at the front end of a radiator product, and then the rear end of the glue film is cut. The glued membrane length of radiator product front end is cliied to big chuck reaches 8cm, because it is harder to absorb the structural big chuck, in addition big chuck is also bigger at the clamp power of the glued membrane of the clamp-up radiator product, cause the glued membrane to receive to damage or the glued membrane to receive to cut off very easily, finally lead to packing the glued membrane on the radiator product and scrap, the loss to the glued membrane is bigger, the waste of having caused a large amount of materials, the material cost has been increased, in addition, adopt artifical manual operation, low in production efficiency, the cost of artifical input is also bigger.

SUMMERY OF THE UTILITY MODEL

Problem to prior art exists, the utility model aims to solve the technical problem that an adopt vacuum chuck to absorb the glued membrane of radiator product front end, need not personnel and snatch the radiator product, only need adopt little sucking disc alright in order to replace original big chuck, prevent that big chuck from causing the glued membrane to damage, reduced suction means to the waste of glued membrane, reduced material cost, very big suction means who satisfies the production demand.

In order to solve the technical problem, the utility model provides a suction means for adsorbing radiator product glued membrane, including the suction means for absorbing radiator product, the below of suction means is fixed with the conveying table, the conveying table sends the radiator product that has packed the glued membrane to the suction means below, suction means includes pneumatic control mechanism, vacuum adsorption mechanism, sucking disc feeding mechanism, pneumatic control mechanism installs between vacuum adsorption mechanism and sucking disc feeding mechanism, vacuum adsorption mechanism locates one side of sucking disc feeding mechanism and is linked together with it;

the pneumatic control mechanism comprises an electromagnetic valve and an air source, and the air source is connected with an air inlet of the electromagnetic valve;

the vacuum adsorption mechanism comprises an air source distributor, a vacuum generation assembly and a connecting pipe assembly, one end of the connecting pipe assembly is connected with the vacuum generation assembly, the other end of the connecting pipe assembly is connected with the air source distributor, the air source distributor is connected with the vacuum generation assembly through the connecting pipe assembly, an air outlet of the electromagnetic valve is connected with an air supply pipe, the other end of the air supply pipe is connected with the air source distributor, and the electromagnetic valve is communicated with the air source distributor through the air supply pipe;

the vacuum generation assembly is communicated with the sucking disc material taking assembly through the air pipe assembly so that the vacuum generation assembly can extract air in the sucking disc material taking assembly, and sufficient suction force is generated between the sucking disc material taking assembly and a glue film at the front end of a radiator product to suck the glue film at the front end of the radiator product;

the top of sucking disc feeding agencies still is connected with lift pushing mechanism, lift pushing mechanism includes lift cylinder and promotion coupling assembling, the piston rod of lift cylinder links to each other with promotion coupling assembling, it links to each other to promote coupling assembling and sucking disc feeding agencies's top, lift cylinder and solenoid valve link to each other, the piston rod of solenoid valve control lift cylinder stretches out and draws back in order to drive the glued membrane position that sucking disc feeding agencies dropped to radiator product front end.

According to the technical scheme, the pneumatic control mechanism comprises a photoelectric emitter, a signal line and a PLC (programmable logic controller), the photoelectric emitter is fixed on the conveying workbench and located below the sucker material taking mechanism, one end of the signal line is connected with the photoelectric emitter, the other end of the signal line is connected with the PLC, the PLC is connected with a solenoid valve, when a radiator product on the conveying workbench is conveyed below the sucker material taking mechanism, the photoelectric emitter senses the radiator product, the photoelectric emitter transmits a signal to the PLC through the signal line, and after the PLC receives the signal of the photoelectric emitter, the PLC controls the solenoid valve to be started.

According to the further improvement of the technical scheme, the vacuum generation assembly is provided with a plurality of mutually independent vacuum generators, the connecting pipe assembly is provided with connecting pipes corresponding to the number of the vacuum generators, the air source distributor is provided with outlets corresponding to the number of the vacuum generators, one end of each connecting pipe is correspondingly connected with one vacuum generator, and the other end of each connecting pipe is correspondingly connected with one outlet of the air source distributor so as to realize the communication between the air source distributor and each vacuum generator.

The technical scheme is further improved, the trachea subassembly includes the trachea corresponding with vacuum generator quantity, the sucking disc is got the material subassembly and is included the movable rod corresponding with trachea quantity and the vacuum chuck corresponding with movable rod quantity, and a vacuum chuck is connected to the lower extreme correspondence of each movable rod, vacuum chuck's inside is hollow structure, and the upper end of a movable rod is connected to the corresponding one end of every trachea, and a vacuum generator is connected to the corresponding other end of every trachea, vacuum generator passes through the trachea and links to each other so that vacuum generator drive movable rod is flexible to extract the inside air of vacuum chuck to make and produce sufficient adsorption affinity between the glued membrane of vacuum chuck and radiator product front end.

According to the further improvement of the technical scheme, the sucking disc taking assembly comprises a bottom plate, a movable sleeve is fixed on the outer side of the middle of the movable rod, the movable rod penetrates through the bottom plate and is connected with the bottom plate through the movable sleeve in the middle of the movable rod, and the vacuum sucking disc is fixed below the bottom plate through the movable rod.

The further improvement to above-mentioned technical scheme, promotion coupling assembling includes push pedal and trace, the upper end of push pedal links to each other with the piston rod of lift cylinder, the one end of trace is connected with the lower extreme of push pedal, the other end of trace is connected with the bottom plate that the material subassembly was got to the sucking disc, the piston rod of lift cylinder stretches out and draws back and goes up and down in order to drive the push pedal, the bottom plate that the push pedal lift process can drive the trace and the trace other end goes up and down.

Compared with the prior art, the utility model discloses a scheme contains following beneficial effect at least:

the utility model discloses a suction means includes pneumatic control mechanism, vacuum adsorption mechanism, sucking disc feeding agencies, wherein, pneumatic control mechanism includes solenoid valve, air supply, photoemitter, signal line, PLC controller, links to each other air supply and the air inlet of solenoid valve, and photoemitter fixes on the conveying table and lies in sucking disc feeding agencies below, links to each other PLC controller and solenoid valve; the vacuum adsorption mechanism comprises an air source distributor, a vacuum generation assembly and a connecting pipe assembly, wherein the air source distributor is connected with the vacuum generation assembly through the connecting pipe assembly, and a solenoid valve is communicated with the air source distributor through an air supply pipe; the sucker material taking mechanism comprises a sucker material taking assembly and an air pipe assembly, and the vacuum generating assembly is communicated with the sucker material taking assembly through the air pipe assembly; a lifting pushing mechanism is connected above the sucker material taking mechanism, the sucker material taking assembly comprises movable rods corresponding to the number of the air pipes and vacuum suckers corresponding to the number of the movable rods, the interior of each vacuum sucker is of a hollow structure, and a vacuum generator is connected with the movable rods through the air pipes; this lift pushing mechanism is equipped with lift cylinder and promotion coupling assembling, and the piston rod of lift cylinder links to each other through the vacuum chuck that promotes coupling assembling and sucking disc feeding agencies, and lift cylinder and solenoid valve link to each other. When radiator products on a conveying workbench are conveyed to the position below a sucker taking mechanism, the radiator products are sensed through a photoelectric emitter, the photoelectric emitter transmits signals to a PLC (programmable logic controller) through a signal line, the PLC receives the signals of the photoelectric emitter, the PLC controls an electromagnetic valve to be started, when the electromagnetic valve is started, a piston rod of a lifting cylinder can be controlled by the electromagnetic valve to stretch, the sucker taking mechanism is driven to descend to a glue film position at the front end of the radiator products, gas of a gas source flows through a gas source distributor through a gas supply pipe, the gas source distributor distributes the gas to a vacuum generating assembly, the vacuum generating assembly utilizes the gas of the gas source to generate negative pressure to extract air in the sucker taking assembly, sufficient suction force is generated between the sucker taking assembly and the glue film at the front end of the radiator products, and the sucker taking assembly is enabled to suck the glue film at the front end of the radiator products. The utility model realizes the automatic adsorption of the adhesive film at the front end of the radiator product by using the PLC, the solenoid valve, the lifting cylinder and the vacuum generation assembly, the whole process does not need manual operation, the automation degree is high, the production efficiency is improved, and the labor cost is reduced; additionally, the utility model discloses a vacuum chuck replaces big chuck, and the vacuum chuck area ratio is smaller, reduces the waste of glued membrane, reduces the cost of material, also can prevent to cause the damage to the glued membrane simultaneously, the utility model discloses an extraction element can the direct mount structural at original absorption, can not increase any burden to the vacuum plastic uptake machine.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

Fig. 1 is a schematic structural view of a suction device used in a vacuum blister packaging machine according to the present invention;

fig. 2 is a schematic diagram of the connection between the sucker material taking mechanism and the vacuum generating assembly and the pushing connection assembly;

fig. 3 is a side view of the vacuum generating assembly of the present invention connected to a suction cup take off mechanism;

fig. 4 is a schematic view of the sucking disc material taking assembly of the present invention for absorbing the adhesive film;

fig. 5 is an electrical schematic diagram of the electromagnetic valve of the present invention electrically connected to the lifting cylinder and the PLC controller.

In the figure, a conveying workbench 1, a glue film 2, a radiator product 3, a pneumatic control mechanism 4, an electromagnetic valve 41, a gas source 42, a gas supply pipe 43, a photoelectric emitter 44, a signal line 45, a PLC controller 46, a switch 47, a vacuum adsorption mechanism 5, a gas source distributor 51, a vacuum generation assembly 52, a connecting pipe assembly 53, a suction cup material taking mechanism 6, a suction cup material taking assembly 61, a movable rod 611, a vacuum suction cup 612, a movable sleeve 613, a bottom plate 614, a gas pipe assembly 62, a lifting pushing mechanism 7, a lifting cylinder 71, a piston rod 711, a pushing connecting assembly 72, a push plate 721 and a linkage 722.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, the embodiment of the utility model provides an absorbing device that is arranged in vacuum plastic uptake packagine machine to absorb radiator product 3 is provided, including the absorbing device who is used for absorbing radiator product 3, absorbing device's below is fixed with transport table 1, and transport table 1 will be packed radiator product 3 that has glued membrane 2 and send to the absorbing device below. The utility model discloses a suction device comprises a pneumatic control mechanism 4, a vacuum adsorption mechanism 5 and a sucker material taking mechanism 6, wherein the pneumatic control mechanism 4 is arranged between the vacuum adsorption mechanism 5 and the sucker material taking mechanism 6, and the vacuum adsorption mechanism 5 is arranged at one side of the sucker material taking mechanism 6 and is communicated with the sucker material taking mechanism 6; the pneumatic control mechanism 4 comprises an electromagnetic valve 41 and an air source 42, wherein the air source 42 is connected with an air inlet of the electromagnetic valve 41; the vacuum adsorption mechanism 5 comprises an air source distributor 51, a vacuum generating assembly 52 and a connecting pipe assembly 53, one end of the connecting pipe assembly 53 is connected with the vacuum generating assembly 52, the other end of the connecting pipe assembly 53 is connected with the air source distributor 51, the air source distributor 51 is connected with the vacuum generating assembly 52 through the connecting pipe assembly 53, an air outlet of the electromagnetic valve 41 is connected with an air supply pipe 43, the other end of the air supply pipe 43 is connected with the air source distributor 51, and the electromagnetic valve 41 is communicated with the air source distributor 51 through the air supply pipe 43; the sucker taking mechanism 6 comprises a sucker taking assembly 61 and an air pipe assembly 62, one end of the air pipe assembly 62 is connected with one side of the sucker taking assembly 61, the other end of the air pipe assembly 62 is connected with the vacuum generating assembly 52, and the vacuum generating assembly 52 is communicated with the sucker taking assembly 61 through the air pipe assembly 62; still be connected with lift pushing mechanism 7 in sucking disc feeding agencies 6's top, lift pushing mechanism 7 includes lift cylinder 71 and promotion coupling assembling 72, and lift cylinder 71's piston rod 711 links to each other with promotion coupling assembling 72, and promotion coupling assembling 72 links to each other with sucking disc feeding agencies 6's top, and lift cylinder 71 links to each other with solenoid valve 41. When specifically realizing, the utility model discloses a pneumatic control mechanism 4 still includes photoelectric emitter 44, signal line 45, PLC controller 46, photoelectric emitter 44 is fixed on conveying table 1 and is located sucking disc feeding agencies 6 below, the one end of signal line 45 links to each other with photoelectric emitter 44, the other end of signal line 45 is connected with PLC controller 46, PLC controller 46 and solenoid valve 41 link to each other, this photoelectric emitter 44 can adopt photoelectric sensor, when conveying the sucking disc feeding agencies 6 below to radiator product 3 on the conveying table 1, photoelectric emitter 44 senses radiator product 3, photoelectric emitter 44 passes through signal line 45 with signal transmission for PLC controller 46, after PLC controller 46 received the signal that photoelectric emitter 44 took place, PLC controller 46 can control solenoid valve 41 and start. When the electromagnetic valve 41 is started, the electromagnetic valve 41 controls the piston rod 711 of the lifting cylinder 71 to stretch and retract, so as to drive the suction cup material taking mechanism 6 to descend to the position of the adhesive film 2 at the front end of the radiator product 3, the gas of the gas source 42 flows through the gas source distributor 51 through the gas supply pipe 43, the gas is distributed to the vacuum generation assembly 52 by the gas source distributor 51, the gas utilized by the vacuum generation assembly 52 generates negative pressure to draw air in the suction cup material taking assembly 61, so that sufficient suction force is generated between the suction cup material taking assembly 61 and the adhesive film 2 at the front end of the radiator product 3, and the suction cup material taking assembly 61 sucks the adhesive film 2 at the front end of the radiator product 3.

The utility model discloses a vacuum generation subassembly 52 is provided with a plurality of mutually independent vacuum generator, during concrete implementation, the utility model discloses a vacuum generation subassembly 52 is provided with eight vacuum generator, this connecting pipe subassembly 53 is equipped with eight connecting pipes, be equipped with eight and vacuum generator assorted exports on air supply distributor 51, the one end of every connecting pipe corresponds and connects a vacuum generator, the other end of every connecting pipe corresponds an export of connecting air supply distributor 51, realize the intercommunication between air supply distributor 51 and the vacuum generator through the connecting pipe, make things convenient for the gas flow in the air supply pipe 43 to shunt to every vacuum generator through air supply distributor 51, the utility model discloses the air supply distributor 51 that adopts with eight vacuum generator between be the matching of an income, such air supply distributor 51 can guarantee that the gas of shunting to every vacuum generator is even, and then ensure that the adsorption affinity that every vacuum chuck 612 produces is even.

The embodiment of the utility model provides a when specifically realizing, this trachea subassembly 62 is provided with eight tracheas, and this sucking disc gets material subassembly 61 include with eight movable rods 611 and eight vacuum chuck 612, and a vacuum chuck 612 is connected in the lower extreme correspondence of each movable rod 611, sets up vacuum chuck 612's inside into hollow structure, corresponds the upper end of connecting a movable rod 611 with every tracheal one end, and every tracheal other end corresponds connects a vacuum generator, the utility model discloses a vacuum generator passes through the trachea and links to each other with movable rod 611 to vacuum generator drive movable rod 611 stretches out and draws out the inside air of vacuum chuck 612, thereby makes and produces sufficient adsorption affinity and hold the glued membrane 2 of radiator product 3 front end between glued membrane 2 of vacuum chuck 612 and radiator product 3 front end. In a preferred embodiment of the present invention, a joint may be fixed to the upper end of the movable rod 611, and the movable rod 611 is connected to the other end of the air tube through the joint. The utility model discloses a sucking disc is got material subassembly 61 and is still including bottom plate 614, is fixed with movable sleeve 613 outside the middle part of movable rod 611, and movable rod 611 passes bottom plate 614 and is fixed mutually with bottom plate 614 through movable sleeve 613 in its middle part, and wherein, vacuum chuck 612 passes through movable rod 611 to be fixed in bottom plate 614 below.

The utility model discloses a promotion coupling assembling 72 includes push pedal 721 and trace 722, wherein, the upper end of push pedal 721 links to each other with lift cylinder 71's piston rod 711, be connected the one end of trace 722 with the lower extreme of push pedal 721, the other end of trace 722 is connected with the bottom plate 614 that the material subassembly 61 was got to the sucking disc, piston rod 711 through lift cylinder 71 stretches out and draws back and can drive push pedal 721 and go up and down, push pedal 721 can drive the bottom plate 614 of trace 722 and the trace 722 other end at the lift in-process and go up and down, the convenience descends the glued membrane 2 department of radiator product 3 front ends with vacuum chuck 612.

As shown in fig. 4, the operation principle of the suction device of the present invention is specifically as follows:

firstly, after all radiator products 3 are subjected to vacuum packaging and the adhesive films 2 are molded, the conveying workbench 1 conveys the radiator products 3 packaged with the adhesive films 2 to the lower part of the suction device;

then, when the photo emitter 44 senses the radiator product 3, the photo emitter 44 transmits a signal to the PLC controller 46 through the signal line 45, and after the PLC controller 46 receives the signal generated by the photo emitter 44, the PLC controller 46 controls the solenoid valve 41 to start;

subsequently, after the electromagnetic valve 41 is started, the electromagnetic valve 41 controls the piston rod 711 of the lifting cylinder 71 to extend and retract, and drives the suction cup material taking mechanism 6 to descend to the position of the adhesive film 2 at the front end of the radiator product 3;

then, the air of the air source 42 flows through the air source distributor 51 through the air supply pipe 43 connected to the electromagnetic valve 41, and is distributed to the vacuum generating assembly 52 through the air source distributor 51, and the air in the suction cup material taking assembly 61 is extracted by the vacuum generating assembly 52 by using the air to generate negative pressure, so that sufficient suction force is generated between the suction cup material taking assembly 61 and the adhesive film 2 at the front end of the radiator product 3, and the adhesive film 2 at the front end of the radiator product 3 is sucked by the suction cup material taking assembly 61;

finally, after the suction device adsorbs the adhesive film 2 at the front end of the radiator product 3, the radiator product 3 is far away from the photoelectric emitter 44, and as the radiator product 3 is far away from the photoelectric emitter 44, and the signal sensed by the photoelectric emitter 44 disappears, the PLC controller 46 controls the electromagnetic valve 41 to be closed, and the piston rod 711 of the lifting cylinder 71 extends upwards; when the next heat sink product 3 is sensed by the photo-emitter 44, the previous operation continues, cycling on.

As shown in fig. 5, the specific air path control between the solenoid valve 41 and the PLC controller 46 and between the lifting cylinder 71 of the present invention is as follows:

the lifting cylinder 71 is electrically connected with the electromagnetic valve 41, the electromagnetic valve 41 is electrically connected with the self-locking switch 47 and the PLC 46, when the PLC 46 controls the switch 47 to be powered on and started, the electromagnetic valve 41 is powered on, the air path of the electromagnetic valve 41 is conducted from P → A when the power is off, the piston rod 711 of the lifting cylinder 71 is pushed upwards to the top by high-pressure air flow, exhaust is conducted from B → S, after the electromagnetic valve 41 is powered on, the valve is turned by internal electromagnetic force, air is introduced from P → B instead, the lifting cylinder 71 moves downwards, and the punching of the lifting cylinder 711 is completed; after punching, the waste gas is discharged from A → R, and the lifting cylinder 71 controls the piston rod 711 to extend and retract downwards; on the contrary, when the PLC controller 46 turns off the switch 47, the solenoid valve 41 is de-energized, the lifting cylinder 71 is reset, and the piston rod 711 of the lifting cylinder 71 extends and retracts upward.

Compared with the prior art, the technical scheme disclosed by the embodiment has the following beneficial effects:

in the above embodiment, the utility model discloses an absorbing device utilizes mutually supporting between PLC controller 46, solenoid valve 41, lift cylinder 71, air distributor 51, the vacuum generator, realizes that the sucking disc gets glued membrane 2 of the automatic absorption radiator product 3 front end of material subassembly 61. The whole process does not need manual operation, the automation degree is high, the production efficiency is improved, and the labor cost input is reduced; additionally, the utility model discloses a vacuum chuck 612 replaces big chuck, and vacuum chuck 612 area is smaller, reduces glued membrane 2's waste, reduces the cost of material, also can prevent to cause the damage to glued membrane 2 simultaneously, solves the current problem of absorbing the structure and causing damage, the extravagant commodity circulation of operation glued membrane 2 to glued membrane 2 easily. In addition, the utility model discloses a suction means can the direct mount structural at original absorption, can not increase any burden to the vacuum plastic uptake machine.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, so that the present invention is not limited by the scope of the present invention.

Claims (6)

1. The utility model provides an absorbing device for adsorbing radiator product glued membrane which characterized in that: the device comprises an absorption device for absorbing the radiator product, wherein a conveying workbench is fixed below the absorption device, and the conveying workbench conveys the radiator product packaged with the adhesive film to the lower part of the absorption device;

the suction device comprises a pneumatic control mechanism, a vacuum adsorption mechanism and a sucker taking mechanism, wherein the pneumatic control mechanism is arranged between the vacuum adsorption mechanism and the sucker taking mechanism, and the vacuum adsorption mechanism is arranged on one side of the sucker taking mechanism and communicated with the sucker taking mechanism;

the pneumatic control mechanism comprises an electromagnetic valve and an air source, and the air source is connected with an air inlet of the electromagnetic valve;

the vacuum adsorption mechanism comprises an air source distributor, a vacuum generation assembly and a connecting pipe assembly, one end of the connecting pipe assembly is connected with the vacuum generation assembly, the other end of the connecting pipe assembly is connected with the air source distributor, the air source distributor is connected with the vacuum generation assembly through the connecting pipe assembly, an air outlet of the electromagnetic valve is connected with an air supply pipe, the other end of the air supply pipe is connected with the air source distributor, and the electromagnetic valve is communicated with the air source distributor through the air supply pipe;

the sucker material taking mechanism comprises a sucker material taking assembly and an air pipe assembly, one end of the air pipe assembly is connected with one side of the sucker material taking assembly, the other end of the air pipe assembly is connected with a vacuum generating assembly, and the vacuum generating assembly is communicated with the sucker material taking assembly through the air pipe assembly;

the utility model discloses a radiator, including sucking disc feeding agencies, solenoid valve control lift cylinder, lifting cylinder, promotion coupling assembling, lifting cylinder and solenoid valve, sucking disc feeding agencies's top still is connected with lift pushing mechanism, lift pushing mechanism includes lift cylinder and promotion coupling assembling, the piston rod of lift cylinder links to each other with promotion coupling assembling, promotion coupling assembling and sucking disc feeding agencies's top links to each other, lift cylinder and solenoid valve link to each other, the piston rod of solenoid valve control lift cylinder stretches out and draws back in order to drive the glued membrane position that sucking disc feeding agencies dropped to radiator product front end.

2. The suction device for adsorbing the adhesive film of the heat sink product as claimed in claim 1, wherein: pneumatic control mechanism includes photoelectric emitter, signal line, PLC controller, photoelectric emitter fixes on conveying table and is located sucking disc feeding agencies below, the one end of signal line links to each other with photoelectric emitter, the other end of signal line is connected with the PLC controller, PLC controller and solenoid valve link to each other, when the sucking disc feeding agencies below is carried to radiator product on the conveying table, photoelectric emitter senses radiator product, photoelectric emitter passes through the signal line and gives PLC controller with signal transmission, after PLC controller received photoelectric emitter's signal, PLC controller control solenoid valve starts.

3. The suction device for adsorbing the adhesive film of the heat sink product as claimed in claim 1, wherein: the vacuum generation assembly is provided with a plurality of mutually independent vacuum generators, the connecting pipe assembly is provided with connecting pipes corresponding to the number of the vacuum generators, the air source distributor is provided with outlets corresponding to the number of the vacuum generators, one end of each connecting pipe is correspondingly connected with one vacuum generator, and the other end of each connecting pipe is correspondingly connected with one outlet of the air source distributor so as to realize the communication between the air source distributor and each vacuum generator.

4. The suction device for adsorbing the adhesive film of the heat sink product as claimed in claim 1, wherein: the trachea subassembly includes the trachea corresponding with vacuum generator quantity, the sucking disc is got the material subassembly and is included the movable rod corresponding with trachea quantity and the vacuum chuck corresponding with movable rod quantity, and a vacuum chuck is connected in the lower extreme correspondence of each movable rod, vacuum chuck's inside is hollow structure, and the upper end of a movable rod is connected in the correspondence of every tracheal one end, and a vacuum generator is connected in the correspondence of every tracheal other end, vacuum generator passes through the trachea and links to each other with the movable rod.

5. The suction device for adsorbing the adhesive film of the heat sink product as claimed in claim 4, wherein: the material taking assembly with the sucker comprises a bottom plate, a movable sleeve is fixed on the outer side of the middle of a movable rod, the movable rod penetrates through the bottom plate and is connected with the bottom plate through the movable sleeve in the middle of the movable rod, and the vacuum sucker is fixed below the bottom plate through the movable rod.

6. The suction device for absorbing the adhesive film of the heat sink product as claimed in claim 1, wherein: the promotion coupling assembling includes push pedal and trace, the upper end of push pedal links to each other with the piston rod of lift cylinder, the one end of trace is connected with the lower extreme of push pedal, the other end of trace is connected with the bottom plate that the material subassembly was got to the sucking disc, the piston rod of lift cylinder is stretched out and drawn back and is gone up and down in order to drive the push pedal, the push pedal lift process can drive the bottom plate of trace and the trace other end and go up and down.

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