CN212417125U - Filter pressing device for sodium silicate production - Google Patents

Abstract

The utility model discloses a filter pressing device for sodium silicate production, which comprises two support frames, wherein a limiting cylinder is arranged between the two support frames, a rotating sleeve is rotatably arranged inside the limiting cylinder, and a driving motor is arranged outside any one of the support frames; a plurality of material grooves are uniformly formed in the outer circumferential surface of the rotating sleeve, grating plates are arranged in the material grooves, fixing holes are formed in the vertical end face of the rotating sleeve, a liquid guide pipe is rotatably arranged in the fixing holes, the outer end of the liquid guide pipe penetrates through the rotating sleeve, and a liquid guide hole is formed in the upper end of the liquid guide pipe in a penetrating mode; the limiting cylinder is characterized in that a pressure filter tank, a feeding tank and a discharging tank are arranged on the outer circular surface of the limiting cylinder in a penetrating mode, and a pressure filter assembly is installed at the upper end of the limiting cylinder. Has the advantages that: the rotation of the rotating sleeve is utilized, and the material guide assembly and the filter pressing assembly are matched to complete the feeding, filter pressing and discharging operations inside the material groove, so that the continuous filter pressing operation is realized, and the filter pressing efficiency is improved.

Description

Filter pressing device for sodium silicate production

Technical Field

The utility model relates to a sodium silicate production field, concretely relates to filter pressing device is used in sodium silicate production.

Background

Sodium silicate is also called sodium silicate, and liquid in the production process of sodium silicate contains impurities such as silicon powder, and the sodium silicate needs to be filtered by a filter press, so that the raw material is left, the liquid of the sodium silicate is discharged, and the purpose of removing the impurities of the silicon powder is achieved.

At the in-process of filter-pressing, often carry out the filter-pressing through the filter-pressing subassembly, then arrange the material to the raw materials on filter and the filter cloth, treat the filter and reset the back, pour into new liquid material into to the filter surface, carry out the filter-pressing operation once more, be difficult to carry out continuity filter-pressing operation, lead to filter-pressing speed slower to influence filter-pressing efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a filter pressing device is used in sodium silicate production in order to solve above-mentioned problem, the utility model provides an in a great deal of technical scheme preferred technical scheme utilize the rotation of rotating the cover, cooperation guide subassembly and filter-pressing subassembly are accomplished to material inslot portion material loading, filter-pressing and the operation of unloading to realized continuity filter-pressing operation, improved the technological effect of filter-pressing efficiency, see the explanation below for details.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a filter pressing device for sodium silicate production, which comprises two support frames, wherein a limiting cylinder with a horizontally extending axis is arranged between the two support frames, a rotating sleeve is rotatably arranged in the limiting cylinder, and a driving motor for driving the rotating sleeve to rotate is arranged outside any one of the support frames;

a plurality of material grooves are uniformly formed in the outer circumferential surface of the rotating sleeve, grating plates are arranged in the material grooves, fixing holes are formed in the vertical end face of the rotating sleeve, the fixing holes extend along the axis of the rotating sleeve, a liquid guide pipe is rotatably arranged in the fixing holes, the outer end of the liquid guide pipe penetrates through the rotating sleeve, and liquid guide holes corresponding to the material grooves are formed in the upper end of the liquid guide pipe in a penetrating mode;

the outer circular surface of the limiting cylinder is provided with a filter pressing tank, a feed chute and a discharge chute which correspond to the material chute in a penetrating mode, the filter pressing tank and the discharge chute are respectively located at the upper portion and the bottom of the limiting cylinder, the upper end of the limiting cylinder is provided with a filter pressing assembly used for performing filter pressing on the material inside the material chute, and the guide assembly used for injecting the material inside the material chute is installed on the outer side of the limiting cylinder through the feed chute.

By adopting the filter pressing device for sodium silicate production, in the filter pressing process during sodium silicate production, the material is conveyed to the interior of the material groove through the material guide assembly through the material feeding groove, the rotating sleeve is driven by the driving motor to rotate in the limiting cylinder, so that the material groove is upward and corresponds to the filter pressing groove, the filter pressing component is used for filter pressing the materials in the material groove, so that the moisture in the materials is filtered by the grating plate and flows to the inside of the liquid guide pipe along the material groove and the liquid guide hole, liquid is led out through the liquid guide pipe, solid materials are separated through the grating plate, and along with the continuous rotation of the driving motor, when the material groove for completing filter pressing faces downwards, the material falls from the discharge groove under the action of self weight, and the solid material is led out.

Preferably, the filter pressing assembly comprises a fixed cover, the bottom end of the fixed cover is of an open structure, the bottom end of the fixed cover is connected with the limiting cylinder, a telescopic cylinder is mounted on the inner top surface of the fixed cover, a pressing plate is mounted at the telescopic end of the telescopic cylinder, and the pressing plate is in clearance fit with the filter pressing groove and the material groove.

Preferably, the surface of the grid plate is V-shaped, and the bottom surface of the pressure plate is V-shaped corresponding to the grid plate.

As preferred, the guide subassembly includes support and a transport section of thick bamboo, install the upper end of support the transport section of thick bamboo, the inlet pipe is installed to the upper end of transport section of thick bamboo, the transport section of thick bamboo output pass through the pipeline with the feed chute is connected, the inside auger that is used for carrying the material of installing of rotating of transport section of thick bamboo, the tip of transport section of thick bamboo is installed and is used for the drive the auger pivoted rotates the motor.

Preferably, the catheter is fixedly connected with the support frame.

Preferably, the outer circumferential surface of the liquid guide pipe is provided with a rubber layer.

Has the advantages that: the rotation of the rotating sleeve is utilized, and the material guide assembly and the filter pressing assembly are matched to complete the feeding, filter pressing and discharging operations inside the material groove, so that the continuous filter pressing operation is realized, and the filter pressing efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a front view of the present invention;

fig. 3 is a schematic right-view internal cross-sectional view of the present invention.

The reference numerals are explained below:

1. a support frame; 2. a limiting cylinder; 201. pressing a filter tank; 202. a feed chute; 203. a discharge chute; 3. rotating the sleeve; 301. a material groove; 302. a fixing hole; 303. a grid plate; 304. a drive motor; 4. a catheter; 401. a drain hole; 5. a filter pressing assembly; 501. a fixed cover; 502. a telescopic cylinder; 503. pressing a plate; 6. a material guiding assembly; 601. a support; 602. a delivery cartridge; 603. rotating the motor; 604. a packing auger; 605. and (4) feeding a pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model provides a filter pressing device for sodium silicate production, including two support frames 1, install spacing section of thick bamboo 2 that the axis extends horizontally between two support frames 1, spacing section of thick bamboo 2 is inside to rotate and to install rotating sleeve 3, and any support frame 1 outside is installed and is used for driving the driving motor 304 that rotating sleeve 3 rotated, sets up like this, makes driving motor 304 drive rotating sleeve 3 and rotates, makes rotating sleeve 3 revolve around the direction from feed chute 202 to filter-pressing groove 201;

a plurality of material grooves 301 are uniformly formed in the outer circumferential surface of the rotating sleeve 3, grid plates 303 are mounted in the material grooves 301, fixing holes 302 are formed in the vertical end face of the rotating sleeve 3, the fixing holes 302 extend along the axis of the rotating sleeve 3, liquid guide pipes 4 are rotatably mounted in the fixing holes 302, the outer ends of the liquid guide pipes 4 penetrate through the rotating sleeve 3, and liquid guide holes 401 corresponding to the material grooves 301 are arranged at the upper ends of the liquid guide pipes 4 in a penetrating mode;

the outer disc of 2 outer circular faces of spacing section of thick bamboo runs through and is provided with filter-pressing groove 201, feed chute 202 and blown down tank 203 that correspond with material groove 301, and filter-pressing groove 201 and blown down tank 203 are located the upper portion and the bottom of spacing section of thick bamboo 2 respectively, and the filter-pressing subassembly 5 that is used for carrying out the filter-pressing to the inside material of material groove 301 is installed to 2 upper ends of spacing section of thick bamboo, and guide subassembly 6 that is used for annotating the material through feed chute 202 to material groove 301 inside is installed in the 2 outsides of.

As optional implementation mode, filter pressing subassembly 5 includes fixed cover 501, the bottom of fixed cover 501 is open structure, the bottom of fixed cover 501 is connected with spacing section of thick bamboo 2, telescopic cylinder 502 is installed to the interior top surface of fixed cover 501, clamp plate 503 is installed to telescopic cylinder 502's flexible end, clamp plate 503 and filter pressing groove 201 and the equal clearance fit of material groove 301, set up like this, when carrying out the filter pressing to the material of material groove 301 inside, telescopic cylinder 502 extends, promote clamp plate 503 to run through filter pressing groove 201 through telescopic cylinder 502, and slide to material groove 301 inside, thereby extrude the material of material groove 301 inside, moisture in the material filters through grating 303, and flow to inside catheter 4 along material groove 301 and drain hole 401, derive liquid through catheter 4.

The grid plate 303 is in a V-shaped surface, the bottom surface of the pressing plate 503 is in a V-shaped shape corresponding to the grid plate 303, and therefore the V-shaped pressing plate 503 and the grid plate 303 can be correspondingly extruded to improve the filter pressing effect of materials.

The material guide assembly 6 comprises a support 601 and a conveying cylinder 602, the conveying cylinder 602 is installed at the upper end of the support 601, the feeding pipe 605 is installed at the upper end of the conveying cylinder 602, the output end of the conveying cylinder 602 is connected with the feeding chute 202 through a pipeline, the packing auger 604 used for conveying materials is installed inside the conveying cylinder 602 in a rotating mode, the rotating motor 603 used for driving the packing auger 604 to rotate is installed at the end portion of the conveying cylinder 602, and therefore when the materials are conveyed, the materials are guided into the conveying cylinder 602 through the feeding pipe 605, the packing auger 604 is driven to rotate through the rotating motor 603, the materials are pushed into the feeding chute 202 through the rotation of the packing auger 604, when the material chute 301 corresponds to the feeding chute 202, the materials are extruded into the material chute 301, and the guiding and conveying of the materials are completed.

The liquid guide pipe 4 is fixedly connected with the support frame 1, so that the liquid guide pipe 4 is prevented from rotating, the rotating sleeve 3 can be assisted to rotate through the liquid guide pipe 4, meanwhile, the opening of the liquid guide hole 401 is enabled to be upward all the time, and the fixing effect is good.

The rubber layer is arranged on the outer circular surface of the liquid guide pipe 4, so that the outer circular surface of the liquid guide pipe 4 keeps sealed in the rotating process inside the inner circular surface of the fixing hole 302, and liquid is prevented from being spilled.

Adopt above-mentioned structure, in the filter-pressing in-process when sodium silicate production, carry the material to material groove 301 inside through feed chute 202 through guide subassembly 6, it rotates cover 3 at the inside rotation of spacing section of thick bamboo 2 to drive through driving motor 304, make material groove 301 up, and when corresponding with filter-pressing groove 201, carry out the filter-pressing to the material of material groove 301 inside through filter-pressing subassembly 5, make the moisture in the material filter through grid plate 303, and flow to catheter 4 inside along material groove 301 and drain hole 401, derive liquid through catheter 4, separate solid material through grid plate 303, along with driving motor 304's continuation rotation, when the material groove 301 of accomplishing the filter-pressing is down, the material drops from blown down tank 203 under the dead weight effect, realize the derivation of solid material.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a filter pressing device is used in sodium silicate production which characterized in that: the device comprises two support frames (1), a limiting cylinder (2) with a horizontally extending axis is arranged between the two support frames (1), a rotating sleeve (3) is rotatably arranged in the limiting cylinder (2), and a driving motor (304) for driving the rotating sleeve (3) to rotate is arranged on the outer side of any one support frame (1);

a plurality of material grooves (301) are uniformly formed in the outer circular surface of the rotating sleeve (3), a grating plate (303) is arranged in each material groove (301), a fixing hole (302) is formed in the vertical end face of the rotating sleeve (3), the fixing hole (302) extends along the axis of the rotating sleeve (3), a liquid guide pipe (4) is rotatably arranged in each fixing hole (302), the outer end of the liquid guide pipe (4) penetrates through the rotating sleeve (3), and a liquid guide hole (401) corresponding to each material groove (301) is arranged at the upper end of the liquid guide pipe (4) in a penetrating mode;

spacing section of thick bamboo (2) outer disc run through be provided with filter-pressing groove (201), feed chute (202) and blown down tank (203) that material groove (301) corresponds, filter-pressing groove (201) with blown down tank (203) are located respectively the upper portion and the bottom of spacing section of thick bamboo (2), install on spacing section of thick bamboo (2) the upper end be used for right the material inside material groove (301) carries out filter-pressing subassembly (5) of filter-pressing, install in the spacing section of thick bamboo (2) outside and be used for through feed chute (202) to guide subassembly (6) of material groove (301) inside notes material.

2. The filter pressing device for sodium silicate production according to claim 1, characterized in that: filter pressing subassembly (5) are including fixed cover (501), the bottom of fixed cover (501) is open structure, the bottom of fixed cover (501) with spacing section of thick bamboo (2) are connected, telescopic cylinder (502) are installed to the interior top surface of fixed cover (501), clamp plate (503) are installed to telescopic cylinder's (502) flexible end, clamp plate (503) with filter pressing groove (201) with the equal clearance fit in material groove (301).

3. The filter pressing device for sodium silicate production according to claim 2, characterized in that: the surface of the grid plate (303) is V-shaped, and the bottom surface of the pressing plate (503) is V-shaped corresponding to the grid plate (303).

4. The filter pressing device for sodium silicate production according to claim 1, characterized in that: guide subassembly (6) are including support (601) and a transport section of thick bamboo (602), install the upper end of support (601) a transport section of thick bamboo (602), inlet pipe (605) are installed to the upper end of a transport section of thick bamboo (602), a transport section of thick bamboo (602) output pass through the pipeline with feed chute (202) is connected, transport section of thick bamboo (602) inside rotation is installed and is used for auger (604) that the material was carried, the tip of a transport section of thick bamboo (602) is installed and is used for the drive auger (604) pivoted rotating motor (603).

5. The filter pressing device for sodium silicate production according to claim 1, characterized in that: the liquid guide pipe (4) is fixedly connected with the support frame (1).

6. A filter pressing device for sodium silicate production according to claim 5, characterized in that: the outer circle surface of the liquid guide pipe (4) is provided with a rubber layer.

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