RU207894U1 - CLEANING DEVICE - Google Patents

Abstract

The utility model relates to devices for collecting unsorted waste both in domestic use and in cramped conditions of construction and production, in particular, to devices for multi-stage filtration of air flow using liquid. The task is to expand technological capabilities by providing the possibility of self-unloading and convenient cleaning. which will allow it to be used in domestic conditions and in cramped conditions of construction and production for the collection of any types of small unsorted household and industrial waste, both with a low-power household vacuum cleaner and in powerful centralized vacuum cleaning systems. branch pipe for inlet of the cleaned air stream, cyclone for preliminary cleaning of the air stream, housing and branch pipe for the outlet of cleaned air. In the proposed solution, an inlet nozzle 2 is placed on the profile surface of the housing 1, and a cyclone 3 is installed in the inner space, rigidly connected in the upper part with the cover 4 of the housing 1, which has guide blades 5 on the lower surface and is mated along the annular end with the housing 1, and in The cover 4 of the housing 1 has through drain holes along the perimeter, and a connecting pipe 6 is located in the central hole, which unites the air chambers of the cyclone 3 and the water filter 7, which is installed on the housing 1 with the possibility of rotation and has an inclined bottom, along the perimeter of which there are through drain holes corresponding to the drain holes of the cover 4 of the housing 1, and the water filter itself is equipped with a distributor 8 with through holes, while the dome 9 with the outlet pipe 10 and the droplet catcher 11 located inside the dome rests on the water filter 7, and the housing 1 and cyclone 3 have self-opening vacuum valves 12.13. 2 ill.

Description

The utility model relates to devices for collecting unsorted waste both in domestic use and in cramped conditions of construction and production, in particular, to devices for multi-stage filtration of air flow using liquid.

Known "Attachment to a household vacuum cleaner", which is a housing equipped with several chambers with a liquid filter and a cover, attached to the inlet of the vacuum cleaner. The attachment is designed to collect spilled mercury, liquid and bulk materials. Patent RU 2 115 356 C1, IPC A47L 9/18, publ. 07/20/1998

The disadvantage of the "Attachment to a household vacuum cleaner" is the low reliability of the design, associated with the lack of a safety device, the presence of moving elements and pushbutton switches in the dirty area, as well as the inconvenience of operating and cleaning the device due to the rapid clogging of the liquid filter, which is not intended for collecting large debris ...

The closest technical solution adopted for the prototype is "Vacuum cleaner", which implements a two-level method of cleaning the air flow. "Vacuum cleaner" is a cyclone, housing and pump that can be stationary and placed on a mobile cart. Patent RU 2 358 637 C 2, IPC A47L 9/18, publ. 20.06.2009 Bul. No. 17.

"Vacuum cleaner" is proposed to be used as a household appliance for cleaning living quarters, as well as for industrial purposes for cleaning production and storage facilities, and industrial emissions.

The disadvantage of the prototype is its cumbersomeness, the complexity of unloading and cleaning by complete disassembly, as well as the lack of protection against clogging and in excess of the calculated pressure drops, which together narrows the technological capabilities of the prototype.

The following set of features coincides with the essential features of the utility model: it contains a branch pipe for supplying the cleaned air flow, a cyclone for preliminary cleaning of the air flow, a housing and a branch pipe for the purified air outlet.

The task to be solved by the utility model is to expand technological capabilities by providing the possibility of self-unloading and convenient cleaning, which will make it possible to use it in domestic conditions and in cramped conditions of construction and production to collect any types of small unsorted household and industrial waste, as with low-power household waste. vacuum cleaner and in powerful centralized vacuum cleaning systems. In addition, the dimensions and weight of the structure are significantly reduced.

The solution to the problem is carried out due to the fact that the cleaning device contains a branch pipe for supplying the cleaned air flow, a cyclone for preliminary cleaning of the air flow, a body and a branch pipe for the outlet of the cleaned air. In the proposed solution, an inlet branch pipe is placed on the profile surface of the body, and a cyclone is installed in the inner space, rigidly connected in the upper part with the body cover, which has guide blades on the lower surface and mated along the annular end with the body, and through the perimeter of the body cover there are through drain holes, and in the central hole there is a connecting pipe that connects the air chambers of the cyclone and the water filter, which is installed on the housing with the possibility of rotation and has an inclined bottom, along the perimeter of which there are through drain holes corresponding to the drain holes of the housing cover, and the water filter itself is equipped with a distributor with through holes, while a dome with an outlet pipe and a drop catcher located inside the dome rests on the water filter, and the body and cyclone have self-opening vacuum valves.

Self-unloading of the body and cyclone occurs when the traction machine (TDM) is turned off through self-opening vacuum valves, and the sediment and contaminated liquid from the water filter are drained by turning the water filter relative to the body until the drain holes in the bottom of the water filter are aligned with the drain holes in the body cover. The proposed design of the cleaning device makes the utility model compact, self-unloading and easy to clean.

The design features of the utility model make it possible to effectively protect it from clogging, for which it is possible to install a fine mesh on the guide vanes, as well as to protect it from over-design pressure drops, for which it is possible to place an air safety valve on the dome. All elements of the cleaning device are grouped into a single compact device, which allows to reduce its size and weight.

Thus, the combination of essential distinctive features of the proposed solution provides an expansion of technological capabilities.

The design of the utility model is illustrated by graphic material.

Figure 1 shows a general view of the cleaning apparatus; Fig. 2 is a partial sectional view; figure 3 shows a variant of the arrangement of the guide vanes on the lower surface of the housing cover; Figure 4 is an exploded view of the assembly.

The cleaning apparatus consists of a body 1, for example, in the form of a paraboloid, acting as a settling chamber, tangentially to the profile surface of which, in order to ensure the direction of rotation of the air flow, an inlet nozzle 2 is located. In the inner space of the body 1, a cyclone 3 is installed, for example, a cone-shaped , rigidly connected in the upper part with the cover 4 of the housing 1. The cover 4 of the housing 1 has on the lower surface the guide blades 5, for example, arcuate, preliminarily accelerating the rotation of the dust-containing air flow before it passes into the air chamber of the cyclone 3. The cover 4 of the housing 1 is mated along the annular the end with the housing 1, and in it along the perimeter there are through drain holes, and in the central through hole there is a connecting pipe 6, which unites the air chambers of the cyclone 3 and the water filter 7. On the housing 1, a water filter 7 is installed with the ability to rotate, having an inclined bottom, along the perimeter of which there are through drainage holes corresponding to the drain holes of the cover 4 of the housing 1. This together provides an effective drainage of sediment and contaminated liquid from the water filter 7 into the inner space of the housing 1. The water filter 7 is equipped with a distributor 8 with through holes made in it, dissecting large air bubbles into a multitude of small, thereby increasing the contact area of the dust-air flow with the water film. A dome 9 with an outlet pipe 10 and a droplet catcher 11 located inside the dome 9, for example, which is an inclined perforated plate, protects the external TDM connected to the outlet pipe 10 from liquid entering it, trapping splashes and droplets carried away by the air flow, rests on the water filter 7. The body 1 and the cyclone 3 have self-opening vacuum valves 12, 13, which provide the possibility of self-unloading, opening under their own weight when the TDM is turned off, which forms a vacuum, hermetically closing valves 12, 13 when it is turned on.

In order to prevent the destruction of the elements of the purification apparatus during clogging, or when connected to a more efficient TDM, it is possible to place an air safety valve on the dome 9 (not shown in the figure). If it is necessary to collect relatively large light materials (for example, crumbs of foam plastic, rags, polyethylene, paper, etc.), a fine mesh (not shown in the figure) can be installed between the housing cover 4 and the cyclone 3, preventing the removal of such materials from the internal space buildings 1.

The cleaning device works as follows.

The purification device provides collection of all types of small unsorted household and industrial waste and sequential three-stage purification of the air flow due to their sedimentation under their own weight in the body (the first stage is coarse filtration), separation under the action of centrifugal force in a cyclone (the second stage is fine filtration) and absorption in a water filter (the third stage is filtration of highly volatile dust particles, spores, viruses, etc.).

An external draft machine (TDM) is connected to the outlet pipe 10, which creates a vacuum that tightly closes the valves 12, 13. At the same time, an air flow is formed, which carries dust, small debris (up to 30 mm in diameter), heavy particles through the inlet pipe 2. liquid and bulk materials, and moving them into the housing 1. A hose with a nozzle can be connected to the inlet 2. In body 1, due to a sharp increase in the flow area (due to the difference in the cross-sectional areas of the inlet 2 and body 1), the speed of the mass moved by the air flow is rapidly decreasing. As a result, small debris, heavy particles, liquid and loose materials are separated from the air flow under the influence of its own weight, and the dust-containing air flow itself, due to the tangential location of the inlet nozzle 2, acquires a spiral-directed movement and rushes upward along the outer surface of the cyclone 3 located inside body 1. Having reached the cover 4 of the body 1, the dust-containing air flow acquires an additional centripetal acceleration due to the shape and location of the guide blades 5 fixed on the cover 4 of the body 1.

Having passed the first stage of cleaning, the dust-containing air flow tends to the air chamber of the cyclone 3, entraining part of the dust and especially volatile microparticles. Inside the cyclone 3, the second stage of cleaning is carried out - the release of the air flow from smaller impurities under the action of centrifugal force.

The third stage of cleaning is implemented as follows. Contained in the air flow, after two stages of cleaning, part of the dust and especially volatile microparticles are carried through the connecting pipe 6 into the air chamber of the water filter 7, where dust, spores and vapors contained in the air flow are absorbed into the liquid, which is pre-filled with the water filter 7. The air flow entering the water filter 7 passes through the distributor 8 and is evenly cut into many small bubbles. An additional positive effect is provided by the foam that forms on the surface of the liquid during operation, on which dust and spores adhere, which are released when the small air bubble that has reached the surface of the liquid is destroyed.

After passing through three stages of cleaning, the cleaned air flow leaves the inner space of the purification apparatus through the outlet 10 located in the dome 9. The spray that occurs before the formation of foam is carried by the air flow to the outlet 10, hitting the droplet catcher 11 and flowing down on its surface in large drops into water filter 7.

When the TDM is turned off, the unloading of the housing 1 is carried out automatically into any container placed in advance under the cleaning device through the self-opening vacuum valve 12. In the same way, the dust is unloaded from the cyclone 3 through the self-opening vacuum valve 13. The sediment and contaminated liquid are drained from the water filter as its contamination directly into the housing 1 manually, by turning the water filter 7 until the holes in it align with the holes in the housing cover 4. Before draining the contaminated liquid, any sealed container must be placed under the self-opening vacuum valve 12.

Waste discharged from building 1 can be disposed of as household or construction waste, depending on the area of application of the device. Contaminated liquid can be disposed of by draining into the sewer. An exception is made for substances, the collection, storage and destruction of which must be carried out in a special way.

The device is either installed on a mobile stand, or suspended on a support (on a table leg, on the end of a doorway or door, on a ladder, trestle, etc.).

Thus, the essential features of the proposed design of the purification apparatus of three-stage sequential cleaning provide a solution to the task of expanding technological capabilities.

In addition, the proposed design will increase the durability, productivity, ease of use of devices for vacuum cleaning and significantly reduce their operating costs for replacing garbage bags and filter elements.

Claims (1)

The cleaning device contains a branch pipe for supplying the cleaned air flow, a cyclone for preliminary cleaning of the air flow, a body and a branch pipe for removing purified air, characterized in that an inlet pipe is located on the profile surface of the body, and a cyclone is installed in the inner space, rigidly connected in the upper part with the body cover , having guide blades on the lower surface and mated along the annular end with the body, and through the perimeter of the body cover there are through drain holes, and in the central hole there is a connecting pipe connecting the air chambers of the cyclone and the water filter, which is installed on the body with the possibility of rotation and has an inclined bottom, along the perimeter of which there are through drain holes corresponding to the drain holes of the housing cover, the water filter is equipped with a distributor with through holes, while a dome with an outlet pipe and droplets located inside the dome rests on the water filter with a filler, and the body and cyclone have self-opening vacuum valves.

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