JP5966153B2 - Electric warmer - Google Patents

Description

  The present invention relates to an electric warmer that prevents abnormal heat generation of a controller.

  Conventionally, in a controller for an electric warmer, as a configuration for preventing deformation of the case due to abnormal heat generation, a mica plate is installed under the printed circuit board provided in the resin case of the controller, In addition, an air layer is formed between the mica plate and the bottom surface of the resin case, and heat generated in the printed circuit board is prevented from being transmitted to the bottom surface of the resin case. It is the structure which prevents the deformation | transformation of a resin case (for example, refer patent document 1).

JP-A-8-315960

  However, the conventional electric warmer can achieve the intended purpose when the controller is used in a normal use state where the controller is installed on the floor, but the controller is placed on the electric warmer. If the heat is applied from the outside or the heat dissipation is hindered, such as when the controller is used with the controller wrapped in a blanket, etc., the intended purpose cannot be achieved and safety There was still an inadequate aspect in terms of sex.

  The present invention solves the above-described conventional problems, and is highly safe by shutting off the heater in an abnormal use state where heat is applied to the controller from the outside or heat dissipation is hindered. The object is to provide an electric warmer.

  In order to solve the above-described conventional problems, an electric warming tool of the present invention includes a main body incorporating a heater, and a controller that is detachably provided on the main body via a connector and controls energization of the heater. Is equipped with a thermal fuse that blows when the temperature inside the controller body rises, and a thermistor that detects the temperature rise inside the controller body, and the controller cuts off the power supply to the heater when the temperature fuse blows and when the temperature of the thermistor is detected The temperature fuse and the thermistor are arranged on different surfaces of the upper surface and the lower surface of the control board installed in the controller body.

  This makes it possible to shut off the power to the heater even if the temperature in the upper or lower part of the controller rises abnormally. Corresponding to a wide range of abnormal use such as use underneath, it is possible to cut off energization to the heater and prevent deformation of the controller case, etc., and provide a highly safe electric warming tool. .

  The electric warming tool of the present invention can improve the safety by preventing the controller case from being deformed due to abnormal use of the controller.

The perspective view which shows the usage condition in the hot state of the electric warming tool in Embodiment 1 of this invention The perspective view which shows the usage condition in the cool state of the electric warming tool in Embodiment 1 of this invention The perspective view which shows the state which the electric warming tool in Embodiment 1 of this invention spread out AA sectional view shown in FIG. Schematic diagram of heater wire in Embodiment 1 of the present invention BB cross section shown in FIG. DD cross section shown in FIG. CC cross section shown in FIG.

1st invention includes the main body which incorporated the heater, and the controller which was provided in the said main body through the connector so that attachment or detachment was possible, and the said controller is the temperature rise in a controller main body. A temperature fuse that blows, and a thermistor that detects a temperature rise in the controller body, and the controller is configured to cut off energization to the heater by melting the temperature fuse and detecting the temperature of the thermistor, The thermal fuse and the thermistor are respectively arranged on different surfaces of the upper and lower surfaces of the control board installed in the controller body, and the heater has a heating wire and a temperature detection wire wound coaxially through an insulating layer. The thermal fuse is integrally formed with a heating resistor for heating the thermal fuse, and is formed of a heater wire. If the heating wire of data lines and said temperature sensing line is short-circuited, an electrical Todan device, which comprises fusing the temperature fuse by supplying an electric current to the heating resistor.

  This makes it possible to shut off the power to the heater even if the temperature in the upper or lower part of the controller rises abnormally. Corresponding to a wide range of abnormal use such as use underneath, it is possible to cut off energization to the heater and prevent deformation of the controller case, etc., and provide a highly safe electric warming tool. .

Moreover, the thermal fuse is a safety device for both the heater wire abnormality and the controller abnormality.
Therefore, it is possible to provide a highly safe electric warmer at a low cost.

  According to a second invention, in particular, in the first invention, the thermal fuse is disposed on an upper surface of the control board, and the thermistor is disposed on a lower surface of the control board.

As a result, when a controller that is frequently used for abnormal use is placed on the top surface of the main unit and used, the control unit shuts off the power to the heater by detecting the temperature of the thermistor, and returns when the temperature drops. Non-returnable safety device that can be operated as a safety device, and that is rarely used for abnormal use, but when a dangerous controller is used under the body, the thermal fuse blows. It may operate as, as possible out to secure a higher safety.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a perspective view showing a usage state in a hot state in which the main body of the electric warmer according to the present embodiment is arranged on the upper surface and used in an energized state, and FIG. 2 is used without energizing by covering the upper surface of the main body with a cover. FIG. 3 is a perspective view showing a state in which the main body and the cover are expanded in order to switch the arrangement of the cover, and FIG. 4 is a cross-sectional view taken along line AA shown in FIG. 5 is a BB cross-sectional view shown in FIG. 1, and FIG. 6 is a DD cross-sectional view shown in FIG.

<1> Structure of electric warmer The electric warmer in the present embodiment includes a heater unit inside, and a mat-shaped main body having a vertical dimension of about 180 cm and a horizontal dimension of about 70 cm, and an upper surface of the main body can be attached and detached. A mat-shaped electric warming tool that is provided with a cloth cover having a moisture absorption quick-drying function and that is spread on the floor and used by a user while sitting or lying on the floor. The electric warming tool sweats in summer when the upper surface of the main unit is exposed and the heater unit is energized as a heating appliance, and the upper surface of the main unit is covered with a cover with a moisture absorption and quick drying function. It can be used by switching to two usage forms in a cool state for use as a comfortable mat at high temperatures.

  As shown in FIG. 1, when using an electric warming tool in a hot state, a cover 200 is laid and laminated on the lower surface side of a substantially rectangular main body 100, and a connector receiving portion 306 provided on the peripheral edge of the main body 100 is attached. A controller 300 is connected and the heater unit 130 is energized for use.

  As shown in FIG. 2, when the electric warming tool is used in the cool state, the upper surface of the main body 100 is covered with the cover 200 and the controller 300 is used without being connected.

  As shown in FIG. 3, the main body 100 and the cover 200 are coupled via a coupling portion 201 formed at the end of the cover 200, and the cover 200 is inverted to switch between the hot state and the crew state. Can do.

  As shown in FIG. 4, the main body 100 includes a front surface material 110 disposed on the upper surface, a back surface material 120 disposed on the lower surface, and a heater unit sandwiched between the front surface material 110 and the back surface material 120. The outer periphery is integrally formed by laminating 130 and the fastener 150 is attached to the substantially entire length of both long sides of the outer peripheral edge by sewing. The fastener 150 includes a slider 152 that is slidable over its entire length, and a joint 151 that inserts and joins the end of the fastener 240 on the cover 200 side is disposed at the end on the coupling part 201 side.

  The surface material 110 of the main body 100 is composed of three layers in which a surface fabric 111 made of polyester with a raised surface, cotton 112 made of polyester, and a nonwoven fabric 113 made of polyester are laminated. Moreover, the back material 120 is comprised by the three layers which laminated | stacked the acrylic back cloth 121 which gave the potting process from the lower surface side used as an outer surface, the polyester cotton 122, and the polyester nonwoven fabric 123. FIG.

  The back cloth 121 used for the back material 120 is a cloth surface that has been dot-processed with acrylic resin in the form of dots. Acrylic resin protrusions are formed on the cloth surface at intervals, and are formed on the floor surface. When laid, the protrusions function to prevent slipping.

  The heater unit 130 inserts the heater wire 140 into a tunnel-shaped insertion path formed in a portion that is not sewn by sewing the outer peripheral portion and the central portion of the laminate of the blanket 131 and the nonwoven fabric 132 with sewing threads. Thus, the heater wire 140 is meandered over substantially the entire surface of the heater unit 130.

  As shown in FIG. 1, both end portions of the heater wire 140 are electrically connected to a connector receiving portion 306 installed in the vicinity of the coupling portion 201 of the main body 100. The connector receiving portion 306 is configured such that a connector plug 302 connected to the tip of the connection cord 301 of the controller 300 is detachably connected.

  As shown in FIG. 5, the heater wire 140 has a heating wire 142 spirally wound around a central glass fiber 141, an insulating layer 143 is formed of nylon resin on the outer periphery, and a temperature is formed on the outer periphery of the insulating layer 143. A temperature detection wire 144 containing nickel as a main component is wound in a spiral shape, and a jacket is formed of a PVC insulating layer 145 on the outer periphery thereof.

  The heater wire 140 can generate heat by energizing from both ends of the heating wire 142, and the temperature detection wire 144 detects a temperature change of the heater wire 140 by detecting a change in resistance value between the both ends. The heater wire 140 has two functions of a heating function and a temperature detection function.

  As shown in FIG. 4, the cover 200 is configured by three layers in which a front cloth 210, an interlining 220 and a backing cloth 230 are laminated.

  The front cloth 210 is made by knitting fibers of a special polyester material, and has high moisture absorption and quick drying. The special polyester fiber is provided with high quick-drying and heat dissipation by increasing the surface area of the fiber by improving the water absorption and mobility by capillary action by forming grooves on the surface. Further, the front cloth 210 is knitted with a thick yarn obtained by twisting a plurality of special polyester fibers, and has a feeling of being slatted by forming appropriate irregularities on the surface.

  The interlining 220 uses a thick cloth knitted with acrylic fibers, has a higher hardness than the front cloth 210 and the back cloth 230, has a moderate hardness, and is relatively difficult to deform and difficult to cling to the body. It has become.

  As the backing cloth 230, similarly to the backing cloth 121 of the backing material 120 of the main body 100, a cloth having a potting process using an acrylic resin on the lower surface side that is the outer surface is used.

  The cover 200 is integrally formed by laminating a front cloth 210, an interlining 220, and a back cloth 230 and sewing an outer peripheral portion, and a fastener 240 is attached by sewing over substantially the entire length of both long sides of the outer peripheral edge. Yes.

  The fastener 150 attached to the main body 100 and the fastener 240 attached to the cover 200 function as holding means for the cover 200. The fastener 150 of the main body 100 and the fastener 240 of the cover 200 can be joined and separated from each other. When the fastener 150 of the main body 100 and the fastener 240 of the cover 200 are joined, the end of the fastener 240 on the cover 200 side is inserted into the joint 151 and the slider 152 on the main body 100 side, and the slider 152 is slid to join. The long sides of the main body 100 and the cover 200 can be joined, and the cover 200 can be held at a predetermined position of the main body 100.

  As shown in FIG. 6, in the hot state where the cover 200 is on the lower side, the connector receiving portion 306 is opened outward from the peripheral edge of the main body 100, and the connector plug 302 of the controller 300 is moved outward. Can be inserted and connected in a substantially horizontal direction, and in this state, the power supply to the main body 100 can be controlled via the controller 300, and the heating function can be utilized.

  On the other hand, in the cool state in which the cover 200 is on the upper side as shown in FIG. 7, the connector receiving portion 306 is covered with the cover, so the connector plug 302 of the controller 300 cannot be connected. The main body 100 is not energized, and safety can be ensured.

<2> Controller Configuration The controller 300 includes a controller main body 310 having operation switches and control functions, a connection cord 301 for electrically connecting the controller 300 and the main body 100, and a connector plug installed at the tip of the connection cord 301. 302, a power cord 304 for supplying power to the controller main body 310, and a power plug 305 installed at the tip of the power cord 304. The connector plug 302 constitutes a connector as a set together with a connector receiving portion 306 installed in the main body.

  As an operation function of the controller 300, a power switch for turning on / off the power of the electric warming tool and a temperature setting dial for setting the temperature of the surface warming portion to the user's preference are integrally configured. A rotary dial 312 is installed on the upper surface of the controller case 311 of the controller main body 310. The dial 312 is made of a transparent resin material, and a power lamp for displaying an energized state is disposed inside the dial 312.

  As shown in FIG. 8, the control unit housed in the controller main body 310 has a microcomputer as a main component on the upper surface of the control board 320 installed in the middle part of the controller case 311, temperature setting and power supply “ Circuit components such as a rotary type variable resistor for performing “ON” and “OFF” are arranged.

  In particular, the thermal fuse unit 321 that is important as a safety function of the electric warmer is disposed on the upper surface of the control board 320. The thermal fuse unit 321 is configured by integrating a thermal fuse and a heating resistor. In the thermal fuse unit 321, when an abnormality occurs mainly in the heater wire 140 and the heating wire 142 and the temperature detection wire 144 are short-circuited, a current flows through the heating resistor, and the temperature fuse is blown by the heat generation of the heating resistor, and the power supply is turned off. It is a thing to cut off.

In addition to the abnormality of the heater wire 140, the heat generation resistor is energized by the control signal of the microcomputer even when an abnormality occurs in the control unit, and the power supply is cut off by blowing the temperature fuse. Also, the thermal fuse has a function to ensure safety by fusing and shutting off the power supply when the temperature in the controller body 310 rises abnormally even when the heating resistor does not generate heat. is there. For example, a case where the controller main body 310 is energized while being buried under the main body 100 of the electric warmer or a case where the controller main body 310 is energized while being covered with a blanket or the like is assumed.

  A thermistor 322 is installed on the lower surface of the control board 320. The thermistor 322 detects a temperature rise inside the controller main body 310, prevents the temperature inside the controller main body 310 from rising above a predetermined level, and prevents the controller 300 from malfunctioning. It is possible to prevent deformation of the controller case 311 formed of a material. By installing the thermistor 322 on the lower surface of the control board 320, the controller case 311 is prevented from being deformed when the controller main body 310 is left on the upper surface of the main body 100 of the electric warmer and energized. It has a function to ensure.

  By installing the thermal fuse unit 321 and the thermistor 322 separately on both sides of the control board 320, it becomes possible to accurately detect and deal with abnormalities due to temperature rise in the entire range in the controller main body 310, and high safety. Can be secured.

<3> Operation and Action of Electric Heating Tool When the electric heating tool is used in a hot state as a heating device, as shown in FIG. 150 and the fastener 240 of the cover 200 are engaged, and the connector plug 302 of the controller 300 is connected to the connector receiving portion 306.

  When the dial 312 of the controller 300 is rotated, the power switch is turned on, the power lamp is turned on, and energization is started. The temperature can be set by adjusting the rotation angle of the dial 312.

  When used in the hot state, the top cloth 111 of the surface material 110 of the main body 100 is arranged on the uppermost surface where the user's body contacts, and the raised surface is familiar with the body, and between the soft touch and the raised hair A warm and comfortable heating effect can be obtained.

  Further, the back cloth 121 of the cover 200 is arranged on the lowermost surface, and the function of preventing slipping is exhibited by the projections made by the potting process, and the electric warming tool moves carelessly and the user may fall down Can be prevented from falling into a new state.

  On the other hand, when used in a cool state, as shown in FIG. 2, the cover 200 is laminated so as to be on the upper side of the main body 100, and the fastener 150 of the main body 100 and the fastener 240 of the cover 200 are joined. In this state, the connector receiving portion 306 of the main body 100 is covered with the cover 200, and the controller 300 cannot be connected.

  When used in a cool state where the cover 200 is on the upper side of the main body 100, the top cloth 210 of the cover 200 is arranged on the uppermost surface where the user's body comes into contact. In addition, since the interlining 220 uses a thick fabric having a hardness knitted with acrylic fibers and has a structure that is relatively difficult to deform, a cool feel that does not cling to the body can be obtained. .

  In addition, a back cloth 121 of the back material 120 of the main body 100 is arranged on the lowermost surface, and a function of preventing slipping is exerted by a protrusion made by potting on the back cloth 121, and the electric warming tool moves carelessly. It is possible to prevent the user from falling into a dangerous state such as a fall.

  As described above, the electric warming tool in the present embodiment can be used all year round without being affected by the season and temperature by providing the main body with a built-in heater and the cover having the moisture absorption and quick drying function. Yes, it has a wide range of use and is easy to use. Further, since it can be used all year round, it is not necessary to secure a storage location, and it is possible to save the trouble of storage and removal.

  In addition, when used in a cool state, the connector receiving unit 306 is covered with the cover 200 and the controller 300 cannot be connected, so that unnecessary power consumption due to unnecessary energization is prevented, and inadvertent energization, It is possible to prevent the user from being damaged such as low-temperature burns, and safety and usability can be improved.

  In addition, the temperature fuse unit 321 is disposed on the upper surface of the control board 320 of the controller main body 310 and the thermistor 322 is disposed on the lower surface. It is possible to ensure high safety.

  In the present embodiment, the main body 100 and the cover 200 are configured such that one side is joined by sewing and the two sides are joined by the fasteners 150 and 240. However, the present invention is not limited to this. May be configured as an independent member and may be engaged with a string or a button. Moreover, it is good also as a structure which forms a cover in a bag shape and accommodates a main body in the inside of a cover.

  In the present embodiment, the thermal fuse unit 321 is disposed on the upper surface of the control board 320 and the thermistor 322 is disposed on the lower surface. However, the present invention is not limited to this. If the fuse 321 and the thermistor 322 are arranged on the opposite surfaces of the control board 320, the same effect can be obtained.

  As described above, since the electric warming device according to the present invention can prevent the controller from being damaged due to an abnormal temperature rise of the controller, the electric heating device according to the present invention can be used for other electric appliances including the controller installed separately from the main body. It can also be applied to.

100 Body 130 Heater unit (heater)
140 Heater wire 142 Heating wire 143 Insulating layer 144 Temperature detection wire 300 Controller 302 Connector plug (connector)
306 Connector receiving part (connector)
310 Controller body 320 Control board 321 Thermal fuse unit (thermal fuse)
322 Thermistor

Claims (2)

A main body with a built-in heater,
A controller that is detachably provided on the main body via a connector, and that controls energization to the heater,
The controller includes a thermal fuse that blows due to a temperature rise in the controller body, and a thermistor that detects a temperature rise in the controller body,
The controller is configured to cut off energization to the heater by melting the thermal fuse and detecting the temperature of the thermistor,
The thermal fuse and the thermistor are respectively arranged on different surfaces of the upper surface and the lower surface of a control board installed in the controller body ,
The heater comprises a heater wire in which a heating wire and a temperature detection wire are wound coaxially through an insulating layer,
The thermal fuse is integrally provided with a heating resistor for heating the thermal fuse,
When the heating wire of the heater wire and the temperature detection wire are short-circuited, the heating fuse is energized to blow the thermal fuse,
Electric warmer. The thermal fuse is disposed on the upper surface of the control board, and the thermistor is disposed on the lower surface of the control board.
The electric warmer according to claim 1.