CN217569532U - High-efficient sieve powder device with prevent blockking up function - Google Patents

Abstract

The utility model provides a high-efficient sieve powder device with prevent blockking up function, the on-line screen storage device comprises a base, riser A is established perpendicularly in the lateral wall left side on the base, riser B is established perpendicularly by the right side to the lateral wall on the base, pivot B is established in rotation of riser B left side wall upper portion, pivot A is established in rotation of riser A upper portion, the rotatory riser A that runs through of pivot A left part, the cylinder lateral wall respectively with soft connector B, soft connector A free end is connected, sprocket A is established on riser A left side wall upper portion, sprocket A is connected with pivot A left end, motor B is established to the lateral wall on the bearing board, sprocket B is established to motor B main shaft end, the stirring subassembly is established to the cavity internal rotation of cylinder, the portal frame is established to the cylinder up end, motor A is established to the lateral wall on the portal frame, riser A, establish the guide subassembly between the riser B. The utility model has the advantages that: through stirring the effectual mesh that prevents of subassembly and blockking up, thereby further improvement screening efficiency reduces artifical sieve cleaning and lowers the cost of labor, improves the screening speed, is convenient for hold the material reposition of redundant personnel of screening.

Description

High-efficient sieve powder device with prevent blockking up function

Technical Field

The utility model relates to a sieve powder device especially relates to a high-efficient sieve powder device with prevent blockking up function.

Background

At present, with the development of society and the needs of life, cosmetics are scattered on any part of the surface of a human body by smearing, spraying or other similar methods so as to achieve the purposes of cleaning, maintaining, decorating and changing the appearance and keeping a good state, powdery raw materials are often added in the production process of the cosmetics to be stirred and homogenized, after the existing powder sieving device conducts sieving for a period of time, meshes are easy to block, the sieving efficiency is reduced, meanwhile, agglomerated powder lumps need to be taken out for utilization, the time is wasted, and when the raw material powder lumps are too much, the screen meshes can be blocked, the sieving efficiency is influenced, the existing multistage powder sieving device needs to manually use a plurality of powder sieving plates for sieving, so that a large amount of labor cost is consumed, and the sieving cost is high; the existing multistage powder screening device does not have a collecting device after screening, so that the screening speed is low, and the screening time is long.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the high-efficiency powder screening device with the anti-blocking function is provided, and the problems that after the existing powder screening device is screened for a period of time, meshes are easy to block, screening efficiency is reduced, agglomerated powder balls need to be taken out and utilized, time is wasted, and when raw material powder balls are excessive, a screen is blocked, so that the screening efficiency is influenced are solved; the existing multistage powder screening device does not have a collecting device after screening, so that the problems of low screening speed and long screening time are caused.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be: a high-efficiency powder sieving device with an anti-blocking function comprises a base, wherein a vertical plate A is vertically and fixedly arranged on the left side of the upper side wall of the base, a vertical plate B is vertically and fixedly arranged on the upper side wall of the base from the right side, a rotating shaft B is rotatably arranged on the upper part of the left side wall of the vertical plate B, a flexible connecting piece B is fixedly arranged on the left side of the rotating shaft B, a rotating shaft A is rotatably arranged on the upper part of the vertical plate A, the left part of the rotating shaft A rotatably penetrates through the vertical plate A, the flexible connecting piece A is fixedly arranged on the right end of the rotating shaft A, a cylinder is arranged between the vertical plate A and the vertical plate B, the outer side wall of the cylinder is respectively fixedly connected with the flexible connecting piece B and the free end of the flexible connecting piece A, a chain wheel A is arranged on the upper part of the left side wall of the vertical plate A, the chain wheel A is fixedly connected with the left end of the rotating shaft A, a bearing plate is fixedly arranged in the middle part of the left side wall of the vertical plate A, the improved stirring device is characterized in that a motor B is fixedly arranged on the upper side wall of the bearing plate, a chain wheel B is fixedly arranged on the main shaft end of the motor B, the chain wheel B and the chain wheel A are in power transmission through a chain, a stirring assembly is arranged in a cavity of the cylinder in a rotating mode, a portal frame is fixedly arranged on the upper end face of the cylinder, a motor A is fixedly arranged on the upper side wall of the portal frame, a main shaft of the motor A rotates to penetrate through the upper side wall of the portal frame, the main shaft end of the motor A is fixedly connected with the stirring assembly, a screen A and a screen B are respectively arranged in the cavity of the cylinder, the screen A is located right above the screen B, the stirring assembly is respectively matched with the screen A and the screen B, a material guide assembly is arranged between the vertical plate A and the vertical plate B, and the material guide assembly is located below the cylinder.

The stirring subassembly includes center pin, sleeve pipe A, xarm A, brush board A, sleeve pipe B, xarm B and brush board B, the cylinder cavity internal rotation sets up the center pin, the center pin upper end with motor A main shaft end fixed connection, sleeve pipe A is established to center pin middle part cover, the fixed xarm A that sets up of sleeve pipe A lateral wall, xarm A lateral wall is fixed to set up brush board A, brush board A with screen cloth A position clearance fit, sleeve pipe B is established to center pin lower extreme cover, the fixed xarm B that sets up of sleeve pipe B lateral wall, xarm B lateral wall is fixed to set up brush board B, brush board B with screen cloth B clearance fit effectively prevents likepowder material jam screen cloth A and screen cloth B through the stirring subassembly.

The quantity of xarm A, brush board A, xarm B and brush board B is two, improves sieve powder efficiency.

The central shaft is in over-tight fit with the sleeve A, and the central shaft is in over-tight fit with the sleeve B, so that the replacement and maintenance are facilitated.

The guide subassembly includes positive triangular prism, base A, base B, spring A, spring B, recess A, recess B, recess C and vibrator, the activity sets up positive triangular prism between riser A, the riser B, the fixed base A that sets up of riser A right side wall, the fixed base B that sets up of riser B left side wall, base A, base B all are located the downside of positive triangular prism, the fixed spring A that sets up of base A up end, the fixed spring B that sets up of base B side wall, recess A is seted up to positive triangular prism lower side wall left end, recess B is seted up to positive triangular prism lower side wall right-hand member, spring A upper end with recess A cavity top fixed connection, spring B upper end with recess B cavity top fixed connection, recess C is seted up at positive triangular prism lower side wall middle part, recess C's cavity top is fixed to set up the vibrator, is convenient for divide the good branch water conservancy diversion of screening through the guide subassembly.

The guide assembly further comprises a guide groove A and a guide groove B, the guide groove A is formed in the slope surface of the front side wall of the regular triangular prism, the guide groove B is formed in the slope surface of the front side wall of the regular triangular prism, and powder is conveniently divided through the guide groove A and the guide groove B.

The lower side wall of the bearing plate is fixedly provided with a reinforcing rib, the free end of the reinforcing rib is fixedly connected with the left side wall of the vertical plate A, the portal frame is provided with a protective cover, and the motor A is positioned in a cavity of the protective cover and is safe and stable through the whole device.

The utility model discloses a theory of operation: the method comprises the steps that the material to be screened is poured into a cylinder 8 through an operator, then a motor A16 is started, a main shaft of the motor A16 drives a stirring assembly 14 to rotate, the material is stirred through the stirring assembly 14, screen meshes A17 and screen meshes B18 are cleaned through a brush plate A144 and a brush plate B147 respectively, the material falls onto a material guide assembly 19 gradually, the material is reasonably and effectively distributed and collected through a diversion trench A1911 and a diversion trench B1912, a vibrator 199 is started, the powder is effectively prevented from being adsorbed on the surface of the material guide assembly 19 through vibration of the vibrator 199, screened large particles are blocked on the screen meshes A17, then the motor B11 is started, a chain wheel A9 is driven to rotate through a chain 13, and the cylinder 8 is overturned to dump the waste materials.

The beneficial effects of the utility model reside in that: 1. through stirring the effectual mesh that prevents of subassembly and blockking up, further improvement screening efficiency reduces artifical clear sieve and reduces the cost of labor, improves the screening speed, is convenient for hold the material reposition of redundant personnel of screening. 2. The stirring subassembly includes center pin, sleeve pipe A, xarm A, brush board A, sleeve pipe B, xarm B, brush board B, the cylinder cavity internal rotation sets up the center pin, the center pin upper end with motor A main shaft end fixed connection, sleeve pipe A is established to center pin middle part cover, sleeve pipe A lateral wall is fixed to set up xarm A, xarm A lateral wall is fixed to set up brush board A, brush board A with screen cloth A position clearance fit, sleeve pipe B is established to the center pin lower extreme cover, sleeve pipe B lateral wall is fixed to set up xarm B, xarm B lateral wall is fixed to set up brush board B, brush board B with screen cloth B clearance fit prevents effectively that likepowder material from blockking up screen cloth A and screen cloth B through the stirring subassembly. 3. The number of the cross arm A, the number of the brush plate A, the number of the cross arm B and the number of the brush plate B are two, so that the powder sieving efficiency is improved. 4. The central shaft is in over-tight fit with the sleeve A, and the central shaft is in over-tight fit with the sleeve B, so that the replacement and maintenance are facilitated. 5. The guide subassembly includes positive triangular prism, base A, base B, spring A, spring B, recess A, recess B, recess C, vibrator, the activity sets up positive triangular prism between riser A, the riser B, the fixed base A that sets up of riser A right side wall, the fixed base B that sets up of riser B left side wall, base A, base B all are located the downside of positive triangular prism, the fixed spring A that sets up of base A up end, the fixed spring B that sets up of base B side wall, recess A is seted up to lateral wall left end under the positive triangular prism, recess B is seted up to lateral wall right-hand member under the positive triangular prism, spring A upper end with recess A cavity top fixed connection, spring B upper end with recess B cavity top fixed connection, recess C is seted up at lateral wall middle part under the positive triangular prism, recess C's cavity top is fixed to set up the vibrator, is convenient for the partial shipment water conservancy diversion that will sieve through the guide subassembly. 6. The guide assembly further comprises a guide groove A and a guide groove B, the guide groove A is formed in the slope surface of the front side wall of the regular triangular prism, the guide groove B is formed in the slope surface of the front side wall of the regular triangular prism, and powder is conveniently divided through the guide groove A and the guide groove B. 7. The lower side wall of the bearing plate is fixedly provided with a reinforcing rib, the free end of the reinforcing rib is fixedly connected with the left side wall of the vertical plate A, the portal frame is provided with a protective cover, and the motor A is positioned in a cavity of the protective cover and is safe and stable through the whole device.

Drawings

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

fig. 2 is a rear view structure diagram of the present invention;

fig. 3 is a left side view structure diagram of the present invention;

fig. 4 is a perspective view illustrating the material guide assembly of fig. 1;

fig. 5 is a perspective view of the material guide assembly of fig. 1;

fig. 6 is a schematic structural view of the stirring assembly in fig. 1.

The device comprises a base 1, a vertical plate 2, a vertical plate A, a vertical plate 3, a rotating shaft 4, a soft connecting piece B5, a rotating shaft 6, a soft connecting piece 7, a cylindrical body 8, a chain wheel 9, a supporting plate 10, a motor 11, a chain wheel 12, a chain 13, a stirring component 14, a central shaft 141, a sleeve 142, a cross arm 143, a brush plate 144, a sleeve 145, a sleeve B146, a brush plate 147, a portal frame 15, a motor 16, a screen 17, a screen 18, a screen guide 19, a triangular prism 191, a guide chute 1911, a guide chute 1912, a base 192, a base 193, a base B194, a spring A, a spring 195, a groove 196, a groove 197, a groove C198, a vibrator 199, a reinforcing ribs 20 and a protective cover 21.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1 to 6, the efficient powder sieving device with the anti-blocking function according to the present embodiment includes a base 1, a vertical plate A2 is vertically welded on the left side of the upper side wall of the base 1, a vertical plate B3 is vertically welded on the right side of the upper side wall of the base 1, a rotating shaft B4 is rotatably arranged at the upper part of the left side wall of the vertical plate B3, a soft connecting piece B5 is welded at the left end of the rotating shaft B4, a rotating shaft A6 is rotatably arranged at the upper part of the vertical plate A2, the left part of the rotating shaft A6 rotatably penetrates through the vertical plate A2, a soft connecting piece A7 is welded at the right end of the rotating shaft A6, a cylinder body 8 is arranged between the vertical plate A2 and the vertical plate B3, the outer side wall of the cylinder body 8 is respectively welded with the free ends of the soft connecting piece B5 and the soft connecting piece A7, the upper part of the left side wall of the vertical plate A2 is provided with a chain wheel A9, the chain wheel A9 is welded and connected with the left end of the rotating shaft A6, a bearing plate 10 is welded in the middle of the left side wall of the vertical plate A2, a motor B11 is welded on the upper side wall of the bearing plate 10, a chain wheel B12 is welded at the main shaft end of the motor B11, the chain wheel B12 and the chain wheel A9 are in power transmission through a chain 13, a stirring component 14 is rotationally arranged in a cavity of the cylinder 8, a portal frame 15 is welded on the upper end surface of the cylinder 8, a motor A16 is welded on the upper side wall of the portal frame 15, a main shaft of the motor A16 rotates to penetrate through the upper side wall of the portal frame 15, the main shaft end of the motor A16 is welded with the stirring component 14, a screen A17 and a screen B18 are respectively arranged in the cavity of the cylinder 8, the screen A17 is positioned right above the screen B18, the stirring assembly 14 is respectively matched with the screen A17 and the screen B18, a material guiding assembly 19 is arranged between the vertical plate A2 and the vertical plate B3, and the material guiding assembly 19 is located below the cylinder 8.

In an alternative embodiment, the stirring assembly 14 includes a central shaft 141, a sleeve a142, a cross arm a143, a brush plate a144, a sleeve B145, a cross arm B146, and a brush plate B147, the central shaft 141 is rotatably disposed in the cavity of the cylinder 8, the upper end of the central shaft 141 is welded to the main shaft end of the motor a16, the sleeve a142 is sleeved in the middle of the central shaft 141, the cross arm a143 is welded to the outer side wall of the sleeve a142, the brush plate a144 is welded to the lower side wall of the cross arm a143, the brush plate a144 is in clearance fit with the screen a17, the sleeve B145 is sleeved at the lower end of the central shaft 141, the cross arm B146 is welded to the outer side wall of the sleeve B145, the brush plate B147 is welded to the lower side wall of the cross arm B146, and the brush plate B147 is in clearance fit with the screen B18, so that the powdery material is effectively prevented from blocking the screen a17 and the screen B18 by the stirring assembly 14.

In an alternative embodiment, the number of the cross arm A143, the brush plate A144, the cross arm B146 and the brush plate B147 is two, so that the powder sieving efficiency is improved.

In an alternative embodiment, the central shaft 141 is over-tightly fitted to the casing a142, and the central shaft 141 is over-tightly fitted to the casing B145, so as to facilitate replacement and maintenance.

In an optional embodiment, the material guiding assembly 19 includes a regular triangular prism 191, a base a192, a base B193, a spring a194, a spring B195, a groove a196, a groove B197, a groove C198, and a vibrator 199, the regular triangular prism 191 is movably disposed between the upright plates A2 and B3, the base a192 is disposed on the right sidewall of the upright plate A2 by welding, the base B193 is disposed on the left sidewall of the upright plate B3 by welding, the base a192 and the base B193 are both located on the lower side of the regular triangular prism 191, the spring a194 is disposed on the upper end surface of the base a192 by welding, the spring B195 is disposed on the upper sidewall of the base B193 by welding, the groove a196 is disposed on the left end of the lower sidewall of the regular triangular prism 191, the groove B197 is disposed on the right end of the lower sidewall of the regular triangular prism 191, the upper end of the spring a194 is welded to the top end of the cavity of the groove a196, the upper end of the spring B195 is welded to the top end of the cavity of the groove B197, the groove B197 is welded to the groove C198, the top of the cavity of the groove C198 is welded to separate the vibrator 199, and the material guiding assembly is separated from the material guiding assembly 19.

In an optional embodiment, the material guiding assembly 19 further includes a flow guiding groove a1911 and a flow guiding groove B1912, the sloping surface of the front side wall of the regular triangular prism 191 is provided with the flow guiding groove a1911, and the sloping surface of the front side wall of the regular triangular prism 191 is provided with the flow guiding groove B1912, so that the flow of the powder material is conveniently divided by the flow guiding groove a1911 and the flow guiding groove B1912.

In an alternative embodiment, the lower side wall of the supporting plate 10 is welded with a reinforcing rib 20, the free end of the reinforcing rib 20 is welded with the left side wall of the vertical plate A2, the portal frame 15 is provided with a protective cover 21, and the motor a16 is located in the cavity of the protective cover 21, so that the safety and stability of the whole device are improved.

The working principle of the specific embodiment is as follows: the method comprises the steps that the divided materials needing to be screened are poured into a cylinder body 8 by an operator, then a motor A16 is started, a main shaft of the motor A16 drives a stirring assembly 14 to rotate, the stirring assembly 14 is enabled to stir powder materials, screen meshes A17 and screen meshes B18 are respectively brushed through a brush board A144 and a brush board B147, the powder materials sequentially and gradually fall onto a material guide assembly 19, the powder materials are reasonably and effectively shunted and collected through a diversion trench A1911 and a diversion trench B1912, a vibrator 199 is started, the powder materials are effectively prevented from being adsorbed on the surface of the material guide assembly 19 through vibration of the vibrator 199, screened large particles are blocked on the screen meshes A17, then the motor B11 is started, a chain wheel A9 is driven to rotate through a chain 13 through a motor B11 transmission chain 13, and the cylinder body 8 is enabled to overturn and dump waste materials.

The beneficial effects of the utility model reside in that: 1. through stirring the effectual mesh that prevents of subassembly and blockking up, further improvement screening efficiency reduces artifical clear sieve and reduces the cost of labor, improves the screening speed, is convenient for hold the material reposition of redundant personnel of screening. 2. Stirring subassembly includes center pin, sleeve pipe A, xarm A, brush board A, sleeve pipe B, xarm B, brush board B, the cylinder cavity internal rotation sets up the center pin, the center pin upper end with motor A main shaft end fixed connection, sleeve pipe A is established to center pin middle part cover, sleeve pipe A lateral wall is fixed to set up xarm A, xarm A lateral wall is fixed to set up brush board A, brush board A with screen cloth A position clearance fit, sleeve pipe B is established to the center pin lower extreme cover, sleeve pipe B lateral wall is fixed to set up xarm B, xarm B lateral wall is fixed to set up brush board B, brush board B with screen cloth B clearance fit prevents effectively that likepowder material from blockking up screen cloth A and screen cloth B through stirring subassembly. 3. The number of the cross arm A, the number of the brush plate A, the number of the cross arm B and the number of the brush plate B are two, so that the powder sieving efficiency is improved. 4. The central shaft is in over-tight fit with the sleeve A, and the central shaft is in over-tight fit with the sleeve B, so that the replacement and maintenance are facilitated. 5. The guide subassembly includes positive triangular prism, base A, base B, spring A, spring B, recess A, recess B, recess C, vibrator, the activity sets up positive triangular prism between riser A, the riser B, the fixed base A that sets up of riser A right side wall, the fixed base B that sets up of riser B left side wall, base A, base B all are located the downside of positive triangular prism, the fixed spring A that sets up of base A up end, the fixed spring B that sets up of base B side wall, recess A is seted up to lateral wall left end under the positive triangular prism, recess B is seted up to lateral wall right-hand member under the positive triangular prism, spring A upper end with recess A cavity top fixed connection, spring B upper end with recess B cavity top fixed connection, recess C is seted up at lateral wall middle part under the positive triangular prism, recess C's cavity top is fixed to set up the vibrator, is convenient for the partial shipment water conservancy diversion that will sieve through the guide subassembly. 6. The guide assembly further comprises a guide groove A and a guide groove B, the guide groove A is formed in the slope surface of the front side wall of the regular triangular prism, the guide groove B is formed in the slope surface of the front side wall of the regular triangular prism, and powder is conveniently divided through the guide groove A and the guide groove B. 7. The lower side wall of the bearing plate is fixedly provided with a reinforcing rib, the free end of the reinforcing rib is fixedly connected with the left side wall of the vertical plate A, the portal frame is provided with a protective cover, and the motor A is positioned in a cavity of the protective cover and is safe and stable through the whole device.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (7)

1. The utility model provides a high-efficient sieve powder device with prevent blockking up function, includes base (1), its characterized in that: the vertical plate A (2) is vertically and fixedly arranged on the left side of the upper side wall of the base (1), the vertical plate B (3) is vertically and fixedly arranged on the upper side wall of the base (1) by the right side, the rotating shaft B (4) is arranged on the upper portion of the left side wall of the vertical plate B (3) in a rotating manner, the flexible connecting piece B (5) is fixedly arranged on the left side end of the rotating shaft B (4), the rotating shaft A (6) is arranged on the upper portion of the vertical plate B (2), the rotating shaft A (6) is rotatably arranged on the upper portion of the vertical plate A (6), the flexible connecting piece A (7) is fixedly arranged on the right end of the rotating shaft A (6), the cylinder (8) is arranged between the vertical plate A (2) and the vertical plate B (3), the outer side wall of the cylinder (8) is fixedly connected with the flexible connecting piece B (5) and the free end of the flexible connecting piece A (7) respectively, the chain wheel A (9) is arranged on the upper portion of the left side wall of the vertical plate A (2), the chain wheel A (9) is fixedly arranged on the left side wall of the rotating shaft A (6), the vertical plate A (2), the chain wheel A) is fixedly arranged on the middle portion of the supporting plate (10), the supporting plate B (11), the supporting plate B (12) is fixedly arranged on the chain wheel B (12) and is arranged in the main shaft A) through the chain wheel (12) and the chain (14) and the chain wheel (12) for transmitting assembly of the stirring chain (14), the utility model discloses a cylinder, including cylinder (8), portal frame (15), motor A (16), screen cloth A (17), screen cloth B (18) are set up respectively in the cavity to the fixed portal frame (15) that sets up of up end face on cylinder (8), motor A (16) main shaft rotation runs through portal frame (15) and goes up the side wall, just motor A (16) main shaft end with stirring subassembly (14) fixed connection, set up screen cloth A (17), screen cloth B (18) in cylinder (8) cavity respectively, screen cloth A (17) are located directly over screen cloth B (18), stirring subassembly (14) cooperate with screen cloth A (17), screen cloth B (18) respectively, set up guide subassembly (19) between riser A (2), riser B (3), guide subassembly (19) are located the below of cylinder (8).

2. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 1, wherein: the stirring assembly (14) comprises a central shaft (141), a sleeve A (142), a cross arm A (143), a brush plate A (144), a sleeve B (145), a cross arm B (146) and a brush plate B (147), wherein the central shaft (141) is rotationally arranged in a cavity of the cylinder (8), the upper end of the central shaft (141) is fixedly connected with a main shaft end of the motor A (16), the sleeve A (142) is sleeved in the middle of the central shaft (141), the cross arm A (143) is fixedly arranged on the outer side wall of the sleeve A (142), the brush plate A (144) is fixedly arranged on the lower side wall of the cross arm A (143), the brush plate A (144) is in clearance fit with the screen A (17), the sleeve B (145) is sleeved at the lower end of the central shaft (141), the cross arm B (146) is fixedly arranged on the outer side wall of the sleeve B (145), the brush plate B (147) is fixedly arranged on the lower side wall of the cross arm B (146), and the brush plate B (147) is in clearance fit with the screen B (18).

3. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 2, wherein: the number of the cross arms A (143), the number of the brush plates A (144), the number of the cross arms B (146) and the number of the brush plates B (147) are two.

4. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 2, wherein: the central shaft (141) is over-tightly matched with the sleeve A (142), and the central shaft (141) is over-tightly matched with the sleeve B (145).

5. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 1, wherein: the material guide component (19) comprises a regular triangular prism (191), a base A (192), a base B (193), a spring A (194), a spring B (195), a groove A (196), a groove B (197), a groove C (198) and a vibrator (199), a regular triangular prism (191) is movably arranged between the vertical plate A (2) and the vertical plate B (3), a base A (192) is fixedly arranged on the right side wall of the vertical plate A (2), a base B (193) is fixedly arranged on the left side wall of the vertical plate B (3), the base A (192) and the base B (193) are both positioned at the lower side of the regular triangular prism (191), a spring A (194) is fixedly arranged on the upper end surface of the base A (192), a spring B (195) is fixedly arranged on the upper side wall of the base B (193), the left end of the lower side wall of the regular triangular prism (191) is provided with a groove A (196), the right end of the lower side wall of the regular triangular prism (191) is provided with a groove B (197), the upper end of the spring A (194) is fixedly connected with the top end of the cavity of the groove A (196), the upper end of the spring B (195) is fixedly connected with the top end of the cavity of the groove B (197), the middle part of the lower side wall of the regular triangular prism (191) is provided with a groove C (198), the vibrator (199) is fixedly arranged at the top of the cavity of the groove C (198).

6. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 5, wherein: the guide assembly (19) further comprises a guide groove A (1911) and a guide groove B (1912), the guide groove A (1911) is formed in the slope surface of the front side wall of the regular triangular prism (191), and the guide groove B (1912) is formed in the slope surface of the front side wall of the regular triangular prism (191).

7. The high-efficiency powder sieving device with the anti-blocking function as claimed in claim 1, wherein: the wall is fixed to be provided with strengthening rib (20) under bearing board (10), strengthening rib (20) free end with riser A (2) left side wall fixed connection, set up protection casing (21) on portal frame (15), motor A (16) are located in the cavity of protection casing (21).

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