CN215542681U - Raw materials sieving mechanism is used in waterproof thick liquids production of nanometer - Google Patents

Abstract

The utility model discloses a raw material screening device for producing nano waterproof slurry, which comprises a box body, wherein a partition plate is fixedly connected to the inner wall of the box body, the inside of the box body is divided into a dispersion chamber and a filter chamber by the partition plate, the inner wall of the dispersion chamber is rotatably connected with a vertical rod, the side wall of the vertical rod is fixedly connected with a plurality of scattering rods, the inner wall of the filter chamber is provided with a first frame opening and a second frame opening, the first frame opening is arranged below the second frame opening, the inner walls of the first frame opening and the second frame opening are both connected with a sliding plate in a sliding manner, the side wall of the sliding plate is fixedly connected with a filter screen, the side wall of the partition plate close to the second frame opening is provided with a discharge opening, and the box body is provided with a first driving mechanism for driving the sliding plate to slide. According to the utility model, the vertical rod rotates to drive the scattering rod to rotate, so that powder entering the dispersion chamber can be scattered, the powder is prevented from being condensed together, the powder cannot be screened by the filter screen, and the screening efficiency of the powder is reduced.

Description

Raw materials sieving mechanism is used in waterproof thick liquids production of nanometer

Technical Field

The utility model relates to the technical field of waterproof slurry production, in particular to a raw material screening device for nanometer waterproof slurry production.

Background

The nano water-proof slurry is a double-component water-proof material specially used for building water-proofing, and is formed from powder material portion and liquid material portion according to a certain mixing ratio, its powder material is formed from high-quality cement, selected graded quartz sand and unique high-molecular polymer, and its liquid material is carboxyl styrene synthetic rubber emulsion.

At present, in order to ensure the quality of the slurry when the nano waterproof slurry is prepared, the powder of the nano waterproof slurry needs to be screened so as to remove larger particles, but the powder can be coagulated into larger particles after being placed for a period of time, so that the powder of the type can be screened out during screening, and then the powder needs to be screened after being crushed again through manpower, so that the labor intensity is high, and the screening efficiency of the powder is reduced.

Based on this, the utility model provides a raw material screening device for producing nano waterproof slurry.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art, and provides a raw material screening device for producing nano waterproof slurry.

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

the utility model provides a raw materials sieving mechanism is used in waterproof thick liquids production of nanometer, the power distribution box comprises a box body, box inner wall fixedly connected with baffle, the baffle divides into dispersion room and filter chamber in with the box, the inner wall of dispersion room rotates and is connected with the montant, a plurality of poles of breaing up of montant lateral wall fixedly connected with, first frame mouth and second frame mouth have been seted up to the filter chamber inner wall, first frame mouth is located second frame mouth below setting, the equal sliding connection of first frame mouth and second frame mouth inner wall has the slide, slide lateral wall fixedly connected with filter screen, the baffle is close to the lateral wall of second frame mouth and has seted up the discharge gate, install the gliding actuating mechanism of drive slide on the box.

Preferably, first actuating mechanism includes the motor through support fixed connection in the box upper end, motor expansion end fixedly connected with disc, slide upper end fixedly connected with U type pole, box lateral wall sliding connection has the slide bar, slide bar one end and U type pole lateral wall fixed connection, the one end that U type pole was kept away from to the slide bar is rotated and is connected with the horizontal pole, the disc lateral wall rotates through pivot and horizontal pole lateral wall and is connected, install drive montant pivoted second actuating mechanism on the motor.

Preferably, the second driving mechanism comprises a driving wheel fixedly connected to the side wall of the movable shaft of the motor, a driven wheel is fixedly connected to the upper side of the side wall of the vertical rod, and the driving wheel is connected with the driven wheel through a synchronous belt.

Preferably, the side wall of the sliding plate is elastically connected with the inner wall of the box body through a spring.

Preferably, the inner top of the dispersing chamber far away from the discharge hole is provided with a feed inlet, and the inner bottom of the filtering chamber is provided with a discharge hole.

Preferably, the side wall of the box body is fixedly connected with two supporting plates, and the lower ends of the two supporting plates are fixedly connected with the ground through bolts.

The utility model has the following beneficial effects:

1. by arranging the vertical rod and the scattering rod, the vertical rod rotates to drive the scattering rod to rotate, so that powder entering the dispersing chamber can be scattered, the powder is prevented from being condensed together, the powder cannot be screened by the filter screen, and the screening efficiency of the powder is reduced;

2. through setting up motor, disc, horizontal pole, slide bar, U type pole and slide, the motor rotates and drives the disc and rotate, and then the disc drives the horizontal pole through the pivot and rotates, and then the horizontal pole drives the slide bar of being connected rather than one end rotation and makes a round trip to slide at the box lateral wall, and then the slide bar drives the slide through U type pole and makes a round trip to slide, and then shakes the screening to the powder on the filter screen for the screening efficiency of powder.

Drawings

FIG. 1 is a schematic structural diagram of a raw material screening device for producing nano waterproof slurry according to the present invention;

fig. 2 is a schematic sectional structure view in the direction of a-a in the raw material screening apparatus for producing nano waterproof slurry according to the present invention.

In the figure: 1 box body, 2 baffle plates, 3 dispersing chambers, 4 filtering chambers, 5 vertical rods, 6 scattering rods, 7 feeding ports, 8 discharging ports, 9 first frame ports, 10 second frame ports, 11 sliding plates, 12 filter screens, 13 motors, 14 circular discs, 15U-shaped rods, 16 sliding rods, 17 transverse rods, 18 driving wheels, 19 driven wheels and 20 springs.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, a raw materials sieving mechanism is used in waterproof thick liquids of nanometer production, including box 1, 1 lateral wall fixedly connected with of box two backup pads, two backup pad lower extremes pass through bolt and ground fixed connection, 1 inner wall fixedly connected with baffle 2 of box, baffle 2 divides into dispersion room 3 and filter chamber 4 in the box 1, 3 inner walls of dispersion room rotate and are connected with montant 5, a plurality of scattering rod 6 of 5 lateral wall fixedly connected with of montant, first frame mouth 9 and second frame mouth 10 have been seted up to 4 inner walls of filter chamber, first frame mouth 9 is located second frame mouth 10 below setting, first frame mouth 9 and the equal sliding connection of 10 inner walls of second frame mouth have slide 11, slide 11 lateral wall fixedly connected with filter screen 12, baffle 2 has seted up discharge gate 8 near the lateral wall of second frame mouth 10, install the gliding first actuating mechanism of drive slide 11 on the box 1.

Furthermore, because the first frame opening 9 is positioned below the second frame opening 10, and the filter screen 12 is arranged obliquely, when the filter screen 12 moves back and forth, larger particle powder on the surface of the filter screen 12 can be discharged through the first frame opening 9.

First actuating mechanism includes motor 13 through support fixed connection in box 1 upper end, motor 13 activity end fixedly connected with disc 14, slide 11 upper end fixedly connected with U type pole 15, box 1 lateral wall sliding connection has slide bar 16, slide bar 16 one end and U type pole 15 lateral wall fixed connection, the one end that U type pole 15 was kept away from to slide bar 16 rotates and is connected with horizontal pole 17, the disc 14 lateral wall rotates through pivot and horizontal pole 17 lateral wall to be connected, install the second actuating mechanism that drives 5 pivoted of montant on the motor 13.

Furthermore, a crank connecting rod structure is formed among the disc 14, the rotating shaft, the cross rod 17 and the slide rod 16, so that the disc 14 rotates to enable the cross rod 17 to drive the slide rod 16 to slide back and forth on the side wall of the box body 1.

The second driving mechanism comprises a driving wheel 18 fixedly connected to the side wall of the movable shaft of the motor 13, a driven wheel 19 is fixedly connected to the upper portion of the side wall of the vertical rod 5, and the driving wheel 18 is connected with the driven wheel 19 through a synchronous belt.

The lateral wall of the sliding plate 11 is elastically connected with the inner wall of the box body 1 through the spring 20, so that the vibration generated when the sliding plate 11 slides can be buffered, and the stability of powder screening is further improved.

The inner top of the dispersing chamber 3 far away from the discharge hole 8 is provided with a feed inlet 7, and the inner bottom of the filtering chamber 4 is provided with a discharge hole.

According to the utility model, powder is added into a dispersing chamber 3 through a feed inlet 7, a motor 13 fixedly connected to the upper end of a box body 1 through a bracket is driven to rotate, the motor 13 rotates to drive a driving wheel 18 fixedly connected with the side wall of a movable shaft of the motor 13 to rotate, the driving wheel 18 drives a driven wheel 19 to rotate through a synchronous belt, the driven wheel 19 drives a plurality of scattering rods 6 to rotate through a vertical rod 5, the powder is scattered, and then the scattered powder flows to the surface of a filter screen 12 through a discharge outlet 8;

the motor 13 rotates and drives the disc 14 fixedly connected with the movable end of the motor to rotate, and then the disc 14 enables the cross rod 17 to drive the slide rod 16 to slide back and forth on the side wall of the box body 1 through the rotating shaft, and then the slide rod 16 drives the two slide plates 11 to slide back and forth on the inner walls of the first frame opening 9 and the second frame opening 10 respectively through the U-shaped rod 15, so that the filter screen 12 moves back and forth, the powder on the upper end of the filter screen 12 is shaken, the screening efficiency of the powder is improved, the powder screened by the filter screen 12 is discharged through the discharge opening, and the powder with larger particles left on the upper end of the filter screen 12 is discharged through the first frame opening 9, and only the powder is required to be collected.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a raw materials sieving mechanism is used in waterproof thick liquids of nanometer production, includes box (1), its characterized in that, box (1) inner wall fixedly connected with baffle (2), baffle (2) divide into dispersion room (3) and filter chamber (4) in with box (1), dispersion room (3) inner wall rotates and is connected with montant (5), montant (5) lateral wall fixedly connected with a plurality of scattering rod (6), first frame mouth (9) and second frame mouth (10) have been seted up to filter chamber (4) inner wall, first frame mouth (9) are located second frame mouth (10) below and set up, first frame mouth (9) and second frame mouth (10) inner wall all sliding connection have slide (11), slide (11) lateral wall fixedly connected with filter screen (12), baffle (2) are close to the lateral wall of second frame mouth (10) and have seted up discharge gate (8), a first driving mechanism for driving the sliding plate (11) to slide is mounted on the box body (1).

2. The raw material screening device for nano waterproof slurry production according to claim 1, wherein the first driving mechanism comprises a motor (13) fixedly connected to the upper end of the box body (1) through a support, a disc (14) is fixedly connected to the movable end of the motor (13), a U-shaped rod (15) is fixedly connected to the upper end of the sliding plate (11), a sliding rod (16) is slidably connected to the side wall of the box body (1), one end of the sliding rod (16) is fixedly connected to the side wall of the U-shaped rod (15), one end of the sliding rod (16), which is far away from the U-shaped rod (15), is rotatably connected to a cross rod (17), the side wall of the disc (14) is rotatably connected to the side wall of the cross rod (17) through a rotating shaft, and a second driving mechanism for driving the vertical rod (5) to rotate is installed on the motor (13).

3. The raw material screening device for nano waterproof slurry production according to claim 2, wherein the second driving mechanism comprises a driving wheel (18) fixedly connected to the side wall of a movable shaft of the motor (13), a driven wheel (19) is fixedly connected to the upper portion of the side wall of the vertical rod (5), and the driving wheel (18) is connected with the driven wheel (19) through a synchronous belt.

4. The raw material screening device for nano waterproof slurry production according to claim 1, wherein the side wall of the sliding plate (11) is elastically connected with the inner wall of the box body (1) through a spring (20).

5. The raw material screening device for nano waterproof slurry production according to claim 1, wherein a feed inlet (7) is formed at the inner top of the dispersion chamber (3) far from the discharge port (8), and a discharge outlet is formed at the inner bottom of the filter chamber (4).

6. The raw material screening device for nano waterproof slurry production according to claim 1, wherein two support plates are fixedly connected to the side wall of the box body (1), and the lower ends of the two support plates are fixedly connected with the ground through bolts.

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