CN204513671U - The use for laboratory dedusting humidification network of rivers - Google Patents

Abstract

The utility model relates to a kind of use for laboratory dedusting humidification network of rivers, comprise: superposed water rope and the dictyosome being positioned at bottom, described dictyosome is formed by main rope and time rope Co-knit, main rope is woven into netted primary structure, by the secondary structure weaving divergent shape in each mesh that main rope is formed all further with time rope, time rope described in every root of spinning is extended with some suede bars, and interweave between main rope composition anastomose, and each anastomose place being positioned at described dictyosome top edge is all connected with a water rope.The network of rivers that the utility model adopts adheres to the particle in air, overall process can not produce secondary pollution, and water is by the constantly downward seepage flow on the network of rivers, and the particle that the network of rivers is adhered to can constantly be followed seepage water and be departed from from the network of rivers, the network of rivers realizes self-cleaning, can not produce secondary pollution phenomenon; Air is constantly by the moistening network of rivers simultaneously, makes the network of rivers can carry out preliminary humidification to air.

Description

The use for laboratory dedusting humidification network of rivers

Technical field

The utility model relates to a kind of experimental article, particularly relates to a kind of use for laboratory dedusting humidification network of rivers.

Background technology

Purifying the particle in air usually adopts filter cloth to filter, but filter cloth can be accumulated after using certain hour and has a large amount of dusts, needs often to change.Even like this because the reason of filter cloth, after word uses a period of time, because filter cloth lacks self-purification capacity, the particle that filter cloth adheres to and dust etc. also can be brought into by air, cause secondary pollution.

Simultaneously in the process of purifying air, many times also need to carry out humidification to air, what the gas needs in air were preliminary carries out humidity supply, and then carries out the accurate humidification of secondary to air.

Summary of the invention

The utility model overcomes the deficiencies in the prior art, provides a kind of use for laboratory network of rivers with self-purification capacity and preliminary humidification function.

For achieving the above object, the technical solution adopted in the utility model is: a kind of use for laboratory dedusting humidification network of rivers, comprise: superposed water rope and the dictyosome being positioned at bottom, described dictyosome is formed by main rope and time rope Co-knit, it is characterized in that, described main rope is woven into netted primary structure, by the secondary structure weaving divergent shape in each mesh that main rope is formed all further with time rope, time rope described in every root of spinning is extended with some suede bars, interweave between main rope composition anastomose, and each anastomose place being positioned at described dictyosome top edge is all connected with a water rope.

In the utility model preferred embodiment, the main rope on the described network of rivers and time rope are the hypotenuse under being tilted to.

In the utility model preferred embodiment, the water rope on the described network of rivers and main rope form by profiled filament spinning.

In the utility model preferred embodiment, the shape of cross section of described profiled filament is with the arc of interior grooves structure or cross result or Y-shaped structure.

In the utility model preferred embodiment, described rope is spinned by filament fiber and forms, and described in every root, time rope circumference all stretches out the suede bar of some one thread filoplume forms.

In the utility model preferred embodiment, the described network of rivers is circumferentially with several anastomoses, is positioned at that the anastomose of described dictyosome circumference is dismountable to be fixed on framework.

In the utility model preferred embodiment, be parallelogram by the described main mesh formed of restricting.

In the utility model preferred embodiment, each mesh being positioned at main rope composition is equipped with many ropes, and described in every root, time rope one end intersects at a point, and the other end intersects on main rope.

The utility model solves the defect existed in background technology, the network of rivers that the utility model adopts adheres to the particle in air, overall process can not produce secondary pollution, water is by the constantly downward seepage flow on the network of rivers, the particle that the network of rivers is adhered to can constantly be followed seepage water and be departed from from the network of rivers, the network of rivers realizes self-cleaning, can not produce secondary pollution phenomenon; Air is constantly by the moistening network of rivers simultaneously, makes the network of rivers can carry out preliminary humidification to air.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the network of rivers structure chart of preferred embodiment situation one of the present utility model;

Fig. 2 is the network of rivers structure chart of preferred embodiment situation two of the present utility model;

Fig. 3 is the profiled filament cross-sectional view of the arcuate structure of preferred embodiment of the present utility model;

Fig. 4 is the profiled filament cross-sectional view of the decussate texture of preferred embodiment of the present utility model;

Fig. 5 is the profiled filament cross-sectional view of the Y-shaped structure of preferred embodiment of the present utility model;

In figure: 1, water rope, 2, dictyosome, 3, main rope, 4, secondary rope, 5, mesh, 6, anastomose.

Detailed description of the invention

Be described in further detail the utility model in conjunction with the accompanying drawings and embodiments now, these accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As Figure 1-5, a kind of use for laboratory dedusting humidification network of rivers, comprise: superposed water rope 1 and the dictyosome 2 being positioned at bottom, dictyosome 2 is formed by main rope 3 and time rope 4 Co-knit, main rope 3 is woven into netted primary structure, all further by the secondary structure of time rope 4 braiding divergent shape in each mesh 5 be made up of, every root time rope 4 of spinning is extended with some suede bars main rope 3, interweave between main rope 3 composition anastomose 6, and each anastomose 6 place being positioned at dictyosome 2 top edge is all connected with a water rope 1.Water constantly can be penetrated on the network of rivers by water rope 1 by water source slowly, and flows through on every root nettle in the network of rivers, and the network of rivers wetting so just can adhere to by the particle in the air in the network of rivers.

Main rope 3 on the network of rivers and time rope 4 are the hypotenuse under being tilted to, the water that main rope 3 can mainly provide water rope 1 to flow through, and shift and receive the water on time rope 4, and the suede bar on secondary rope 4 therefore also can be wetted, and secondary rope 4 and suede bar mainly adhere to the particle in air; The main rope 3 that situation is downward and suede bar can guide the flowing of water, contribute to water distribution on each main rope 3 and time rope 4.

Water rope 1 on the network of rivers and main rope 3 form by profiled filament spinning.The microstructure of foreign fiber be provided with along fiber axis to groove, contribute to water along fiber axial flow, like this by whole main rope 3 of some fiber twistings and water rope 1 just can smoothly by water water conservancy diversion to below.The shape of cross section of profiled filament is that above-mentioned three kinds of fiber surfaces, all with the groove structure along its axis, are conducive to water guide with the arc of interior grooves structure or cross result or Y-shaped structure.

Secondary rope 4 is spinned by filament fiber and forms, and every root time rope 4 circumferences all stretch out the suede bar of some one thread filoplume forms, and time rope 4 with suede bar significantly increases the probability adhering to particulate in air, and filter effect is better.After suede bar adheres to too much particle, its free end can naturally droop, and the particle with water is just easy from landing suede bar.

The network of rivers is circumferentially with several anastomoses 6, is positioned at that the anastomose 6 of dictyosome 2 circumference is dismountable to be fixed on framework, and this kind of structure comparatively easily installs dictyosome 2.

The mesh 5 be made up of main rope 3 is parallelogram.Network of rivers circumference can adjust shape according to frame shape, and the angle of inclination according to parallelogram adjusts, and can adjust the flow velocity of water on main rope 3 and time rope 4 accordingly.

Situation one and situation two are respectively parallelogram sturcutre and are drawn to differing tilt angles, and angle of inclination is related to the flow velocity of seepage water.

The each mesh 5 being positioned at main rope 3 composition is equipped with many ropes 4, and every root time rope 4 one end intersect at a point, and the other end intersects on main rope 3.Main rope 3 serves as the primary structure of water guide on whole dictyosome 2.

In use, as shown in the figures 1 and 2, water source constantly provides seepage water to the network of rivers to the utility model, and water flows on each main rope 3 from water rope 1, is being exchanged mutually by the aqueous phase on secondary rope 4 from each main rope 3, and suede bar is also soaked simultaneously.Constantly can be flowed downward along with seepage water by the particle that dictyosome 2 adheres to, leave dictyosome 2, or directly drop from suede bar.

A kind of network of rivers, laboratory dust arrester, comprise: the air duct that axis tilts upward, air duct is provided with fan near one end of bottom, the network of rivers is provided with near the one end on top, the equal opening in air duct two ends, network of rivers circumference is dismountable to be fixed on air duct inwall, and network of rivers top edge is connected with water source, every root nettle surface that what the water that water source provides can infiltrate be distributed on the network of rivers, air duct bottom is also provided with at least one dirt box.The air duct tilted is conducive to the sewage that seepage flow on the network of rivers gets off and flows by gravity into dirt box; Fan can control the air quantity and the wind speed that enter air duct, and unfiltered air is sent to the network of rivers; The network of rivers of different width of mesh and different shape of a mesh can be changed in the network of rivers; Water constantly can be penetrated on the network of rivers by water rope by water source slowly, and flows through on every root nettle in the network of rivers.

The air duct place internal diameter at place, the network of rivers is less than the internal diameter of other position of air duct, and this kind of structure is conducive to improving intake velocity, and air-flow can form the eddy current of disturbance at this simultaneously, at network of rivers place, particle is sticked to surface, the network of rivers as far as possible.

Hypotenuse under nettle on the network of rivers is and is tilted to, the nettle arrangement of this kind of structure, what contribute to the water distribution of seepage flow flow on every root nettle, and water also can slowly flow on water rope simultaneously.

Nettle on the network of rivers is spinned by profiled filament and forms, the microstructure of foreign fiber be provided with along fiber axis to groove, contribute to water along fiber axial flow, like this by some fiber twistings whole nettle just can smoothly by water water conservancy diversion to below.

The shape of cross section of profiled filament is that above-mentioned three kinds of fiber surfaces, all with the groove structure along its axis, are conducive to water guide with the arc of interior grooves structure or cross result or Y-shaped structure.

Dirt box is provided with two, and lay respectively at above and below the network of rivers, dirt box is all communicated with air duct.Former and later two dirt boxs contribute to comprehensively collecting the sewage got off from seepage flow the network of rivers and the dirt come off from fan.

The network of rivers is circumferentially with several anastomoses, and air duct inwall is provided with several stay hooks, and anastomose is dismountable to be fixed on stay hook, and this kind of structure contributes to the structure of being mated with air duct inner wall shape in the network of rivers.

Anastomose above the network of rivers connects water rope, water can be directed to the network of rivers from water source by water rope.

Mesh on the network of rivers is parallelogram, and network of rivers circumference can according to air duct shape of cross section adjustment shape, and the angle of inclination according to parallelogram adjusts, and can adjust the flow velocity of water on nettle accordingly.

Air blows from air duct one end towards the network of rivers by fan, through the wetting network of rivers to the adhesion of particle, is flowed out by filtered air from the air duct other end; Water source constantly provides seepage water to the network of rivers, and water flows in dirt box through the network of rivers from water rope.

Above according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related personnel in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on description, must determine technical scope according to right.

Claims (8)

1. a use for laboratory dedusting humidification network of rivers, comprise: superposed water rope and the dictyosome being positioned at bottom, described dictyosome is formed by main rope and time rope Co-knit, it is characterized in that, described main rope is woven into netted primary structure, by the secondary structure weaving divergent shape in each mesh that main rope is formed all further with time rope, time rope described in every root of spinning is extended with some suede bars, interweave between main rope composition anastomose, and each anastomose place being positioned at described dictyosome top edge is all connected with a water rope.

2. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: the main rope on the described network of rivers and time rope are the hypotenuse under being tilted to.

3. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: the water rope on the described network of rivers and main rope form by profiled filament spinning.

4. the use for laboratory dedusting humidification network of rivers according to claim 3, is characterized in that: the shape of cross section of described profiled filament is with the arc of interior grooves structure or cross result or Y-shaped structure.

5. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: described rope is spinned by filament fiber and form, and described in every root, time rope circumference all stretches out the suede bar of some one thread filoplume forms.

6. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: the described network of rivers is circumferentially with several anastomoses, is positioned at that the anastomose of described dictyosome circumference is dismountable to be fixed on framework.

7. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: the mesh be made up of described main rope is parallelogram.

8. the use for laboratory dedusting humidification network of rivers according to claim 1, is characterized in that: each mesh being positioned at main rope composition is equipped with many ropes, and described in every root, time rope one end intersects at a point, and the other end intersects on main rope.