EP3682778A1 - Tempering body arrangement and a false wall arrangement comprising such a tempering body arrangement - Google Patents

Abstract

The invention relates to a temperature control body arrangement (1) which has a carrier element (2), a frame element (3), a cover element (4) and at least one structure (RR1, RR2, ... RRn; EE through which an energy-transporting medium can flow) ) with a feed line (5) and a discharge line (6) for the energy-transporting medium, the carrier element (2) and the frame element (3) together forming a housing (2, 3) which forms the at least one flow-through structure (RR1 , RR2, ... RRn; EE). The cover element (4) is movably arranged with respect to the carrier element (2) and with respect to the frame element (6) and is movable between a first position (S1) in which the cover element (4) has an opening (7) in the housing (2, 3 ) and a second position (S2), in which the cover element (4) does not cover the opening (7) of the housing (2, 3).

Description

The invention relates to a temperature control body arrangement and to a pretext arrangement with such a temperature control body arrangement.

Tempering bodies for heating or cooling are known. There are e.g. electrical variants in which the temperature control body is heated electrically (resistively) or cooled (thermoelectrically). On the other hand, there are hydronic variants in which a heat transfer fluid flows through the temperature control body, the temperature of which, depending on requirements (heating or cooling), is sufficiently high above or sufficiently low below the ambient temperature. Such temperature control bodies with a cover element are also known.

With the usual temperature control element arrangements, it is hardly possible to use it effectively as a pure temperature control element for heating or cooling a room, e.g. a bathroom, as well as for heating or cooling a e.g. to be used directly on the towel.

The object of the invention is to provide a temperature control body arrangement which effectively enables both the temperature control of an entire room and the intensive temperature control of an object.

To achieve this object, the invention provides a temperature control body arrangement which has a carrier element, a frame element, a cover element and at least one temperature control body through which an energy-transporting medium can flow, with a supply line and a discharge line for the energy-transporting medium, the support element and the Frame element together form a housing which surrounds the at least one temperature control body through which the energy-transporting medium can flow. According to the invention, the cover element is arranged movably with respect to the carrier element and with respect to the frame element and is movable between a first position in which the cover element covers an opening of the housing and a second position in which the cover element does not cover the opening of the housing.

This makes it possible to place the object to be temperature-controlled in the housing in the immediate vicinity of the temperature control body, so that the object experiences intensive temperature control. At the same time, the entire room in which the inventive tempering arrangement is located is tempered. The object to be heated intensively is e.g. a bath towel. The room to be tempered is e.g. a bathroom.

If the cover element covers the opening of the housing, one forms in the interior of the housing due to the restricted air convection and the radiation balance prevailing there between the surfaces of the (e.g. hydronic) temperature-controlled pipe register and the surfaces of the carrier element, the frame element and the cover element defining the housing Cavity air temperature, which is closer to the surface temperature of the temperature-controlled pipe register than the air temperature of the temperature-controlled room outside the housing of the temperature control arrangement. The cover element itself and in particular the inner surface of the cover element facing the cavity of the housing are of particular importance here.

If the cover element does not cover the opening of the housing, a cavity air temperature forms inside the opened housing due to the now stronger air convection and the new radiation equilibrium, which is now less close to the surface temperature of the temperature-controlled pipe register and thus closer to the air temperature of the temperature-controlled one Space outside the housing of the temperature control arrangement.

The at least one temperature control body can be a tube register through which a heat transfer fluid can flow, with a flow line and a return line for the heat transfer fluid.

Alternatively or additionally, the at least one temperature control body can be a heating element or cooling element through which electrical current can flow, with a feed line and a discharge line for the electrical current.

In particular, the temperature control body can be a resistive heating element, a thermoelectric cooling element or a heating element filled with water or oil with an electrical heating cartridge.

The temperature control body arrangement expediently contains at least one suspension means in the interior of the housing. Objects to be tempered intensively, e.g. a towel, a piece of clothing, shoes, etc. can be hung inside the case. In the suspended state, a particularly large surface of an object to be temperature-controlled is exposed to the cavity air temperature and the radiation inside the housing, so that the object can be heated quickly and intensively by heat conduction, air convection and heat radiation.

In the first position, in which the cover element covers an opening of the housing, this opening is preferably not completely closed, so that sufficient natural or forced convection of the air can also take place inside the housing.

The carrier element and the frame element can be rigidly connected to one another, which contributes to the stabilization of the housing and thus the entire temperature control arrangement.

The at least one temperature control body is preferably arranged in the housing. This enables an intensive thermal exchange between the temperature control body and the cavity of the housing.

It is particularly advantageous if the at least one temperature control body is thermally decoupled from the surroundings of the temperature control body arrangement by means of the housing. For this purpose, the carrier element and frame element of the housing can have thermally insulating layers. A layer-like structure with a thermally (and electrically) poorly conductive insulation layer in the interior of the carrier element and / or the frame element and a thermally (and electrically) highly conductive reflection layer on the surface of the carrier element and / or the frame element facing the housing cavity is particularly advantageous .

Preferably at least one temperature control body is arranged on the cover element, i.e. instead of the at least one temperature control body in the housing or in addition to the at least one temperature control body in the housing. This enables an intensive or even more intensive thermal exchange between the temperature control body or the temperature control bodies and the cavity of the housing.

It is particularly advantageous if the cover element is thermally coupled to the at least one temperature control body. For this purpose, the at least one temperature control body can be thermally conductively connected to the cover element by means of a heat-conducting paste or a heat-conducting adhesive. The at least one temperature control body can be on a surface of the cover element or in the cover element, e.g. be embedded between two panes of glass. As a heat-conducting adhesive, an adhesive, e.g. a graphite / water glass mass can be used.

The at least one temperature control body is preferably arranged on the side of the cover element facing the housing. This also contributes to the thermal decoupling of the at least one temperature control body from the surroundings of the temperature control body arrangement.

In a particularly advantageous embodiment of the temperature control arrangement, a fan is arranged inside the housing. The fan can be arranged in the lower area or upper area of the housing. Thus, as required, in addition to or in opposition to the "natural" convection driven by gravity, forced convection (forced convection) can be generated both inside the housing and in the space surrounding the temperature control body arrangement. In particular, in this embodiment an air flow can be generated which is directed over a towel suspended in the housing.

It is particularly advantageous if the housing has at least one further opening in addition to the large housing opening mentioned. Two further openings are preferably provided, one of which can optionally be closed.

In a further particularly advantageous embodiment of the temperature control body arrangement, there is a gap between the cover element and the housing, (also) when the cover element is in its first position covering the opening of the housing. Thus, in the first position, in which the cover element covers the opening of the housing, this opening is not completely closed.

It is particularly advantageous if the cover element also has at least one opening. Preferably, two further openings are also provided here, one of which can optionally be closed.

The fan together with the gap between the cover element and the housing as well as the various optional further openings enable the air-convection current to be set as required within and outside the temperature control arrangement and in particular an effective drying / heating of a towel suspended in the housing.

The temperature control body arrangement can additionally have a water supply connection for moistening the interior of the housing and / or a water discharge connection for dehumidifying the interior of the housing. Thus, in addition to the tempering (heating, cooling) of an object placed in the housing, drying / dehumidification or wetting / moistening of this object can also take place. Above all, such a temperature control arrangement with water supply and / or water drainage also enables the humidification and / or dehumidification of the room in which the temperature control arrangement is located.

The temperature control body arrangement can have an electrical heating element. This allows short-term peaks in demand, in particular for heating / drying, to be served. The electric heating element is preferably assigned to the fan.

In a further particularly advantageous embodiment of the temperature control body arrangement, the at least one tube register is formed from polymer material. This prevents corrosion problems on the register in the event of humidification, for example when evaporating sprayed and / or atomized water on a hot pipe register, or in the case of dehumidification, for example when condensing water vapor from the air on a cold pipe register.

According to a further particularly advantageous embodiment, the temperature control body arrangement according to the invention is in a piece of furniture, such as a wall unit, or integrated into an intermediate wall or a room divider.

The temperature control body arrangement according to the invention expediently contains at least one additional storage space which is arranged next to the housing of the temperature control body arrangement. The at least one storage space is preferably separated from the housing of the temperature control body arrangement by an intermediate wall. The intermediate wall preferably contains openings which enable an air exchange between the at least one additional storage space and the interior of the housing of the temperature control body arrangement.

The temperature control body arrangement according to the invention preferably contains a lateral storage space which is arranged next to the housing of the temperature control body arrangement and / or an upper storage space which is arranged above the housing of the temperature control body arrangement.

The cover element expediently has a light function. The cover element preferably contains a passive light function and / or an active light function. The passive light function is preferably formed in that the cover element is light-conducting and / or light-scattering at least in partial areas. The active light function is preferably formed by at least one light source which is assigned to the cover element, the at least one light source preferably being arranged in the cover element or on the cover element. The light generated by the at least one light source is coupled into the light-guiding and / or light-scattering partial area of the cover element. The light thus coupled in can be passed on and / or scattered in the partial area. Diffuse indirect lighting of the surroundings of the cover element can thereby be achieved.

The invention also relates to a pretext arrangement in which a temperature control arrangement according to the description above is integrated.

There is preferably a gap between the cover element of the temperature control body arrangement and the pretext.

The cover element and the pretext can be arranged flush / flush.

Alternatively, the cover element and possibly a part of the housing or the entire housing protrude from the front wall.

• Fig. 1 eine entlang einer vertikalen Ebene teilweise geschnittene Seitenansicht eines ersten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt;
• Fig. 2 eine entlang einer vertikalen Ebene teilweise geschnittene Seitenansicht eines zweiten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt;
• Fig. 3 eine entlang einer vertikalen Ebene teilweise geschnittene Seitenansicht eines dritten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt;
• Fig. 4 eine schematische Vorderansicht (Frontansicht) der erfindungsgemässen Temperierkörper-Anordnung von Fig. 1, Fig. 2 und Fig. 3 zeigt;
• Fig. 5A eine entlang einer vertikalen Ebene geschnittene Seitenansicht eines vierten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt;
• Fig. 5B eine erste Perspektivansicht des vierten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt; und
• Fig. 5C eine zweite Perspektivansicht des vierten Ausführungsbeispiels der erfindungsgemässen Temperierkörper-Anordnung zeigt.

Further advantages, features and possible uses of the invention result from the following description of exemplary embodiments of the invention, which is to be understood as non-restrictive, with reference to the drawing, in which:

• Fig. 1 shows a side view, partly in section along a vertical plane, of a first exemplary embodiment of the temperature control body arrangement according to the invention;
• Fig. 2 shows a side view, partly in section along a vertical plane, of a second exemplary embodiment of the temperature control body arrangement according to the invention;
• Fig. 3 shows a side view, partly in section along a vertical plane, of a third exemplary embodiment of the temperature control body arrangement according to the invention;
• Fig. 4 is a schematic front view (front view) of the inventive tempering body arrangement of Fig. 1 , Fig. 2 and Fig. 3 shows;
• Figure 5A a side view cut along a vertical plane of a fourth embodiment of the temperature control body arrangement according to the invention;
• Figure 5B shows a first perspective view of the fourth embodiment of the temperature control body arrangement according to the invention; and
• Figure 5C shows a second perspective view of the fourth embodiment of the temperature control body arrangement according to the invention.

In Fig. 1 A first exemplary embodiment of the temperature control body arrangement 1 according to the invention is shown. The temperature control body arrangement 1 is arranged on a floor B and on a wall W. It contains a carrier element 2, a frame element 3, a cover element 4 as well as a register packet RR through which a heat transfer fluid can flow and an electrical heating element EE through which an electrical current can flow.

The carrier element 2 is a plate-like structure which bears against the wall W or extends parallel to the wall W with a gap between the wall and the carrier element 2. The carrier element 2 and the frame element 3 together form a housing 2, 3 which surrounds the register package RR. An upper part and a lower part of the frame element 3 can be seen in vertical section. The carrier element 2 and the frame element 3 are rigidly connected to one another.

The register packet RR is composed of six pipe registers RR1, RR2, RR3, RR4, RR5, RR6. The ends of the distributor pipes VR of the individual pipe registers RR1, RR2, RR3, RR4, RR5, RR6 are connected to one another by means of pipe register end pieces RE in such a way that the distributor pipes VR are in fluid communication with one another. The individual raw registers RR1, RR2, RR3, RR4, RR5, RR6 can be connected in series and / or in parallel with one another in terms of fluid technology. In particular, some of the pipe registers RR1, RR2, RR3, RR4, RR5, RR6 can be connected in series and some more of the pipe registers RR1, RR2, RR3, RR4, RR5, RR6 can be connected in parallel.

The register packet RR is by means of flexible lines, not shown in the figure, such as e.g. Armored hoses, connected to a flow line and a return line for the heat transfer fluid. The flow line and the return line are arranged in a channel-shaped feed line 5 and a channel-shaped discharge line 6, respectively below the lower part of the frame element 3.

The cover element 4 is rotatably arranged with respect to the carrier element 2 by means of articulation elements (not shown in the figure) with respect to the frame element 3 about a horizontal axis A on the lower part of the frame element 3. The cover element is thus movable between a vertical first position S1, in which the cover element 4 covers an opening 7 of the housing 2, 3, and an oblique second position S2, in which the cover element 4 does not cover the opening 7 of the housing 2, 3.

As an alternative, the cover element 4 can be arranged such that it can be rotated about a vertical axis on a lateral part of the frame element 3 with respect to the carrier element 2 by means of joint elements (not shown in the figure) with respect to the frame element 3. The cover element 4 can thus also be moved between a first position in which the cover element 4 has the opening 7 of the housing 2, 3 covers, and a second position in which the cover element 4 does not cover the opening 7 of the housing 2, 3.

The electric heating element EE is arranged on the side of the cover element 4 facing the housing 2, 3 and is connected to a power source by means of flexible power lines (not shown in the figure). As a result, a greater surface temperature prevails on the inside 4a of the cover element 4 when the heating element EE is switched on than on the outside 4b of the cover element 4. The power line (s) for the power supply and current drain are likewise in the channel-shaped supply line 5 or the channel-shaped one Derivation 6 is arranged below the lower part of the frame element 3.

The register packet RR arranged in the interior of the housing 2, 3 is thermally decoupled from the surroundings of the temperature control body arrangement 1 by means of the housing 2, 3 and by means of the cover element 4 in its vertical first position S1. When the register package RR with warm heat transfer fluid and / or the electrically resistive heating element EE is switched on, the temperature inside the housing 2, 3 is therefore higher than outside the housing 2, 3.

A horizontal partition wall HZW is provided in the interior of the housing 2, 3 and extends transversely between the carrier element 2 and the frame element 3 in the upper part of the housing 2, 3. This horizontal partition wall HZW separates the inside of the housing 2, 3 into an upper chamber K1, in which the fan 9 is located, and a lower chamber K2, in which the register packet RR is located. The horizontal partition wall HZW prevents a short-circuit flow of the air emerging from the fan 9 through the openings 12 and 13.

The temperature control body arrangement 1 also contains a fan 9 which is arranged in the interior of the housing 2, 3 in the upper region and in particular above the register package RR. Another electrical heating element 17 is arranged at the air outlet of the fan 9.

The temperature control body arrangement 1 contains a control panel 19 above the cover element 4, on which a plurality of control elements B1, B2, B3, B4, B5, B6 for operating the register package R, the electrical heating element EE, the fan 19 and the further electrical heating element 17 are provided.

If the opening 7 of the housing 2, 3 surrounded by the frame element 3 is covered in its vertical first position S1 when the cover element 4 is pivoted up, the temperature control body arrangement 1 has further openings 11, 12, 13, 14 (see also Fig. 4 ), each of which allows air to pass through and thus overall air flow through the housing 2, 3.

At the upper end, the cover element 4 has at its upper edge a centrally arranged trapezoidal opening 11, which on the one hand allows air to pass through and on the other hand serves as a handle recess at which one can grasp the upper end of the cover element 4 and remove it from its vertical first position S1 in can move its inclined second position S2 and back again.

There is a horizontal slot-like opening 12 between the control panel 19 and the frame element 3. When the cover element 4 is pivoted up in its vertical first position S1 and the opening 7 is covered, the cover element 4 is surrounded by a gap 13. The gap 13 extends in its lower horizontal area and in its two vertical areas between the frame element 3 and the cover element 4 and in its upper horizontal area between the control panel 19 and the cover element 4.

The air inlet opening of the fan 9 is located inside the housing 2, 3 behind the upper horizontal region of the gap 13, the center of the air inlet opening of the fan 9 being at a height between the height of the slot-like opening 12 and the height of the upper one horizontal region of the gap 13 lies.

Further optional openings 14 are provided in the lower region of the cover element 14.

The temperature control body arrangement 1 contains water supply connections 15 arranged in its support element 2 and / or in its frame element 3 with spray nozzles and / or atomization nozzles. In addition, the temperature control body arrangement 1 contains, in the lower region of its frame element 3, a water discharge connection 16 with a water collecting pan 18. The water supply connections 15 serve to moisten the inside of the housing 2, 3 and the water discharge connection 16 to dehumidify the inside of the housing 2, 3. The register package RR and through the electrical heating element EE formed surface on the inside 4a of the cover member 4 are formed of polymer material.

This in Fig. 1 The first exemplary embodiment of the temperature control body arrangement 1 according to the invention shown enables very versatile operation for temperature control of a room, on or in the wall of which the temperature control body arrangement 1 is arranged. It can be used for heating or cooling on the one hand and for humidifying or dehumidifying the room air on the other.

When heating , the register package RR is flowed through with warm to hot water. Alternatively or in addition, electrical current is supplied to the electrical heating element EE. The heat emitted by the register package RR and / or the electrical heating element EE by radiation and heat conduction into the interior of the housing 2, 3 leads to an increase in the temperature inside the housing 2, 3, which results in natural convection over the two vertical regions of the gap 13 and the optional openings 14 of the temperature control body arrangement 1 is set in motion. The air heated in the housing 2, 3 thus enters the room via the upper openings of the temperature control body arrangement 1, as a result of which the room air is heated, and returns to the housing 2, 3 via the lower openings of the temperature control body arrangement 1.

If necessary, this natural convection can be intensified by the fan 9 or vice versa. For this purpose, the fan 9 promotes the air in the housing 2, 3 from bottom to top (in Fig. 1 not shown) or from top to bottom (in Fig. 1 shown). In order to further increase the heating power generated by the register package RR and the electrical heating element EE, the further heating element 17 can be additionally activated, as a result of which the air conveyed by the fan 9 is heated even further.

When cooling , the register package RR is flowed through with cool to cold water. No electrical current is supplied to the electrical heating element EE. The heat extracted by the register packet RR by radiation and heat conduction in the interior of the housing 2, 3 leads to a lowering of the temperature in the interior of the housing 2, 3, as a result of which natural convection via the two vertical regions of the gap 13 and via the optional openings 14 the temperature control assembly 1 is started. The cooled in the housing 2, 3 Air thus enters the room via the lower openings of the temperature control body arrangement 1, as a result of which the room air is cooled, and returns to the housing 2, 3 via the upper openings of the temperature control body arrangement 1.

If necessary, this natural convection can be reinforced by the fan 9 or vice versa. For this purpose, the fan 9 promotes the air in the housing 2, 3 from top to bottom (in Fig. 1 shown) or from bottom to top (in Fig. 1 Not shown).

When the air is humidified, hot water flows through the RR register package. The temperature of the hot water should be as high as possible above the dew point of the air with the desired moisture content. Alternatively or in addition, electrical current is supplied to the electrical heating element EE. At the same time, water is discharged into the interior of the housing 2, 3 via the water supply connections 15 arranged in the carrier element 2 and / or in the frame element 3 via the spray nozzles and / or atomization nozzles. The water present in the form of water droplets in the air or as a wetting water film on the register package RR and / or on the electrical heating element EE in the housing is evaporated by the heating power of the register package RR and / or the electrical heating element EE. The heat given off by the register package RR and / or the electrical heating element EE in addition to the evaporation power inside the housing 2, 3 also leads to an increase in the temperature of the humidified air inside the housing 2, 3, which results in natural convection via the openings 11, 12 and 13 and the optional openings 14 of the temperature control body arrangement 1 is set in motion. The heated and humidified air in the housing 2, 3 thus enters the room via the upper openings of the temperature control body arrangement 1, as a result of which the room air is heated and humidified, and returns to the housing 2 via the lower openings of the temperature control body arrangement 1 , 3rd

If necessary, this natural convection can be intensified by the fan 9 or vice versa. For this purpose, the fan 9 conveys the heated and humidified air in the housing 2, 3 from bottom to top (in Fig. 1 not shown) or from top to bottom (in Fig. 1 shown). In order to further increase the heating power generated by the register package RR and the electric heating element EE, the additional heating element 17 can also be activated here, as a result of which the fan 9 conveyed air is heated even further. If there are not yet evaporated water droplets in the air stream, these are evaporated on the further heating element 17.

When the air is dehumidified, cold water flows through the RR register package. The temperature of the cold water should be as low as possible below the dew point of the air with the desired moisture content. Alternatively or in addition, electrical current is supplied to the thermoelectric cooling element EE. The condensed water resulting from the cooling capacity of the register package RR and / or the thermoelectric cooling element EE in the form of water droplets in the air or as a wetting water film on the register package RR and / or on the thermoelectric cooling element EE in the housing passes through the action of gravity the water collecting pan 18 in the lower region of the frame element 3 in the water drainage connection 16 and is discharged. The heat extracted from the interior of the housing 2, 3 by the register package RR and / or the thermoelectric cooling element EE in addition to the condensation power leads to a lowering of the temperature of the dehumidified air in the interior of the housing 2, 3, which results in natural convection over the two vertical areas of the gap 13 and the optional openings 14 of the temperature control body arrangement 1 is set in motion. The air cooled and dehumidified in the housing 2, 3 thus enters the room via the lower openings of the temperature control body arrangement 1, as a result of which the room air is cooled and dehumidified, and returns to the housing 2 via the upper openings of the temperature control body arrangement 1 , 3rd

If necessary, this natural convection can be intensified by the fan 9 or vice versa. For this purpose, the fan 9 conveys the cooled and dehumidified air in the housing 2, 3 from top to bottom (in Fig. 1 shown) or from bottom to top (in Fig. 1 Not shown). When dehumidifying, ie condensing water vapor inside the housing 2, 3, one prefers the in Fig. 1 reinforcement of natural convection shown by the fan. As a result, water droplets floating in the air and the wetting water film on the register packet RR (and / or on the thermoelectric cooling element EE) are blown downward in the interior of the housing 2, 3, whereby (a large part the condensed water) the condensed water finally drips into the water collecting pan 18.

In Fig. 2 A second exemplary embodiment of the temperature control body arrangement 1 according to the invention is shown. The temperature control body arrangement 1 is arranged on a floor B and on a wall W. It contains a carrier element 2, a frame element 3, a cover element 4 as well as a register packet RR through which a heat transfer fluid can flow and an electrical heating element EE through which an electrical current can flow.

The structure of the second exemplary embodiment largely corresponds to the structure of the first exemplary embodiment. All elements of the in Fig. 2 shown second embodiment, that of the in Fig. 1 shown first embodiment 1, wear in Fig. 2 the same reference numerals as in Fig. 1 .

The second exemplary embodiment differs from the first exemplary embodiment in that the register packet RR is only composed of four registers RR1, RR2, RR3, RR4 and is therefore less thick than the register packet RR from Fig. 1 is.

Secondly, the second exemplary embodiment differs from the first exemplary embodiment in that the register packet RR has on its side facing the cover element 4 a vertical intermediate wall VZW which extends from the lower end of the fan 9 to the lower end of the register packet RR. This vertical partition VZW separates the inside of the housing 2, 3 into a rear chamber K3, which contains the register package RR, and a front chamber K4.

Thirdly, the second exemplary embodiment differs from the first exemplary embodiment in that a suspension means 8 is provided in the interior of the housing 2, 3 in the front chamber K4. This suspension means 8 is in a horizontal direction parallel to the level of the register packet RR (ie perpendicular to the plane of the drawing) Fig. 1 ) extending bracket 8, which is attached to the vertical partition ZW. A towel H can be hung on this bracket 8, which then hangs from the bracket 8 in the front chamber K4.

Fourthly, the second exemplary embodiment differs from the first exemplary embodiment in that no water supply connections 15 with spray nozzles and / or atomizing nozzles are provided.

Fifth, the second exemplary embodiment differs from the first exemplary embodiment in that a horizontal partition HZW is provided, which extends between the fan 9 and the cover element 4. The horizontal partition wall HZW prevents a short-circuit flow of the air emerging from the fan 9 through the openings 12 and 13.

This in Fig. 2 The second exemplary embodiment of the temperature control body arrangement 1 according to the invention enables drying and heating of a towel H. In addition, similar to the first exemplary embodiment, it can be used on the one hand for heating or cooling and on the other hand for humidifying or dehumidifying the room air.

The heating, cooling or dehumidifying takes place in the part of the housing 2, 3 formed by the rear chamber K1, similarly to the heating, cooling or dehumidifying in the entire housing 2, 3 in the first exemplary embodiment. That for heating, cooling and dehumidifying in Fig. 1 What has been said applies accordingly to heating, cooling and dehumidifying Fig. 2 .

When the air is humidified, according to the second exemplary embodiment Fig. 2 hot water flows through the register package RR. The temperature of the hot water should again be as high as possible above the dew point of the air with the desired moisture content. Alternatively or in addition, electrical current is supplied to the electrical heating element EE. At the same time, water is released into the interior of the housing 2, 3 via the wet towel H hanging on the bracket 8 in the front chamber K2. The water present in the form of water droplets in the air or as water drops and / or as a wetting water film on the vertical intermediate wall ZW or on the electrical heating element EE in the housing is evaporated by the heating power of the register package RR and / or the electrical heating element EE. The heat emitted by the register package RR and / or the electric heating element EE in addition to the evaporation power into the interior of the housing 2, 3 also leads to an increase in the temperature of the humidified air inside the housing 2, 3, thereby causing a natural convection via the openings 11, 12 and 13 and via the optional openings 14 of the temperature control body arrangement 1 is started. The heated and humidified air in the front chamber K4 of the housing 2, 3 thus enters the room via the upper openings of the temperature control body arrangement 1, as a result of which the room air is heated and humidified, and arrives again via the lower openings of the temperature control body arrangement 1 back into the housing 2, 3.

If necessary, this natural convection can be intensified by the fan 9 or vice versa. For this purpose, the fan 9 promotes the heated and humidified air originating from the wet towel H in the front chamber K4 from bottom to top (in Fig. 1 not shown) or preferably from top to bottom (in Fig. 1 shown).

In order to further increase the drying power generated by the register package RR and the electric heating element EE when drying the towel H and moistening the room , the further heating element 17 can also be activated here, as a result of which the air conveyed by the fan 9 is even stronger than by the Register package RR and / or the electric heating element EE is heated. The air driven and heated by the fan 9 flows in the front chamber K4 from top to bottom along the hanging towel H. From the front chamber K4, a first part of this heated air humidified by the towel H reaches the room via the two vertical regions of the gap 13 and the lower horizontal part of the gap 13. A second part of this heated and humidified by the towel H air from the front chamber K4 reaches in the lower region of the housing 2, 3 from the front chamber K4 to the rear chamber K3, is heated there by the warm register package RR and rises in the rear Chamber K3 along the register packet RR upwards to finally enter the room via the horizontal slot-like opening 12.

Water dripping from the wet towel H goes directly into the water collecting pan 18 and from there into the water drainage connection 16 and is discharged.

In Fig. 3 A third exemplary embodiment of the temperature control body arrangement 1 according to the invention is shown. The temperature control body arrangement 1 is on a floor B and arranged on a wall W. It contains a carrier element 2, a frame element 3, a cover element 4 and an electrical heating element EE through which an electrical current can flow.

The structure of the third exemplary embodiment largely corresponds to the structure of the first and second exemplary embodiments. All elements of the in Fig. 3 shown third embodiment, that of the in Fig. 1 and in Fig. 2 shown embodiments correspond to in Fig. 3 the same reference numerals as in Fig. 1 or in Fig. 2 .

The third exemplary embodiment differs from the second exemplary embodiment firstly in that there is no register packet RR.

Secondly, the third exemplary embodiment differs from the second exemplary embodiment in that there is no vertical partition VZW.

Thirdly, the third exemplary embodiment differs from the second exemplary embodiment in that a further suspension means 8 is provided which is fastened to the carrier element 2.

Fourthly, the third exemplary embodiment differs from the second exemplary embodiment in that a horizontal intermediate wall HZW is provided as in the first exemplary embodiment and extends transversely between the carrier element 2 and the frame element 3 in the upper part of the housing 2, 3. This horizontal partition wall HZW separates the interior of the housing 2, 3 into an upper chamber K1, in which the fan 9 is located, and a lower chamber K2, in which the two suspension means or brackets 8 and two towels H1 and H2 suspended thereon are located. The horizontal partition wall HZW prevents a short-circuit flow of the air emerging from the fan 9 through the openings 12 and 13.

This in Fig. 3 The third exemplary embodiment of the temperature control body arrangement 1 according to the invention shown allows, primarily when the electrical heating element EE is switched on, drying and heating one or more towels H1, H2. In addition, similar to the first embodiment, it can be used for heating on the one hand and for moistening the other Indoor air can be used. In this case, forced convection of the air through the housing 2, 3 generated by the fan 9 is provided from top to bottom.

If required, the further heating element 17 arranged on the fan 9 can be switched on, as a result of which the heating power of the heating element EE and thus the drying power of the temperature control body arrangement 1 can be increased still further.

In Fig. 4 is a schematic front view (front view) of the inventive tempering body arrangement 1 of Fig. 1 , Fig. 2 and Fig. 3 shown. The wall W and the cover element 4 of the temperature control body arrangement 1 can be seen. The control panel 19 with control elements B1, B2, B3, B4, B5, B6 extends above the cover element 4. In the in Fig. 1 The view shown is the opening 7 of the housing 2, 3 surrounded by the frame element 3 (see Fig. 1 ) covered with its cover element 4 pivoted up in its vertical first position S1. The temperature control body arrangement 1 has further openings 11, 12, 13, 14 (see also Fig. 1 ), each of which allows air to pass through and thus overall air flow through the housing 2, 3.

At the upper end, the cover element 4 has at its upper edge a centrally arranged trapezoidal opening 11, which on the one hand allows air to pass through and on the other hand serves as a handle recess at which one can grasp the upper end of the cover element 4 and remove it from its vertical first position S1 in can move its inclined second position S2 and back again.

In 5A, 5B and 5C A fourth exemplary embodiment of the temperature control body arrangement 1 according to the invention is shown. The temperature control body arrangement 1 contains a lower temperature control body arrangement 1a and an upper temperature control body arrangement 1b. The temperature control body arrangement 1 is arranged above a floor B and on a wall W. It contains a carrier element 2, a frame element 3 ', a cover element 4 and an electrical heating element EE through which an electrical current can flow.

The structure of the fourth embodiment largely corresponds to the structure of the third embodiment. All elements of the in Fig. 5 shown fourth embodiment, that of the in Fig. 3 shown Correspond to embodiment, wear in Fig. 5 the same reference numerals as in Fig. 3 .

As in the third exemplary embodiment, no register packet RR (see Fig. 1 , Fig. 2 ) available.

As in the third embodiment, there is no vertical partition VZW (see Fig. 2 ) available.

As in the third exemplary embodiment, a further suspension means 8 is provided, which is fastened to the carrier element 2. One of the suspension means 8 belongs to the lower temperature control body arrangement 1 a. The other of the suspension means 8 belongs to the upper temperature control body arrangement 1b.

This in 5A, 5B and 5C The fourth exemplary embodiment of the temperature control body arrangement 1 according to the invention shown allows, primarily when the electrical heating element EE is switched on, drying and heating one or more towels H1, H2. In addition, it can be used in a similar way to the first exemplary embodiment for heating the room air.

Due to the much greater height of the temperature control body arrangement 1 of the fourth embodiment compared to the first three exemplary embodiments described above, this produces a natural convection from bottom to top, which is stronger than a corresponding natural convection in the previously described exemplary embodiments of lower overall height.

In addition, a fan 9 (see Fig. 1 , Fig. 2 , Fig. 3 ) an additionally generated forced convection of the air through the housing 2, 3 from bottom to top.

Alternatively, as in the aforementioned exemplary embodiments, a fan 9 (see FIG Fig. 1 , Fig. 2 , Fig. 3 ) forced convection of the air through the housing 2, 3 from top to bottom can be provided.

In all four exemplary embodiments, the cover element 4 can be mounted on a part of the support element 2 by means of joint elements with respect to the frame element 3 about a vertical axis or about a horizontal axis Frame element 3 can be rotatably arranged. The cover element 4 is thus always movable between a first position in which the cover element 4 covers the opening 7 of the housing 2, 3 and a second position in which the cover element 4 does not cover the opening 7 of the housing 2, 3.

Claims (15)

Temperature control body arrangement (1), which has a carrier element (2), a frame element (3), a cover element (4) and at least one temperature control body (RR1, RR2, ... RRn; EE) through which an energy-transporting medium can flow (5) and a discharge line (6) for the energy-transporting medium, wherein the carrier element (2) and the frame element (3) together form a housing (2, 3) which contains the at least one temperature control body (RR1, RR2, .. .RRn; EE), characterized in that the cover element (4) is arranged movably with respect to the carrier element (2) and with respect to the frame element (3) and is movable between a first position (S1) in which the cover element (4) an opening (7) of the housing (2, 3), and a second position (S2), in which the cover element (4) does not cover the opening (7) of the housing (2, 3). Temperature control body arrangement (1) according to claim 1, characterized in that the at least one temperature control body has a pipe register (RR1, RR2, ..., RRn) through which a heat transfer fluid flows, with a feed line (5) and a return line (6) for the heat transfer fluid is. Temperature control body arrangement (1) according to Claim 1 or 2, characterized in that the at least one temperature control body is a heating element or cooling element (EE) through which electrical current can flow, with a supply line (5) and a discharge line (6) for the electrical current. Temperature control body arrangement (1) according to one of claims 1 to 3, characterized in that it has a suspension means (8) in the interior of the housing (2, 3) and / or that the carrier element (2) and the frame element (3) together are rigidly connected and / or that at least one temperature control body (RR1, RR2, ... RRn; EE) with a feed line (5) and a discharge line (6) for the energy-transporting medium is arranged in the housing (2, 3). Temperature control body arrangement (1) according to Claim 4, characterized in that at least one temperature control body (RR1, RR2, ... RRn; EE) through which the energy-transporting medium flows can be removed from the surroundings of the temperature control body arrangement by means of the housing (2, 3) is thermally decoupled. Temperature control body arrangement (1) according to one of Claims 1 to 5, characterized in that at least one temperature control body (RR1, RR2, ..., RRm; EE) through which the energy-transporting medium can flow is arranged on the cover element (4), wherein It is advantageously provided that the cover element (4) is thermally coupled to the at least one temperature control body (RR1, RR2, ..., RRm; EE) and / or that the at least one temperature control body (RR1, RR2, ..., RRm; EE) is arranged on the side of the cover element (4) facing the housing (2, 3). Temperature control body arrangement (1) according to one of Claims 1 to 6, characterized in that a fan (9) is arranged in the interior of the housing (2, 3) and / or that the housing (2, 3) has at least one further opening ( 11, 12). Temperature control body arrangement (1) according to one of Claims 1 to 7, characterized in that there is a gap (13) between the cover element (4) and the housing (2, 3) when the cover element (4) has in its opening ( 7) of the housing (2, 3) covering the first position (S1). Temperature control body arrangement (1) according to one of claims 1 to 8, characterized in that the cover element (4) has at least one opening (14). Temperature control body arrangement (1) according to one of claims 1 to 9, characterized in that it has a water supply connection (15) for moistening the interior of the housing (2, 3) and a water discharge connection (16) for dehumidifying the interior of the housing (2, 3). Temperature control body arrangement (1) according to one of Claims 1 to 15, characterized in that it has an electrical heating element (17), the electrical heating element (17) advantageously being associated with the fan (9). Temperature control body arrangement (1) according to one of claims 1 to 11, characterized in that the at least one tube register (RR1, RR2, ... RRn) is formed from polymer material. Temperature control body arrangement (1) according to one of claims 1 to 12, characterized in that it is integrated in a piece of furniture, such as a wall unit, or in an intermediate wall or a room divider and / or that it contains at least one additional storage space which arranged next to the housing (2, 3) of the temperature control body arrangement (1) and separated from the housing (2, 3) by an intermediate wall, the intermediate wall advantageously containing openings which allow air to be exchanged between the at least one additional storage space and the interior of the housing (2, 3) of the temperature control body arrangement (1). Temperature control body arrangement (1) according to one of claims 1 to 13, characterized in that the cover element (4) has a light function, it being advantageously provided that the cover element (4) contains a passive light function and / or an active light function. Front wall arrangement which contains a temperature control body arrangement (1) according to one of Claims 1 to 14, wherein it is advantageously provided that there is a gap between the cover element (4) of the temperature control body arrangement (1) and the front wall and / or that the cover element (4) and the front wall are arranged flush / and / or that the cover element (4), additionally advantageously also at least a part of the housing, protrudes from the front wall.

Images