RU42438U1 - SUMP - Google Patents

Abstract

1. The sump containing a housing with a bottom, with inlet and outlet nozzles located on the same axis, and with a nozzle for outputting dirt, characterized in that the mud collector is equipped with a pipe mounted in the housing on the same axis with the inlet and outlet nozzles and rigidly connected to outlet pipe installed in the bottom of the body, and the opposite end of the pipe is closed with a baffle cone, along the pipe, conical surfaces are installed around it, forming an acute angle with the pipe from the bottom side, on pipe parts overlapped by conical surfaces styami are made longitudinal slots, and the latter below the tapered surface is a conical surface, is rigidly connected with the housing wall, forming with it an acute angle from the bottom side, and its size is larger than the gap between the housing wall and the conical surface of the latter, mounted on trube.2. The sump according to claim 1, characterized in that the lengths of the pipe sections overlapped by the conical surfaces and the lengths of the slots located in these sections decrease sequentially in the direction from the inlet to the outlet. Sump according to claim 2, characterized in that the bottom is flat. A mud sump according to claim 3, characterized in that an additional nozzle for removing dirt is installed in the bottom. The sump according to claim 1, characterized in that at least one pipe for cleaning is installed between the bottom and the conical surface connected to the housing. The sump according to claim 1, characterized in that at least one hole is made in the wall of the housing.

Description

The utility model is designed to remove mechanical impurities from suspended water transported through the pipeline in the form of suspended particles, in particular, it can be used in the heating equipment of boiler houses, heating networks, central heating centers and heating centers of buildings.

It is known to use for purification of water flowing through a pipeline, a magnetic-mesh mud collector (RU Patent No. 2193539). The device consists of a cleaning housing, in which pipes made of non-magnetic material are installed in the horizontal direction. There are magnets in the pipes that attract the sludge. The disadvantage of a magnetic grid sump is a narrow range of types of contaminants that are affected by the attractive forces of the magnet. Another disadvantage is the use of a mesh filter, which, when contaminated, changes the hydrodynamic properties of the device and, consequently, the hydrodynamic properties of the entire system, which includes a sump. To remove settled sludge, it is necessary to disassemble the sump.

Known mud collector (RU Patent No. 2008604), in which the range of types of pollution from which water is purified is wider. Known sump closest to the proposed combination of essential features. It contains a housing with a bottom, with fluid inlet and outlet nozzles located on the same axis, a dirt outlet pipe and a filter located along the path of the fluid flow. A disadvantage of the known device is the need for periodic cleaning of the filter, because when contaminated, it firstly loses its filtering properties, and, therefore, the level of cleaning, and secondly, changes the hydrodynamic properties of the device and, therefore, the hydrodynamic properties of the whole which includes a dirt collector.

The task the utility model is aimed at is the development of a mud collector design that does not require periodic disassembly of the device to restore filtering properties, but constantly provides a high level of cleaning.

The technical result is to improve the operational characteristics of the dirt collector: it does not require disassembly to remove dirt, increases the time

non-stop operation of the device, during which a high level of cleaning is provided.

The technical result is achieved by the fact that the proposed sump, as well as the known one, contains a housing with a bottom, with inlet and outlet nozzles located on the same axis and with a nozzle for removing dirt. In contrast to the known one, the proposed sump is equipped with a pipe mounted in the housing on the same axis as the inlet and outlet nozzles and rigidly connected to the outlet pipe installed in the bottom of the housing, and the opposite end of the pipe is closed with a baffle cone, conical surfaces are additionally installed along the pipe, forming an acute angle with the pipe from the bottom, on the parts of the pipe overlapped by conical surfaces, longitudinal cuts are made, and below the last conical surface, there is a conical a surface rigidly connected to the wall of the body, forming with it an acute angle from the bottom, and its size is greater than the gap between the wall of the body and the last conical surface mounted on the pipe.

In this embodiment, the mud collector cleansed fluid stream flows through the inlet pipe into the housing and flows along the walls of the housing. The pressure difference that is created on the different sides of each conical surface directs water through the slots into the pipe and then to the outlet pipe. In this case, suspended particles of dirt continue to move along the walls of the housing and settle on the bottom. Dirt removal is not required to remove dirt. It can be removed through the dirt removal pipe.

The set of features set forth in paragraph 2 of the utility model formula characterizes a mud collector in which the lengths of pipe sections overlapped by conical surfaces and the lengths of slots located in these sections decrease sequentially in the direction from the inlet to the inlet.

The decreasing lengths of the slots overlapped by the conical surfaces in the direction from the inlet to the outlet provide equalization of the hydraulic pressure between the pipe and the conical surfaces, which increases the cleaning efficiency of the sump.

The set of features set forth in paragraph 3 of the utility model formula characterizes the sump in which the bottom is flat.

This embodiment of the bottom simplifies installation of the device.

The set of features set forth in paragraph 4 of the utility model formula characterizes the dirt collector, in which an additional nozzle for removing dirt is installed in the flat bottom.

An additional nozzle allows for faster and more reliable removal of dirt.

The set of features set forth in paragraph 5 of the utility model formula characterizes a dirt collector in which at least one nozzle for cleaning is installed between the bottom and the conical surface connected to the housing.

The cleaning nozzle is used during the preventive stop of the device.

The set of features set forth in paragraph 6 of the utility model formula characterizes a dirt collector in which a manhole is made in the housing wall.

The manhole is used in the inoperative state of the device and allows you to get large dirt elements, such as stones, out of the sump.

The utility model is illustrated by the drawing, which shows a section of the proposed device.

The sump contains a housing 1, on one axis of which an inlet 2 and an outlet 3 nozzles are installed. A pipe 4 is mounted on the same axis in the housing and is rigidly connected to the outlet pipe 3. On the inlet pipe 2 side, the pipe 4 is closed by a baffle cone 5. Around the pipe 4, conical surfaces 6 are installed along it. On the pipe parts overlapped by the conical surfaces, longitudinal slots 7. The bottom 8 of the housing can be made inclined, and can be flat. In the latter case, you can install two nozzles 9 for faster removal of dirt. In the housing between the bottom and the conical surface 10 mounted on the housing, at least one pipe 11 for cleaning is made. Each conical surface 6 installed around the pipe 4 is smaller than the previous one, starting from the inlet pipe 2. The lengths of the longitudinal sections 7 are also shorter, since the flow loses pressure as it flows through the mud pipe and smaller holes are required to enter the pipe compared to those located above. Laz 12 can be made in the housing, which is used to eliminate large foreign inclusions, for example, stones.

Cleaning with a sump is as follows. Through the pipe 2 in the housing 1 receives a stream of fluid to be cleaned. It lowers onto the baffle cone 5 of the pipe 4 and smoothly spreads over the entire cross section of the body

1. The stream flows around the first cone-shaped surface and, due to the difference in the forces on either side of it, rotates 180 °, as a result of which the particles of contaminants separate and settle to the bottom of the sump, and the stream passes in the space between the inner part of the cone-shaped surface 6 and the pipe 4, it enters through the slots 7 into the pipe, and then into the outlet pipe 3. Particles of contaminants fall out during the rotation of the flow by 180 ° around the conical surface under the action of gravitational and buoyant forces. This force difference is counteracted by the resistance force of the medium, which significantly decreases under the conical surfaces 6 due to the creation of a laminar flow regime with slots 7 in the pipe. The space between the inner part of the conical surface 6 and the pipe 4 provides a laminar flow regime of the medium at a speed of 0.05 m / s or less. This speed provides a high degree of purification from pollution. The flow rate of the medium for the second and subsequent conical surfaces is significantly reduced and the degree of purification of the environment from pollution increases.

Particles of contaminants fall to the bottom, enveloping the conical surface 10, conjugated with the walls of the housing 1. Thanks to it, a settler is formed on the bottom of the housing, from which dirt particles cannot be carried away by the flow of fluid from the housing during sudden changes in the flow rate of the medium.

Claims (6)

1. The sump containing a housing with a bottom, with inlet and outlet nozzles located on the same axis, and with a nozzle for outputting dirt, characterized in that the mud collector is equipped with a pipe mounted in the housing on the same axis with the inlet and outlet nozzles and rigidly connected to outlet pipe installed in the bottom of the body, and the opposite end of the pipe is closed with a baffle cone, along the pipe, conical surfaces are installed around it, forming an acute angle with the pipe from the bottom side, on pipe parts overlapped by conical surfaces styami are made longitudinal slots, and the latter below the tapered surface is a conical surface, is rigidly connected to the wall of the housing, forming with it an acute angle from the bottom side, and its size is larger than the gap between the housing wall and the conical surface of the latter, mounted on a pipe. 2. The mud sump according to claim 1, characterized in that the lengths of the pipe sections overlapped by the conical surfaces and the lengths of the slots located in these sections decrease sequentially in the direction from the inlet to the outlet. 3. The sump according to claim 2, characterized in that the bottom is made flat. 4. The mud sump according to claim 3, characterized in that an additional nozzle for removing dirt is installed in the bottom. 5. The sump according to claim 1, characterized in that between the bottom and the conical surface connected to the housing, at least one pipe for cleaning is installed. 6. The sump according to claim 1, characterized in that at least one hole is made in the wall of the housing.