DE102024102256A1 - Tempering radiators - Google Patents

Abstract

The present invention relates to a temperature control radiator (1) in the form of a heating radiator or cooling radiator, in which a reflector (3) receiving the heating or cooling source (2) automatically tracks movements of persons or objects to be temperature controlled.

Description

The present invention relates to a temperature control radiator in the form of a radiant heater or which is designed to be set up in a mobile manner or to be installed in a fixed location in order to heat or cool people or objects towards which it is directed, comprising a heating and/or cooling source, a reflector which receives the heating and/or cooling source, is provided with a reflective surface on its inside and is open at the front, and is designed to emit heat radiation emitted by the heating and/or cooling source in a directed manner, in particular substantially in parallel, and a holding device on which the reflector is received.

To achieve comfortable temperatures indoors, conventional convection heaters are usually used. Convection heaters are characterized by a high convection component and a low radiation component in heat transfer to the room. They operate at the lowest possible temperatures and with a large convection surface, which is provided by the surface of a radiator's heating fins, the surface of an underfloor heating system, or similar.

Radiant heaters are also known in the prior art. These operate at significantly higher temperatures than convection heaters and typically have a comparatively small surface area over which the heat radiation is emitted. Convection surfaces in the true sense of the word are not provided, which is why the radiation component of the transferred heat is significantly higher than the convection component. Radiant heaters are primarily used where the air can or should only be heated in specific areas, such as in large halls, salesrooms, or outdoor catering areas. In special forms of radiant heaters, the heat source is combined with a reflector to influence the direction of the emitted radiation. This design is often chosen for radiant heaters used in bathrooms or outdoors. The heat radiation is emitted either diffusely or in a directed manner by the reflectors. The reflector is usually attached to a mounting device. This can be designed as a tripod, which is used to position the radiant heater on the surface. Alternatively, the mounting device can also be designed to install the radiant heater permanently on a wall or ceiling, for example, using fastening screws or the like. A disadvantage of conventional radiant heaters is that they can only heat relatively small areas. If a large outdoor area, such as a large outdoor terrace, is to be heated, a correspondingly large number of radiant heaters must be provided to cover the entire terrace area, which results in correspondingly high operating costs, even if people are only present in certain areas of the terrace.

Based on this prior art, it is an object of the present invention to provide tempering radiators of the type mentioned at the beginning with an alternative structure.

To achieve this object, the present invention provides a temperature control radiator in the form of a heating radiator or cooling radiator, which is designed to be set up in a mobile manner or to be installed in a fixed location in order to heat or cool people or objects towards which it is directed, comprising a heating and/or cooling source, a reflector which receives the heating and/or cooling source, is provided with a reflective surface on its inside and is open at the front, and is designed to emit heat radiation emitted by the heating and/or cooling source in a directed manner, in particular essentially parallel, and a holding device on which the reflector is held, characterized in that the temperature control radiator comprises an adjusting device which is motor-driven via at least one motor and which is arranged between the holding device and the reflector and is designed to move the reflector relative to the holding device, a person and/or object detection device which is designed to detect the position of people and/or objects located in front of the reflector, and a control unit which is designed to control the at least one motor based on position data detected by the person and/or object recognition device such that the reflector is automatically aligned to positions detected by the person and/or object recognition device.

The invention relates to a radiant heater, i.e. one whose radiation component in heat transfer is greater than the convection component. Convection heating devices of the type mentioned above are therefore not covered by the invention. In addition to the heat source, which is customary for radiant heaters, for example, the reflector and the holding device, the radiant heater according to the invention comprises an adjustment device, a person and/or object detection device and a control unit. The adjustment device is motor-driven via at least one motor and is arranged between the holding device and the reflector. Accordingly, the reflector can be moved relative to the holding device. The person and/or object detection device is designed to During operation of the radiant heater, the position of moving people and/or objects to be heated is detected. The control unit activates the adjustment device based on the positions detected by the person and/or object detection device and aligns the reflector to the detected positions, resulting in highly targeted heating. This targeted heating allows comfortable temperatures to be achieved with lower energy consumption and/or a smaller number of radiant heaters.

The invention also relates to a cooling radiator in which a cooling source is provided instead of the heating source, with otherwise identical construction, as well as to a combined heating and cooling radiator which comprises either a heating and a cooling source or a heating and a cooling source as exchange units.

According to one embodiment of the present invention, the reflector has a parabolic cross-section, with the heating and/or cooling source being arranged in particular at the focal point of the reflector. Thanks to this design, the reflector emits essentially parallel thermal radiation.

In a first variant, the reflector has the shape of a paraboloid, and the heating and/or cooling source is essentially point-shaped and positioned at the focal point of the reflector. In this way, a circular area is heated or cooled.

In a second variant, the reflector is shaped like a trough, and the heating and/or cooling source is essentially linear and positioned at the focal point of the reflector. This heats or cools a rectangular area.

The holding device can be designed as a tripod, which is designed to place the temperature control radiator on a surface, or as a mounting plate for fastening the temperature control radiator to a wall or ceiling.

Preferably, the person and/or object detection device comprises a camera and/or an infrared sensor, and the controller comprises suitable software for evaluating the data or signals provided by the camera and/or the infrared sensor. This results in a simple and cost-effective design.

The adjustment mechanism is advantageously designed to allow the reflector to be rotated and pivoted. Accordingly, the reflector can be moved very variably.

• 1 eine schematische perspektivische Ansicht eines Temperierstrahlers gemäß einer ersten Ausführungsform der vorliegenden Erfindung, und
• 2 eine schematische perspektivische Ansicht eines Temperierstrahlers gemäß einer zweiten Ausführungsform der vorliegenden Erfindung.

Further features and advantages of the present invention will become apparent from the following description with reference to the accompanying drawings.

• 1 a schematic perspective view of a tempering radiator according to a first embodiment of the present invention, and
• 2 a schematic perspective view of a tempering radiator according to a second embodiment of the present invention.

The same reference numbers refer to the same or similar components or component areas.

In the 1 The temperature control radiator 1 shown is a radiant heater comprising a heat source 2, a reflector 3 receiving the heat source 2, which is arranged in a housing 4, a holding device 5, an adjusting device 6, a person detection device 7 and a control unit 8.

The heat source 2 is tubular and designed to emit infrared radiation.

The reflector 3 is also elongated and has a trough shape with a parabolic cross-section, with the heat source 2 positioned and secured at the focal point of the reflector 3. Accordingly, infrared radiation emitted by the heat source 2, which strikes the reflector 3, is reflected and re-emitted essentially parallel thereto. The inner surface of the reflector 3 forms the reflective surface, which in this case is made of metal or metal foil. The reflector 3 is housed in the housing 4, which has appropriate dimensions for this purpose.

In this case, the holding device 5 is designed as a three-legged stand that is manually height-adjustable. It has a platform 9 in its upper area, on which the control unit 8 is positioned.

The adjustment device 6 comprises a motor 10 with which the housing 4 and thus the reflector 3 and the heat source 2 can be rotated about a vertical axis of rotation 11 relative to the holding device 5, as indicated by the arrow 12.

The person recognition device 7 is equipped with a camera 13 and designed to detect the position of persons located in front of the reflector 3. In principle, it is possible to rotate the person detection device 7 together with the housing 4, the reflector 3, and the heat source 2 about the vertical axis of rotation 11 using the adjustment device, if desired.

The control unit 8 is designed to evaluate the image data provided by the person detection device 7, to detect the positions of persons in front of the tempering radiator 1 based on this image data, and to control the motor 10 of the adjustment device 6 based on the detected position data such that the reflector 3 is automatically aligned toward the persons. Accordingly, the alignment of the reflector 3 can be adjusted to the movement of one or more persons.

2 shows a tempering radiator 1 in the form of a radiant heater 1 according to a further embodiment of the present invention. Analogous to the previously described embodiment, this comprises a heat source 2, a reflector 3 accommodating the heat source 2, which is arranged in a housing 4, a holding device 5, an adjustment device 6, a person detection device 7, and a control unit 8.

The heat source 2 is essentially point-shaped and designed to emit infrared radiation.

The reflector 3 has the shape of a paraboloid, with the heat source 2 positioned and secured at the focal point of the reflector 3. Accordingly, infrared radiation emitted by the heat source 2, which strikes the reflector 3, is reflected and re-emitted essentially parallel thereto. The inner surface of the reflector 3 forms the reflective surface, which in this case is made of metal or metal foil. The reflector 3 is housed in the housing 4, which has appropriate dimensions for this purpose.

In the present case, the holding device 5 is designed as a mounting plate which is designed to fasten the temperature control radiator 1 to a ceiling, a wall or the like, in particular using fastening screws.

The adjustment device 6 comprises two motors 10, with which the housing 4 and thus the reflector 3 and the heat source 2 can be rotated relative to the holding device 5 about a vertical axis of rotation 11 and a horizontal axis of rotation 11, as indicated by the arrows 12. Accordingly, the adjustment device 6 in this case enables the reflector 3 to be rotated and pivoted relative to the holding device 5.

The person detection device 7 is presently equipped with a camera 13 and is designed to detect the position of persons located in front of the reflector 3. In principle, it is possible to rotate the person detection device 7 together with the housing 4, the reflector 3, and the heat source 2 about the vertical axis of rotation 11 via the adjustment device, if desired.

The control unit 8 is designed to evaluate the image data provided by the person detection device 7, to detect the positions of persons in front of the tempering radiator 1 based on this image data, and to control the motors 10 of the adjustment device 6 based on the detected position data in such a way that the reflector 3 is automatically aligned toward the persons. Accordingly, the alignment of the reflector 3 can be adjusted to the movement of one or more persons.

A key advantage of the inventive thermostatic radiators 1 is that they automatically adapt to the ambient situation by tracking people's movements. Accordingly, the thermostatic radiators 1 can be operated with optimized energy efficiency. Furthermore, compared to conventional radiators of the same power, fewer radiators 1 are needed to achieve the same comfortable warming effect.

It should be noted that, instead of the heating source 2, a cooling source can in principle also be used to create a tempering radiator 1 according to the invention in the form of a cooling radiator.

Furthermore, it should be noted that the temperature control radiator 1 can be used to heat not only moving people, but also moving objects. For example, paint applied to objects is often dried with infrared heaters. One or more tracked heaters according to the invention can be used accordingly for the precise drying of paint on objects moving on a conveyor belt.

It should be understood that the above-described embodiments are not to be considered limiting. Rather, modifications and changes are possible without departing from the scope of protection defined by the appended claims.

REFERENCE NUMBER LIST

1

Tempering radiators

2

Heating/cooling source

3

reflector

4

Housing

5

Holding device

6

Adjustment device

7

Person/object recognition device

8

Control unit

9

platform

10

Motor

11

axis of rotation

12

Arrow

13

camera

Claims (7)

A temperature control radiator (1) in the form of a heating radiator or cooling radiator, which is designed to be set up in a mobile manner or to be installed in a fixed position in order to heat or cool persons or objects towards which it is directed, comprising a heating and/or cooling source (2), a reflector (3) which receives the heating and/or cooling source (2), is provided with a reflective surface on its inside and is open at the front, and is designed to emit heat radiation emitted by the heating and/or cooling source (2) in a directed manner, in particular essentially in parallel, and a holding device (5) on which the reflector (3) is held, characterized in that the temperature control radiator (1) has an adjusting device (6) which is motor-driven via at least one motor (10), which is arranged between the holding device (5) and the reflector (3) and is designed to move the reflector (3) relative to the holding device (5), a person and/or object recognition device (7) which is designed to detect the position of persons and/or objects located in front of the reflector (3), and comprises a control unit (8) which is designed to control the at least one motor (10) based on position data detected by the person and/or object detection device (7) in such a way that the reflector (3) is automatically aligned to positions detected by the person and/or object detection device (7). Tempering radiator (1) according to Claim 1 , characterized in that the reflector (3) has a parabolic cross-section. Tempering radiator (1) according to Claim 2 , characterized in that the reflector (3) has the shape of a paraboloid and the heating and/or cooling source (2) is essentially point-shaped and positioned at the focal point of the reflector (3). Tempering radiator (1) according to Claim 2 , characterized in that the reflector (3) has the shape of a groove and the heating and/or cooling source (2) is substantially linear and is positioned at the focal point of the reflector (3). Tempering radiator (1) according to one of the preceding claims, characterized in that the holding device (5) is designed as a tripod which is designed to set up the tempering radiator (1) on a base, or as a mounting plate for fastening the tempering radiator (1) to a wall or ceiling. Tempering radiator (1) according to one of the preceding claims, characterized in that the person and/or object recognition device (7) has a camera (13) and/or an infrared sensor and the controller (8) has suitable software for evaluating the data or signals provided by the camera (13) and/or the infrared sensor. Tempering radiator (1) according to one of the preceding claims, characterized in that the adjusting device (6) is designed such that it enables rotation and pivoting of the reflector (3).