DE202018101303U1 - Room temperature controller for building heating and building cooling systems, in particular for surface heating and surface cooling systems - Google Patents

Abstract

Room thermostat (1) for surface heating and / or surface cooling systems, comprising - a housing (1) with a transparent or translucent display surface (2) - a printed circuit board (6) accommodated in the housing (1), on which a matrix (7) of individual light sources (5, 5 ', 5 ", 5' '') arranged to irradiate the display surface (2) on the back, characterized in that between the matrix (7) of individual light sources (8, 8 ', 8 '', 8 '' ') and the display surface (2) a shadow mask (9) is arranged such that each individual light source (8, 8', 8 '', 8 '' ') of the matrix (7) at least one hole (10, 10 ', 10' ', 10' '') of the shadow mask (9) is assigned, wherein at least the holes (10, 10 ', 10' ', 10' '') of the shadow mask (9) of an opaque Material are surrounded.

Description

The present invention relates to a room temperature controller for building heating and building cooling systems, in particular for surface heating and surface cooling systems, preferably for underfloor heating systems.

Such room temperature controllers are known in the art through prior public use. Embodiments of such room temperature regulators are constructed of a housing, the back of which is connected to a wall of the room adjacent thereto, and a board accommodated in the housing, which includes the electronic components of the room controller. To set the room temperature setpoint and the operating mode of the surface heating and / or surface cooling system in question, pushbuttons or a rotatable adjustment device may be located on the housing. In known room controllers, the housing wall facing the room can be transparent or translucent. The transparent or translucent housing wall is irradiated by a matrix of individual light sources on the board from the rear side in such a way that relevant information for the user results from the total light emitted by the individual light sources, for example the current room temperature, the set room temperature setpoint or the operating mode the surface heating and / or surface cooling system concerned. The irradiated surfaces of the transparent or translucent housing wall thus act as a display surface of the room controller. For bundling the light emitted by the individual light sources in each case toward the housing surface, circular recesses are located above the individual light sources. The power supply for such room temperature controller can be done externally via led out of the wall and in the housing of the room temperature controller clamped or fixed by screw cable or on the other hand internally by a battery or a battery. In particular, LEDs (light-emitting diodes, light-emitting diodes) are used as individual light sources.

A disadvantage of the room temperature controllers described is that due to the production of the transparent or translucent housing wall by injection, the introduced tapers cause only a distance between the individual light points of at least 2 mm and a diameter of the individual light spots of at least 1 mm can be realized can. This leads to a blurred display. In addition, the light in the tapers is scattered by the surrounding, transparent or translucent material.

Against this background, the object of the present invention is to provide a room temperature controller for surface heating and / or surface cooling systems which overcomes the disadvantages of the prior art. In particular, the room temperature controller according to the invention should have a sharper display.

These and other objects are achieved by a room thermostat with the features of claim 1. Preferred embodiments of the room temperature controller according to the invention are described in the dependent claims.

According to the present invention, it has been recognized that the effect of light scattering by the transparent or translucent material of the housing wall can be prevented by first passing the light emitted by the individual light sources through a shadow mask whose holes are surrounded by opaque material. Preferably, this is a thin mask, which is in particular a separate component, i. The shadow mask is not integrated into the housing or the circuit board of the room temperature controller according to the invention, applied directly to the matrix of the individual light sources and fixed. The mask can be made by laser cutting. The individual points of light are thus optically separated from each other, because the mask prevents the lateral scattering of the light emitted by the individual light sources. Through the mask, a reduction of the distance between the individual points of light up to 1.2 mm and the diameter of the individual points of light can be realized up to 0.5 mm, resulting in a sharper display.

Accordingly, the present invention is to provide a room temperature controller for surface heating and / or surface cooling systems comprising a housing having a transparent or translucent display surface; and a board accommodated in the housing, on which a matrix of individual light sources is arranged, which are adapted to irradiate the display surface on the back, and which according to the invention is characterized in that a shadow mask is arranged between the matrix of individual light sources and the display surface, in that each individual light source of the matrix is associated with at least one hole of the shadow mask, wherein at least the holes of the shadow mask are surrounded by an opaque material.

As used herein, the term "opaque material" in the context of the present invention refers to the radiation emitted by each individual light source, respectively. In this case, the individual light sources preferably emit light in the visible wavelength range (approximately 380-780 nm). Opacity should mean - based on the respective wavelength - a transmittance of preferably at most about 10%, preferably at most about 5% and more preferably at most about 1%.

It may be advantageous if the shadow mask is made entirely of opaque material. This adds to the sharpness of the display. In addition, a mask made entirely of opaque material is easy to manufacture.

It can also prove to be advantageous if the shadow mask is arranged such that each individual light source of the matrix is associated with exactly one hole of the shadow mask. This also contributes to the sharpness and brightness of the display. Particularly preferably, a hole of the shadow mask is arranged above each individual light source of the matrix.

It may also be useful if the shadow mask is applied directly to the matrix, preferably glued. By directly applying the mask to the matrix, the sharpness and brightness of the display can be further improved.

It may also be helpful if the distance between two individual light sources of the matrix is in the range of 1.2 mm to 1.8 mm, preferably in the range of 1.4 mm to 1.6 mm, preferably about 1.5 mm , By using the mask according to the invention, it is possible to achieve such distances between two individual light sources of the matrix in conventional production methods of the components.

It may also prove advantageous if each individual light source has a diameter in the range of 0.5 mm to 0.9 mm, preferably in the range of 0.6 mm to 0.8 mm, particularly preferably about 0.7 mm. The use of the mask according to the invention makes it possible to use individual light sources with such a small diameter in common production methods of the components.

In addition, it may be useful if the individual light sources are designed as individual LEDs. LEDs are cost-effective, easily accessible single light sources with low power consumption.

It may also be advantageous if the room temperature controller further comprises at least one operating element. Such an operating element can be used to set the room temperature setpoint and the operating mode of the surface heating and / or surface cooling system to be controlled with the room temperature controller according to the invention. The control element may be, for example, push buttons and / or rotatable adjustment devices, which are preferably arranged on the housing, in particular in the housing wall containing the display surface.

The thickness of the mask is preferably in the range of 0.3 mm to 0.8 mm, particularly preferably in the range of 0.4 mm to 0.6 mm. A thickness of the mask of about 0.5 mm is particularly advantageous according to the invention.

The room temperature controller according to the invention and individual parts thereof can be produced, for example, line by line or layer by layer using a line-building or layer-building manufacturing method (eg 3D printing).

• 1 eine Draufsicht auf eine Ausführungsform des erfindungsgemäßen Raumtemperaturreglers; und
• 2 eine perspektivische Ansicht des in 1 gezeigten erfindungsgemäßen Raumtemperaturreglers mit abgenommener, die Anzeigefläche umfassender Gehäusewand.

In the following, the present invention will be explained in detail with reference to the embodiment shown in the figures. Showing:

• 1 a plan view of an embodiment of the room temperature controller according to the invention; and
• 2 a perspective view of the in 1 shown room temperature controller according to the invention with removed, the display area comprehensive housing wall.

1 shows an embodiment of the room temperature controller according to the invention 1 in a top view. The room temperature controller according to the invention 1 includes a housing 2 which has a transparent or translucent display area 3 having. The display area 3 is located in the wall facing the room 4 of the housing 2 in the one embodiment of the room temperature controller according to the invention 1 made entirely of translucent material.

In the wall 4 of the housing 2 are controls 5 . 5 ' . 5 ' , where in the in 1 illustrated embodiment of the room temperature controller according to the invention 1 two controls 5 . 5 ' as touch-sensitive areas of the surface of the wall 4 are formed. These are set up to set the room temperature setpoint and are shown as a sign which should indicate the direction of the desired setting change ("plus" stands for setpoint temperature increase and "minus" for setpoint temperature decrease). The further control element 5 '' is designed as a touch-sensitive button.

2 shows a perspective view of the in 1 illustrated room temperature controller according to the invention 1 where the the display area 3 comprehensive housing surface is removed. It can be seen that in the case 1 a circuit board 6 is included. The board 6 carries the electronic components of the room temperature controller according to the invention 1 , On the board 6 is a matrix 7 from single light sources 8th . 8th' , 8 '', 8 ''', which are formed in the illustrated embodiment as LEDs. The individual light sources 8th . 8th' . 8th" . 8th''' each have a diameter of about 0.7 mm, with the decency between two adjacent individual light sources 8th . 8th' . 8th" . 8th''' about 1.5 mm.

In the room temperature controller according to the invention 1 is right on the matrix 7 a shadow mask 9 applied. In 2 is the shadow mask 9 however from the board 6 removed and shown raised above this. In the embodiment shown, the shadow mask is 9 completely made of opaque material, here a black colored plastic material. Alternatively, the shadow mask 9 also be made of metal. The shadow mask 9 is so on the matrix 7 arranged over each individual light source 8th . 8th' . 8th" . 8th''' the matrix 7 a hole 10 . 10 ' . 10 " . 10 '' the shadow mask 9 to come to rest. As a result, each individual light sources emits 8th . 8th' . 8th" . 8th''' the light emitted by it in the respective hole arranged above it 10 . 10 ' . 10 " . 10 ''' the shadow mask 9 , Because every hole 10 . 10 ' . 10 " , 10 '''is surrounded by an opaque material, the light is not scattered or radiated to the side, but through the respective hole 10 . 10 ' . 10 " , 10 '''to the interior of the housing 2 facing back of the room facing wall 4 of the housing 2 directed. The light then passes through the translucent material of the housing wall 4 and is so on the display area 3 visible. Through the described leadership of the individual light sources 8th . 8th' . 8th'' . 8th''' emitted light, a high sharpness of the display is achieved.

The individual light sources 8th . 8th' . 8th'' . 8th''' the matrix 7 can be controlled so that from the total, emitted by the individual light sources light for the user relevant information, for example, the current room temperature, the set room temperature setpoint or the mode of operation to be controlled Flächenheiz- and / or surface cooling system.

The power supply of the room temperature controller according to the invention 1 can on the one hand directly over led out of the wall and in the housing 2 the room temperature controller according to the invention 1 clamped or fixed by screwing cable done. Alternatively, the power supply via a in the housing 2 recorded battery or a corresponding battery. For measuring the currently prevailing room temperature is in the room temperature controller according to the invention 1 preferably integrates a temperature sensor. Around the measured, just prevailing room temperature and by the user at the controls 5 . 5 ' . 5 ' To transmit set values for the desired room temperature to corresponding actuators of Flächenheiz- and / or area cooling system, the room temperature controller according to the invention 1 In addition, a transmitter or a transmission device that transmits this information or data in the form of electromagnetic waves (eg radio, infrared and the like) to a receiver connected to the actuators of the surface heating and area cooling system, the latter transmitted to the actuators, which then convert this data into appropriate open positions for the respective heating circuits. Alternatively, the transmission of data or information can also be wired, for example by a BUS system.

The present invention has been described with reference to the embodiment of the room temperature controller according to the invention shown in the figures 1 explained in detail. It is understood that the present invention is not limited to the illustrated embodiments. The scope of the present invention is apparent from the appended claims.

Claims (10)

Room thermostat (1) for surface heating and / or surface cooling systems, comprising - a housing (1) with a transparent or translucent display surface (2); a board (6) accommodated in the housing (1), on which a matrix (7) of individual light sources (5, 5 ', 5 ", 5''') is arranged, which are arranged to control the display area (2) back irradiate, characterized in that between the matrix (7) of individual light sources (8, 8 ', 8'',8''') and the display surface (2) a shadow mask (9) is arranged such that each individual light source ( 8, 8 ', 8'',8''') of the matrix (7) is associated with at least one hole (10, 10 ', 10'',10''') of the shadow mask (9), at least the holes ( 10, 10 ', 10'',10''') of the shadow mask (9) are surrounded by an opaque material. Room temperature controller (1) to Claim 1 , characterized in that the shadow mask (9) is made entirely of opaque material. Room temperature controller (1) to Claim 1 or Claim 2 , characterized in that the shadow mask (9) is arranged such that each individual light source (8, 8 ', 8'',8''') of the matrix (7) corresponds exactly to one hole (10, 10 ', 10'', 10 ''') of the shadow mask (9) is associated. Room thermostat (1) according to one of the Claims 1 to 3 , characterized in that the Hole mask (9) is applied directly to the matrix (7). Room thermostat (1) according to one of the Claims 1 to 4 , characterized in that the distance between two individual light sources (8, 8 ', 8'',8''') of the matrix (7) in the range of 1.2 mm to 1.8 mm, preferably in the range of 1.4 mm to 1.6 mm, lies. Room temperature controller (1) to Claim 5 , characterized in that the distance between two individual light sources (8, 8 ', 8'',8''') of the matrix (7) is about 1.5 mm. Room thermostat (1) according to one of the Claims 1 to 6 , characterized in that each individual light source (8, 8 ', 8'',8''') has a diameter in the range of 0.5 mm to 0.9 mm, preferably in the range of 0.6 mm to 0.8 mm , having. Room temperature controller (1) to Claim 7 , characterized in that each individual light source (8, 8 ', 8'',8''') has a diameter of about 0.7 mm. Room thermostat (1) according to one of the Claims 1 to 8th , characterized in that the individual light sources (8, 8 ', 8'',8''') are formed as individual LEDs. Room thermostat (1) according to one of the Claims 1 to 9 , characterized in that the room temperature controller (1) further comprises at least one operating element (5, 5 ', 5 ").

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