RU139140U1 - HOUSEHOLD WASTE DISPOSAL SYSTEM - Google Patents

Abstract

1. A system for utilization of household waste water, containing an entrance to the system, connected by pipelines to a drain or (and) sinks for washing or washing, or (and) a shower bath, or (and) a toilet bowl, a septic tank, the outlet of which is connected to the filtering system, a compost bin installed in a septic tank with the possibility of its repeated removal and installation, the entrance to the compost bin is the entrance of the system, characterized in that it additionally contains a grease trap installed under the compost bin with the possibility of its repeated removal and installation, the grease trap inlet is connected to the outlet from the compost bin , and the exit - with the next cleaning element according to the technology. 2. The system according to claim 1, characterized in that a septic tank is used as a technological cleaning element to which the outlet of the grease trap is connected. The system according to claim 1, characterized in that a filter well is used as a technological cleaning element to which the grease trap outlet is connected. The system according to claim 1, characterized in that the exit from the compost box is made in the form of a pipeline connected to the inner space of the compost box by additional pipelines located at different heights.

Description

The utility model relates to devices for the treatment of domestic wastewater and can be used in the treatment of domestic wastewater of separately located objects of sparsely populated areas and individual residential buildings.

The effectiveness of biological treatment is achieved thanks to complex physical, chemical and biological processes occurring in the soil and the water phase, and water is utilized with the greatest possible benefit when reused in agriculture, for example, for irrigation of plants (see USSR Copyright Certificate N 1685881, class . C02F 3/32), consisting of an artificial reservoir limited by vertical screens and a recess provided with an aerator, a filtering surface. The device operates either continuously or intermittently. It is quite bulky and occupies a large area. Water treatment in it is carried out by aeration and one-time filtration through a soil-vegetable filter. The water purification efficiency of such a device is low due to the lack of preliminary water purification and the fact that the recess into which the original waste water enters will quickly become clogged and silt under conditions of constant wetting.

In addition, measures are not provided for the normal existence of the biological community in the deepening in cases of temporary interruption of water supply and the drying of the soil associated with it. The device is unsuitable for use in winter, in conditions of freezing of soil and pipelines. Disposal of water in the device goes mainly to the ground.

A device is known for treating domestic wastewater from individual residential buildings suitable for working with a variable amount of water (see Heeb J., Zust B. Sand and plant filter systems. In Ecological Engineering for Wastewater Treatment. Proceeding of the International Conference at Stensund Folk College. Sweden March 24-28, 1991 Ed. Etnier C., Guterstam B. Bokskogen, Sweden, 1991, p.199h). This device consists of an underground anaerobic filter with sand and gravel loading and drainage, an aerobic soil-vegetable filter, and a pipeline for supplying water to the aerobic filter. The initial wastewater enters an underground anaerobic sand and gravel filter, then after filtration on it part of the water goes into the ground, and the other part is fed to a horizontal aerobic soil-plant filter and, after a one-time treatment on it, is discharged into the ground.

Water utilization in such a device is carried out mainly by dumping it into the ground. The quality of the treated and discharged water is not controlled in any way, so after treatment on filters it may contain a certain amount of impurities that exceeds the MPC level, which does not meet environmental standards for discharge into the soil.

In addition, the device does not provide for the accumulation or storage of purified water. Unclear working conditions in winter in the conditions of freezing soil, and in summer, it is possible to quickly saturate and silt without a slope of the soil-vegetable filter.

To increase the cleaning efficiency, it is necessary to increase the area of the soil-plant filter and more often change the soil layer under planting. This is unacceptable for consumers with small plots of land.

For small plots of land currently used:

1. Cesspools. Sewage is taken out by the cesspool machine as it is filled.

Disadvantage: dependency on a cesspool machine. The call of the cesspool machine as it is full, i.e. often and expensive.

2. Septic tanks, which are an underground settler of horizontal or vertical type, consisting of one or more chambers through which sewage flows. While the effluents are in the septic tank, they are purified by sedimentation and partial fermentation. Wastewater treated in a septic tank is naturally cleaned in underground filtering facilities. The undissolved fractions at the bottom of the septic tank are to be removed with the help of a cesspool machine.

Disadvantage: dependency on a cesspool machine. The septic tank should be located so that the sewage machine could drive up to him to pump sludge.

3. Aeration stations of deep biological treatment, which are aerobic reactors (aeration tanks) of various designs and combined structures, including a septic chamber, an aerobic reactor, and a biofilter.

Disadvantage: dependence on electricity. When the power is turned off, the oxygen supply stops, aerobic bacteria die.

4. Dry closets of various types, the principle of which is based on composting sewage in a small volume with subsequent emptying of the box.

Disadvantage: in view of the very small volume it can only be used as a toilet, the drains from the sink and bath cannot be drained. Located in a house or other heated room, because of this, a smell arises in the house, both from the dry closet itself and when the drawer is removed.

The closest in technical essence to the proposed one is a system of household wastewater containing a multi-chamber septic tank, the inlet of which is connected by pipelines to a drain or (and) sink for washing or washing, or (and) a shower bath, or (and) toilet bowl, and the output is with filter system (see http://slavyanin.org/node/1008).

The disadvantage of this system is the difficulty of disposal, since solid sewage must be taken out of the house into a compost pit. In addition, odors from the compost toilet spread throughout the house. The disadvantage is the poor quality of wastewater treatment.

The technical result of the proposed utility model is to improve the quality of wastewater treatment.

The technical result is achieved by the fact that the system for the disposal of domestic wastewater, containing the entrance to the system, connected by pipelines to a drain or (and) sink for washing or washing, or (and) a shower bath, or (and) a toilet, a septic tank, the outlet of which connected to the filter system, additionally contains a compost box installed in the septic tank with the possibility of its multiple extraction and installation, the entrance to the compost box is the system input, the grease trap installed under the compost box, the input of which is connected to the outlet a house from the compost box, and the exit - with the next cleaning element according to the technology, while a septic tank can be used as the technological cleaning element with which the grease outlet is connected, while the cleaning element with which the grease outlet is connected can be a filter well was used, while the output from the compost box is made in the form of a pipeline connected to the interior of the compost box by additional pipelines located at different heights.

Figure 1 schematically shows the proposed system for the disposal of domestic wastewater based on a two-section septic tank; figure 2 - system for the disposal of domestic wastewater based on a single-section septic tank.

The system for the disposal of domestic wastewater in figure 1 contains a two-section septic tank 1. In the receiving chamber 2 of the septic tank under the inlet pipe 3 there is a compost box 4 with the possibility of its multiple removal and installation (units of installation and fastening of the compost box, which can be used as for example, corners are not shown in the drawing). The input (pipe 3) to the compost box 4 is the input of the system, and the output 5 of the compost box 4 is the input to the grease trap 6, the output of which is the overflow pipe 7 (installation and mounting units of the grease trap, for example, corners not shown in the drawing) .. The entrance (pipe 3) to the system is connected by pipelines to a drain or (and) sinks for washing or washing, or (and) a shower bath, or (and) toilet bowl (the latter are not shown in the drawing). Sorbent materials, for example, zeolite, sand, peat or other similar materials (these materials are not shown in the drawing), which are a filter, can be placed on the bottom of the compost box. The size and shape of both the compost box and the grease trap can be different. Their sizes are determined by the user depending on the volume of drains and the frequency with which they are cleaned, as well as the ability to get the compost box manually, or using basic manual devices, for example, a winch. The output 5 of the compost box 4 can be made in the form of a pipeline connected to the interior of the compost box with additional pipelines located at different heights. As an overflow between the chambers 2 and 8 of the septic tank 1, a tee 9 can be used, in the inner cavity of which a filter 10 is installed. The outlet 11 of the septic tank 1 is connected to the filtering system. As an example, the filtering system described in the prototype on the Internet can be used (see http://slavyanin.org/node/1008). With significant domestic wastewater, “black” and “gray” wastewater can be separated. "Black" drains are fed directly to the compost box 4, and "gray" - to the receiving chamber 2 of the septic tank 1.

The system for recycling household wastes in figure 2 differs from that described above in that the treated wastewater from the grease trap goes directly to the filtering well, the bottom of which is lined with sand or sand and gravel

The system for utilization of domestic wastewater is mounted outside the house in the ground in such a way that both groundwater and water from melting snow get into it. To prevent freezing of the system in winter, heat-insulating covers 11 and 12 are used (handles on the covers are not shown). After removing these covers, the compost box is removed and installed.

The system operates as follows.

Upon receipt of effluents from the inlet pipe 3, the solid fractions remain in the compost box 4. Additional filtration from fat is carried out in the grease trap 6 on the property that the fat-containing components always remain afloat. Also, additional filtering takes place in the filter 10. In this case, the box 4 with compost and the grease trap 6 are emptied as it is filled.

The proposed system successfully works by loading filler when flushing "heavy" fractions of the toilet.

To reduce the volume of the contents of the compost box 4 and accelerate the ripening process of the compost can, for example, using insects - coprophages, performing a sanitary role. This does not require any additional actions, insects (bugs and flies of dung beetles) through an additionally installed breathing valve of a septic tank (the breathing valve is not shown in the drawing) will fly into a compost box where they will lay eggs. The larvae of these insects will process sludge. You can also reduce the volume of the contents of the compost box 4 and accelerate the compost ripening using earthworms using vermiculture.

The ease of disposal of solid waste from household wastewater, a high degree of treatment is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (4)

1. A system for the disposal of domestic wastewater, containing the entrance to the system, connected by pipelines with a drain or (and) sinks for washing or washing, or (and) a shower bath, or (and) a toilet, a septic tank, the outlet of which is connected to the filtering system, a compost box installed in the septic tank with the possibility of its multiple extraction and installation, the entrance to the compost box is the system input, characterized in that it further comprises a grease trap installed under the compost box with the possibility of its multiple extraction and installation, the input is grease collector connected to the output of the compost box, and output - with the next element purification technology. 2. The system according to claim 1, characterized in that a septic tank is used as a technological cleaning element with which the output of the grease trap is connected. 3. The system according to claim 1, characterized in that a filter well is used as a technological cleaning element to which the output of the grease trap is connected. 4. The system according to claim 1, characterized in that the exit from the compost box is made in the form of a pipeline connected to the interior of the compost box by additional pipelines located at different heights.

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