CN212097031U - Cold granulator is used in polyacrylic resin production - Google Patents

Abstract

The utility model discloses a cold granulator for producing polyacrylic resin, including the pelleter main part, be provided with the granulating bin and feed bin in the pelleter main part, the top in granulating bin is provided with feed channel and upper dust extraction, upper dust extraction is located the left side of feed channel, the right opening of feed channel is provided with the feed inlet, the below of feed bin is provided with discharging channel and lower dust extraction, discharging channel sets up in lower dust extraction, discharging channel's left opening forms the discharge gate; the left end fixed mounting of feedstock channel's bottom plate has right air-cooled air jet system, the well left end of going up dust extraction's bottom is provided with the striker plate, the left surface fixed mounting of striker plate has left air-cooled air jet system, left side air-cooled air jet system, right air-cooled air jet system communicate respectively has air cooling mechanism. The utility model discloses can avoid the cuttings to fill in the air, guarantee operational environment's clean and staff's is healthy.

Description

Cold granulator is used in polyacrylic resin production

Technical Field

The utility model relates to a cold granulator is used in polyacrylic resin production belongs to polyacrylic resin production technical field.

Background

In the in-process of using cold granulator cutting polyacrylic resin, the process cutting portion temperature of often cutting is higher, can cause the damage to polyacrylic resin or cutting stage property after for a long time, and the in-process of cutting can produce a large amount of cuttings in addition, and partly cuttings can be along with cutting material discharge, and another part cuttings can upwards be discharged from the feed inlet, and the cuttings is filled in the air, has influenced air quality and staff's healthy.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned prior art exists, the utility model provides a polyacrylic resin production is with cold granulator can avoid the cuttings to fill in the air, has guaranteed that operational environment's clean and staff's is healthy.

In order to achieve the purpose, the cold granulator for producing the polyacrylic resin comprises a granulator main body, wherein a granulating bin and a discharging bin are arranged in the granulator main body, a control electric plate is arranged at the right end of a front plate of the granulator main body, a granulating device and a granulating adjusting device are installed in the granulating bin, the discharging bin is located right below the granulating device and the granulating adjusting device, a feeding channel and an upper dust suction device are arranged above the granulating bin, the upper dust suction device is located on the left side of the feeding channel, a right port of the feeding channel extends out of the granulator main body to be provided with a feeding port, a left port of the feeding channel is located right above the granulating device, a discharging channel and a lower dust suction device are arranged below the discharging bin, the discharging channel is arranged in the lower dust suction device, and a right port of the discharging channel extends out of the lower dust suction device to be communicated with an outlet of the lower bin, the left opening of the discharge channel extends out of the lower dust suction device and the granulator main body to form a discharge opening, the upper dust suction device is communicated with the feeding channel and the granulating bin, the discharge channel is communicated with the lower dust suction device, the upper dust suction device is used for absorbing cutting powder diffusing to the feeding opening, and the lower dust suction device is used for absorbing cutting powder diffusing to the discharge opening; the left end fixed mounting of feedstock channel's bottom plate has right air-cooled air jet system, the well left end of going up dust extraction's bottom is provided with the striker plate, the left surface fixed mounting of striker plate has left air-cooled air jet system, left side air-cooled air jet system, right air-cooled air jet system communicate respectively has air cooling mechanism, air cooling mechanism sets up the left end in the front side of pelleter main part, air cooling mechanism is used for carrying out the air-cooled processing to cutting grain device, cutting grain adjusting device and provides the cold air, go up dust extraction, lower dust extraction, air cooling mechanism, cut grain device, cut grain adjusting device respectively with control electroplax electric connection, the control electroplax is connected with external power supply's output.

Preferably, the upper dust suction device comprises an upper dust suction box and a plurality of upper dust collectors communicated with the upper dust suction box, one part of the upper dust collectors are embedded at the left end of a top plate of the feeding channel, one part of the upper dust collectors are communicated with the feeding channel, the other part of the upper dust collectors are embedded at the right end of a bottom plate of the dust suction box, the other part of the upper dust collectors are communicated with the grain cutting bin, and all the upper dust collectors are electrically connected with the control electric plate; an upper dust collection box cover is arranged at the top of the upper dust collection box.

Preferably, the lower dust suction device comprises a lower dust suction box and a plurality of lower dust collectors communicated with the lower dust suction box, one part of the lower dust collectors are embedded on the left plate of the discharging channel, the other part of the lower dust collectors are embedded at the right ends of the front plate and the rear plate of the discharging channel, the other part of the lower dust collectors are symmetrically arranged on the front plate and the rear plate, all the lower dust collectors are communicated with the discharging channel, and all the lower dust collectors are electrically connected with the control electric plate; the front box plate of the lower dust collection box is provided with a lower dust collection box cover.

Preferably, left side forced air cooling air jet equipment includes the left air nozzle that communicates with the left breather pipe of forced air cooling mechanism intercommunication and a plurality of and left breather pipe intercommunication, left side breather pipe fixed mounting is on the left surface of striker plate, left side air nozzle evenly arranges on left breather pipe and left air nozzle inclines to the right and arranges.

Preferably, the air-cooled air jet equipment of right side includes the right breather pipe and the right jet head of a plurality of and right breather pipe intercommunication with air-cooled mechanism intercommunication, right breather pipe fixed mounting is at the left end of feedstock channel's bottom plate, right jet head evenly arranges on right breather pipe and right jet head arranges to the left bank.

Preferably, the right plate of the granulator main body is provided with air diffusing holes at the position of the granule cutting bin, the air diffusing holes are connected with air diffusing pipelines, and filter screens are arranged in the air diffusing pipelines.

Preferably, the inclination angle of the left air nozzle is 15-30 degrees.

Preferably, the inclination angle of the right air nozzle is 5-30 degrees.

The utility model discloses a beneficial effect: the utility model absorbs the cut powder through the upper dust suction device and the lower dust suction device, so as to avoid the cut powder from being diffused in the air, and ensure the cleanness of the working environment and the health of the working personnel; through left air-cooled air jet system, right air-cooled air jet system, it causes the damage to polyacrylic resin or grain cutting device and grain cutting adjusting device to reduce the process cutting portion temperature of long-term cutting higher.

Drawings

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

fig. 2 is a top view of the present invention;

fig. 3 is a sectional view in the direction of a-a.

In the figure: 1. the granulator comprises a granulator main body, 101, a control electric plate, 2, a granulating bin, 201, an air diffusing hole, 3, a lower bin, 4, a granulating device, 5, a granulating adjusting device, 6, a feeding channel, 601, a feeding hole, 7, an upper dust suction device, 701, a dust suction box, 702, an upper dust collector, 703, an upper dust suction box cover, 8, a discharging channel, 801, a discharging hole, 9, a lower dust suction device, 901, a lower dust suction box, 902, a lower dust suction device, 903, a lower dust suction box cover, 10, a baffle plate, 11, a left air cooling air jet device, 1101, a left vent pipe, 1102, a left air jet head, 12, a right air cooling air jet device, 1201, a right vent pipe, 1202, a right air jet head, 13, an air cooling mechanism, 14, an air diffusing pipeline, 15 and a filter screen.

Detailed Description

The technical solutions in the implementation of the present invention will be clear from the following description and accompanying drawings, and the described embodiments are only some embodiments, not all embodiments, of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 3, a cold granulator for producing polyacrylic resin provided by an embodiment of the present invention comprises a granulator main body 1, a granulating bin 2 and a discharging bin 3 are arranged in the granulator main body 1, a control circuit board 101 is arranged on a front plate of the granulator main body 1, a granulating device 4 and a granulating adjusting device 5 are arranged in the granulating bin 2, the discharging bin 3 is located under the granulating device 4 and the granulating adjusting device 5, a feeding channel 6 and an upper dust collector 7 are arranged above the granulating bin 2, the upper dust collector 7 is located on the left side of the feeding channel 6, a right opening of the feeding channel 6 extends out of the granulator main body 1 and is provided with a feeding port 601, a left opening of the feeding channel 6 is located on the upper right side of the granulating device 4, a discharging channel 8 and a lower dust collector 9 are arranged below the discharging bin 3, the discharging channel 8 is arranged in the lower dust collector 9, the right port of the discharge channel 8 extends out of the lower dust suction device 9 to be communicated with the outlet of the lower feed bin 3, the left port of the discharge channel 8 extends out of the lower dust suction device 9 and the granulator main body 1 to form a discharge port 801, the upper dust suction device 7 is communicated with the feed channel 6 and the granulating bin 2, the discharge channel 8 is communicated with the lower dust suction device 9, the upper dust suction device 7 is used for absorbing cutting powder diffusing to the feed port 601, the upper dust suction device is used for absorbing cutting powder diffusing to the discharge port 801, the cutting powder is effectively absorbed in the upper dust suction device 7 and the lower dust suction device 9, the cutting powder is prevented from diffusing in the air, and the cleanness of a working environment and the bodies of working personnel are guaranteed; a right air-cooled air injection device 11 is fixedly arranged at the left end of the bottom plate of the feeding channel 6, a striker plate 10 is arranged at the middle left end of the bottom of the upper dust suction device 7, a left air-cooled air jet device 12 is fixedly arranged on the left side surface of the striker plate 10, the left air-cooled air jet device 11 and the right air-cooled air jet device 12 are respectively communicated with an air cooling mechanism 13, the air cooling mechanism 13 is arranged at the left end of the front side of the granulator main body 1, the air cooling mechanism 13 is used for providing cold air for the air cooling treatment of the granulating device 4 and the granulating adjusting device 5, the damage to the polyacrylic resin or the granulating device 4 and the granulating adjusting device 5 caused by the high temperature of the cutting part in the long-term cutting process is reduced, the upper dust suction device 7, the lower dust suction device 9, the air cooling mechanism 13, the granulating device 4 and the granulating adjusting device 5 are respectively and electrically connected with a control electric plate 101, and the control electric plate 101 is connected with the output end of an external power supply; in the utility model, the dicing device 4 comprises a first dicing motor, the first dicing motor is installed outside the dicing bin, a first cutter is fixed on an output shaft of the first dicing motor, the first cutter is located inside the dicing bin, and the first dicing motor is electrically connected with the control electric plate 101; cut grain adjusting device 5 and include electric telescopic handle, electric telescopic handle installs the inside at the grain storehouse, electric telescopic handle's telescopic end is fixed with the mounting bracket, and the mounting bracket has and installs the second and cuts the grain motor, and the second cuts the grain motor and installs in the grain storehouse, is fixed with the second cutter on the output shaft of the grain motor of second, and the second cutter is located the inside in grain storehouse, electric telescopic handle, the second cut the grain motor respectively with control electroplax 101 electric connection.

Preferably, the upper dust suction device 7 comprises an upper dust suction box 701 and a plurality of upper dust collectors 702 communicated with the upper dust suction box 701, one part of the upper dust collectors 702 is embedded at the left end of the top plate of the feeding channel 6, one part of the upper dust collectors 702 are communicated with the feeding channel 6, the other part of the upper dust collectors 702 are embedded at the right end of the bottom plate of the dust suction box 701, the other part of the upper dust collectors 702 are communicated with the granulating bin 2, and all the upper dust collectors 702 are electrically connected with the control circuit board 101, so that the cut dust diffusing to the feeding port 601 can be fully absorbed; an upper dust suction box cover 703 is arranged on the top of the upper dust suction box 701.

Preferably, the lower dust suction device 9 includes a lower dust suction box 901 and a plurality of lower dust collectors 902 communicated with the lower dust suction box 901, a part of the lower dust collectors 902 are embedded in the left plate of the discharging channel 8, another part of the lower dust collectors 902 are embedded in the right ends of the front and rear plates of the discharging channel 8, and another part of the lower dust collectors 902 are symmetrically arranged on the front and rear plates, all the lower dust collectors 902 are communicated with the discharging channel 8, all the lower dust collectors 902 are electrically connected with the control circuit board 101, so that the dust scattered to the discharging port 801 can be fully absorbed, and the front box plate of the lower dust suction box 901 is provided with a lower dust suction box cover 903.

Preferably, the left air-cooled air injection device 11 comprises a left vent pipe 1101 communicated with the air-cooled mechanism 13 and a plurality of left air injection heads 1102 communicated with the left vent pipe 1101, the left vent pipe 1101 is fixedly installed on the left side surface of the striker plate 10, the left air injection heads 1102 are uniformly arranged on the left vent pipe 1101, the left air injection heads 1102 are obliquely arranged rightwards, and air-cooled treatment is carried out on cutting positions of the grain cutting device.

Preferably, the right air-cooled air injector 12 includes a right vent pipe 1201 communicated with the air-cooled mechanism 13 and a plurality of right air nozzles 1202 communicated with the right vent pipe 1201, the right vent pipe 1201 is fixedly installed at the left end of the bottom plate of the feed channel 6, the right air nozzles 1202 are uniformly arranged on the right vent pipe 1201, and the right air nozzles 1202 are obliquely arranged to the left, so as to air-cool the cutting part of the 4-pellet-cutting adjusting device 5.

Preferably, the right plate of the granulator main body 1 is provided with an air dispersing hole 201 at the position of the granule cutting bin 2, the air dispersing hole 201 is connected with an air dispersing pipeline 14, a filter screen 15 is arranged in the air dispersing pipeline 14, and the filter screen can filter the air carrying the cutting powder to ensure that the air is discharged cleanly.

Preferably, the inclination angle of the left air nozzle 1102 is 15 to 30 degrees.

Preferably, the inclination angle of the right showerhead 1202 is 5 to 30 degrees.

When in use: the upper dust suction device 7, the lower dust suction device 9, the air cooling mechanism 13, the grain cutting device 4 and the grain cutting adjusting device 5 are started by controlling the electric board 101, an electric telescopic rod of the grain cutting adjusting device 5 adjusts a second cutter on a second grain cutting motor to a proper position according to the size of polyacrylic resin grains, and polyacrylic resin materials are added, in the granulating process of the granulating bin 2, the left air-cooled air injection device 11 and the right air-cooled air injection device 12 provide cold air through the air cooling mechanism 13 to respectively carry out air cooling treatment on the cutting positions of the granulating device 4 and the granulating adjusting device 5, the cutting powder is diffused in the granulator main body 1, the cut powder diffusing to the feeding hole 601 is absorbed through the upper dust suction device 7, and the cut powder diffusing to the discharging hole 801 is absorbed through the lower dust suction device 9, so that the cut powder is effectively prevented from diffusing in the air, and the cleanness and the human health of the working environment are ensured.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art.

Claims (8)

1. A cold granulator for producing polyacrylic resin comprises a granulator main body, wherein a granulating bin and a discharging bin are arranged in the granulator main body, a control circuit board is arranged at the right end of a front plate of the granulator main body, a granulating device and a granulating adjusting device are installed in the granulating bin, and the discharging bin is located under the granulating device and the granulating adjusting device, and is characterized in that a feeding channel and an upper dust suction device are arranged above the granulating bin, the upper dust suction device is located on the left side of the feeding channel, a right port of the feeding channel extends out of the granulator main body and is provided with a feeding port, a left port of the feeding channel is located on the right upper side of the granulating device, a discharging channel and a lower dust suction device are arranged below the discharging bin, the discharging channel is arranged in the lower dust suction device, and a right port of the discharging channel extends out of the lower dust suction device and is communicated with an outlet of the lower bin, the left port of the discharge channel extends out of the lower dust suction device and the granulator main body to form a discharge port, the upper dust suction device is communicated with the feeding channel and the granulating bin, and the discharge channel is communicated with the lower dust suction device;

the left end fixed mounting of feedstock channel's bottom plate has right air-cooled air jet system, the well left end of going up dust extraction's bottom is provided with the striker plate, the left surface fixed mounting of striker plate has left air-cooled air jet system, left side air-cooled air jet system, right air-cooled air jet system communicate respectively has air cooling mechanism, air cooling mechanism sets up the left end in the front side of pelleter main part, go up dust extraction, lower dust extraction, air cooling mechanism, cut grain device, cut grain adjusting device respectively with control electroplax electric connection, the control electroplax is connected with external power supply's output.

2. The cold pellet cutter for producing polyacrylic resin as claimed in claim 1, wherein the upper dust suction device comprises an upper dust suction box and a plurality of upper dust collectors communicated with the upper dust suction box, one part of the upper dust collectors is embedded at the left end of the top plate of the feeding channel and one part of the upper dust collectors is communicated with the feeding channel, the other part of the upper dust collectors is embedded at the right end of the bottom plate of the dust suction box and the other part of the upper dust collectors is communicated with the pellet cutting bin, and all the upper dust collectors are electrically connected with the control electric plate; an upper dust collection box cover is arranged at the top of the upper dust collection box.

3. The cold granulator for polyacrylic resin production according to claim 1, wherein the lower dust suction device comprises a lower dust suction box and a plurality of lower dust collectors communicated with the lower dust suction box, one part of the lower dust collectors are embedded in the left plate of the discharge channel, the other part of the lower dust collectors are embedded in the right ends of the front and rear plates of the discharge channel, the other part of the lower dust collectors are symmetrically arranged on the front and rear plates, all the lower dust collectors are communicated with the discharge channel, and all the lower dust collectors are electrically connected with the control circuit board; the front box plate of the lower dust collection box is provided with a lower dust collection box cover.

4. The cold granulator for producing polyacrylic resin according to claim 1, wherein the left air cooling and injecting device comprises a left vent pipe communicated with the air cooling mechanism and a plurality of left air injecting heads communicated with the left vent pipe, the left vent pipe is fixedly installed on the left side surface of the striker plate, the left air injecting heads are evenly arranged on the left vent pipe, and the left air injecting heads are obliquely arranged to the right.

5. The cold pellet cutter for producing polyacrylic resin as claimed in claim 1, wherein the right air cooling blower comprises a right air pipe connected to the air cooling mechanism and a plurality of right air nozzles connected to the right air pipe, the right air pipe is fixedly installed at the left end of the bottom plate of the feeding channel, the right air nozzles are uniformly arranged on the right air pipe, and the right air nozzles are inclined to the left.

6. The cold granulator of claim 1, wherein the right plate of the granulator body is provided with air diffusing holes at the position of the granule cutting bin, the air diffusing holes are connected with air diffusing pipelines, and a filter screen is arranged in the air diffusing pipelines.

7. The cold granulator for producing polyacrylic resin according to claim 4, wherein the angle of inclination of the left air nozzle is 15 to 30 degrees.

8. The cold granulator for producing polyacrylic resin according to claim 5, wherein the angle of inclination of the right air nozzle is 5 to 30 degrees.

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