SE508568C2 - throttle - Google Patents

Abstract

The present invention relates to a throttle device for regulating a flow of a flowing heating/cooling medium in a heating/cooling system or hot water circulation system on the basis of a system temperature calculated for the system and a nominal flow. The throttle device is integrally formed with a coupling part (1, 7) which can be joined by a liquid-tight connection to a flow element forming part of the system and which has a through duct (6) arranged in the direction of flow with a cross-sectional area controlling the size of the flow and with a length adapted to minimise the flow noise in a manner known in the art.

Description

508 568 10 15 20 25 30 35 with which it can replace the choke.

Because the choke is made of a homogeneous material, of a suitable type, the properties of the choke avoid changing aging, which can, for example, lead to leakage, and allow the choke to be used in systems with untreated water with temperatures exceeding 120 ° C and systems containing chemicals of various types, such as cooling systems containing glycol, which systems can have an adverse effect on the kind of elastic throttling parts, for example of gourmni, which are commonly found in known solutions.

When the length of the through-channel of the choke is suitably adapted, and by this being performed in a part formed integrally with the coupling part, the flow noises which can occur during turbulent flow are minimized, in particular since a choke thus mounted is rigidly attached to the system and thereby can not vibrational motions are imparted by the turbulent flow.

The design of the choke allows large final pressure drops in the system, so the need for stem control valves is eliminated.

Because the throttling is designed in such a way that turbulent flow is avoided, the throttling device can be mounted on an inlet side as well as an outlet side of a heating / cooling element, without increased risk of clogging.

The integrated design of the throttle with a coupling part allows the throttle to be applied at any position in the system and is not limited to use next to a heating / cooling element included in the system.

Finally, the inventive throttle can also be used for adjusting the fate in whole shunt groups and thereby replacing the valves commonly found in known solutions.

The invention will be explained in more detail below with the aid of an example of an embodiment of the present invention and with reference to the accompanying drawings in which: Fig. 1 shows in section a side view of a first embodiment of an invention according to throttling device for adjusting a flowing heat / cold medium in a heating / cooling system or hot water circulation system.

Fig. 2 shows in section a side view of an alternative embodiment of the inventive choke.

For identical or analogous details, the same reference numerals are used when describing all urer gures.

Fig. 1 shows in section a first embodiment of an inventive choke for adjusting a fate of a flowing heat / refrigerant in a heat cooling system or hot water circulation system, based on a system temperature calculated for the system and a nominal fate.

The choke is designed as a substantially cylindrical radiator nipple 1 commonly used in this type of system, which at its one end has an externally threaded portion 2 which is tightly connectable to a adjacent system component. The choke also has an annular projecting fl end 3 adjacent to a seat surface 4 at its other end. The flange 3 is arranged to carry the choke and allow it to be connected tightly to a further adjacent system component by means of a connecting nut ande having a corresponding seat surface and external thread, respectively.

The connecting nut has at its one end a flange 3 of the choke corresponding to inwardly directed fl than, which is arranged to carry the choke during assembly in the manner indicated above.

At the other end of the choke there is a central recess 5, having an internal hexagonal shape, in order to allow, during assembly, the choke to be subjected to a rotational movement by means of a key with a corresponding external hexagonal shape.

Centrally through the choke, a channel 6 passing through the direction of fate is arranged with a cross-sectional area of a size controlling the fate with a length adapted to minimize flow noise, in a manner known per se.

The choke is preferably made of brass or a material with corresponding characteristics.

Fig. 2 shows in section a second embodiment of a choke according to the invention. This throttling device is designed as an internally and externally threaded substantially cylindrical nipple 7 commonly used in this type of system, which at its one end has a first externally threaded portion 2, which is externally connected to a adjacent system component.

The choke has at its other end an internally threaded portion 8, which is arranged to allow the choke fl to be tightly connected to another adjacent system component.

An external hexagonal surface 9 is arranged around the internally threaded portion 8 of the choke, to allow the choke, by means of, for example, a wrench. a torsional movement is imparted during assembly.

Centrally through this embodiment of the choke, a channel 6 passing through in the direction of fate is arranged in the same way as for the choke according to fi g l.

When using a restrictor according to fi g 1 or fi g 2 for adjusting the fate of flowing heat / refrigerant in a heating / cooling system or hot water circulation system, the system is initially inspected. This can be done either with the help of relevant drawings thereof or if these are missing through an inventory of the system.

When the system has been inspected, a suitable fl fate is calculated for the desired power output and for the throttle required kV value to obtain this fl fate, after which a throttle with a suitable cross-sectional area of the through-channel through 6 is mounted ready to use.

It will be apparent to one skilled in the art that the invention is not limited to the embodiments described above, but may instead undergo modifications within the scope of the inventive concept defined in the appended claims. The choke can, for example, be made integrally formed with all coupling parts on the market.

Claims (1)

1. 0 15 508 see Patent Claim Throttle for adjusting a fl fate of a flowing heat / coolant in a heating / cooling system or hot water circulation system, based on a system temperature calculated for the system and a nominal fl fate, feel etc. due to the fact that the throttle is integrally formed with an unconnectably connectable coupling part (1, 7) included in the system, which has a continuous channel (6) arranged in the direction of fate with a diameter-controlling cross-sectional area and with a flow guide for minimizing flow. and per se known manner, adapted length. Throttle according to claim 1, characterized in that it is integrally formed with a coupling part in the form of a radiator nipple (1). Throttle according to claim 1, characterized in that it is integrally formed with a coupling part in the form of an internally and externally threaded nipple (7). Throttle according to one of the preceding claims, characterized in that it has kv values in the range 0.015-5.0.