CN205570148U - Mechanical agitation and cutting gas-liquid mixing device in pipe or container - Google Patents

Abstract

A mechanical stirring cutting gas-liquid mixing device in a pipeline or a container comprises the pipeline or the container, a motor, a fan blade and a cutting body, wherein the cutting body is a single combination or a composite combination of a plurality of columns, a plurality of plates and a plurality of special-shaped bodies; the multiple columns are solid columns, columns with holes, columns with hairbrushes or hairbrush columns with holes; the multi-sheet plate is a solid plate, a perforated plate, a hairbrush plate or a hairbrush plate with holes; the plurality of special-shaped bodies are solid special-shaped bodies, special-shaped bodies with holes, special-shaped bodies with brushes or special-shaped bodies with the brushes; the single combination or the composite combination comprises one of a plurality of columns, a plurality of plates and a plurality of profile bodies, and the parallel combination, the inclined plane combination, the staggered combination, the crossed combination and/or the matrix combination of two or more of the columns, the plates and the profile bodies; the air to be purified and the liquid for purifying the air are fully stirred, cut and mixed by the cutting body, and then gas-liquid separation is carried out. The utility model discloses air purification is thorough, and is effectual, and is efficient, is the air purification method and the device of innovation.

Description

Mechanical agitation and cutting gas-liquid mixing device in pipe or container

technical field

The utility model belongs to the technical field of environmental protection, in particular to an air purification device.

Background technique

Traditional air purification methods and devices mostly use filters to filter large particles of dust in the air, and small particles or fine dust particles smaller than the aperture of the filter will escape through the filter holes smoothly, and after a short period of use, they will be larger than the filter. The dust particles in the pore size will block the mesh, reduce the air flow, reduce the filtration efficiency or even completely fail.

There is another traditional high-voltage electrostatic dust removal method and device. The high-voltage electrode plate absorbs dust. After the electrode plate accumulates dust, the dust removal function will soon fail, and it is difficult to clean. In good health.

In recent years, there are also some methods and devices for water curtain spraying to wash the air. The gap between the sprayed water columns is much larger than 2.5 micron units, and the contact rate between the dust particles and the water column is very small, so that it is difficult for the spray water to capture these dust particles. , so the air purification effect is poor and the efficiency is extremely low.

Contents of the invention

The technical problem to be solved by the utility model is: to solve the problems of the above-mentioned prior art, and provide a mechanical stirring and cutting gas-liquid mixing device in the pipeline or container, so that the air and liquid can be fully stirred, cut and mixed in the pipeline or container , Cleaning, disinfection, dust removal, thorough air purification, good effect, high efficiency, protecting the environment and people's health.

The technical scheme that the utility model adopts is:

A mechanical stirring and cutting gas-liquid mixing device in a pipe or container, including a pipe or container, a motor and a fan blade driven by the motor, and a cutting body. Combination or composite combination; the plurality of columns are solid columns, columns with holes, brush columns with holes or brush columns with holes, and the multi-plates are solid plates, plates with holes, brush plates with Hole brush plate, the plurality of shaped bodies are solid shaped bodies, shaped bodies with holes, shaped bodies with brushes or brush shaped bodies with holes; the single combination includes multiple columns or plates, Parallel combination, slope combination, dislocation combination, cross combination and/or matrix combination of a plurality of special-shaped bodies; the composite combination includes multiple columns, multiple plates, parallel combination of two or more of multiple special-shaped bodies, Slope combination, dislocation combination, cross combination and/or matrix combination; the air inlet hole is installed on one end of the container and/or the side wall, the air outlet hole is installed on the other end of the container; the liquid inlet hole is installed on one end of the container and/or the side of the container, cutting On the hollow shaft of the body and the shaft sleeve of the cutting body; the liquid inlet hole is connected to the installation nozzle.

In the above technical solution, the plurality of columns include a plurality of needle brushes with or without holes, straight columns, curved columns, vertical knives, vertical pipes or vertical rods.

In the above technical solution, the multi-sheet plates include blades or blades with holes or without holes, abrasive layers, flat plates, wire nets, and sheet nets.

In the above technical solution, the plurality of irregular bodies include spiral bodies or curved bodies, curved bodies, burr bodies, brush bodies, and mesh bodies.

In the above technical solution, the fan blades are installed at the air inlet end and/or the air outlet end in the container.

In the above technical solution, the fan blades are installed in the air blowing device outside the container and/or in the air exhausting device outside the container, the air blowing device is connected and communicated with the air inlet of the container through the pipeline, and the air exhausting device is connected with the air intake of the container through the pipeline. The air outlet is connected and communicated.

In the above technical solution, the liquid inlet hole is connected and communicated with the output pipe of the liquid pump.

The most important technical feature of the utility model is that a cutting body is designed in the pipeline or the container to fully stir, cut and mix the air and the liquid at the same time. For example, assuming that there are 100 columns on the cutting body, and the cutting body rotates at 6000 rpm, then the cutting body performs 6×10 ⁵ agitation, cutting and mixing of gas and liquid per minute. Add 10 more multi-plates, each plate has 200 micropores, and each post of the plurality of columns has 10 micropores, then the above-mentioned cutting body can simultaneously stir, cut, and cut gas and liquid. The number of mixing opportunities will reach: 100 x 10 micropores x 6000 rpm x 10 pieces x 200 micropores = 12 x 10 ⁹ , assuming that the flow rate of purified air in the pipeline or container of the utility model is 10 liters per minute, The content of PM2.5 in every liter of air is 1 microgram, and 1 microgram of PM2.5 fine dust particles has a total of 12 billion chances of mixing with liquid agitation, cutting, collision and mixing every minute. In addition, the number of parallel combinations, slope combinations, dislocation combinations, cross combinations and/or matrix combinations of multiple columns, multiple plates, and multiple special-shaped bodies of the utility model is extremely amazing. Therefore, the cutting body can make the air to be purified The liquid and the purified air are fully stirred, cut and mixed, and then the gas and liquid are separated, and the separated air becomes clean air for people to use.

Because the utility model adopts multiple columns, multiple plates, multiple special-shaped bodies in a single combination or composite combination, the air to be purified and the liquid for purifying the air are fully stirred, cut and mixed at the same time, so that the air can be thoroughly cleaned. Cleaning, dust particles, toxic and harmful substances and pathogenic microorganisms in the air can be dissolved and taken away by the liquid, and finally the gas separated from the gas and liquid is clean air. Incomparable, its purification efficiency, purification degree, and purified air quality far exceed the existing technology, which is a breakthrough and innovation in air purification methods and devices.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the structural representation of the utility model embodiment 2;

Fig. 3 is the structural representation of the utility model embodiment 3;

Fig. 4 is the structural representation of the utility model embodiment 4;

Fig. 5 is a structural schematic diagram of Embodiment 5 of the present utility model;

Fig. 6 is a schematic structural view of embodiment 6 of the present invention;

Fig. 7 is a structural schematic diagram of Embodiment 7 of the present utility model.

Explanation of reference signs:

1-container, 2-motor, 3-fan blade, 4-cutting body, 5-inlet hole, 6-intake hole, 7-air outlet hole, 8-multiple columns, 9-multiple boards, 10-belt Orifice plate, 11-plate with brush, 12-battery, 13-boiler flue gas, 14-water pump blade, 15-water pump inlet, 16-one-way valve, 17-cutting body bushing, 18-fixed seat, 19 -air vent, 20-electric control device, 21-switch.

detailed description

Referring to the accompanying drawings, the mechanical agitation and cutting gas-liquid mixing device in the pipeline or container of the present utility model includes a pipeline or a container, a motor and a fan blade driven by the motor, and a cutting body. The cutting body is a plurality of columns, a plurality of plates, A single combination or composite combination of a plurality of special-shaped bodies; the plurality of columns are solid columns, columns with holes, brush columns with holes or brush columns with holes, and the multi-sheet plates are solid plates, plates with holes, A brush plate with holes or a brush plate with holes, the plurality of shaped bodies are solid shaped bodies, shaped bodies with holes, shaped bodies with brushes or brush shaped bodies with holes; the single combination includes multiple columns Or multi-plate, parallel combination of multiple special-shaped bodies, slope combination, dislocation combination, cross-combination and/or matrix combination; the composite combination includes two or more of multiple columns, multiple plates, and multiple special-shaped bodies A variety of parallel combinations, slope combinations, dislocation combinations, cross combinations and/or matrix combinations; the air inlet is installed on one end of the container and/or the side wall, and the air outlet is installed on the other end of the container; the liquid inlet is installed on one end of the container and /or on the side wall of the container, the hollow shaft of the cutting body, and the shaft sleeve of the cutting body; the liquid inlet hole is connected to the installation nozzle.

The above-mentioned multiple columns include multiple needle brushes, straight columns, curved columns, vertical knives, vertical pipes or vertical rods with or without holes.

The above-mentioned multi-piece plates include vanes or blades with or without holes, abrasive layers, planar plates, wire nets, and sheet nets.

The above-mentioned multiple irregular bodies include spiral bodies or curved bodies, curved bodies, burr bodies, brush bodies, and mesh bodies.

The above-mentioned fan blades are installed at the air inlet end and/or the air outlet end in the container.

The above-mentioned fan blades are installed in the air blowing device outside the container and/or in the air exhausting device outside the container. The air blowing device is connected and communicated with the air inlet of the container through a pipeline, and the air exhausting device is connected and communicated with the air outlet of the container through a pipeline.

The liquid inlet hole is connected and communicated with the output pipe of the liquid pump.

Based on the above-mentioned method of mechanical stirring and cutting gas-liquid mixing device in the pipeline or container, a motor-driven cutting body is installed in the pipeline or container, and the cutting body is a single combination or combination of multiple columns, multiple plates, and multiple special-shaped bodies. Composite combination; the plurality of columns are solid columns, columns with holes, brush columns with holes or brush columns with holes; the multi-sheet plates are solid plates, plates with holes, brush plates with holes or brush plate; the plurality of shaped bodies are solid shaped bodies, shaped bodies with holes, shaped bodies with brushes or brushed shaped bodies with holes; Parallel combination, slope combination, dislocation combination, cross combination and/or matrix combination of bodies; the composite combination includes parallel combination and slope combination of two or more of multiple columns, multiple plates, and multiple special-shaped bodies , dislocation combination, cross combination and/matrix combination; the air inlet hole is installed on one end and/or side wall of the container, the air outlet hole is installed on the other end of the container, the liquid inlet hole is installed on one end of the container and/or the side wall of the container, and the cutting body is hollow The shaft and the cutting body bushing; the liquid inlet hole is connected to the installation nozzle; the liquid inlet hole is connected to the output pipe of the liquid pump, and the air to be purified and the liquid for cleaning the air enter the pipe or container at the same time, and are combined by a single combination of the cutting body or The multiple columns, multiple plates, and multiple shaped bodies in the composite combination are fully stirred, cut and mixed, and then separated from the gas and liquid. The separated liquid is recycled and used, and the separated gas becomes clean air for people to use.

Fan blades are installed at the inlet end and/or the air outlet end in the above-mentioned pipeline or container.

The gas-liquid separation mentioned above is centrifugally separated by cutting bodies and/or fan blades in the container.

The air inlet of the above-mentioned pipeline or container is connected with the blower device, and the air outlet of the pipeline or container is connected with the air exhaust device.

Its motor of embodiment 1 shown in Fig. 1, two fan blades, cutting body all are installed in the container of a similar large-diameter pipeline, and one end of container has air inlet, and the other end of container has air outlet, two The four fan blades are respectively: the fan blade at the air inlet end is a blower relative to the cutting body, and the fan blade at the air outlet end is a negative pressure exhaust fan relative to the cutting body. A plate with a hole, a plurality of columns are installed on the plate with holes, the plurality of columns are combined in parallel, and the plurality of columns are parallel to the axis of the cutting body. There are multiple liquid inlet holes in this embodiment, distributed and installed on the side wall of the container. Hole connection for mounting nozzle. The above-mentioned negative pressure exhaust fan also has the function of centrifugal separation and drying of gas and liquid.

Its motor of embodiment 2 shown in Fig. 2, two fan blades, cutting body are all installed in the container of a similar large-diameter pipeline, and structure is identical with above-mentioned embodiment 1, and cutting body is that a band hole is installed on the cutting body shaft A plate, a plurality of parallel columns are installed on the perforated plate, and the plurality of columns are parallel to the axis of the cutting body. The difference of this embodiment 2 is that the air inlet at the intake end is connected to the flue gas outlet of the boiler, thermal power plant, kiln, lampblack stove or chemical workshop, and the gas outlet is the same as the above embodiment 1. This embodiment 2 is also different in that the container wall is an interlayer, and a liquid inlet hole is installed on the outer layer container wall to communicate with the external liquid inlet pipe, and a nozzle is installed on the inner layer container wall, and an opening There is a funnel-shaped liquid outlet hole, and the waste liquid after cleaning the air is discharged from here.

Embodiments 3 to 6 shown in FIGS. 3 to 6 respectively show cutting bodies with different combined structures. As shown in Figure 3, the cutting body of Example 3 is a composite combination of multiple perforated plates and multiple columns, wherein the multiple perforated plates are parallel to each other, but are installed perpendicular to the axis of the cutting body, and the multiple columns are parallel to each other. However, it is perpendicular to the plurality of perforated plates and is fixedly connected with the plurality of perforated plates. The cutting body of embodiment 4 shown in Figure 4 is a parallel combination of multiple perforated plates. The cutting body of embodiment 5 shown in Figure 5 is a cross combination of multiple perforated plates. Its cutting body of embodiment 6 as shown in Figure 6 is the parallel combination of a plurality of band brush plates, but the multi-plate band brush plates are vertically installed with the axis of the cutting body. In embodiment 7 shown in Figure 7, its cutting body is a vertical composite combination of multiple columns and multiple plates, the multiple plates are perforated plates, and there are multiple mounting holes on the fan blades below the cutting body. The columns respectively pass through these installation holes and are connected and fixed with the fan blades. This installation structure of the fan blades is an innovation. The air inlet hole is installed on the side wall of the container, and the liquid inlet hole is installed on the shaft sleeve of the cutting body. The nozzle is connected to the liquid inlet hole. The shaft sleeve of the cutting body is the outlet pipe of the water pump. The inner lower part is equipped with water or air cleaning liquid, and the water inlet end of the water pump communicates with the water or air cleaning liquid installed in the inner lower part of the container. A fixed seat of the motor is installed above the cutting body, the fixed seat is a fixed seat with a vent hole, and the two ends of the motor shaft are respectively connected with the cutting body shaft and the exhaust fan shaft. The function of the exhaust fan is twofold: a negative pressure is formed by exhausting air, which is beneficial to the circulation of the purified air and improves efficiency; the second is that the cut body is fully stirred and cut, and the gas-liquid mixture is centrifugally separated by the fan blades of the exhaust fan, and the liquid is It is centrifugally thrown to the container wall, and flows downstream to the lower part of the container for recycling, while the purified air after being centrifugally dried by the fan blades is controlled by a one-way valve from the air outlet on the top of the container, and output for people to use.

Claims (7)

1. mechanical agitation cutting Liqiud-gas mixing device in a pipeline or container, it is characterized in that, including pipeline or the fan leaf of container, motor and motor-driven, cutting body, described cutting body is many posts, many sheet, the single combination of multiple obform body or complex composition；Many described posts are solid post, post with holes, band hairbrush post or hairbrush post with holes, described many sheet are solid plate, perforated plate, band brush plate or brush plate with holes, and described multiple obform bodies are solid obform body, obform body with holes, band hairbrush obform body or hairbrush obform body with holes；Described single combination includes many posts or many sheet, the parallel combination of multiple obform body, incline configuration, dislocation combination, combined crosswise and/or matrix combination；Described complex composition includes the parallel combination of the two or more in many posts, many sheet, multiple obform body, incline configuration, dislocation combination, combined crosswise and/or matrix combination；Air inlet is arranged on one end and/or sidewall, and venthole is arranged on the container other end；Inlet opening is arranged on one end and/or container side wall, cutting body hollow axle, cutting body axle sleeve, and inlet opening is connected and installed with nozzle.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterised in that many described posts include many pin brushes with holes or the most with holes, straight line post, curvilinear columns, vertical cutter, standpipe or vertical rod.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterised in that described many sheet include blade with holes or the most with holes or blade, grinding layer, surface plate, wire mesh, sheet-like web.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterised in that described multiple obform bodies include spirillum or curved body, CLB, burr body, hairbrush body, reticulate body.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterised in that inlet end that described fan leaf is arranged in container and/or outlet side.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterized in that, described fan leaf is arranged in the extractor fan air-blast device outside container Nei and/or outside container, air-blast device is connected by the air inlet of pipeline with container, and extractor fan is connected by the venthole of pipeline with container.

Mechanical agitation cutting Liqiud-gas mixing device in pipeline the most according to claim 1 or container, it is characterised in that described inlet opening connects with liquid pump main road.