CN115111902A

CN115111902A - Novel material stoving material loading device

Info

Publication number: CN115111902A
Application number: CN202210630301.7A
Authority: CN
Inventors: 李伟利; 李静思; 廖晓峰; 杨林; 王莉莉; 李俊杰
Original assignee: Anhui Guodeng New Material Technology Co ltd
Current assignee: Anhui Guodeng New Material Technology Co ltd
Priority date: 2022-06-06
Filing date: 2022-06-06
Publication date: 2022-09-27

Abstract

The invention relates to a novel material drying and feeding device which comprises a bottom plate, a dehydrating and feeding device and a drying device, wherein the dehydrating and feeding device is arranged on the bottom plate and used for centrifugally dehydrating materials and controlling the feeding amount, the drying device is arranged on the bottom plate and used for drying the materials after centrifugal dehydration, and the drying device is positioned below the dehydrating and feeding device. The plastic particle drying device can solve the problems that in the drying process of the existing plastic particles, the cleaned plastic particles are uniformly placed into the drying processing equipment, the plastic particles are uniformly fed in batches, the plastic particles contain a large amount of water after being cleaned, the time required for drying the plastic particles is prolonged, the plastic particles are large in size, the plastic particles cannot be comprehensively dried, a large amount of time is required for drying the plastic particles, the quality of the plastic particle drying process cannot be guaranteed, and the like.

Description

Novel material stoving material loading device

Technical Field

The invention relates to the technical field of plastic particles, in particular to a novel material drying and feeding device.

Background

The plastic industry in China is struggled for a long time and faces the opening of the world, forms a relatively complete industrial system, becomes a basic material industry which is driven by steel, cement and wood, is used as a novel material, the application field of the novel plastic is far superior to the three materials, five types of general plastics are available, namely polyethylene, polypropylene, polyvinyl chloride, polystyrene and acrylonitrile-butadiene-styrene copolymer, the plastic can be usually made into a particle structure to be used as a raw material for manufacturing other products, the dropping or pollution of the particles can be inevitably caused in the process of actually using the plastic particles, the plastic particles can be recycled in order to avoid the waste of the materials, and the recycled plastic particles are recycled after being cleaned and dried.

However, in the existing plastic particle drying process, the cleaned plastic particles are uniformly placed into the drying processing equipment, and because the plastic particles are uniformly fed in batches, and the plastic particles contain a large amount of water after being cleaned, the time required for drying the plastic particles is prolonged, and the plastic particles are large in size, so that the plastic particles cannot be comprehensively dried, a large amount of time is required for drying the plastic particles, the quality of the plastic particle drying process cannot be guaranteed, and the like.

Disclosure of Invention

In order to solve the problems, the invention provides a novel material drying and feeding device which can solve the problems mentioned above.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a novel material drying and feeding device comprises a bottom plate, a dehydrating and feeding device and a drying device, wherein the dehydrating and feeding device is arranged on the bottom plate and used for centrifugally dehydrating materials and controlling the feeding amount, the drying device is arranged on the bottom plate and used for drying the materials after centrifugal dehydration, and the drying device is positioned below the dehydrating and feeding device;

the dewatering feeding device comprises fixed support frames symmetrically arranged on a bottom plate, a placing frame is arranged between the fixed support frames, a closing unit is arranged at the lower end of the placing frame, a fixed support is arranged between the fixed support frames, a control motor is arranged on the fixed support frames, a centrifugal control frame is arranged on an output shaft of the control motor, the upper end of the centrifugal control frame is connected with the placing frame in a sliding mode, and a quantitative discharging unit is arranged in the centrifugal control frame;

the drying treatment device comprises a supporting spring rod installed on a bottom plate, a drying frame is installed on the supporting spring rod, a feeding port is formed in the drying frame, the drying frame is of an inclined structure, a lifting cylinder is installed on the inner wall of the drying frame, a drying plate is installed on the lifting cylinder, a first heating plate is arranged on the drying plate, a material blocking groove is evenly formed in the drying plate, a second heating plate is evenly arranged on the drying frame, the heating plate is located in the material blocking groove, a driving unit is installed on the bottom plate, and the driving unit is installed on the bottom plate.

Preferably, the centrifugal control frame is evenly provided with centrifugal holes along the circumferential direction, the centrifugal control frame is evenly provided with discharge chutes along the circumferential direction, the discharge chutes are located in the middle of the centrifugal control frame, the water storage frame is slidably sleeved outside the centrifugal control frame, and the cross section of the bottom of the water storage frame is of an outwards-inwards-inclined structure.

Preferably, the rear end of the water storage frame is provided with a water conduit, the bottom plate is provided with a bucket, and the bucket is positioned under the water conduit.

Preferably, the lower extreme of water storage frame is provided with the guide frame, and the diameter of guide frame is from last structure of descending.

Preferably, the quantitative discharging unit comprises a ring groove formed in the centrifugal control frame, the ring groove is communicated with the discharging groove, a ring frame is arranged in the ring groove in a sliding mode, a closing block is evenly arranged on the ring frame and is arranged in the discharging groove in a sliding mode, an adjusting groove is evenly formed in the centrifugal control frame along the circumferential direction of the centrifugal control frame, an adjusting block is arranged in the adjusting groove, a control assembly is arranged on the inner wall of the lower end of the centrifugal control frame, and the adjusting block is connected to the control assembly.

Preferably, the control assembly comprises a control cylinder installed in the centrifugal control frame, a control plate is installed on the control cylinder, the adjusting block is installed on the control plate, and the shielding plate is installed on the control plate.

Preferably, the shielding plate has a conical structure.

Preferably, the closed unit comprises a closed frame arranged on the inner wall of the placing frame, closed holes are uniformly formed in the closed frame along the circumferential direction of the closed frame, a closed plate is uniformly arranged on the inner wall of the placing frame along the circumferential direction of the inner wall of the placing frame, the closed plate is arranged on the placing frame through a pin shaft, an electric sliding block in an annular structure is arranged in the closed frame, a closed ring is arranged on the electric sliding block, a closed rope is arranged on the closed ring, and the closed rope penetrates through the closed holes to be connected with the closed plate.

Preferably, the driving unit comprises a driving motor installed on the bottom plate, an elliptical block is installed on an output shaft of the driving motor, and the elliptical block abuts against the lower end face of the drying frame.

Preferably, the ventilation cavity has been seted up to the lower extreme of stoving frame, evenly seted up the ventilation hole on the hot plate two, just the ventilation cavity with the ventilation hole intercommunication, install the fan on the bottom plate, the air outlet of fan passes through the tuber pipe and links to each other with the ventilation cavity.

Compared with the prior art, the invention has the following beneficial effects;

the invention carries out centrifugal dehydration on plastic particles through the dehydration feeding device in the operation process, controls the amount of the plastic particles in the operation process, prevents the plastic particles in the centrifugal control frame from being incapable of being fully dehydrated due to excessive particle accumulation, and the drying device carries out vibration drying treatment on the dehydrated plastic particles for multiple times, so that the plastic particles are dried in shaking in a vibration heating and drying mode, the plastic particles can be fully contacted with air, the plastic particles can be fully and uniformly heated, the volatilization of the surface moisture of the plastic particles is accelerated, the plastic particles can not be adhered to the drying device under the action of shaking, drying and heating, the plastic particles after drying treatment can be ensured to be smoothly discharged from the drying device, and the plastic particles can be temporarily blocked in the moving process, the time for heating and drying the plastic particles is prolonged, so that the quality of plastic particle drying is improved, the plastic particles with different drying degrees can be continuously dried and processed in a running water mode, and the efficiency of overall drying and processing of the plastic particles is improved.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the bottom plate and the dewatering and feeding device of the present invention;

FIG. 3 is a schematic structural diagram between the centrifugal control frame and the quantitative discharging unit according to the present invention;

FIG. 4 is an enlarged view of the layout of FIG. 2 of the present invention at A;

FIG. 5 is a schematic structural diagram between the placement frame and the closing unit according to the present invention;

FIG. 6 is a schematic structural view of a fixing bracket of the present invention;

FIG. 7 is a schematic structural view of the present invention between the centrifugal control frame, the water storage frame and the water conduit;

FIG. 8 is a schematic structural view between the centrifuge control frame and the closure block of the present invention;

FIG. 9 is a schematic structural view between the soleplate and the drying processing device of the invention;

FIG. 10 is a schematic view of the structure between the first drying plate and the first heating plate of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1-10, a novel material drying and feeding device comprises a bottom plate 1, a dewatering and feeding device 2 arranged on the bottom plate 1 and used for centrifugally dewatering materials and controlling the feeding amount, and a drying device 3 arranged on the bottom plate 1 and used for drying centrifugally dewatered materials, wherein the drying device 3 is arranged below the dewatering and feeding device 2

In the concrete operation, the cleaned plastic particles are input into the placing frame 22, the plastic particles are centrifugally dehydrated through the dehydrating feeding device 2, and the amount of the plastic particles is controlled in the operation process, so that the plastic particles in the centrifugal control frame 25 can not be fully dehydrated due to excessive particle accumulation, the plastic particles after centrifugal dehydration fall into a drying treatment device 3, the drying treatment device 3 performs vibration drying treatment on the dehydrated plastic particles for a plurality of times, the plastic particles are dried in shaking by a vibration heating and drying mode, the heating and drying time of the plastic particles is prolonged, therefore, the drying quality of the plastic particles is improved, the plastic particles with different drying degrees can be continuously and uninterruptedly dried and processed in a running water mode, and the overall drying and processing efficiency of the plastic particles is improved.

The dewatering feeding device 2 comprises fixed support frames 21 symmetrically arranged on the bottom plate 1, a placing frame 22 is arranged between the fixed support frames 21, a closing unit 20 is arranged at the lower end of the placing frame 22, a fixed support 23 is arranged between the fixed support frames 21, a control motor 24 is arranged on the fixed support 23, a centrifugal control frame 25 is arranged on an output shaft of the control motor 24, the upper end of the centrifugal control frame 25 is connected with the placing frame 22 in a sliding mode, and a quantitative discharging unit 26 is arranged in the centrifugal control frame 25;

in the specific operation process by adopting the technical scheme, cleaned plastic particles are conveyed into the placing frame 22, the plastic particles in the placing frame 22 fall into the centrifugal control frame 25 under the action of gravity, the closing unit 20 can automatically close a channel between the placing frame 22 and the centrifugal control frame 25 in operation, so that the purpose of controlling the amount of the plastic particles falling into the centrifugal control frame 25 is achieved, after the plastic particles fall into the centrifugal control frame 25 and the closing unit 20 closes the channel between the placing frame 22 and the centrifugal control frame 25, the control motor 24 is started to drive the centrifugal control frame 25 to rotate, excessive water in the rotation process of the centrifugal control frame 25 is thrown out of a centrifugal hole, and at the moment, the quantitative discharging unit 26 is started to discharge the plastic particles subjected to centrifugal dehydration from the centrifugal control frame 25.

The closing unit 20 comprises a closing frame 201 arranged on the inner wall of the placing frame 22, closing holes are uniformly formed in the closing frame 201 along the circumferential direction of the closing frame, a closing plate 202 is uniformly arranged on the inner wall of the placing frame 22 along the circumferential direction of the inner wall, the closing plate 202 is arranged on the placing frame 22 through a pin shaft, an electric sliding block 203 in an annular structure is arranged in the closing frame 201, a closing ring 204 is arranged on the electric sliding block 203, a closing rope 205 is arranged on the closing ring 204, and the closing rope 205 penetrates through the closing holes to be connected with the closing plate 202.

Through adopting above-mentioned technical scheme, can control the input volume that the plastic granules fell into centrifugal control frame 25, when the granule input volume accords with operating range, start electronic slider 203 and drive closed loop 204 and rotate, closed loop 204 is at the rotation in-process and is convoluteed closed rope 205, thereby close the passageway of placing between frame 22 and the centrifugal control frame 25 through pulling of closed rope 205 to closed plate 202, in follow-up work, drive closed loop 204 counter-rotation through electronic slider 203, closed loop 204 can the autogiration open under the action of gravity for the plastic granules can be smooth fall into centrifugal control frame 25.

In order to prevent the backflow of water discharged in centrifugation and ensure that the discharged water cannot be mixed with plastic particles again, the centrifugal control frame 25 is uniformly provided with centrifugal holes along the circumferential direction of the centrifugal control frame, the centrifugal control frame 25 is uniformly provided with discharge chutes along the circumferential direction of the centrifugal control frame, the discharge chutes are positioned in the middle of the centrifugal control frame 25, the water storage frame 27 is sleeved outside the centrifugal control frame 25 in a sliding manner, and the cross section of the bottom of the water storage frame 27 is of an outwards-inwards-upwards-inclined structure.

The rear end of the water storage frame 27 is provided with a water conduit 28, a water bucket is placed on the bottom plate 1, and the water bucket is positioned right below the water conduit 28.

The water thrown out by the centrifugal treatment is collected in the water storage frame 27, and the water in the water storage frame 27 is discharged into the water barrel through the water conduit 28.

The quantitative discharging unit 26 comprises an annular groove formed in the centrifugal control frame 25, the annular groove is communicated with the discharging groove, an annular frame 261 is arranged in the annular groove in a sliding mode, a closing block 262 is evenly arranged on the annular frame 261, the closing block 262 is arranged in the discharging groove in a sliding mode, an adjusting groove is evenly arranged on the centrifugal control frame 25 along the circumferential direction of the centrifugal control frame, an adjusting block 263 is arranged in the adjusting groove, a control assembly 264 is arranged on the inner wall of the lower end of the centrifugal control frame 25, and the adjusting block 263 is connected to the control assembly 264.

The control unit 264 includes a control cylinder 2641 installed in the centrifugal control frame 25, a control plate 2642 installed on the control cylinder 2641, an adjusting block 263 installed on the control plate 2642, and a shielding plate 2643 installed on the control plate 2642.

The shutter 2644 has a conical configuration.

After the plastic particles are processed by the centrifugal dehydration operation, the control cylinder 2641 is started, the control cylinder 2641 drives the control plate 2642 to move from top to bottom in the operation, the control plate 2642 drives the shielding plate 2643 and the annular frame 261 to move downwards in the moving process, the closing block 262 moves to a proper position at the moment to ensure that the plastic particles can be smoothly discharged from the discharge chute, the side of the shielding plate 2643 moves to a position capable of ensuring that the materials can be discharged from the discharge chute, the control motor 24 can be started to drive the centrifugal control frame 25 to rotate at the moment, so that the discharging speed of the plastic particles is accelerated,

the lower end of the water storage frame 27 is provided with a material guiding frame 29, and the diameter of the material guiding frame 29 is of a structure which is gradually reduced from top to bottom.

The plastic particles thrown out by the centrifugal control frame 25 in the rotating state are scattered and sprayed, and the guide frame 29 plays a role in blocking and guiding the plastic particles in the process, so that the plastic particles can smoothly fall into the drying frame 32.

Drying process device 3 is including installing support spring rod 31 on bottom plate 1, install stoving frame 32 on the support spring rod 31, the feed inlet has been seted up on the stoving frame 32, stoving frame 32 is the slope structure, install lift cylinder 33 on the inner wall of stoving frame 32, install drying plate 34 on the lift cylinder 33, be provided with hot plate 37 on the drying plate 34, the fender silo has evenly been seted up on the drying plate 34, evenly be provided with hot plate two 35 on the stoving frame 32, hot plate 35 is located fender silo, install drive unit 36 on the bottom plate 1, drive unit 36 installs on the bottom plate 1.

After the plastic particles fall into the drying frame 32, the first heating plate 37 and the second heating plate 35 are simultaneously electrified to start heating, so as to increase the temperature inside the drying frame 32, and the driving unit 36 is synchronously started to drive the drying frame 32 to shake.

The driving unit 36 includes a driving motor 361 installed on the base plate 1, and an elliptical block 362 is installed on an output shaft of the driving motor 361, and the elliptical block 362 abuts against a lower end surface of the drying frame 32.

The lower end of the drying frame 32 is provided with a ventilation cavity, the second heating plate is uniformly provided with ventilation holes, the ventilation cavity is communicated with the ventilation holes, the bottom plate 1 is provided with a fan, and an air outlet of the fan is connected with the ventilation cavity through an air pipe;

after the plastic particles fall into the drying frame 32, the driving motor 361 is started to drive the elliptical block 362 to rotate, the elliptical block 362 is matched with the supporting spring rod 31 in the rotation process to drive the drying frame 32 to rapidly shake, the plastic particles fall into the drying frame 32, the plastic particles slide in the drying frame 32 under the action of shaking, the plastic particles in sliding fall into the material blocking grooves, the plastic particles falling into the material blocking grooves are rapidly dried under the action of heat transfer of the first heating plate 37 and the second heating plate 35, and the fan starts to work in the process, the plastic particles falling into the material blocking grooves are output through the matching of the air pipes, the ventilation cavities and the ventilation holes, the plastic particles in the material blocking grooves are not accumulated under the influence of wind power, in addition, because the drying frame 362 is in a shaking state, the plastic particles in the drying frame can be in full contact with hot wind under the cooperation of wind power influence and particle shaking, can be quick carry out the drying to plastic granules, the dry speed of plastic granules has been accelerated, control lift cylinder 33 carries out intermittent motion at this in-process, lift cylinder 33 drives drying plate 34 in the in-process of motion and carries out lifting adjusting, and drying plate 34 is in same horizontal plane with the up end of hot plate two 35 in the motion, the shake through stoving frame 32 makes the slip that plastic granules can be smooth, intermittent motion through lift cylinder 33 makes plastic granules can become in proper order in batches fall into next fender silo, discharge in from drying frame 32 until plastic granules.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A novel material drying and feeding device comprises a bottom plate (1), a dehydrating and feeding device (2) and a drying device (3), wherein the dehydrating and feeding device (2) is arranged on the bottom plate (1) and used for centrifugally dehydrating materials and controlling the feeding amount of the materials, the drying device (3) is arranged on the bottom plate (1) and used for drying the materials after centrifugal dehydration, and the drying device (3) is positioned below the dehydrating and feeding device (2);

the dewatering feeding device (2) comprises fixed support frames (21) symmetrically installed on the bottom plate (1), a placing frame (22) is arranged between the fixed support frames (21), a closing unit (20) is arranged at the lower end of the placing frame (22), a fixed support (23) is arranged between the fixed support frames (21), a control motor (24) is arranged on the fixed support (23), a centrifugal control frame (25) is arranged on an output shaft of the control motor (24), the upper end of the centrifugal control frame (25) is connected with the placing frame (22) in a sliding mode, and a quantitative discharging unit (26) is arranged in the centrifugal control frame (25);

drying process device (3) is including installing support spring lever (31) on bottom plate (1), install stoving frame (32) on support spring lever (31), the feed inlet has been seted up on stoving frame (32), stoving frame (32) are the slope structure, install lift cylinder (33) on the inner wall of stoving frame (32), install stoving board (34) on lift cylinder (33), be provided with hot plate (37) on stoving board (34), the fender silo has evenly been seted up on stoving board (34), evenly be provided with hot plate two (35) on stoving frame (32), hot plate (35) are located keep off in the silo, install drive unit (36) on bottom plate (1).

2. The novel material drying and feeding device as claimed in claim 1, wherein centrifugal holes are uniformly formed in the centrifugal control frame (25) along the circumferential direction of the centrifugal control frame, discharge chutes are uniformly formed in the centrifugal control frame (25) along the circumferential direction of the centrifugal control frame, the discharge chutes are located in the middle of the centrifugal control frame (25), a water storage frame (27) is slidably sleeved outside the centrifugal control frame (25), and the cross section of the bottom of the water storage frame (27) is of an upward inclined structure from outside to inside.

3. The novel material drying and feeding device as claimed in claim 2, wherein a water conduit (28) is arranged at the rear end of the water storage frame (27), a water bucket is placed on the bottom plate (1), and the water bucket is located right below the water conduit (28).

4. The novel material drying and feeding device as claimed in claim 3, wherein a material guiding frame (29) is arranged at the lower end of the water storage frame (27), and the diameter of the material guiding frame (29) is of a structure decreasing from top to bottom.

5. The novel material drying and feeding device is characterized in that the quantitative discharging unit (26) comprises an annular groove formed in the centrifugal control frame (25), the annular groove is communicated with the discharging groove, an annular frame (261) is arranged in the annular groove in a sliding mode, closing blocks (262) are uniformly arranged on the annular frame (261) in a sliding mode, adjusting grooves are uniformly arranged on the centrifugal control frame (25) along the circumferential direction of the centrifugal control frame, adjusting blocks (263) are arranged in the adjusting grooves, a control assembly (264) is arranged on the inner wall of the lower end of the centrifugal control frame (25), and the adjusting blocks (263) are connected to the control assembly (264).

6. A novel material drying and feeding device as claimed in claim 5, characterized in that the control assembly (264) comprises a control cylinder (2641) installed in the centrifugal control frame (25), a control board (2642) is installed on the control cylinder (2641), the adjusting block (263) is installed on the control board (2642), and a shielding plate (2643) is installed on the control board (2642).

7. The new material drying and feeding device as claimed in claim 6, characterized in that the shielding plate (2644) is of a cone type structure.

8. The novel material drying and feeding device is characterized in that the closing unit (20) comprises a closing frame (201) arranged on the inner wall of the placing frame (22), closed holes are uniformly formed in the closing frame (201) along the circumferential direction of the closing frame, a closing plate (202) is uniformly arranged on the inner wall of the placing frame (22) along the circumferential direction of the closing frame, the closing plate (202) is arranged on the placing frame (22) through a pin shaft, an electric sliding block (203) in an annular structure is arranged in the closing frame (201), a closing ring (204) is arranged on the electric sliding block (203), a closing rope (205) is arranged on the closing ring (204), and the closing rope (205) penetrates through the closed holes to be connected with the closing plate (202).

9. The novel material drying and feeding device as claimed in claim 1, wherein the driving unit (36) comprises a driving motor (361) installed on the bottom plate (1), an elliptical block (362) is installed on an output shaft of the driving motor (361), and the elliptical block (362) abuts against a lower end face of the drying frame (32).

10. The novel material drying and feeding device as claimed in claim 1, wherein a ventilation cavity is formed at the lower end of the drying frame (32), ventilation holes are uniformly formed in the heating plate II, the ventilation cavity is communicated with the ventilation holes, a fan is mounted on the bottom plate (1), and an air outlet of the fan is connected with the ventilation cavity through an air pipe.