RU149112U1 - WASTE CONTROL DEVICE - Google Patents

Abstract

1. Device for regulating wastewater, comprising a receiving chamber configured to connect to a sewage supply pipe, a regulating reservoir provided with an outlet, the receiving chamber and the regulating reservoir communicating with each other by gravity from the receiving chamber to the regulating reservoir the channel in which the check valve is located, characterized in that the device contains a line providing for the forced supply of wastewater from the receiving chamber into the control tank, including a pump installed in the receiving chamber and a pipe, the input of which is connected to the pump, and the output is placed in the control tank, the device includes a system for automatically controlling the level of wastewater in the control tank, including a sewage level sensor located in the control tank water, controlling the on and off of the pump. 2. The device according to claim 1, characterized in that it contains an additional line providing for forced drainage of sewage from the control tank, including an additional pump located in the control tank and an associated drain pipe passed through an outlet in the control tank.

Description

The utility model relates to the field of sewerage, in particular, to devices for regulating surface (rain and thawed) drains.

In wastewater disposal and treatment systems, it is planned to install devices for accumulating surface effluents and regulating their flow in order to prevent overloading of treatment facilities and overflowing of sewer transport communications.

Devices under consideration [see, for example, pr. Discharge and treatment of surface wastewater. V.S. Dikarevsky et al. L .: Stroyizdat, 1990, pp. 112-113, Fig. 5.1] include regulating (accumulating) tanks into which wastewater or part thereof is directed before entering the treatment plant. The regulation of the flow of wastewater in these devices is ensured by the fact that the wastewater enters the control tank through a pipe of a larger diameter, and is diverted from it through a pipe of a smaller diameter.

As the closest analogue, the device described in [RU 2135707], designed to regulate drains, was selected.

The device in question comprises a receiving chamber connected to a sewage supply pipe, by means of which sewage from the sewer collector is supplied to it, and also to a sewage drain pipe, through which waste water from the said camera is discharged to the treatment plant.

The device also contains a control tank, including two longitudinal sections of regulation and the output chamber, separated from these sections by a vertical partition. The outlet chamber of the control tank is equipped with an outlet intended for connection with a pipeline, through which the specified tank is emptied.

A receiving chamber is in communication with each of the sections of the control tank by means of a channel ensuring the flow of wastewater by gravity from the receiving chamber to the control tank. In each section, the specified channel is a through hole made in the partition separating the receiving chamber and sections of the control tank. A check valve is installed in each of these through holes.

In normal operation of the sewer network, wastewater from the sewer collector passes through the receiving chamber and flows from it to the treatment plant. In emergency mode, when the flow rate of the effluent entering the receiving chamber exceeds the flow rate for which the treatment facilities are designed, the receiving chamber is filled with sewage, under the pressure of which a shut-off valve opens in each section of the control tank. The control sections are filled with wastewater up to a height determined by the height of the partition separating the indicated sections and the outlet chamber, after which the wastewater is poured through the specified partition into the outlet chamber and discharged from it through the discharge pipe.

The device under consideration allows controlling the flow of surface effluents entering the treatment plant.

However, in the device under consideration, it is not possible to fully utilize the volume of the control tank for the accumulation of effluents due to the fact that waste water flows from the control sections into the outlet chamber of the control tank by overflow. In this case, the maximum level of wastewater in the tank is limited by the height of the partition installed between the indicated parts of the tank.

Meanwhile, it is important to maximize the use of the volume of the control tank in terms of increasing the storage capacity and efficiency of the device.

The objective of the claimed utility model is to increase the storage capacity of the device

The essence of the utility model lies in the fact that in the device for regulating wastewater containing a receiving chamber configured to connect to a sewage supply pipe, a regulating reservoir provided with an outlet, the receiving chamber and the regulating reservoir communicating with each other by means of a wastewater supply By gravity from the receiving chamber to the control tank of the channel in which the check valve is located, according to the utility model, the device comprises a line, providing a forced supply of wastewater from the receiving chamber to the control tank, including a pump installed in the receiving chamber and a pipeline, the input of which is connected to the pump, and the output is placed in the control tank, the device includes a system for automatically controlling the level of wastewater in the control tank, including in the control tank, a wastewater level sensor that controls the on and off of the pump.

In the particular case of the utility model, the device contains an additional line providing for forced wastewater removal from the control tank, including an additional pump located in the control tank and an associated drain pipe, passed through the outlet in the control tank.

Due to the presence of a channel through which the receiving chamber and the control tank are in communication with each other, and the installation of a check valve in the specified channel, the wastewater flows from the receiving chamber to the control tank by gravity until the wastewater accumulated in the tank fills it to a level in which, under the influence of the hydrostatic pressure of the wastewater, the valve is activated and the specified channel is closed.

Of fundamental importance is the presence in the inventive device of the line of forced supply of wastewater from the receiving chamber to the regulating • tank with the help of a pump, as well as the presence of an automatic control system that enables the pump to be turned on and off by the signals of the wastewater level sensor in the regulating tank.

Thanks to the indicated mains and control system, after the channel described above is closed, the control tank is forced to fill up with wastewater accumulated in it by means of a pump that is turned on by the signal of the wastewater level sensor when the level corresponding to the check valve is turned off and turned off by the signal of the specified sensor when the specified maximum level of wastewater in the control tank. Moreover, the specified maximum level is limited by the height of the control tank, which allows you to choose a control mode in which the control tank will be filled almost its entire height, i.e.

to achieve almost complete filling of the volume of the control tank with drains.

Thus, the technical result achieved by the implementation of the claimed utility model is to increase the accumulating ability of the device, which is achieved due to the possibility of the most complete filling of the volume of the control (accumulating) reservoir with sewage.

In the case when the device contains an additional line providing for forced wastewater removal from the control tank, including an additional pump located in the control tank and an associated drain pipe passed through the outlet in the control tank, it is possible to set the required flow rate of sewage discharged from the control tank water

The figure shows a General view of the claimed device.

The device comprises a receiving chamber 1, configured to be connected to the sewage supply pipe 2, in communication with the control tank 3 by means of a channel 4. The specified channel 4 is designed for gravity to flow from the receiving chamber 1 to the control tank 3 by gravity and is made, in particular, in the form of a transition pipe, the level of which corresponds to the level of the collector 2.

In the channel 4 there is a check valve 5, made, in particular, in the form of a flap valve.

In the receiving chamber 1, there is a highway providing for the forced supply of wastewater from the receiving chamber 1 to the control tank 3, including a pump 6 installed in the receiving chamber 1 and a pipe 7, the input of which is connected to the pump 6, and the output is placed in the control tank 3 above the end level section of channel 4 (adapter pipe)

The device also includes a system for automatically controlling the level of wastewater in the control tank 3, including a wastewater level sensor 8 located in the control tank 3, which controls the on and off of the pump 6 using the actuator 9. In particular, the actuator 9 is made in the form of an electronic key, electrically connected to the sensor 8 and included in the electric power supply circuit of the pump 6.

The reservoir 3 comprises an outlet 10 for discharging wastewater from the reservoir 3 into an external pipeline (not shown in the drawing), which serves to transport wastewater to a treatment plant.

For drainage of wastewater, in particular, an additional line is used, including an additional pump 11 located in the control tank 3 and an associated discharge pipe 12, passed through the outlet 10 in the control tank 3.

The device operates as follows.

When the flow rate of the wastewater is less than or equal to the flow rate at which the treatment facilities are overloaded and the sewer transport overflows, the sewage coming from collector 2 from the receiving chamber 1 flows by gravity to the control tank 3 and part of the sewage or all the sewage depending on the operating mode the pump 11 is discharged from the reservoir 3 through the pipe 12.

When the amount of surface water, in particular a roll of a large amount of precipitation, and accordingly increase the flow entering the chamber 1 wastewater their level in the reservoir 3 is increased, while at level H, _br shelygi transition pipe 4, the valve is triggered 5 and overlaps channel 4.

In this case, at the signal of the sensor 8, the pump 6 is turned on and the tank 3 is further filled through the pipeline 7. At the same time, part of the wastewater is still discharged through the pipe 12 from the tank 3 with a flow rate at which the treatment facilities are not overloaded and the communications are overloaded.

The filling of the tank 3 occurs to a predetermined maximum level of Hmax.

Upon reaching the level of H max by the signal of the sensor 8, the pump 6 is turned off, and the wastewater begins to fill the receiving chamber 1. At the same time, due to the removal of wastewater from the tank 3 through the pipeline 12, the level of wastewater in the tank 3 slightly decreases to the level (not shown), in which the pump 6 is turned back on by the signal from the sensor 8.

In this way, the device operates in the mode of almost complete filling of the tank 3.

With a significant reduction in the number of effluents and, accordingly, the flow rate of effluents coming from the collector 2 to the receiving chamber 1, the level of wastewater in the receiving chamber 1 and in the tank 3 decreases, while the regulation system ensures that the pump 6 is turned off.

When the level of wastewater in the tank 3 drops below the level of N _W under the pressure of the wastewater located in the channel 4, the valve 5 opens, the wastewater flows by gravity into the control tank 3, and the device then operates in the mode of incomplete filling of the tank 3.

Claims (2)

1. Device for regulating wastewater, comprising a receiving chamber configured to connect to a sewage supply pipe, a regulating reservoir provided with an outlet, the receiving chamber and the regulating reservoir communicating with each other by gravity from the receiving chamber to the regulating reservoir the channel in which the check valve is located, characterized in that the device contains a line providing for the forced supply of wastewater from the receiving chamber into the control tank, including a pump installed in the receiving chamber and a pipe, the input of which is connected to the pump, and the output is placed in the control tank, the device includes a system for automatically controlling the level of wastewater in the control tank, including a sewage level sensor located in the control tank water, controlling the on and off of the pump. 2. The device according to claim 1, characterized in that it contains an additional line providing for forced drainage of wastewater from the control tank, including an additional pump located in the control tank and an associated drain pipe passed through the outlet in the control tank.

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