Air purification and filtration pipeline device
Technical Field
The utility model relates to a poultry farming equipment technical field especially relates to a filtered plumbing installation of air purification.
Background
In the hatching process of the chicks, the temperature in the hatching chamber needs to be increased and maintained, and the disinfection is carried out in advance, so that the temperature in the hatching chamber is high, disinfection substances are mixed, villi, feed and the like of the chicks are also present in the air in the hatching chamber along with the completion of the hatching of the chicks, and in addition, the air quality in the hatching chamber is poor due to other factors.
In order to be beneficial to the growth of the chicks, the air in the hatching chamber needs to be purified and filtered. The traditional air purification filtration mode is that the leading-in clarifier of air in with the hatching chamber is handled through pipe means, and the clarifier only carries out dry type and handles, and purifying effect is limited, and in addition, the inlet end cover face is less, can't carry out whole circulation to the air in the hatching chamber and handle.
SUMMERY OF THE UTILITY MODEL
One of the purposes of the utility model is to current technical situation, provide an air purification filterable plumbing installation, not only the cover face that admits air is big, does not occupy the interior space moreover.
The utility model discloses a second aim at provides an air purification filterable plumbing installation to existing technical current situation, can cool down the indoor air and handle and wet-type purification treatment, improves the validity of purifying.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a filterable plumbing installation of air purification, is including filtering mounting panel, exhaust fan, cooling pond, adsorption tank, clarifier and first air duct, second air duct, third air duct, the leading flank of filtering mounting panel evenly is equipped with a plurality of air inlet grooves from top to bottom, all is equipped with the filter plate in each air inlet groove, and the trailing flank of filtering mounting panel is equipped with the venthole, and inside filtering mounting panel, a plurality of air inlet grooves collect back and venthole intercommunication, splendid attire cold water in the cooling pond, cooling pond and venthole are through first air duct intercommunication, and the exhaust fan setting is on first air duct, splendid attire chemical agent in the adsorption tank, adsorption tank and cooling pond pass through second air duct intercommunication, the clarifier passes through the third air duct intercommunication with the adsorption tank.
Furthermore, the bottom surface of the air inlet groove is downwards provided with a sliding groove which penetrates through the left side surface and the right side surface of the filtering support plate, a loading box with an opening on the top surface is arranged in the sliding groove, and the rear side surface of the loading box is positioned below the filtering screen plate.
Furthermore, a plurality of material baffle plates are obliquely arranged at the opening of the loading box, and the material baffle plates are uniformly distributed towards the rear side surface of the loading box along the front side surface of the loading box or towards the right side surface of the loading box along the left side surface of the loading box.
Furthermore, the left side surface and the right side surface of the air inlet groove are provided with screen plate slots which penetrate outwards, and the left edge and the right edge of the filter screen plate are respectively embedded into the screen plate slots.
Furthermore, be equipped with a plurality of scrapers between the left surface and the right flank of air inlet duct, the last border of each scraper blade all laminates with the face of filter plate with the top surface fixed connection of air inlet duct and the back border of each scraper blade mutually.
Furthermore, the screen board slot is a chute, and the horizontal distance between the upper end of the screen board slot and the opening of the air inlet slot is smaller than the horizontal distance between the lower end of the screen board slot and the opening of the air inlet slot.
The utility model has the advantages that:
compare in prior art, its air purification filterable plumbing installation will filter the mounting panel as the inlet end, and not only the cover face of admitting air is big, does not occupy indoor space moreover, simultaneously, sets up cooling pond and adsorption tank on the pipeline is on-line, can cool down the indoor air and handle and wet-type purification treatment, has improved the validity of purifying.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the filter support plate of the present invention;
FIG. 3 is an enlarged view of a portion of FIG. 2 at A;
FIG. 4 is a schematic structural view of the loading box of the present invention;
fig. 5 is a front view of the filter support plate of the present invention.
Description of the labeling: 1. purifier, 2, third air duct, 3, second air duct, 4, exhaust fan, 5, filter mounting panel, 6, adsorption tank, 7, cooling tank, 8, first air duct, 9, venthole, 10, air inlet tank, 11, filter, 12, otter board slot, 13, scraper blade, 14, spout, 15, load the box, 16, striker plate.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings.
Referring to fig. 1-3, a pipeline device for purifying and filtering air includes a filtering support plate 5, an exhaust fan 4, a cooling tank 7, an adsorption tank 6, a purifier 1, a first air duct 8, a second air duct 3, and a third air duct 2, wherein the filtering support plate 5 is disposed in an incubation chamber and is disposed close to a wall, and the exhaust fan 4, the cooling tank 7, the adsorption tank 6, and the purifier 1 are disposed outside the incubation chamber.
The leading flank of filtering the mounting panel 5 evenly is equipped with a plurality of air inlet grooves 10 from top to bottom, and the quantity of air inlet grooves 10 in the picture is 4, all is equipped with filter plate 11 in each air inlet groove 10, and filter 11 is used for filtering large granule impurity, and the trailing flank of filtering the mounting panel 5 is equipped with venthole 9, and inside filtering the mounting panel 5, a plurality of air inlet grooves 10 collect the back and communicate with venthole 9. The filter support plate 5 is used as an air inlet end, so that the air inlet coverage is large, and the indoor space is not occupied.
The cooling tank 7 is filled with cold water, the cooling tank 7 is communicated with the air outlet hole 9 through a first air duct 8, one end of the first air duct 8, which is located in the cooling tank 7, is located below the liquid level of the cold water, the exhaust fan 4 is arranged on the first air duct 8, and the exhaust fan 4 can form negative pressure airflow in the first air duct 8. The cold water in the cooling tank 7 needs to be replaced at regular time.
The chemical agent is filled in the adsorption tank 6, the adsorption tank 6 is communicated with the cooling tank 7 through the second air duct 3, one end of the second air duct 3, which is positioned in the cooling tank 7, is positioned above the liquid level of cold water, and one end of the second air duct 3, which is positioned in the adsorption tank 6, is positioned below the liquid level of the chemical agent.
The purifier 1 is communicated with the adsorption tank 6 through a third air duct 2, and one point of the third air duct 2, which is positioned in the adsorption tank 6, is above the liquid level of the chemical agent.
The cooling tank 7 and the adsorption tank 6 are additionally arranged on the pipeline, so that the indoor air can be cooled and purified in a wet mode, and the purification effectiveness is improved.
Referring to fig. 2-4, in the above technical solution, the bottom surface of the air inlet groove 10 is provided with a sliding groove 14 downward and penetrating through the left and right side surfaces of the filtering support plate 5, a loading box 15 with an opening on the top surface is arranged in the sliding groove 14, the rear side surface of the loading box 15 is located below the filtering screen plate 11, and when there are many filtered objects on the filtering screen plate 11, the filtered objects will fall into the loading box 15. The through sliding groove 14 is designed to enable the loading box 15 to be easily detached and cleaned, meanwhile, the loading box 15 is designed below the bottom surface of the air inlet groove 10, and the filter collected in the loading box 15 is not easily disturbed by air flow in the air inlet process to cause secondary pollution.
Preferably, a plurality of material blocking plates 16 are obliquely arranged at the opening of the loading box 15, the number of the material blocking plates 16 is 9, and the material blocking plates 16 are uniformly distributed along the front side surface of the loading box 15 to the back side surface thereof or along the left side surface of the loading box 15 to the right side surface thereof. After the baffle plate 16 is designed, the filter material falling into the loading box 15 is not influenced, but the filter material in the loading box 15 is blocked by the baffle plate 16 if the filter material rises.
Referring to fig. 2-3 and 5, in the above technical solution, the left and right side surfaces of the air inlet tank 10 are both provided with mesh plate slots 12 extending outward from the tank, and the left and right edges of the filter mesh plate 11 are respectively embedded into the mesh plate slots 12. The through-type screen plate slot 12 is designed to make the filter screen plate 11 easy to be detached and cleaned.
Preferably, a plurality of scraping plates 13 are arranged between the left side surface and the right side surface of the air inlet groove 10, the number of the scraping plates 13 is 6, the upper edge of each scraping plate 13 is fixedly connected with the top surface of the air inlet groove 10, and the rear edge of each scraping plate 13 is attached to the plate surface of the filter screen plate 11. The filter screen plate 11 is drawn out a distance leftwards or rightwards and then put back, and the scraper 13 hangs the filter attached on the surface of the filter screen plate 11, thereby quickly cleaning the filter screen plate 11. The distance of the filter screen plate 11 is related to the number of the scrapers 13, and the larger the number of the scrapers 13 is, the shorter the distance of the filter screen plate 11 is required to be extracted.
Preferably, the mesh plate insertion slot 12 is a chute, and the horizontal distance between the upper end of the mesh plate insertion slot and the opening of the air inlet slot 10 is smaller than the horizontal distance between the lower end of the mesh plate insertion slot and the opening of the air inlet slot 10. The screen plate slot 12 is a chute, and the filter screen plate 11 is obliquely arranged in the screen plate slot 12, so that the filtered objects on the filter screen plate 11 can easily fall off.
Of course, the above is only the preferred embodiment of the present invention, and the application range of the present invention is not limited thereto, so all the equivalent changes made in the principle of the present invention should be included in the protection scope of the present invention.