CN218689116U - Coating mixes reinforced feed bin structure - Google Patents

Abstract

The utility model belongs to the technical field of road coating production, concretely relates to coating mixes reinforced feed bin structure, including four layers of steel construction building, from top to bottom installs liquid storage tank in proper order in four layers of steel construction building, the transfer tank, the powder container, the mixer, mixing arrangement, powder container installs middle storage tank in one side, liquid storage tank, the transfer tank, middle storage tank is connected with the blast pipe, two liang of feed inlets that are a set of transfer tank through three-way pipe intercommunication of liquid storage tank, the transfer tank discharge gate is connected with the hybrid tube, the screw feeder is installed to powder container bottom, mixer feed inlet connecting screw feeder, the hybrid tube, middle storage tank bottom, the mixing arrangement feed inlet is connected to the mixer discharge gate. The utility model has the advantages that: under the action of gravity, the liquid solvent is effectively mixed in the mixing pipe, the energy consumption of raw material conveying and mixing is reduced, the exhaust pipe can suck the solvent volatilized in the air, and the environmental odor is reduced.

Description

Coating mixes reinforced feed bin structure

Technical Field

The utility model belongs to the technical field of road coating production, concretely relates to coating mixes reinforced feed bin structure.

Background

The road marking paint is used for common marking of asphalt pavement and cement pavement. The manufacturing process of the normal-temperature road marking paint comprises the following steps: 1. uniformly mixing methylbenzene and butyl acetate, adding a filler, using a stirrer to stir at a constant speed and at a fixed time, adding a pigment in the process, uniformly mixing materials, 2, taking butanone and ethanol, uniformly mixing, adding resin, using the stirrer to stir at a constant speed and at a fixed time until the resin is completely dissolved, adding a dispersing agent, stirring at a constant speed and at a fixed time, uniformly mixing the materials, and 3, fully stirring the materials obtained in the steps 1 and 2 in the stirrer and continuing subsequent ball milling treatment.

When the process is used for production, the raw materials need to be transferred for multiple times by using a pumping mechanism and are mixed, so that the electric energy consumption is large, the procedure is complex, and the required space is wide; moreover, as the raw materials contain more volatile solvents, peculiar smell is easy to generate in production, and the requirements of environment-friendly production are not met.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model aims to: the utility model provides a coating mixes reinforced feed bin structure, it is great to solve road coating feeding device power consumption to and the raw materials volatilizees and produces the peculiar smell, does not conform to the problem of environmental protection production requirement.

For the purpose of realizing above, the utility model discloses a technical scheme: the utility model provides a coating mixes reinforced feed bin structure, includes four layers of steel construction building, install liquid storage tank, transfer tank, powder container, mixer, mixing arrangement from top to bottom in the four layers of steel construction building in proper order, the storage tank in the middle of installing of four layers of steel construction building of powder container one side, the quantity of liquid storage tank is four, the quantity of transfer tank, powder container, middle storage tank is two, the tank deck of liquid storage tank, transfer tank, middle storage tank is connected with the blast pipe, two liang of liquid storage tank are a set of feed inlet through a transfer tank of three-way pipe intercommunication, the discharge gate of transfer tank is connected with the hybrid tube, the hybrid tube includes body, stirring leaf and bypass pipe, the screw feeder is installed to the bottom of powder container, the feed inlet connecting screw feeder of mixer, the bottom of hybrid tube, middle storage tank, the discharge gate of mixer is connected the feed inlet of mixing arrangement, the hybrid tube is connected with the nitrogen pipeline through the nitrogen gas valve, the inlet scoop of blast pipe intercommunication is located one side of mixer and mixing arrangement, the one end of blast pipe is connected with the scrubbing mechanism.

The utility model has the advantages that: under the action of gravity, the liquid solvent is effectively mixed in the mixing pipe, the energy consumption of raw material conveying and mixing is reduced, the exhaust pipe can suck the solvent volatilized in the air, and the environmental odor is reduced.

In order to quantitatively put and take the solvent stored in the liquid storage tank;

as a further improvement of the above technical solution: and a square frame strip sight glass is arranged on the side surface of the transit tank.

The beneficial effect of this improvement does: an operator can visually observe the liquid level in the transfer tank through the square frame strip sight glass and judge the volume of the liquid in the transfer tank.

In order to accurately take and place the solvent in the liquid storage tank;

as a further improvement of the above technical solution: the three-way pipe is of a Y-shaped three-way pipe structure.

The beneficial effect of this improvement does: the three-way pipe of Y type structure can avoid the solvent to keep somewhere in the horizontally pipeline, influences the ratio accuracy nature of solvent.

In order to ensure the mixing effect of the solvent in the mixing pipe;

as a further improvement of the technical scheme: the stirring blades are of a spiral structure, the axes of the stirring blades are collinear with the axis of the pipe body, and the rotating directions of the two vertically adjacent stirring blades are opposite.

The beneficial effect of this improvement does: under the action of gravity, the solvent is blocked by the stirring blades when passing through the mixing tube, so that the solvent is fully mixed.

In order to improve the mixing effect of the solvent in the mixing pipe;

as a further improvement of the above technical solution: the bypass pipe is arranged above the stirring blade, and one end of the bypass pipe is connected with the nitrogen valve.

The beneficial effect of this improvement does: after the nitrogen valve is opened, nitrogen flows into the tube body at a high speed through the bypass pipe, so that the solvent in the tube body is driven to flow at a high speed, and the mixing effect of the solvent is improved.

In order to avoid the influence on the quality of the solvent caused by the fact that the volatile solvent enters different containers through the exhaust pipe;

as a further improvement of the above technical solution: the blast pipe passes through discharge valve and connects liquid storage tank, transfer jar, middle storage tank, and the tank deck of each liquid storage tank, transfer jar, middle storage tank all installs a discharge valve.

The beneficial effect of this improvement does: an operator can cut off the exhaust pipe and the container by operating the exhaust valve, so that the volatile solvent in the exhaust pipe is prevented from entering different containers to influence the quality of the solvent.

In order to ensure the removal effect of the volatile solvent;

as a further improvement of the above technical solution: the gas washing mechanism connected with one end of the exhaust pipe comprises a fan and a gas washing tower.

The beneficial effect of this improvement does: the fan and the scrubbing tower can effectively treat volatile gas.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

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

FIG. 2 is a partial cross-sectional view of a mixing tube according to the present invention;

FIG. 3 is a schematic structural view of a stirring blade of the present invention;

in the figure: 1. building a four-layer steel structure; 2. a liquid storage tank; 3. a transfer tank; 31. a square frame strip sight glass; 4. a powder container; 5. an intermediate storage tank; 6. a blender; 7. a mixing device; 8. an exhaust pipe; 9. an exhaust valve; 11. a three-way pipe; 12. a nitrogen line; 13. a nitrogen gas valve; 14. a mixing tube; 141. a pipe body; 142. stirring blades; 144. a bypass pipe; 15. a screw feeder; 16. an air suction opening.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Example 1:

as shown in fig. 1-3: the utility model provides a coating mixes reinforced feed bin structure, includes four layers of steel structure building 1, from top to bottom installs liquid storage tank 2, transfer jar 3, powder container 4, mixer 6, mixing arrangement 7 in proper order in four layers of steel structure building 1, install middle storage tank 5 on the four layers of steel structure building 1 of powder container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer jar 3, powder container 4, middle storage tank 5 is two, the tank deck of liquid storage tank 2, transfer jar 3, middle storage tank 5 is connected with blast pipe 8, two liang of liquid storage tank 2 are a set of feed inlet that feeds through one transfer jar 3 through three-way pipe 11, the discharge gate of transfer jar 3 is connected with hybrid tube 14, hybrid tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of powder container 4, the feed inlet of mixer 6 is connected screw feeder 15, hybrid tube 14, the bottom of middle storage tank 5, the feed inlet of mixer 6 is connected with the feed inlet of mixing arrangement 7, hybrid tube 14 is connected with nitrogen gas pipeline 12 through the blast pipe 13, the bottom of exhaust pipe 13, the suction pipe 8 and the one end that suction inlet of mixer 6 and 16 and the washing mechanism is connected with one side of hybrid tube 8, and is connected with one side of mixer 6.

The working principle of the technical scheme is as follows: according to the process requirements, firstly opening exhaust valves 9 on a liquid storage tank 2 and a transfer tank 3, then opening a valve at the bottom of the liquid storage tank 2, observing the liquid level in the transfer tank 3 through a square frame strip sight glass 31, quantitatively placing toluene and butyl acetate in one transfer tank 3, placing butanone and ethanol in the other transfer tank 3, and then opening a valve at the bottom of the transfer tank 3 to respectively place solvents in the two transfer tanks 3 into two mixing pipes 14; when the solvent passes through the mixing pipe 14 under the action of gravity, the solvent is uniformly mixed under the action of the stirring blades 142 and then falls into the two stirrers 6; an operator can open the nitrogen valve 13, and the flow rate of the solvent is improved through the flow of positive pressure nitrogen, so that the mixing effect of the solvent is improved; and then, an operator opens valves at the bottoms of the two powder containers 4, stored filler and resin are respectively quantitatively put into the two stirring machines 6 and stirred as required, in the stirring process, the operator can open an exhaust valve 9 at the top of the intermediate storage tank 5 and a valve at the bottom, the pigment and the dispersing agent are respectively put into the two stirring machines 6 and continuously stirred, and after the stirring is finished, the operator opens the valve at the bottom of the stirring machine 6 and puts the feed liquid into the mixing device 7 for subsequent conventional treatment.

Example 2:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing and feeding bin structure includes four-story steel structure building 1, install liquid storage tank 2, transfer tank 3, powder container 4, mixer 6, mixing arrangement 7 from top to bottom in the four-story steel structure building 1 in proper order, install intermediate storage tank 5 on the four-story steel structure building 1 of powder container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, powder container 4, intermediate storage tank 5 is two, the tank deck of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of feed inlets that are a set of transfer tank 3 through three-way pipe 11 intercommunication of liquid storage tank 2, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of powder container 4, screw feeder 15 is connected to the feed inlet of mixer 6, mixing tube 14, intermediate storage tank 5's bottom, the connection mixing arrangement 7 of mixer 6, mixing arrangement 7 is connected through the feed inlet 12 of mixer valve 14, the exhaust pipe 12 is connected with one end of nitrogen gas washing mechanism 16, and exhaust pipe 8 is connected to the exhaust pipe 12 one side of the discharge gate of mixer 6. The side of the transfer tank 3 is provided with a square strip sight glass 31.

Example 3:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing charging bin structure includes four-story steel structure building 1, liquid storage tank 2, transfer tank 3, dust container 4, mixer 6, mixing arrangement 7 are installed from top to bottom in four-story steel structure building 1 in proper order, intermediate storage tank 5 is installed on four-story steel structure building 1 of dust container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, dust container 4, intermediate storage tank 5 is two, the tank top of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of liquid storage tanks 2 are a set of feed inlets that communicate one intermediate storage tank 3 through three-way pipe 11, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of dust container 4, screw feeder 15, mixing tube 14, the bottom of mixing tube 6 is connected with the bottom of mixing tube 14, mixing arrangement 7 is connected with suction pipe 12, and mixing tube 7 is connected with exhaust pipe 16, nitrogen gas pipe 16 is connected with exhaust pipe 12, nitrogen gas washing mechanism is connected with exhaust pipe 8. The three-way pipe 11 is of a Y-shaped three-way pipe structure.

Example 4:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing charging bin structure includes four-story steel structure building 1, liquid storage tank 2, transfer tank 3, dust container 4, mixer 6, mixing arrangement 7 are installed from top to bottom in four-story steel structure building 1 in proper order, intermediate storage tank 5 is installed on four-story steel structure building 1 of dust container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, dust container 4, intermediate storage tank 5 is two, the tank top of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of liquid storage tanks 2 are a set of feed inlets that communicate one intermediate storage tank 3 through three-way pipe 11, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of dust container 4, screw feeder 15, mixing tube 14, the bottom of mixing tube 6 is connected with the bottom of mixing tube 14, mixing arrangement 7 is connected with suction pipe 12, and mixing tube 7 is connected with exhaust pipe 16, nitrogen gas pipe 16 is connected with exhaust pipe 12, nitrogen gas washing mechanism is connected with exhaust pipe 8. The number of the stirring blades 142 is multiple, the stirring blades 142 are vertically connected, arranged and fixedly installed inside the pipe body 141, the stirring blades 142 are of a spiral structure, the axial lines of the stirring blades 142 and the axial line of the pipe body 141 are collinear, and the rotating directions of two vertically adjacent stirring blades 142 are opposite.

Example 5:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing charging bin structure includes four-story steel structure building 1, liquid storage tank 2, transfer tank 3, dust container 4, mixer 6, mixing arrangement 7 are installed from top to bottom in four-story steel structure building 1 in proper order, intermediate storage tank 5 is installed on four-story steel structure building 1 of dust container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, dust container 4, intermediate storage tank 5 is two, the tank top of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of liquid storage tanks 2 are a set of feed inlets that communicate one intermediate storage tank 3 through three-way pipe 11, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of dust container 4, screw feeder 15, mixing tube 14, the bottom of mixing tube 6 is connected with the bottom of mixing tube 14, mixing arrangement 7 is connected with suction pipe 12, and mixing tube 7 is connected with exhaust pipe 16, nitrogen gas pipe 16 is connected with exhaust pipe 12, nitrogen gas washing mechanism is connected with exhaust pipe 8. The bypass pipe 144 is disposed above the stirring blade 142, and one end of the bypass pipe 144 is connected to the nitrogen gas valve 13.

Example 6:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing charging bin structure includes four-story steel structure building 1, liquid storage tank 2, transfer tank 3, dust container 4, mixer 6, mixing arrangement 7 are installed from top to bottom in four-story steel structure building 1 in proper order, intermediate storage tank 5 is installed on four-story steel structure building 1 of dust container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, dust container 4, intermediate storage tank 5 is two, the tank top of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of liquid storage tanks 2 are a set of feed inlets that communicate one intermediate storage tank 3 through three-way pipe 11, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of dust container 4, screw feeder 15, mixing tube 14, the bottom of mixing tube 6 is connected with the bottom of mixing tube 14, mixing arrangement 7 is connected with suction pipe 12, and mixing tube 7 is connected with exhaust pipe 16, nitrogen gas pipe 16 is connected with exhaust pipe 12, nitrogen gas washing mechanism is connected with exhaust pipe 8. The blast pipe 8 is connected with the liquid storage tank 2, the transfer tank 3 and the middle storage tank 5 through the exhaust valve 9, and the exhaust valve 9 is installed on the top of each liquid storage tank 2, the transfer tank 3 and the middle storage tank 5.

Example 7:

as shown in fig. 1-3, as the further optimization of the above embodiment, a coating material mixing charging bin structure includes four-story steel structure building 1, liquid storage tank 2, transfer tank 3, dust container 4, mixer 6, mixing arrangement 7 are installed from top to bottom in four-story steel structure building 1 in proper order, intermediate storage tank 5 is installed on four-story steel structure building 1 of dust container 4 one side, the quantity of liquid storage tank 2 is four, the quantity of transfer tank 3, dust container 4, intermediate storage tank 5 is two, the tank top of liquid storage tank 2, transfer tank 3, intermediate storage tank 5 is connected with blast pipe 8, two liang of liquid storage tanks 2 are a set of feed inlets that communicate one intermediate storage tank 3 through three-way pipe 11, the discharge gate of transfer tank 3 is connected with mixing tube 14, mixing tube 14 includes body 141, stirring leaf 142 and bypass pipe 144, screw feeder 15 is installed to the bottom of dust container 4, screw feeder 15, mixing tube 14, the bottom of mixing tube 6 is connected with the bottom of mixing tube 14, mixing arrangement 7 is connected with suction pipe 12, and mixing tube 7 is connected with exhaust pipe 16, nitrogen gas pipe 16 is connected with exhaust pipe 12, nitrogen gas washing mechanism is connected with exhaust pipe 8. And the gas washing mechanism connected with one end of the exhaust pipe 8 comprises a fan and a gas washing tower.

The utility model discloses a theory of operation and use flow: according to the process requirements, firstly opening exhaust valves 9 on a liquid storage tank 2 and a transfer tank 3, then opening a valve at the bottom of the liquid storage tank 2, observing the liquid level in the transfer tank 3 through a square frame strip sight glass 31, quantitatively placing toluene and butyl acetate in one transfer tank 3, placing butanone and ethanol in the other transfer tank 3, and then opening a valve at the bottom of the transfer tank 3 to respectively place solvents in the two transfer tanks 3 into two mixing pipes 14; when the solvent passes through the mixing pipe 14 under the action of gravity, the solvent is uniformly mixed under the action of the stirring blades 142 and then falls into the two stirrers 6; an operator can open the nitrogen valve 13, and the flow rate of the solvent is improved through the flow of positive pressure nitrogen, so that the mixing effect of the solvent is improved; and then, an operator opens valves at the bottoms of the two powder containers 4, stored filler and resin are respectively quantitatively put into the two stirring machines 6 and stirred as required, in the stirring process, the operator can open an exhaust valve 9 at the top of the intermediate storage tank 5 and a valve at the bottom, the pigment and the dispersing agent are respectively put into the two stirring machines 6 and continuously stirred, and after the stirring is finished, the operator opens the valve at the bottom of the stirring machine 6 and puts the feed liquid into the mixing device 7 for subsequent conventional treatment.

It should be noted that, in this document, 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.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the above technical features may be combined in a suitable manner; such modifications, variations, or combinations, or other applications of the inventive concepts and solutions as may be employed without such modifications, are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a coating mixes reinforced feed bin structure which characterized in that: comprises a four-layer steel structure building (1), wherein a liquid storage tank (2), a transfer tank (3), a powder container (4), a stirrer (6) and a mixing device (7) are sequentially arranged in the four-layer steel structure building (1) from top to bottom, an intermediate storage tank (5) is arranged on the four-layer steel structure building (1) on one side of the powder container (4), the number of the liquid storage tank (2) is four, the number of the transfer tank (3), the number of the powder container (4) and the intermediate storage tank (5) is two, the tank tops of the liquid storage tank (2), the transfer tank (3) and the intermediate storage tank (5) are connected with an exhaust pipe (8), the liquid storage tanks (2) are pairwise set of feed inlets which are communicated with one transfer tank (3) through a three-way pipe (11), the discharge outlets of the transfer tank (3) are connected with a mixing pipe (14), the mixing pipe (14) comprises a pipe body (141), stirring blades (142) and a bypass pipe (144), a screw (15) is arranged at the bottom of the powder container (4), the stirrer (6) is connected with the feed inlets (14) and the mixing tank (7) and the discharge outlets of the mixing device (7), mixing tube (14) are connected with nitrogen pipeline (12) through nitrogen gas valve (13), inlet scoop (16) of blast pipe (8) intercommunication are located one side of mixer (6) and mixing arrangement (7), the one end of blast pipe (8) is connected with the scrubbing mechanism.

2. The coating material mixing and feeding bin structure according to claim 1, wherein: a square long-strip sight glass (31) is arranged on the side surface of the transit tank (3).

3. The coating material mixing and feeding bin structure according to claim 1, wherein: the three-way pipe (11) is of a Y-shaped three-way pipe structure.

4. The coating material mixing and feeding bin structure according to claim 1, wherein: the stirring blades (142) are arranged in a vertical connection mode and fixedly installed inside the pipe body (141), the stirring blades (142) are of a spiral structure, the axis of each stirring blade (142) is collinear with the axis of the pipe body (141), and the rotating directions of two vertically adjacent stirring blades (142) are opposite.

5. The coating material mixing and feeding bin structure according to claim 1, wherein: the bypass pipe (144) is arranged above the stirring blade (142), and one end of the bypass pipe (144) is connected with the nitrogen valve (13).

6. The coating material mixing and feeding bin structure according to claim 1, wherein: the exhaust pipe (8) is connected with the liquid storage tanks (2), the transfer tank (3) and the middle storage tank (5) through the exhaust valve (9), and the exhaust valve (9) is installed on the top of each liquid storage tank (2), the transfer tank (3) and the middle storage tank (5).

7. The coating material mixing and feeding bin structure according to claim 1, wherein: and the gas washing mechanism connected with one end of the exhaust pipe (8) comprises a fan and a gas washing tower.

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