CN220479683U - Rice processing dust removal mechanism - Google Patents

Abstract

The utility model provides a rice processing dust removing mechanism, which relates to the technical field of rice processing and comprises an assembly component and an opening and closing member, wherein the opening and closing member assembled by bolts is arranged above the output end of the assembly component, a driving extraction mechanism assembled by bolts is arranged below the output end of the opening and closing member, the opening and closing member comprises an upper cabin shell, an interception net, a connecting pipe, an opening and closing valve cabin and a lower cabin shell, the upper cabin shell is arranged above the output end of the assembly component, and the interception net is arranged on the inner side of the upper cabin shell; the utility model mainly utilizes the end plates arranged on the inner side of the temporary storage cabin, so that the end plates are used for carrying out multi-group parallel arrangement on the electrostatic net cover, and when the fan housing and the extraction fan extract air, the air can stay in the temporary storage cabin for a long time under the cooperation of the temporary storage cabin and the non-woven fabric cover, thereby storing more dust, reducing the complicated degree of cleaning and ensuring the high efficiency of extraction.

Description

Rice processing dust removal mechanism

Technical Field

The utility model relates to the technical field of rice processing, in particular to a rice processing dust removing mechanism.

Background

Existing rice processing equipment is in the course of processing to the rice, because the impurity that rice self contained is more, in the course of processing of rice, often can produce a lot of dust, often can set up the dust collector of rice at the inside equipment at existing rice processing equipment, separates dust and the rice of processing through the dust removal pipeline to realize the finish machining to the rice, and traditional dust collector can set up multichannel dust screen at the pipeline inside, realizes the interception to the dust.

When the existing dust removing mechanism is used, generally, during material treatment, dust is removed by extracting gas, for example, application number CN202011234971.4 relates to the technical field of agricultural product processing, and particularly relates to the dust removing mechanism for rice processing, which comprises rice processing equipment, wherein dust removing pipelines are arranged on the rice processing equipment, and the dust removing mechanism for removing dust is arranged between the dust removing pipelines; however, in the above-mentioned technique, although there are multiple sets of net covers, the extracted dust is accumulated at one end, so that it is difficult to perform long-time efficient extraction treatment, frequent cleaning is required, and it is complicated, so the utility model provides a rice processing dust removing mechanism to solve the problems in the prior art.

Disclosure of Invention

According to the rice processing dust removing mechanism, the end plates are arranged on the inner side of the temporary storage cabin, so that the end plates are used for carrying out multiple groups of parallel arrangement on the electrostatic net cover, and when the fan cover and the extraction fan extract air, the air can stay in the temporary storage cabin for a long time under the cooperation of the temporary storage cabin and the non-woven fabric cover, so that more dust can be stored, the complicated degree of cleaning is reduced, and the high efficiency of extraction is ensured.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the rice processing dust removing mechanism comprises an assembly component and an opening and closing member, wherein the opening and closing member assembled by a bolt is arranged above the output end of the assembly component, and the driving extraction mechanism assembled by the bolt is arranged below the output end of the opening and closing member;

the opening and closing member comprises an upper cabin shell, an interception net, a connecting pipe, an opening and closing valve cabin and a lower cabin shell, wherein the upper cabin shell is arranged above the output end of the assembly, the interception net is arranged on the inner side of the upper cabin shell, the connecting pipe for installing the opening and closing valve cabin is arranged on the outer side of the upper part of the upper cabin shell, and the output end of the connecting pipe is connected with the lower cabin shell.

As a preferred embodiment of the utility model, the interception net is provided with two groups of net structures with different pore sizes, and the upper cabin shell and the lower cabin shell are symmetrically distributed by the central axis of the connecting pipe.

As a preferred embodiment of the utility model, the assembly component comprises a side plate, an interception strip, a bracket, a protruding cabin, a sloping plate and a sealing shell, wherein the interception strip is arranged on the inner side of the side plate, and the bracket is arranged on the outer side of the side plate.

As a preferred embodiment of the utility model, a protruding cabin is arranged above the inner end of the bracket, an inclined plate is arranged in the protruding cabin, and a sealing shell is arranged at one end of the protruding cabin.

As a preferred embodiment of the utility model, the driving and extracting mechanism comprises a temporary storage cabin, an end plate, an electrostatic net cover, a connecting pipe, a non-woven fabric cover, a fan cover and an extracting fan, wherein the temporary storage cabin is arranged at the bottom side of the lower cabin shell, the end plate is arranged at the side of the temporary storage cabin, and a plurality of groups of electrostatic net covers which are distributed in parallel are arranged at the inner side of the end plate.

As a preferable implementation mode of the utility model, the output end of the temporary storage cabin is connected with a connecting pipe for installing a non-woven fabric cover, and one end of the connecting pipe is provided with a fan cover for installing an extraction fan.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the end plates arranged on the inner side of the temporary storage cabin, so that the end plates are used for carrying out multi-group parallel arrangement on the electrostatic net cover, and when the fan housing and the extraction fan extract air, the air can stay in the temporary storage cabin for a long time under the cooperation of the temporary storage cabin and the non-woven fabric cover, thereby storing more dust, reducing the complicated degree of cleaning and ensuring the high efficiency of extraction.

Drawings

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

FIG. 2 is a schematic bottom perspective view of the present utility model;

fig. 3 is a schematic cross-sectional perspective view of the present utility model.

Wherein: 1. assembling the assembly; 101. a side plate; 102. intercepting strips; 103. a bracket; 104. a protruding cabin; 105. a sloping plate; 106. sealing the shell; 2. an opening/closing member; 201. an upper pod; 202. an interception net; 203. a connecting pipe; 204. opening and closing the valve cabin; 205. a lower pod; 3. driving the extraction mechanism; 301. temporary storage cabin; 302. an end plate; 303. an electrostatic net cover; 304. connecting pipes; 305. a nonwoven fabric cover; 306. a fan housing; 307. and (5) extracting the fan.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-3, the embodiment provides a rice processing dust removing mechanism, which comprises an assembly component 1 and an opening and closing component 2, wherein the opening and closing component 2 assembled by bolts is arranged above the output end of the assembly component 1, and a driving extraction mechanism 3 assembled by bolts is arranged below the output end of the opening and closing component 2;

the opening and closing member 2 includes an upper case 201, an interception net 202, a connecting pipe 203, an opening and closing valve compartment 204, and a lower case 205, the upper case 201 is disposed above the output end of the assembly 1, the interception net 202 is disposed on the inner side of the upper case 201, the connecting pipe 203 for mounting the opening and closing valve compartment 204 is disposed on the upper outer side of the upper case 201, and the output end of the connecting pipe 203 is connected with the lower case 205.

The interception net 202 has a mesh structure with two groups of pores of different sizes, and the upper cabin shell 201 and the lower cabin shell 205 are symmetrically distributed by the central axis of the connecting pipe 203.

In this embodiment, when in use, the on-off valve compartment 204 on the connecting pipe 203 is opened to form a channel in the connecting pipe 203, and after the channel is formed, the gas output from the protruding compartment 104 is intercepted by the upper compartment 201 and the interception net 202 and then is input into the temporary storage compartment 301 through the connecting pipe 203 and the lower compartment 205.

The assembly component 1 comprises a side plate 101, an interception bar 102, a bracket 103, a protruding cabin 104, an inclined plate 105 and a sealing shell 106, wherein the interception bar 102 is arranged on the inner side of the side plate 101, and the bracket 103 is arranged on the outer side of the side plate 101.

In the present embodiment, in use, the equipment is connected to a machine part to be processed by the side plate 101, and the opening/closing member 2 and the drive extraction mechanism 3 are fixedly assembled by the bracket 103 and the side plate 101.

A protruding cabin 104 is provided above the inner end of the bracket 103, and an inclined plate 105 is provided inside the protruding cabin 104, and a closure shell 106 is provided at one end of the protruding cabin 104.

In this embodiment, when the gas mixture is extracted, the gas mixture is connected for the first time by the side plate 101 and the interception bar 102, so that the gas mixture enters the large protruding cabin 104 and is intercepted by the inclined plate 105.

The driving and extracting mechanism 3 comprises a temporary storage cabin 301, an end plate 302, an electrostatic net cover 303, a connecting pipe 304, a non-woven fabric cover 305, a fan cover 306 and an extracting fan 307, wherein the temporary storage cabin 301 is arranged at the bottom side of the lower cabin shell 205, the end plate 302 is arranged at the side of the temporary storage cabin 301, and a plurality of groups of electrostatic net covers 303 which are distributed in parallel are arranged at the inner side of the end plate 302.

In this embodiment, after the gas enters the temporary storage compartment 301, a plurality of groups of static mesh covers 303 distributed in parallel are used to generate static electricity, so as to form uninterrupted dust suction after static electricity, and after the dust is accumulated to a certain extent, the end plate 302 is opened to clean the dust in the temporary storage compartment 301.

The output end of the temporary storage cabin 301 is connected with a connecting pipe 304 provided with a non-woven fabric cover 305, and one end of the connecting pipe 304 is provided with a fan housing 306 provided with an extraction fan 307.

In the present embodiment, when in use, the suction fan 307 in the fan housing 306 is started to output power to suck air, and the nonwoven fabric cover 305 is provided on the inner side of the connecting pipe 304, so that dust can be effectively isolated on the inner side of the nonwoven fabric cover 305.

The working principle of the rice processing dust removing mechanism is as follows: when the dust collector is used, the extraction fan 307 in the fan housing 306 is started to output power to extract air, as the non-woven fabric cover 305 is arranged on the inner side of the connecting pipe 304, dust can be effectively isolated on the inner side of the non-woven fabric cover 305, when the dust collector is used, mixed gas is connected for the first time under the action of the side plates 101 and the interception bars 102, so that the mixed gas enters the large protruding cabin 104, heavier materials are intercepted under the action of the inclined plates 105, when the dust collector is used, the on-off valve cabin 204 on the connecting pipe 203 is started, the connecting pipe 203 is made to form a channel, after the channel is formed, the gas output by the protruding cabin 104 is intercepted through the upper cabin shell 201 and the interception net 202 and then is input into the temporary cabin 301 through the connecting pipe 203 and the lower cabin shell 205, after the gas enters the temporary cabin 301, static electricity is generated by using a plurality of groups of static electricity net covers 303 which are distributed in parallel, the dust is uninterruptedly sucked after the static electricity is formed, and when the dust is accumulated to a certain degree, the end plate 302 is started to clean the dust in the temporary cabin 301.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a rice processing dust removal mechanism, includes assembly component (1) and switching component (2), its characterized in that: an opening and closing member (2) assembled by bolts is arranged above the output end of the assembly component (1), and a driving extraction mechanism (3) assembled by bolts is arranged below the output end of the opening and closing member (2);

the opening and closing member (2) comprises an upper cabin shell (201), an interception net (202), a connecting pipe (203), an opening and closing valve cabin (204) and a lower cabin shell (205), wherein the upper cabin shell (201) is arranged above an output end of the assembly (1), the interception net (202) is arranged on the inner side of the upper cabin shell (201), the connecting pipe (203) for installing the opening and closing valve cabin (204) is arranged on the outer side of the upper part of the upper cabin shell (201), and the lower cabin shell (205) is connected with the output end of the connecting pipe (203);

the driving extraction mechanism (3) comprises a temporary storage cabin (301), an end plate (302), an electrostatic net cover (303), a connecting pipe (304), a non-woven fabric cover (305), a fan cover (306) and an extraction fan (307), wherein the temporary storage cabin (301) is arranged at the bottom side of the lower cabin shell (205), the end plate (302) is arranged at the side of the temporary storage cabin (301), and a plurality of groups of electrostatic net covers (303) which are distributed in parallel are arranged at the inner side of the end plate (302);

the output end of the temporary storage cabin (301) is connected with a connecting pipe (304) for installing a non-woven fabric cover (305), and one end of the connecting pipe (304) is provided with a fan housing (306) for installing an extraction fan (307).

2. A rice processing dusting mechanism according to claim 1, wherein: the interception net (202) is provided with two groups of net structures with different pore sizes, and the upper cabin shell (201) and the lower cabin shell (205) are symmetrically distributed by the central axis of the connecting pipe (203).

3. A rice processing dusting mechanism according to claim 1, wherein: the assembly component (1) comprises a side plate (101), an interception strip (102), a bracket (103), a protruding cabin (104), a sloping plate (105) and a sealing shell (106), wherein the interception strip (102) is arranged on the inner side of the side plate (101), and the bracket (103) is arranged on the outer side of the side plate (101).

4. A rice processing dusting mechanism according to claim 3, wherein: a protruding cabin (104) is arranged above the inner end of the bracket (103), an inclined plate (105) is arranged inside the protruding cabin (104), and a sealing shell (106) is arranged at one end of the protruding cabin (104).