JP6578893B2 - Heater device - Google Patents

Description

  The present invention relates to a heater device.

  Conventionally, it has an electric heating pad arranged on the back of the front seat of the vehicle, the radiation heat radiation area radiated from the electric heating pad is adjusted according to the setting angle of the seat back of the front seat, and the radiation heat radiation direction is Some are configured to be set in a direction toward the occupant's crotch (see, for example, Patent Document 1).

JP 2011-246093 A

  In a vehicle equipped with the device described in Patent Document 1, the place to be warmed differs depending on the passenger's preference. Also, the place to be warmed varies depending on the riding scene, such as during warm-up immediately after the passenger gets on the vehicle or after heating.

  However, the device described in Patent Document 1 has a problem that only a limited part can be heated because the electric heating pad is fixed to the back of the front seat of the vehicle as an interior part of the vehicle. is there.

  In addition, in a riding scene where only one passenger is in the rear seat, the rear passenger's feeling of heating can only be obtained with the electric heating pad on the side where the passenger is present, on the back of the two front seats. Thus, there is a problem that the electric pad on the side where no passenger is present becomes idle equipment and is wasted.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a heater device capable of performing heating suitable for passenger preference and a riding scene.

In order to achieve the above object, the invention described in claim 1 includes a heat generating surface (21) that generates heat by energization, and at least one heater section (22) that radiates radiant heat by heat of the heat generating surface; A plurality of installation mechanisms (3) that are attached to a plurality of parts in the vehicle interior and that detachably hold and fix the heater unit, and a mounting location specification that specifies the installation location of the installation mechanism in the vehicle interior where the heater unit is held and fixed Unit (S108), and an energization amount correction unit (S112) that corrects the energization amount to the heating surface according to the installation location of the installation mechanism in which the heater unit specified by the installation location specifying unit is held and fixed. ing.

According to such a configuration, a plurality of installation mechanisms that detachably hold and fix the heater portion are mounted at a plurality of parts in the vehicle interior, and the occupant can selectively hold and fix the heater portion. Heating suitable for preference and riding scene can be performed.
In order to achieve the above object, the invention described in claim 3 has a heat generating surface (21) that generates heat by energization, and at least one heater section (22) that radiates radiant heat by heat of the heat generating surface; A plurality of installation mechanisms (3) that are attached to a plurality of parts in a vehicle interior of the vehicle and detachably hold and fix the heater unit, and are installed in a plurality of installation locations for warming one occupant in the vehicle interior A heater determination unit (S210) for determining whether or not a heater unit is installed in a plurality of installation mechanisms among a plurality of mounting locations for warming one passenger, and a heater determination unit. Accordingly, when it is determined that the heater unit is installed in a plurality of installation mechanisms among a plurality of installation locations that warm one occupant, one installation mechanism among the plurality of installation locations that warm one occupant One heater is installed in Than it is also provided with a heater output adjustment section that adjusts to reduce the amount of electricity supplied to the heater unit installed in a plurality of mounting locations warming the one occupant and (S214), the.
According to such a configuration, a plurality of installation mechanisms that detachably hold and fix the heater portion are mounted at a plurality of parts in the vehicle interior, and the occupant can selectively hold and fix the heater portion. Heating suitable for preference and riding scene can be performed.

  In order to achieve the above object, the invention described in claim 7 includes a heater part (22) having a heat generating surface (21) that generates heat by energization, and radiating radiant heat by heat of the heat generating surface, and a vehicle vehicle. And an installation mechanism (3) that is mounted in the room and holds and fixes the heater part in a detachable manner.

  According to such a configuration, the occupant can install the installation mechanism that detachably holds and fixes the heater part at a desired location in the vehicle interior of the vehicle, and can hold and fix the heater part to the installation mechanism. Heating suitable for passenger preference and riding scene can be performed.

  In addition, the code | symbol in the bracket | parenthesis of each means described in this column and the claim shows the correspondence with the specific means as described in embodiment mentioned later.

It is the figure which showed the vehicle mounting position of the heater apparatus which concerns on 1st Embodiment of this invention. It is a perspective view of the heater device concerning a 1st embodiment of the present invention. It is a block diagram of the heater device concerning a 1st embodiment of the present invention. It is a flowchart of the control apparatus of the heater apparatus which concerns on 1st Embodiment. It is a flowchart of the control apparatus of the heater apparatus which concerns on 2nd Embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following embodiments, the same or equivalent parts are denoted by the same reference numerals in the drawings.

(First embodiment)
The heater device 20 according to the first embodiment of the present invention is installed in a road vehicle as shown in FIG. The heater device 20 is an electric heater that generates heat by being fed from a power source such as a battery or a generator mounted on the vehicle. In addition, the heater device 20 of the present embodiment generates heat by feeding power from a battery mounted on the vehicle. The heater device 20 is installed on the back surface of the front seat 10 in the vehicle interior, the front edge of the seating portion of the rear seat 11 in the vehicle interior, and the door 12 of the rear seat in the vehicle interior.

  FIG. 2 shows a state in which the heater unit 22 of the heater device 20 according to the embodiment of the present invention is installed in the installation mechanism 3. The heater device 20 includes a heater unit 22 and an installation mechanism 3. The heater unit 22 has a heat generating surface 21 that generates heat when energized, and radiates heat by the heat of the heat generating surface 21. The installation mechanism 3 is disposed in the interior of at least two parts in the vehicle interior, and holds and fixes the heater unit 22 so as to be detachable.

  The heat generating surface 21 of the heater portion 22 of the present embodiment has an upper heat generating surface 21a and a lower heat generating surface 21b. The upper heat generating surface 21a is disposed in the upper half area of the heat generating surface 21 of the heater section 22, and the lower heat generating surface 21b is disposed in the lower half area.

  The upper heat generating surface 21a and the lower heat generating surface 21b are independently controlled by the control device 40 described later. That is, the control device 40 can perform control so that the heat generation amounts of the upper heat generating surface 21a and the lower heat generating surface 21b are different.

  The upper heat generating surface 21a is provided with a temperature sensor 22a that detects the temperature of the upper heat generating surface 21a. The lower heat generating surface 21b is provided with a temperature sensor 22b that detects the temperature of the lower heat generating surface 21b. Each of the temperature sensor 22a and the temperature sensor 22b has a resistance temperature detector, and outputs a temperature sensor signal corresponding to the temperature detected by the resistance temperature detector to the control device 40 described later.

  A heater connector 23 is provided on the lower heat generating surface 21b. The heater connector 23 has a power supply terminal for energization and an output terminal (none of which is shown) for outputting a sensor signal output from the temperature sensor 22a.

  The upper heat generating surface 21a and the lower heat generating surface 21b generate heat when energized. In order to warm the object positioned in a direction perpendicular to the upper heat generating surface 21a and the lower heat generating surface 21b, the heater device 20 mainly emits radiant heat R in a direction perpendicular to the upper heat generating surface 21a and the lower heat generating surface 21b. Radiate.

  In addition, on the side surface of the heater portion 22, a mis-insertion preventing protrusion 24 that prevents the heater portion 22 from being inserted into the installation mechanism 3 in the upside down direction is formed. When an attempt is made to insert the heater portion 22 upside down into the installation mechanism 3, the erroneous insertion prevention protrusion 24 comes into contact with a side plate portion 30 of the installation mechanism 3 to be described later, and the heater portion 22 is inserted into the installation mechanism 3 from the wrong direction. It cannot be inserted.

  For example, when the occupant changes the output of the upper heat generating surface 21a and the lower heat generating surface 21b according to his / her preference, if the heater unit 22 can be installed in the installation mechanism 3 in the upside down direction, the occupant can perform desired heating. You will not get a feeling. However, since the heater portion 22 cannot be inserted into the installation mechanism 3 with the heater portion 22 turned upside down by the erroneous insertion preventing protrusion 24, the passenger can obtain a desired feeling of heating.

  The installation mechanism 3 uses a magic tape-shaped member (magic tape is a registered trademark) for the rear surface of the front seat 10 in the vehicle interior, the front edge of the seating portion of the rear seat 11 in the vehicle interior, and the rear seat of the vehicle interior. It is attached to the door 12. The magic tape includes a first tape having hook members raised like a hook on the surface side and a second tape having loop members densely raised like a loop on the surface side. Adhesives are attached to the back surfaces of the first tape and the second tape.

  For example, when mounting the installation mechanism 3 on the back surface of the front seat 10 in the vehicle interior, the back surface of either the first tape or the second tape is attached to the back surface of the front seat 10 in the vehicle interior, The other back surface of the first tape and the second tape is attached to the installation mechanism 3.

  Then, the first tape and the second tape are adhered to each other by pressing the hook member on the surface side of the first tape and the loop member on the surface side of the second tape so as to face each other, and the back surface of the front seat 10 in the vehicle interior The installation mechanism 3 is attached to the.

  Vehicles have seats on the left and right, such as a driver seat and a passenger seat. Therefore, the installation mechanism 3 includes the rear surface of the driver seat and the rear surface of the passenger seat, the front edge of the seating portion of the driver seat side rear seat, the front edge of the seat portion of the passenger seat side rear seat, and the driver seat side. It is installed at six locations, the rear seat door and the passenger seat side rear seat door.

  When the installation mechanism 3 is attached to the back surface of the front seat 10 in the vehicle interior and the heater unit 22 is installed in the installation mechanism 3, the radiant heat radiated from the heater unit 22 is mainly generated on the shin of the foot of the passenger in the rear seat. To reach.

  Further, when the installation mechanism 3 is attached to the front edge of the seating portion of the rear seat 11 in the vehicle interior, and the heater unit 22 is installed in the installation mechanism 3, the radiant heat radiated from the heater unit 22 is mainly the rear seat. Reach the shin of the occupant.

  Further, when the installation mechanism 3 is attached to the rear seat door 12 of the vehicle interior, and the heater unit 22 is installed in the installation mechanism 3, the radiant heat radiated from the heater unit 22 is mainly on the passenger side of the rear seat passenger side. Reach the thigh part.

  In the present embodiment, at least two heater portions 22 are prepared. That is, the number of installation mechanisms 3 is greater than the number of heater units 22. A passenger in the rear seat of the vehicle can obtain a feeling of heating by installing the heater portion 22 in the installation mechanism 3 at a desired place among the plurality of installation mechanisms 3 installed in the vehicle interior.

  For example, a passenger on the rear side of the driver's seat installs the heater unit 22 in the installation mechanism 3 mounted on the door on the rear seat of the driver's side, and a passenger on the rear side of the passenger seat It is possible to install the heater part 22 in the installation mechanism 3 attached to the front edge of the seating part.

  Further, when there is a passenger in the rear seat of the driver's seat and no passenger in the rear seat of the passenger seat, the passenger in the rear seat of the driver seat is installed in the installation mechanism 3 on the passenger seat side. The heater portion 22 thus made can be added to the installation mechanism 3 on the driver's seat side.

  Further, a heater unit 22 is installed on each of the installation mechanism 3 mounted on the back surface of the driver seat and the installation mechanism 3 mounted on the front edge of the seating portion of the driver seat side rear seat. Thus, it is possible to use two heater devices 20.

  That is, not only the so-called single use in which one occupant uses one heater part 22, but also the so-called double use in which one occupant uses two heater parts 22 or three occupants in one occupant. It is possible to use three so-called three heater parts 22.

  As shown in FIG. 2, the installation mechanism 3 includes two plate-like side plate portions 30 that extend in the vertical direction and a bottom plate portion 31 that connects the two side plate portions 30. The side plate portion 30 and the bottom plate portion 31 are made of resin and are integrally formed.

  On the opposing surfaces of the two side plate portions 30, a cutout portion 30a extending in the vertical direction is formed. The bottom plate portion 31 is provided with six installation mechanism connectors 32. The installation mechanism connector 32 has a power supply terminal for energization and a sensor signal terminal (none of which is shown) for outputting temperature sensor signals output from the temperature sensors 22a and 22b. The installation mechanism connector 32 is a power supply unit 32 that supplies power from the power source 60 to the heater unit 22.

  The power terminal of the installation mechanism connector 32 is connected to one end side of the power cable 41. A cigar plug that is inserted into the cigar socket of the vehicle is provided on the other end side of the power cable 41. The cigar socket of the vehicle is connected to a vehicle battery 60 corresponding to a power source. That is, the power terminal of the installation mechanism connector 32 is connected to the vehicle battery 60 via the power cable 41 and the cigar socket.

  The sensor signal terminal of the installation mechanism connector 32 is connected to the control device 40 via a connection line. In addition, an identification signal for identifying the installation mechanism 3 corresponding to the installation mechanism connector 32 is input to the control device 40. Based on this identification signal, the control device 40 can identify the location where the temperature sensor signal input from the installation mechanism connector 32 is output from the installation mechanism 3 mounted in the vehicle interior. ing.

  Next, installation of the heater unit 22 in the installation mechanism 3 will be described. When installing the heater unit 22 in the installation mechanism 3, first, the heater connector 23 is positioned below the heater unit 22, and the heater unit 22 is positioned upward of the installation mechanism 3 and the two side plate portions. It arrange | positions between the notch parts 30a formed so that 30 might be opposed.

  Then, the heater unit 22 is moved from the upper side to the lower side of the installation mechanism 3 until the bottom surface of the heater unit 22 contacts the upper surface of the bottom plate unit 31 of the installation mechanism 3. At this time, the connection terminals 32a of the installation mechanism connector 32 and the connection terminals of the heater connector 23 come into contact with each other and become conductive. In this way, the installation of the heater unit 22 in the installation mechanism 3 is completed.

  FIG. 3 is a block diagram of the heater device 20. As shown in FIG. 3, the heater device 20 includes an operation switch 50, a heater unit 22, and a control device 40. The control device 40 is connected to a vehicle battery 60 mounted on the vehicle via a power cable 41.

  The operation switch 50 has switches such as a power switch for operating on / off of the power source and an adjustment switch (none of which is shown) for adjusting the heater output, and controls the signal according to the switch operation of the occupant. Output to 40. The adjustment switch has a switch for adjusting the output of the upper heat generating surface 21a and a switch for adjusting the output of the lower heat generating surface 21b. The operation switch 50 is provided at a position where a passenger in the rear seat of the vehicle can operate.

  The heater unit 22 includes an upper heat generating surface 21a, a lower heat generating surface 21b, and temperature sensors 22a and 22b. The upper heat generating surface 21a and the lower heat generating surface 21b generate heat when energized.

  The control device 40 is configured as a computer including a CPU, a RAM, a ROM, an I / O, and the like, and the CPU performs various processes according to a program stored in the ROM. In addition, the control device 40 includes a current supply unit (not shown) that allows the current of each heater unit 22 to flow. The current supply unit flows current of each heater unit 22 in accordance with control from the control device 40.

  FIG. 4 shows a flowchart of the control device 40. When the power switch changes from the off state to the on state, the control device 40 periodically performs the processing shown in the figure. In addition, each control step in the flowchart of each drawing comprises the various function implementation | achievement means which the control apparatus 40 has.

  First, an operation switch signal is acquired (S100). Specifically, the operation switch signal output from the switch for adjusting the output of the upper heat generating surface 21a and the operation switch signal output from the switch for adjusting the output of the lower heat generating surface 21b are acquired.

  Next, a temperature sensor signal is acquired (S102). Specifically, the temperature sensor signal output from the temperature sensor 22a and the temperature sensor signal output from the temperature sensor 22b are acquired.

  Next, the output of the heater unit 22 is specified (S104). Specifically, the target temperature of each heat generating surface 21a, 21b is specified based on each operation switch signal acquired in S100, and each heat generating surface 21a, 21b is determined based on each temperature sensor signal acquired in S102. The temperature is specified, and the amount of current flowing through each heat generating surface 21a, 21b is specified so that the temperature of each heat generating surface 21a, 21b approaches the target temperature of each heat generating surface 21a, 21b.

  For example, when the temperature of each heat generating surface 21a, 21b is lower than the target temperature of each heat generating surface 21a, 21b, the current flowing through each heat generating surface 21a, 21b is specified as a predetermined current amount. When the temperature of each heat generating surface 21a, 21b is higher than the target temperature of each heat generating surface 21a, 21b, the amount of current flowing through each heat generating surface 21a, 21b is specified as 0.

  Next, the output of the heater unit 22 is adjusted (S106). Specifically, the current of the amount specified in S104 is caused to flow through the heat generating surfaces 21a and 21b.

  Next, the location and number of heater units 22 are specified (S108). Specifically, it is determined whether or not the heater unit 22 is installed in each installation mechanism 3, and when the heater unit 22 is installed in each installation mechanism 3, the installation unit 3 is installed in any location. Whether the heater unit 22 is installed in the installation mechanism 3 is specified.

  When the resistance values of the temperature measuring resistors 22a and 22b connected to the installation mechanism connector 32 are equal to or greater than a predetermined value, it is determined that the heater unit 22 is installed in the installation mechanism 3. When the resistance values of the temperature measuring resistors of the temperature sensor 22a and the temperature sensor 22b are less than a predetermined value, it is determined that the heater unit 22 is not installed in the installation mechanism 3. Further, based on the identification signal for identifying the installation mechanism 3, it is specified in which location in the vehicle interior the heater unit 22 is installed, and the heater unit 22 set in the installation mechanism 3. Identify the number of

  Next, it is determined whether or not the output of the heater unit 22 needs to be changed (S110). Since the distance between the heater unit 22 and the occupant's body varies depending on the location of the installation mechanism 3 where the heater unit 22 is installed, the control device 40 causes the heating surface 21 to change according to the position of the installation mechanism 3 where the heater unit 22 is installed. Different output.

  For example, when the heater unit 22 is installed in the installation mechanism 3 mounted on the rear surface of the front seat 10 in the vehicle interior, the heater is installed in the installation mechanism 3 installed in the rear seat door 12 in the vehicle interior. The distance from the human body is longer than when the portion 22 is installed. Therefore, when the heater unit 22 is installed in the installation mechanism 3 mounted on the back of the front seat 10 in the vehicle interior, the heater is installed in the installation mechanism 3 installed in the rear seat door 12 in the vehicle interior. The output of the heater unit 22 is specified so that the output of the heat generating surface 21 is larger than when the unit 22 is installed.

  Further, even when the heater unit 22 is installed in the installation mechanism 3 mounted on the back surface of the front seat 10 in the vehicle interior, the distance between the knee below the upper heat generating surface 21a and the upper heat generating surface 21a is lower. The distance is longer than the distance between the knee and the lower heat generating surface 21b carried by the heat generating surface 21b. Therefore, the heater output of the heater unit 22 is specified so that the output of the lower heat generating surface 21b is larger than the output of the upper heat generating surface 21a.

  Further, when the heater unit 22 is installed in the installation mechanism 3 mounted on the rear seat door 12 in the vehicle interior, the distance between the lateral side of the knee carried by the upper heating surface 21a and the upper heating surface 21a is as follows. It becomes shorter than the distance of the abdominal part which the side heat generating surface 21b bears, and the lower heat generating surface 21b. Therefore, the output of the heater unit 22 is specified so that the output of the upper heat generating surface 21a is larger than the output of the lower heat generating surface 21b.

  Moreover, when the heater part 22 is installed in the installation mechanism 3 mounted on the front edge of the seating part of the rear seat 11 in the vehicle interior, the distance between the back of the knee and the upper heat generating surface 21a carried by the upper heat generating surface 21a. However, the distance is shorter than the distance between the lower heating surface 21b and the wrinkles carried by the lower heating surface 21b. Therefore, the output of the heater unit 22 is specified so that the output of the upper heat generating surface 21a is smaller than the output of the lower heat generating surface 21b.

  As described above, the output of the heater unit 22 is specified, and when the output of the heater unit 22 does not match the heater output of the heater unit 22 specified in S104 to S106, the heater output of the heater unit 22 is changed. Judge that it is necessary. If the heater outputs of the heater units 22 match, it is determined that there is no need to change the heater outputs of the heater units 22.

  Here, when it is determined that the heater output of the heater unit 22 needs to be changed, the heater output of the heater unit 22 is corrected so as to be the heater output specified in S110 (S112). Specifically, the current supply unit is controlled so that the current of the amount specified in S110 flows through each of the heat generating surfaces 21a and 21b, and this process ends.

  If it is determined that the heater output of the heater unit 22 needs to be changed, the process ends without performing the correction of the heater output of the heater unit 22 in S112.

  According to the configuration described above, the heater unit 21 has the heat generating surface 21 that generates heat when energized, and is attached to at least one heater unit 22 that radiates radiant heat by the heat of the heat generating surface 21. And a plurality of installation mechanisms 3 that detachably hold and fix.

  According to such a configuration, the plurality of installation mechanisms 3 that detachably hold and fix the heater portion 22 are mounted on the plurality of portions in the vehicle interior, and the occupant can selectively hold and fix the heater portion. Heating suitable for passenger preference and riding scene can be performed.

  And a heater unit 22 that has a heat generating surface 21 that generates heat when energized, and that emits radiant heat by the heat of the heat generating surface 21, and an installation mechanism 3 that is mounted in a vehicle interior of the vehicle and detachably holds and fixes the heater unit. It has.

  According to such a configuration, the occupant attaches the installation mechanism 3 that detachably holds and fixes the heater portion 22 to a desired place in the vehicle interior of the vehicle, and causes the installation mechanism 3 to hold and fix the heater portion 22. Therefore, heating suitable for the passenger's preference and the riding scene can be performed.

  The installation mechanism 3 is attached to at least two parts of the rear surface of the front seat 10 in the vehicle interior, the front edge of the seating portion of the rear seat 11 in the vehicle interior, and the door 12 of the rear seat in the vehicle interior. Thereby, the passenger | crew of a backseat seat can obtain a favorable feeling of heating.

  Further, since the installation mechanism 3 includes the power supply unit 32 that supplies the power from the power source 60 to the heater unit 22, power can be easily supplied to the heater unit 22.

  By the way, the distance between the heater unit 22 held by the installation mechanism 3 and the occupant may differ depending on the installation location of the installation mechanism 3. However, the heater device 20 specifies the installation location of the installation mechanism 3 in the vehicle interior where the heater portion 22 is held and fixed, and generates heat according to the installation location of the installation mechanism 3 where the heater portion 222 is held and fixed. Correct the energization amount to the. That is, even when the distance between the heater unit 22 held by the installation mechanism 3 and the occupant is different, the energization amount to the heat generating surface is corrected according to the installation location of the installation mechanism 3 where the heater unit 222 is held and fixed. The occupant can obtain a comfortable feeling of heating.

  In addition, the distance between the heater unit 22 and the occupant may be different in one heater unit 22. However, the heater section 22 of the present embodiment has an upper heat generating surface 21a and a lower heat generating surface 21b that can vary the amount of heat generation. The heater device 20 varies the amount of heat generated on the upper heat generating surface 21a and the lower heat generating surface 21b according to the mounting location of the installation mechanism 3 on which the heater unit 22 is held and fixed. That is, even in the case where the distance between the heater unit 22 and the occupant may be different among the one heater unit 22, the upper heating surface 21a and the lower heating surface 21a are arranged in accordance with the installation location of the installation mechanism 3 on which the heater unit 22 is held and fixed. Since the calorific value of the side heat generating surface 21b is made different, the occupant can obtain a comfortable feeling of heating.

(Second Embodiment)
A heater device 20 according to a second embodiment of the present embodiment will be described. The configuration of the heater device 20 of the present embodiment is the same as that of the heater device 20 of the first embodiment. The heater device 20 of the present embodiment differs from the heater device 20 of the first embodiment in the processing of the control device 40.

  FIG. 5 is a flowchart of the control device 40 of the heater device 20 of the present embodiment. Since S100 to S108 are the same as those in FIG. 4, their description is omitted here.

  Once the location and number of heater units 22 are identified in S108, it is next determined whether one occupant is using two or three heater units 22 (S210). . That is, it is determined whether or not the heater unit 22 is installed in a plurality of installation mechanisms 2 among a plurality of installation locations for warming one passenger. When the heater unit 22 is installed in at least two installation mechanisms 3 among the three installation mechanisms 3 provided for one occupant, one occupant has two or three two heater units 22. Judge that you are using it individually.

  For example, an installation mechanism 3 provided on the back of the driver's seat provided for the driver's rear seat occupant and an installation mechanism 3 installed on the front edge of the seating portion of the driver's seat. In addition, when the heater unit 22 is installed, it is determined that the occupant in the rear seat on the driver's seat side is using two or three heater units 22.

  Here, when the heater unit 22 is installed in at least two installation mechanisms 3 among the three installation mechanisms 3 provided for one passenger, the determination in S210 is YES, and the output of the heater unit 22 is determined. Is adjusted (S214). Specifically, the output of the heater unit 22 is reduced compared to the case where only one heater unit 22 is installed among the three installation mechanisms 3 provided for one passenger. Specifically, the energization amount to the heater unit 22 is reduced. As described above, when one occupant uses a plurality of heater portions 22, the area where radiant heating can be obtained can be made wider than when one occupant uses one heater portion 22. Therefore, the heater output of each heater part 22 can be reduced and the energy saving effect and comfort can be improved. In addition, this process will be complete | finished if the output of the heater part 22 is reduced.

  Moreover, when the heater part 22 is installed in one installation mechanism 3 among the three installation mechanisms 3 provided for one passenger, the output of the heater part 22 is not reduced. The process ends.

  In the present embodiment, the same effect obtained from the configuration common to the first embodiment can be obtained as in the first embodiment.

  In addition, although this embodiment is embodiment based on 1st Embodiment, it is also possible to combine this embodiment with the above-mentioned 1st Embodiment.

  Moreover, the installation mechanism 2 is provided in the several mounting location which warms one passenger | crew in a vehicle interior. Furthermore, the heater device 20 determines whether or not the heater unit 22 is installed in a plurality of installation mechanisms 3 among a plurality of installation locations for warming one occupant. Further, when it is determined that the heater unit 20 is installed in a plurality of installation mechanisms among a plurality of mounting locations for warming one occupant, the heater device 20 among a plurality of mounting locations for warming one occupant As compared with the case where one heater unit is installed in one installation mechanism, adjustment is made so as to reduce the amount of current supplied to the heater units installed in a plurality of mounting locations for warming one occupant.

  Accordingly, when it is determined that the heater unit is installed in a plurality of installation mechanisms among a plurality of installation locations that warm one occupant, one installation among the plurality of installation locations that warm one occupant Compared with the case where a single heater unit is installed in the mechanism, the amount of energization to the heater units installed in a plurality of mounting locations for warming one occupant is reduced, so that power saving can be achieved. In addition, the occupant can obtain radiant heat from a plurality of mounting locations, and can further save power.

(Other embodiments)
(1) In the above-described embodiment, the configuration has been described in which the installation mechanism 3 is attached to a plurality of parts in the vehicle interior of the vehicle and the heater unit 22 can be selected from the plurality of installation mechanisms 3. However, this is merely an example of a mode in which the heater device is selected and arranged at an arbitrary part in the vehicle interior of the vehicle. For example, any heater device having the heater unit 22 and the installation mechanism 3 may be used, and the heater device is mounted on an arbitrary part of the vehicle interior using a magic tape, a hook, or the like, and is suitable for passenger preference and a riding scene. Heating can be performed.

  (2) In the above embodiment, the installation mechanism 3 is attached to the rear surface of the vehicle interior, the front edge of the seating portion of the rear seat 11 of the vehicle interior, and the door 12 of the rear seat of the vehicle interior using a magic tape-like member. However, the installation mechanism 3 may be attached to each part in the vehicle interior using a rail-shaped member, a clip-shaped member, or a hook-shaped member.

  (3) Although the heater section 22 of the above embodiment has two heat generating surfaces, the upper heat generating surface 21a and the lower heat generating surface 21b, it may be configured to have one heat generating surface. You may comprise so that it may have two or more heat generating surfaces.

  (4) In the above embodiment, the installation mechanisms 3 are installed at six locations in the passenger compartment, and the two heater units 22 are prepared. However, the number of the installation mechanisms 3 and the installation locations of the installation mechanisms 3 are described. The number of heater units 22 and the like are not limited to those described in the above embodiment.

  (5) In the above embodiment, the other end of the power cable 41 is a cigar plug that is used as a cigar socket of the vehicle, but the other end of the power cable 41 is similar to a connector connected to a household outlet. You may comprise so that it may become a connector shape.

  (6) The heater device 20 of the above embodiment is configured to generate heat by power feeding from the vehicle battery 60 mounted on the vehicle, but is not limited to the battery 60 mounted on the vehicle. You may comprise so that it may generate | occur | produce heat by the electric power feeding from the generator mounted in the vehicle.

  (7) The heater device 20 of the above embodiment is configured to supply power to the heater unit 22 from the power supply terminal of the installation mechanism connector 32 provided in the installation mechanism 3. On the other hand, a wireless transmitter for wireless power feeding is provided on the installation mechanism 3 side, a wireless receiver for wireless power feeding is further provided on the heater unit 22 side, and the heater unit 22 is wirelessly powered from the installation mechanism 3. It may be configured.

In addition, this invention is not limited to above-described embodiment, In the range described in the claim, it can change suitably. Further, the above embodiments are not irrelevant to each other, and can be combined as appropriate unless the combination is clearly impossible. Further, in each of the above embodiments, when numerical values such as the number, numerical value, quantity, range, etc. of the constituent elements of the embodiment are mentioned, it is clearly limited to a specific number when clearly indicated as essential and in principle. The number is not limited to the specific number except for the case.
(Summary)
According to the first aspect shown in part or all of the above embodiment, the heater device has a heat generating surface that generates heat by energization, and at least one heater unit that radiates radiant heat by the heat of the heat generating surface; And a plurality of installation mechanisms that are attached to a plurality of parts in the vehicle interior of the vehicle and that detachably hold and fix the heater unit.

  -According to the second aspect shown in part or all of the above embodiments, the installation mechanism 3 includes the rear surface of the front seat in the vehicle interior, the front edge of the seating portion of the rear seat in the vehicle interior, the vehicle interior Mounted on at least two parts of the rear seat door.

  As described above, the installation mechanism 3 is attached to at least two parts of the rear surface of the front seat in the vehicle interior, the front edge of the seating portion of the rear seat in the vehicle interior, and the door of the rear seat in the vehicle interior. A feeling of heating can be given to the passengers.

  -According to the 3rd viewpoint shown in a part or all of the above-mentioned embodiment, installation mechanism 3 has a power supply part which supplies electric power from a power supply to a heater part.

  According to this, the electric power from a power supply can be supplied to a heater part via the power supply part 32 of the installation mechanism 3. FIG.

  According to the fourth aspect shown in part or all of the above embodiment, a mounting location specifying unit that specifies a mounting location of the installation mechanism in the vehicle interior in which the heater unit is held and fixed, and a mounting location specifying unit And an energization amount correction unit that corrects the energization amount to the heat generating surface in accordance with the installation location of the installation mechanism in which the heater unit specified and held is fixed.

  According to this, since the installation location of the installation mechanism in the vehicle interior is specified and the energization amount to the heat generating surface is corrected according to the installation location of the installation mechanism, a comfortable heating space can be given to the occupant.

  -According to the 5th viewpoint shown by the one part or all part of the said embodiment, a heater part has at least 2 heat_generation | fever surface which can vary the emitted-heat amount, and an electricity supply correction | amendment part is a mounting place. The heat generation amounts of at least two heat generating surfaces are made different depending on the installation location of the installation mechanism in which the heater unit specified by the specific unit is held and fixed.

  Since the distance between the heater unit and the occupant differs depending on the installation location of the installation mechanism, the heater unit can be changed by changing the amount of heat generated on at least two heating surfaces according to the installation location of the installation mechanism on which the heater unit is held and fixed. Heat generation suitable for the installation location of the installation mechanism to be installed can be performed.

  -According to the 6th viewpoint shown by one part or all part of the said embodiment, the installation mechanism is provided in the several mounting location which warms one passenger | crew in a vehicle interior. Furthermore, the heater determination part which determines whether the heater part is installed in the some installation mechanism of the some mounting location which warms one passenger | crew is provided. Further, when it is determined by the heater determination unit that the heater unit is installed in a plurality of installation mechanisms among a plurality of installation locations for warming one occupant, among the plurality of installation locations for heating one occupant A heater output adjustment unit that adjusts to reduce the amount of current supplied to the heater units installed at a plurality of mounting locations that warm one occupant than when one heater unit is installed in one installation mechanism I have.

  When a heater unit is installed in a plurality of installation mechanisms among a plurality of installation locations for warming one occupant, one heater is provided for one installation mechanism in a plurality of installation locations for heating one occupant. Radiant heat can be obtained from a larger area than when the part is installed and scattered.

  Therefore, when it is determined that the heater unit is installed in a plurality of installation mechanisms among a plurality of installation locations that warm one occupant, one installation mechanism among the plurality of installation locations that warm one occupant Since the amount of energization to the heater units installed at a plurality of mounting locations for warming one occupant is reduced compared to the case where one heater unit is installed, power saving can be achieved. In addition, the occupant can obtain radiant heat from a plurality of mounting locations.

  -According to the seventh aspect shown in part or all of the above embodiment, the heater part (22) having a heat generating surface (21) that generates heat by energization, and radiates radiant heat by the heat of the heat generating surface; And an installation mechanism (3) that is mounted in the vehicle cabin and detachably holds and fixes the heater portion.

  According to such a configuration, the occupant can install the installation mechanism that detachably holds and fixes the heater part at a desired location in the vehicle interior of the vehicle, and can hold and fix the heater part to the installation mechanism. It is possible to perform heating suitable for passenger preference and riding scene.

  The correspondence between the configuration in the above embodiment and the configuration in the claims will be described. S108 corresponds to the mounting location specifying unit, S112 corresponds to the energization amount correction unit, and S210 corresponds to the heater determination unit. , S214 corresponds to the heater output adjustment unit.

DESCRIPTION OF SYMBOLS 10 Front seat 11 Rear seat 12 Door 20 Heater device 21 Heat generating surface 21a Upper heat generating surface 21b Lower heat generating surface 22 Heater part 22a Temperature sensor 22b Temperature sensor 3 Installation mechanism 40 Control device 41 Power cable 60 Vehicle battery

Claims (5)

At least one heater section (22) having a heat generating surface (21) that generates heat by energization, and radiating radiant heat by heat of the heat generating surface;
A plurality of installation mechanisms (3) that are attached to a plurality of parts in a vehicle interior of the vehicle and that detachably hold and fix the heater unit ;
An installation location specifying unit (S108) for specifying an installation location of the installation mechanism in the vehicle interior in which the heater unit is held and fixed;
A heater provided with an energization amount correction unit (S112) that corrects the energization amount to the heat generating surface according to the installation location of the installation mechanism on which the heater unit specified by the installation location specifying unit is held and fixed. apparatus. The heater section has at least two heat generating surfaces that can vary the amount of heat generated,
The energization amount correcting section to claim 1, varying the heating value of said at least two heat generating surface in accordance with the mounting location of the installation mechanism in which the heater portion specified by said mounting location detection part is held fixed The heater device described. At least one heater section (22) having a heat generating surface (21) that generates heat by energization, and radiating radiant heat by heat of the heat generating surface;
A plurality of installation mechanisms (3) attached to a plurality of parts in a vehicle interior of the vehicle and removably holding and fixing the heater portion ;
The installation mechanism is provided at a plurality of mounting locations for warming one occupant in the passenger compartment,
Furthermore, a heater determination unit (S210) for determining whether or not the heater unit is installed in a plurality of the installation mechanisms among a plurality of installation locations for warming the one occupant,
When the heater determination unit determines that the heater unit is installed in a plurality of the installation mechanisms among a plurality of installation locations that warm the one occupant, the plurality of installations that warm the one occupant The amount of electricity supplied to the heater units installed at a plurality of mounting locations for warming the one occupant is less than when one heater unit is installed at one of the installation mechanisms. A heater device comprising: a heater output adjustment unit (S214) for adjustment . The installation mechanism includes at least two of a rear surface of the front seat (10) in the vehicle interior, a front edge of a seating portion of the rear seat (11) in the vehicle interior, and a door (12) of the rear seat in the vehicle interior. The heater device according to any one of claims 1 to 3, which is attached to the part. The heater device according to any one of claims 1 to 4, wherein the installation mechanism includes a power supply unit (32) that supplies power from the power source (60) to the heater unit.

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