SE438366B - SAFETY DEVICE FOR PROTECTION OF HEATING STRIP RESP CONSUMPTION PLACES - Google Patents

Description

10 15 20 25 30 35 40 7805878-1 2 required construction and assembly costs, removal seen from the triggering of the affected safety device taking into account the required spring forces of the accumulator the lator is already problematic.

Given the shortcomings of the known safety devices and disadvantages the present invention has for its object, to create one simple and at the same time very reliable, on the principle of fluids volume expansion based automatic safety device for diaphragm-controlled control valves. Above all, the goal or objectives the method of the present invention, to raise both the own safety against spring breakage, such as achieving constant functional values over a long period of time, and which also finally enables unlimited uses within the given operating conditions dimensions and pressures.

An automatic safety device designed according to the above criteria arrangement can, in a corresponding embodiment, provide large valve closing forces, which in any case are sufficient to secure the closing of a valve, as well as the corresponding large valve stroke.

This guarantees that, for example, in the event of malfunction or crime on the safety spring, the control diaphragm, the control lines, as well leakage of the integrated miniature valves, leakage in the hydraulic rauliska system for the temperature sensor and so on, despite this ensures that the device closes the diaphragm valve and i this position also hydraulically keeps the valve closed.

According to the invention, this is achieved by a closing branch branch line branchable from the pipeline is passable to one side of the control valve and from its other side to the the means for the shut-off means and that the control valve in the case of a plant or self-disturbance under the influence of an expansion liquid releases the fluid pressure existing before the blocking means the pipeline to the locking actuator actuator the locking means.

In one execution. corresponding to this inventive concept, the actuator comprises a for the normal safety function seen, per se known opening valve, a wide capillary tube rupture or leakage effective, per se known shut-off valve as well a setpoint, by which the working point - incipient pressure increase in the hydraulic system - is defined.

Another feature of the present invention is the drawn by the fact that the inputs to the control valve are open to 10 15 20 25 30 35 40 3 7805878-1 the pressure present in front of the adjusting means and the valve outputs are connected to the setting element in a mutual parallel connection.

The control surfaces of the control valves as well as the setpoint are according to another inventive feature hydraulically connected to the temperature sensor in parallel connection; shut-off valve guide surfaces are then designed substantially larger according to the invention than the opening valve.

According to another feature of the invention contains the actuator has several chambers, one of which communicates with the the temperature sensor and via diaphragm or the like in relation to the other pressure- and liquid-tight closed chambers for receiving expansion fluid, a second chamber being designed to counteract take mechanical means for setting the setpoint, a third respective additional chamber is provided for the opening respective shut-off valve Informed control valve.

The mechanical means in the second chamber consist in of the above-mentioned characteristic mainly of a can-like hollow body, a helical spring and a threaded shaft.

In its best embodiment, the proposed invention is characterized by finally also by the fact that it is used centrally in the helical spring orderly threaded shaft limits it when raising the temperature of the the dilating fluid emerging the kind of the hollow body on such that it faces away from the setting handle the threaded shaft with its front surface strikes the bottom of the interior of the hollow body.

With the proposed invention a number of advantages are obtained: The one with a control and / or shut-off valve via control devices connected to the safety device are both in question construction as its mode of action simple and effective. Simple- the construction. is evident from the relatively small number practically wear-free parts that are necessary for operation.

The efficiency of this device is shown on the one hand by it simple constructions and on the other hand through the perfection of the physical concept known per se, valve control by the expansion of liquids under thermal influence.

The accompanying drawing shows an embodiment of a device according to the invention. The figure then shows a vertical section through a safety device connected to a control valve.

Valve 1, which may be a control and / or shut-off 10 15 20 25 30 35 40 7805878-1 4 valve, is assembled with a diaphragm housing 2. Valve 1 and the diaphragm housing 2 is in operative connection with a control member 4 via control lines 3, Sa.

The guide member 4 consists of a pressure-resistant and on all sides closed house S. The interior of house S is divided into several chambers Sa, 5b, 5c. The chamber Sa, which by means of the membrane 6, 6a, 6b is pressure and liquid tight sealed, is filled with an expansion fluid.

This liquid is in turn via a capillary tube 7a in effective connection with a temperature sensor 7.

Chamber 5b accommodates mechanical means required for setting a setpoint: A pot-like hollow body 8 is included its half Ba concentrically arranged and controlled in it on the other hand correspondingly shaped part of the membrane 6b.-coaxially over it pot-shaped hollow body 8 is a helical spring 9 arranged as rests under prestress on the one hand against the hollow body 8 itself and on the other hand towards the interior of the house S. Centrically in the helical spring 9 is a threaded shaft 10 arranged which limits it blow "a" which occurs when the fluid expands inside the hollow body 8, with the side of it facing away from a setting handle 10a threaded shaft 10 is arranged to abut with its end face 10b the inner bottom 8b of the pot-shaped hollow body 8.

In the chamber 5c there are two spring-loaded control valves 11, 14 arranged with parallel but opposite function. Valves 11, 14 is then in direct active connection with guide surfaces 12, 13 of corresponding membrane 6, 6a. The guide surfaces 12 of the opening valve 11 is significantly smaller in its dimensions than the guide surface 13 on the valve 14, this to provide sufficient closing force for this valve.

During normal operation, the bottom 8b does not abut the hollow the body 8 against the end 10b of the threaded spindle 10. As a result of the prestressed spring 9 is maintained in the chamber Sa a hydraulic minimum pressure, which with the aid of the guide surface 13 always holds shut-off valve 14 closed. However, the pressure is not enough to open the opening valve 11 by means of the guide surface 12 towards the shut-off spring 15.

If the guide surface 8b of the hollow body 8 abuts against the end surface 10b of the threaded shaft 10 and the temperature rises at sensor 7 a certain amount, for example 1 ° C, then arises through the volume increase of the expansion fluid a steep increase in pressure inside hydraulic system. In this case, the opening valve 11 opens, in order to i 10 15 20 25 5 7805878-1 this position release control pressure from the main valve 1 via the control channels Sa, 3, to the underside of the diaphragm drive 2. The diaphragm valve Z more thus with the force from the membrane surface 17 times the control pressure ( pressure) to close the valve 1 and to keep it closed, since the control pressure on the engaged diaphragm gear 2 can no longer avoided. In this way, the main valve 1 is hydraulically locked.

Releasing is only possible when the control pressure in the event of falling sensing temperature is manually released by means of the aeration valve 18, which otherwise meets the requirements according to DIN 3440.

The shut-off valve 14 is kept under these operating conditions firmly closed. It comes into operation, when due to leakage respectively breakage of control lines or capillary tubes the hydraulic the pressure in the chamber 5 drops. The opening spring 16 thereby fixes the pressure height for opening the shut-off valve. When this condition enters again, control pressure from the main valve 1 will again is given via the cone of the closing valve 14 against the diaphragm drive 2, so that the drive closes the valve 1 and locks it hydraulically.

Should a breakage of the spring 15 occur, the associated one opens valve 11 immediately, so that valve 1 in the manner described above bar is closed. Should the spring 9 in the setpoint adjuster break, if the system pressure of the expansion fluid in chamber Sa collapses, and the closing valve 14 opens its valve cone, wherein in this In this case, control pressure is also applied to close the valve 1 through the fire demolition 2.

If in any other disturbance case the control valves 11, 14 do not is sealing, similarly follows closing of the main valve 1. The the thermostatic safety device is completely in case of disturbance self-monitoring.

Claims (8)

7805878-1 M P a t e n t k r a v Safety device for protection of heat-generating or consumption systems for impermissibly high temperatures with a temperature sensor for closing a shut-off device arranged in a fluid-carrying pipeline with an operating means by means of the fluid pressure before the shut-off means via a control means with at least one control valve that a closing fluid branch line (Sa, 3) branchable from the pipeline is passable to one side of the control valve (11, 14) and from its other side to the operating means (2, 17) for the shut-off means (1), and that the control valve (11, 14) in In the event of a system or self-disturbance under the influence of an expansion liquid, the fluid pressure existing before the blocking means (1) releases the pipeline to the control means (2, 17) for the blocking means (1), in order to lock the blocking means (1). Safety device according to Claim 1, characterized in that the control means (4) comprises an operating control valve (11) operating the normal safety function, known per se as an opening valve, a constant in the event of a breach of the control line or leakage, respectively. known method as a shut-off valve operating control valve (14), as well as a setpoint setting (8, 9, 10), by means of which the working pump - incipient pressure rise in the hydraulic system - is defined. Safety device according to Claim 2, characterized in that the inlets of the control valve (11, 14) are open to the pressure present in front of the adjusting means (1) and that the outlets of the valve (11, 14) are connected to the adjusting element (Z). in a mutual parallel connection. Safety device according to Claim 2, characterized in that the control surfaces of the control valves (11, 14) as well as the setpoint switch (8, 9, 10) are hydraulically connected to the temperature sensor (7) in parallel. Safety device according to Claim 2, characterized in that the guide surfaces of the control valve (14) acting as a closing valve are formed substantially larger than the control valve (11) acting as an opening valve. in Safety device according to Claims 1 and 2, characterized in that the actuator (4) contains several chambers (Sa, Sb, 5c), one of which (Sa) is in communication with the temperature sensor (7) and via membranes or the like (6, óa, Gb) with the second pressure- and liquid-tight shut-off chambers (Sb, Sc), which contain expansion liquid, the second chamber (Sb) being designed to contain mechanical means (8, 9, 10) for setting the setpoint, the third and any additional chambers (5c) being arranged to contain the control valve designed as the opening and closing valve (11, 14), respectively. Safety device according to claim 6, characterized in that the mechanical means mainly consist of a hollow body (8), a helical spring (9) and a threaded shaft (10). Safety device according to Claims 6 and 7, characterized in that the threaded shaft (10) arranged centrally in the helical spring (9) limits the movement of the hollow body (8) which occurs when the expansion fluid increases with temperature in such a way that the end of the threaded shaft (10) facing away from an adjusting handle (10a) with its front surface (10b) abuts against the bottom (Sb) in the interior of the hollow body (8).