CN115651434A - Preparation method of water-based double formaldehyde-removing coating - Google Patents
Preparation method of water-based double formaldehyde-removing coating Download PDFInfo
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- CN115651434A CN115651434A CN202211388940.3A CN202211388940A CN115651434A CN 115651434 A CN115651434 A CN 115651434A CN 202211388940 A CN202211388940 A CN 202211388940A CN 115651434 A CN115651434 A CN 115651434A
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Abstract
The invention relates to the field of paint preparation, in particular to a preparation method of a water-based double formaldehyde-removing paint. The method comprises the following steps: the method comprises the following steps: mixing a plurality of powder raw materials and liquid raw materials; step two: heating and gasifying the raw materials in the mixing process and recycling the raw materials into the liquid mixed raw materials; step three: and fully mixing the gases in the circulation so that the raw materials are fully mixed to finish the preparation of the coating. The device is including the loading frame that mixes the raw materials, and the rigid coupling has a plurality of minute of reposition of redundant personnel gas to carry the frame on the loading frame, and it has a plurality of mixed frames to carry to rotate on the frame, and the rigid coupling has a plurality of circulating pipes on the loading frame, and a plurality of circulating pipes rotate with the mixed frame that corresponds respectively and connect, and equal rigid coupling has the helical plate of mist in a plurality of mixed frames. The device also comprises an arc plate frame which rotates the mixed raw materials at the bottom end of the loading frame. The raw materials can be fully gasified and mixed to prepare the water-based dual formaldehyde-removing coating.
Description
Technical Field
The invention relates to the field of paint preparation, in particular to a preparation method of a water-based double formaldehyde-removing paint.
Background
Formaldehyde is colorless gas, has special pungent smell, and has irritation effect on eyes and nose. When the formaldehyde reaches a certain concentration indoors, people feel uncomfortable. Greater than 0.08mg/m 3 The concentration of formaldehyde can cause redness, itching, discomfort or pain in the throat, hoarseness, sneezing, chest distress, asthma, dermatitis, etc. The newly decorated room has high formaldehyde content and is the main cause of many diseases. The coating is an indispensable part for people at first life, and plays a role in beauty and protection in interior decoration. The formaldehyde-removing paint can be used for adsorbing formaldehyde in newly-decorated rooms, and in the prior art, the raw materials cannot be fully gasified and mixed to prepare the water-based dual formaldehyde-removing paint when the formaldehyde-removing paint is prepared.
Disclosure of Invention
In order to overcome the defects of the prior art, the invention provides a preparation method of a water-based dual formaldehyde-removing coating, which can be used for preparing the water-based dual formaldehyde-removing coating by fully gasifying and mixing raw materials.
The technical scheme adopted by the invention for solving the technical problem is as follows:
a preparation method of a water-based dual formaldehyde-removing paint comprises the following steps:
the method comprises the following steps: mixing a plurality of powder raw materials and liquid raw materials;
step two: heating and gasifying the raw materials in the mixing process and recycling the raw materials into the liquid mixed raw materials;
step three: and fully mixing the gases in the circulation so that the raw materials are fully mixed to finish the preparation of the coating.
Further, the device includes the loading frame that mixes the raw materials, and the rigid coupling has a plurality of minute of reposition of redundant personnel gas to carry the frame on the loading frame, and it has a plurality of mixed frames to rotate on the minute year frame, and the rigid coupling has a plurality of circulating pipes on the loading frame, and a plurality of circulating pipes rotate with the mixed frame that corresponds respectively and are connected, and equal rigid coupling has the helical plate of mist in a plurality of mixed frames.
Further, the device also comprises an arc plate frame which rotates the mixed raw materials at the bottom end of the loading frame.
Furthermore, the device still includes the heating frame of rigid coupling in loading frame bottom, and the rigid coupling has two communicating pipes on the heating frame.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a flow chart of a method of preparing a coating;
FIG. 2 is a schematic view of the recycled material;
FIG. 3 is a cross-sectional view of the load frame;
FIG. 4 is a structural view of a mixed liquid raw material;
FIG. 5 is a block diagram of a mixed gaseous feed;
FIG. 6 is a block diagram of a gaseous feed of a hybrid cycle;
FIG. 7 is a structural view of a spiral plate;
FIG. 8 is a structural view of a heating raw material;
FIG. 9 is a block diagram of the preparation of the coating;
fig. 10 is a sectional view of preparing a dope.
A loading frame 11; a load sharing frame 12; a mixing frame 13; a circulation pipe 14; a plugging block 15; a baffle 16; a spiral plate 17; a driven wheel 18; a curved plate frame 21; corner panels 22; a multi-plate frame 23; a speed reduction motor I24; a driving wheel 25; a heating frame 31; the communication pipe 32; a sub-frame 33; the tube 34 is heated.
Detailed Description
Referring to fig. 1, a process flow for preparing the aqueous dual formaldehyde-removing coating is detailed:
a preparation method of a water-based dual formaldehyde-removing coating comprises the following steps:
the method comprises the following steps: adding various powder raw materials and liquid raw materials together, and then mixing the various raw materials;
step two: the raw materials are heated in the mixing process, so that the raw materials are fully gasified, the high-temperature gasified raw materials can move quickly, various gasified raw materials are heated and then circulate to return to the liquid-state mixed raw materials, and are fully mixed again, so that various raw materials can be uniformly and fully mixed;
step three: the gas is fully mixed during circulation, the gasified raw materials move more intensely, and the raw materials are more easily mixed, so that the raw materials are fully mixed to complete the preparation of the coating.
With the above embodiments, the following functions can also be realized;
referring to fig. 2 and 7, the implementation process for realizing the sufficient circulation of the raw materials is explained in detail:
the device includes loading frame 11, loading frame 11 mainly plays the loading raw materials, as the effect of mixing container, loading frame 11 goes up the gaseous partial load frame 12 of fixedly connected with reposition of redundant personnel, partial load frame 12 mainly plays the effect of the gasified raw materials after the water conservancy diversion heating, rotate on the partial load frame 12 and be connected with a plurality of mixed frames 13, a plurality of mixed frames 13 all can rotate around self axis, loading frame 11 goes up fixedly connected with a plurality of circulating pipes 14, a plurality of circulating pipes 14 rotate with the mixed frame 13 that corresponds respectively, all fixedly connected with gaseous spiral plate 17 in a plurality of mixed frames 13, a plurality of mixed frames 13 rotate and drive spiral plate 17 down and rotate, gaseous flow to a plurality of mixed frames 13 after the direction and mix, rethread a plurality of circulating pipes 14 flow back and load and mix in the frame 11 once more, all be provided with the check valve in a plurality of circulating pipes 14, thereby prevent that liquid from flowing into a plurality of circulating pipes 14, can fully accomplish the preparation of raw materials, loading on loading frame 11 fixedly connected with a plurality of unloading valves, after finishing, can realize the unloading of coating through a plurality of valves.
With the above embodiments, the following functions can also be realized;
referring to fig. 3 and 4, the implementation of the intensive mixing of the various raw materials is detailed:
With the above embodiments, the following functions can also be realized;
referring to fig. 8, 9 and 10, the implementation of heating the raw materials into gas for thorough mixing will be described in detail:
the device still includes heating frame 31, heating frame 31 fixed connection is in loading 11 bottoms of frame, two communicating pipes 32 of fixedly connected with on the heating frame 31, two communicating pipes 32 respectively fixed connection are on the firing equipment of peripheral hardware, through the firing equipment who starts the peripheral hardware, the high-temperature gas of the firing equipment of peripheral hardware flows into through communicating pipe 32 and heats loading frame 11 and inside raw materials in heating frame 31, strengthen the activity of raw materials, realize quick and abundant mixture, the high-temperature gas after the heating flows back to the firing equipment of peripheral hardware through another communicating pipe 32.
With the above embodiments, the following functions can also be realized;
with reference to fig. 8, 9 and 10, the implementation of the gas of the heating cycle is explained in detail:
the two communicating pipes 32 are fixedly connected to the auxiliary frame 33, the auxiliary frame 33 is fixedly connected with the plurality of heating pipes 34, and the plurality of heating pipes 34 are respectively sleeved on the corresponding circulating pipes 14, so that the raw materials in the plurality of circulating pipes 14 are fully heated by the high-temperature gas flowing through the communicating pipes 32 flowing through the auxiliary frame 33 and the plurality of heating pipes 34 to fully mix the raw materials.
With the above embodiments, the following functions can also be realized;
with reference to fig. 4 and 5, the implementation of the well-mixed gasified feedstock is detailed:
fixedly connected with gear motor I24 on the support of loading frame 11, fixedly connected with grillage 23 that many is gone up to gear motor I24's the output shaft, the contact of the inner wall of many grillage 23 and branch year frame 12, when starting gear motor I24, gear motor I24 drives many grillage 23 and rotates, many grillage 23 rotates in the inside of branch year frame 12, carry out abundant mixture to multiple gasified raw materials, the raw materials after the mixture circulates again, accomplish the mixture of abundant raw materials, accomplish the dual preparation that removes formaldehyde coating of waterborne.
With the above embodiments, the following functions can also be realized;
referring to fig. 3, the process of performing the sufficient mixing of the heated and gasified raw materials is described in detail:
fixedly connected with guide plate 16 on the inner wall of loading frame 11 makes the raw materials in loading frame 11 fully gasify through the heating, and the raw materials after the gasification rises and flows to the lower extreme of guide plate 16, and the water conservancy diversion of rethread guide plate 16 flows and carries out abundant mixing in the partial load frame 12 of upper end, also can make the not thorough gas of gasification condense on guide plate 16 to the preparation of coating is carried out in the lower flow back loading frame 11.
With the above embodiments, the following functions can also be realized;
referring to fig. 4, the implementation process of fully mixing the guided gas raw materials is detailed:
the angle plate 22 is fixedly connected to the multi-plate frame 23, and the angle plate 22 is driven to rotate when the multi-plate frame 23 rotates, so that gasified gas is driven to flow sufficiently, and the gas raw materials are mixed sufficiently.
With the above embodiments, the following functions can also be realized;
referring to fig. 6, an implementation process of driving a plurality of mixing frames to rotate the mixed gas raw material is described in detail:
equal fixedly connected with from the driving wheel 18 on a plurality of mixed frames 13, fixedly connected with action wheel 25 on the output shaft of gear motor I24, a plurality of from the driving wheel 18 all with action wheel 25 meshing transmission, gear motor I24 rotates down to drive action wheel 25 and rotates, a plurality of follow driving wheel 18 of 25 meshing drive rotate, a plurality of follow driving wheel 18 drive a plurality of mixed frames 13 carry out abundant rotation to the realization is to the intensive mixing of gasified raw materials.
With the above embodiments, the following functions can also be realized;
referring to fig. 2, the implementation of the addition of raw materials is detailed:
processing has a plurality of feed ports on the loading frame 11, and all detachable on a plurality of feed ports is connected with plugging block 15, can realize the quick interpolation of multiple raw materials through a plurality of feed ports, has added after the raw materials, and a plurality of feed ports shutoff is prevented to a plurality of plugging blocks 15 of rethread, prevents that the raw materials from revealing, causes the waste of resource.
Claims (10)
1. A preparation method of a water-based dual formaldehyde-removing coating is characterized by comprising the following steps:
the method comprises the following steps: mixing a plurality of powder raw materials and liquid raw materials;
step two: heating and gasifying the raw materials in the mixing process and recycling the raw materials into the liquid mixed raw materials;
step three: and fully mixing the gases in the circulation so that the raw materials are fully mixed to finish the preparation of the coating.
2. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 1, wherein: use the dual formaldehyde coating preparation facilities that removes of waterborne to realize, the device is including loading frame (11) of mixed raw materials, and the rigid coupling has branch year frame (12) of reposition of redundant personnel gas on loading frame (11), and it has a plurality of mixed frames (13) to rotate on dividing year frame (12), and the rigid coupling has a plurality of circulating pipes (14) on loading frame (11), and a plurality of circulating pipes (14) rotate with the mixed frame (13) that correspond respectively and are connected, and equal rigid coupling has mixed gas's spiral board (17) in a plurality of mixed frames (13).
3. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 2, characterized in that: the device also comprises an arc plate frame (21) which rotates the mixed raw materials at the bottom end of the loading frame (11).
4. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 2, characterized in that: the device also comprises a heating frame (31) fixedly connected to the bottom end of the loading frame (11), and two communicating pipes (32) are fixedly connected to the heating frame (31).
5. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 4, wherein: the device also comprises an auxiliary frame (33) fixedly connected to the two communicating pipes (32), the auxiliary frame (33) is fixedly connected with a plurality of heating pipes (34), and the plurality of heating pipes (34) are fixedly connected with the corresponding circulating pipes (14) respectively.
6. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 5, wherein: the device also comprises a speed reducing motor I (24) fixedly connected to the support of the loading frame (11), and a multi-plate frame (23) for mixing raw materials in the sub-loading frame (12) is fixedly connected to an output shaft of the speed reducing motor I (24).
7. The preparation method of the water-based dual formaldehyde-removing paint as claimed in claim 6, wherein: the device also comprises a deflector (16) fixed inside the loading frame (11).
8. The preparation method of the water-based dual formaldehyde-removing paint according to claim 7, characterized in that: the device also comprises an angle plate (22) fixedly connected to the multi-plate frame (23) for mixing the raw materials.
9. The preparation method of the waterborne dual formaldehyde-removing coating according to claim 8, characterized in that: the device also comprises a plurality of driven wheels (18) fixedly connected to the plurality of mixing frames (13), and a driving wheel (25) for driving the plurality of driven wheels (18) to rotate is fixedly connected to an output shaft of the speed reducing motor I (24).
10. The preparation method of the aqueous dual formaldehyde-removing coating according to claim 9, characterized in that: the device also comprises a plurality of feeding holes arranged on the loading frame (11), and plugging blocks (15) can be detachably connected on the plurality of feeding holes.
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CN202211388940.3A CN115651434A (en) | 2022-11-03 | 2022-11-03 | Preparation method of water-based double formaldehyde-removing coating |
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CN202211388940.3A CN115651434A (en) | 2022-11-03 | 2022-11-03 | Preparation method of water-based double formaldehyde-removing coating |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116285480A (en) * | 2023-03-13 | 2023-06-23 | 朱泳安 | Production process of water-based environment-friendly paint |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116285480A (en) * | 2023-03-13 | 2023-06-23 | 朱泳安 | Production process of water-based environment-friendly paint |
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