GB2259758A

GB2259758A - Heat radiators

Info

Publication number: GB2259758A
Application number: GB9119824A
Authority: GB
Inventors: Alan Henry Howland
Original assignee: BLUE CIRCLE HEATING Ltd
Current assignee: BLUE CIRCLE HEATING Ltd
Priority date: 1991-09-17
Filing date: 1991-09-17
Publication date: 1993-03-24
Anticipated expiration: 2011-09-17
Also published as: EP0533454A1; GB2259758B; GB9119824D0

Description

1.

Heat Radiators This invention relates to heat radiators and more specifically to so-called low surface temperature heat radiators.

The surface temperature of standard central heating radiators can often be as high as 80 0 C. In everyday use this is not normally a problem. However, should a person fall unconscious on to such a radiator, or is unable to move away from it quickly, unpleasant burns can result, even after a relatively few seconds. In order to overcome this problem so-called low surface temperature radiators are being used. These consist of a normal central heating radiator encased within an enclosure which ideally also encases any exposed pipework and the radiator valve. By this means the temperature of the enclosure can be restricted, typically, to about 40 0 C maximum.

One disadvantage with such low surface temperature radiators is that they are only usable with remote adjustable type thermostatic valves.

It is an object of the present invention to provide a low surface temperature heat radiator having an integral thermostatic radiator valve.

According to the present invention there is provided a low surface temperature heat radiator comprising a heat emitter encased within an outer enclosure, said heat emitter comprising an adjustable valve for controlling fluid flow through said heat radiator and said enclosure having an adjustable thermostatic radiator valve thermal head mounted on it, coupling means being provided between said valve and said thermal head whereby said radiator valve is operated in dependence upon the temperature and setting of said thermal head.

2.

In a preferred arrangement according to the invention said coupling means comprises a pair of bellows elements interconnected by a flexible capillary tube, one of said bellows elements being associated with said thermal head and the other of said bellows elements being associated with said radiator valve, whereby operation of said thermal head causes said one of said bellows elements to be acted on, and corresponding action of said other bellows element causes said radiator valve to be acted on.

In carrying out the invention it may be arranged that said radiator valve comprises the valve body of a thermostatic radiator valve, in which case said radiator valve may be disposed at one end of said heat emitter, said thermal head being mounted on a corresponding end of said enclosure, or alternatively said radiator valve may be disposed at one end of said heat emitter, said thermal head being mounted on the opposite end of said enclosure. 20 An exemplary embodiment of the invention will now be described reference being made to the accompanying drawings, in which: Fig. 1 is a perspective view of a low surface temperature heat radiator in accordance with the present invention; Fig. 2 is a somewhat diagrammatic front crosssectional view of the heat radiator of Fig. 1; and Fig. 3 is a view of a thermostatic radiator valve coupling kit for use in the low surface temperature heat radiators of Figs. 1 and 2.

In Fig. 1 of the drawings there is shown a low surface temperature UST) heat radiator 1 which is normally wall mounted and is connected in a conventional hot water central heating system, the LST heat radiator 1 comprising an enclosure 2 and being 211 3.

connected to flow and return pipes 3 and 4 respectively. As has been mentioned hereinbefore, conventional LST radiators have only been usable with remote adjustable type thermostatic radiator valves which are not appropriate for many applications. In order to overcome this problem the LST heat radiator 1 of Fig. 1 has been fitted with a thermostatic radiator valve (M) extension kit, as shown in Fig. 3, which enables the valve head 5 of a conventional manually adjustable TRV to be mounted directly on the enclosure 2 of the LST radiator 1, the valve body of the TRV being mounted on the heat emitter in the usual way, as will hereinafter be explained.

In Fig. 2 of the drawings there is shown a front cross-sectional view of the LST heat radiator 1 of Fig. 1. The LST heat radiator 1 comprises a wall mounted heat emitter 6 which is contained within the enclosure 2 and which is connected to the flow and return pipes 3 and 4 respectively of a conventional hot water central heating system. The heat emitter 6 is connected to the flow pipe 3 by means of the valve body 7 of a conventional thermostatic radiator valve (M). The thermal head 5 of the TRV is mounted on the enclosure 2 of the LST heat radiator 1. The valve body 7 and the thermal head 5 are interconnected by means of an extension kit 8, shown in Fig. 3, which comprises a first bellows unit 9 which is mounted through a hole in the side of the enclosure 2 and on which the thermal head 5 is fitted, and a second bellows unit 10 which is mounted on the valve body 7 in place of the valve head 5, the first and second bellows units 9 and 10 being interconnected by a coiled capillary tube 11.

The provision of the extension kit 8 enables the thermal head 5 to be provided as an integral part of the LST heat radiator 1, and the need for a remote adjustable thermostatic radiator valve is obviated.

It will be appreciated that the thermal head 5 may be mounted at any convenient position on the enclosure 2 and may be at the same end as the valve body 7 as shown in Fig. 2, or it may be at the opposite end as shown in Fig. 1, the coiled capillary tube 11 being unwound as required. Conveniently, half-sheared blanking discs may be provided at both ends of the enclosure 2, and the appropriate blanking disc may be 10 removed to mount the thermal head 5.

1- b.

5.

Claims

1. A low surface temperature radiator comprising a heat emitter encased within an outer enclosure, said heat emitter comprising an adjustable valve for controlling fluid flow through said heat radiator, and said enclosure having an adjustable thermostatic radiator valve thermal head mounted on it, coupling means being provided between said valve and said thermal head whereby said radiator valve is operated in dependence upon the temperature and setting of the thermal head.

2. A heat radiator as claimed in claim 1, in which said coupling means comprises a pair of bellows elements interconnected by a flexible capillary tube, one of said bellows elements being associated with said thermal head and the other of said bellows elements being associated with said radiator valve, whereby operation of said thermal head causes said one of said bellows elements to be acted on, and corresponding action of said other bellows element causes said radiator valve to be acted on.

3. A heat radiator a claimed in claim 2, in which said radiator valve comprises the valve body of a thermostatic radiator valve. 25

4. A heat radiator as claimed in claim 2 or claim 3, in which said radiator valve is disposed at one end of said heat emitter, and said thermal head is mounted on a corresponding end of said enclosure.

5. A heat radiator as claimed in claim 2 or claim 3, in which said radiator valve is disposed at one end of said heat emitter, and said thermal head is mounted on the opposite end of said enclosure.

6. A low surface temperature heat radiator substantially as hereinbefore described with reference to the accompanying drawings.