CN111609239A - Four-way type pipeline throttling flow divider - Google Patents

Abstract

The invention discloses a four-way type pipeline throttling flow divider, which comprises four flow dividing pipes, a flow dividing cavity, a flow monitor and a control module, wherein the four flow dividing pipes are connected with the outer wall of the flow dividing cavity; the flow detector is arranged in the shunt pipe; the control module comprises handles, gear shifters and flow distribution plates, the gear shifters are fixedly connected with the flow distribution cavity, the handles penetrate through the gear shifters and are connected with the flow distribution plates, the flow distribution plates are provided with four flow distribution plates, the flow distribution plates are semicircular, and the control module is used for adjusting the opening states of the flow distribution plates; the water inlet of the flow divider is arranged at the bottom of the flow divider, and is in threaded connection with the bottom of the flow dividing cavity; the gear ware is equipped with 5 gears, is A, B, C, D, H grades respectively, and wherein H gear is full-open gear, and other gears are the gear that opens alone. The invention monitors and controls the flow of the shunt pipe and optimizes the shunt performance of the shunt.

Description

Four-way type pipeline throttling flow divider

Technical Field

The invention relates to the technical field of pipeline shunting, in particular to a four-way pipeline throttling shunt.

Background

Water resources are necessities of people's life, water is distributed in urban living areas or public areas, and the water is sent to thousands of households through pipelines.

In the construction of a novel sponge city, a water resource management system is a key place for realizing the sponge city, and the safety of urban water resources can be guaranteed only by the optimized pipeline structure design. The flow divider is a key in a pipeline system, water in the main pipeline is divided into four paths, three paths and six paths through the flow divider, such as the most common plastic four-way, three-way and six-way paths, but for some pipeline systems, the flow of each flow divider needs to be adjusted, and the simple plastic four-way, three-way or six-way paths cannot be realized.

Disclosure of Invention

Aiming at the problem that the common pipeline shunt can not monitor and adjust the flow of the shunt tubes, the invention aims to provide the four-way pipeline throttling shunt, the flow detection function is arranged in the shunt tubes, and the gear controller is arranged to control gears, so that the flow of the shunt tubes can be monitored, and the water flow in each shunt tube can be adjusted; the flow detector is used for monitoring the flow of each shunt pipe, so that whether the interior of each shunt pipe is blocked or not can be judged. When the flow rate detected by the flow detector is reduced, the condition that the inside of the shunt pipe is blocked is indicated, the shunt pipe is immediately closed, the blocked position is checked, and the blockage is cleared.

In order to achieve the technical purpose, the technical scheme provided by the invention is as follows:

a four-way type pipeline throttling flow divider comprises four flow dividing pipes, a flow dividing cavity, a flow monitor and a control module, wherein the four flow dividing pipes are connected with the outer wall of the flow dividing cavity, and the control module is connected with the top of the flow dividing cavity; the flow detector is arranged in the shunt pipe and is used for detecting the flow in the shunt pipe; the control module comprises handles, gear shifters and flow distribution plates, the gear shifters are fixedly connected with the flow distribution cavity, the handles penetrate through the gear shifters and are connected with the flow distribution plates, the number of the flow distribution plates is four, the flow distribution plates are semicircular, and the control module is used for adjusting the opening state of the flow distribution plates; the water inlet of the flow divider is arranged at the bottom of the flow divider, and is provided with threads which are matched with bolt holes at the bottom of the flow dividing cavity;

the gear mechanism of the gear shifter is as follows:

in the gear A, the No. 1 shunt pipe is opened, and the No. 2 shunt pipe, the No. 3 shunt pipe and the No. 4 shunt pipe are closed;

the gear B is that the No. 2 shunt tubes are opened and the No. 1, No. 3 and No. 4 shunt tubes are closed;

c gear, opening the No. 3 shunt tube, and closing the No. 1, No. 2 and No. 4 shunt tubes;

the D gear is that the No. 4 shunt tube is opened and the No. 2, 3 and 1 shunt tubes are closed;

and in the H gear, the No. 1, 2, 3 and 4 shunt tubes are closed and are all opened.

The invention has the beneficial effects that: the flow of the shunt tubes is monitored and controlled, and the shunt performance of the shunt is optimized.

Further preferably, the flow detector is a digital display flow detector.

By adopting the technical scheme, the flow in the shunt pipe in real time can be conveniently displayed, and whether the shunt pipe is blocked or not can be judged according to the flow.

The further optimization is that the connection mode of the shunt pipe and the external water pipe adopts flange connection.

By adopting the technical scheme, the flange is adopted to fasten and connect the port of the shunt pipe, and the flange and the sealing gasket are matched under necessary conditions to improve the sealing performance of the connecting piece.

Further optimization is that the edge of the flow distribution plate is provided with a sealing ring in a circle, and the sealing ring prevents water flow from being directly leaked from the flow distribution plate and the inner wall of the flow distribution cavity.

By adopting the technical scheme, the sealing ring seals the gap between the flow distribution plate and the flow distribution cavity, so that water flow leakage is prevented, and the using effect of the flow divider is influenced.

The H gear of the gear shifter is arranged at the geometric center of the gear shifter.

By adopting the technical scheme, all the shunt tubes of the H gear are fully opened and are arranged at the geometric center of the gear device, so that the gear can be conveniently confirmed, and the operation is convenient.

The water inlet of the flow divider is further optimized to be provided with a filter screen which is connected with the water inlet in a clamping manner.

Adopt above-mentioned technical scheme, the filter screen is used for filtering the impurity of water inlet aquatic, prevents that impurity from getting into to make the intraductal jam of reposition of redundant personnel in the reposition of redundant personnel.

Drawings

Fig. 1 is an overall assembly diagram of the embodiment.

Reference numerals:

1-a water storage device; 11-a filter screen; 2-a water storage device; 3, a box body; 4-green planting.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings. It should be noted that, in the present application, the terms of upper, lower, left and right are consistent with those of the drawings, but not limited to the specific structural orientation; the dimensions in the figures are for illustration only.

A four-way type pipeline throttling shunt is shown in figure 1 and comprises four shunt tubes, a shunt cavity, a flow monitor and a control module, wherein the shunt tubes are connected with the outer wall of the shunt cavity, and the control module is connected with the top of the shunt cavity; the flow detector is arranged in the shunt pipe and is used for detecting the flow in the shunt pipe; the control module comprises handles, gear shifters and flow distribution plates, the gear shifters are fixedly connected with the flow distribution cavity, the handles penetrate through the gear shifters and are connected with the flow distribution plates, the number of the flow distribution plates is four, the flow distribution plates are semicircular, and the control module is used for adjusting the opening state of the flow distribution plates; the water inlet of the flow divider is arranged at the bottom of the flow divider, and is provided with threads which are matched with bolt holes at the bottom of the flow dividing cavity;

the gear mechanism of the gear shifter is as follows:

in the gear A, the No. 1 shunt pipe is opened, and the No. 2 shunt pipe, the No. 3 shunt pipe and the No. 4 shunt pipe are closed;

the gear B is that the No. 2 shunt tubes are opened and the No. 1, No. 3 and No. 4 shunt tubes are closed;

c gear, opening the No. 3 shunt tube, and closing the No. 1, No. 2 and No. 4 shunt tubes;

the D gear is that the No. 4 shunt tube is opened and the No. 2, 3 and 1 shunt tubes are closed;

and in the H gear, the No. 1, 2, 3 and 4 shunt tubes are closed and are all opened.

The gear is used for adjusting the flow of the shunt pipe, and the corresponding gear is properly opened according to the requirements of the use environment to adjust the flow of water in the shunt pipe. When the adjusting device is adjusted, the handle is pulled manually to the corresponding gear position.

The present embodiment will explain the use of the present invention by taking rainwater as an example.

The rainwater can be distributed by arranging the drainage and distribution pipe; slow down the pressure of being responsible for when the drainage, prevent that the flow from taking place the tube burst phenomenon when too big, moreover, the flow detector of this application can monitor the flow of each shunt tubes to this can judge whether the shunt tubes is inside to be blockked up. When the flow rate detected by the flow detector is reduced, the condition that the inside of the shunt pipe is blocked is indicated, the shunt pipe is immediately closed, the blocked position is checked, and the blockage is cleared.

The following may be preferred:

(1) the flow detector adopts a digital display type flow detector. The real-time flow in the shunt tubes can be conveniently displayed, and whether the shunt tubes are blocked or not can be judged according to the flow.

(2) The connection mode of the shunt pipe and the external water pipe adopts flange connection. The flange is adopted to fasten and connect the port of the shunt pipe, and the flange and the sealing gasket are matched if necessary to improve the sealing performance of the connecting piece; the edge circle of flow distribution plate is equipped with the sealing washer, and the sealing washer prevents that rivers from flow distribution plate and reposition of redundant personnel intracavity wall from directly revealing. The sealing washer is sealed with the gap between reposition of redundant personnel chamber, prevents that rivers from revealing, influences the result of use of shunt.

(3) The H gear of the gear shifter is arranged at the geometric center of the gear shifter. All shunt tubes of the H gear are fully opened, and the H gear is arranged at the geometric center of the gear device, so that the gear can be conveniently confirmed, and the operation is convenient.

(4) The water inlet of the flow divider is provided with a filter screen which is clamped with the water inlet. The filter screen is used for filtering the impurity of water inlet aquatic, prevents that impurity from getting into to make the intraductal jam of reposition of redundant personnel in the reposition of redundant personnel.

The invention discloses a four-way type pipeline throttling flow divider, which comprises four flow dividing pipes, a flow dividing cavity, a flow monitor and a control module, wherein the four flow dividing pipes are connected with the outer wall of the flow dividing cavity; the flow detector is arranged in the shunt pipe and is used for detecting the flow in the shunt pipe; the control module comprises handles, gear shifters and flow distribution plates, the gear shifters are fixedly connected with the flow distribution cavity, the handles penetrate through the gear shifters and are connected with the flow distribution plates, the number of the flow distribution plates is four, the flow distribution plates are semicircular, and the control module is used for adjusting the opening state of the flow distribution plates; the water inlet of the flow divider is arranged at the bottom of the flow divider, and is provided with threads which are matched with bolt holes at the bottom of the flow dividing cavity; the gear ware is equipped with 5 gears, is A, B, C, D, H grades respectively, and wherein H gear is full-open gear, and other gears are the gear that opens alone.

The present embodiment is only for explaining the invention, and it is not limited to the invention, and those skilled in the art can make modifications of the embodiment as necessary and inventive contribution to the present embodiment after reading the present specification, but all within the protection scope of the invention are protected by patent laws.

Claims (6)

1. The utility model provides a four-way type pipeline throttle shunt which characterized in that: the flow distribution device comprises four flow distribution pipes, a flow distribution cavity, flow monitors and a control module, wherein the four flow distribution pipes are connected with the outer wall of the flow distribution cavity, and the control module is connected with the top of the flow distribution cavity; the flow detector is arranged in the shunt pipe and is used for detecting the flow in the shunt pipe;

the control module comprises a handle, four shunting plates and a gear shifter, the gear shifter is fixedly connected with the shunting cavity, the handle penetrates through the gear shifter and is connected with the shunting plates, the number of the shunting plates is four, the shunting plates are semicircular, and the control module is used for adjusting the opening state of the shunting pipes;

the water inlet of the flow divider is arranged at the bottom of the flow divider, and is provided with threads which are matched with the bolt holes at the bottom of the flow dividing cavity;

the gear mechanism of the gear shifter is as follows:

in the gear A, the No. 1 shunt pipe is opened, and the No. 2 shunt pipe, the No. 3 shunt pipe and the No. 4 shunt pipe are closed;

the gear B is that the No. 2 shunt tubes are opened and the No. 1, No. 3 and No. 4 shunt tubes are closed;

c gear, opening the No. 3 shunt tube, and closing the No. 1, No. 2 and No. 4 shunt tubes;

the D gear is that the No. 4 shunt tube is opened and the No. 2, 3 and 1 shunt tubes are closed;

and in the H gear, the No. 1, 2, 3 and 4 shunt tubes are closed and are all opened.

2. The four-way type pipe throttling diverter of claim 1, wherein: the flow detector adopts a digital display type flow detector.

3. The four-way type pipe throttling diverter of claim 1, wherein: the shunt tubes are connected with external water pipes in a flange connection mode.

4. The four-way type pipe throttling diverter of claim 1, wherein: the border round of flow distribution plate is equipped with the sealing washer, the sealing washer prevents that rivers from following flow distribution plate with reposition of redundant personnel intracavity wall is directly revealed.

5. The four-way type pipe throttling diverter of claim 1, wherein: the H gear of the gear shifter is arranged at the geometric center of the gear shifter.

6. The four-way type pipe throttling diverter of claim 1, wherein: the water inlet of shunt is equipped with the filter screen, the filter screen with the water inlet joint.

Images