CN214600300U - Vibrating screen - Google Patents

Abstract

The application relates to the technical field of production of washing powder, in particular to a vibrating screen. It includes the shale shaker body, be provided with vibrating motor on the shale shaker body, it is connected with the rotation lid to rotate on the lateral wall on the shale shaker body, it has seted up the feed inlet to rotate to cover, rotate to cover be provided with the connecting bolt that the lateral wall links to each other on the shale shaker body, set up the screening chamber in the shale shaker body, it has first filter screen to dismantle in the screening chamber, the screening intracavity is provided with out the flitch, set up the big material discharge gate on the shale shaker body lateral wall, big material is gone out through the big material discharge gate from first filter screen, set up little material discharge gate on the shale shaker body lateral wall, little material is gone out through little material discharge gate from going out the flitch. This application is through changing the washing to first filter screen, can reduce the material and pile up on first filter screen, increases the effect of screening.

Description

Vibrating screen

Technical Field

The application relates to the technical field of production of washing powder, in particular to a vibrating screen.

Background

The vibrating screen is a device for screening articles, and is used for screening out different materials of particles respectively so as to ensure the particle size of the materials to be used.

Chinese utility model discloses a shale shaker as authorizing bulletin number CN211217483U, including vibrating motor, vibrating motor's output shaft stretch out vibrating motor's upper and lower both ends respectively, the output shaft upper end be equipped with the upper portion weight, the output shaft lower extreme be equipped with the lower part weight, upper portion weight and lower part weight between angle regulation, the upper portion weight can rotate around the output shaft, output shaft and upper portion weight between be equipped with and make the upper portion weight fix at the epaxial fixed establishment of output, be provided with the feed inlet on the shale shaker, be provided with the screen cloth in the shale shaker, shale shaker one side is provided with undersize material mouth, still is provided with oversize material mouth on the shale shaker. When the staff carries out the screening to the material, with the material from the feed inlet input earlier, then open vibrating motor, vibrating motor vibrates and drives the shale shaker vibration to make the material screened on the screen cloth, on the screen cloth was stayed to coarser material, go out from the material mouth on the sieve, finer material falls down from the screen cloth, goes out from the material mouth under the sieve.

To the correlation technique among the above-mentioned, the inventor thinks, the screen cloth in the shale shaker among the correlation technique is fixed connection in the vibration intracavity, screens the back to the material for a long time, probably causes the material to adhere on the screen cloth to when leading to the material screening, the material that originally can pass through from the screen cloth can not pass through, influences the screening.

SUMMERY OF THE UTILITY MODEL

In order to solve the long-term use of screen cloth, screening effect reduces the problem, this application provides a shale shaker.

The application provides a shale shaker adopts following technical scheme:

the utility model provides a vibrating screen, includes the vibrating screen body, be provided with vibrating motor on the vibrating screen body, it is connected with the rotation lid to rotate on the lateral wall on the vibrating screen body, the feed inlet has been seted up to the rotation lid, rotate to cover be provided with the connecting bolt that the lateral wall links to each other on the vibrating screen body, it screens the chamber to have seted up in the vibrating screen body, it has first filter screen to screen the intracavity can be dismantled, it is provided with out the flitch to screen the intracavity, set up the big material discharge gate on the vibrating screen body lateral wall, big material is gone out through big material discharge gate from first filter screen, set up little material discharge gate on the vibrating screen body lateral wall, little material is gone out through little material discharge gate from going out the flitch.

Through adopting above-mentioned technical scheme, when screening the material, the staff puts into washing powder from rotating the feed inlet of covering earlier, make washing powder drop on first filter screen after that, open vibrating motor, the vibrating motor vibration makes in the washing powder large granule separate with the tiny particle, make the large granule continue to stay on first filter screen, the tiny particle passes through the filter screen and gets into out on the flitch, after long-term the use, the staff can open and rotate the lid, take out first filter screen from the vibration intracavity after that, wash or change first filter screen. Through changing the washing to first filter screen, can reduce the material and pile up on first filter screen, increase the effect of screening.

Preferably, the inner peripheral side wall of the screening cavity is fixedly connected with a supporting block, the first filter screen is placed on the supporting block, one end, close to the large material discharge port, of the first filter screen inclines upwards to one end, far away from the large material discharge port, of the first filter screen, and the supporting block and the first filter screen are abutted to each other.

Through adopting above-mentioned technical scheme, set up the supporting shoe on screening intracavity wall to can make first filter screen place on the supporting shoe, and set to the slope setting to first filter screen, thereby make big material can go out from big material discharge gate department, thereby reduced big material and piled up on first filter screen.

Preferably, a dovetail groove is formed in the side wall of the screening cavity, a dovetail block is connected to the inside of the dovetail groove in a sliding mode, a supporting block is fixedly connected to the side wall of the dovetail block, and the supporting block is tightly supported to the side wall of the first filter screen.

Through adopting above-mentioned technical scheme, when carrying out the location to first filter screen, the staff will support the forked tail piece on the tight piece and place in the dovetail for support the effect that the tight piece received gravity, with first filter screen butt, thereby make to support the tight piece and press first filter screen through gravity, reduce the possibility of first filter screen vibration.

Preferably, the outer side wall of the vibrating screen body is in threaded connection with a positioning bolt, and the positioning bolt penetrates through the side wall of the vibrating screen body and is in threaded connection with the dovetail block.

Through adopting above-mentioned technical scheme, will support behind tight piece and the first filter screen butt, the staff twists the positioning bolt for positioning bolt passes shale shaker body lateral wall and forked tail piece bolted connection, carries on spacingly to supporting tight piece, thereby further increases the effect of pressing to first filter screen.

Preferably, the discharge plate comprises a first plate fixedly connected to the wall of the vibration cavity and a second plate connected to the first plate, the first plate is inclined upwards from one end close to the small material discharge port to one end far away from the small material discharge port, the second plate is provided with two same plates, the second plate is inclined upwards from one end close to the first plate to one end far away from the first plate, and the side wall of the second plate is abutted against the side wall of the screening cavity.

Through adopting above-mentioned technical scheme, after little material falls from first filter screen, little material passes through the second board, because the second board is in the tilt state, little material on the second board gets into in the first board, and the tiny particle on the first board is the tilt state because the first board after that for tiny particle goes out from the tiny material discharge gate.

Preferably, a small material discharging pipe is arranged at an opening of the small material discharging port, the small material discharging pipe is communicated with the small material discharging port, a large material discharging pipe is arranged at an opening of the large material discharging port, and the large material discharging pipe is communicated with the large material discharging port.

Through adopting above-mentioned technical scheme, through setting up little material discharging pipe on little material discharge gate to make little material go out through little material discharging pipe, place the container of connecing the material under little material discharging pipe, can concentrate the collection to little material, it is extravagant to reduce little material, sets up big material discharging pipe and also has the same effect.

Preferably, the rotary rod is connected to the rotation of little material discharging pipe, be provided with a plurality of blades on the lateral wall of rotary rod week, little material discharging pipe lateral wall is provided with driving motor, driving motor's axis of rotation links to each other with the rotary rod.

Through adopting above-mentioned technical scheme, when little material came out, the staff opened driving motor, and driving motor rotates and drives the rotary rod and rotate, and the rotary rod rotates and takes the blade to rotate, cuts the tiny particle to make the tiny particle granule littleer, make the washing powder granule diminish, fast dissolve in aqueous more, improve the cleaning performance.

Preferably, the side wall of the small material discharge pipe is provided with a mounting hole, a mounting plate is bonded in the mounting hole, and the rotary rod is connected with the mounting plate in a rotating manner.

Through adopting above-mentioned technical scheme, when installing the blade, the staff pegs graft the mounting panel on the rotary rod earlier, makes the blade get into the little material discharging pipe through the mounting hole after that, bonds installation piece and ampere pile downthehole wall again, then couples together rotary rod and driving motor axis of rotation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through changing the washing to first filter screen, can reduce the material and pile up on first filter screen, increase the effect of screening.

2. Rotate through driving motor and drive the rotary rod and rotate, the rotary rod rotates and takes the blade to rotate, cuts the tiny particle to make the tiny particle granule littleer, make the washing powder granule diminish, quick dissolving improves the cleaning performance in aqueous.

3. Through setting up out the flitch make better going out from the shale shaker body of material.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic view of the connection of the discharge plate to the vibrating screen body.

Fig. 4 is a schematic view of the overall structure of the first tube and the second tube.

Figure 5 is a schematic view of the first filter of the present application in connection with a screening chamber.

Fig. 6 is an enlarged schematic view of a portion B in fig. 5.

Reference numerals: 1. a vibrating screen body; 21. a vibration motor; 22. a screening chamber; 23. rotating the cover; 24. a feed inlet; 3. a discharge plate; 31. a first plate; 32. a second plate; 41. a small material outlet; 5. a small material discharge pipe; 51. a first tube; 52. a second tube; 61. mounting holes; 62. mounting a plate; 63. a drive motor; 64. rotating the rod; 66. a blade; 67. a first filter screen; 71. a dovetail groove; 72. a dovetail block; 73. a propping block; 74. positioning the bolt; 75. a large material outlet; 76. a large material discharging pipe; 77. a connecting bolt; 81. a first connecting plate; 82. a second connecting plate; 91. and (7) a supporting block.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a vibrating screen, refer to fig. 1 and 2, a vibrating screen includes vibrating screen body 1, fixedly connected with vibrating motor 21 on the 1 lateral wall of vibrating screen body, vibrating motor 21 drives vibrating screen body 1 and vibrates, it has rotation lid 23 to articulate on the lateral wall on the vibrating screen, it has seted up feed inlet 24 on the lateral wall to rotate lid 23, the direction of seting up of feed inlet 24 is unanimous with vertical direction, fixedly connected with first connecting plate 81 on the 1 lateral wall of vibrating screen body, fixedly connected with second connecting plate 82 on the lateral wall of rotation lid 23, threaded connection has connecting bolt 77 on second connecting plate 82, first connecting plate 81 and second connecting plate 82 are worn to establish simultaneously to connecting bolt 77 tip, threaded connection has connecting nut on connecting bolt 77 tip, connecting nut and connecting bolt 77's tip supports tightly each other with second connecting plate 82 and first connecting plate 81 respectively.

Referring to fig. 2 and 3, a screening chamber 22 is formed in the vibrating screen body 1, the screening chamber 22 is communicated with the outside, and a feed port 24 (refer to fig. 1) is communicated with the screening chamber 22.

Referring to fig. 3, the bottom of the screening chamber 22 is fixedly connected with a discharge plate 3, and the discharge plate 3 includes a first plate 31 and a second plate 32. A small material discharge port 41 is formed in the side wall of the vibrating screen body 1, the end wall of the first plate 31 close to the small material discharge port 41 is fixedly connected with the lower side wall of the opening of the small material discharge port 41, the other end of the first plate 31 is fixedly connected with the side wall of the screening cavity 22 far away from the small material discharge port 41, and the side of the first plate 31 close to the small material discharge port 41 is inclined upwards to the side far away from the small material discharge port 41; the number of the second plates 32 is two, the second plates 32 are respectively located on two sides of the first plate 31, the two second plates 32 are respectively fixedly connected with two side walls of the first plate 31, the side wall of the second plate 32 far away from the first plate 31 is fixedly connected with the side wall of the screening chamber 22, and the side of the second plate 32 close to the first plate 31 is inclined upwards to the side far away from the first plate 31. The small materials enter the first plate 31 and the second plate 32 and enter the small material outlet 41 through inclination.

Referring to fig. 3 and 4, a small material discharging pipe 5 is disposed on a side wall of the small material discharging hole 41, the small material discharging pipe 5 includes a first pipe 51 and a second pipe 52, and the second pipe 52 is in a vertical direction. One end part of the first pipe 51 is fixedly connected with the small material discharging pipe 5, and the first pipe 51 is communicated with the screening cavity 22; the other end of the first pipe 51 is fixedly connected with the second pipe 52, the first pipe 51 is communicated with the second pipe 52, and the first pipe 51 is inclined downwards from one side close to the vibrating screen body 1 to one side far away from the vibrating screen body 1. The side wall of the first pipe 51 is provided with a mounting hole 61, and a mounting plate 62 is bonded in the mounting hole 61.

The lateral wall of the second pipe 52 is fixedly connected with a supporting block 91, the upper lateral wall of the supporting block 91 is fixedly connected with a driving motor 63, the mounting plate 62 is rotatably connected with a rotating rod 64, the rotating rod 64 is positioned in the first pipe 51, the partial peripheral lateral wall is fixedly connected with a plurality of blades 66, and the rotating shaft of the driving motor 63 is fixedly connected with the rotating rod 64. The rotation of the plurality of blades 66 both absorbs the small material and further cuts the small material.

Referring to fig. 5 and 6, fixedly connected with supporting shoe in the screening chamber 22 has placed first filter screen 67 on the supporting shoe, has seted up the big article discharge gate on the 1 lateral wall of shale shaker body, and big material discharge gate 75 is linked together with screening chamber 22 is inside, and first filter screen 67 is close to the one end of big material discharge gate 75 to keeping away from the one end slope of big material discharge gate 75 upwards, lateral wall and first filter screen 67's lateral wall fixed connection under the big material discharge gate 75 opening. All parts that first filter screen 67 and supporting shoe are close to each other all support tightly each other, and big material gets into big material discharge gate 75 through first filter screen 67. The side wall of the vibrating screen body 1 is fixedly connected with a large material discharging pipe 76, the large material discharging pipe 76 is covered on the large material discharging hole 75, and the large material discharging pipe 76 is communicated with the large material discharging hole 75.

The inner wall of the screening cavity 22 is provided with a plurality of dovetail grooves 71, dovetail blocks 72 are connected in the dovetail grooves 71 in a sliding mode, the side walls, away from the bottoms of the dovetail grooves 71, of the dovetail blocks 72 are fixedly connected with abutting blocks 73, the abutting blocks 73 abut against the first filter screen 67, the outer side wall of the vibrating screen body 1 is in threaded connection with positioning bolts 74, and the positioning bolts 74 penetrate through the side wall of the vibrating screen body 1 and are in threaded connection with the dovetail blocks 72.

The implementation principle of the vibrating screen in the embodiment of the application is as follows: place bleaching powder in screening chamber 22 earlier, then open vibrating motor 21, vibrating motor 21 vibrates and makes the tiny particle get into out flitch 3 on, and the large granule goes out from big material discharge gate 75, and the tiny particle goes out from tiny material discharge gate 41, opens driving motor 63 this moment, and driving motor 63 drives blade 66 and can rotate, further cuts the tiny particle of process to make the granule littleer, increase the dissolving speed, improve bleaching efficiency.

When the first filter screen 67 is installed, the first filter screen 67 is placed on the supporting block, the dovetail block 72 on the abutting block 73 is placed in the dovetail groove 71, the abutting block 73 abuts against the first filter screen 67, the positioning bolt 74 is screwed, the positioning bolt 74 penetrates through the side wall of the vibrating screen body 1 and is in threaded connection with the dovetail block 72, and installation is completed after installation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A vibrating screen, includes vibrating screen body (1), its characterized in that: a vibrating motor (21) is arranged on the vibrating screen body (1), a rotating cover (23) is rotatably connected on the side wall of the vibrating screen body (1), a feed inlet (24) is arranged on the rotating cover (23), a connecting bolt (77) connected with the upper side wall of the vibrating screen body (1) is arranged on the rotating cover (23), a screening cavity (22) is formed in the vibrating screen body (1), a first filter screen (67) is detachably arranged in the screening cavity (22), a discharge plate (3) is arranged in the screening cavity (22), a large material discharge hole (75) is arranged on the side wall of the vibrating screen body (1), large materials are discharged from the first filter screen (67) through the large material discharge hole (75), the vibrating screen is characterized in that a small material discharge hole (41) is formed in the side wall of the vibrating screen body (1), and small materials are discharged from the discharge plate (3) through the small material discharge hole (41).

2. The vibratory screen of claim 1, wherein: the filter screen is characterized in that supporting blocks are fixedly connected to the inner peripheral side wall of the screening cavity (22), the first filter screen (67) is placed on the supporting blocks, one end, close to the large material discharge port (75), of the first filter screen (67) inclines upwards to the end, far away from the large material discharge port (75), of the first filter screen, and the supporting blocks and the first filter screen (67) are abutted to each other.

3. The vibratory screen of claim 2, wherein: the screening chamber has seted up dovetail (71) on (22) the lateral wall, sliding connection is connected with dovetail (72) in dovetail (71), fixedly connected with supports tight piece (73) on dovetail (72) lateral wall, support tight piece (73) with the lateral wall supports tightly on first filter screen (67).

4. The vibratory screen of claim 3, wherein: the outer side wall of the vibrating screen body (1) is in threaded connection with a positioning bolt (74), and the positioning bolt (74) penetrates through the side wall of the vibrating screen body (1) and the dovetail block (72) in threaded connection.

5. The vibratory screen of claim 1, wherein: go out flitch (3) including fixed connection first board (31) on the wall of vibration cavity chamber and link to each other second board (32) on first board (31), first board (31) are close to the one end of little material discharge gate (41) and to keeping away from little material discharge gate (41) one end slope upwards, second board (32) are provided with the same two, second board (32) are close to the one end of first board (31) and to keeping away from the one end slope of first board (31) upwards, second board (32) lateral wall supports tightly each other with screening chamber (22) lateral wall.

6. The vibratory screen of claim 5, wherein: the utility model discloses a material discharging pipe, including little material discharge gate (41), big material discharge gate (75), little material discharge gate (41) opening part is provided with little material discharging pipe (5), little material discharging pipe (5) with little material discharge gate (41) are linked together, big material discharge gate (75) opening part is provided with big material discharging pipe (76), big material discharging pipe (76) with big material discharge gate (75) are linked together.

7. The vibratory screen of claim 6, wherein: the rotary rod (64) is connected to the internal rotation of little material discharging pipe (5), be provided with a plurality of blades (66) on rotary rod (64) week lateral wall, little material discharging pipe (5) lateral wall is provided with driving motor (63), the axis of rotation and rotary rod (64) of driving motor (63) link to each other.

8. The vibratory screen of claim 7, wherein: mounting hole (61) have been seted up on small-size material discharging pipe (5) lateral wall, mounting hole (61) internal bonding has mounting panel (62), rotary rod (64) rotate with mounting panel (62) and link to each other.

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