CN216048700U - Pulse type airflow dryer capable of preventing material leakage - Google Patents

Abstract

The utility model discloses a material leakage prevention pulse type airflow dryer which comprises a drying pipe and a feeder, wherein the feeder is positioned on the left side of the drying pipe, the right end of the feeder is communicated with the inside of the drying pipe, an air supply device is arranged at the bottom of the drying pipe, a screening device is arranged on the left side of the feeder, a cyclone separator is fixedly arranged on one side, away from the air supply device, of the drying pipe, and a heater is arranged on the left side of the air supply device. The utility model discloses a, its self of air supply arrangement can filter dust impurity to this improves processingquality and avoids the material to receive the pollution, and screening device's setting can be avoided having great granule or caking granule in the material to get into the drying tube inside, prevents that the material overweight air current can't blow up the material and lead to leaking the material, and can be with unqualified also screening out in the material, with this processingquality who improves the device, has solved the problem that the easily emergence of pulsed air dryer leaked the material in the past.

Description

Pulse type airflow dryer capable of preventing material leakage

Technical Field

The utility model relates to the technical field of pulse type airflow dryers, in particular to a material leakage prevention pulse type airflow dryer.

Background

In the pneumatic drying equipment, the pulse pneumatic dryer is a common machine type, adopts the principle of instantaneous drying, utilizes the quick motion of heat-carrying air to drive wet materials, so that the wet materials are suspended in hot air, the whole drying process is strengthened, the heat and mass transfer rate is improved, the non-combined moisture of the materials subjected to pneumatic drying can be almost completely removed, the dried materials can not generate the deterioration phenomenon, and the yield can be obviously improved compared with the drying of a common dryer.

However, the conventional pulse type airflow dryer cannot screen and dry the materials, so that the materials are too heavy or agglomerate, the materials cannot be blown by the airflow to fall after entering the inside of the drying pipe, and leakage occurs.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide a material leakage prevention pulse type airflow dryer.

In order to achieve the purpose, the utility model adopts the following technical scheme.

The utility model provides a pulsed air flow dryer of leak protection material, includes drying tube and feeder, the feeder is located the left side of drying tube, the right-hand member of feeder is linked together with the inside of drying tube, the bottom of drying tube is provided with air supply arrangement, the left side of feeder is provided with the sieving mechanism, one side fixed mounting that air supply arrangement was kept away from to the drying tube has cyclone, air supply arrangement's left side is provided with the heater.

As a further description of the above technical solution: air supply arrangement includes the install bin, install bin fixed connection is in the bottom of drying tube, the inside that the bottom of drying tube runs through and extends to the install bin, the right side of install bin is pegged graft and is had the filter plate, sliding connection between the inner wall of filter plate and install bin, the right side fixed mounting of filter plate has two electromagnetic plates, two the left side of electromagnetic plate all is connected with the install bin magnetism, fixed mounting has the draught fan on the inner wall of install bin, the draught fan is located the bottom of drying tube, the right-hand member of heater runs through and extends to the inside of install bin.

As a further description of the above technical solution: and a control panel and two electromagnetic plates are fixedly mounted on the right side wall of the mounting box and are electrically connected with the control panel.

As a further description of the above technical solution: sieving mechanism includes the screening case, screening case fixed connection is in the left side of feeder, fixedly connected with one-level sieve and second grade sieve on the inner wall of screening case, the one-level sieve is located the top of second grade sieve, it has the collection box to peg graft in the left side of screening case, the bottom of collecting the box contacts with the inner bottom wall of screening case, the right side sliding connection of screening case has the storage box, the storage box is located the right side of one-level sieve, the right side fixedly connected with conveyer pipe of screening case, the bottom fixed connection of conveyer pipe is linked together at the top of feeder and rather than inside, the conveyer pipe is located the right side of second grade sieve.

As a further description of the above technical solution: the left side fixedly connected with handle of collecting the box, set up evenly distributed's anti-skidding line on the handle.

As a further description of the above technical solution: two chutes are formed in the right side of the screening box, the two chutes are connected with sliding strips in the sliding grooves in a sliding mode, and the two sliding strips are fixedly connected to the right side of the storage box.

Compared with the prior art, the utility model has the advantages that:

the utility model can provide strong hot air to the inside of the drying tube through the arrangement of the air supply device, thereby avoiding the material leakage caused by the falling of the material after entering the inside of the drying tube, and the air supply device can filter dust and impurities, thereby improving the processing quality and avoiding the pollution of the material.

Drawings

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

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at B according to the present invention;

FIG. 4 is a schematic front sectional view of the blower of the present invention;

fig. 5 is a schematic front sectional view of the screening apparatus of the present invention.

The reference numbers in the figures illustrate:

1. a drying tube; 2. a feeder; 3. an air supply device; 301. installing a box; 302. filtering the plate; 303. an electromagnetic plate; 304. an induced draft fan; 4. a screening device; 401. a screening box; 402. a first-stage sieve plate; 403. a second-stage sieve plate; 404. a collection box; 405. a storage box; 406. a delivery pipe; 5. a cyclone separator; 6. a heater; 7. a control panel; 8. a handle; 9. a chute; 10. and (4) a slide bar.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention;

referring to fig. 1 to 5, in the present invention, an anti-leakage pulse type airflow dryer includes a drying tube 1 and a feeder 2, the feeder 2 is located on the left side of the drying tube 1, the right end of the feeder 2 is communicated with the inside of the drying tube 1, an air supply device 3 is disposed at the bottom of the drying tube 1, a screening device 4 is disposed on the left side of the feeder 2, a cyclone 5 is fixedly mounted on one side of the drying tube 1 away from the air supply device 3, and a heater 6 is disposed on the left side of the air supply device 3.

In the utility model, when the materials need to be dried, a user pours the materials into the screening device 4, the materials fall under gravity after entering the screening device 4, larger materials and unqualified and smaller materials are collected, the rest materials enter the feeder 2, the screening device 4 can prevent larger particles or agglomerated particles in the materials from entering the drying tube 1, the materials are prevented from being blown up by heavy airflow to cause material leakage, the unqualified materials can be screened out, the processing efficiency of the device is improved, when the materials enter the drying tube 1 through the feeder 2, the user controls the device 3 and the heater 6 to work in an electrified mode, the air supply device 3 generates suction after being electrified to draw external air into the heater 6, the heater 6 heats the air and discharges the air into the air supply device 3, steam upwards gets into inside 1 drying tube immediately, steam gets into 1 inside back of drying tube upwards blows the material and dries the material, air supply arrangement 3 then can filter containing the dust particle in the gas that gets into 1 inside of drying tube, make the granule adsorb inside it, air supply arrangement 3's setting can provide powerful hot-blast to 1 inside of drying tube, thereby avoid the material to get into 1 inside back of drying tube and drop down and lead to leaking the material, and its self can filter dust impurity, improve processingquality with this and avoid the material to receive the pollution, the material passes through drying tube 1 and gets into 5 insidely by the separation at last, the problem of the easy emergence hourglass material of pulsed air flow dryer in the past has been solved.

Please refer to fig. 1, 2 and 4, wherein: air supply arrangement 3 includes install bin 301, install bin 301 fixed connection is in the bottom of drying tube 1, the inside that the bottom of drying tube 1 runs through and extends to install bin 301, install bin 301's right side is pegged graft and is had filter plate 302, sliding connection between the inner wall of filter plate 302 and install bin 301, the right side fixed mounting of filter plate 302 has two electromagnetic plates 303, the left side of two electromagnetic plates 303 all is connected with install bin 301 magnetism, fixed mounting has draught fan 304 on the inner wall of install bin 301, draught fan 304 is located the bottom of drying tube 1, heater 6's right-hand member runs through and extends to the inside of install bin 301.

In the utility model, after materials enter the drying tube 1 through the feeder 2, a user controls the induced draft fan 304 and the heater 6 to be electrified, the induced draft fan 304 generates suction force after being electrified to suck external air into the heater 6, the heater 6 heats the gas and then discharges the gas into the installation box 301, then hot gas upwards passes through the filter plate 302 and then enters the drying tube 1, the hot gas enters the drying tube 1 and then blows the materials upwards and dries the materials, the filter plate 302 filters dust particles contained in the gas entering the drying tube 1 to adsorb the particles on the filter plate 302, when the filter plate 302 needs to be cleaned, the user controls the electromagnetic plate 303 to lose magnetic force and then extracts the filter plate 302, the air supply device 3 can provide strong hot air for the inside of the drying tube 1, thereby avoiding the materials from falling down and causing material leakage after entering the drying tube 1, and the dust and impurities can be filtered by the dust and impurities filter device, so that the processing quality is improved, and the material is prevented from being polluted.

Please refer to fig. 1, 2 and 4, wherein: fixed mounting has control panel 7 on the right side wall of install bin 301, two electromagnetic plates 303 all with control panel 7 between electric connection.

In the utility model, the control panel 7 can enable a user to more simply and quickly operate the device, so that the steps required by the user to operate are reduced, and the processing efficiency is improved.

Please refer to fig. 1, 3 and 5, wherein: sieving mechanism 4 includes screening case 401, screening case 401 fixed connection is in the left side of feeder 2, fixedly connected with one-level sieve 402 and second grade sieve 403 on screening case 401's the inner wall, one-level sieve 402 is located the top of second grade sieve 403, it has collection box 404 to peg graft in screening case 401's left side, the bottom of collecting box 404 contacts with the interior bottom wall of screening case 401, the right side sliding connection of screening case 401 has storage box 405, storage box 405 is located the right side of one-level sieve 402, the right side fixedly connected with conveyer pipe 406 of screening case 401, the bottom fixed connection of conveyer pipe 406 is linked together at feeder 2's top and rather than inside, conveyer pipe 406 is located the right side of second grade sieve 403.

In the utility model, when the materials need to be dried, a user pours the materials into the screening box 401, the materials fall under gravity after entering the screening box 401, larger materials cannot pass through the top of the first-stage sieve plate 402 and roll to the inside of the storage box 405 along with the obliquely arranged first-stage sieve plate 402 to be collected, the rest materials can continuously fall to the top of the second-stage sieve plate 403, unqualified smaller materials can pass through the second-stage sieve plate 403 to fall into the collection box 404, the materials on the top of the second-stage sieve plate 403 can move to the right to the inside of the conveying pipe 406 and then enter the feeder 2, the user can process the rest materials by sliding the storage box 405 upwards and pulling the collection box 404 leftwards, the screening device 4 can prevent larger particles or caking particles existing in the materials from entering the drying pipe 1, and prevent the materials from being blown up by heavy airflow to cause material leakage, and unqualified materials can be screened out, so that the processing efficiency of the device is improved.

Please refer to fig. 5, in which: the left side fixedly connected with handle 8 of collection box 404, set up evenly distributed's anti-skidding line on the handle 8.

In the utility model, the handle 8 can provide a good force point for a user when the user needs to draw out the collecting box 404, and the anti-slip lines can prevent the user from slipping hands.

Please refer to fig. 1 and 3, wherein: two spout 9 have been seted up on screening case 401's right side, and the equal sliding connection in inside of two spout 9 has draw runner 10, and the equal fixed connection in right side of two draw runners 10 is on storage box 405.

In the utility model, when the storage box 405 is moved, the slide bar 10 also moves in the chute 9, and the matching use of the slide bar 10 and the chute 9 can limit the storage box 405 and reduce the friction between the storage box 405 and the screening box 401.

The working principle is as follows: when the materials need to be dried, a user pours the materials into the screening box 401, the materials fall under gravity after entering the screening box 401, larger materials cannot pass through the top of the first-stage sieve plate 402 and roll to the inside of the storage box 405 along with the first-stage sieve plate 402 arranged obliquely to be collected, other materials can continuously fall to the top of the second-stage sieve plate 403, unqualified and smaller materials can pass through the second-stage sieve plate 403 and fall to the inside of the collection box 404, the materials on the top of the second-stage sieve plate 403 can move rightwards to the inside of the conveying pipe 406 and then enter the feeder 2, the user can process the remaining materials by sliding the storage box 405 upwards and pulling the collection box 404 leftwards, the screening device 4 can prevent larger particles or caking particles in the materials from entering the inside of the drying pipe 1, and prevent the materials from being blown up by heavy airflow to cause material leakage, and unqualified materials can be screened out, so that the processing efficiency of the device is improved, when the materials enter the drying pipe 1 through the feeder 2, a user controls the induced draft fan 304 and the heater 6 to be electrified, the induced draft fan 304 generates suction force after being electrified to suck outside air into the heater 6, the heater 6 heats the air and then discharges the air into the installation box 301, hot air upwards passes through the filter plate 302 and then enters the drying pipe 1, the hot air upwards blows the materials after entering the drying pipe 1 and dries the materials, the filter plate 302 filters dust particles in the air entering the drying pipe 1, the particles are adsorbed on the filter plate 302, when the filter plate 302 needs to be cleaned, the user controls the electromagnetic plate 303 to lose magnetic force and then extracts the filter plate 302, the air supply device 3 can provide strong hot air to the inside of the drying pipe 1, thereby avoid the material to get into 1 inside back of drying tube and drop down and lead to leaking the material, and its self can filter dust impurity to this improves processingquality and avoids the material to receive the pollution, and the last material gets into 5 insides of cyclone through drying tube 1 and is separated out, has solved the problem that the easily emergence of pulsed air flow dryer leaked the material in the past.

The foregoing is only a preferred embodiment of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides an pulsed air flow dryer of leak protection material, includes drying tube (1) and feeder (2), feeder (2) are located the left side of drying tube (1), the right-hand member of feeder (2) is linked together its characterized in that with the inside of drying tube (1): the bottom of drying tube (1) is provided with air supply arrangement (3), the left side of feeder (2) is provided with sieving mechanism (4), one side fixed mounting that air supply arrangement (3) were kept away from in drying tube (1) has cyclone (5), the left side of air supply arrangement (3) is provided with heater (6).

2. The material leakage prevention pulse type airflow dryer of claim 1, characterized in that: air supply arrangement (3) include install bin (301), install bin (301) fixed connection is in the bottom of drying tube (1), the bottom of drying tube (1) runs through and extends to the inside of install bin (301), it has filter plate (302) to peg graft on the right side of install bin (301), sliding connection between the inner wall of filter plate (302) and install bin (301), the right side fixed mounting of filter plate (302) has two electromagnetic plates (303), two the left side of electromagnetic plate (303) all is connected with install bin (301) magnetism, fixed mounting has draught fan (304) on the inner wall of install bin (301), draught fan (304) are located the bottom of drying tube (1), the right-hand member of heater (6) runs through and extends to the inside of install bin (301).

3. The material leakage prevention pulse type airflow dryer of claim 2, characterized in that: the right side wall of the installation box (301) is fixedly provided with a control panel (7), and the electromagnetic plates (303) are electrically connected with the control panel (7).

4. The material leakage prevention pulse type airflow dryer of claim 1, characterized in that: the screening device (4) comprises a screening box (401), the screening box (401) is fixedly connected to the left side of the feeder (2), the inner wall of the screening box (401) is fixedly connected with a first-stage screening plate (402) and a second-stage screening plate (403), the first-stage sieve plate (402) is positioned at the top of the second-stage sieve plate (403), the left side of the screening box (401) is inserted with a collecting box (404), the bottom of the collecting box (404) is in contact with the inner bottom wall of the screening box (401), the right side of the screening box (401) is connected with a storage box (405) in a sliding way, the storage box (405) is positioned on the right side of the first-stage sieve plate (402), the right side fixedly connected with conveyer pipe (406) of screening case (401), the bottom fixed connection of conveyer pipe (406) is at the top of feeder (2) and is linked together rather than inside, conveyer pipe (406) are located the right side of second grade sieve (403).

5. The material leakage prevention pulse type airflow dryer of claim 4, characterized in that: the left side fixedly connected with handle (8) of collecting box (404), set up evenly distributed's anti-skidding line on handle (8).

6. The material leakage prevention pulse type airflow dryer of claim 4, characterized in that: two spout (9) have been seted up on the right side of screening case (401), two equal sliding connection in inside of spout (9) has draw runner (10), two the equal fixed connection in right side of draw runner (10) is on storage box (405).

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