JP4967805B2 - Heating toilet seat - Google Patents

Description

  The present invention relates to a toilet seat having a heating function.

  Conventionally, in this type of heated toilet seat, a cord-like heater 4 is generally bonded and fixed to the back surface of a seating portion 3 of a resin toilet seat 2 having a hollow portion 1 as shown in FIG. It is used. However, since this heating toilet seat requires a long time to heat the seat portion 3 of the resin toilet seat 2 to a predetermined temperature, the heater 4 is always energized, and wasteful power consumption is large.

  In order to reduce such wasteful power consumption, there is also a heating toilet seat that sets a heating time by a timer or stops energization of the heater 4 when it is not used for a certain period of time. However, such a toilet seat has a problem that the toilet seat is not heated when it is used outside the heating time, in addition to being consumed even when it is not used in the set heating time zone.

  Further, since the cord-like heater 4 is thin, it is difficult to install the cord-like heater 4 on the entire back surface of the seating portion 3 of the toilet seat 2, so that there is a temperature difference between the portion directly above the heater 4 and the portion without the heater 4.

  In order to solve this problem, an instant heating type heating toilet seat shown in FIG. 11 has been proposed. In this case, a sheet heating element 8, a heat insulating material 9, and a reflector 10 are heated and pressed on the back surface of a stainless steel seating surface 6 through an insulating member 7 and fixedly formed on the toilet seat body 11. The sheet-like heating element 8 is formed by patterning stainless steel so as to meander repeatedly and realize uniform heating. Also, the heat insulating material 9 and the reflector 10 are provided to prevent heat dissipation, and the seating surface 6 Therefore, the seating surface 6 rises quickly, so that the power consumption can be remarkably reduced as compared with the conventional heating toilet seat shown in FIG. 10 (see, for example, Patent Document 1). ).

However, in the conventional configuration, the seating surface 6 can be heated in a short time,
If any malfunction occurs in the temperature control means (not shown) for controlling the temperature of the seating surface 6, a time delay occurs until the overheat prevention device detects a temperature abnormality. The temperature sometimes increased too much. In addition, since the toilet seat body 11, the reflector 10, the heat insulating material 9, the sheet heating element 8, the insulating member 7, and the seating surface 6 are stacked and fixed without gaps, the radiant heat can be reflected by the reflector 10, Since heat from the sheet heating element 8 is dissipated to the toilet seat body 11 due to conduction, there is a problem that the efficiency of heating the seating surface 6 decreases.
JP 2003-125981 A

  In view of the above-described conventional problems, the problem to be solved by the present invention is that the seating surface is heated uniformly and the temperature of the seating surface increases excessively in a short time until the user sits on the seating surface of the toilet seat. There is no safe heating toilet seat to provide.

In order to solve the above-described conventional problems, a heated toilet seat according to the present invention includes a toilet seat having a seating portion, a heating unit provided on the back surface of the toilet seat, and the heating unit connected to the heating unit, thereby increasing an abnormal temperature of the toilet seat. A temperature rise prevention device that cuts off the power supply to the heating element unit, a control unit that controls the power supply of the heating element unit to control the temperature of the seating part, and a part of the heating element unit And a heat insulating part configured to form a gap between the seating part, and the heat sensitive part of the overheat prevention device is located on the opposite side of the gap side of the heating element unit corresponding to the heat insulating part . When the energization of the heating element unit is started so as to be in contact with the surface, the temperature of the heat sensitive part of the overheat prevention device becomes higher than the temperature of the seating part.

Further, the heating toilet seat according to the present invention includes a toilet seat having a seating portion, a heating element unit provided on the back surface of the toilet seat, and the heating element unit, and detects the abnormal temperature rise of the toilet seat to detect the heating element unit. An overtemperature prevention device that cuts off the power to the heater, a controller that controls the power of the heating element unit to control the temperature of the seating section, and a portion of the heating element unit between the seating section and the seating section. A heat-insulating part configured to form a gap, and the heat-sensitive part of the overheat prevention device is provided so as to be in contact with the surface opposite to the gap side of the heating element unit corresponding to the heat-insulating part. When energization of the heating element unit is started, the temperature characteristic of the heat sensitive part of the overheat prevention device rises faster than the seating part.

As a result, the seating surface can be heated uniformly and efficiently. Further, when the toilet seat is heated, the excessive temperature rise prevention device can prevent the temperature of the seating surface from rising excessively. In addition, the temperature of the
When heat transfer from the part where the heat sensitive part of the ascent prevention device is in contact to the seating part is suppressed and the temperature rises faster than the part where the heat sensitive part is not in contact, so if there is any malfunction in the control part However, it is possible to prevent the temperature of the seating portion from rising excessively by speeding up the response of the overheat prevention device.

  The heated toilet seat of the present invention can heat the seating portion uniformly and efficiently, and can prevent the temperature of the seating portion from rising excessively.

The first invention is a toilet seat having a seating portion, a heating element unit provided on the back surface of the toilet seat, connected to the heating element unit, detecting an abnormal temperature rise of the toilet seat and energizing the heating element unit. An over-temperature prevention device that cuts off heat, a control unit that controls energization of the heating element unit to control the temperature of the seating part, and a gap is formed between a part of the heating element unit and the seating part And the heat sensitive part of the overheat prevention device is provided so as to be in contact with the surface opposite to the gap side of the heating element unit corresponding to the heat insulating part, When energization of the body unit is started, the heating toilet seat is such that the temperature of the heat sensitive part of the overheat prevention device is higher than the temperature of the seating part.

  Thereby, since a seating part is uniformly heated by a heat generating body, a comfortable feeling of use is obtained. Further, since the heat generated from the heating element is used for heating the seating portion, the seating portion can be efficiently heated, the seating surface can be heated in a short time, and wasteful power consumption can be reduced.

Further, when energization of the heating element unit is started , the heat transfer from the portion where the heat sensitive portion of the overheat prevention device is in contact to the seating portion is suppressed by the action of the heat insulating portion, and the heat sensitive portion comes into contact. The temperature of the heat sensitive part of the overheat prevention device rises faster than the temperature of the seating part and becomes higher, for example, if there is some malfunction in the control part that controls the temperature of the seating part However, the response of the over-temperature prevention device can be accelerated to prevent the temperature of the seating portion from rising excessively.

According to a second aspect of the present invention, there is provided a toilet seat having a seating portion, a heating element unit provided on the back surface of the toilet seat, and the heating element unit, detecting an abnormal temperature rise of the toilet seat and energizing the heating element unit. An over-temperature prevention device that cuts off heat, a control unit that controls energization of the heating element unit to control the temperature of the seating part, and a gap is formed between a part of the heating element unit and the seating part And the heat sensitive part of the overheat prevention device is provided so as to be in contact with the surface opposite to the gap side of the heating element unit corresponding to the heat insulating part, When energization of the body unit is started, the heating toilet seat in which the temperature characteristic of the heat sensitive part of the overheat prevention device rises faster than the seating part.

  Thereby, since a seating part is uniformly heated by a heat generating body, a comfortable feeling of use is obtained. Further, since the heat generated from the heating element is used for heating the seating portion, the seating portion can be efficiently heated to heat the seating surface in a short time, and wasteful power consumption can be reduced.

Further, when energization of the heating element unit is started , the heat transfer from the portion where the heat sensitive portion of the overheat prevention device is in contact to the seating portion is suppressed by the action of the heat insulating portion, and the heat sensitive portion comes into contact. Since the temperature characteristic of the heat sensitive part of the overheat prevention device rises faster than the seating part, for example, even if something goes wrong with the control part that controls the temperature of the seating part, The response of the prevention device can be accelerated to prevent the temperature of the seating portion from rising excessively.

In a third aspect of the present invention, particularly in the first aspect or the second aspect, the overheating prevention device is provided in a second heating element provided in a part of the toilet seat, and the electric power of the second heating element is provided. Since the density is configured to be higher than the power density of the heating element unit , the high power density of the second heating element acts on the portion where the heat sensitive part of the overheat prevention device contacts, and the heating element Since the temperature can rise faster than the seating portion of the unit , even if some trouble occurs in the control portion, the response of the overheat prevention device can be accelerated to prevent the temperature of the seating portion from rising excessively.

In a fourth aspect of the invention, in particular, in any one of the first to third aspects of the invention, the temperature of the heat sensitive part of the overheat prevention device reaches the off-operation temperature of the overheat prevention device, and actually When the overtemperature protection device is turned off, the temperature of the heat sensitive part rises faster than the surface temperature of the seating part because the surface temperature of the seating part has not reached the safety limit temperature, and Before the surface temperature reaches the safe limit temperature, the overheat prevention device can detect the abnormal temperature of the toilet seat and cut off the power supply to the heating element.

In a fifth aspect of the invention, in particular, in any one of the first to fourth aspects of the invention, the seat includes a seating portion temperature detecting means for detecting the temperature of the seating portion and a room temperature detecting means for detecting the room temperature, By controlling the energization amount so that the seating portion has an appropriate temperature based on the signals of the head temperature detection means and the room temperature detection means, the temperature of the seating portion can be accurately and safely heated by the control portion. .

In the sixth aspect of the invention, in particular, in any one of the first to fourth aspects of the invention, the control unit sets the optimum energization time limit that is set and stored in advance based on signals from the seating portion temperature detection means and the room temperature detection means Select a value, and when the elapsed time of the timer section reaches the energization limit time, the energization amount is reduced or reduced to zero, and then the energization amount is controlled based on the signal of the seating portion temperature detection means so that the seating portion reaches an appropriate temperature As a result, the toilet seat is heated by the control unit by selecting the optimum energization limit time based on the room temperature and the temperature of the seating part, and then reducing the temperature increase by reducing or eliminating the energization amount. Even if the response is slow, it becomes possible to heat safely.

According to the seventh invention, in the sixth invention, since the input to the heating element unit can rise to the control temperature of the toilet seat in 6 seconds at a room temperature of 15 ° C. in 6 seconds, the surface temperature of the seating portion is 6 seconds It becomes possible to heat in a short time.

Since the object of the present invention can be achieved by using the first to seventh inventions as the main part of the embodiments, details of the embodiments corresponding to the respective claims will be described below with reference to the drawings. It will be described and the best mode for carrying out the present invention will be described. Note that the present invention is not limited to the embodiments. Further, in the description of the present embodiment, the same reference numerals are given to the same configurations and the effects and the same description is not repeated.

(Embodiment 1)
1 is a schematic cross-sectional view of a heating toilet seat according to Embodiment 1 of the present invention, FIG. 2 is a perspective view of a toilet equipped with the heating toilet seat, and FIG. 3 is a schematic configuration diagram of a heating unit of the heating toilet seat, FIG. 4 is a cross-sectional view of an essential part of the overheat prevention device portion of the heating toilet seat. 1 and 2, a main body 21 is attached to a toilet 20, and a toilet seat 22 and a toilet lid 23 of the present invention having a heating function are rotatably provided on the main body 21. In addition, an infrared sensor 24 that detects the presence or absence of a human body in the toilet space is built in the sleeve portion of the main body 21.

  The toilet seat 22 includes a toilet seat base 25 made of a synthetic resin and a metallic seat portion 26 formed of stainless steel, aluminum, or the like, and is formed by joining two members at their inner and outer peripheral edges, It has a structure having a hermetically sealed cavity 27 that can prevent water and the like from entering.

  The hollow portion 27 is provided with a heating unit 28 provided on the back surface of the seating portion 26 of the toilet seat 22. A thermostat 29 and a thermal fuse 30, which are overheat prevention devices connected in series with the heating element unit 28 in contact with or in close proximity to the heating element unit 28, are provided. 22 acts to prevent overheating of the temperature. A thermistor 31 is provided on the inner surface of the seating portion 26 to detect the temperature of the seating portion 26.

  The main body 21 is provided with a room temperature thermistor 32 as a room temperature detecting means, and signals from the thermistor 31 and the room temperature thermistor 32 are transmitted to a control unit 33 composed of a microcomputer or the like, respectively, and a seating as a warming surface based on these signals The power supply to the heating element unit 28 is controlled by the control unit 33 so that the temperature of the unit 26 becomes a predetermined temperature.

  The infrared sensor 24 detects that the user has entered the toilet, starts heating the seat portion 26, and opens and closes the toilet lid 23. In addition, the toilet seat 22 has a seating detection means 35 constituted by a micro switch 34. The seat is detected when the switch is turned on by applying a load to the toilet seat 22. For example, in a heated toilet seat having a hot water cleaning function, the cleaning function operates only when a seating of a person is detected.

The heating element unit 28 has a structure in which electrodes 37 are formed on both ends of a heating element 36 formed by patterning stainless steel having a thickness of 0.1 mm in a meandering manner as shown in FIG. 3, and lead wires 38 are welded thereto. Furthermore, an upper insulator 39 and a lower insulator 40, which are film-like insulators, are bonded to the upper and lower surfaces of the heating element 36. As the insulator, a thermoplastic resin such as PP or PET having excellent flexibility can be used. Further, when heat resistance is required, polyimide is preferable.

  Further, as shown in FIG. 4, the thermostat 29 as an overheat prevention device is provided with a heat insulating portion 42 formed through a gap 41 between a part of the heat generating unit 28 and the seating portion 26, and this heat insulating portion. The heat sensitive unit 43 is provided in contact with the heat generating unit 28 corresponding to 42 to detect an abnormal temperature rise and cut off the energization circuit of the heat generating unit 28.

  The thermostat 29 can be a bimetal type that is generally used. The bimetal thermostat can cope with the case where a large current is required to warm the seat 26 in a short time until the user is seated on the seating surface of the toilet seat, and utilizes the difference in the coefficient of thermal expansion of the metal. Stable operation can be obtained because the overheat prevention device is operated by the physical operation.

  In the above configuration, when the user enters the toilet, the infrared sensor 24 detects this, and the signal is sent to the control unit 33, and the control unit 33 starts energizing the heating element 36. The control unit 33 is provided with a timer unit 44 that counts an elapsed time from the time when the temperature rise is started by energizing the heating element 36 of the toilet seat 22.

  Based on the signals of the thermistor 31 and the room temperature thermistor 32 at the start of energization, the control unit 33 calculates from the temperature difference between them and the respective temperatures, and selects the optimum value of the energization limit time set and stored in advance. When the elapsed time counted by the timer unit 44 reaches the energization limit time, the energization amount is reduced or reduced to zero, and then the energization amount is set based on the signal from the thermistor 31 so that the seating portion 26 of the toilet seat 22 has an appropriate temperature. Control.

  Since the thermistor 31 detects the temperature of the seating part 26 that is actually touched by the user, the controller 33 is comfortable because the temperature is accurately raised and maintained to an appropriate temperature, and the signals of the thermistor 31 and the room temperature thermistor 32 are also comfortable. Since the amount of power input is controlled according to the amount of load based on the above, it can be heated to an appropriate temperature with higher accuracy and safety. Moreover, since the energization amount is reduced and the temperature increase rate is reduced after the energization limit time by giving priority to the energization time control, the toilet seat can be heated safely even if the response speed of the temperature detecting means is slow. .

  Next, when the user is seated for defecation, the energization amount to the heating element 36 is reduced to zero or the toilet seat temperature does not rise excessively by a signal from the seating detection means 35. Thereby, even if the thermistor 31 or the like breaks down, the toilet seat temperature does not rise excessively during use, and it is safe without fear of causing burns or the like. In addition, since the toilet seat is heated only immediately before sitting on the toilet seat 22, it is very energy saving.

  Here, the seat detection means 35 has been described as being constituted by the microswitch 34, but it may be provided at the hinge portion of the toilet seat 22 provided so as to be rotatable, and various places and configurations are conceivable. .

  The toilet seat 22 has a metal seating portion 26 with good heat conduction and can be heated in a very short time until the user is seated on the toilet seat 22, so that the heater is always energized. In addition, energy saving is achieved, and the heating element 36 has a surface shape, so that uniform heating is possible. In addition, since the toilet seat 22 has a hollow portion 27, heat generated from the heating element due to the heat insulation effect by the air is mostly used for heating the metal seat portion 26. Therefore, the seat portion 26 is efficiently heated, and the user can The seating part can be heated in a short time until the user sits on the toilet seat, and wasteful power consumption can be reduced.

  In the above description, the toilet seat temperature is not excessively increased by the thermistor 31, the room temperature thermistor 32, and the seating detection means 35. However, in this embodiment, the extremely short period until the user sits on the toilet seat 22. In order to warm up in time, a large amount of electric power is used, so further consideration is given to safety. For example, even if an abnormality occurs in the control unit 33, the thermostat 29 detects a temperature abnormality and shuts off the energization circuit itself to the heating element unit 28, thereby avoiding an excessive increase in the toilet seat temperature.

  The thermal fuse 30 is further provided as a safety measure when a malfunction occurs in the thermostat 29. FIG. 5 shows the temperature rise when the heating element unit 28 is energized with the thermistor 31, the room temperature thermistor 32, and the seating detection means 35 short-circuited. In FIG. 5, a curve (A) is a surface temperature characteristic of the seating portion 26. When the input to the heating element unit 28 is about 1.0 W / cm 2 at a room temperature of 15 ° C., the normal toilet seat control temperature (T1) is about 6 seconds. ) Is possible. On the other hand, as shown in the curve (B), the temperature characteristic of the thermosensitive portion 43 of the thermostat 29 provided in the heat insulating portion 42 is faster than the seating portion 26 for t1 time because the heat transfer to the seating portion 26 is small in the heat insulating portion 42. The temperature rises to the toilet seat control temperature (T1).

  The temperature of the thermosensitive part 43 further reaches the off-operation temperature (T2) of the thermostat 29, but in fact, it is delayed until the temperature of the bimetal 45 (described later) built in the thermostat 29 reaches the off-operation temperature (T2). Therefore, the OFF operation is actually performed after t2 hours. Even if such a delay occurs, the temperature of the heat sensitive part 43 rises faster than the seating part 26. Therefore, an abnormality in the toilet seat temperature is detected before the surface temperature of the seating part 26 reaches the safety limit temperature (T3). It is possible to safely cut off the energization circuit of the heating element unit without causing burns or the like.

  Moreover, the heat insulation part 42 is good also as a structure which inserts the heat insulation body 46 in the gap | interval 41, as shown in FIG. The heat insulator 46 does not necessarily have to be a ceramic material having a high heat insulating property, and a general thermoplastic resin material such as a hard foam resin, PP, or PET can be used. In this way, by inserting the heat insulating body 46 into the gap 41 to form the heat insulating portion 42, the shape of the heat insulating portion 42 can be stabilized, the thermostat 29 can be stably fixed to the heat insulating portion 42, and the heat insulating portion 42 Since the shape of the seating portion 26 is defined, variation in temperature difference between the temperature of the seating portion 26 and the heat insulating portion 42 (that is, the heat sensitive portion 43) can be reduced, and temperature abnormality can be detected stably. .

  As described above, in the present embodiment, since the seating portion can be uniformly heated by the planar heating element, a comfortable feeling of use can be obtained, and the heat generated from the heating element is mostly used for heating the metal seating portion. Therefore, the seating portion can be efficiently heated, and the seating portion can be heated in a short time until the user is seated on the seating portion of the toilet seat, and wasteful power consumption can be reduced. In addition, a heat insulating part is provided so as to form a gap with the seating part to suppress heat conduction from the heat generating unit to the seating part, so that the part corresponding to the heat insulating part is heated earlier than the other parts. Since the temperature is raised, the response of the overheat prevention device can be accelerated.

(Embodiment 2)
FIG. 7 is a schematic cross-sectional view of the heating toilet seat according to Embodiment 2 of the present invention. This embodiment differs from the invention of Embodiment 1 in that the overheat prevention device is provided in the second heating element unit provided in the toilet seat separately from the heating element unit for heating the seating portion. Other configurations and operational effects are the same, and the differences will be mainly described.

In the configuration shown in FIG. 7, a second heating element unit 48 is provided in a part of the toilet seat 22 via a heat insulating material 47, and a thermostat 29 that is an overheat prevention device is provided in the second heating element unit 48. It has a configuration. The second heating element unit 48 is formed by adhering a film-like first insulator 50 and a second insulator 51 on the upper and lower surfaces of a second heating element 49 formed in a planar shape, and in series with the heating element unit 28. An energization circuit is configured by connecting to

  Although the position where the second heating element unit 48 is provided is arbitrary, it is provided in a part of the toilet seat base 25 in FIG. The second heating element unit 48 sets the power density higher than that of the heating element unit 28. The thermostat 29 has the heat sensitive part 43 in contact with the second heating element unit 48, but the distance between the heat sensitive part 43 and the bimetal 45 is minimized by setting the thermostat 29 downward. .

  That is, in the bimetal thermostat 29, as shown in FIG. 8, the disc-shaped bimetal 45 is normally stored in the cap 52, and the bimetal 45 is inverted due to the difference in the thermal expansion coefficient of the metal constituting the bimetal due to the temperature rise. At that time, by depressing the pin 53, a contact (not shown) is opened to shut off the energization circuit. An interval d is formed between the bimetal 45 and the cap 52. When a rapid temperature change is sensed, the temperature between the bimetal 45 and the surface of the cap 52 (that is, the heat sensitive portion 43) is large when the interval d is large. A difference may occur, and a delay may occur in the operation of the thermostat 29. In the embodiment of FIG. 7, by setting the thermostat 29 downward, the distance d between the cap 52 and the bimetal 45 is minimized or brought into contact with each other, so that the operation delay of the thermostat 29 is reduced. In addition, the energization circuit of the second heating element unit 29 can be cut off safely.

  FIG. 9 is a result of performing the same evaluation as the characteristics shown in FIG. 5 with the configuration of the heated toilet seat shown in FIG. The power density of the input to the heating element unit 28 at room temperature of 15 ° C. is about 1.0 W / cm 2 and the power density of the input to the second heating element unit 48 is 1.2 W / cm 2. The temperature of was measured. A curve (C) shows the surface temperature characteristic of the seating part 26, and a curve (D) shows the temperature characteristic of the heat sensitive part 43. Thus, by making the power density of the input to the second heating element unit 48 higher than the power density of the input to the heating element unit 28, the temperature characteristic of the heat sensitive portion 43 is the case of the curve (A) in FIG. The normal toilet seat control temperature (T1) is reached earlier at time t3.

  Further, since the thermostat 29 is set downward and is provided in the second heating element unit 48 so as to minimize the distance between the heat sensitive portion 43 and the bimetal 45, the operation delay of the thermostat 29 can be reduced. The energization circuit of the heating element unit 28 can be cut off at a time t4 that is faster than the curve (A) in FIG. 5 and at a low temperature. At this time, the temperature of the seating portion 26 is cut off at a temperature lower than the curve (A) of FIG. 5 as shown in FIG. 9, and therefore the heating toilet seat shown in FIG. The circuit can be safely shut off at temperature.

  In each of the above embodiments, the heating element 36 and the second heating element 49 are described by patterning stainless steel having a thickness of 0.1 mm. However, the present invention is not limited to this. For example, punching metal The heating element 36 and the second heating element 49 may be manufactured by another method. In each of the above embodiments, the entire seat portion 26 is made of metal. However, at least the portion where the user's hip is seated may be made of metal.

  As described above, the heated toilet seat according to the present invention can uniformly heat the seating portion to obtain a comfortable feeling of use and can immediately heat the seating portion during use, thereby reducing wasteful power consumption. It is possible to prevent the temperature of the seating portion from rising excessively, and it can be applied as a heating technique for a device on which a user is seated.

Schematic sectional view of the heating toilet seat according to Embodiment 1 of the present invention The perspective view of the toilet carrying the heating toilet seat in Embodiment 1 Schematic configuration diagram of a heating element unit of the heating toilet seat in the first embodiment Sectional drawing of the principal part of the overheat prevention device of the heating toilet seat in Embodiment 1 Temperature characteristic diagram of heating toilet seat in the first embodiment Another principal part sectional view of the heating toilet seat in Embodiment 1 Schematic sectional view of a heated toilet seat according to Embodiment 2 of the present invention Sectional drawing of the principal part of the overheat prevention device of the heating toilet seat in Embodiment 2 Temperature characteristic diagram of heating toilet seat in the second embodiment Schematic sectional view of a conventional heated toilet seat Schematic sectional view of another conventional heated toilet seat

22 Toilet seat 26 Seating section 29 Thermostat (overheat prevention device)
33 Control unit
36 Heating element 41 Gap 42 Heat insulation part 43 Heat sensitive part

Claims (7)

A toilet seat having a seating portion;
A heating element unit provided on the back surface of the toilet seat;
An overtemperature preventing device that is connected to the heating element unit, detects an abnormal temperature rise of the toilet seat, and cuts off power to the heating element unit;
A control unit for controlling energization of the heating element unit to control the temperature of the seating unit;
A heat insulating part formed by forming a gap between a part of the heating element unit and the seating part;
The heat sensitive part of the overheat prevention device is provided so as to come into contact with the surface opposite to the gap side of the heating element unit corresponding to the heat insulating part, and energization to the heating element unit is started. The heating toilet seat is characterized in that the temperature of the heat sensitive part of the overheat prevention device is higher than the temperature of the seating part. A toilet seat having a seating portion;
A heating element unit provided on the back surface of the toilet seat;
An overtemperature preventing device that is connected to the heating element unit, detects an abnormal temperature rise of the toilet seat, and cuts off power to the heating element unit;
A control unit for controlling energization of the heating element unit to control the temperature of the seating unit;
A heat insulating part formed by forming a gap between a part of the heating element unit and the seating part;
The heat sensitive part of the overheat prevention device is provided so as to come into contact with the surface opposite to the gap side of the heating element unit corresponding to the heat insulating part, and energization to the heating element unit is started. The heating toilet seat is characterized in that the temperature characteristic of the heat sensitive part of the overheat prevention device rises faster than the seating part. The second heating element provided in a part of the toilet seat is provided with the overheat prevention device so that the power density of the second heating element is higher than the power density of the heating element unit. The heated toilet seat according to 1 or 2. When the temperature of the heat sensitive part of the overheat prevention device reaches the off operation temperature of the overheat prevention device and the off temperature operation of the overheat prevention device is actually performed with a delay, the surface temperature of the seating portion The heated toilet seat according to any one of claims 1 to 3, wherein the safety limit temperature is not reached. A seating portion temperature detecting means for detecting the temperature of the seating portion; and a room temperature detecting means for detecting a room temperature. The control portion controls the seating portion to an appropriate temperature based on signals from the seating portion temperature detecting means and the room temperature detecting means. The heating toilet seat according to any one of claims 1 to 4, wherein the energization amount is controlled so as to become. The control unit selects the optimum value of the energization limit time set and stored in advance based on the signals of the seating part temperature detection means and the room temperature detection means, and when the elapsed time of the timer unit reaches the energization limit time, the energization amount The heating toilet seat according to any one of claims 1 to 4, wherein the energization amount is controlled so that the seating portion becomes an appropriate temperature on the basis of a signal from the seating portion temperature detection means after reducing or reducing to zero. The heating toilet seat according to claim 6, wherein at a room temperature of 15 ° C., an input to the heating element unit reaches a toilet seat control temperature in 6 seconds by 1.0 W / cm 2.

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