DE1288390B - Changeover control valve - Google Patents

Description

The invention relates to a changeover control valve for regulating the flow the amount of water from induction devices or the like, in which one in one direction the switching cylinder loaded with a spring is coupled to the control valve in such a way that that the flow z. B. of water either in one direction or the other he follows.

In the case of high-pressure air conditioning systems according to the two-pipe water system, it joins the "switching" control method has the difficulty that at certain water inlet temperatures (which are close to room temperature) the occupants do not know how they are The water control valves of the induction devices should operate as the ones to be reached Changes in the performance of the induction devices are very small. Can only be done by hand a heating or cooling effect if the water inlet temperature is sufficiently low and high can be determined from the outflowing supply air (primary and secondary air). So come it is that the occupants of the room often turn the water control valve in the wrong direction. But if the room temperature has changed after a longer period of time, then is difficult because of the low heating and cooling capacity of the induction devices To influence room temperature in the desired direction. Therefore it is beneficial when an automatic water control valve with the help of a room thermostat changes the room temperature recorded and corrected in good time as they arise. This task is easy with one release pneumatic or electric water control valve. These valves work as a result of the summer-winter changeover (by the room thermostats) in heating and cooling as well as. The effort for the automatic control of the induction device is but too high in relation to the price of the induction device. Thermostatic valves, however are much cheaper. The disadvantage of thermostatic valves is that they only have one sense of control and are only used for heating or cooling can find.

There is a control method with a thermostatic valve, the thermostatic valve regulates the amount of water when heating. In the case of cooling, there must be a parallel to the thermostatic valve switched, manually operated water valve, the cooling capacity can be regulated.

Thermostatic valves have been developed that operate through a thermostatic Switching the cold or hot water to a separate valve element. These Execution is very expensive and has the disadvantage that between the cold and hot water there must be a large temperature difference so that the thermostatically switching Valve is able to close or open the hot or cold water opening. The design described above has the disadvantage that with loads in the room, which in are close to ± 0, the thermostatic valves are practically always in the throttle position have to regulate. The transition from heating to cooling is not fluid, it is him takes place suddenly.

As is well known, you need induction devices for cooling operation about 2 to 4 times more water than for heating. This peculiarity is exploited by arranging a pressure-dependent switching valve in front of the control valve, which with large amounts of water and high pressure, the cold water to a cold water valve cone directs and with a small amount of water and low pressure the hot water to a hot water valve cone directs. Switching through the amount of water has the particular advantage that the "Changeover control valve" still regulates well at low loads because the water is low May have cold or hot water temperatures if the heating or cooling capacity of the induction device is ± 0.

A valve arrangement has become known to which such a switching valve connected. However, this switching valve does not respond to pressure changes inside the water-carrying pipe, but is via a separate pneumatic Control loop adjusted in one position or the other.

The invention is based on the object of a changeover control valve to create the ability to regulate induction devices when heating and cooling, but the changeover or the reversal of the water flow direction of one made of the switching valve upstream of the valve, which is dependent on the amount of water will. According to the invention this is achieved in that the switching cylinder is dependent the passage opening for the hot water on the amount of water or the water pressure in the heating case and the passage opening for the cold water in the cooling case so that that the cold water through one of the openings to one valve or the hot water flows through the other openings to the other valve.

According to one embodiment of the invention, the switching cylinder is hollow formed and with an opening on one end face, which is the water inlet opening opposite in the housing of the switching valve provided.

According to a further embodiment, the water flows through the switching cylinder, and the switching cylinder is different by the existing Pressure values within the water-carrying pipe against the action of the spring within of the switching valve adjusted. The force acting on the switching cylinder The spring is adjustable by means of a screw.

According to a further embodiment of the invention, the valve cone can be regulated separately or jointly or independently of one another.

According to a further embodiment of the invention, the valve rods operated by two thermostatic sensing elements.

According to a further embodiment of the invention, the changeover cylinder of the switching valve by pneumatic, electric or magnetic motor adjusters operated depending on the water temperature or amount of water.

The invention has different arrangements over the known arrangements Benefits on. The fact that the existing water pressure in the line for switching of the switching valve is used, becomes an automatic one in a simple manner Control achieved, so that readjustments by hand are not necessary. The other constructive Developments of the subject matter of the invention bring further technical and spatial and cost-saving advantages.

The invention is described with reference to drawings. In the drawings shows Fig. 1 a control valve according to the invention in connection with a switching valve, seen from the side and drawn in section, FIG. 2 a control valve according to F i g. 1, where at Place of several valve cones a common one Valve cylinder is provided, seen from the side and drawn in section.

The changeover control valve consists of two parts, the water volume or pressure-dependent switching valve 1 and the actual control valve 2.

The switching valve 1 consists of the housing 3 and the switching cylinder 4, which has two openings 5 and 6 and which is slidably arranged in the housing 3 is.

The changeover cylinder 4 is kept under tension with the aid of the tension spring 8 and the tensioning and adjusting screw 7. The housing 3 of the switching valve 1 has a cold or hot water inlet opening 9, a hot water passage opening 10 and a quay; water passage opening 11.

The control valve 2 has a hot water inlet opening 12 which is connected to the hot water passage opening 10 of the switching valve 1, a cold water inlet opening 13 which is connected to the cold water passage opening 11 of the switching valve 1, and a cold or hot water outlet opening 14 a valve rod 15 to which a cold water valve cone 16 and a hot water valve cone 17 are attached. Depending on the position of the valve rod 15, the valve cones 16 and 17 close the hot water valve seat 19 and cold water valve seat 20 to a greater or lesser extent.

The control valve 2 can also be a valve cylinder instead of the valve cone 21 have (Fig. 2). The valve cylinder 21 has a cold water inlet opening 22 and hot water inlet opening 23 and a cold and hot water outlet opening 24. The valve cylinder itself is attached to a valve rod 15.

The cold or hot water flows through the opening 9 into the switching cylinder 4. In the case of heating (small amounts of water - small pressure) the openings are located 5 and 10 at the same height. The hot water flows through the openings 10 and 12 the valve seat 19 to the opening 14 in an induction device or the like.

The valve rod 15 is to a thermostatic sensing element or on a pneumatic or electric motor adjuster is connected. The valve stem 15 can also be operated by hand like a water valve. Depending on the heating load the valve rod 15 raised or lowered and the flow of hot water through the opening 19 decreased or increased. When cooling with a large amount of water (and high pressure) the switching cylinder 4 is moved so far that the opening 6 with the opening 11 is at the same level. The cold water flows through the openings 6,11,13 the cold water valve seat 20 to the cold or hot water outlet opening 14 after cooling is required, the valve rod 15 is raised and lowered and the cold water flow decreased or increased through the opening 20. How the control valve works according to FIG. 2 is similar to that of FIG. 1.

The hot water flows through the openings 23 and 24 to the cold and Warm water outlet opening 14. The cold water flows through openings 22 and 24 to the opening 14.

Claims (7)

Claims: 1. Switching valve for regulating the flow of the Amount of water from induction devices or the like, in which one in one direction with a spring loaded switching cylinder is coupled to the control valve so that the flow of water is either in one or the other direction, characterized in that the changeover cylinder (4) depends on the amount of water or the water pressure, the passage opening (10) for the hot water when heating and the passage opening (11) for the cold water in the case of cooling releases so that the cold water through one of the openings (11 and 13) to the one valve (16, 20) or the hot water via the other openings (10 and 12) to the other valve (17,19) flows. 2. Changeover control valve according to claim 1, characterized in that that the switching cylinder (4) is hollow and has an opening on one side Front side that the water inlet opening (9) in the housing of the switching valve (1) opposite, is provided. 3. Changeover control valve according to claim 1 and 2, characterized characterized in that the water flows through the switching cylinder (4) and the switching cylinder (4) by the existing different pressure values within the water-carrying line against the action of the spring (8) within the switching valve (1) is adjusted. 4. Changeover control valve according to claim 3, characterized in that that the force of the spring (8) acting on the switching cylinder (4) is adjustable is. 5. Umsclialt control valve according to claim 1 to 4, characterized in that the valve cones (16 and 17) can be controlled jointly or independently of one another can. 6. changeover control valve according to claim 1 to 5, characterized in that the valve rods (15 and 15a) are each actuated by two thermostatic sensing elements will. 7. changeover control valve according to claim 1 to 6, characterized in that the switching cylinder (4) of the switching valve (1) by pneumatic, electrical or magnetic motor adjusters depending on the water temperature or amount of water is operated.