CN115414847B - Automatic raw material treatment equipment for preparing formaldehyde-removing composite photocatalytic material - Google Patents

Abstract

The invention relates to the technical field of composite photocatalytic material treatment, and discloses raw material automatic treatment equipment for preparing a formaldehyde-removing composite photocatalytic material, which comprises a base, wherein a mixing shell is arranged on the base, a rolling assembly and an interval opening and closing assembly are arranged in the mixing shell, the outer wall of a rolling disc in the rolling assembly is gradually close to the inner wall of an outer disc in movement, so that diatomite blocks placed in the outer disc are rolled and crushed, meanwhile, the crushed diatomite blocks into extremely fine powder fall into the mixing shell through a leak hole in the outer disc in the pushing of the bottom end of the rolling disc, the subsequent mixing is different from the design that the diatomite blocks are crushed into powder under normal conditions, then the diatomite blocks are put into a container and mixed with titanium dioxide, the original two steps are simplified into one step, simplicity is realized, and the waste condition caused when the powder diatomite blocks are transferred and poured is avoided to a certain extent.

Description

Automatic raw material treatment equipment for preparing formaldehyde-removing composite photocatalytic material

Technical Field

The invention relates to the technical field of composite photocatalytic material treatment, in particular to raw material automatic treatment equipment for preparing a formaldehyde-removing composite photocatalytic material.

Background

The photocatalyst is a general name of a photocatalyst material with a photocatalytic function represented by titanium dioxide, and can oxidize and decompose various organic compounds and partial inorganic matters, so that the photocatalyst has the functions of removing formaldehyde, deodorizing, preventing mildew and purifying air;

various composite photocatalytic materials in the market at present are quite urgent, wherein the composite photocatalytic material formed by mixing diatomite and titanium dioxide has the functions of adsorbing formaldehyde and degrading, and is quite useful for removing harmful substances such as formaldehyde in decoration.

However, in the prior art, when manufacturing the composite photocatalytic material, diatomite is generally crushed into powder, and then the powder is put into a container to be mixed with titanium dioxide, and the mixing mode and the steps are very troublesome;

and titanium dioxide is injected into diatomite for stirring and mixing at one time, so that a large amount of stirring time is wasted, and the quality of the manufactured composite photocatalytic material can be affected to a certain extent because of uneven mixing of more raw materials, so that oxidative decomposition reactions such as formaldehyde removal and the like cannot be completed efficiently.

Therefore, we provide a raw material automatic treatment device for preparing formaldehyde-removing composite photocatalytic material, which can automatically crush diatomite, intermittently convey titanium dioxide raw materials and effectively mix the raw materials, so as to solve the problems.

Disclosure of Invention

(one) solving the technical problems

In view of the above, the present invention provides an automatic raw material processing apparatus for preparing formaldehyde-removing composite photocatalytic material, which can automatically crush diatomaceous earth, intermittently convey titania raw materials, and effectively mix the raw materials, so as to solve the problems set forth in the above-mentioned background art.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the automatic raw material treatment equipment for preparing the formaldehyde-removing composite photocatalytic material comprises a base, wherein a mixing shell is arranged on the base, a rolling assembly and a spacing opening and closing assembly are arranged in the mixing shell, and a mixing assembly is arranged at the bottoms of the rolling assembly and the spacing opening and closing assembly;

be provided with the outer dish in the subassembly that rolls, the leak has been seted up on the outer dish, outer dish centre of a circle department is provided with the rotor piece, fixedly connected with first pole on the rotor piece, be provided with the roll dish on the first pole, fixedly connected with riser on the outer dish inner wall, the riser both sides are provided with semi-circular piece, be provided with the diatomaceous earth piece in the outer dish.

Preferably, the connecting strip is arranged in the interval opening and closing assembly, one end of the connecting strip is fixedly connected with a second pole, one end of the second pole away from the connecting strip is fixedly connected with a plugging sheet, and a first round opening is formed in the plugging sheet.

Preferably, a bin is arranged on one side of the outer disc, and a through second round opening is formed in the bottom of the bin.

Preferably, a transmission piece is arranged in the mixing and stirring assembly, a gear axis of the transmission piece is fixedly connected with a third post rod, the bottom end of the third post rod is fixedly connected with a limiting piece, the lower end of the limiting piece is fixedly connected with a U-shaped clamping column, and the upper end of the third post rod is fixedly connected with a special-shaped column.

Preferably, an auxiliary block is arranged on one side of the special-shaped column, a first abutting column and a second abutting column are fixedly connected to the auxiliary block, the special-shaped column is arranged below the special-shaped column, a first spring is arranged between the special-shaped column and the connecting block, a fourth post rod is fixedly connected to the bottom of the connecting block, and an agitating plate is fixedly connected to the fourth post rod.

Preferably, the rotating plate is provided with a driving motor.

Preferably, one end of the special-shaped column is provided with a wave shape.

Preferably, a torsion spring is arranged on the auxiliary block.

Preferably, the connecting block is provided with a channel for assisting the third pole.

(III) beneficial effects

Compared with the prior art, the invention provides the raw material automatic treatment equipment for preparing the formaldehyde-removing composite photocatalytic material, which has the following beneficial effects:

1. according to the invention, the outer wall of the grinding disc in the grinding assembly gradually approaches the inner wall of the outer disc in movement, so that diatomite blocks placed in the outer disc are ground and crushed, meanwhile, the crushed diatomite blocks into extremely fine powder fall into the mixing shell through the leak holes in the outer disc in pushing of the bottom end of the grinding disc, the design of waiting for subsequent mixing is different from that of grinding the diatomite blocks into powder under normal conditions, then the diatomite blocks are placed into a container to be mixed with titanium dioxide, the original two steps are simplified into one step, the process is simpler, and the waste caused when the powder diatomite blocks are transferred and poured is avoided to a certain extent;

2. according to the invention, when the plugging sheet moves, the first round opening formed on the plugging sheet is overlapped with the second round opening formed on the bin in movement, titanium dioxide in the bin leaks into the mixing shell when overlapped, and subsequent mixing is waited, and as the first round opening on the plugging sheet is not always overlapped with the second round opening on the bin, titanium dioxide in the bin can intermittently fall into the mixing shell, a small amount of repeated mixing can be more uniform, and the method is different from a method of injecting titanium dioxide into the mixing shell for stirring at one time, and certain damage to stirring equipment during mixing and stirring of more raw materials can not be caused, so that the service life of the device is influenced;

3. according to the invention, through the rotation of the special-shaped column, the stirring sheet indirectly connected with the auxiliary block at the corrugated end of the special-shaped column and the auxiliary block of the special-shaped column, the auxiliary of the first abutting column and the second abutting column and the connecting block can reciprocate in the vertical direction to stir the mixed raw materials, and the stirring mode can effectively improve the stirring effect, so that the raw materials are mixed more uniformly, the quality of the manufactured composite photocatalytic material can be improved to a certain extent, and the oxidative decomposition reaction for removing formaldehyde and the like can be more efficiently and rapidly completed;

4. under the combined action of the limiting piece, the U-shaped clamping column and the auxiliary channel formed in the connecting block, the stirring piece indirectly connected with the connecting block can be guaranteed to normally rotate, and the connecting block can be guaranteed to still rotate when the second abutting column pushes the connecting block to move downwards or the first spring pulls the connecting block upwards, so that effective assistance is provided for normal operation of work.

Drawings

FIG. 1 is a main view of the present invention;

FIG. 2 is a diagram of the main structure of the present invention;

FIG. 3 is a top view of the body structure of the present invention;

FIG. 4 is a schematic view of the main body of the rolling assembly of the present invention;

FIG. 5 is a top view of a spacer assembly according to the present invention;

FIG. 6 is a front view of the body structure of the present invention;

FIG. 7 is a diagram showing the structure of the joint position relationship between the rolling assembly and the spacing opening and closing assembly and between the rolling assembly and the mixing assembly;

FIG. 8 is an enlarged view of the structure of FIG. 6A in accordance with the present invention;

fig. 9 is an enlarged view of the structure of fig. 7B in accordance with the present invention.

In the figure:

1. a base; 2. a mixing housing;

3. rolling the assembly; 301. an outer disk; 302. a leak hole; 303. a rotating piece; 304. a first strut; 305. a rolling disc; 306. a riser; 307. a semicircular block; 308. diatomite blocks;

4. a spacing opening and closing assembly; 401. a connecting strip; 402. a second column bar; 403. a blocking piece; 404. a first round opening; 405. a storage bin; 406. a second round port;

5. a mixing and stirring assembly; 501. a transmission member; 502. a third strut; 503. limiting slices; 504. u-shaped clamping columns; 505. a special-shaped column; 506. an auxiliary block; 507. a first abutment post; 508. a second abutment post; 509. A first spring; 510. a connecting block; 511. a fourth strut; 512. and a stirring piece.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is described in further detail below with reference to the drawings and examples.

Example 1

Please refer to fig. 1 to 4:

to solve the problems mentioned in the technical solution, this embodiment involves the following parts:

301. an outer disk; 302. a leak hole; 303. a rotating piece; 304. a first strut; 305. a rolling disc; 306. A riser; 307. a semicircular block; 308. diatomite blocks.

Be provided with outer dish 301 in rolling subassembly 3, set up leak hole 302 on the outer dish 301, outer dish 301 centre of a circle department is provided with rotor plate 303, be provided with driving motor on the rotor plate 303, the last first pole 304 of fixedly connected with of rotor plate 303, be provided with on the first pole 304 and roll movable dish 305, fixedly connected with riser 306 on the outer dish 301 inner wall, riser 306 both sides are provided with semicircular piece 307, riser 306 and semicircular piece 307 mainly are used for assisting rolls movable dish 305 to roll the diatomaceous earth piece 308 in the outer dish 301, be provided with diatomaceous earth piece 308 in the outer dish 301.

Example two

Please refer to fig. 2 to fig. 5:

to solve the problems mentioned in the technical solution, this embodiment involves the following parts:

401. a connecting strip; 402. a second column bar; 403. a blocking piece; 404. a first round opening; 405. a storage bin; 406. and a second round opening.

Be provided with connecting strip 401 in interval switching subassembly 4, connecting strip 401 mainly used connects first pole 304 and second pole 402, connecting strip 401 one end fixedly connected with second pole 402, the one end fixedly connected with shutoff piece 403 that connecting strip 401 was kept away from to second pole 402, first round mouth 404 has been seted up on the shutoff piece 403, outer dish 301 one side is provided with feed bin 405, be provided with titanium dioxide in the feed bin 405, the second round mouth 406 that link up has been seted up to the feed bin 405 bottom, when feed bin 405 and second round mouth 406 coincide, the titanium dioxide that is arranged in feed bin 405 just can drop to mixing housing 2 bottom.

Example III

Please refer to fig. 6 to 9:

to solve the problems mentioned in the technical solution, this embodiment involves the following parts:

501. a transmission member; 502. a third strut; 503. limiting slices; 504. u-shaped clamping columns; 505. a special-shaped column; 506. an auxiliary block; 507. a first abutment post; 508. a second abutment post; 509. a first spring; 510. A connecting block; 511. a fourth strut; 512. and a stirring piece.

Be provided with driving medium 501 in mixing stirring subassembly 5, driving medium 501 mainly comprises chain and gear, driving medium 501 gear axle center fixedly connected with third post pole 502, third post pole 502 bottom fixedly connected with restriction piece 503, restriction piece 503 lower extreme fixedly connected with U-shaped card post 504, third post pole 502 upper end fixedly connected with dysmorphism post 505, dysmorphism post 505 one end sets up to the wave, dysmorphism post 505 one side is provided with auxiliary block 506, be provided with the torsional spring on the auxiliary block 506, fixedly connected with first butt post 507, second butt post 508 on the auxiliary block 506, dysmorphism post 505 is provided with the special-shaped post 505 below, be provided with first spring 509 between dysmorphism post 505 and the connecting block 510, connecting block 510 bottom fixedly connected with fourth post pole 511, the channel of supplementary third post pole 502 has been seted up on the connecting block 510, fixedly connected with stirring piece 512 on the fourth post pole 511.

Example IV

Please refer to fig. 1 to 9:

the base 1 is provided with a mixing shell 2, a rolling assembly 3 and a spacing opening and closing assembly 4 are arranged in the mixing shell 2, and a mixing assembly 5 is arranged at the bottoms of the rolling assembly 3 and the spacing opening and closing assembly 4;

an outer disc 301 is arranged in the rolling assembly 3, a leak hole 302 is formed in the outer disc 301, a rotating plate 303 is arranged at the center of the outer disc 301, a driving motor is arranged on the rotating plate 303, a first post rod 304 is fixedly connected to the rotating plate 303, a rolling disc 305 is arranged on the first post rod 304, a vertical plate 306 is fixedly connected to the inner wall of the outer disc 301, semicircular blocks 307 are arranged on two sides of the vertical plate 306, the vertical plate 306 and the semicircular blocks 307 are mainly used for assisting the rolling disc 305 to roll diatomite blocks 308 in the outer disc 301, and diatomite blocks 308 are arranged in the outer disc 301;

a connecting strip 401 is arranged in the interval opening and closing assembly 4, the connecting strip 401 is mainly used for connecting a first pole 304 and a second pole 402, one end of the connecting strip 401 is fixedly connected with the second pole 402, one end of the second pole 402, which is far away from the connecting strip 401, is fixedly connected with a plugging piece 403, a first round opening 404 is formed in the plugging piece 403, a bin 405 is arranged on one side of the outer disc 301, titanium dioxide is arranged in the bin 405, a through second round opening 406 is formed in the bottom of the bin 405, and when the bin 405 is overlapped with the second round opening 406, the titanium dioxide arranged in the bin 405 can drop to the bottom of the mixing shell 2;

be provided with driving medium 501 in mixing stirring subassembly 5, driving medium 501 mainly comprises chain and gear, driving medium 501 gear axle center fixedly connected with third post pole 502, third post pole 502 bottom fixedly connected with restriction piece 503, restriction piece 503 lower extreme fixedly connected with U-shaped card post 504, third post pole 502 upper end fixedly connected with dysmorphism post 505, dysmorphism post 505 one end sets up to the wave, dysmorphism post 505 one side is provided with auxiliary block 506, be provided with the torsional spring on the auxiliary block 506, fixedly connected with first butt post 507, second butt post 508 on the auxiliary block 506, dysmorphism post 505 is provided with the special-shaped post 505 below, be provided with first spring 509 between dysmorphism post 505 and the connecting block 510, connecting block 510 bottom fixedly connected with fourth post pole 511, the channel of supplementary third post pole 502 has been seted up on the connecting block 510, fixedly connected with stirring piece 512 on the fourth post pole 511.

Working principle:

the initial state is as follows: the diatomite block 308 is placed outside the grinding disc 305 and is positioned in the outer disc 301, the first circular opening 404 and the second circular opening 406 are not overlapped, the auxiliary block 506 is in a horizontal state, and the first spring 509 is not stretched.

The method comprises the following steps:

the following is the working procedure of the rolling assembly 3:

when the device is used, the rotating plate 303 starts to rotate under the driving action, the rotating plate 303 drives the grinding disc 305 connected with the first post 304 to move in the inner cavity of the outer disc 301 under the assistance of the semicircular blocks 307 on two sides of the vertical plate 306 through the first post 304, in the moving process, the outer wall of the grinding disc 305 gradually approaches the inner wall of the outer disc 301, so that the diatomite blocks 308 placed in the outer disc 301 are ground and crushed, meanwhile, the crushed diatomite blocks 308 which become extremely fine powder fall into the mixing shell 2 through the leakage holes 302 on the outer disc 301 in the pushing of the bottom end of the grinding disc 305, and the subsequent mixing is waited for, which is different from the design that the diatomite blocks 308 are crushed into powder in the normal case, and then put into the container to be mixed with titanium dioxide, so that the two original steps are simplified into one step, and the waste caused when the diatomite blocks 308 which are in the powder form are transferred and poured is avoided to a certain extent;

the above operation is described with reference to fig. 1 to 4.

The following is the working procedure of the spacing opening and closing assembly 4:

when in use, when the rotating piece 303 drives the rolling disc 305 to move through the first post rod 304, the connecting bar 401 connected with the first post rod 304 carries the second post rod 402 to carry out a circular movement track consistent with the first post rod 304, at the moment, the plugging piece 403 fixedly connected with the second post rod 402 and positioned in the bin 405 also moves, because the first circular opening 404 and the second circular opening 406 are not overlapped in the initial state, when the plugging piece 403 moves, the first circular opening 404 formed on the plugging piece 403 is overlapped in the movement and the second circular opening 406 formed on the bin 405, when in superposition, titanium dioxide positioned in the bin 405 leaks into the mixing shell 2 to wait for subsequent mixing, and as the first circular opening 404 on the plugging piece 403 is not always overlapped with the second circular opening 406 on the bin 405, the titanium dioxide positioned in the bin 405 can be intermittently dropped into the mixing shell 2, a small amount of mixing can become more uniform, the method of injecting the titanium dioxide into the mixing shell 2 for one time is different from the method of stirring the process of injecting the titanium dioxide into the mixing shell 2, and the stirring device is not damaged due to more raw materials during mixing, and the stirring life is not affected by certain stirring device;

the above operation is described with reference to fig. 2 to 5.

The following is the working procedure of the mixing and stirring assembly 5:

in use, the driving motor arranged on the rotating piece 303 drives the rolling assembly 3 and the interval opening and closing assembly 4 to work, and simultaneously drives the third post rod 502 to rotate through the transmission piece 501, the rotating third post rod 502 drives the special-shaped post 505 which is fixedly connected with the third post rod 502 in rotation, and the connecting block 510 which is indirectly connected with the third post rod 502 through the assistance of the limiting piece 503 and the U-shaped clamping post 504 rotates together, in rotation, the connecting block 510 agitates the mixed raw materials which fall into the mixing shell 2 through the agitating piece 512 on the fourth post rod 511, further because one end of the special-shaped post 505 is designed to be wave-shaped, the wave end can downwards move against the first abutting post 507 under the action of the shape of the special-shaped post 505 in rotation, so that the second abutting post 508 can downwards push the connecting block 510 through the assistance of the auxiliary block 506, when the connecting block 510 is pushed downwards, the stirring sheet 512 connected to the connecting block 510 through the fourth pole 511 moves downwards, and as the special-shaped column 505 continues to rotate, the first spring 509 moves upwards to the original position with the connecting block 510, that is, through the rotation of the special-shaped column 505, the stirring sheet 512 indirectly connected to the corrugated end of the special-shaped column 505 and the auxiliary block 506 thereof, the auxiliary of the first abutting column 507 and the second abutting column 508 and the connecting block 510 moves reciprocally in the vertical direction to stir the mixed raw materials, and the stirring mode can effectively improve the stirring effect to ensure that the raw materials are mixed more uniformly, and can improve the quality of the manufactured composite photocatalytic material to a certain extent, so that the oxidative decomposition reaction such as formaldehyde removal can be more efficiently and rapidly completed;

furthermore, under the combined action of the limiting sheet 503, the U-shaped clamping column 504 and the auxiliary channel formed on the connecting block 510, the stirring sheet 512 indirectly connected with the connecting block 510 can be ensured to normally rotate, and the connecting block 510 can be ensured to still rotate when the second abutting column 508 pushes the connecting block 510 to move downwards or the first spring 509 pulls the connecting block 510 upwards, so that effective assistance is provided for normal operation of work;

the above operation is described with reference to fig. 6 to 9.

The method is as follows: the diatomite blocks 308 can be directly crushed by the rotation of the rolling assembly 3 and directly fall into the mixing shell 2 through the leakage holes 302 under the pushing of the bottom end of the rolling disc 305, so that inconvenience of crushing before transferring mixing is avoided, and then the mixed raw materials can be stirred a small amount of times by the mixing assembly 5 through indirect feeding of the interval opening and closing assembly 4, so that the raw materials are mixed more uniformly.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. The utility model provides a remove raw materials automated processing equipment for preparation of formaldehyde composite photocatalytic material which characterized in that: the mixing device comprises a base (1), wherein a mixing shell (2) is arranged on the base (1), a rolling assembly (3) and a spacing opening and closing assembly (4) are arranged in the mixing shell (2), and a mixing and stirring assembly (5) is arranged at the bottoms of the rolling assembly (3) and the spacing opening and closing assembly (4); an outer disc (301) is arranged in the rolling assembly (3), a leak hole (302) is formed in the outer disc (301), a rotary plate (303) is arranged at the center of the outer disc (301), a first pole (304) is fixedly connected to the rotary plate (303), a rolling disc (305) is arranged on the first pole (304), a vertical plate (306) is fixedly connected to the inner wall of the outer disc (301), semicircular blocks (307) are arranged on two sides of the vertical plate (306), and diatomite blocks (308) are arranged in the outer disc (301);

a connecting strip (401) is arranged in the interval opening and closing assembly (4), one end of the connecting strip (401) is fixedly connected with a second column (402), one end, far away from the connecting strip (401), of the second column (402) is fixedly connected with a plugging sheet (403), and a first round opening (404) is formed in the plugging sheet (403);

a bin (405) is arranged on one side of the outer disc (301), and a second round opening (406) which is communicated is formed in the bottom of the bin (405);

a transmission part (501) is arranged in the mixing and stirring assembly (5), a gear axis of the transmission part (501) is fixedly connected with a third post rod (502), the bottom end of the third post rod (502) is fixedly connected with a limiting plate (503), the lower end of the limiting plate (503) is fixedly connected with a U-shaped clamping post (504), and the upper end of the third post rod (502) is fixedly connected with a special-shaped post (505);

an auxiliary block (506) is arranged on one side of the special-shaped column (505), a first abutting column (507) and a second abutting column (508) are fixedly connected to the auxiliary block (506), the special-shaped column (505) is arranged below the special-shaped column (505), a first spring (509) is arranged between the special-shaped column (505) and the connecting block (510), a fourth post rod (511) is fixedly connected to the bottom of the connecting block (510), and an stirring sheet (512) is fixedly connected to the fourth post rod (511);

one end of the special-shaped column (505) is provided with a wave shape; a torsion spring is arranged on the auxiliary block (506); and a channel for assisting the third pole (502) is formed in the connecting block (510).

2. The raw material automatic processing device for preparing formaldehyde-removing composite photocatalytic material according to claim 1, characterized in that: the rotating piece (303) is provided with a driving motor.