DE1886670U - RADIATOR CONTROL. - Google Patents

Description

PA-U10W7G -5,10.63

Pall 1320

Patent attorney. 1 66

Or. Ing. Alfred Schulze

ßariin-Wllmersäort
Jenaer Strasse 14

IA Ή DIS & GYR AG, ZUG- (Switzerland)

Radiator regulator

The invention relates to a. Radiator regulator with axially movable Vent5.1 plate, which under the action of a steam pressure sensor on the one hand and on the other hand, an adjusting spring is standing, the tension of which is through an adjusting element is variably adjustable »

The underlying objects of the invention are such known ones To make radiator regulators independent of water temperature, static pressure and pump pressure, and to simplify their manufacture. Furthermore, the radiator controller to be created should be easy to read, adjustable and designed to be shapely,

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The radiator regulator is characterized by the fact that the vapor pressure * sensor is formed by a thin-walled, poorly conductive tube and has a movable wall that is directly connected to the heating water and has the same effective cross-section as the valve disc and that a movable sealing member is also provided between the valve disk and the adjusting spring, which is also has the same effective cross section as the valve disk.

The thin-walled sensor tube protrudes into the room air sucked in by the updraft of the radiator and contains only a small amount of liquid, so that even without cooling fins, pipe constrictions (capillaries) or special insulation materials the vapor pressure in the sensor is determined by the air temperature at the end of the sensor and by the The heating water temperature is practically not influenced.

A further embodiment of the invention results from the subclaims. In the drawing and its description are two embodiments a ladiai © dragiere with details, for example explained »

It showj

1 shows a radiator regulator in view, partly in section,

Fig, 2 the radiator regulator in plan view _t Fig. 3 is an enlarged detail of the Ig ^ ^1, 1> Fig. 4 shows a mounting of the radiator controller to a wheel loader, and Fig. 5 shows another embodiment of a radiator regulator in the cutout,

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The rod-shaped radiator regulator has a housing 1 with the inlet and outlet nozzles 2,3 for the heating water to be regulated. Pie Nozzles 2, 3 are at right angles to each other. In the bottom of the housing 1, a rod-shaped vapor pressure sensor 4 is screwed in a sealing manner. The sensor 4 consists of a thin-walled * poorly conducting pipe 5 * in the lower end of which there is a small Amount of liquid with high vapor pressure, e.g. propane, freon, chloromethyl, Isobutane. There is a threaded bushing at the upper end of the pipe 6, in the cylindrical recess 7 of which there is a movable wall 8 designed as a bellows. The movable one Wall 8 is attached to the sleeve 6 so that the upper end of the tube 5 is closed by the movable wall 8. The Ge ^ Thread socket 6 has a hole closed by a pin 9 through which the small amount of liquid can be introduced into the tube 5 (Fig. 1), The vapor space 10 of the vapor pressure sensor is separated by the movable wall 8 from the space 11 in which the heating water flows (Fig. 1,3),

A plunger 12 is axially displaceable within the housing 1 (Fig, 1). The latter has a valve disk 13, which together with the - ^ ichtkante 14 the respective size of the flow opening certainly. One end of the plunger 12 lies on the movable one Wall 8 and the other end presses on a spring plate 15 (Fig. 1), Furthermore, the plunger 12 carries a sealing member, which is shown in the drawing Variant FIG. T is designed as a piston with a sealing ring 16. This sealing member has the same effective one

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Cross-section, like the valve disk 13 and the movable wall 8, so άΒΒΘ each other, the forces resulting from the pressure of the ^{heating water 1 cancel each other, ■}

In FIG. 5, the sealing member is between the valve disk 13 (or the tappet 17) and adjusting spring 18 (or spring plate 19) a resilient one Element 32.,

On the housing. 1, a hood 20 is attached by means of a pin 21 (FIG. 1). Inside the hood 20 there is an adjusting spring 18 which is supported on the spring plates 15 and 22 »The spring plate 22 is in a slot 23 of the hood 20 guided axially displaceably. The spring plate 22 is seated with a thread on a threaded spindle 24. The latter is by means of a screw 25 on a hood-shaped adjusting member 26 attached. On the threaded spindle 24 and on the setting element 26 are interlocking gears 2? to adjust the The spindle 24 is arranged opposite the organ 26 (FIG. 1). the latter has a slope 28 on which the "numerical values 6-24 are plotted are (Fig, 1, 2). The sense it e of the adjusting member 26 is with Index lines 29 provided. On the hood 20, an adjusting ring 30 is attached, which carries an index mark 31 for comparison the index marks 29.

The index mark 31 (Fig. 2) is at an angle of 135 ° to the Axes of the inlet and outlet nozzles 2, 3 * In Fig. 4 it is shown how dea? Radiator controller can be attached to a radiator, Ee can be attached to the radiator on both sides and is located either in the * position 33 or in position 34, the lower one

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The end of the tube 5 is about 150-200 mm below the top edge of the Radiators.

As the pressure in the steam chamber 10 increases, the plunger 12 with the valve disk becomes 13 moves against the force of the adjusting spring 18 into the closed position. By turning the adjusting member 26, the spring plate 22 is screwed, and the adjusting spring 18 is pretensioned is changed, for. The setting unit can calibrate the radiator controller 26 are rotated relative to the spindle 24 by means of the teeth 27

When the adjustment member 26 is rotated, it becomes opposite to the housing 1 not screwed out or in. The radiator controller has only a few, simple components, by avoiding the numerous Aehsdausführung with sealing packages of known radiator regulators, the radiator regulator in question has a low risk of leakage and low friction. In an embodiment according to FIG. 5, there is at all no axis feed-through with power package necessary. By doing that the evaporating liquid in tube 5 about 150-200 mm below the Radiator upper edge is located and the thin-walled pipe is a bad one Has thermal conductivity, the vapor pressure sensor 4 is only influenced by the room temperature. The heating water temperature is therefore not available without taking special insulation measures Disturbance.

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'' The HadiatorregleE can be operated without dismantling the steam rack sensor 4
be mounted on both sides of the radiator (Fig, 4). For this purpose, the nozzles 2, 3 each serve once as inlet and outlet nozzles. The index mark 31 "always remains clearly visible in both types of use. ■ - ■ ■;

The main advantage of the described "Eadiator Regulator" is that it
despite its simplicity, is practically independent of the heating water temperature, static pressure and pump pressure.

i-

20.9.65 / Br.Sohei / OM / ut ./.

Claims (1)

PA * 1.044 76 -510.63 -7- 1320 B £: IE 1 Ϊ-Ι A ISPRUECHE 1, radiator regulator with axially displaceable valve plate, which is under the effect of a steam pressure sensor on the one hand and an adjusting spring on the other, the tension of which can be changed by an adjusting element is adjustable, characterized in that the steam pressure sensor is formed by a thin-walled, poorly conductive pipe and has a movable wall that connects directly to the heating water and has the same effective cross-section as the valve disc and that further a movable sealing member between the Valve plate and the adjustment spring is provided, which is also has the same effective cross section as the valve disk. 2, radiator regulator according to claim 1, characterized in that the movable sealing member is formed by a piston with a sealing ring (16). 3, radiator regulator according to claim 1, characterized in that the movable sealing member is formed by a resilient element ($ 2) i - 8 - 132. , 4 «Radiator regulator according to claim 1, characterized in that which is arranged within a hood (20) fixed to the housing, as An adjusting spring (18) designed as a helical compression spring rests on a spring plate (22) which can be moved axially to the helical spring (18), and that the spring plate (22) is guided for axial displacement on a threaded spindle (24) which is attached to a hood-shaped adjusting member (26) is adjustable, 5 «Radiator regulator according to claim 1, characterized in that the inlet and outlet nozzles (2, 3) for the liquid to be regulated are at right angles to each other, and that an index mark (31) fixed to the housing for those arranged on the setting element (26) different values of the spring tension at an angle of 135 ° to the inlet and outlet nozzles is available * VvAAA / VWVVWV 20.9.63 / Dr. Schei / CM / ut