DE2339099A1 - Differential pressure switch - for controlling heating of fluids, measures pressure drop of flowing fluid - Google Patents

Abstract

The technique is suitable for controlling the heating applied to flowing fluids, and hence the viscosity of these fluids. The pressure exerted by the flowing fluid is compared with a known pressure and accordingly the heating element is switched 'ON' or 'OFF'. Pressure comparison is made by connecting a rod between a chamber, containing the known pressure, and a second-chamber where the fluid to be measured is contained. The rod is allowed to move, and it will therefore adjust itself by moving axially so that the force exerted at each end of the rod will be equal. The rod controls the heating switch, to which it is coupled directly.

Description

STfEBEL ELTRON GmbH & Co. KG
3450 Holzminden / Weser

ZE 6 - file 9iH

Differential pressure switch for electrically heated instantaneous water heaters

The invention relates to a differential pressure switch for switching the energy supply as a function of the liquid flow rate in the case of electrically heated instantaneous water heaters with a housing in which, using a.o. one in the liquid line upstream or downstream of the heater and one held in the housing and this separating lifting diaphragm firmly connected to the switching linkage when the liquid flows through (tapping operation) there is one chamber each with lower and higher pressure.

Such differential pressure switches have derivatives from the narrowest nozzle cross-section as well as from the one upstream of the nozzle Performance range. One of the discharge lines leads into a chamber of the mentioned housing, so that the venturi nozzle Relatively low static pressure generated in a known manner as a function of the flow rate compared to the original, higher pressure (in front of the nozzle) in the housing and the respective differential pressure is in continuous motion affects the membrane together with the shift linkage and thus serves a respective electrical power connection that of the corresponding one Flow rate is fair.

509807/0976

They are differential pressure switches that act as low-liquid safeguards known that a pressure drop causing cross-sectional change in the flow area, in the form of an annular gap, in one of two chambers of a housing to use a differential pressure on one of the housing in said two Membrane separating chambers. So there is such a design with a perforated membrane, with water supply and -Discharge lie in one chamber and the flow is passed through said annular gap design, causing the pressure drop Resistance is greater than when water is passed through the perforated membrane into the other, thus relatively higher to the room Pressurizing chamber. As a result, the membrane, together with its shift linkage, moves against spring force, whereby it, there firmly connected to part of the annular gap construction, also has a regulating effect on the amount of liquid.

Differential pressure switches of the type just described now work rather sluggishly. They are particularly sensitive to the operation of very disruptive pressure surges and no longer work precisely at higher flow pressures, since the impact effect caused by the construction is then strongly noticeable. They do not provide the switching options that electrical water heaters require with the greater mechanical switching forces required there. Therefore one used generally for '■ such electric water heater at the outset differential pressure switch mentioned.

509807/0976

The invention is based on the object of the type mentioned at the outset, which is equipped with a Venturi nozzle or the like Differential pressure switch to improve structurally in such a way that you - as from the first two paragraphs this description is apparent - rather complex and thus more expensive structure is simplified. The new switch should consist of fewer and simpler parts and bring considerable ease of assembly and space savings while maintaining or even improving its switching behavior.

According to the invention, the object set is thereby satisfactory solved that the Venturi nozzle along the axis of the corresponding centrally perforated lifting membrane-together with this freely movable - attached and arranged so that between its outer wall and the inner wall of the housing The low-pressure chamber is designed concentrically, in which a nozzle cross-section which is narrowest in the region is attached in the nozzle The transverse bore opens out, while the one on the other side of the membrane is attached concentrically to the low-pressure chamber other chamber connected directly to the liquid inlet and the nozzle outlet opening opens directly and concentrically into the liquid drain.

A further development of the invention provides that, instead of the lifting diaphragm, an under the influence of the differential pressure in the housing

509807/0976

sealed against this liquid-tight - sliding

Piston disk, with attached in the same way

central hole and attached and arranged thereon Venturi nozzle is provided.

This means that, for example, cheaper plastic can be used because of its constant bending stress increased wear-prone membrane omitted. As long as there is no tapping, and thus no liquid flow occurs, the piston disc is held in its upper position by the return spring of the shift linkage, or, after a advantageous inventive idea, by acting on the side of the piston disk facing the low-pressure chamber Return spring designed as a helical compression spring in the low pressure chamber.

Piston disk and Venturi nozzle can together form a single plastic component, with the Sealing against the housing by means of sealing lips which are in contact with the housing under water pressure and are molded onto the piston disk can be done.

According to the invention, however, the seal against the housing can can also be carried out in a manner known per se by means of an O-ring, or also advantageously by means of a flexible, in the longitudinal axis direction of the piston disk and the venturi nozzle expandable corrugated tube between the piston disk and housing.

509807/0976

According to a training according to the invention, it is finally provided

that the outer wall with the lifting diaphragm or piston disk together moving and thereby in an opening of the housing of the chamber to Liquid outlet sliding Venturi nozzle in this opening liquid-tight - for example by means of an O-ring or sealing tab - is sealed.

In many cases, this seal is suitable for promoting the development of the differential pressure, although it is a function of the switch This is also ensured when the gap - of course not too large - between the outer wall of the nozzle and the wall of the chamber housing opening is not properly sealed against liquid.

In the simplified, partially schematic drawings are exemplary embodiments of the invention, especially the space-saving and simple construction of the subject matter of the invention becomes visible.

Figure 1 shows a differential pressure switch according to the invention in longitudinal section.

Figure 2 shows a variant of the invention

Differential pressure switch, also in (schematic) longitudinal section.

Figure 3

and show details of the seal.

Figure 4

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In FIG. 1, the Venturi nozzle 1 is axially aligned on the centrally perforated lifting diaphragm 2 - and thus movably attached together with it. The low-pressure chamber 3 is created concentrically between its outer wall and the inner wall of the housing. The complete housing with connection piece 4 (inlet) and 5 (outlet) is, for example, in the cold water line of an electrically heated instantaneous water heater used.

If water is drawn off, the water flows through nozzle 4, chamber 6, perforation 7 and nozzle 1 (ARROW DIRECTION A) a. Connection 5 leads to the water heater. The same in both chambers 3,6 of the housing originally in the idle state Static pressure conditions of the water now change in the flow state. The static pressure of the water is known (in Way caused by the nozzle 1) in and behind the nozzle is much smaller and thus divides over the transverse bore 8 the nozzle of said lower, therefore so-called low-pressure chamber 3 with, where it is now over the membrane 2 to the relative higher static pressure in the upper chamber (high pressure chamber 6) - about supply pressure minus the flow pressure there - opposes, so that membrane 2 together with switching rod 9 (and nozzle 1) must also move in the direction of arrow A downwards. It is therefore found in the electromechanical switching mechanism (not shown) arranged in continuation of the switching rod 9, the connection of heating energy instead of. By the way, FIG. 1 shows the lowest possible position of the membrane, which is the largest planned flow rate and the highest switched on heating output corresponds. Reduction or closure of the tap cross-section by means of the tap valve behind the flow heater cause an analogous reduction or equalization of the static Press in both chambers 3, 6 and move the membrane 2 upwards with a switch-off effect.

509807/0976

The switch according to FIG. 2 functions in a completely analogous manner, but in contrast to FIG. 1 it is shown in the ¹¹ OFF "position of the flow heater (the piston disk 10 provided here instead of the membrane 2 at the top) 10 and Venturi nozzle 1 here form a single part made of plastic.

In Figure 2, return springs 11, 12 are shown both on the switching chamber 9 and in the, low-pressure chamber. the The shift rod is firmly connected to the piston disk 10 via a perforated cover 13. At 14, the absolutely necessary the O-ring seal separating the two chambers 3a, 6a. This seal can also, as in Figure 3, by means of molded Sealing lips 10a, sealing under water pressure P, or by means of an expandable corrugated pipe 15 (FIG. 4).

In Figure 2 is by the way - in contrast to all other figures too a regular seal 16 of the gap 17 between the nozzle outer wall and the wall of the chamber housing opening for the Nozzle provided.

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Claims (8)

Claims Differential pressure switch, for switching the energy supply depending on the liquid flow rate electrically heated instantaneous water heaters, with a housing in which, among other things, one in the liquid line the heater upstream or downstream Venturi nozzle as well as a fixed in the housing and separating this with The lifting diaphragm, which is firmly connected to the switching linkage, lower one chamber each during liquid flow (tapping operation) and higher pressure arises, characterized in that the Venturi nozzle (1) coaxially on the corresponding centrally perforated lifting diaphragm (2) - freely movable together with this - Is attached and arranged so that between its outer wall and the inner wall of the housing is concentric the low-pressure chamber (3) is formed, in which a nozzle cross-section in the region of the narrowest area is attached in the nozzle (1) Transverse bore (8) opens, while the one on the other side of the membrane, in turn concentric to the low-pressure chamber (3) attached other chamber (6) is directly connected to the liquid inlet (4) and the nozzle outlet opening directly and concentrically opens into the liquid drain (5). 2. Differential pressure switch according to claim 1, characterized in that instead of the lifting diaphragm (2) one below Influence of the differential pressure in the housing - sealed against this liquid-tight - sliding piston disc CQ, with in in the same way a central perforation (7) and attached and arranged Venturi nozzle (11) is provided therein. 509807/0976 3. Differential pressure switch according to claim 2, characterized by one of the, the low pressure chamber facing side of the piston disc engaging, designed as a helical compression spring return spring (12) in the Low pressure chamber. 4. Differential pressure switch according to claim 2 or 3, characterized in that »that the piston disc (10) and Venturi nozzle (1) form a unitary plastic component that is molded together. 5. Differential pressure switch according to claim 2, characterized in that the seal against the Housing by means of sealing lips that are in contact with this under water pressure and are molded onto the piston disk (10) (10a) takes place. 6. Differential pressure switch according to one of claims 2 to 4, characterized in that the seal takes place against the housing in a manner known per se by means of an O-ring (14). 7. Differential pressure switch according to one of claims 2 to 4, characterized in that the seal against the housing by means of a flexible, stretchable in the longitudinal axis direction of the piston disk and the Venturi nozzle Corrugated tube (15) takes place between the piston disk and the housing wall. 509807/0976 - ίο - 8. Differential pressure switch according to one of claims 1 to 7, characterized in that the outer wall of the moving diaphragm (2) or piston disk (10) moving together and while in an opening of the housing of the chamber (3, 3a) to the liquid drain (5) sliding Venturi nozzle (1) is sealed in a liquid-tight manner in this opening - for example by means of an O-ring (16) or sealing lips. 509807/0976