Abstract:
The present invention relates to a temperature control device with at least one heat source and, additionally or alternatively, a heat sink and with at least one temperature detector for monitoring the temperature of the temperature control device. It is provided that the temperature control device comprises a sensor temperature control device that can be selectably switched on in order to additionally temper the temperature detector at least in some operating stages.

Description:
FIELD 
     The teachings relate to a temperature control device that comprises a sensor temperature control device that can be selectably switched on in order to additionally control the temperature detector at least in some operating stages. 
     SUMMARY 
     Details of the invention are explained in the following specification and in the claims. These explanations should make the invention understandable. However, they only have exemplary character. Of course, individual or several described features can also be omitted, modified or supplemented in the scope of the invention defined by the claims. Also, the features of different embodiments can of course be combined with each other. If a feature is to be met at least partially, this includes that this feature is also completely or substantially completely met. It is decisive that the change allows the object of the desired use to a recognizable extent, for example, in that a corresponding feature is met to at least 50%, 90%, 95% or 99%. If a minimum amount is indicated, even more than this minimum amount can of course be used. That which is described for an object can also be used for the predominate part or the totality of all other objects of the same type. In as far as nothing else is indicated, intervals also include their end points. The present application claims the benefit of DE 10 2011 118.774.3, filed on Nov. 17, 2011; DE 10 2011 121 978.5, filed on Dec. 26, 2011; and DE 10 2012 020 848.0, filed on Oct. 24, 2012, the contents of which are expressly incorporated by reference herein for all purposes. 
     One embodiment of the present teachings relates to a temperature control device with at least one heat source and, additionally or alternatively, a heat sink and with at least one temperature detector for monitoring the temperature of the temperature control device, characterized in that the temperature control device comprises a sensor temperature control device that can be selectably switched on in order to additionally temper the temperature detector at least in some operating stages. 
     Another embodiment of the present teachings relates to a method for operating a temperature control device with a temperature detector at least two different temperature stages, characterized in that in a first operating stage a heat source or a cooling device is in operation and its temperature is monitored by the temperature detector, and that in a second operating stage a sensor temperature control device is additionally switched on in order that another operating temperature is adjusted on the temperature control device and/or on the temperature detector than during the operation of the temperature control device without an additional control of the temperature detector. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       Reference is made in the following to: 
         FIG. 1  vehicle with a seat and temperature control device included in it. 
         FIG. 2  top view of a sensor of a control further development. 
     
    
    
     DETAILED DESCRIPTION 
     The present invention relates to a vehicle  1 . The concept “vehicle” means in particular a device for transporting people and/or goods. For example, land vehicles, water vehicles track vehicles and aircrafts, especially airplanes, ships and automobile motor vehicles are conceivable. 
     The invention also relates to a climate control stretch  2 . The words “climate control stretch” comprise in particular an object that should be influenced at least as regards at least one climate parameter, thus is subject to a control and/or regulation, in particular in order to bring it at least briefly to a certain theoretical value or into a theoretical range and/or to maintain it there permanently. This preferably applies to those parts of its surface with which a medium can come in contact in accordance with regulations or with which a user can come in contact with at least potentially when using the object. In particular, seats surfaces, steering wheels, control sticks or other structural elements with a support surface come into question. 
     Such a climate control stretch  2  comprises at least one temperature control device  3 . “Temperature control device” means in particular a device that can be used for the purposeful changing of the temperature in its environment especially for adapting the temperature to a planar control zone. For example, heating devices  4 , cooling devices  5 , Peltier elements, heat conduction tubes and/or an air movement device such as, for example, a ventilator are conceivable. In many instances, it is advantageous if the temperature control device is designed for an operation with direct current and/or for an operating with low voltage, in particular for 12 V or 24 V. 
     In an appropriate manner at least one temperature control device  3  has at least in part one position that has a low thermal insulation relative to a zone to be tempered as a consequence. This makes possible a low consumption of energy and a rapid, effective heating. A temperature control device  3  can be arranged in particular on a padding  10  and covered by a covering  11 . 
     At least one temperature control device  3  advantageously comprises at least one carrier  17 . “Carrier” comprises in particular a device for mechanically relieving the load on a heating part and/or for fixing its spatial position. For example, the climate control stretch  2  itself, an auxiliary textile or a part of its surface are conceivable. 
     At least one temperature control device  3  advantageously comprises at least one control strand  19 . The words “control strand” comprise in particular a strand-shaped structural part for charging or removing heat along the strand, in particular a heating wire or a thermal conduction tube. “Heat conduction tube” designates a tubular structural part in the interior of which a fluid can transport heat very efficiently by evaporation. 
     At least one control strand  19  advantageously has at least in part a diameter of 0.05 to 10 mm, in particular 0.1 to 4 mm, especially 1 to 2 mm. 
     In an appropriate manner at least one control strand  19  has at least in part one position that results in an efficient heating of air passing by and/or of a seat surface or hand support surface. A laying of layers along a surface to be heated or windings about a conduit is advantageous. 
     At least one temperature control device  3  advantageously comprises a structural part for controlling a controlling zone. This includes, in particular heating devices  4  or cooling devices  5 . 
     At least one heating device  4  advantageously comprises at least one heat source  18 . The concept “heat source” means, in particular an electrical resistor whose thermal energy emitted during the flowthrough of current serves directly or indirectly to heat a climate regulation stretch. For example, single-wire or multi-wire conductor strands with individual strands that are insulated at least in part from one another, for example, lacquer-insulated wires with a copper and/or steel component. However, even Peltier elements or heat conduction tubes can be considered. 
     At least one heat source  18  advantageously consists at least in part of an electrically conductive material. Insulated or non-insulated wire strands or hardened conductive paste are cited as examples. 
     At least one cooling device  5  advantageously comprises at least one heat sink  55 . The concept “heat sink” means, in particular a Peltier element or a heal conduction tube whose thermal energy serves directly or indirectly for heating a climate control stretch. 
     A temperature control device  3  advantageously comprises at least one temperature detector  7  and/or a thermal switch  16 . The designation “thermal switch” means, in particular a device that on the one hand, has a temperature detector  7  in order to detect when certain temperature values are exceeded or dropped below and on the other hand, has a switching device  8  in order to switch the operating state and/or an electric current from a first to a second operating state as a function of determined temperature values. This permits a suppression of an inadmissible heating or cooling and permits an operation of a temperature control device at a level comfortable for an individual user. For example, an NTC or a thermostat is suitable. 
     A thermal switch  6  preferably comprises at least one sensor temperature control device  9 . The words “sensor temperature control device” comprise in particular an additional heating  12  with at least one second heating part  25  in order to heat the thermal switch  6  and the temperature detector  7  selectively independently and additionally to the regular heat sources  1 . This brings about a behavior of the temperature detector  7  and of the thermal switch  6  as if the theoretical temperature of the temperature control device had already on the whole attained the theoretical temperature. This brings about a “premature” turning off, that is, in the end, a regulating of the heating device  4  to a lower theoretical temperature. In particular, heating parts  25  are advantageous, that have the same construction as the heat sources  18  that are provided in any case in the electrical heating device  4 . 
     It can be especially advantageous if the additional heating  12  remains turned off in a heating stage with high heating performance, for example, at a theoretical temperature of 37° C. This favors a traditional operation of the heating device  4  and a turning off of a heating current upon the attaining of the theoretical temperature, for example, in that the temperature detector  7  is designed as an NTC/thermostat or as a part of it. 
     It is preferable if the sensor temperature control device  9  is cut in addition to the regular heat sources  18  in another heating stage with a lower theoretical heating performance, for example, at a theoretical temperature of 28° C. As a result of the additional heating of the thermal switch  6  or of the temperature detector  7  it always heats up faster than the total surface heated by the electrical heating device  4 . Since this is the case at every switching cycle, the heating device  4  is regulated in the end in this operating mode at a temperature level that is lower than the actual theoretical temperature of the thermal switch  6 . 
     It can be advisable that an additional heating  12  has a metallic wire, in particular with copper and/or silver and/or carbon fibers. 
     However, the concept “sensor temperature control device” can also refer to an additional cooling device  50  in order to cool the sensor selectively independently and additionally to a regular cooling device. Among others, heat conduction tubes or Peltier elements analogous to the regular cooling elements provided in any case in the cooling device  5  can be considered. This brings about a behavior of the thermal switch  16  and of the temperature detector  7  as if the theoretical temperature of the temperature control device  3  had on the whole attained the theoretical temperature only at a later point in time. Since this is the case in every switching cycle, the cooling device  5  is regulated in the end in this operating mode to a temperature level that is higher than the actual theoretical temperature of the thermal switch  6 .