CN210080044U

CN210080044U - Detachable material-separating vibrating screen

Info

Publication number: CN210080044U
Application number: CN201920894210.8U
Authority: CN
Inventors: 黄勇军
Original assignee: Jiangsu Jiatiansheng Renewable Resources Co Ltd
Current assignee: Jiangsu Jiatiansheng Renewable Resources Co Ltd
Priority date: 2019-06-13
Filing date: 2019-06-13
Publication date: 2020-02-18
Anticipated expiration: 2029-06-13

Abstract

The utility model relates to a detachable material-distributing vibrating screen, which comprises a frame, a box body, a material-receiving platform, a discharging mechanism, a vibrating motor, a first layer of sieve plate, a second layer of sieve plate and a third layer of sieve plate; the bottom of the rack is provided with a cross beam, two ends of the cross beam and two top points at the right end of the rack are both vertically provided with support columns, the upper ends of the two support columns at the left side are provided with first springs, the upper ends of the two support columns at the right side are provided with second springs, and the left end of the rack is provided with a stepped material receiving platform; the inner surface top-down symmetry of both sides wall is equipped with first spout, second spout and third spout around the box, and the right-hand member is equipped with the back lid, and the surface of bottom is equipped with vibrating motor, and the left end is equipped with discharge mechanism, and discharge mechanism includes first discharge gate, second discharge gate, third discharge gate and fourth discharge gate, and top-down is the dislocation design. The utility model provides a sieve mesh be plugged up be difficult to clearance, the unable change of sieve, connect the material inconvenient and divide the problem that the material more refined.

Description

Detachable material-separating vibrating screen

Technical Field

The utility model relates to a plastics production facility technical field especially relates to a can dismantle branch material shale shaker.

Background

In the production process of plastics, the plastic granules are extruded by the extruding machine and then cut off to form, and plastic granules with different sizes are inevitably produced in the granulating process, so that the plastic granules with different sizes have the condition of uneven heating, and the processing and manufacturing in the later stage are seriously influenced. Therefore, it is necessary to classify the plastic particles formed by cutting according to the diameter size thereof, and the material-separating vibration screen is produced accordingly.

The existing material-distributing vibrating screen comprises a main machine body and a frame, wherein the main machine body is composed of a material-sieving mechanism, a vibrating mechanism and a material-receiving mechanism, the material-sieving mechanism is composed of a material-sieving plate and a blanking cavity, the blanking cavity is divided into an upper blanking cavity and a lower blanking cavity by the material-sieving plate, the bottom of the lower blanking cavity is connected with the material-receiving mechanism, material-sieving through holes are uniformly distributed in the material-sieving plate, and the upper blanking cavity is communicated with the lower blanking cavity through the material-sieving through holes. The vibrating mechanism makes the main body vibrate, particles in the upper blanking cavity are driven to fall into the lower blanking cavity through the sieving plate, and the screened particles are bagged through the material receiving mechanism. However, the material distributing vibrating screen is of an integrated structure, in the grading process, the material sieving through holes are easily blocked and difficult to clean, the material receiving mechanism is arranged below the vibrating screen and is not easy to take and place, and whether the vibrating screen is full or not is not easy to observe, and the material distributing mechanism can not meet the requirement of further processing of plastic particles.

Therefore, it is necessary to design a new type of material-separating vibrating screen for easy cleaning, easy material receiving and more refined grading.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can dismantle branch material shale shaker to solve the sieve mesh and plugged up and be difficult to the clearance, the sieve can not change, connect the material inconvenient and divide the problem that the material more refined.

In order to achieve the above purpose, the technical scheme of the utility model is that: a detachable material-distributing vibrating screen comprises a frame, a box body, a material receiving table, a discharging mechanism, a vibrating motor, a first layer of sieve plate, a second layer of sieve plate and a third layer of sieve plate;

the frame is horizontally placed on the ground, the bottom of the frame is of a rectangular frame structure, a cross beam is arranged in the middle of the rectangular frame and close to the left end, support columns are vertically arranged at two ends of the cross beam and two top points of the right end of the frame, first springs are arranged at the upper ends of the two support columns on the left side, second springs are arranged at the upper ends of the two support columns on the right side, the first springs are short in free state length compared with the second springs, other parameters are consistent, the frame and the box body are fixed together through the first springs and the second springs, and the box body is in an inclined design with the left lower part and the right higher part;

the box body is in a cuboid design with an opening at the upper end, a first sliding chute, a second sliding chute and a third sliding chute are symmetrically arranged on the inner surfaces of the front side wall and the rear side wall of the box body from top to bottom, and a first layer of sieve plate, a second layer of sieve plate and a third layer of sieve plate are respectively arranged in the first sliding chute, the second sliding chute and the third sliding chute;

the right end of the box body is provided with a rear cover, the rear cover and the bottom of the box body are in a hinged design, pin holes are formed in the upper parts of the right ends of the front side wall and the rear side wall of the box body and the corresponding rear covers, and the rear covers and the box body are fixed together through fixing pins;

a vibration motor is arranged on the outer surface of the bottom of the box body;

the discharging mechanism is arranged at the left end of the box body and comprises a first discharging port, a second discharging port, a third discharging port and a fourth discharging port, and the first discharging port, the second discharging port, the third discharging port and the fourth discharging port are all in a trapezoid shape and are in a staggered design from top to bottom;

the left end of the rack is also provided with a material receiving platform which is designed in a step shape.

Further, the widths of the first sliding chute, the second sliding chute and the third sliding chute are respectively consistent with the thicknesses of the first layer of sieve plate, the second layer of sieve plate and the third layer of sieve plate.

Further, the bottom surfaces of the first discharge port, the second discharge port, the third discharge port and the fourth discharge port are respectively flush with the bottom surfaces of the first layer sieve plate, the second layer sieve plate, the third layer sieve plate and the box body, and the height of the cavity of the second discharge port, the third discharge port and the fourth discharge port is not larger than the height of the cavity formed between every two of the bottom of the first layer sieve plate, the bottom of the second layer sieve plate, the bottom of the third layer sieve plate and the bottom of the box body.

Furthermore, the height of each layer of ladder of the receiving platform corresponds to the height of the first discharge port, the height of the second discharge port, the height of the third discharge port and the height of the fourth discharge port respectively.

Furthermore, the first layer of sieve plate is a bar-type sieve plate and is made of stainless steel materials, and the distance between bars is 4.5 mm.

Furthermore, the second layer of sieve plate is a mesh-shaped sieve plate and is made of stainless steel, and the aperture of the mesh is 12.5 mm.

Furthermore, the third layer of sieve plate is a mesh-shaped sieve plate and is made of stainless steel, and the aperture of the mesh is 5 mm.

The beneficial effects of the utility model reside in that:

1. the rear cover of the box body of the utility model is designed to be overturned and opened, and the first layer sieve plate, the second layer sieve plate and the third layer sieve plate are designed to be drawn and inserted, thereby facilitating the replacement of the sieve plates according to different material sizes and the blockage cleaning of the sieve plates;

2. the discharging mechanism of the utility model is arranged at the left side of the box body, and is provided with 4 discharging ports, namely a first discharging port, a second discharging port, a third discharging port and a fourth discharging port, and is designed from top to bottom in a staggered manner, thereby facilitating the receiving of workers;

3. the design of the 3-layer sieve plate and the 4 discharge ports of the utility model can separate materials with 4 sizes, which is more refined than the existing two-stage separation, thereby facilitating the subsequent treatment;

4. the utility model is provided with the material receiving platform at the front end of the discharge port, which is convenient for workers to place the material collecting barrel at a proper height for receiving materials and prevents the material from scattering caused by improper placement of the collecting barrel;

5. the box body of the utility model is designed to be inclined from high left to low right, so that the screened material can be smoothly separated from each discharge port under the vibration action;

6. the utility model discloses simple structure has improved production efficiency, has reduced manufacturing cost, can extensively popularize and apply.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of a frame structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the box body according to the embodiment of the present invention;

reference numerals: the material receiving device comprises a rack 1, a box body 2, a material receiving table 3, a first spring 4, a second spring 5, a discharging mechanism 6, a vibrating motor 7, a first layer of sieve plate 8, a second layer of sieve plate 9, a third layer of sieve plate 10, a first sliding groove 21, a second sliding groove 22, a third sliding groove 23, a rear cover 24, a first discharging hole 61, a second discharging hole 62, a third discharging hole 63 and a fourth discharging hole 64.

Detailed Description

In order to more clearly describe the technical content of the present invention, the following further description is given with reference to specific embodiments.

As shown in fig. 1-3, a detachable vibrating screen for distributing materials comprises a frame 1, a box 2, a material receiving table 3, a first spring 4, a second spring 5, a discharging mechanism 6, a vibrating motor 7, a first layer of screen plate 8, a second layer of screen plate 9 and a third layer of screen plate 10.

Frame 1 level is placed subaerial, and the bottom of frame 1 is the rectangular frame structure, and rectangular frame's centre is close to left end department and is equipped with the crossbeam, the equal vertical support column that is equipped with in both ends of crossbeam and the two apex of the right-hand member of frame 1, the upper end that is located two left support columns is equipped with first spring 4, and the upper end that is located two right support columns on right side is equipped with second spring 5, first spring 4 compares in second spring 5 the length short that is in free state, and all the other parameters are unanimous, frame 1 and box 2 are together fixed through first spring 4 and second spring 5, and because first spring 4 and second spring 5's design, box 2 is the high slope design in the low right side in a left side.

The box body 2 is in a cuboid design with an open upper end, a first sliding chute 21, a second sliding chute 22 and a third sliding chute 23 are symmetrically arranged on the inner surfaces of the front side wall and the rear side wall of the box body 2 from top to bottom, and the widths of the first sliding chute 21, the second sliding chute 22 and the third sliding chute 23 are respectively consistent with the thicknesses of the first layer of sieve plate 8, the second layer of sieve plate 9 and the third layer of sieve plate 10; the right end of the box body 2 is provided with a rear cover 24, the rear cover 24 is hinged with the bottom of the box body 2, the upper parts of the right ends of the front side wall and the rear side wall of the box body 2 and the corresponding rear cover 24 are provided with pin holes, and the rear cover 24 and the box body 2 are fixed together through fixing pins; and a vibration motor 7 is also arranged on the outer surface of the bottom of the box body 2.

The discharging mechanism 6 is arranged at the left end of the box body 2 and comprises a first discharging port 61, a second discharging port 62, a third discharging port 63 and a fourth discharging port 64, wherein the first discharging port 61, the second discharging port 62, the third discharging port 63 and the fourth discharging port 64 are all in a trapezoid shape and are staggered from top to bottom, the bottom surfaces of the first discharging port 61, the second discharging port 62, the third discharging port 63 and the fourth discharging port 64 are respectively flush with the bottom surfaces of the first layer sieve plate 8, the second layer sieve plate 9, the third layer sieve plate 10 and the box body 2, and the cavity heights of the second discharging port 62, the third discharging port 63 and the fourth discharging port 64 are not larger than the heights of the cavities formed between every two bottom of the first layer sieve plate 8, the second layer sieve plate 9, the third layer sieve plate 10 and the box body 2.

Still be equipped with in the left end of frame 1 and connect material platform 3, it is the notch cuttype design to connect material platform 3, the height of each layer ladder that connects material platform 3 respectively with the height of first discharge gate 61, second discharge gate 62, third discharge gate 63 and fourth discharge gate 64 is corresponding.

The first layer of sieve plates 8 are bar-type sieve plates made of stainless steel materials, and the distance between bars is 4.5 mm.

The second layer of sieve plate 9 is a mesh sieve plate made of stainless steel, and the aperture of the mesh is 12.5 mm.

The third layer sieve plate 10 is a mesh sieve plate made of stainless steel, and the aperture of the mesh is 5 mm.

The working principle is as follows: when distributing materials, firstly placing collecting barrels on each ladder of the material receiving platform 3, then starting the vibrating motor 7, throwing the materials into the first layer sieve plate 8, because the first layer sieve plate 8 is a bar-type sieve plate with the space of 4.5mm, the materials beyond the range move to the lower left end under the vibration and fall into the corresponding collecting barrel through the first discharge port 61, meanwhile, the materials passing through the first layer sieve plate 8 enter the second layer sieve plate 9, according to the same principle, one part of the materials fall into the corresponding collecting barrel through the second discharge port 62, the other part enters the third layer sieve plate 10 for screening, the materials passing through the third layer sieve plate 10 enter the corresponding collecting barrel from the fourth discharge port 64, the rest enter the corresponding collecting barrel from the third discharge port 63, after the collection of the sieve plates is finished, closing the vibrating motor, opening the rear cover 24, drawing out the first layer sieve plate 8, the second layer sieve plate 9 and the third layer sieve plate 10 for blockage cleaning or cleaning, or replacing the sieve plates with different sieve pore diameters according to the sizes of the materials in the next batch.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited thereto, and that various changes and modifications may be made without departing from the spirit of the invention.

Claims

1. A detachable material-distributing vibrating screen is characterized by comprising a rack, a box body, a material receiving table, a discharging mechanism, a vibrating motor, a first layer of sieve plate, a second layer of sieve plate and a third layer of sieve plate;

2. The removable feed shaker of claim 1, wherein the first, second and third chutes have widths corresponding to the thicknesses of the first, second and third decks, respectively.

3. The detachable material-separating vibrating screen as claimed in claim 1, wherein the bottom surfaces of the first, second, third and fourth outlets are flush with the bottom surfaces of the first, second, third and box bodies, respectively, and the height of the cavity between the second, third and fourth outlets is not greater than the height of the cavity between the bottom of the first, second, third and box bodies.

4. The detachable material-separating vibrating screen as claimed in claim 1, wherein the height of each step of the material-receiving platform corresponds to the height of the first material outlet, the second material outlet, the third material outlet and the fourth material outlet.

5. A removable feed shaker as claimed in any one of claims 1 to 3 wherein the first deck is a bar deck made of stainless steel material with a 4.5mm spacing between the bars.

6. A detachable divided material vibrating screen according to any one of claims 1 to 3, wherein the second layer screen plate is a mesh-shaped screen plate made of stainless steel material and has a mesh aperture of 12.5 mm.

7. A detachable divided material vibrating screen according to any one of claims 1 to 3, wherein the third layer screen plate is a mesh-shaped screen plate made of stainless steel material and the aperture of the mesh is 5 mm.