DE102010047089A1 - radiator - Google Patents

Abstract

In a radiator (2), which is flowed through by a heat transfer medium and via heating elements (3, 4) heat to the ambient air, at least two heating elements (3, 4) are arranged one above the other and between the heating elements (3, 4) is a guide (10) arranged, which passes from the lower heating element (4) heated air on the overlying heating element (3) over. At the upper heating element (3) a baffle (10 a) is provided which extends from the lower edge of the rear wall (6) obliquely down to the wall (12).

Description

The invention relates to a radiator, which is flowed through by a heat carrier and emits heat via heating elements to the ambient air, wherein at least two heating elements are arranged one above the other and between the heating elements, a guide is arranged, which passes from the lower heating element heated air on the overlying heating element passes.

Such radiators are z. B. from the DE 395 276 C are known, are often used for heating rooms and are connected to a water cycle, in which heated water serves as a heat transfer medium. The hot water releases its heat as it flows through the radiator in the form of radiant heat and convective heat to the environment. After flowing through the radiator, the water has a lower temperature and is heated with a heater back to a desired flow temperature, with which it is returned to the radiator.

The lower the flow temperature, the greater the heating surface of the radiator must be to provide a certain heat output. Since recent efforts to heat with lower flow temperatures, since in this way not only with z. B. heat generated with heat pumps can be used more effectively, but also heat losses during transport of the heat carrier can be reduced from the heater to the radiator, as mentioned above, either the heating surface of the radiator increases or their heating capacity can be improved.

Since an increase in the heating surface for aesthetic and / or technical reasons are often limited, the invention is therefore based on the object to improve the heating power of radiators.

This problem is solved in a radiator of the type mentioned above in that a baffle is provided on the upper heating element, which extends from the lower edge of the rear wall obliquely down to the wall.

In general, a large part of the heating power of a radiator is generated by convection heat, the room air rises from bottom to top through the radiator, is heated by Konvektorbleche, fins or the like and leaves the radiator at its upper side in the heated state. The flow resistance for the room air in the interior of the radiator is greater, the more Konvektorbleche, fins or the like are installed, which should actually improve an improvement of the heat transfer of the heat carrier to the room air.

In the invention, therefore, the way is taken, instead of a single conventional radiator two (or possibly more) heating elements to be stacked, which for example each height or slightly less than half the height (or one of the number of heating elements corresponding fraction of Height) of a conventional radiator, wherein between the two heating elements, a guide is arranged, which passes the heated air from the lower heating air at the upper heating element over. At the same time, the upper heating element, largely uninfluenced by the lower heating element, flows separately from room air to be heated, and subsequently flows through it. It has been found that a higher heating power can be achieved with an equal heating surface or front surface of the radiator according to the invention compared to a conventional radiator. This makes it possible either to achieve a higher heat output at the same flow temperature or to use a lower flow temperature with the same heating power can.

A preferred embodiment of the invention is characterized in that the heating elements have a front wall and a wall facing a rear wall and that the guide directs the ascending air from the lower heating element to the front wall of the heating element arranged above. In this way, the heated air from the lower heating element is passed directly into the room and the upper heating element supplied air, the z. B. is supplied through the space between the wall and the lower heating element.

In the invention, it is further preferred if the guide leads from the rear wall of the lower heating element to the front wall of the heating element arranged above it. In this way, a complete separation of the guided through the heating air streams is possible.

Since the air streams are passed with the guide on each above or below the heating element over, superimposed heating elements must be separated by a gap. This gap should be as small as possible, since the space provided for heating purposes can not or only to a small extent can be used. On the other hand, this gap should not be so small that it obstructs the air flow unnecessarily.

One of these two needs satisfying compromise is inventively achieved in that the distance between the heating elements that 0.5 to 1.5 times the depth of the heating elements. Particularly preferred is in the invention, when the distance between the heating elements is about the same size as the depth of the heating elements.

The heating element according to the invention can then be heated particularly effectively when the heating elements are fed in parallel via supply lines. A disadvantage of conventional radiators is that the heat transfer medium, which usually flows through the radiator from top to bottom, visibly cools toward the bottom of the radiator, so that only a slight heating of the room air can take place there. However, if according to the invention superimposed heating elements are fed in parallel, ie with the same flow temperature, the adverse effect of cooling the heat carrier in the lower portion of the radiator is not present, which further improves the heating performance of the radiator of the invention.

Further preferred embodiments of the invention are the subject of the remaining dependent claims.

Further features and advantages of the invention will become apparent from the following description of preferred embodiments of the invention with reference to the drawings. It shows:

1 a conventional radiator of the prior art,

2 the radiator of 1 of the page,

3 a first embodiment of a radiator from the front,

4 the radiator of 3 of the page,

5 another embodiment of a conventional prior art radiator from the side,

6 a further embodiment of a radiator according to the invention from the side,

7 a third embodiment of a radiator from the side,

8th a fourth embodiment of a radiator from the side,

9 a fifth embodiment of a radiator from the side and

10 a sixth embodiment of a radiator from the side.

In 1 and 2 is a conventional radiator 1 shown having a height BH, a length BL and a depth BT. The radiator 1 has a uniform structure over its entire height BH. The front surface of the radiator 1 is BH × BL.

In the 3 and 4 is by comparison a radiator 2 shown, which is an upper heating element 3 and a lower heating element 4 having. Every heating element 3 . 4 can build a conventional radiator for itself 1 exhibit. In the illustrated embodiment, the height is BH each heating element 3 . 4 half the height of the conventional radiator 1 , The two heating elements 3 . 4 are separated by the distance X, so that the entire height of the radiator 2 in the illustrated embodiment, 2 × BH + X is. Of course, the entire height of the radiator according to the invention could 2 from 3 and 4 also exactly the height BH of the conventional radiator 1 have, wherein the height of the individual heating elements 3 . 4 then BH / 2 - X / 2 would have to.

At the in 5 and 6 illustrated embodiments of a conventional radiator 1 ( 5 ) and a radiator according to the invention 2 ( 6 ) are on a front wall 5 and a back wall 6 slats 7 . 8th made of sheet steel. Because the front wall 5 and the back wall 6 As is known from top to bottom flowed through by hot water, the fins are 7 . 8th from the walls 5 . 6 and the room air from the walls 5 . 6 and the slats 7 . 8th heated.

The two heating elements 3 . 4 are spaced apart by the distance X, wherein in this space or gap 9 a guide 10 is installed, which has the form of a baffle in the illustrated embodiment. The baffle 10 leads from the top of the back wall 6 of the lower heating element 4 to the lower edge of the front wall 5 of the upper heating element 3 , In this way, by the lower heating element 4 rising, heated air from the baffle 10 in front of the upper heating element 3 and can ascend unhindered there. Above the baffle 10 can air from below into the upper heating element 3 enter and ascend in this while being warmed up. The the upper heating element 3 supplied room air rises in a gap 11 between the back wall 6 and a wall 12 on, on which the radiator according to the invention 2 or its heating elements 3 and 4 are fastened in a manner not shown, and is there by the outer surface of the rear wall 6 and partly through the wall 12 preheated. This has the advantage of less heat in the wall 12 which is lost to the outside in this area rather than being used for space heating.

To control the flow of air through the upper heating element 3 to reinforce is at the upper heating element 3 an additional baffle 10a provided, extending from the lower edge of the rear wall 6 diagonally down to the wall 12 extends so that the between the rear wall 6 of the lower heating element 3 and the wall 12 rising air directly into the interior of the upper heating element 3 is directed.

Although the height BH of the conventional radiator 1 and the sum of the heights BH / 2 of the two heating elements 3 and 4 in 5 and 6 is the same size, it has been shown that the heating power of the radiator according to the invention 2 larger than that of the conventional radiator 1 ,

In 7 is an embodiment of a radiator according to the invention 2 shown which of the embodiment of 6 corresponds, but in addition in the upper and lower part of the heating elements 3 and 4 fans 13 . 14 indicates the flow rate of the room air through the heating elements 3 and 4 and thus to increase the heating power. If both top and bottom fans 13 . 14 are installed, it is advisable to arrange them offset in the vertical direction to each other, so that the flow of the respective fans 13 . 14 not from the other fans 13 . 14 is hampered.

In 8th a further, similar embodiment of a radiator according to the invention is shown, in which in the lower region of the heating elements 3 and 4 Cross-flow fan 15 are installed, which also the flow rate of the room air through the heating elements 3 and 4 and thus increase the heating power.

In 9 is an alternative embodiment of a radiator according to the invention 2 shown in place of the slats 7 . 8th heat exchangers 16 are installed, which are flowed through in a known manner on the one hand by the heat transfer medium and on the other hand by the room air. To increase the convection speed fans can also here again 13 . 14 or cross-flow fan 15 be installed.

In 10 an embodiment of an invention is shown, which is substantially the embodiment of 9 corresponds, but with the front wall 5 around an axis 17 located in the area of the lower edge of the heating elements 3 . 4 or the respective front wall 5 is arranged, is pivotable about 90 ° downwards. In this way is the interior of the heating elements 3 . 4 easier to access for service or maintenance.

The heating elements according to the invention 3 . 4 can be like conventional radiators 1 flow through from top to bottom of the heat carrier and each have a connection 18 for an inlet and a connection 19 for an expiry. Preferably, a common supply line (not shown in the drawings) up to a valve 20 provided, which can be opened by hand or automatically and closed or regulated. After the valve 20 divides the common supply line into two lines, one of which is for connection 18 of the respective heating element 3 . 4 leads. In this way, both heating elements are heated equally strong by the heat transfer medium. The to the connections 19 connected derivatives are ideally combined again to form a common line.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 395276 C [0002]

Claims (12)

Radiator ( 2 ), which is flowed through by a heat transfer medium and via heating elements ( 3 . 4 ) Dissipates heat to the ambient air, wherein at least two heating elements ( 3 . 4 ) are arranged one above the other and between the heating elements ( 3 . 4 ) a guiding device ( 10 ) is arranged, which of the lower heating element ( 4 ) heated air at the overlying heating element ( 3 ) passes, characterized in that at the upper heating element ( 3 ) a baffle ( 10a ), which extends from the lower edge of the rear wall ( 6 ) diagonally down to the wall ( 12 ) extends. Radiator according to claim 1, characterized in that the heating elements ( 3 . 4 ) a front wall ( 5 ) and one to a wall ( 12 ) facing back wall ( 6 ) and that the guiding device ( 10 ) from the lower heating element ( 4 ) ascending air to the front wall ( 5 ) of the overlying heating element ( 3 ). Radiator according to claim 1 or 2, characterized in that the guide ( 10 ) from the back wall ( 6 ) of the lower heating element ( 4 ) to the front wall ( 5 ) of the overlying heating element ( 3 ) leads. Radiator according to one of claims 1 to 3, characterized in that at the top and / or the bottom of the heating elements ( 3 . 4 ) at least one fan ( 13 . 14 ) or cross-flow fan ( 15 ) is arranged. Radiator according to one of claims 1 to 4, characterized in that on the front wall ( 5 ) and / or the back wall ( 6 ) at least one heating element ( 3 . 4 ) Lamellae ( 7 . 8th ) are arranged, and that the heating elements ( 3 . 4 ) are traversed from top to bottom through channels from the medium. Radiator according to one of claims 1 to 5, characterized in that in at least one heating element ( 3 . 4 ) a heat exchanger ( 16 ) is arranged. Radiator according to one of claims 1 to 6, characterized in that the distance (X) between the heating elements ( 3 . 4 ) 0.5 to 1.5 times the depth (BT) of the heating elements ( 3 . 4 ) is. Radiator according to one of claims 1 to 7, characterized in that the distance between the heating elements ( 3 . 4 ) about the same size as the depth (BT) of the heating elements ( 3 . 4 ). Radiator according to one of claims 1 to 8, characterized in that the heating elements ( 3 . 4 ) are fed via supply lines parallel to each other. Radiator according to one of claims 1 to 9, characterized in that a front wall ( 5 ) of a heating element ( 3 . 4 ) over a preferably at the edge of the front wall ( 5 ) arranged axis ( 17 ) is pivotable. Radiator according to claim 10, characterized in that the axis ( 17 ) at the bottom of the front wall ( 5 ) is arranged. Radiator according to one of claims 4 to 11, characterized in that at the top and the bottom of the heating elements ( 3 . 4 ) at least one fan ( 13 . 14 ) or cross-flow fan ( 15 ), and that they are arranged offset from one another in the vertical direction.

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