CN210162892U9 - Directional bead planting device - Google Patents

Abstract

The utility model discloses a directional pearl device of planting, including frame, hopper, guide roller subassembly activity sets up in the frame, still including directional pearl roller, drive arrangement of planting, directional pearl roller rotation of planting set up in the frame and pass through the drive arrangement drive, directional pearl roller inside of planting is provided with the hollow chamber that holds just directional pearl roller surface arrangement of planting is equipped with the pearl micropore, plant the pearl micropore with it is linked together to hold the chamber, the hopper with it is linked together and to hold the chamber pay-off. This directional pearl device of planting can implant the base film with the microballon on directional, the ration for microballon on the base film can evenly distributed, thereby reduced the cost when planting the pearl, can utilize the law of directional range in addition, let the user arrange the microballon according to respective demand, thereby satisfy different users' the difference and plant the pearl demand.

Description

Directional bead planting device

Technical Field

The utility model relates to a plant the pearl device, especially relate to a directional pearl device of planting.

Background

The bead planting device is a device applied to the field of production of film materials with microbeads, can implant the microbeads into the base film, and can achieve the required effect by setting the microbeads through the types and sizes of the microbeads. Therefore, the bead-planting effect of the bead-planting device plays a critical role in the performance of the microbead-carrying film material, and with the development of the technology, the requirements of people on the bead-planting device are higher and higher.

The bead planting device in the market generally introduces the microballon into the storage bucket to spill the microballon through the storage bucket and fall to the base film surface that removes, but this kind of bead planting device is when implanting the microballon, and the microballon implantation volume on the base film surface unit area can't accurate control, also can't guarantee the average distribution of microballon on the base film, consequently often need further shake off the surplus microballon of range upon range of on the base film through other device, has increased manufacturing cost, needs to make further improvement to this.

Disclosure of Invention

The utility model provides a new directional bead planting device aiming at the defects that the bead planting device in the prior art can not accurately control the implantation amount of the beads when implanting the beads and can not ensure the average distribution of the beads on the base film,

in order to solve the technical problem, the utility model discloses a following technical scheme realizes:

the utility model provides a directional pearl device of planting, includes frame, hopper, guide roller subassembly, the activity of guide roller subassembly sets up in the frame, still including directional pearl roller, drive arrangement of planting, directional pearl roller rotation of planting set up in the frame and pass through the drive arrangement drive, directional pearl roller inside of planting is provided with the hollow chamber that holds just directional pearl roller surface arrangement of planting pearl micropore, plant pearl micropore with it is linked together to hold the chamber, the hopper with hold the chamber be linked together and to hold the chamber pay-off.

Wherein the frame plays the bearing effect, can combine each part together organically, the hopper is used for placing the microballon, guide roller subassembly is used for guiding the base film, it is corresponding to make the base film plant the pearl roller with the orientation when planting the pearl, drive arrangement is used for driving the orientation and plants the pearl roller and rotate, and the orientation is planted the pearl roller and can be with the microballon of planting that the pearl roller surface was arranged through the orientation in the hopper at the rotation in-process and directional, implant on the base film quantitatively, make microballon on the base film can evenly distributed, thereby the cost when planting the pearl has been reduced, can utilize the law of directional range in addition, let the user arrange the microballon according to respective demand, thereby satisfy different users' different pearl demands of planting. The micro-beads can be selected from glass micro-beads, silicate micro-beads, metal micro-beads and the like, and can also be selected from other types of micro-beads according to the requirements of users.

Preferably, the directional bead planting device further comprises a feeding device, and the feeding device is connected with the rack and located in the accommodating cavity.

Material feeding unit can be planted the pearl roller in the orientation and rotate the in-process and plant the pearl roller and hold the microballon of intracavity in the orientation and push to make and get into from the hopper and hold the microballon in chamber and can move forward continuously, thereby further promote the homogeneity of finally implanting the microballon on the base film.

Preferably, the directional bead planting device further comprises a heating device, heat conduction oil is arranged in the feeding device, and the heating device is connected with the feeding device.

The conduction oil cooperatees with heating device, can heat material feeding unit to heat the microballon through material feeding unit, avoid planting mutual adhesion between the pearl in-process microballon, further promote the stability of planting the pearl in-process.

Preferably, in the above directional bead planting device, the feeding device is a spiral roller.

The spiral roller can guide and push the microbeads in the containing cavity well, and is more stable during use.

Preferably, the directional bead planting device further comprises a residual material guide groove, the directional bead planting roller is far away from one end of the hopper, a residual material opening is formed in one end of the hopper, and the residual material guide groove is connected with the residual material opening.

The clout mouth and clout guide way mutually support, can follow the intracavity with the microballon and derive for the microballon can be holding the intracavity unidirectional flow all the time, has further avoided the microballon to glue in holding the chamber, has promoted the stability when planting the pearl.

Preferably, in the directional bead planting device, a feeding channel is arranged at one end of the feeding device, which is close to the hopper, and the hopper is communicated with the accommodating cavity through the feeding channel.

The feed channel can guide the microballon in the hopper to holding the intracavity in an orderly manner to stability when further having promoted the planting pearl.

Preferably, in the above directional bead planting device, the bead planting micropores are conical holes whose pore diameter gradually increases along the axial surface direction of the directional bead planting roller.

The planting pearl micropore of above structure can better guide out the microballon from holding the intracavity, can avoid the microballon to pile up on planting the pearl micropore better, has further promoted the stability when planting the pearl.

Preferably, in the above directional bead planting device, the bead planting micropores are arranged in an array, a pattern or a character, a distance between every two adjacent bead planting micropores is 0.2mm-2mm, and a diameter of each bead planting micropore is 0.02mm-0.2 mm.

The bead planting micropores with the above space and diameter can enable the microbeads to be more uniformly implanted into the base film, and different characters, patterns and the like can be formed on the surface of the base film as required, so that the bead planting micropores can better adapt to the requirements of people.

Preferably, the directional bead planting device comprises a guide roller assembly, a transmission device and a sliding table, wherein the transmission device and the sliding table are respectively arranged on the rack, the transmission device is connected with the sliding table and drives the sliding table to move, and the guide roller assembly is rotatably connected to the sliding table.

Wherein the guide roller is used for guiding the base film for the base film can plant the pearl roller with the orientation when planting the pearl corresponding, and transmission is used for driving the slip table to remove, thereby makes the guide roller can remove as required, is convenient for the entering of base film and the adjustment of guide roller to the base film packing force.

Preferably, in the directional bead planting device, a valve is further disposed on the hopper.

The valve can adjust the entering amount of the microbeads, so that the stability of bead planting is further improved.

Drawings

FIG. 1 is a schematic structural view of a directional bead-planting device of the present invention;

FIG. 2 is an exploded view of a directional bead-planting device according to the present invention;

fig. 3 is a schematic structural view of the feeding device of the present invention;

fig. 4 is a schematic structural view of the directional bead-planting roller of the present invention.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings 1-4 and the detailed description, which are not intended to limit the invention:

examples 1

As shown in fig. 1, fig. 2, fig. 3, fig. 4, a directional pearl device of planting, including frame 1, hopper 6, guide roller subassembly 5, the activity of guide roller subassembly 5 sets up in frame 1, still including directional pearl roller 2, drive arrangement 8 of planting, directional pearl roller 2 of planting rotate set up in frame 1 is last and pass through drive arrangement 8 drives, directional pearl roller 2 of planting is inside to be provided with hollow holding chamber 21 just directional pearl roller 2 surface is arranged and is planted pearl micropore 22, plant pearl micropore 22 with hold chamber 21 and be linked together, hopper 6 with hold chamber 21 and be linked together and to hold chamber 21 pay-off.

When planting the pearl, plant pearl roller 2 with the orientation through guide roller subassembly 5 earlier and correspond with the base film, then open drive arrangement 8, it rotates to plant pearl roller 2 through drive arrangement 8 drive orientation, simultaneously hopper 6 can last the microballon of splendid attire toward the directional chamber 21 pay-off that holds of planting pearl roller 2, make the directional chamber 21 that holds of planting pearl roller 2 constantly fill into the microballon, and along with the directional continuous rotation of planting pearl roller 2, the microballon that holds chamber 21 will be quantitatively through planting on the directional pearl roller 2 the pearl micropore 22 drops to the base film, and can not be like current the pearl device of planting generally in a large number, fall out of order, thereby make the microballon on the base film can evenly distributed.

Preferably, the device further comprises a feeding device 7, and the feeding device 7 is connected with the frame 1 and is located in the accommodating cavity 21.

Preferably, the device also comprises a heating device 3, heat conducting oil is arranged in the feeding device 7, and the heating device 3 is connected with the feeding device 7.

Preferably, the feeding device 7 is a spiral roller.

Preferably, the device further comprises a residual material guide groove 4, wherein the directional bead planting roller 2 is far away from one end of the hopper 6, a residual material opening 23 is formed in the end, and the residual material guide groove 4 is connected with the residual material opening 23.

Preferably, a feeding channel 71 is arranged at one end of the feeding device 7 close to the hopper 6, and the hopper 6 is communicated with the accommodating cavity 21 through the feeding channel 71.

Preferably, the bead-planting micro-holes 22 are conical holes whose hole diameters gradually increase along the axial direction of the directional bead-planting roller 2.

Preferably, the bead-planting micro-holes 22 are arranged in an array or a pattern or a character, the distance between every two bead-planting micro-holes 22 is 0.2mm-2mm, and the diameter of the bead-planting micro-holes 22 is 0.02mm-0.2 mm.

Preferably, the guide roller assembly 5 includes a guide roller 51, a transmission device 52, and a sliding table 53, the transmission device 52 and the sliding table 53 are respectively disposed on the frame 1, the transmission device 52 is connected to the sliding table 53 and drives the sliding table 53 to move, and the guide roller 51 is rotatably connected to the sliding table 53.

Preferably, a valve 61 is further provided on the hopper 6.

More specifically, when needs plant the pearl, start transmission 52 earlier, drive slip table 53 through transmission 52 and move back to drive guide roller 51 and keep away from directional pearl roller 2 of planting, walk around guide roller 51 with the base film and correspond with directional pearl roller 2 of planting after that. Then open the valve 61 on the hopper 6, and open drive arrangement 8, through the directional pearl roller 2 rotation of planting of drive arrangement 8 drive, simultaneously hopper 6 also can be with the microballon of splendid attire through feedstock channel 71 on material feeding unit 7 continuously toward the directional feeding of holding in the chamber 21 of planting pearl roller 2, make directional pearl roller 2 hold the chamber 21 in constantly fill into the microballon, and along with the continuous rotation of directional pearl roller 2 of planting, will drive the microballon and advance along the spiral roller spiral, and the spiral roller is reversed also can push away the microballon, make the microballon spiral advance in-process extruded and drop to the base film from directional pearl roller 2's planting micropore 22, realize directional, the ration is planted, homogeneity when guaranteeing to plant the pearl. Meanwhile, with the continuous spiral advancing of the microbeads, the redundant microbeads are gradually pushed out from the excess material port 23 of the directional bead planting roller 2 and are guided to the outside through the excess material guide groove 4, and at the moment, the redundant microbeads can be collected by an operator and then added from the hopper 6 again, so that the circulating flow of the microbeads is realized. In addition, in the bead planting process, the heat conduction oil in the feeding device 7 can be heated through the heating device 3, so that the microbeads in the accommodating cavity 21 are heated through the feeding device 7, the adhesion of the microbeads in the accommodating cavity 21 is avoided, and the stability in the bead planting process is further improved.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a directional pearl device of planting, includes frame (1), hopper (6), guide roller subassembly (5) activity sets up in frame (1), its characterized in that: still including directional pearl roller (2), drive arrangement (8) of planting, directional pearl roller (2) of planting rotate set up in frame (1) is gone up and is passed through drive arrangement (8) drive, directional pearl roller (2) of planting inside be provided with the hollow chamber (21) that holds just the directional pearl roller (2) surface arrangement of planting pearl micropore (22), plant pearl micropore (22) with hold chamber (21) and be linked together, hopper (6) with hold chamber (21) and be linked together and to hold chamber (21) pay-off.

2. A directional bead-planting device according to claim 1, wherein: the device is characterized by further comprising a feeding device (7), wherein the feeding device (7) is connected with the rack (1) and is positioned in the accommodating cavity (21).

3. A directional bead-planting device according to claim 2, wherein: the heating device is characterized by further comprising a heating device (3), wherein heat conduction oil is arranged in the feeding device (7), and the heating device (3) is connected with the feeding device (7).

4. A directional bead planting device according to claim 2 or 3, wherein: the feeding device (7) is a spiral roller.

5. A directional bead-planting device according to claim 2, wherein: still include clout guide way (4), directional pearl roller (2) of planting is kept away from hopper (6) one end is provided with clout mouth (23), clout guide way (4) with clout mouth (23) are connected.

6. A directional bead-planting device according to claim 2, wherein: one end of the feeding device (7) close to the hopper (6) is provided with a feeding channel (71), and the hopper (6) is communicated with the accommodating cavity (21) through the feeding channel (71).

7. A directional bead-planting device according to claim 1, wherein: the bead planting micropores (22) are conical holes with the pore diameter gradually enlarged towards the surface direction along the axis of the directional bead planting roller (2).

8. A directional bead-planting device according to claim 1, wherein: the bead planting micropores (22) are arranged in an array or in a pattern or in a character, the distance between every two adjacent bead planting micropores (22) is 0.2mm-2mm, and the diameter of each bead planting micropore (22) is 0.02mm-0.2 mm.

9. A directional bead-planting device according to claim 1, wherein: guide roller subassembly (5) including guide roller (51), transmission (52), slip table (53) set up respectively in on frame (1), transmission (52) with slip table (53) are connected and drive slip table (53) remove, guide roller (51) rotate connect in on slip table (53).

10. A directional bead-planting device according to claim 1, wherein: and a valve (61) is also arranged on the hopper (6).

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