DE2314522A1 - HEATING VALVE WITH THERMOSTAT - Google Patents

Description

Heating valve with thermostat A heating valve with the features of the preamble of the main claim is known from the German Offenlegungsschrift 1,932,596. Heating valves of this type with thermostats are available as two-way valves formed and built into the line from the flow line to the radiator leads. When a valve closes during thermostatic control, the The line creates a jam that causes sudden Ge noises in the pipe system. If the valves are all connected to the flow line during heating If the radiator is closed, the flow can no longer be flown while the pump is running continue to flow, which also causes noise and increases stress the pump leads.

The invention is based on the following object: By the thermostatic Control of the valve-e should not make any noise in the pipe system or harmful Influences on the pump.

According to the invention with all the features of the main claim is the heating valve carrying the thermostat is designed as a three-way valve. Except the two nozzles where the flow enters or is directed to the radiator, a bypass connection is provided from which a line bypassing the Radiator into the return pipe. Before in the course of the thermal regulation of the radiator the flow stream to the radiator is shut off, the opens Bypass line, and the forward flow can continue. The tap water is thus constantly in the flow, so that there can be no congestion.

A particularly expedient embodiment of the invention results from claim 2. Thereafter, the pin carrying the piston for the bypass bore with the spindle, which carries the locking piece for the through-hole, coupled that after sitting on the closure piece, so after closing of the flow-through bore, thermal control of the piston continues. To this As the temperature increases, the pin and thus the piston continue to decrease moved down, so that the flow area of the bypass hole is increased. In this way, a quantitative circulating flow is guaranteed, in particular when the actual temperature rises, if it is to be expected that all of the The flow line connected to the radiator can be thermally shut off.

An embodiment of the invention is described in more detail below with reference to the accompanying drawings: Fig. 1 shows a longitudinal section by means of a heating valve with thermostat with the flow hole opened to the maximum, Fig. 2 is a top plan view of the heater valve with the thermostat, FIG. 3 removed is a section along III-III of Fig. 2, Fig. 4 shows a section accordingly Fig. 1 with minimal opening of the flow bore, Fig. 5 again shows this Section with the flow bore closed and the bypass bore minimally open, Fig. 6 shows this section with the flow hole closed and maximally open Bypass hole.

In the following, the heating valve is described first.

It can be seen from Fig. 1, the inlet nozzle 11, where the flow stream enters and the continuation nozzle 1, from where the flow stream to the radiator got. You can also see the flow hole 5, where the flow pass through current got to.

This is blocked by the closure piece 4 made of rubber, which means a cap 3 is mounted on the axially movable spindle 30.

At right angles to the continuation nozzle and the insertion nozzle is, as can be seen from Fig. 2, formed on the valve housing 2 of the bypass connector 12, where the bypass line is connected, which goes directly into the return line leads.

The arrangement of the bypass connection 12 and the course of the bypass channel 9 can be seen from the section according to FIG. 3.

As can be seen from Fig. 1 and Fig. 3, is axially below the flow bore 5 the bypass hole 6 through which the water reaching the bypass connection 12 must flow through.

Below the bypass hole 6 is a recess on the valve housing 14 molded. The bypass hole 6 is closed by a pin 27 attached piston 8 with a sealing ring 7, which slide in the bypass bore can and thereby closes this. The recess 14 is used to accommodate the piston, when it has its lowest position, which is drawn on FIG.

The thermostat sits on the heating valve. To accommodate the same a connector 13 is formed on the valve housing. Inside is with its external thread 21, the upper valve part 20 is screwed in. This takes a spring sleeve 19 with it the opening spring 23, which has the task of having a constant on the spindle 30 Apply pressure in the opening direction by pressing against the spring plate 24 on the spindle presses. The seal between the spring sleeve and the upper part of the valve takes place at the bottom O-ring 18 and above by means of the stop ring 25 and another O-ring 26, which is received by a pressure piece 28.

The thermostat consists of attachment part 38, which by means of the nut 37 is screwed onto the valve bonnet.

The thermostat also includes the cap 41, which vessel 36 for the Receives thermal expansion medium, as well as the bellows 35, the spring sleeve 34 with the locking spring 42. The cap is used to set the setpoint for the regulation. To this end it is screwed into the top part with the thread 4Q, so that by turning its Elevation and thus the elevation of the vessel, bellows, etc. compared to attachment part 38 can be changed If the thermal expansion medium expands in the vessel 36, then the bellows 35 is compressed. The pressure is transmitted via the safety spring 42, which presses on the upper end of a coupling piece 31 connected to the spindle 30 is in a permanent connection. This way the spindle is going down pressed. If the volume of the thermal expansion medium decreases, the bellows will go upwards, and the spindle with the locking piece 4 follows through the pressure of the opening spring 23

If the closure piece sits on the edge of the flow bore, so this and thus the spindle can no longer go down. Expands When heated, the expansion medium continues to expand and the bellows pushes further downwards, the compensation takes place by compressing the safety spring 42.

The piston 8 is attached to the pin 27, which is longitudinally displaceable is mounted in the spindle 30. At the end of the pen is a guide head 33, which in turn is firmly attached to the spring sleeve 34. The leader 33 is located in a guide track 32 of the fixedly connected to the spindle Coupling piece 31.

As long as the locking piece is not seated, spindle and Pen a unit of movement, that is, they perform the same movements. The guide head 33 of the pin lies at the top in the guide track 32. However, sets the closure piece on and there is a further heating, so controls the pen and the piston nut automatically continues the influence of the heat expansion medium, by the pressure from the bellows via the spring sleeve on the guide head 33 and thus on the pen is transferred. The safety spring 42 is compressed in the process.

In the position as shown in FIG. 1, the through-flow bore 5 is open and the bypass bore 6 is closed by the piston 8. The forward flow goes over the - bohrting to the radiator. The opening of the 41- Ue ~ W «bore hole is maximum.

According to Fig. 4, the closure piece is only a small amount over the edge of the flow hole. This is largely throttled. The piston is at the bottom of the bypass hole. You can see that even with a small Closing movement of the piston exits the bypass hole below and provides access releases to the bypass connection.

Fig. 5 shows the position of the closure piece and piston when the The closed state of the flow bore has just been reached.

In any case, the bypass hole 6 is now open.

While the positions of Fig. 1, 4 and 5 are also rigid with a Can achieve connection between spindle and pin, you can adjust the position Fig. 6, where the bypass hole is opened to a greater extent, can only be reached through the special coupling between spindle and pin, as shown in the exemplary embodiment and described.

It can be seen from Fig. 6 that the safety spring 42 is compressed and the guide head 33 has come down in the guide track 32.

Claims (2)

Claims 1 1.) Heating valve with thermostat with an inlet connection and a continuation nozzle for connection to the flow line, one both nozzle connecting flow-through hole in the housing, a locking piece operated by a spindle, which closes the through-flow hole by touching it down or by moving back opens more or less, with the pressure being exerted by an opening spring The spindle is thermostatically controlled by a thermal expansion medium in a vessel above a Bellows and a safety spring, characterized by the following features: a) on the valve housing (2) there is also a bypass connection (12) for the connection molded onto a bypass line of the radiator, b) from the inlet nozzle (11) a bypass channel (9) leads via a bypass hole (6) to the bypass nozzle, wherein the bypass bore is axially below the flow bore (5), c) a die The spindle (30) extending pin (27) carries a piston (8) with a sealing ring (7), which moves together with the spindle and thereby in the bypass hole and shuts off the bypass channel, d) the closure piece (4) and piston (8) are so arranged to each other that the piston when the closure piece is placed on the hole or shortly before it below from the bypass hole exit and releases the bypass channel. 2. Heating valve according to claim 1, characterized in that on upper end of the pin (27) a guide head (33) is attached to one of the The spring sleeve (34) surrounding the safety spring (42) is attached and is longitudinally displaceable is mounted in a coupling piece (31) of the spindle and that the piston on the Pin, the guide head and the spring sleeve after the locking piece is seated is automatically thermally controlled.