CN213230537U - Polaroid separating device and feeding equipment - Google Patents

Abstract

The utility model discloses a polaroid separator and charging equipment, polaroid separator include storage portion and gas blowing portion, and storage portion is used for placing the polaroid, and gas blowing portion includes first gas blowing head and second gas blowing head, and first gas blowing head and second gas blowing head set up in the opposite both sides of polaroid, and first gas blowing head has a plurality of gas blowing holes, and second gas blowing head can blow to the preset height of polaroid stockpile; the feeding equipment comprises the polaroid separating device and the material taking head. The utility model discloses in, first blowing head and second blowing head blow the air current in both sides to the polaroid simultaneously, can effectively reduce adhesion and electrostatic absorption between the polaroid to through the reposition of redundant personnel of first blowing head to the air current, avoid the polaroid to shift, and make the upper polaroid be the suspended state, the second blowing head can make and be located the polaroid alternate segregation on top, supplementary loading attachment gets the material, guarantees the monolithic material loading of polaroid, improves the machining precision.

Description

Polaroid separating device and feeding equipment

Technical Field

The utility model belongs to the technical field of the polaroid processing technique and specifically relates to a polaroid separator and charging equipment are related to.

Background

Processing to the polaroid of sola usually in traditional polaroid course of working, in the traditional production line, many folds of polaroid after the material loading are in the same place, because the monolithic thickness of polaroid is thinner, and the surface is very smooth, produce electrostatic absorption easily between the adjacent polaroid, in addition, the polaroid is formed by the bonding of multi-disc film, there are circumstances such as excessive glue in the edge of polaroid, cause mutual adhesion between the polaroid, multi-disc polaroid adsorbs when leading to the material loading together, influence machining precision and progress.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a polaroid separator can reduce the absorption degree between the polaroid, improves the machining precision.

The utility model discloses still provide a charging equipment who contains above-mentioned polaroid separator.

In a first aspect, an embodiment of the present invention provides a polarizer separation device, including:

the storage part is used for placing a polaroid stack formed by laminating the polaroids;

the air blowing part comprises a first air blowing head and a second air blowing head, the first air blowing head and the second air blowing head are arranged on two sides of the polaroid, the first air blowing head is provided with a plurality of air blowing holes, and the second air blowing head can blow air at a preset height of the polaroid stack.

The embodiment of the utility model provides an in polaroid separator has following beneficial effect at least:

the embodiment of the utility model provides an in, first blowing head and second blow the head and blow the air current in blowing the lateral polaroid simultaneously, make and form the convection current between the polaroid, adhesion and electrostatic absorption between the polaroid can be effectively reduced, and through the first overhead a plurality of holes of blowing to the reposition of redundant personnel of air current, reduce the impact that the air current blowby directly blows and lead to the fact the polaroid, avoid the polaroid aversion, and make the multilayer polaroid on polaroid material pile upper portion be the suspended state, the second blows the head and can make the polaroid alternate segregation that is located top, supplementary loading attachment gets the material, guarantee the monolithic material loading of polaroid, the machining precision is improved.

According to the utility model discloses a polaroid separator of other embodiments, first blowing head with the second blowing head is located the both sides of the longer limit of polaroid windrow.

According to the utility model discloses a polaroid separator of other embodiments, storage portion includes the storage board of two oppositions, two be used for placing between the storage board the polaroid stockpile.

According to the utility model discloses a polaroid separator of other embodiments, it is a plurality of the gas hole is arranged along vertical direction.

According to the utility model discloses a polaroid separator of other embodiments, the portion of blowing still includes two support frames, two the support frame is used for the installation respectively first blowing head the second blowing head.

According to the utility model discloses a polaroid separator of other embodiments, the portion of blowing still includes the sensor, the sensor is used for detecting the height and the output signal of polaroid, the support frame is received the signal can be adjusted the height of first blowing head, second blowing head.

According to the utility model discloses a polaroid separator of other embodiments, the portion of blowing still includes air blowing pipeline and gas pitcher, the one end of air blowing pipeline with the gas pitcher intercommunication, the other end intercommunication of air blowing pipeline to first air blowing head the second air blowing head.

In a second aspect, an embodiment of the present invention provides a feeding apparatus, including:

the polarizer separating device described above;

and the material taking head is placed above the material storage part and used for picking up the polaroid.

The embodiment of the utility model provides an in charging equipment have following beneficial effect at least:

the utility model discloses in, through the separating action of polaroid separator to the polaroid, be convenient for get the material head and get the picking up of polaroid, guarantee to get the material head monolithic and get the material, improve the material loading equipment get the material precision.

According to the utility model discloses a charging equipment of other embodiments, it includes the suction nozzle to get the stub bar, the tip of suction nozzle can form the negative pressure and adsorb the polaroid.

According to the utility model discloses a charging equipment of other embodiments, get the stub bar still include two symmetries set up in the roller of suction nozzle both sides, the roller highly be less than the height of suction nozzle.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a polarizer separation device according to the present invention;

fig. 2 is a schematic structural view of the polarizer separation device according to another direction of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the feeding apparatus of the present invention.

Description of reference numerals:

a storing portion 100, a bed 110, a storing plate 120;

the air blowing device comprises an air blowing part 200, a first air blowing head 210, an air blowing hole 211, a second air blowing head 220, a supporting frame 230, an air blowing pipeline 240 and an air tank 250;

a polarizer 300;

a material taking head 400, a suction nozzle 410 and a roller 420;

an air duct 500.

Detailed Description

The conception and the resulting technical effects of the present invention will be described clearly and completely with reference to the following embodiments, so that the objects, features and effects of the present invention can be fully understood. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, if an orientation description is referred to, for example, the directions or positional relationships indicated by "upper", "lower", "front", "rear", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, only for convenience of description and simplification of description, but not for indicating or implying that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the embodiments of the present invention, if a feature is referred to as being "disposed", "fixed", "connected", or "mounted" on another feature, it can be directly disposed, fixed, or connected to the other feature or indirectly disposed, fixed, connected, or mounted on the other feature. In the description of the embodiments of the present invention, if "a plurality" is referred to, it means one or more, if "a plurality" is referred to, it means two or more, if "greater than", "less than" or "more than" is referred to, it is understood that the number is not included, and if "more than", "less than" or "within" is referred to, it is understood that the number is included. If reference is made to "first" or "second", this should be understood to distinguish between features and not to indicate or imply relative importance or to implicitly indicate the number of indicated features or to implicitly indicate the precedence of the indicated features.

Referring to fig. 1 and 2, the polarizer 300 separation apparatus in this embodiment includes a storage portion 100 and an air blowing portion 200, the storage portion 100 is used for storing and placing the polarizers 300, the polarizers 300 are generally placed in the storage portion 100 in a stacked state to form a polarizer stack, and the air blowing portion 200 is used for blowing air to the polarizers 300, so that the polarizers 300 are separated under the pushing of the air flow. Specifically, the air blowing part 200 includes a first air blowing head 210 and a second air blowing head 220, and the first air blowing head 210 and the second air blowing head 220 are disposed at two sides of the polarizer stack to blow air to two sides of the polarizer 300 at the same time, so that the two sides of the polarizer 300 are subjected to air flow at the same time, thereby facilitating separation between the polarizers 300; in this embodiment, the first blowing head 210 has a plurality of blowing holes 211, and the airflow in the first blowing head 210 is divided into a plurality of strands after passing through the blowing holes 211, so as to disperse the airflow blown out by the first blowing head 210, reduce the impact of the airflow on the polarizer 300, make the polarizer 300 in a semi-suspension state, and optimize the separation effect between the polarizers 300; in addition, in this embodiment, the second blowing head 220 aligns to the upper portion of the polarizer 300, and the polarizers 300 on the upper portion are separated from each other under the cooperation of the air flow of the first blowing head 210, so that the feeding device can conveniently take the polarizer 300 on the top, and the single polarizer 300 can be taken.

In this embodiment, first blowing head 210 and second blowing head 220 blow the air current in both sides to polaroid 300 simultaneously, make form the convection current between the polaroid 300, adhesion and electrostatic absorption between the polaroid 300 can be effectively reduced, and through the reposition of redundant personnel of a plurality of gas holes 211 to the air current on first blowing head 210, reduce the impact that the air current blowd directly caused to polaroid 300, avoid polaroid 300 to shift, and make polaroid 300 on polaroid pile upper strata be the suspended state, second blowing head 220 can make the polaroid 300 that is located uppermost separate from each other, supplementary loading attachment gets the material, guarantee the monolithic material loading of polaroid 300, and the machining precision is improved.

It should be noted that the first blowing head 210 may be configured as a wind brush, and the blowing holes 211 on the first blowing head 210 may be distributed in multiple rows and multiple columns, so that the airflow blown by the first blowing head 210 is dispersed in the longitudinal direction and the transverse direction, and the range of the airflow blown by the dispersed airflow to the polarizer 300 is wider, so that the polarizer 300 can receive the airflow in the longitudinal direction and the transverse direction, and the separation of the polarizer 300 is facilitated; the air blowing holes 211 in this embodiment are arranged in the vertical direction, and can blow air flows to the polarizer stack at different heights. The second blowing head 220 may be an air gun, the air flow blown by the air gun is intensively blown to the upper polarizer 300, and under the assistance of the opposite air flow blown by the first blowing head 210, the polarizers 300 on the upper layer are ensured to be in a mutually separated state, so as to ensure the one-side feeding of the polarizers 300.

In addition, in the actual production, the polarizer 300 is generally rectangular, so that the polarizer 300 has long sides and short sides, in this embodiment, the first blowing head 210 and the second blowing head 220 are disposed at two sides of the long sides (left and right direction in fig. 1) of the polarizer stack, that is, the first blowing head 210 and the second blowing head 220 blow air to the short sides of the polarizer 300, compared with blowing air to the long sides, the plane where the short sides of the polarizer 300 are located can be all located in the blowing range of the first blowing head 210 and the second blowing head 220, and the air flows received by different areas of the polarizer 300 are uniform, so that the polarizer 300 is prevented from having areas where the air flows cannot reach, and separation between the polarizers 300 is facilitated.

In this embodiment, the storage portion 100 further includes a base 110 and two opposite storage plates 120, the two storage plates 120 are installed on the base 110, a space for placing the polarizer 300 is formed between the two storage plates 120, the polarizer 300 is stacked between the storage plates 120, and the storage plates 120 limit the polarizer 300, so as to prevent the polarizer 300 from shifting or falling off at the position under the action of the air flow. It should be noted that the top height of the polarizer 300 is lower than the top height of the storage plate 120, so as to ensure that the storage plate 120 limits the polarizer 300 in real time; in addition, in this embodiment, the storage plate 120 is located on one side of the long side of the polarizer 300, and on the premise that the first blowing head 210 and the second blowing head 220 blow air to the short side of the polarizer 300, the storage plate 120 abuts against the long side of the polarizer 300, so that the limiting effect is better; the storage plate 120 is detachably connected to the base 110, a plurality of mounting holes for connecting to the base 110 are formed in the base 110, and the storage plate 120 is connected to different mounting holes, so that the distance between the storage plates 120 can be adjusted, the storage plate 120 can limit the polarizers 300 with different sizes, the connection between the storage plate 120 and the base 110 is not limited to the above connection form, for example, the storage plate 120 can be slidably connected to the base 110, and the storage plate 120 can slide along the base 110 to adjust the position of the storage plate 120.

In addition, in this embodiment, the air blowing unit 200 further includes two supporting frames 230, the two supporting frames 230 are installed at two sides of the polarizer 300, and the two supporting frames 230 are respectively used for installing the first air blowing head 210 and the second air blowing head 220, so as to fix the first air blowing head 210 and the second air blowing head 220, and ensure that the first air blowing head 210 and the second air blowing head 220 stably blow air to the polarizer 300. The supporting frame 230 is installed on the base 110, and the bottom of the supporting frame is connected to the base 110, in other embodiments, the supporting frame 230 may be set to be a retractable structure, such as a retractable rod, and the height of the first blowing head 210 and the height of the second blowing head 220 may be changed by adjusting the retractable degree of the supporting frame 230, so that the first blowing head 210 and the second blowing head 220 may adjust the positions along with the change of the stacking height of the polarizer 300, and each region of the polarizer 300 is continuously blown stably by the first blowing head 210 and the second blowing head 220. In this embodiment, the upper end of the supporting frame 230 is used for installing the first blowing head 210 and the second blowing head 220, the upper end of the supporting frame 230 may be connected to a driving part such as an air cylinder and an electric cylinder, the driving part may drive the upper end of the supporting frame 230 to move, the blowing part 200 is further provided with a sensor, the sensor may detect the height of the polarizer 300, output a detection signal and transmit the detection signal to the driving part, and the driving part drives the upper end of the supporting frame 230 to perform position adjustment according to the received information, so as to change the positions of the first blowing head 210 and the second blowing head 220; it should be noted that the sensor may adopt a position sensor such as a photoelectric sensor or an ultrasonic sensor, and signals may be transmitted between the driving component and the sensor through routine program software such as a PLC, so as to realize real-time adjustment of the positions of the first blowing head 210 and the second blowing head 220.

The air blowing part 200 further comprises an air blowing pipeline 240 and an air tank 250, air is contained in the air tank 250 and provides air sources for the first air blowing head 210 and the second air blowing head 220, one end of the air blowing pipeline 240 is communicated with the air tank 250, the other end of the air blowing pipeline 240 is provided with two branches which are respectively communicated with the first air blowing head 210 and the second air blowing head 220, the air blowing pipeline 240 is further provided with a valve, the valve can select an electromagnetic valve and the like and is used for adjusting the on-off state of the air blowing pipeline 240, and when the air blowing pipeline 240 is opened, the air tank 250 can supply air to the first air blowing head 210 and the second air blowing head 220; the first blowing head 210 and the second blowing head 220 use the same air source and the same air blowing pipeline 240 for air supply, so that the air supply amount and the blown air strength of the first blowing head 210 and the second blowing head 220 can be ensured to be the same, the air flows on two sides of the polarizer 300 are kept balanced, the polarizer 300 is prevented from moving, and the separation effect is optimized.

Referring to fig. 3, the utility model provides a feeding device, including foretell polaroid separator, still including getting stub bar 400, get stub bar 400 and place in the top of storage portion 100 for pick up the polaroid 300 of piling up in the top one by one. Through the separating action of the polaroid separating device on the polaroid 300, the material taking head 400 can conveniently pick up the polaroid 300, the material taking of single pieces of the material taking head 400 is ensured, and the material taking precision of the feeding equipment is improved.

In addition, the material taking head 400 in this embodiment includes the suction nozzle 410, the tip of the suction nozzle 410 can form negative pressure, and when the suction nozzle 410 is close to the polarizer 300 on the top, the polarizer 300 can be adsorbed by the suction nozzle 410, so as to achieve the effect of the suction nozzle 410 on picking up the polarizer 300, the material taking process is fast, compared with a material taking jig such as a clamping jaw, the material taking jig does not damage the polarizer 300, and the material taking efficiency is high. The suction nozzle 410 in this embodiment is connected with an air duct 500, two ends of the air duct 500 are respectively connected with the suction nozzle 410 and a vacuum extractor (not shown), the vacuum extractor can be a conventional negative pressure generator, and the vacuum extractor generates negative pressure at the suction nozzle 410 through the air duct 500; the air duct 500 is further provided with a valve, which can select elements for controlling the on-off state such as a solenoid valve, and when the valve is opened, the vacuum pumping device is communicated with the suction nozzle 410, and a negative pressure can be generated at the suction nozzle 410.

In addition, in the present embodiment, two rollers 420 are symmetrically disposed on both sides of the suction nozzle 410, and the heights of the two rollers 420 are lower than the height of the suction nozzle 410; when the suction nozzle 410 is close to the top polarizer 300, the uppermost polarizer 300 is sucked by the suction nozzle 410, the central part of the polarizer 300 rises under the suction action of the suction nozzle 410, and the two side areas of the polarizer 300 are bent relative to the central area under the supporting action of the roller 420, so that the top polarizer 300 tilts, the distance between the top polarizer 300 and the adjacent polarizer 300 is increased, the adjacent polarizers 300 are completely separated, the single sheet taking of the material taking head 400 is ensured, and the roller 420 can rotate, so that the polarizer 300 can be bent along with the roller 420 of the roller 420 in the suction process, and the polarizer 300 cannot be damaged.

It should be noted that the material taking head 400 may be connected to a moving module or a manipulator, and the material taking head 400 may be driven by the moving module or the manipulator to lift, rotate or translate, so that the material taking head 400 may complete the picking and transferring actions of the polarizer 300, and transfer the polarizer 300 to a corresponding station, thereby completing the loading of the polarizer 300.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. Furthermore, the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

Claims (10)

1. A polarizer separation device, comprising:

the storage part is used for placing a polaroid stack formed by laminating the polaroids;

the air blowing part comprises a first air blowing head and a second air blowing head, the first air blowing head and the second air blowing head are arranged on two sides of the polaroid, the first air blowing head is provided with a plurality of air blowing holes, and the second air blowing head can blow air at a preset height of the polaroid stack.

2. The polarizer separating device of claim 1, wherein the first blowing head and the second blowing head are located on both sides of the longer side of the polarizer stack.

3. The polarizer separation device of claim 1, wherein the storage portion comprises two opposite storage plates, and the two storage plates are used for placing the polarizer stack therebetween.

4. The polarizer separating device of claim 1, wherein the plurality of air blowing holes are arranged in a vertical direction.

5. The polarizer separation device of any of claims 1 to 4, wherein the air blowing part further comprises two support frames, and the two support frames are used for mounting the first air blowing head and the second air blowing head respectively.

6. The polarizer separating device of claim 5, wherein the blowing unit further comprises a sensor for detecting the height of the polarizer and outputting a signal, and the support frame receives the signal and is capable of adjusting the height of the first blowing head and the second blowing head.

7. The polarizer separation device according to any one of claims 1 to 4, wherein the air blowing part further comprises an air blowing line and an air tank, one end of the air blowing line is communicated with the air tank, and the other end of the air blowing line is communicated to the first air blowing head and the second air blowing head.

8. Feeding equipment, its characterized in that includes:

a polarizer separation device according to any one of claims 1 to 7;

and the material taking head is placed above the material storage part and used for picking up the polaroid.

9. The loading apparatus according to claim 8, wherein the take-up head comprises a suction nozzle, and an end of the suction nozzle is capable of forming a negative pressure and adsorbing the polarizer.

10. The loading device as claimed in claim 9, wherein the material taking head further comprises two rollers symmetrically arranged at two sides of the suction nozzle, and the height of the rollers is lower than that of the suction nozzle.

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