• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a system (10; 20) for regulating the heating temperature of one or more thermal garments, comprising means (11) for controlling the temperature of the heating means, means (12) for managing the level of heating. operatively connected to the temperature control means (11) and a feedback device (13) operatively connected to the means (12) for managing the heating level and adapted to generate at least one vibration when the user sets the heating level by means of the temperature management means (12).
    公开号:CH714710A2
    申请号:CH00254/18
    申请日:2018-03-02
    公开日:2019-09-13
    发明作者:Wagner Ivan;Del Bello Alan;Schneiter Andreas
    申请人:Tecinvent Electronics Development And Eng Sa;
    IPC主号:
    专利说明:

    CH 714 710 A2
    Description
    Field of the invention [0001] The present invention relates to a heating temperature regulation system, in particular of one or more thermal clothing. In a further aspect, the present invention relates to a heating system of one or more thermal garments provided with a heating temperature regulation system. Still in a further aspect, the present invention relates to a heatable and adjustable thermal garment provided with a heating system and / or a heating temperature regulation system.
    For the sake of brevity, in the following description, reference will be made to a diving suit equipped with thermal clothing, but what described can be applied to any type of technical clothing which is suitable for performing thermal heating functions.
    Prior art [0003] In sports and outdoor activities, for example winter sports such as skiing and snowboarding, a person is typically exposed to atmospheric conditions, such as cold, wind, water and snow which reduce their body temperature to values lower than normal. The heat dispersed by the user is even higher if the aforementioned sports and activities are carried out when the subject is totally immersed in water, for example during the practice of scuba diving, or is partially immersed in water, for example during fishing activities . Similarly, the heat dispersed by a subject is equally high during sports and activities practiced by exposing themselves to high travel speeds, for example during motorcycling or parachuting activities.
    [0004] To compensate for the reduction of body temperature, it is possible to use technical clothing of the thermal type, ie capable of maintaining the heat produced by the subject or limiting its dispersion. Thermal clothing can, for example, use one or more layers of technical material that constitute the thermal protection of the subject's body, or a portion of it, with respect to the surrounding environment. Taking as a reference a diving suit, this typically consists of one or more layers of synthetic rubber or polymeric material in general which define the layers of technical material. In the case of use in particularly adverse conditions, it is possible to use wetsuits made from multilayer materials made with a variety of materials designed to perform specific functions.
    [0005] A problem relating to the above types of thermal clothing consists in the fact that they are not particularly suitable in activities in which the subject's body loses heat very quickly and is unable to heat itself independently. For example, the movement of the water body induces a muscle heating lower than the heat dispersed due to the large thermal capacity of the water, which subtracts heat to a much greater extent than the air does.
    For this reason, thermal garments can be provided with, or operationally connected with, suitable heating means capable of increasing the temperature of the garment, or of the body of the person wearing it, independently of the heat generated from the body of the subject itself. In this way, it is possible to remedy the above-mentioned problems, allowing the heating of the subject's body independently and with a capacity and speed higher than that of the relative heat loss. The thermal garments provided with, or operationally connected with, the heating means and of the more advanced type further comprise suitable means for regulating the temperature of the heating means, which allow the subject to select the desired heating temperature. This allows to adapt the heating supplied to the needs of the subject, as well as to any changes in the environmental climatic conditions and in the heat generation capacity according to the effort performed or the position taken. A problem with the aforementioned thermal devices provided with means for controlling the temperature of the heating means, however, lies in the need for interaction of the subject who must distract his attention from the activity carried out for the selection or verification of the temperature, or level, of heating . This problem is particularly relevant in the case of activities or sports that require constant attention from the subject, for example in the case of motorcycle activities where visual attention to the surrounding environment cannot be placed in the background. Similarly, this problem is particularly relevant in the case of activities or sports carried out in environments in which the subject's visibility is particularly reduced, for example during diving.
    [0007] It would therefore be desirable to have a heating temperature regulation system, in particular one or more thermal garments, capable of minimizing the above mentioned drawbacks. In particular, it would be desirable to have a heating temperature regulation system of one or more thermal garments capable of optimizing the interaction of the subject in the selection or verification phases of the temperature, or level, of heating.
    Summary of the invention [0008] The purpose of the present invention is to provide a system for regulating the heating temperature of one or more thermal clothing capable of minimizing the aforementioned problems.
    Another object of the present invention is to provide a system for regulating the heating temperature of one or more thermal garments capable of optimizing the management of the heating by a subject in any environmental condition and during the practice of any sport or activities, especially of the outdoor type.
    CH 714 710 A2 [0010] The above mentioned objects are achieved by a system for regulating the heating temperature of one or more thermal garments in accordance with the attached claims.
    The system for regulating the heating temperature of one or more thermal garments, adapted to be operatively connected to heating means coupled to the thermal garments and adapted to be operatively connected to electric supply means of the heating means, comprises:
    - means for controlling the temperature of the heating means;
    - heating level management means operatively connected to the temperature control means, the heating level management means are designed to allow a user to set a heating level between a plurality of predefined heating levels, wherein each heating level corresponds to a predetermined working temperature range of the heating means;
    the temperature regulation system is characterized by the fact that it includes a feedback device operatively connected to the heating level management means and capable of generating at least one vibration when the user sets the heating level by means of the temperature management means.
    [0012] In particular, the feedback device is adapted to generate a vibration mode according to the set heating level, wherein the vibration mode is adapted to generate a number of vibrations in a unit of time and / or a vibration intensity and / or a predefined vibration duration according to the heating level set.
    [0013] The feedback device allows the user to obtain feedback from the management of the regulation system without distracting his attention from the activity performed.
    The heating level management means comprise at least one touch detection device, or contact, of the heating temperature regulation system, or a portion thereof, by the user, in which the contact mode detected is capable of allowing the user to set the heating level between the plurality of predefined heating levels, in which the detected contact mode is defined by the number of contacts detected in a unit of time and / or by the intensity of contact detected and / or the duration of the contact detected.
    [0015] The contact detection device allows the user to manage the desired heating level, or to set the working temperature range of the heating means, without distracting his attention from the activity performed. Furthermore, in combination with the feedback device, it allows you to create a practical, economic and extremely low energy heating regulation system.
    [0016] The contact detection device consists of at least one acceleration measurement sensor capable of detecting said contact mode.
    [0017] The realization of the contact detection device by means of the acceleration measurement sensor allows to create an extremely simple but effective input device.
    [0018] The heating temperature regulation system further comprises a wireless communication module, capable of operatively connecting the heating temperature regulation system to the heating means wirelessly. Preferably, the heating level management means are operatively connected to the temperature control means by means of a wireless connection.
    [0019] This solution is particularly advantageous in the case of heating means equipped with an autonomous electric power supply or in the case of positioning the heating means remotely from the temperature regulation system.
    [0020] The temperature control means of the heating means comprise a plurality of independent temperature regulation channels, wherein each temperature regulation channel is adapted to be operatively connected to an independent portion of the heating means of the thermal garment. or a plurality of thermal clothing. In particular, the temperature control means of the heating means comprise a power converter of the DC-DC type or a PWM pulse width switch, suitable for controlling the power supply means to define the working temperature range predetermined according to the heating level set by the user.
    [0021] The plurality of temperature regulation channels therefore allows the user to obtain optimal regulation according to the heating needs of each part of the body associated with the relative portion of the heating means.
    [0022] The above mentioned objects are further achieved by a heating system for one or more thermal garments in accordance with the attached claims.
    [0023] The heating system for one or more thermal garments comprises:
    - means for heating thermal clothing;
    - power supply means of the heating means;
    the heating system is characterized in that it comprises a system for regulating the heating temperature operatively connected to the heating means and to the power supply means, wherein the system for regulating the heating temperature is in accordance with the claims.
    CH 714 710 A2 [0024] The above mentioned objects are finally achieved by a heatable thermal garment characterized in that it comprises a heating system according to the claims.
    Description of the figures [0025] These and further characteristics and advantages of the present invention will become clear from the description of preferred embodiments, illustrated by way of non-limiting example in the attached figures, in which:
    fig. 1 is a schematic view of a first embodiment of the heating temperature regulation system, in accordance with the present invention;
    fig. 2 is a schematic view of a second embodiment of the heating temperature regulation system, in accordance with the present invention;
    fig. 3 is a schematic view of a first embodiment of the heating system, in accordance with the present invention;
    fig. 4 is a schematic view of a second embodiment of the heating system, in accordance with the present invention.
    Detailed description of the invention [0026] With reference to fig. 1, a first embodiment of the system 10 for regulating the heating temperature of one or more thermal garments (not shown), according to the present invention, is illustrated. In particular, in the following the same numbering will be maintained for the same elements but relating to different embodiments.
    [0027] Fig. 1 illustrates by way of example the system 10 for regulating the heating temperature, according to the present invention, suitable for use with suitable thermal clothing, for example a diving suit. By way of example and without limitation, the heating temperature regulation system 10 can be used in the practice of outdoor activities and sports, including skiing, snowboarding, diving, fishing and motorcycling.
    [0028] According to what will be described in greater detail below, the heating temperature regulation system 10 is adapted to define a temperature regulator operatively connected to, and suitable for controlling the heating temperature of, a single thermal garment or a plurality of thermal clothing, according to the type of thermal clothing used and the user's needs.
    [0029] Although not shown in fig. 1, the heating temperature regulation system 10 in accordance with the present invention is adapted to be operatively connected with suitable heating means and the relative electric power supply means.
    [0030] The heating temperature regulation system 10 comprises at least three distinct elements consisting of means 11 for controlling the temperature of the heating means, means 12 for managing the heating level and a feedback device 13.
    [0031] The temperature control means 11 are preferably made by means of an electronic controller capable of managing the electricity supplied to the heating means of one or more thermal clothing. These therefore allow adjustment of the amount of thermal energy supplied by the heating means or by a portion of the same, preferably according to the choices made by the user. In this regard, the aforesaid temperature control means 11 can comprise a power converter of the DC-DC type or a power converter of the PWM pulse width switch type, suitable for controlling the power supply means (not shown in fig. 1) to define the predetermined temperature range within which to maintain the heating means according to the heating level set by the user. The DC-DC type power converter is a circuit that converts a source of direct current from one voltage to another, in which each output voltage level corresponds to a heating level, that is to a specific temperature range, of the heating means to which they are connected. The PWM pulse width switch type power converter carries out the conversion of an electric power source through a digital modulation which allows to obtain an average voltage depending on the ratio between the duration of the positive and negative pulse.
    [0032] The aforesaid means 11 for controlling the temperature of the heating means can further comprise a plurality of independent temperature regulation channels, as illustrated in fig. 3 and described in greater detail below. Each temperature regulation channel is adapted to be operationally connected to an independent portion of the heating means of a single thermal garment, for example a portion of the heating means capable of defining the localized heating of the thermal garment. In the same way, each temperature regulation channel is adapted to be operatively connected to a plurality of thermal clothing coupled to the same heating temperature regulation system 10, thus defining a thermal clothing system.
    CH 714 710 A2 [0033] The means 12 for managing the heating level constitute an input device suitable for allowing a user to set a heating level which corresponds to a working temperature range for the heating means. In particular, the means 12 for managing the heating level can allow the user to select from a plurality of predefined heating levels, in which each heating level corresponds to a predetermined working temperature range of the heating means. The information relating to the above heating levels and the associated associated temperature ranges are preferably stored within the control means 11. In the embodiment described therein, the heating temperature regulation system 10 allows the user to be set on 5 predefined heating levels, corresponding to as many 5 temperature ranges in the management of the heating means and, in particular, at intervals temperature increasing from 0% to 100% of the heat output. The number of predefined heating levels can vary according to system 10 settings or user needs.
    The heating level management means 12 are preferably made by at least one touch detection device, or contact, of the heating temperature regulation system 10, or a portion thereof, by the user. For example, the contact detection device is able to detect contact at a predetermined contact surface of one or more user fingers, the palm of the hand or the portion of an arm. The contact surface is preferably an integral part of the heating temperature regulation system 10 or results in an external portion operatively connected with the aforementioned system 10. The aforementioned contact detection device therefore allows to detect the contact mode performed by the user so as to set the desired heating level between said plurality of predefined heating levels. In particular, the contact method can be defined by one or more parameters relating to the number of contacts in a unit of time and / or the intensity of contact and / or the duration of the contact. The detection of the contact mode according to one or more of the aforementioned contacts allows the user to set the desired heating level. By means of the above parameters it is also possible to modify the temperature regulation channel to be managed, in the embodiments provided with independent multiple channels for temperature regulation.
    In the embodiment described therein, the contact detection device consists of at least one acceleration measurement sensor, for example a digital accelerometer, capable of detecting the contact or touch movement, for example at the aforementioned contact surface. Different acceleration sensors can however be engaged without modifying the inventive concept according to the present invention. The realization of the contact detection device by means of the digital accelerometer allows to create an extremely simple but effective input device.
    [0036] Finally, the feedback device 13 is defined by an output device capable of generating at least one vibration when the user sets the heating level by means of the aforementioned means 12 for managing the heating level. This feedback device 13 is preferably defined by one or more vibration motors capable of returning feedback to the user, which is particularly useful when it is not possible or not convenient to use acoustic or visual signals. In particular, the feedback device 13 is adapted to generate a vibration mode according to the set heating level. This vibration mode is capable of generating a number of vibrations and / or an intensity of vibration and / or a predefined vibration duration according to the heating level set. The number of vibrating motors of the device 13 can therefore vary according to the areas for which it is possible to obtain selective management of the heating level or the number of thermal clothing which are coupled to the same heating temperature regulation system 10.
    [0037] As shown by way of example in fig. 1, the aforesaid temperature control means 11 are operatively connected with the heating level management means 12, in particular by means of a unidirectional connection A suitable for transferring information, i.e. commands for selecting the heating level set by the user, from the means 12 for managing the heating level to means 11 for controlling the temperature. Furthermore, the feedback device 13 is operatively connected to said heating level management means 12, in particular by means of a unidirectional connection B suitable for transferring information, i.e. commands for generations of a particular vibration mode, from the control means 11 to the feedback device 13. Even if not illustrated, further embodiments may include the possibility of bidirectional connections and / or a direct connection between the means for managing the heating level and the feedback device.
    [0038] Although not shown in the embodiment of fig. 1, the heating temperature regulation system can be provided with a wireless communication module. In this way, it is possible to connect the heating temperature regulation system to the heating means operatively wirelessly, a solution which is particularly advantageous in the case of heating means equipped with an autonomous electrical supply or in the case of positioning the heating means in positions away from the temperature regulation system.
    Further, the heating level management means can be operatively connected to the temperature control means by means of a wireless connection. In this way, the user can also set the heating level by arranging the means 12 for managing the heating level even remotely with respect to the control means.
    CH 714 710 A2 [0040] According to what is illustrated in the first embodiment of fig. 1, the aforementioned elements 11, 12 and 13 are enclosed within a single device that constitutes the entire temperature regulation system 10, capable of being fully integrated with the thermal clothing whose heating temperature must be managed. In the same way, it is possible to arrange the aforesaid elements 11, 12, 13 in a plurality of devices such as to be placed in different positions of the same thermal garment or of a plurality of thermal garments.
    [0041] With reference to the first embodiments illustrated respectively in fig. 1 and 3, the operation of the heating temperature regulation system 10 in connection with the relative heating system 100 is described below.
    [0042] It is assumed that the aforesaid system 10 for regulating the heating temperature is operatively connected to a thermal garment, in particular to a diving suit provided with the heating means 120 and the relative power supply means 110. In the embodiment described therein, it is assumed that the power supply means 110 consists of one or more batteries coupled to the heating temperature regulation system 10 by means of an electrical connector D. In an alternative embodiment (not shown), these can also be made using appropriate connectors or devices suitable for drawing the power supply from an external source.
    [0043] The suit is preferably provided with heating means 120 of the single type, that is, multiple heating means managed by a single channel E for regulating the temperature, normally off. In addition, the system 10 is integrated into the suit so as to place the digital accelerometer at the fingers and the contact surface for the touch at the chest. Different positions both for the accelerometer and for the contact surface can be foreseen.
    [0044] Preferably, the temperature regulation system 10 is provided with 5 predefined heating levels, where the heating level 1 corresponds to the heating means switched off and the heating level 5 corresponds to the maximum temperature range, and where the remaining Heating levels define incremental temperature ranges. It is also assumed that a contact, or touch, mode has been defined in which with a single touch the heating level is increased with respect to the previously assumed level.
    [0045] The heating temperature regulation system 10 is also provided with a feedback device 13, preferably defined by a single vibration motor integrated in the suit. It is therefore assumed that a vibration mode has been defined as a function of the set heating level, in particular such as to generate a number of vibrations equal to the numerical reference of the set heating level. A particular vibration mode, preferably relating to a particular sequence of vibrations in terms of the number of vibrations in the unit of time and / or vibration intensity, is further used to alert the user on the state of charge of the power supply means 110 , for example one or more batteries. Furthermore, in the event of a fault, the heating temperature regulation system 10 automatically sets the heating means 120 to the maximum heating level to guarantee the thermal functionality to the user. Also in this case, a particular vibration mode, in terms of the number of vibrations in the unit of time and / or vibration intensity, is used to warn the user about the malfunction. For example, the feedback device 13 can generate a sequence of vibrations consisting of several vibration cycles followed by a long pause (for example, between 10 seconds and 60 seconds).
    [0046] The number of heating levels, the parameters relating to the contact mode and the parameters relating to the vibration mode can be modified according to the needs of the user.
    [0047] To change the temperature range from heating level 1 to the next heating level 2, the user must make a single touch with his fingers on the predefined contact surface. The accelerometer of the heating level management means 12 therefore detects the contact and sends the command information, via connection A, to the temperature control means 11 which consequently increase the heating level, i.e. the temperature range associated with the heating means.
    [0048] Therefore, assuming level 1, or heating means 120 turned off, as the starting heating level, the temperature regulation system 10 modifies the heating level to level 2 by means of the power control managed by means 11 of temperature control.
    [0049] Changing the heating level by touching allows the user to optimize the management operations of the heating means 120 without distracting the visual attention from the activity or sport carried out. This is particularly relevant in sports where visibility is poor, for example water sports, or where safety is fundamental, for example in the practice of motorcycling.
    [0050] To confirm the set heating level to the user, the feedback device 13 is used and, in particular, the relative vibration motor. For level 2, the vibration motor will emit a number of vibrations equal to two in the predetermined time unit.
    [0051] The user can therefore proceed to increase the heating level by making further touches on the contact surface. The feedback device 13 will signal the set heating level by emitting a number of vibrations in the chosen time unit, typically a window of a few seconds, equal to the numerical reference of the level
    CH 714 710 A2 heating set. If the set heating level is at level 5 a further contact, or touch, of the user will bring the heating level back to level 1, turning off the heating means 120 and signaling the user to this level with the emission of a single vibration by the feedback device 13.
    [0052] Fig. 4 shows a second embodiment of the heating system 200 provided with the same heating temperature regulation system 10. In particular, the heating system 200 is provided with a plurality of heating means 120 ', 120' and, in the same way, the heating temperature regulation system 10 is provided with a plurality of channels E ', E, E independent temperature regulation. Each temperature regulation channel E ', E, E is adapted to be operatively connected to an independent portion of the heating means 120', 120 ', or to multiple heating means managed independently of the aforementioned plurality of channels E', E, And temperature regulation. This plurality of heating means 120 ', 120' can be used for sectioned heating of a single thermal garment and / or for localized heating of a plurality of thermal garments.
    [0053] The foregoing for the first embodiment also applies mutatis matandis to the second embodiment. Therefore, the ways in which the user can change the heating level remain the same. In addition, the user can and must select on which channel E ', E, E for temperature regulation to set the desired heating level, or on which of the plurality of means 120', 120 'act and set the desired heating level .
    [0054] In the second embodiment described therein there are three channels E ', E, E for regulating the temperature, but the number of the channels for regulating the temperature can vary without changing the inventive concept.
    [0055] To change the temperature regulation channel from the first channel, for example channel E ', to the second channel, for example channel E », it is necessary for the user to perform a number of touches in the unit of equal time to the number assigned to the desired channel. The accelerometer of the heating level management means 12 detects the touches and sends the command information, via the unidirectional connection A, to the temperature control means 11 which consequently activate the desired temperature regulation channel. The unidirectional connection A is considered such by analyzing the high level communication system. In fact, the low-level system is in any case made up of a two-way communication in which, for example, it is verified that what has been commanded has actually been carried out. [0056] Therefore, assuming that the heating level of the heating means 120 'corresponding to the third channel E' is to be changed, the heating temperature regulation system 10 carries out, by means of the temperature control means 11, an action selective of the aforementioned third channel E by which to set the desired heating level according to what described in the first embodiment. In particular, to change the heating level of the heating means 120 ', or of the third channel E of regulation, the user must make three consecutive touches on the contact surface. The aforementioned touches, or contacts, are analyzed in a predetermined time window, preferably corresponding to a few seconds. If the temperature control means 11 detect a single touch in the time unit, the user will be able to change the heating level of the first channel E '. In the same way, if the temperature control means 11 identify two or three touches in the aforementioned time unit, the user will be able to modify the heating level of the second channel E or the third channel E 'respectively, taking up what has been described in the first embodiment.
    [0057] As previously described, the feedback device 13 is used to confirm the modification made with respect to the set temperature regulation channel and, in particular, the relative vibration motor. The above description for the first embodiment can be applied matatis mutandis. In particular, it is possible that the feedback device 13 is provided with several motors, each motor being able to define the relative vibration mode in relation to one of the temperature regulation channels to which it is operatively connected. Furthermore, the aforementioned plurality of vibration motors can be arranged in different positions of a thermal garment, or on different thermal garments, in correspondence with the heating means of which I define the reference.
    [0058] A second embodiment of the system 20 for regulating the heating temperature of one or more thermal garments, in accordance with the present invention, is illustrated in fig. 2. In particular, the same numbering described for the first embodiment of fig. 1 where the components do not show significant variations. This second embodiment of the heating temperature regulation system 20 can be used in both embodiments of the previously described heating systems 100, 200, replacing the first embodiment of the heating temperature regulation system 10.
    The heating temperature regulation system 20 corresponds to the system 10 of the first embodiment, described above and illustrated in fig. 1, and further includes an additional input device designed to allow the user to set a heating level that corresponds to a working temperature range for the heating means. In particular, the aforementioned second embodiment comprises a computerized mobile device 14 provided with a suitable software suitable for interacting with the temperature control means 11 of the system 20. The computerized mobile device 14 is suitable for being connected to the regulation system 20 of the heating temperature and, in particular, to the means 11 for controlling the temperature by means of a connection C which is preferably of the wireless type. In this case, the aforesaid heating temperature regulation system 20 is provided with the wireless connection module which is capable of enabling the aforementioned connection C. In particular,
    CH 714 710 A2 the latter is preferably of the bidirectional type, i.e. the computerized mobile device 14 is able to send 20 information to the system regarding the setting of the heating level to be set. In the same way, the system 20 is able to send to the device 14 information about the set heating level, to provide a refund to the user.
    [0060] With reference to the aforementioned second embodiment illustrated in fig. 2, the operation of the aforesaid system 20 for regulating the heating temperature is described below, for the sake of simplicity excluding the phases which relate, mutatis mutandis, to what has already been described previously for the first embodiment of fig. 1.
    [0061] The computerized mobile device 14 allows the user, as an alternative to the contact detection device, to change the heating level of the heating means. In this case, the user interface allows the user to set the desired heating level and instantly check for any level changes. Furthermore, it is possible to check the current energy consumption according to the selected level, as well as obtain information on the status of the power supply means of the system 20, for example of the battery.
    In a further aspect, the computerized mobile device 14 is able to allow the personalized definition of the working temperature ranges for each heating level, as well as to define the number of the heating levels itself. In this way, the user can customize the heating levels and the associated working temperature ranges for the subsequent use of the system 20 without the computerized mobile device 14 and through the contact detection device as the input device for the system.
    权利要求:
    Claims (9)
    [1]
    [0063] The heating temperature regulation system 20 described therein, while losing the characteristics of managing the temperature without any visual distraction, allows to carry out checks on the system 20 before or after carrying out the activities for which it is proposed, as well as the system 20 customization according to user needs. [0064] In this description the use of a diving suit as a thermal garment has been described, but it is possible to use any other type of thermal garment. In particular, it is possible to use the heating level regulation system, according to one of the described embodiments, when the thermal garment is already equipped with suitable heating means. In the same way, it is possible to use the heating system, according to one of the described embodiments, when the thermal garment is not equipped with suitable heating means. In any case, both solutions define a heated and adjustable type thermal garment.
    [0065] The use of components with reduced electrical consumption and the lack of components that absorb high quantities of electricity such as a screen and the relative controls contribute to making the temperature regulation system, the relative heating system and the garment heating system equipped with a temperature regulation system or a particularly economical, light heating system with a high operating cycle.
    claims
    1. System (10; 20) for regulating the heating temperature of one or more thermal clothing, said system (10; 20) for regulating the heating temperature being able to be operatively connected to means (120; 120 ', 120 heating) coupled to said thermal clothing and being able to be operatively connected to electric power supply means (110) of said heating means (120; 120 ', 120'), said system (10; 20) for regulating the heating temperature includes:
    - means (11) for controlling the temperature of said heating means (120; 120 ', 120');
    - heating level management means (12) operatively connected to said temperature control means (11), said heating level management means (12) are adapted to allow a user to set a heating level between a plurality of predefined heating levels, wherein each heating level corresponds to a predetermined working temperature range of said heating means (120; 120 ', 120'); said temperature regulation system (10; 20) is characterized in that it comprises a feedback device (13) operatively connected to said heating level management means (12) and capable of generating at least one vibration when said user sets said heating level by means of said temperature management means (12).
    [2]
    Heating temperature regulation system (10; 20) according to claim 1, wherein said feedback device (13) is adapted to generate a vibration mode according to said set heating level, wherein said vibration mode is adapted to generate a number of vibrations in a unit of time and / or a vibration intensity and / or a predefined vibration duration according to said set heating level.
    [3]
    Heating temperature regulation system (10; 20) according to claim 1 or 2, wherein said heating level management means (12) comprise at least one touch detection device, or contact of said system ( 10; 20) for regulating the heating temperature, or a portion thereof, by the said user, in which the detected contact mode is adapted to allow the said user to set the said heating level between the said plurality of levels predefined heating, in which said detected contact mode is defined by the number of contacts detected in a unit of time and / or by the detected contact intensity and / or by the duration of the contact detected.
    CH 714 710 A2
    [4]
    4. Heating temperature regulation system (10; 20) according to claim 3, wherein said contact detection device consists of an acceleration measurement sensor.
    [5]
    Heating temperature regulation system (10; 20) according to one or more of claims 1 to 4, comprising a wireless communication module, capable of operatively connecting said temperature regulation system (10; 20) wirelessly heating to said heating means (120; 120 ', 120').
    [6]
    Heating temperature regulation system (10; 20) according to one or more of claims 1 to 5, wherein said heating level management means are operatively connected to said temperature control means by means of a connection without wires.
    [7]
    Heating temperature regulation system (10) according to one or more of claims 1 to 6, wherein said temperature control means (11) of said heating means (120 ', 120') comprise a plurality of independent temperature regulation channels (E ', E, E'), wherein each of said temperature regulation channel (E ', E, E') is adapted to be operatively connected to an independent portion of said means ( 120 ', 120') for heating said thermal garment or a plurality of said thermal garments.
    [8]
    Heating temperature regulation system (10; 20) according to one or more of claims 1 to 7, wherein said temperature control means (11) of said means (120; 120 ', 120') of heating systems comprise a power converter of the DC-DC type or a PWM pulse width switch, suitable for controlling the said power supply means (110) to define the said predetermined working temperature range according to the said heating level set by the said user.
    [9]
    9. Heating system (100; 200) for one or more thermal clothing comprising:
    - means (120; 120 ', 120') for heating said thermal clothing;
    - electric power supply means (110) for said heating means (120; 120 ', 120');
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    同族专利:
    公开号 | 公开日
    CH714710B1|2022-01-31|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2020-10-30| PFA| Name/firm changed|Owner name: TECINVENT ELECTRONICS SA, CH Free format text: FORMER OWNER: TECINVENT ELECTRONICS DEVELOPMENT AND ENGINEERING SA, CH |
    优先权:
    申请号 | 申请日 | 专利标题
    CH00254/18A|CH714710B1|2018-03-02|2018-03-02|Thermal clothing heating temperature regulation system, heatable and adjustable heating and thermal garment system.|CH00254/18A| CH714710B1|2018-03-02|2018-03-02|Thermal clothing heating temperature regulation system, heatable and adjustable heating and thermal garment system.|
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