CN210072125U - Plant pearl feeding device - Google Patents

Abstract

The utility model discloses a plant pearl feeding device, by the frame, the conveyer belt, roll roller and reinforced subassembly and constitute, conveyer belt in the frame rotates, the film that will cover the glue is placed on the conveyer belt, spill the glass bead on the film by reinforced subassembly, again can accomplish through rolling roller hot pressing and plant the pearl, reinforced subassembly is by the bracing piece again, the thin material pipe, thick material pipe and hopper constitute, the bracing piece holds up a height, put into the glass bead that is bulky with the hopper of thick material pipe intercommunication, spill on the film from the opening of thick material pipe under the effect of gravity, put into the hopper that communicates with thin material pipe with small glass bead in, under the effect of gravity, spill on the film from the opening of thin material pipe, avoid two kinds of glass beads of different volume sizes to appear husky effect of leaking in the hopper, obtain the even effect of messenger's reflecting material luminance.

Description

Plant pearl feeding device

Technical Field

The utility model relates to a technical field is made to the functional film, especially relates to a plant pearl feeding device.

Background

The bead planting is an extremely important link in the production of the reflecting material, the raw material of the glass beads adopted by the bead planting is required to be prepared by glass beads with different sizes according to a certain proportion in order to ensure the optical performance requirement, but the existing bead planting method has the problem of brightness fluctuation of the reflecting material caused by different sizes of the glass beads.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a plant pearl feeding device aims at solving among the prior art glass bead volume problem that leads to reflecting material luminance fluctuation not of uniform size.

In order to achieve the purpose, the utility model discloses a planting pearl feeding device, including frame, conveyer belt, rolling roller and feeding subassembly, the frame is placed on ground, the conveyer belt is installed in the frame, the rolling roller is connected with the frame is rotated, and is located the conveyer belt one side of keeping away from ground, the feeding subassembly with the frame fixed connection, and is located the conveyer belt one side of keeping away from ground;

the feeding assembly comprises a support rod, a fine material pipe, a coarse material pipe and a hopper, the support rod is L-shaped, one end of the support rod is fixedly connected with the frame, the other end of the support rod is positioned on one side of the conveyor belt far away from the ground, one end of the fine material pipe is fixedly connected with the support rod, and is positioned at one side of the conveyor belt far away from the ground, the number of the fine material pipes is multiple, the fine material pipes are uniformly distributed along the width direction of the conveyor belt, the coarse material pipes are fixedly connected with the support rods, and is positioned at one side of the conveyor belt far away from the ground, the number of the coarse material pipes is multiple, each coarse material pipe is respectively positioned between two adjacent fine material pipes, the hopper with bracing piece fixed connection, the quantity of hopper is a plurality of, the hopper respectively with thin material pipe with thick material pipe intercommunication.

The feeding assembly further comprises a flow rate adjusting structure, and the flow rate adjusting structure is respectively arranged on the fine material pipe and the coarse material pipe.

The flow velocity adjusting structure comprises a rubber head and an air blower, the rubber head is respectively arranged on the fine material pipe and the coarse material pipe and is positioned at one end, facing the conveyor belt, of the fine material pipe and at one end, facing the conveyor belt, of the coarse material pipe, and the air blower is respectively communicated with the coarse material pipe of the fine material pipe.

Wherein the hopper comprises a feeding bin and a storage bin, the feeding bin is communicated with the fine material pipe and the coarse material pipe, the storage bin is fixedly connected with the feeding bin, and is isolated from the feeding bin, the flow velocity adjusting structure comprises a first channel, a second channel, a motor and blades, the first channel is communicated with the feeding bin and the storage bin, the height of one end of the first channel extending into the storage bin is larger than that of one end of the first channel extending into the feeding bin, the first channel is provided with a notch, the second channel is communicated with the notch, the second channel is positioned in the feeding bin, the height of one end of the second channel connected with the first channel is less than that of the other end of the second channel, the motor is fixedly connected with the feeding bin, the blade with the output shaft fixed connection of motor, the blade is kept away from the one end of motor falls into in the breach.

The feeding assembly further comprises a wire, one end of the wire extends into the hopper, and the other end of the wire is grounded.

The feeding assembly further comprises a plurality of guide wheels, and each guide wheel is fixedly connected with each coarse material pipe.

The utility model discloses a plant pearl feeding device, through by frame, conveyer belt, rolling roller and reinforced subassembly constitute, conveyer belt in the frame rotates, will cover the film of glue and place on the conveyer belt, by reinforced subassembly spills glass bead on the film, again through rolling roller hot pressing can accomplish and plant the pearl, reinforced subassembly again comprises bracing piece, thin material pipe, thick material pipe and hopper, the bracing piece holds up a height, puts into bulky glass bead with in the hopper that the thick material pipe communicates, spills on the film from the opening of thick material pipe under the effect of gravity, put into with the thin material pipe communicates glass bead in the hopper, under the effect of gravity, from the opening of thin material pipe is on the film, avoids two kinds of different volume sizes glass bead to appear sand and rush down the effect in the hopper, the effect of making the brightness of the reflecting material uniform is obtained.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the feeding device of the present invention;

FIG. 2 is a partial enlarged view of the feeding device of the present invention;

fig. 3 is a schematic structural diagram of the hopper of the present invention.

In the figure; 100-feeding device, 10-frame, 20-conveyor belt, 30-rolling roller, 40-feeding assembly, 41-support rod, 42-fine material pipe, 43-coarse material pipe, 44-hopper, 441-feeding bin, 442-storage bin, 45-flow rate adjusting structure, 451-rubber head, 452-blower, 453-first channel, 4531-notch, 454-second channel, 455-motor, 456-blade, 46-wire and 47-guide wheel.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a bead planting feeding device 100, including a frame 10, a conveyor belt 20, a rolling roller 30 and a feeding assembly 40, wherein the frame 10 is placed on the ground, the conveyor belt 20 is installed on the frame 10, the rolling roller 30 is rotatably connected to the frame 10 and is located on one side of the conveyor belt 20 away from the ground, and the feeding assembly 40 is fixedly connected to the frame 10 and is located on one side of the conveyor belt 20 away from the ground;

the feeding assembly 40 comprises a support rod 41, a fine material pipe 42, a coarse material pipe 43 and a hopper 44, wherein the support rod 41 is L-shaped, one end of the support rod 41 is fixedly connected with the rack 10, the other end of the support rod 41 is positioned at one side of the conveyor belt 20 far away from the ground, one end of the fine material pipe 42 is fixedly connected with the support rod 41 and is positioned at one side of the conveyor belt 20 far away from the ground, a plurality of fine material pipes 42 are arranged, the fine material pipes are uniformly distributed along the width direction of the conveyor belt 20, the coarse material pipe 43 is fixedly connected with the support rod 41 and is positioned at one side of the conveyor belt 20 far away from the ground, a plurality of coarse material pipes 43 are arranged, each coarse material pipe 43 is respectively positioned between two adjacent fine material pipes 42, the hopper 44 is fixedly connected with the support rod 41, and a plurality of hoppers 44 are arranged, the hoppers are respectively communicated with the fine material pipe 42 and the coarse material pipe 43.

In this embodiment, when the beads are planted, glass beads with different sizes are mixed in the material, when the glass beads are loaded into the hopper 44, the glass beads with small sizes flow from gaps among the glass beads with large sizes, so that the glass beads with small sizes at the bottom are mainly distributed, the glass beads with large sizes at the top are mainly distributed, and finally the glass beads are scattered on a glue layer on the film, so that the problem of brightness fluctuation of the reflective film product is caused; now, the rack 10 is placed indoors, the conveyor belt 20 driven by the motor is started to rotate, the film with the plant gum film coated thereon is placed on the conveyor belt 20, the glue layer on the film is positioned towards one side of the feeding assembly 40, the film moves towards the direction towards the rolling roller 30 under the action of the friction force of the conveyor belt 20, the rotating direction of the rolling roller 30 is opposite to the direction of the conveyor belt 20, the glass beads dropped from the feeding assembly 40 fall on the glue layer of the film, and are embedded into the glue layer of the film through the hot rolling of the rolling roller 30, in the feeding assembly 40, one type of glass beads with small volume is placed in the hopper 44 communicated with the fine material pipe 42, one type of glass beads with large volume is placed in the hopper 44 communicated with the coarse material pipe 43, the number of the hoppers 44 is two, and one hopper 44 is prepared on each material pipe, because the supporting rod 41 is supported by a height, under the action of gravity, the small-volume glass beads fall from the thin material tube 42 to the glue layer of the film, and meanwhile, the large-volume glass beads fall from the thick material tube 43 to the glue layer of the film at the same section of the film, so that the purpose of uniform distribution of the glass beads with different volumes on the film is achieved, and the effect of uniform brightness of the reflective material is achieved.

Further, the feeding assembly 40 further comprises a flow rate adjusting structure 45, and the flow rate adjusting structure 45 is respectively installed on the fine material pipe 42 and the coarse material pipe 43. In the embodiment of the present invention, the flow velocity adjusting structure 45 is used to adjust the flow velocity of the glass beads in the fine material tube 42 and the flow velocity of the glass beads in the coarse material tube 43, so as to avoid different density distributions on the film due to different flow velocities of two types of glass beads with different volumes, and further obtain the effect of making the brightness of the reflective material uniform.

Further, the flow rate adjusting structure 45 includes a rubber head 451 and an air blower 452, the rubber head 451 is respectively installed on the fine material pipe 42 and the coarse material pipe 43 and is located at one end of the fine material pipe 42 facing the conveyor belt 20 and at one end of the coarse material pipe 43 facing the conveyor belt 20, and the air blower 452 is respectively communicated with the coarse material pipe 43 of the fine material pipe 42. In the embodiment of the present invention, the glass beads fall down under the action of their own gravity and are clamped by the rubber heads 451 on the fine material pipe 42 and the coarse material pipe 43, and the pressure overcomes the elastic force of the rubber heads 451 by adjusting the rotation speed of the air blower 452, so as to be ejected from the rubber heads 451 onto the rubber layer of the film, thereby obtaining the effect of controlling the flow rate of the glass beads.

Further, the hopper 44 comprises a feeding bin 441 and a storage bin 442, the feeding bin 441 is communicated with the fine material pipe 42 and the coarse material pipe 43, the storage bin 442 is fixedly connected with the feeding bin 441 and is isolated from the feeding bin 441, the flow rate adjusting structure 45 comprises a first channel 453, a second channel 454, a motor 455 and a blade 456, the first channel 453 is communicated with the feeding bin 441 and the storage bin 442, the first channel 453 extends into the storage bin 442 at one end with a height larger than that of the feeding bin 441, the first channel 453 is provided with a notch 4531, the second channel 454 is communicated with the notch 4531, the second channel 454 is positioned in the feeding bin 441, the second channel 454 is connected with the first channel 453 at one end with a height smaller than that of the other end, the motor 455 is fixedly connected with the feeding bin 441, the blade 456 is fixedly connected with the output shaft of the motor 455, and the end of the blade 456 far away from the motor 455 falls into the gap 4531. In the embodiment, the glass microspheres in the storage bin 442 flow into the first channel 453 until staying in the gap 4531 in the first channel 453, when the motor 455 is not started, the glass microspheres do not flow because the second channel 454 is inclined upward, and when the motor 455 is started, the output shaft of the motor 455 drives the blade 456 to rotate, and the blade 456 pushes the glass microspheres located at the gap 4531 into the first channel 453, and flows into the feeding bin 441 from the first channel 453, and finally falls into the feeding tube, and falls onto the glue layer of the film from the feeding tube, so that the flow rate of the glass microspheres can be controlled.

Further, the charging assembly 40 further comprises a wire 46, one end of the wire 46 extends into the hopper 44, and the other end of the wire 46 is grounded. In the embodiment, the glass beads in the hopper 44 are rubbed with each other to generate static electricity due to vibration caused by the operation of the whole device, and the static electricity is conducted to the ground through the conducting wire 46, so that density unevenness caused by mutual adhesion due to electrification of the glass beads is avoided.

Further, the feeding assembly 40 further includes a plurality of guide wheels 47, and each guide wheel 47 is fixedly connected to each raw material pipe 43. The lowest point of the guide wheel 47 is located below the lowest point of the coarse material pipe 43, and the guide wheel 47 is firstly used for rolling a depression on a glue layer of the film, so that the large-volume glass beads directly drop into the depression when falling from the coarse material pipe 43, the depression clamps the large-volume glass beads, and uneven density caused by random sliding when the large-volume glass beads drop to the glue layer on the film is avoided.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (6)

1. A feeding device for planting beads, which is characterized in that,

the device comprises a rack, a conveying belt, a rolling roller and a feeding assembly, wherein the rack is placed on the ground, the conveying belt is installed on the rack, the rolling roller is rotatably connected with the rack and is positioned on one side, far away from the ground, of the conveying belt, and the feeding assembly is fixedly connected with the rack and is positioned on one side, far away from the ground, of the conveying belt;

the feeding assembly comprises a support rod, a fine material pipe, a coarse material pipe and a hopper, the support rod is L-shaped, one end of the support rod is fixedly connected with the frame, the other end of the support rod is positioned on one side of the conveyor belt far away from the ground, one end of the fine material pipe is fixedly connected with the support rod, and is positioned at one side of the conveyor belt far away from the ground, the number of the fine material pipes is multiple, the fine material pipes are uniformly distributed along the width direction of the conveyor belt, the coarse material pipes are fixedly connected with the support rods, and is positioned at one side of the conveyor belt far away from the ground, the number of the coarse material pipes is multiple, each coarse material pipe is respectively positioned between two adjacent fine material pipes, the hopper with bracing piece fixed connection, the quantity of hopper is a plurality of, the hopper respectively with thin material pipe with thick material pipe intercommunication.

2. The bead-planting feeding device according to claim 1, wherein the feeding assembly further comprises flow rate adjusting structures respectively mounted on the fine material pipe and the coarse material pipe.

3. A bead-planting charging device as in claim 2, wherein the flow rate adjusting structure comprises a rubber head and an air blower, the rubber head is respectively mounted on the fine material pipe and the coarse material pipe and is located at one end of the fine material pipe facing the conveyor belt and at one end of the coarse material pipe facing the conveyor belt, and the air blower is respectively communicated with the coarse material pipe of the fine material pipe.

4. The bead planting feeding device according to claim 2, wherein the hopper comprises a feeding bin and a storage bin, the feeding bin is communicated with the fine material pipe and the coarse material pipe, the storage bin is fixedly connected with the feeding bin and is isolated from the feeding bin, the flow rate adjusting structure comprises a first channel, a second channel, a motor and a blade, the first channel is communicated with the feeding bin and the storage bin, the height of one end of the first channel extending into the storage bin is larger than that of one end of the first channel extending into the feeding bin, the first channel is provided with a notch, the second channel is communicated with the notch, the second channel is positioned in the feeding bin, the height of one end of the second channel connected with the first channel is smaller than that of the other end of the second channel, the motor is fixedly connected with the feeding bin, and the blade is fixedly connected with an output shaft of the motor, one end of the blade, which is far away from the motor, falls into the notch.

5. The bead-planting feeding device according to claim 1, wherein the feeding assembly further comprises a wire, one end of the wire extends into the hopper, and the other end of the wire is grounded.

6. The bead planting feeding device according to claim 1, wherein the feeding assembly further comprises a plurality of guide wheels, and each guide wheel is fixedly connected with each coarse material pipe.

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