CN219168847U - Powder sieving device - Google Patents

Abstract

The utility model provides a powder sieving device, which relates to the field of powder processing and aims at solving the problems that the existing powder sieving device is easy to miss and has poor removing effect and is not thorough enough when being used for removing caking and lumps; the bottom of the main body is provided with a plurality of supporting pieces, a pushing piece is arranged in the supporting pieces, and a wedge-shaped block is arranged in the middle of the pushing piece; the moving part is arranged outside the main body, driving rods which are uniformly arranged are arranged inside the moving part, and the top end of each driving rod is connected with a moving block which is uniformly arranged. When the device is used, the motor controls the driving shaft to rotate, the moving piece is made to reciprocate, the driving rod drives the moving block to reciprocate, when powder and caking are discharged through the through groove, the side edge of the moving block is made to contact with the side edge of the through groove, the caking is extruded, crushed and sieved conveniently, the caking and the caking are made to be removed rapidly and completely, the removal efficiency is improved, and omission is avoided.

Description

Powder sieving device

Technical Field

The utility model belongs to the technical field of powder processing, and particularly relates to a powder sieving device.

Background

When the detergent is produced, the raw materials are generally required to be mixed by using a stirrer, and in the process of stirring and discharging, the detergent can generate certain bonding due to moisture in the air, can generate caking and agglomerations, and when the caking and agglomerations are removed, a powder sieving device is required.

When the existing powder sieving device is used, the agglomeration and the agglomeration are easy to generate omission, the removing effect is poor, the powder sieving device is not thorough enough, the powder sieving device is inconvenient to collect after being discharged, and the powder sieving device is easy to scatter around.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a powder sieving device, which aims to solve the problems that the existing powder sieving device is easy to generate omission and has poor removing effect and is not thorough enough when being used for removing caking and lumps.

The utility model relates to a powder sieving device, which comprises: a main body; the outer side of the top end of the main body is of an inclined structure, four supporting pieces are arranged at the bottom of the main body, a pushing piece is arranged in the four supporting pieces, the pushing piece is of a rectangular structure, two sides of the inside of the pushing piece are of inclined structures, and wedge-shaped blocks are arranged in the middle of the pushing piece; the movable piece is of a rectangular frame structure, the movable piece is arranged outside the main body, driving rods which are uniformly arranged are arranged in the movable piece, the top end of each driving rod is connected with movable blocks which are uniformly arranged, the movable blocks are of rectangular structures, and two sides of each movable block are of arc structures.

Optionally, the inside of the main body is provided with through grooves which are uniformly arranged, both ends of each through groove are of arc structures, the inside of each through groove is inserted with a moving block, both sides of the bottom of the main body are respectively provided with a sliding groove, and each sliding groove is of a rectangular structure; the supporting pieces are of inverted F-shaped structures, a guide groove is formed in the inner side of each supporting piece, the guide groove is of a rectangular structure, a motor is mounted on the side edge of the main body, a driving shaft is connected with the bottom of the motor in a transmission mode, and the driving shaft is of a Z-shaped shaft structure; the both sides of impeller are equipped with a guide bar respectively, and the guide bar is I shape structure, and the guide bar embedding is in the inside of guide way, and the side top of impeller is equipped with the atress piece, and the atress piece is the structure of falling U-shaped, and the inside of atress piece is equipped with the insertion groove, and the bottom of drive shaft has been inserted to the inside of insertion groove.

Optionally, a driving groove is formed in the side edge of the moving piece, two ends of the driving groove are of arc structures, a driving shaft is inserted into the driving groove, a driving rod is of a rectangular structure, and the driving rod is inserted into the sliding groove; the bottom of each moving block is provided with a bottom groove, the bottom groove is of a rectangular structure, a driving rod is embedded in the bottom groove, two blocking pieces are respectively arranged on two sides of the bottom of each moving block, and each blocking piece is of a rectangular structure; each moving block is provided with a side plate which is installed in a staggered mode, the side plate is of an L-shaped plate structure, the bottom of each side plate is provided with a pushing plate, the pushing plate is of a circular plate structure, grooves are formed in two sides of the pushing plate respectively, the grooves are of a circular structure, and the outer sides of the grooves are of an inclined structure.

Compared with the prior art, the utility model has the following beneficial effects:

1. through setting up the movable block, make this device when using, the motor can control the drive shaft and rotate, and then make moving piece reciprocating motion, and then drive the movable block reciprocating motion through the actuating lever, when making powder and caking discharge through logical groove, can make the side of movable block contact with the side of logical groove, and then carry out convenient extrusion with the caking and smash the sieving, make caking and briquetting can clear away totally fast, and then improve the efficiency of clearing away, avoid producing the omission;

2. through setting up the impeller, make this device when using, when the drive shaft is rotatory, can drive wedge and reciprocate together, make the powder fall down after, can be in the inside of impeller, can be promoted to the side by the wedge simultaneously, make the powder can lead fast and circulate, make the powder can lead to and collect, make the powder can remove the container inside of main part side bottom, and then make the powder can collect fast, avoid the powder to scatter.

Drawings

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

Fig. 2 is a schematic bottom view of the present utility model.

Fig. 3 is an exploded perspective view of the present utility model.

Fig. 4 is a schematic exploded perspective view of the main body of the present utility model.

Fig. 5 is an exploded perspective view of the moving member of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a main body; 101. a through groove; 102. a chute; 103. a support; 104. a guide groove; 105. a drive shaft; 106. a pushing member; 107. a guide rod; 108. a force-bearing member;

2. a moving member; 201. a driving groove; 202. a driving rod; 203. a moving block; 204. a bottom groove; 205. a blocking member; 206. a side plate; 207. pushing the plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 5:

the utility model provides a powder sieving device, comprising: a main body 1; the main body 1 is of a rectangular structure, the outer side of the top end of the main body 1 is of an inclined structure, four supporting pieces 103 are arranged at the bottom of the main body 1, one pushing piece 106 is arranged in the four supporting pieces 103, the pushing piece 106 is of a rectangular structure, two sides of the interior of the pushing piece 106 are of inclined structures, powder can be collected in the pushing piece 106, guiding and flowing of the powder can be controlled, and a wedge-shaped block is arranged in the middle of the pushing piece 106 and can assist in pushing the powder to move to the side; the movable member 2, the movable member 2 is of a rectangular frame structure, the movable member 2 is arranged outside the main body 1, driving rods 202 which are uniformly arranged are arranged in the movable member 2, the top end of each driving rod 202 is connected with a movable block 203 which is uniformly arranged, the driving rods 202 can drive the movable blocks 203 to reciprocate together, the movable blocks 203 are of a rectangular structure, and two sides of each movable block 203 are of arc structures.

Referring to fig. 4, a through groove 101 is uniformly arranged in the main body 1, two ends of the through groove 101 are arc structures and are used for contacting with sides of a moving block 203, so that the moving block 203 can squeeze and crush caking and blocks in the moving block, powder sieving effect is improved, the moving block 203 is inserted into the through groove 101, two sliding grooves 102 are respectively arranged on two sides of the bottom of the main body 1, the sliding grooves 102 are rectangular structures, and a driving rod 202 can guide and move in the moving block; the supporting pieces 103 are of inverted F-shaped structures and can assist in supporting the main body 1, a guide groove 104 is formed in the inner side of each supporting piece 103, the guide groove 104 is of a rectangular structure, a guide rod 107 can be embedded in the guide groove to guide and displace, a motor is arranged on the side edge of the main body 1, the bottom of the motor is in transmission connection with a driving shaft 105, and the driving shaft 105 is of a Z-shaped shaft structure; the two sides of the pushing piece 106 are respectively provided with a guide rod 107, the guide rods 107 are of an I-shaped structure, the guide rods 107 are embedded into the guide grooves 104 and are used for driving the pushing piece 106 to guide and displace, the stress piece 108 is arranged above the side edge of the pushing piece 106, the stress piece 108 is of an inverted U-shaped structure, an insertion groove is formed in the stress piece 108, the bottom end of the driving shaft 105 is inserted into the insertion groove, and accordingly the driving shaft 105 can control the stress piece 108 and the pushing piece 106 to reciprocate, and powder can be pushed to reciprocate.

Referring to fig. 5, a driving groove 201 is formed on a side of the moving member 2, two ends of the driving groove 201 are arc structures, a driving shaft 105 is inserted into the driving groove 201, so that the driving shaft 105 can move in the driving groove, further, the moving member 2 is conveniently controlled to reciprocate, a driving rod 202 is of a rectangular structure, and the driving rod 202 is inserted into the sliding groove 102, so that the driving rod 202 can guide displacement in the sliding groove 102; the bottom of each moving block 203 is provided with a bottom groove 204, the bottom groove 204 is of a rectangular structure, a driving rod 202 is embedded in the bottom groove 204, the driving rod 202 can control the guiding displacement of the moving block 203 through the bottom groove 204, two blocking pieces 205 are respectively arranged on two sides of the bottom of each moving block 203, and the blocking pieces 205 are of rectangular structures and are used for controlling the guiding displacement of the moving blocks 203; the two sides of each moving block 203 are respectively provided with a side plate 206 which is installed in a staggered way, the side plates 206 are of L-shaped plate structures and are used for supporting the pushing plates 207, the bottom of each side plate 206 is provided with a pushing plate 207, the pushing plates 207 are of circular plate structures, the two sides of each pushing plate 207 are respectively provided with a groove, the grooves are of circular structures, the outer sides of the grooves are of inclined structures and are used for assisting in pushing powder to circulate, and the split flow can be discharged through the grooves quickly.

When in use, the utility model is characterized in that: when the device is needed to be used, the main body 1 can be controlled by manpower to be placed at a proper position, then two containers are placed at the bottoms of two sides of the main body 1, then a motor is turned on to operate, so that the motor can control the driving shaft 105 to rotate together, the driving shaft 105 can move in the interior of the insertion groove and the driving groove 201, and then the moving piece 2 and the stressed piece 108 are controlled to reciprocate together, then mixed powder is added into the interior of the main body 1, the powder can be placed in the interior of the main body 1 to be screened, the moving piece 2 can be driven to reciprocate together while the moving piece 2 reciprocates, and then the moving block 203 is driven to reciprocate together, the side plate 206 can be driven to reciprocate together, the pushing plate 207 can push the powder to flow quickly, and then the powder is discharged through the through groove 101, the moving block 203 can squeeze the caking in the interior of the through groove 101, the caking and the caking can be squeezed quickly, the cleaning efficiency is improved, the powder can be prevented from being missed, the powder can be pushed into the interior of the through groove 101, the wedge-shaped piece 106 can be controlled to move together, and the collecting efficiency can be improved, and the collecting efficiency can be controlled to be further improved.

Claims (8)

1. A powder sieving apparatus, comprising: a main body (1); the outer side of the top end of the main body (1) is of an inclined structure, a plurality of supporting pieces (103) are arranged at the bottom of the main body (1), a pushing piece (106) is arranged in the plurality of supporting pieces (103), two sides of the inside of the pushing piece (106) are of the inclined structure, and a wedge-shaped block is arranged in the middle of the pushing piece (106); the movable part (2), the outside at main part (1) is installed to movable part (2), and the inside of movable part (2) is equipped with evenly arranged actuating lever (202), and the top of every actuating lever (202) is connected with evenly arranged movable block (203).

2. Powder sieving device according to claim 1, wherein the inside of the main body (1) is provided with evenly arranged through grooves (101), a moving block (203) is inserted into the through grooves (101), and two sides of the bottom of the main body (1) are respectively provided with a sliding groove (102).

3. A powder screening device according to claim 2, characterized in that the inside of each support (103) is provided with a guide slot (104), the side of the body (1) being fitted with a motor, the bottom of which is in driving connection with a drive shaft (105).

4. A powder sieving device as claimed in claim 3, characterized in that the push member (106) is provided with a guide bar (107) on each side thereof, the guide bar (107) being embedded in the guide slot (104), the push member (106) being provided with a force-receiving member (108) above the side thereof, the force-receiving member (108) being provided with an insertion slot in which the bottom end of the drive shaft (105) is inserted.

5. A powder screening device according to claim 4, characterized in that the side of the moving member (2) is provided with a driving groove (201), the driving shaft (105) is inserted into the driving groove (201), the driving rod (202) is of a rectangular structure, and the driving rod (202) is inserted into the sliding groove (102).

6. The powder sieving apparatus as claimed in claim 5, wherein a bottom groove (204) is provided at the bottom of each of said moving blocks (203), a driving rod (202) is embedded in the bottom groove (204), and two stoppers (205) are provided at both sides of the bottom of each of said moving blocks (203).

7. Powder sieving device according to claim 1, wherein each of said moving blocks (203) has a side plate (206) provided on both sides thereof, each side plate (206) has a push plate (207) provided on the bottom thereof, each push plate (207) has a recess provided on both sides thereof, and the outside of the recess has an inclined structure.

8. A powder screening device according to claim 1, characterized in that the moving block (203) has a rectangular structure, and both sides of the moving block (203) have an arc-shaped structure.

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