CN215962318U - Slurry impurity removing equipment for production of waterproof materials - Google Patents

Abstract

The utility model discloses slurry impurity removal equipment for waterproof material production, and relates to the technical field of equipment for building material production. The device comprises a supporting mechanism, an impurity removing mechanism and a damping mechanism, wherein the upper middle part of the supporting mechanism is connected with the impurity removing mechanism, the impurity removing mechanism comprises a driving motor, the upper end of the driving motor rotates to form an impurity removing box, the middle part of a box cover at the upper end of the impurity removing box penetrates through a booster pump, and the upper end of the inner part of the impurity removing box is movably connected with a multiple screen; the bottom end surface of the supporting mechanism is equidistantly connected with a damping mechanism. The utility model solves the problems that the impurity removal efficiency is improved by stirring the impurity removal equipment by a stirring structure when the impurity removal equipment removes impurities through a filter screen, the stirring structure is directly contacted with slurry, the slurry is adhered, the cost is increased, the space is occupied, and meanwhile, the structure without buffer force is easy to damage when the stirring structure is subjected to up-and-down floating force.

Description

Slurry impurity removing equipment for production of waterproof materials

Technical Field

The utility model belongs to the technical field of equipment for producing building materials, and particularly relates to slurry impurity removal equipment for producing waterproof materials.

Background

The waterproof material is used for the building envelope to prevent the penetration of rainwater, snow water and underground water; to prevent the erosion of moisture, steam and other harmful gases and liquids in the air; the separation structure prevents the infiltration of plumbing from turning over, and thick liquids belong to building materials raw materials for production, and the thick liquids need carry out the edulcoration operation to it through edulcoration equipment before using, but it still has following drawback in the in-service use:

1. when the conventional impurity removing equipment removes impurities through a filter screen, the impurity removing efficiency is improved by stirring the impurities through a stirring structure, and the stirring structure is directly contacted with slurry to adhere the slurry, so that the cost is increased and the space is occupied;

2. the existing impurity removing equipment has a structure without buffer force when being subjected to up-and-down floating force, and is easy to damage.

Therefore, the existing slurry impurity removal equipment for waterproof material production cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide slurry impurity removal equipment for producing a waterproof material, which solves the problems that the existing impurity removal equipment is generally stirred by a stirring structure to improve impurity removal efficiency when impurity removal is carried out through a filter screen, the stirring structure is directly contacted with slurry, the slurry is adhered, the cost is increased, the space is occupied, and meanwhile, the structure without buffer force is easy to damage when the structure is subjected to up-and-down floating force.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to slurry impurity removal equipment for producing a waterproof material, which comprises a supporting mechanism, an impurity removal mechanism and a damping mechanism, wherein the upper middle part of the supporting mechanism is connected with the impurity removal mechanism;

and the bottom end surface of the supporting mechanism is equidistantly connected with a damping mechanism.

Further, a plurality of movable intraductal tops that damper includes are connected with buffer spring, and the buffer spring bottom is connected with movable post, and movable post bottom is the cake form setting.

Based on above-mentioned technical characteristics, extrude buffer spring by the activity post, resume deformation through buffer spring and exert under the reverse action to the atress to carry out the shock attenuation buffering processing to the edulcoration case.

Furthermore, the middle part is the equidistant screw setting that runs through on the supporting shoe that supporting mechanism includes, and the welding of supporting shoe outer end lower part has the ring piece, and the middle part is the cavity setting that runs through the upper end on the ring piece.

Based on the technical characteristics, the outer bolt penetrates through the threaded connection between the screw hole and the outer structure, the supporting and positioning of the equipment are carried out through the supporting block, the outer balancing weight is carried by the ring block through the cavity, and the stability of the equipment is improved.

Furthermore, the supporting shoe is connected with edulcoration case bottom through the guiding mechanism of upper edge, and the equidistance slides in the guide rail that guiding mechanism includes has the guide block, and the last output of the lift post in middle part is connected with edulcoration case bottom end on the guide block.

Based on the technical characteristics, the sliding of the guide block in the guide rail guides the rotating impurity removing box and reduces the friction force generated during the rotation of the impurity removing box, and the impurity removing box is lifted through the lifting column so as to unscrew the stud at the bottom of the impurity removing box for blanking.

Furthermore, the impurity removing box is connected with the box cover through a lifting mechanism on the upper portions of the two sides, the bottom end in a support included by the lifting mechanism is connected with a telescopic rod, and the upper end of the telescopic rod is connected with the bottom ends of the convex blocks in the middle of the two sides of the box cover.

Based on the technical characteristics, the telescopic rod is supported by the bracket, and the lifting force is applied to the convex block through the telescopic rod so as to lift the box cover.

Further, the upper portions of the two sides in the impurity removing box are arranged in the chutes which are formed, and the sliding blocks which are equidistant in the middle portions of the two sides of the multiple screen mesh are connected in the chutes in a sliding mode.

Based on the technical characteristics, the slide block slides in the sliding groove, so that the multiple screen structures are easily disassembled.

The utility model has the following beneficial effects:

1. according to the utility model, the impurity removing mechanism is arranged, the original internal stirring mode is replaced by a pressurizing and external stirring mode, the impurity removing efficiency is improved, and meanwhile, the use requirement is met.

2. The impurity removing box is provided with the damping mechanism, and the impurity removing equipment is subjected to stress damping treatment to reduce the self damage probability and save the cost.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic side view of an impurity removal tank according to the present invention;

FIG. 4 is a schematic top view of the trash bin of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a support mechanism; 110. a support block; 120. a ring block; 200. an impurity removal mechanism; 210. a drive motor; 220. an impurity removal box; 230. a box cover; 240. a booster pump; 250. multiple screens; 300. a damping mechanism; 310. a movable tube; 320. a buffer spring; 330. a movable post; 400. a guide mechanism; 410. a guide rail; 420. a guide block; 430. a lifting column; 500. a lifting mechanism; 510. a support; 520. a telescopic rod; 530. and (4) a bump.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, the present invention relates to a slurry impurity removing device for producing a waterproof material, which comprises a supporting mechanism 100, an impurity removing mechanism 200 and a damping mechanism 300, wherein the upper middle portion of the supporting mechanism 100 is connected with the impurity removing mechanism 200, the impurity removing mechanism 200 comprises a driving motor 210, the upper end of the driving motor rotates to form an impurity removing box 220, a booster pump 240 penetrates through the middle portion of a box cover 230 at the upper end of the impurity removing box 220, and the inner upper end of the impurity removing box 220 is movably connected with a multiple screen 250.

The bottom end face of the supporting mechanism 100 is equidistantly connected with a damping mechanism 300, the top of the inside of a plurality of movable pipes 310 which are included in the damping mechanism 300 is connected with a buffer spring 320, the bottom end of the buffer spring 320 is connected with a movable column 330, the bottom end of the movable column 330 is arranged in a round cake shape, and when the device is used;

firstly, after the equipment is placed at a designated position, an external bolt penetrates through a screw hole on the supporting block 110, a tightening force is applied, and meanwhile, a balancing weight is placed in a cavity at the upper end of the ring block 120;

then, the box cover 230 is opened to place the slurry into the impurity removing box 220, the upper surface of the multiple screen 250 supports the slurry, at this time, the external control end controls the booster pump 240 and the driving motor 210, the driving motor 210 drives the impurity removing box 220 to rotate at a high speed, the slurries are in a mutually separated state under the action of centrifugal force, and the booster pump 240 applies pressure to the inside of the impurity removing box 220 at this time, so that the slurry is filtered through the multiple screen 250;

then, after the slurry is filtered, the outer control end controls the lifting column 430, at the moment, the lifting column 430 applies upward force to the impurity removing box 220 to enable the impurity removing box to be at a certain height, and at the moment, the screw bolt in the middle of the bottom of the impurity removing box 220 applies unscrewing force to enable the impurity removed slurry to be collected by a material collecting box below the impurity removing box;

finally, when the trash box 220 is subjected to up-and-down floating force during use, at this time, the movable column 330 is stressed and extends into the movable pipe 310 to compress the buffer spring 320, and the compressed buffer spring 320 exerts a reverse action on the stress due to the recovery deformation to perform a shock absorption and buffering on the trash box 220.

As shown in fig. 1, the middle of the supporting block 110 included in the supporting mechanism 100 is provided with equidistant through screw holes, the lower part of the outer end of the supporting block 110 is welded with a ring block 120, the middle of the ring block 120 is provided with a cavity penetrating through the upper end, specifically, when the supporting mechanism 100 is used, an outer bolt is placed in the screw hole, a tightening force is applied, and meanwhile, an outer balancing weight is placed in the cavity in the middle of the ring block 120.

Supporting shoe 110 is connected with edulcoration case 220 bottom through the guiding mechanism 400 of top edge, and the equidistant guide block 420 that slides in the guide rail 410 that guiding mechanism 400 includes, output and edulcoration case 220 bottom are connected on the lift post 430 at middle part on the guide block 420, it is concrete, when guiding mechanism 400's use carries out, when driving edulcoration case 220 is rotated in driving motor 210, guide block 420 slides in guide rail 410, and after carrying out the edulcoration to thick liquids, outer control end control lift post 430, exert ascending power to edulcoration case 220 by it, at this moment, exert the power of unscrewing to the double-screw bolt at bottom middle part of edulcoration case 220, carry out the unloading can.

The impurity removing box 220 is connected with the box cover 230 through the lifting mechanism 500 on the upper portions of the two sides, the telescopic rod 520 is connected to the inner bottom end of the support 510 included by the lifting mechanism 500, the upper end of the telescopic rod 520 is connected with the bottom end of the projection 530 in the middle of the two sides of the box cover 230, specifically, when the box cover 230 is opened and closed, the outer control end controls the telescopic rod 520, and the telescopic rod 520 applies lifting force to the projection 530.

As shown in fig. 4, the upper portions of the two sides in the trash box 220 are provided with chutes, and the sliders of the middle portions of the two sides of the multiple screen 250 are slidably connected in the chutes at equal intervals, specifically, when the multiple screen 250 is installed, the inner ends of the sliders are placed at the upper end in the chutes, and a downward pushing force is applied, and when the multiple screen 250 is disassembled, the above reverse steps are applied.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a waterproof material production is with thick liquids edulcoration equipment, includes supporting mechanism (100), edulcoration mechanism (200) and damper (300), its characterized in that: the middle part of the upper part of the supporting mechanism (100) is connected with an impurity removing mechanism (200), the upper end of a driving motor (210) of the impurity removing mechanism (200) rotates to form an impurity removing box (220), the middle part of a box cover (230) at the upper end of the impurity removing box (220) penetrates through a booster pump (240), and the upper end of the inner part of the impurity removing box (220) is movably connected with a multiple screen (250);

the bottom end face of the supporting mechanism (100) is connected with a damping mechanism (300) in an equidistance mode.

2. The slurry impurity removing device for the production of the waterproof material as claimed in claim 1, wherein the damping mechanism (300) comprises a plurality of movable tubes (310) with the top connected with buffer springs (320), the bottom ends of the buffer springs (320) are connected with movable columns (330), and the bottom ends of the movable columns (330) are arranged in a round cake shape.

3. The slurry impurity removing device for the production of the waterproof material as claimed in claim 1, wherein the supporting mechanism (100) comprises a supporting block (110) with an upper middle part provided with through screw holes at equal intervals, a ring block (120) is welded on the lower part of the outer end of the supporting block (110), and an upper middle part of the ring block (120) is provided with a cavity penetrating through the upper end.

4. The pulp impurity removing device for waterproof material production according to claim 3, wherein the supporting block (110) is connected with the bottom end of the impurity removing box (220) through a guide mechanism (400) at the upper edge, guide blocks (420) slide in guide rails (410) included in the guide mechanism (400) at equal intervals, and the upper output end of a lifting column (430) in the upper middle part of each guide block (420) is connected with the bottom end of the impurity removing box (220).

5. The slurry impurity removing equipment for waterproof material production according to claim 1, wherein the impurity removing box (220) is connected with the box cover (230) through a lifting mechanism (500) on the upper parts of two sides, a telescopic rod (520) is connected to the inner bottom end of a support (510) included in the lifting mechanism (500), and the upper end of the telescopic rod (520) is connected with the bottom end of a lug (530) in the middle part of two sides of the box cover (230).

6. The slurry impurity removing equipment for the production of the waterproof material as claimed in claim 1, wherein the upper parts of two sides in the impurity removing box (220) are arranged in a chute, and the slide blocks in the middle parts of two sides of the multiple screen (250) are connected in the chute in a sliding manner at equal intervals.

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