RU2130591C1 - Device for connection of flow meter - Google Patents

Abstract

FIELD: fitting flow meters in water supply systems of dwellings and administrative buildings. SUBSTANCE: device has hollow cylindrical housing for connection with shut-off valve body, distance stepped tube and valve connected with outlet member of control unit for fully or partially shutting of the passage delivering flow to inlet passage of flow meter. Distance tube if fitted coaxially inside hollow housing and is connected with it by step of large diameter. Branch pipe of housing intended for connection with outlet branch pipe of flow meter is communicated with outlet branch pipe of shut-off off valve by means of cavity formed by surface of step of lesser diameter of distance tube and inner surface of housing. EFFECT: simplified construction; reduced losses of hydrostatic head between inlet and outlet branch pipes of shut-ff valve. 6 cl, 4 dwg

Description

 The invention relates to measuring equipment, in particular to devices for connecting a flow meter to pneumatic or hydraulic pipelines operating under pressure, and can be used when installing flow meters for hot and cold water in water supply systems of residential and administrative products, as well as in production lines and test facilities in the oil, chemical, engineering and other industries.

 A device for connecting a flow meter, which contains an inlet and outlet pipe for connecting the flow meter to the highway (see, for example, RF patent N 2044279, CL G 01 F 1/06, publ. 1995).

 The known device provides for the installation of a measuring device (turbine-tangential water meter) directly into the line, that is, the entire fluid flow, the total flow rate of which must be measured, passes through the measuring device. The disadvantages of this device include the relatively high complexity of its installation in existing lines. So the installation of a flow meter, for example, in the existing apartment building inlets of residential buildings, requires cutting out the nozzles into the existing pipeline and long-term overlap for this existing highway. In this case, it should be noted the inconvenience that consumers experience when performing work on installing the flow meter.

 A device for connecting a flow meter is known, which comprises a mechanism for switching the flow with a hollow cylindrical body for connecting to the tee body and with a valve for blocking the flow, and a control unit (see, for example, USSR author's certificate N 1326895, class G 01 F 15/18 publ. 1987).

 The known device partially eliminates the disadvantages of the analogue described above, since it allows the flowmeter to be installed in an existing line through a tee (valve body). However, using the known device, it is impossible to measure the total flow rate of the liquid flow in the process of supplying it to the consumer, since for measuring the flow rate the main flow to the consumer is blocked by the valve and only then is the flow measurement carried out. This circumstance limits the scope of use of this device when installing counters of flow of cold and hot water in the existing apartment inlets of cold and hot water supply systems for residential and office buildings.

 The closest to the invention in technical essence and the achieved result is a device for attaching a flow meter, including a mechanism for switching the flow, which contains a hollow cylindrical body for connecting to the body of the shut-off valve, mounted coaxially inside the body and rigidly connected to the last remote tube in communication with the outlet pipe a shut-off valve by means of a cavity a pipe for connecting to the output channel of the flow meter and installed with the possibility of full or partial overlapping of the channel for supplying current to the output channel of the flowmeter; a valve for blocking the flow; and a control unit, the housing of which is fixed to the housing of the mechanism for switching the flow and is made with a channel for supplying flow to the output channel of the flowmeter (see, for example, German patent N 4124106, cl G 01 F 15/18, publ. 1992).

 The known device provides the ability to measure the total fluid flow by the consumer while reducing the complexity of the installation of the flow meter in the operating water supply systems, and also allows you to block, if necessary, the water supply system.

 The disadvantages of the known device are the high losses of hydrostatic pressure of the fluid between the inlet and outlet nozzles of the shut-off valve, as well as the complexity of the design.

 The technical result created by the claimed invention is to reduce the loss of hydrostatic pressure of the fluid between the inlet and outlet nozzles of the shutoff valve by reducing the hydraulic resistance of the parts of the device for connecting the flow meter along the path of the fluid flow while simplifying the design of the device.

 To achieve this result, in a device for connecting a flowmeter, including a mechanism for switching the flow, which contains a hollow cylindrical body for connecting to the body of the shut-off valve, mounted coaxially inside the body and rigidly connected to the latter, a remote tube in communication with the outlet pipe of the shut-off valve through the cavity of the pipe for connection to the output channel of the flow meter and installed with the possibility of full or partial blocking of the channel for supplying flow to the flow meter’s flow channel is a valve for shutting off the flow, and the control unit, the housing of which is mounted on the mechanism’s body for switching the flow and is made with a channel for supplying flow to the flow meter’s output channel, the distance tube is made in a stepped form, while the cavity is formed by the outer surface of the cylindrical stage of a smaller diameter of the distance the tube and the inner surface of the mechanism body for switching the flow.

 In the particular case of execution, the mechanism for switching the flow may have a connecting tube for attaching a branch pipe of the mechanism for switching the flow to the output channel of the flowmeter. With this embodiment, the design of the device facilitates the reading of the flow meter when installing it in hard to reach places.

 In addition, the control unit can be configured with an output link installed with limited axial movement, the valve of the flow switching mechanism being connected to the output link of the control unit. With this embodiment, the design of the control unit provides, if necessary, more reliable shutoff of the liquid flow by the consumer.

 In addition, the control unit can be made with an output link installed with the possibility of limited rotation around its axis, and the valve of the mechanism for switching the flow can be in the form of a washer with a passage channel, which is kinematically connected with the output link, which ensures an increase in the service life of the control unit and, therefore , the entire device as a whole.

 In addition, the housing of the mechanism for switching the flow can be made with a threaded section for connection to the housing of the shut-off valve, while the connections of the housing of the mechanism for switching the flow, respectively, with the remote tube and the housing of the control unit are threaded. With this embodiment, the design of the device facilitates its installation and, if necessary, the replacement of failed parts and assemblies.

 In addition, the device for connecting the flowmeter can have sealing elements that are located at the junction of the mechanism for switching the flow with the body of the control unit, which increases the operational reliability of the device by reducing fluid leakage through the junction of parts and assemblies.

 The invention is illustrated by drawings, where in FIG. 1 shows a device for attaching a flowmeter when it is installed in a working position, FIG. 2 is one embodiment of a valve for shutting off flow, FIG. 3 is a section along AA in FIG. 2 and FIG. 4 is a section BB in FIG. 2.

 A device for connecting a flow meter contains a mechanism for switching the flow with a hollow body 1 of a cylindrical shape. One of the ends of the hollow body 1 of the flow switching mechanism is rigidly connected to the body 2 of the shut-off valve. The body 2 of the shut-off valve is installed in the line 3 of the existing cold and hot water supply system and has an inlet pipe 4 and an output pipe 5. Coaxially inside the body 1 of the mechanism for switching the flow, a remote tube is installed 6. The remote tube 6 is rigidly connected to the housing 1, for example, by means of a press connections. The distance tube 6 has a stepped shape with the formation of a cylindrical step 7 of smaller diameter. The cylindrical step 7 on the remote tube 6 can be technologically formed by casting the remote tube 6 or by machining the billet grooves on a portion of the length of the remote tube 6. The hollow body 1 of the mechanism for switching the flow is made with a pipe 8 for supplying the flow to the output channel 9 of the flow meter 10. The flow meter 10 has an inlet 11. As a flow meter 10, for example, a turbo-tangential water meter of known design can be used. At the second end of the housing 1 of the mechanism for switching the flow, the housing 12 of the control unit 13 is fixed. The housing 12 of the control unit 13 is made with a channel 14 for supplying flow to the input channel 11 of the flow meter 10. The channel 14 in the housing 12 of the control unit 13 is in communication with the cavity 15 of the remote tube 6. The mechanism for switching the flow has a valve 16, which is installed with the possibility of full or partial overlapping channel 14 in the housing 12 of the control unit 13. The cavity 15 of the remote tube 6 is in communication with the inlet pipe 4 of the housing 2 of the shut-off valve. The outer surface of the cylindrical stage 7 of the smaller diameter of the spacer sleeve 6 and the inner surface of the housing 1 of the flow switching mechanism form a cavity 17, which is in communication with a pipe 8 for connection to the output channel 9 of the flow meter 10 and with the output pipe 5 of the valve body 2.

 The mechanism for switching the flow can be performed with the connecting pipe 18. Using the connecting pipe 18, the outlet pipe 9 of the flow meter 10 is in communication with the pipe 8 of the hollow body 1 of the mechanism for switching the flow. The connection of the tube 18, respectively, with the outlet pipe 9 of the flow meter 10 and with the pipe 8 of the hollow body 1 of the mechanism for switching the flow can be made, for example, threaded.

 The control unit 13 can be made with the output link 19 mounted with the possibility of limited axial movement (Fig. 1). To ensure the conversion of the rotational movement of the handle of the control unit 13 into the axial movement of its output link 19, for example, a screw-nut transmission can be used. The valve 16 of the mechanism for switching the flow is connected to the output link 19 of the control unit 13. At the entrance to the channel 14 in the housing 12 of the control unit 13, a saddle can be made (not shown in the drawings) to more reliably cover the valve 16, respectively, of the channel 14 in the housing 12 of the control unit 13.

 It is most expedient to execute the control unit 13 with the output link 20 installed with the possibility of limited rotation around its axis (Fig. 2). At the same time, the output link 20 is kinematically connected with the handle of the control unit 13, the rotation restriction of which can be achieved by means of the stoppers installed on the housing 12 of the control unit 13 (not shown in the drawings). With this embodiment, the prudent valve 16 of the mechanism for switching the flow is made in the form of a washer with a check valve 21, through which, at a certain position of the handle of the control unit 13, the cavity 15 of the remote tube 6 is able to communicate with the channel 14 in the housing 12 of the control unit 13. The valve 16 made in the form of a washer is kinematically connected by the output link 20 of the control unit 13 and is mounted with the possibility of rotation around its longitudinal axis. The kinematic connection of the valve 16 with the output link 20 of the control unit 13 can be performed, for example, in the form of a protrusion 22 located on the end of the output link 20 of the control unit 13 of the protrusion 22 and a recess 23 made on the end of the washer for placement of the protrusion 21 with a hermetic closure. The design of the valve 16 washer can be made of ceramic material. To reduce the amount of fluid leaks at the points of interaction of the valve 16 with the remote tube 6 can be installed sealing elements (not shown).

 The housing 1 of the mechanism for switching the flow can be made with a threaded section 24 for connecting to the housing 2 of the shut-off valve. Moreover, the connection of the housing 1 of the mechanism for switching the flow with its remote tube 6 can also be threaded, for which the housing 1 and the remote tube 6 are made with threaded sections 25. The housing 1 of the mechanism for switching the flow can be connected to the housing 12 of the control unit 13 with using a threaded connection, which provides threaded sections 26 made on the corresponding parts.

 At the junction of the housing 1 of the mechanism for switching the flow with the housing 12 of the control unit 13, sealing elements 27 can be made, for example, in the form of rubber rings. Sealing elements 27 can be installed at the junction of the remote tube 6 with the housing 2 of the shut-off valve, as well as at the junctions of the device parts (not shown in the drawings).

 A device for connecting a flowmeter operates as follows.

 Pre-carry out the installation of the device for connecting the flow meter 10 in the place of installation of the shut-off valve, which is always available in the quarterly input of the water supply system. For this, having previously blocked the fluid flow, the valve shut-off valves are unscrewed from the housing 2 and the housing 1 of the mechanism for switching the flow is screwed into their socket in the housing 2. The connection of the housing 2 of the shut-off valve with the housing 1 of the mechanism for switching the flow provides a threaded section 24 of the latter. Then, a remote tube 6 is screwed into the cavity of the housing 1 of the flow switching mechanism, for which purpose the mounting socket 28 can be made at the end of the latter to accommodate the end of the mounting tool, for example, a key. The connection of the remote tube 6 with the housing 1 provide the threaded sections 25 on these parts. After installing the remote tube 6, the housing 12 of the control unit 13 is connected to the housing 1 of the flow switching mechanism using threaded sections 26 on the respective parts. Then, the inlet pipe 11 and the outlet pipe 9 of the flow meter 10 are connected respectively to the channel 14 in the housing 12 of the control unit 13 and through the connecting pipe 18 to the pipe 8 of the hollow body 1 of the flow switching mechanism.

 When a fluid stream (cold or hot water) enters the line 3, it passes through the inlet pipe 4 of the shut-off valve body 2 to the cavity 15 of the remote tube 6 and then through the open valve 16 of the flow switching mechanism and through the channel 14 in the housing 12 of the control unit 13 - to the input channel 11 of the flow meter 10. When passing through the flow meter 10, the flow acts on the turbine blades (not shown in the drawings) of the flow meter 10, the rotation of which is converted into a meter, visually showing the total flow of water. It should be noted that as a flow meter 10, a device of any known design can be used to measure the total flow rate. Next, the fluid flow from the outlet channel 9 of the flow meter through the connecting pipe 18, through the pipe 8 of the housing 1 of the mechanism for switching the flow and through the cavity 17 enters the inlet pipe 5 of the housing 2 of the shut-off valve and then to the consumer.

 If necessary, for example, when repairing or replacing plumbing equipment, using the inventive device, block the flow of liquid to the consumer. For this, the handle of the control unit 13 is rotated in the corresponding direction, and the output link 19 kinematically connected with the handle is moved in the axial direction. When moving the output link 19 of the control unit 13, the valve 16 moves with it in the same direction, which, sitting on the saddle in the extreme position, blocks the channel 14 in the housing 12 of the control unit 13. When closing the valve 16, the flow of liquid to the consumer is stopped, which is fixed by the flow meter 10.

 In the case of execution of the valve 16 of the mechanism for switching the flow in the form of a washer, the operation of the device is carried out in a similar way. When the handle of the control unit 13 is rotated, the output link 20 is rotated, which, through the protrusion 22, rotates the valve 16. The passage channel 21 rotates around the longitudinal axis of the washer-valve 16 and the washer-valve 16 disconnects the cavity 15 of the remote tube 6 from the channel 14 in the housing 12 node 13 control. Fluid does not flow to the consumer.

 If necessary, with partial overlap using the valve 16, it is possible to control the flow rate of the liquid flow to the consumer, which is also fixed by the flow meter 10.

 Thus, when implementing the claimed invention, it is not necessary to carry out special installation work of the flowmeter associated with welding in residential and administrative buildings, since the device allows the flowmeter to be installed in place of the shut-off valve previously installed in the water supply system. It should be noted that the claimed device, in addition to installing the flowmeter in the system, additionally performs the functions of a shut-off valve, providing, if necessary, shut off the flow or adjust its parameters.

Claims (6)

 1. A device for connecting a flow meter, including a mechanism for switching the flow, which contains a hollow cylindrical body for connecting to the body of the shut-off valve, mounted coaxially inside the body and rigidly connected to the last remote tube, in communication with the outlet pipe of the shut-off valve through the cavity of the pipe for connecting to the outlet the flow meter channel and installed with the possibility of full or partial blocking of the channel for supplying flow to the inlet of the flow meter valve for flow shutoff, a control unit, the body of which is fixed to the body of the mechanism for switching the flow and is made with a channel for supplying flow to the output channel of the flowmeter, characterized in that the distance tube is made in a step shape, while the cavity is formed by the outer surface of a cylindrical step of a smaller diameter of the distance tube and the inner surface of the body of the mechanism for switching the flow.  2. The device according to claim 1, characterized in that the mechanism for switching the flow is made with a connecting pipe for connecting the nozzle of the mechanism for switching the flow to the output channel of the flow meter.  3. The device according to claim 1 or 2, characterized in that the control unit is configured with an output link mounted with a possibility of limited axial movement, while the valve of the flow switching mechanism is connected to the output link of the control unit.  4. The device according to claim 1 or 2, characterized in that the control unit is configured with an output link installed with the possibility of limited rotation about its axis, and the valve of the mechanism for switching the flow is made in the form of a washer with a passage channel, which is kinematically connected with the output link.  5. The device according to one of claims 1 to 4, characterized in that the body of the mechanism for switching the flow is made with a threaded portion for connection to the body of the shut-off valve, while the connections of the body of the mechanism for switching the flow, respectively, with the remote tube and the body of the control unit are made threaded.  6. The device according to one of claims 1 to 5, characterized in that it has sealing elements that are located at the junction of the mechanism body for switching the flow with the body of the control unit.

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