RU158563U1 - BALANCING VALVE - Google Patents

Abstract

Shut-off and balancing valve designed to regulate and control the flow in the heating and cooling system, comprising a tubular body having an inlet and outlet made with piping attachment elements, the body is made with an outlet from it at an angle to the flow axis in the direction from the entrance to the exit by a tubular nozzle used to install in it made with the possibility of movement along the nozzle of the overlapping unit of the passage section of the housing in the form of a shutter in the direction from the entrance to the exit made with a saddle and equipped with a handle with a mechanism for moving this assembly, an inclined partition is made in the housing, dividing the housing cavity into the entrance zone and exit zone and made with an opening having a seat socket for placing the saddle of the overlap assembly in the exit zone with full overlap of the passage section of the housing, and also the housing is made with two elbows in the form of blind holes located on the side of the tubular pipe in the area of the entry zone in the form of blind holes, the longitudinal axes of which are inclined to the axis p the flow in the direction from the entrance to the exit at an angle opposite to the angle at which the longitudinal axis of the tubular pipe is located, the cavity of one of the elbows in the bottom zone is communicated with the cavity of the tubular pipe in the seat travel section, and the cavity of the other elbow in the bottom zone is communicated with the channel with a body cavity in the inlet zone, nipples for connecting pressure control devices in the inlet zone and in the exit zone are placed in the indicated tubular elbows, while the valve is equipped with a drainage outlet connected to the cavity

Description

The utility model relates to valve assembly of assemblies for hydraulic systems and is intended to regulate and control the flow of a hydraulic medium (or coolant and coolant) through a valve in a heating and cooling system. And also for monitoring and measuring the amount of working medium (liquid) passed through the valve (valve) using a differential pressure gauge (a device for measuring the pressure drop across the valve).

A balancing valve or balancing valve is a device or type of plumbing fixture designed to regulate the passable cross section for the passage of fluid of a given flow rate. Consumption is the amount of fluid (fluid) passing through the valve per unit time. The flow rate varies depending on the cross section between the saddle and the valve, which corresponds to a specific pressure drop across the valve (before and after the valve) using an instrument (differential pressure gauge). This pressure difference is measured and recalculated by the device or using the formulas in the fluid flow rate on the valve, that is, in the actual amount of fluid passed through the valve per unit time. In other words, the balancing valve is designed to regulate the amount of fluid passing to the consumer (source).

Adjustment of fluid flow is provided by increasing or decreasing the cross-section through the valve. Thus, this section creates a specific (predetermined) hydraulic resistance corresponding to the position (graduation) on the valve handle and if the section is reduced, then the hydraulic resistance will increase. And if the cross section is increased, then the hydraulic resistance will decrease. With a decrease in the cross-section, the flow rate drops.

Balancing valves are used to regulate the flow of cold and coolant in hot water supply, heating, ventilation, refrigeration and air conditioning systems with an accuracy of ± 5-10%. Balancing valves are equipped with a flow meter or fittings, which can be connected to measure any differential pressure gauge (device) from various manufacturers. The balancing valve can perform the following functions: balancing, presetting, closing, measuring and the drainage function, and also has a separate hole for connecting a temperature sensor, which is especially important for accounting for thermal energy.

For example, the well-known balancing valve TA STAD 52 151-014 with drainage is equipped with a special handle that has two scales and the ability to fix valve settings. This allows the valve to be adjusted and balanced with great accuracy and, when the valve is closed, save (does not go astray) the valve setting. With this handle, the valve can be completely shut off; no re-setting after opening is required. The presence of a drainage device on the balancing valve is very convenient, since there is no need to put additional drainage taps on the riser.

So, from US US 5291920, F16K 51/00, publ. 03/08/1994, a TA STAD type shut-off and balancing valve is known for regulating and controlling the flow through a valve in a heating and cooling system, comprising a tubular body having input entrances made with elements for connecting pipelines to them, the body is made with an outlet from it at an angle to the axis of the flow in the direction from the inlet to the outlet, a tubular pipe used to install in it made with the possibility of movement along the pipe of the unit of overlap of the passage section of the housing in the direction From the entrance to the exit, made with a saddle and equipped with a handle with a mechanism for moving this assembly, an inclined partition is made in the housing, dividing the housing cavity into the entrance zone and exit zone and made with an opening having a seat for placing the saddle of the overlap assembly in the exit zone at complete overlap of the passage section of the housing, as well as the housing is made with two elbows in the form of blind holes located on the side of the inlet pipe in the portion of the entry zone in the form of blind holes, the longitudinal axes of which are are laid obliquely to the flow passage axis in the direction from the entrance to the exit at an angle opposite to the directed angle, under which the longitudinal axis of the tubular pipe is located, the cavity of one of the elbows in the bottom zone is communicated with the cavity of the tubular pipe in the seat travel section, and the cavity of the other elbow the bottom zone of the channel is communicated with the body cavity in the inlet zone, nipples are placed in the indicated tubular elbows for connecting pressure control devices in the inlet zone and in the outlet zone, while the nipple body located in t ubchatoy forms a knee, the message from the input zone is configured vented communicating with the cavity entrance zone.

This decision was made as a prototype for the claimed object.

The disadvantage of this shutoff-balancing valve is that it is used with several nipple designs. In the basic version of the valve, the same nipples are used that do not have a drainage device. For pipe connections requiring drainage, one of the nipples is replaced by another, made in a housing in which the outlet for drainage is mounted. The nipples themselves are devices - check valves, which are screwed into the knee cavity using an allen key. These elbows and tubular nozzles for installing an adjustable shutter are mounted in line on one side of the valve body. If there is a shutter in the housing due to its dimensions and the dimensions of the handle, access to the elbows is limited, which determines the design of the nipples themselves. These nipples are made in the form of tubular nodes screwed into the knee. The nipple with the drainage element is made with a wide body, which occupies the entire space between the adjacent elbow and the valve body. In this regard, it is difficult to connect the drain pipe to the drainage outlet, since this requires a wrench (if the drainage is installed manually) with an open pharynx, which is used to work with nuts. But to work with such a key, there is not enough free space on the valve to enter the jaws of the key and to rotate it. This creates serious inconvenience when connecting the drain pipe to the drain outlet. In addition, the drainage channel in this special nipple is drawn through the communication channel of the knee cavity with the cavity of the valve body and through the channel in the nipple itself. Thus, the drainage in this known valve is not a drain line, but a fluid leak. This leak is needed to compensate for the excess pressure in the inlet zone, but does not solve the problem of draining the liquid from the inlet zone. To drain the fluid, a large flow area, rather than throttling, is required.

This utility model is aimed at achieving a technical result consisting in simplifying the design by eliminating a special nipple with a drainage outlet and increasing the convenience of technological maintenance by moving the drainage outlet to the side of the housing, opposite to the location of the shutter and nipple movement unit.

The specified technical result is achieved by the fact that in the shut-off and balancing valve, designed to regulate and control the flow in the heating and cooling system, containing a tubular body having input entrances made with elements for connecting pipelines to them, the body is made with an outlet from it at an angle to the axis of the flow in the direction from the entrance to the exit of the tubular pipe used to install it made with the possibility of movement along the pipe node overlapping passage section case in the form of a shutter in the direction from the entrance to the exit, made with a saddle and equipped with a handle with a mechanism for moving this unit, an inclined partition is made in the body, dividing the body cavity into the entrance zone and exit zone and made with an opening having a seat for accommodating the node saddle overlap in the exit zone with complete overlap of the passage section of the housing, as well as the housing is made with two elbows in the form of blind openings located on the side of the inlet pipe at the inlet zone by two tubular shapes thi, the longitudinal axes of which are inclined to the axis of the flow in the direction from the entrance to the exit at an angle opposite to the angle at which the longitudinal axis of the tubular pipe is located, the cavity of one of the elbows in the bottom zone is in communication with the cavity of the tubular pipe in the seat travel section, and the cavity of the other knee in the bottom zone is in communication with the body cavity in the inlet zone, nipples are placed in the indicated tubular elbows for connecting pressure control devices in the inlet zone and in the outlet zone, while the valve is equipped with a drainage outlet communicated with the cavity of the entrance zone, the drainage outlet is made in the form of a nozzle located on the housing in the area from the entrance to the inclined partition inside the housing and on the side of the housing opposite to the placement of the tubular nozzle and tubular shape of the elbows, while the housing is also made with an additional tubular-shaped elbow with an internal thread located on the side of the drainage branch in the area from the inclined partition inside the housing to the exit.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

In FIG. 1 shows the appearance of a shut-off and balancing valve;

FIG. 2 - shows a longitudinal section of the body of the locking and balancing valve;

FIG. 3 - locking and balancing valve assembly and in section.

According to this utility model, the design of a shut-off and balancing valve used to regulate the flow of cold and coolant in hot water supply, heating, ventilation, cold supply and air conditioning systems is considered. This valve or valve is designed to regulate the cross section for the passage of fluid of a given flow rate.

The shut-off and balancing valve (Fig. 1 and 2), which is built into the piping system to regulate and control the flow in the system, for example, heating and cooling, contains a tubular body 1 having an inlet 2 and an outlet 3 made with elements 4 connecting to pipelines (connection elements are made in the form of an internal thread of the input and output parts of the body and make their outer surface with faces under the wrench). The body is made by hot stamping from brass grade LS-59-1 in accordance with GOST 15527-70.

The casing is made with a tubular pipe 5 extending from it at an angle to the axis of the flow in the direction from the inlet to the outlet, used for installation in it made with the possibility of moving along the pipe of the overlapping unit 6 of the passage section of the casing in the direction from the inlet to the outlet. The tubular pipe 5 is made with an internal thread for screwing the overlap assembly. This node overlap 6 is made in the form of a shutter made with a saddle 7 and equipped with a handle 8 with a mechanism for moving this node.

In the housing 1, an inclined partition 8 is made, dividing the housing cavity into the entry and exit zones and made with an opening 9 having a seat for accommodating the saddle 7 of the overlap unit 6 in the exit zone when the passage section of the housing is completely blocked.

The housing is made with two elbows 10 and 11 located on the side of the tubular pipe 5 in the area of the entry zone with two tubular shaped holes, the longitudinal axes of which are inclined to the flow axis in the direction from the entrance to the exit at an angle opposite to the angle at which the longitudinal axis of the tubular pipe 5. is located. Both elbows 10 and 11 are interconnected by a thin partition 12 (to give positional rigidity). Both elbows 10 and 11 are made with an internal thread for placement in each of them of a check valve made in the form of a nipple 13.

The cavity of one knee 11 in the bottom zone of the channel 14 is in communication with the cavity of the tubular pipe 5 in the travel section of the seat 7, and the cavity of the other knee 10 in the bottom zone of the channel 15 is in communication with the cavity of the body in the entry zone. In said tubular elbows, nipples 13 are placed for connecting pressure monitoring devices in the inlet zone and in the outlet zone.

In the housing, the drainage outlet is made in the form of a nozzle 16 located on the housing in the section from the entrance to the inclined partition inside the housing and on the side of the housing opposite to the placement of the tubular nozzle and the tubular shape of the elbows. This pipe 16 is made with an external thread for connecting drain valves (piping) or installing a plug 17 (for the case when drainage is not required). Placing a drainage pipe on the opposite side from the place of placement of the tubular pipe and elbows allows you to form a complete drainage of fluid in the volume of its entry. At the same time, access to this pipe is released, which allows the use of a standard wrench.

The housing is also made with an additional tubular shape of the elbow 18 with an internal thread located on the side of the drainage branch in the area from the inclined partition inside the housing to the exit. This output can be used for various purposes: from connecting control devices to connecting a drain outlet from the outlet zone side.

In the utility model under consideration, the important qualities of the prototype are preserved: the placement of two elbows with nipples on the same side of the housing for connecting pressure control devices in the inlet zone and in the outlet zone and a tubular pipe used to screw an adjustable shutter over the passage section into it in the case. Thus, in the control and configuration mode, all important and necessary nodes are in front of the operator. The control units can be pressure gauges with a short pipeline with a needle at the end. When inserting the needle into the nipple, the operator must hold the pressure gauge and the needle inserted into the nipple, but be able to control the shutter (be able to turn the handle on the shutter to equalize the pressure in the entry and exit zones). Thus, the placement of the nodes of regulation and control on one side of the housing allows you to conveniently carry out the appropriate operations with these nodes. And the placement of the tubular drain pipe on the other side of the housing allows you to freely carry out operations to attach the drain pipe using a conventional wrench or Swedish key. When screwing the connecting fitting onto the tubular pipe, the operator can freely operate the tool, since nothing prevents the key from turning in a wide angular range. The same free actions can be carried out when using a tool to connect a pipeline or instrument to an additional elbow 18 with internal thread.

This utility model is industrially applicable, since it is based on optimizing the layout solution for the rational arrangement of nozzles and elbows on a common housing, which eliminates damage to elbows with a nipple and a shutter. The mounting convenience is increased and the time for carrying out these operations is reduced due to the transfer of the drainage outlet to the side of the housing, opposite to the location of the shutter and nipple displacement unit. The valve design is simplified by eliminating a special nipple with a drainage outlet and due to the fact that the same nipples are used for the measuring elbows.

Claims (1)

Shut-off and balancing valve, designed to regulate and control the flow in the heating and cooling system, containing a tubular body having an inlet and outlet made with elements for connecting pipelines to them, the body is made with an outlet from it at an angle to the flow axis in the direction from the entrance to the exit by a tubular nozzle used to install in it made with the possibility of movement along the nozzle of the overlapping unit of the passage section of the housing in the form of a shutter in the direction from the entrance to the exit, made with a saddle and equipped with a handle with a mechanism for moving this assembly, an inclined partition is made in the housing, dividing the housing cavity into the entrance zone and exit zone and made with an opening having a seat socket for placing the saddle of the overlap assembly in the exit zone with full overlap of the passage section of the housing, and also the housing is made with two elbows in the form of blind holes located on the side of the tubular pipe in the area of the entry zone in the form of blind holes, the longitudinal axes of which are inclined to the axis p the flow in the direction from the entrance to the exit at an angle opposite to the angle at which the longitudinal axis of the tubular pipe is located, the cavity of one of the elbows in the bottom zone is communicated with the cavity of the tubular pipe in the seat travel section, and the cavity of the other elbow in the bottom zone is communicated with the channel with a body cavity in the inlet zone, nipples for connecting pressure control devices in the inlet zone and in the exit zone are placed in the indicated tubular elbows, while the valve is equipped with a drainage outlet connected to the cavity ony of the entrance, characterized in that the drainage outlet is made in the form of a pipe located on the housing in the area from the entrance to the inclined partition inside the housing and on the side of the housing opposite to the placement of the tubular pipe and the tubular shape of the elbows, while the housing is also made with an additional tubular shaped elbow with internal thread located on the side of the drainage outlet in the area from the inclined partition inside the housing to the exit.

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