CN210753667U - High-performance heat-insulation water-based paint sieving tool - Google Patents

Abstract

A sieving tool for high-performance heat-insulating water-based paint comprises a sieving shell, sieving bottom feet, a sieving feed hopper, a coarse material outlet, an inspection opening, a cross rod, a supporting rod, a cushion block, a vibrating motor, a fine material outlet, a vibrating spring, a sieving frame, a sieving hopper, a sieving outlet, a sieve rotating shaft, a locking sleeve and a locking cover; the cross bar is transversely arranged inside the sieving shell; the support rods are arranged at one end of each cross rod; the cushion block is arranged at one end of the cross rod; the vibration motor is arranged on the top surface of the cushion block; the screen frame is obliquely arranged above each cross rod, so that the screen frame is rotatably connected with the support rod; the screen rotating shaft is sequentially inserted into the locking sleeve, the screen frame rotating shaft hole and the screen rotating shaft hole, so that the screen and the screen frame are fixed; the locking cover is connected with the locking sleeve through threads. The utility model discloses raw materials screening fine graduation height, screen cloth design are detachable construction, and it is convenient to dismantle, dismantles rapidly, keeps the sifter to have stronger screening performance all the time.

Description

High-performance heat-insulation water-based paint sieving tool

Technical Field

The utility model relates to a water based paint preparation field, especially a frock of sieving of high performance thermal-insulated water based paint.

Background

The water-based paint is a paint using water as a solvent or as a dispersion medium, and is classified into a natural water-based paint of natural substances or minerals and a petrochemical water-based paint of synthetic resins according to the type of a binder in the paint. The water-based paint is a relatively novel paint in the paint market, and compared with a solvent paint, the water-based paint has the following characteristics: 1. the water-based paint takes water as a solvent, so that a large amount of resources are saved; the water-based paint eliminates the fire hazard during construction; has little pollution to the atmosphere. 2. The water-based paint can be directly coated and constructed on a wet surface and in a wet environment, and has good adaptability to the surface of a material and strong adhesive force of a coating. 3. The water paint coating tool can be cleaned by water, and the consumption of cleaning solvent is reduced. 4. The electrophoretic coating of the water-based paint is uniform and flat. The flattening performance is good.

Aiming at the various components of the existing water-based paint, the preparation methods are different, and aiming at the fire prevention and ultrathin performance of the water-based paint in the prior art, the preparation method of the water-based paint is provided in a targeted way as follows, wherein the raw materials of the water-based paint are respectively composed of a component A and a component B; the component A consists of an aerogel precursor, kaolin, cordierite, bentonite, diatomite, closed-cell perlite, ceramic fiber, titanium dioxide, wollastonite powder, mullite, heavy calcium material and alumina; the component B consists of sodium silicate, potassium silicate, water, silica sol, aluminum phosphate, a coupling agent A, a film-forming assistant, bentonite, an organic silicon modified acrylic emulsion, a flatting agent and a film-forming agent. In the preparation process, other solid components of the component A are subjected to sanding and screening, then the solid components and all the components are added with water and kneaded to complete the preparation of the component A, then the component B is added to be stirred and then the mixture is supported, and finally the mixed components are circularly sanded by a sanding machine to prepare the water-based paint.

In the preparation equipment required in the prior art, the sieving machine is used for sieving the raw materials after sanding, separating coarse materials and fine materials in the raw materials to obtain complete fine materials for subsequent preparation, and recovering and secondarily sanding the separated coarse materials to realize strict differentiation of the fineness of the raw materials. Aiming at the defects in the prior screening machine technology as follows: the existing sieving machine has low fine fineness and cannot meet the requirement of the sieving fineness of the raw material of the water-based paint; meanwhile, after the sieving machine is used for a long time, powder is easy to condense in the sieve, the phenomena of sieve blockage, sieve mesh aperture reduction, dust accumulation and pollution on the sieve are generated, the sieve cannot be cleaned or replaced, the sieving efficiency is low, and the sieving performance is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of the existence, the utility model discloses a frock of sieving of high performance thermal-insulated water based paint, its concrete technical scheme as follows: a sieving tool for high-performance heat-insulating water-based paint comprises a sieving shell, sieving bottom feet, a sieving feed hopper, a coarse material outlet, an inspection opening, a cross rod, a supporting rod, a cushion block, a vibrating motor, a fine material outlet, a vibrating spring, a sieving frame, a sieving hopper, a sieving outlet, a sieve rotating shaft, a locking sleeve and a locking cover; the sieving shell is in a cuboid shape and is of a hollow structure; the sieving bottom feet are arranged on the bottom surface of the sieving shell and are vertically and fixedly connected with the sieving shell; the sieving feed hopper is arranged on one side of the top surface of the sieving shell and is communicated with the sieving shell; the coarse material outlet is arranged on the side surface of the sieving shell; the fine material outlet is arranged at the bottom end of the sieving shell; the inspection ports are arranged on two side surfaces of the sieving shell, and each inspection port is rotatably connected with the sieving shell through a movable hinge; the cross rod is transversely arranged in the sieving shell and is fixedly connected with the sieving shell; the supporting rods are arranged at one end of each transverse rod and are vertically and fixedly connected with the transverse rods, and supporting rod through holes are formed in the top ends of the supporting rods; the cushion block is arranged at one end of the cross rod; the vibration motor is arranged on the top surface of the cushion block and is fixed with the cushion block through a fastener; the sieving frame is arranged in the sieving shell and obliquely arranged above each cross rod, the side wall of the bottom end of the sieving frame is of a hollow structure to form a sieve mesh jack, and the inner wall of the sieving frame is of a groove structure to form a sieve mesh slot; the bottom surface of one end of the sieving frame is fixedly connected with the vibrating motor, the vibrating spring is arranged at the outer end of the vibrating motor, one end of the vibrating spring is fixedly connected with the vibrating motor, the other end of the vibrating spring is fixedly connected with the bottom surface of the sieving frame, sieving frame rotating shafts are arranged on two side surfaces of one end of the sieving frame, the sieving frame rotating shafts are embedded into the supporting rod through holes, the sieving frame is rotatably connected with the supporting rods, and the sieving frame rotating shafts are hollow to form sieving frame rotating shaft holes; the screening hoppers are circumferentially arranged on the top surface of the screening frame, are fixedly connected with the screening frame and are of an integrated structure; the sieving outlet is arranged on one side of the bottom end of the sieving hopper; the screen is in a rectangular structure, one end of the screen is provided with a screen connecting rod which is hollow to form a screen rotating shaft hole, and one end of the screen slides into the screen slot through a screen inserting hole to realize that the screen is embedded into the screen frame; the locking sleeve is arranged on one side of the sieving shell and is vertically communicated with the sieving shell; the screen rotating shaft is sequentially inserted into the locking sleeve, the screen frame rotating shaft hole and the screen rotating shaft hole, so that the screen and the screen frame are fixed; the locking cover is connected with the locking sleeve through threads.

Furthermore, the number of the coarse material outlets is three, and the coarse material outlets are obliquely arranged on two sides of the sieving shell.

Furthermore, the fine material outlet is of a structure with a wide upper part and a narrow lower part.

Further, the positions of the inspection holes are matched with the positions of the screen inserting holes of each screen frame.

Furthermore, the top end of the cushion block is in an inclined plane shape, and the vibration motor and the cushion block are arranged in an inclined mode.

Furthermore, the outer diameter of the sieving frame rotating shaft is matched with the inner diameter of the supporting rod through hole, and the length of the sieving frame rotating shaft is matched with the depth of the supporting rod through hole.

Furthermore, the section of the rotating shaft hole of the sieving frame is in a cross shape.

Furthermore, the sieving hopper is of a structure with a wide upper part and a narrow lower part and is of a shape with one side being high and the other side being bottom.

Furthermore, the shape and the size of the sieving outlet are smaller than those of the coarse material outlet, the position of the sieving outlet is matched with that of the coarse material outlet, and the sieving outlet is inserted into the coarse material outlet.

Furthermore, one end of the screen mesh rotating shaft is cylindrical, and the outer wall of one end of the screen mesh rotating shaft is threaded; the cross section of the other end of the screen mesh rotating shaft is in a cross shape, and the shape and the size of the screen mesh rotating shaft are matched with those of the rotating shaft holes of the sieving frame.

Further, the fastener is one or more of a hose clamp, a rivet, an expansion screw, a bolt, a nut, a screw and a self-tapping screw.

The structure principle of the utility model is that:

the utility model discloses during the use, with the raw materials through the feeder hopper that sieves get into in the casing that sieves, start vibrating motor, the frame that sieves begins the vibration, the frame both sides that sieve take place to rotate through the frame pivot that sieves and the bracing piece, the raw materials passes through the effect of sieving of multilayer screen cloth, and the fine material finally falls out through the export of fine material, and the coarse fodder on screen cloth surface passes through the export of sieving of every layer of screen cloth frame, and from the coarse fodder export discharge.

When the utility model needs to replace and clean the screen, the locking cover is unscrewed, the rotating shaft of the screen is taken out, the inspection hole is opened, and the screen is drawn out from the screen frame; after changing the washing, aim at the screen cloth jack with the screen cloth to in sliding the screen cloth slot, insert the screen cloth pivot in proper order locking sleeve, sieve frame pivot hole, screen cloth pivot are downthehole, realize the screen cloth with it is fixed to sieve the frame, later screws up locking cover.

The utility model has the advantages that:

the utility model realizes the higher fineness division of the raw material through the sieving process of the three-level sieve mesh, and the fineness of the sieved raw material is higher; simultaneously for can dismantling the change structure to the screen cloth design of crossing the screen (ing) machine, through the installation of screen cloth pivot with take out, can carry out the pull separation to screen cloth and sieve frame, change the washing alone to the screen cloth, it is convenient to dismantle the process, dismantles rapidly, guarantees that the screen cloth after using the screen (ing) machine for a long time is in cleaner state all the time, makes the screen (ing) machine of crossing have stronger screening performance all the time.

Drawings

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

Fig. 2 is a schematic sectional structure diagram of the present invention.

Fig. 3 is a schematic structural view of the sieving frame of the present invention.

Fig. 4 is a schematic view of the local installation between the sieving frame and the sieving net and between the sieving shells of the present invention.

List of reference numerals: the screening device comprises a screening shell 1, screening feet 2, a screening feed hopper 3, a coarse material outlet 4, an inspection opening 5, a cross rod 6, a support rod 7, a support rod through hole 7-1, a cushion block 8, a vibration motor 9, a fine material outlet 10, a vibration spring 11, a screening frame 12, a screen mesh jack 12-1, a screen mesh slot 12-2, a screening frame rotating shaft 12-3, a screening frame rotating shaft hole 12-4, a screening hopper 13, a screening outlet 14, a screen mesh 15, a screen mesh connecting rod 15-1, a screen mesh rotating shaft hole 15-2, a screen mesh rotating shaft 16, a locking sleeve 17 and a locking cover 18.

Detailed Description

For making the technical scheme of the utility model clear more clearly and definitely, it is right to combine the drawing below the utility model discloses further describe, any is right the utility model discloses technical scheme's technical characteristic carries out the scheme that equivalent replacement and conventional reasoning reachs and all falls into the utility model discloses protection scope. The fixed connection, the fixed arrangement and the fixed structure mentioned in the embodiment are known technologies known to those skilled in the art, such as gluing, welding, screwing, bolt-nut connection, riveting and the like.

The vibration motor mentioned in this embodiment is a product available in the market, and the structure principle thereof is a well-known technology well known to those skilled in the art, and is not described in detail in the present invention.

The figure is combined to show that the sieving tool for the high-performance heat-insulation water-based paint comprises a sieving shell, sieving bottom feet, a sieving feed hopper, a coarse material outlet, an inspection opening, a cross rod, a support rod, a cushion block, a vibration motor, a fine material outlet, a vibration spring, a sieving frame, a sieving hopper, a sieving outlet, a sieve screen rotating shaft, a locking sleeve and a locking cover; the sieving shell is in a cuboid shape and is of a hollow structure; the sieving bottom feet are arranged on the bottom surface of the sieving shell and are vertically and fixedly connected with the sieving shell; the sieving feed hopper is arranged on one side of the top surface of the sieving shell and is communicated with the sieving shell; the coarse material outlet is arranged on the side surface of the sieving shell; the fine material outlet is arranged at the bottom end of the sieving shell; the inspection ports are arranged on two side surfaces of the sieving shell, and each inspection port is rotatably connected with the sieving shell through a movable hinge; the cross rod is transversely arranged in the sieving shell and is fixedly connected with the sieving shell; the supporting rods are arranged at one end of each transverse rod and are vertically and fixedly connected with the transverse rods, and supporting rod through holes are formed in the top ends of the supporting rods; the cushion block is arranged at one end of the cross rod; the vibration motor is arranged on the top surface of the cushion block and is fixed with the cushion block through a fastener; the sieving frame is arranged in the sieving shell and obliquely arranged above each cross rod, the side wall of the bottom end of the sieving frame is of a hollow structure to form a sieve mesh jack, and the inner wall of the sieving frame is of a groove structure to form a sieve mesh slot; the bottom surface of one end of the sieving frame is fixedly connected with the vibrating motor, the vibrating spring is arranged at the outer end of the vibrating motor, one end of the vibrating spring is fixedly connected with the vibrating motor, the other end of the vibrating spring is fixedly connected with the bottom surface of the sieving frame, sieving frame rotating shafts are arranged on two side surfaces of one end of the sieving frame, the sieving frame rotating shafts are embedded into the supporting rod through holes, the sieving frame is rotatably connected with the supporting rods, and the sieving frame rotating shafts are hollow to form sieving frame rotating shaft holes; the screening hoppers are circumferentially arranged on the top surface of the screening frame, are fixedly connected with the screening frame and are of an integrated structure; the sieving outlet is arranged on one side of the bottom end of the sieving hopper; the screen is in a rectangular structure, one end of the screen is provided with a screen connecting rod which is hollow to form a screen rotating shaft hole, and one end of the screen slides into the screen slot through a screen inserting hole to realize that the screen is embedded into the screen frame; the locking sleeve is arranged on one side of the sieving shell and is vertically communicated with the sieving shell; the screen rotating shaft is sequentially inserted into the locking sleeve, the screen frame rotating shaft hole and the screen rotating shaft hole, so that the screen and the screen frame are fixed; the locking cover is connected with the locking sleeve through threads.

Furthermore, the number of the coarse material outlets is three, and the coarse material outlets are obliquely arranged on two sides of the sieving shell.

Furthermore, the fine material outlet is of a structure with a wide upper part and a narrow lower part.

Further, the positions of the inspection holes are matched with the positions of the screen inserting holes of each screen frame.

Furthermore, the top end of the cushion block is in an inclined plane shape, and the vibration motor and the cushion block are arranged in an inclined mode.

Furthermore, the outer diameter of the sieving frame rotating shaft is matched with the inner diameter of the supporting rod through hole, and the length of the sieving frame rotating shaft is matched with the depth of the supporting rod through hole.

Furthermore, the section of the rotating shaft hole of the sieving frame is in a cross shape.

Furthermore, the sieving hopper is of a structure with a wide upper part and a narrow lower part and is of a shape with one side being high and the other side being bottom.

Furthermore, the shape and the size of the sieving outlet are smaller than those of the coarse material outlet, the position of the sieving outlet is matched with that of the coarse material outlet, and the sieving outlet is inserted into the coarse material outlet.

Furthermore, one end of the screen mesh rotating shaft is cylindrical, and the outer wall of one end of the screen mesh rotating shaft is threaded; the cross section of the other end of the screen mesh rotating shaft is in a cross shape, and the shape and the size of the screen mesh rotating shaft are matched with those of the rotating shaft holes of the sieving frame.

Further, the fastener is one or more of a hose clamp, a rivet, an expansion screw, a bolt, a nut, a screw and a self-tapping screw.

The structure principle of the utility model is that:

the utility model discloses during the use, with the raw materials through the feeder hopper that sieves get into in the casing that sieves, start vibrating motor, the frame that sieves begins the vibration, the frame both sides that sieve take place to rotate through the frame pivot that sieves and the bracing piece, the raw materials passes through the effect of sieving of multilayer screen cloth, and the fine material finally falls out through the export of fine material, and the coarse fodder on screen cloth surface passes through the export of sieving of every layer of screen cloth frame, and from the coarse fodder export discharge.

When the utility model needs to replace and clean the screen, the locking cover is unscrewed, the rotating shaft of the screen is taken out, the inspection hole is opened, and the screen is drawn out from the screen frame; after changing the washing, aim at the screen cloth jack with the screen cloth to in sliding the screen cloth slot, insert the screen cloth pivot in proper order locking sleeve, sieve frame pivot hole, screen cloth pivot are downthehole, realize the screen cloth with it is fixed to sieve the frame, later screws up locking cover.

The utility model has the advantages that:

the utility model realizes the higher fineness division of the raw material through the sieving process of the three-level sieve mesh, and the fineness of the sieved raw material is higher; simultaneously for can dismantling the change structure to the screen cloth design of crossing the screen (ing) machine, through the installation of screen cloth pivot with take out, can carry out the pull separation to screen cloth and sieve frame, change the washing alone to the screen cloth, it is convenient to dismantle the process, dismantles rapidly, guarantees that the screen cloth after using the screen (ing) machine for a long time is in cleaner state all the time, makes the screen (ing) machine of crossing have stronger screening performance all the time.

Claims (10)

1. A sieving tool for a high-performance heat-insulating water-based coating is characterized by comprising a sieving shell, sieving bottom feet, a sieving feed hopper, a coarse material outlet, an inspection opening, a cross rod, a supporting rod, a cushion block, a vibration motor, a fine material outlet, a vibration spring, a sieving frame, a sieving hopper, a sieving outlet, a sieve rotating shaft, a locking sleeve and a locking cover; the sieving shell is in a cuboid shape and is of a hollow structure; the sieving bottom feet are arranged on the bottom surface of the sieving shell and are vertically and fixedly connected with the sieving shell; the sieving feed hopper is arranged on one side of the top surface of the sieving shell and is communicated with the sieving shell; the coarse material outlet is arranged on the side surface of the sieving shell; the fine material outlet is arranged at the bottom end of the sieving shell; the inspection ports are arranged on two side surfaces of the sieving shell, and each inspection port is rotatably connected with the sieving shell through a movable hinge; the cross rod is transversely arranged in the sieving shell and is fixedly connected with the sieving shell; the supporting rods are arranged at one end of each transverse rod and are vertically and fixedly connected with the transverse rods, and supporting rod through holes are formed in the top ends of the supporting rods; the cushion block is arranged at one end of the cross rod; the vibration motor is arranged on the top surface of the cushion block and is fixed with the cushion block through a fastener; the sieving frame is arranged in the sieving shell and obliquely arranged above each cross rod, the side wall of the bottom end of the sieving frame is of a hollow structure to form a sieve mesh jack, and the inner wall of the sieving frame is of a groove structure to form a sieve mesh slot; the bottom surface of one end of the sieving frame is fixedly connected with the vibrating motor, the vibrating spring is arranged at the outer end of the vibrating motor, one end of the vibrating spring is fixedly connected with the vibrating motor, the other end of the vibrating spring is fixedly connected with the bottom surface of the sieving frame, sieving frame rotating shafts are arranged on two side surfaces of one end of the sieving frame, the sieving frame rotating shafts are embedded into the supporting rod through holes, the sieving frame is rotatably connected with the supporting rods, and the sieving frame rotating shafts are hollow to form sieving frame rotating shaft holes; the screening hoppers are circumferentially arranged on the top surface of the screening frame, are fixedly connected with the screening frame and are of an integrated structure; the sieving outlet is arranged on one side of the bottom end of the sieving hopper; the screen is in a rectangular structure, one end of the screen is provided with a screen connecting rod which is hollow to form a screen rotating shaft hole, and one end of the screen slides into the screen slot through a screen inserting hole to realize that the screen is embedded into the screen frame; the locking sleeve is arranged on one side of the sieving shell and is vertically communicated with the sieving shell; the screen rotating shaft is sequentially inserted into the locking sleeve, the screen frame rotating shaft hole and the screen rotating shaft hole, so that the screen and the screen frame are fixed; the locking cover is connected with the locking sleeve through threads.

2. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the number of the coarse material outlets is three, and the coarse material outlets are obliquely arranged on two sides of the sieving shell.

3. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the fine material outlet is of a structure with a wide upper part and a narrow lower part.

4. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the position of the inspection opening is adapted to the position of the screen inserting hole of each sieving frame.

5. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the top end of the cushion block is in an inclined plane shape, and the vibration motor and the cushion block are arranged in an inclined manner.

6. The tool for sieving the high-performance heat-insulating water-based paint according to claim 1, wherein the outer diameter of the rotating shaft of the sieving frame is adapted to the inner diameter of the through hole of the supporting rod, and the length of the rotating shaft of the sieving frame is adapted to the depth of the through hole of the supporting rod.

7. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the cross section of the rotating shaft hole of the sieving frame is in a cross shape.

8. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the sieving hopper has a structure with a wide top and a narrow bottom, and is in a shape with one side being high and the other side being low.

9. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein the shape and size of the sieving outlet are smaller than those of the coarse material outlet, the position of the sieving outlet is adapted to that of the coarse material outlet, and the sieving outlet is inserted into the coarse material outlet.

10. The sieving tool for the high-performance heat-insulating water-based paint as claimed in claim 1, wherein one end of the rotating shaft of the screen is cylindrical, and the outer wall of one end of the rotating shaft of the screen is threaded; the cross section of the other end of the screen mesh rotating shaft is in a cross shape, and the shape and the size of the screen mesh rotating shaft are matched with those of the rotating shaft holes of the sieving frame.

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