JP3831011B2 - Infrared therapy device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an infrared treatment device that can relax muscle stiffness with a thermal effect.
[0002]
[Prior art]
Conventionally, there has been an infrared treatment device that can relax muscle stiffness with a thermal effect so that it can be used easily at home, and its general structure is that infrared rays, particularly in the head casing formed at one end opening An infrared heater that radiates far infrared rays is known.
[0003]
Such an infrared heater generally has a configuration in which a heater substrate is mounted on an infrared plate obtained by applying and baking ceramics on a stainless steel plate or an aluminum plate.
[0004]
[Problems to be solved by the invention]
However, the infrared treatment device described above still has the following problems to be solved.
[0005]
That is, as described above, since the infrared heater has a plate shape in which ceramics are applied and fired, for example, there is a possibility that a crack may be generated on the surface due to an impact when it is overturned or dropped.
[0006]
An object of the present invention is to provide an infrared treatment device that can solve the above-described problems.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention attaches a plate-shaped infrared heater and a bunnel-shaped metal reflector surrounding the heater in the head casing of the front end opening. In the infrared treatment device in which an auxiliary heater and a fan are disposed at the rear, the auxiliary heater is surrounded by a metal heat shield casing, and the heat shield casing is inserted into a cylindrical unit casing made of synthetic resin. A buffer portion is interposed between the infrared heater and the head casing, and the buffer portion is a mounting hole for inserting and fixing the mounting shaft of the infrared heater into a metal annular fixing plate attached to the cylindrical unit casing. The three buffering projecting pieces of the cantilever support provided with a cylindrical structure are continuously provided from the inner peripheral edge toward the center, and a cylindrical buffer member is attached to the mounting hole. By Jo unit casing, they were separated and the and the reflective plate of the metal between the annular fixing plate and the heat insulating casing.
[0008]
The annular fixing plate is also characterized in that a mounting plate with a mounting surface for mounting an overheat prevention means bulging toward the infrared heater is provided.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
In the infrared treatment device according to the present invention, a plate-shaped infrared heater and a bunnel-shaped metal reflector surrounding the heater are attached to the head casing of the front end opening, and an auxiliary device is provided behind the infrared heater. In the infrared treatment device provided with a heater and a fan, the auxiliary heater is surrounded by a metal heat shield casing, and the heat shield casing is fitted and inserted into a cylindrical unit casing made of synthetic resin. A buffer portion is interposed between the head casing and the buffer portion provided with a mounting hole for inserting and fixing the mounting shaft of the infrared heater in a metal annular fixing plate attached to the cylindrical unit casing. The three buffering protrusions supported in a cantilever manner are connected from the inner peripheral edge toward the center, and a cylindrical buffer member is attached to the mounting hole, and the cylindrical unit made of synthetic resin is used. By preparative casing, in which were separated and the reflective plate of metal between said annular fixing plate and the heat insulating casing.
[0010]
As an infrared heater, a heater substrate sandwiched between a pair of mica plates is sandwiched between an infrared plate obtained by applying ceramics to a metal plate such as stainless steel or aluminum and a back plate provided with a mounting shaft. It is a planar heater with a structure, and the buffer part has a cantilevered buffering protrusion formed so that the mounting shaft of the infrared heater can be fixed, and the shock is absorbed by the bending of the buffering protrusion. It is possible.
[0011]
Further, the buffer portion is constituted by an annular fixing plate in which a plurality of buffering protrusions that can fix the mounting shaft of the infrared heater are arranged inward, and the annular fixing plate is attached to and detached from the head casing. It is configured to be detachably attached to a resin-made cylindrical unit casing that is freely arranged, and further, an attachment plate that holds an overtemperature preventing means is provided on the annular fixing plate.
[0012]
As described above, the mounting plate for holding the infrared heater, the buffer portion, and the overtemperature preventing means is integrally attached to the cylindrical unit casing, whereby these can be accommodated and disposed in the head casing as a unit. Therefore, it is possible to easily integrate the components individually attached to the head casing conventionally as a unit, and rationalize the manufacturing process.
[0013]
Furthermore, an auxiliary heater and a fan are arranged behind the infrared heater in the head casing, so that warm air can be blown to the affected area immediately after the infrared therapeutic device is started up by rotating the fan, and the affected area is immediately warmed. Moreover, it is possible to improve the feeling of use by constantly applying hot air to the affected area during treatment.
[0014]
In this case, the auxiliary heater is surrounded by a heat shield casing, and the heat shield casing is fitted into the cylindrical unit casing, whereby the auxiliary heater and the fan connected to the auxiliary heater are unitized. It becomes possible.
[0015]
The annular fixing plate is preferably made of metal in consideration of heat resistance since it is close to the infrared heater, and the mounting plate disposed thereon is also made of metal.
[0016]
Moreover, it is preferable that the mounting plate bulges the mounting surface for mounting the overheat prevention means to the infrared heater side.
[0017]
Examples of the overheat prevention means include a bimetal, a thermostat, and a temperature fuse. Here, a temperature fuse is attached to the attachment surface bulged to the infrared heater side.
[0018]
Therefore, the thermal fuse can be arranged as close as possible to the infrared heater so that it can react reliably to overheating of the heater, improving the safety and arranging the mounting plate. The provided annular fixing plate can be as far away as possible from the infrared heater. In addition, since the space on the back side of the mounting surface is expanded, the wiring from the infrared heater can be passed through the space, and the limited space of the head casing can be used effectively. The entire infrared therapy device can be made compact.
[0019]
Further, in order to further improve the buffer function, a cylindrical buffer member is provided on the buffer protrusion, and silicon is preferably used as the buffer member. For example, foamed silicon, heat-resistant resin, insulator, or Nonwoven fabrics and the like can also be used, and there is no need to limit the material as long as it performs a buffer function.
[0020]
Thus, in the infrared treatment device according to the present invention, even when the infrared treatment device is accidentally overturned or dropped, it is possible to prevent the shock from being transmitted to the infrared heater by the buffer portion as much as possible. It is possible to prevent the ceramic portion from being cracked. In addition, the resin-made cylindrical unit casing separates the metal reflector and the annular fixing plate and the heat shield casing, so that they are insulated from each other, for example, an infrared heater or an auxiliary heater leaks. Even if the reflector is easily touched from the outside, the safety is improved without being energized.
[0021]
Further, when the buffer member is provided in the buffer portion, the heat conductivity of the buffer member is low, so that the heat of the infrared heater can be prevented from being transmitted to the head casing and other parts, and deformation due to heat can be prevented.
[0022]
【Example】
Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
[0023]
As shown in FIG. 1, an infrared treatment device A according to the present invention includes a handy type treatment device main body A1 having a grip 2 attached to a head casing 1, and a stand 3 that can hold the treatment device main body A1. Thus, it can be placed by inserting the grip portion 2 through a support cylinder portion 30 projecting from the stand 3.
[0024]
As shown in FIGS. 1 to 3, the grip portion 2 is pivotally supported by a mounting pivot support portion 1 a formed on the head casing 1, and can be folded. A power cord C is provided from the lower end of the grip portion 2. Is distracted. Reference numeral 2a denotes a pivot shaft fitted to the mounting pivot portion 1a. Note that a slit 31 for allowing the power cord C to escape is formed in the support cylinder portion 30 of the stand 3.
[0025]
In addition, as shown in FIG. 3, an operation part B having an on / off timer switch 10 and an LED display type timer display part 11 is provided on the front side part of the grip part 2, and a desired set time is selected. Infrared treatment is possible. As described above, the operability is improved by providing the operation portion B in the grip portion 2.
[0026]
As shown in FIG. 3, the head casing 1 is formed by joining a pair of halved casings 1b and 1b, and is formed in a cylindrical shape with front and rear end openings gradually increasing in diameter from the center to the front end. A spider web-shaped front cover body 14 and a mesh-shaped rear cover body 15 are attached to the part 12 and the rear end opening part 13, respectively. Reference numeral 15 a denotes a ring for pressing the rear cover body 15, and 16 denotes a cap that includes the front cover body 14 and is detachably attached to the front end opening 12 of the head casing 1.
[0027]
Further, as shown in FIGS. 2 and 3, the head casing 1 has an infrared heater 4 for radiating infrared rays in order from the front side, a bunched reflector 5 surrounding the heater 4, and energization. An auxiliary heater 7 capable of generating heat immediately afterward and a fan 8 for sending warm air from the front end opening 12 toward the affected area are provided. 80 is a fan case formed in a cylindrical shape, 81 is a fan drive shaft, and 82 is a fan motor interlocked with the fan drive shaft 81.
[0028]
The fan 8 is an axial fan in this embodiment, but a sirocco fan or the like can also be used.
[0029]
As shown in FIG. 3, the infrared heater 4 has a circular back plate 41 provided with a threaded body 41a as a mounting shaft, and a circular infrared plate 40 in which ceramic is applied and fired on a metal plate such as stainless steel or aluminum. A heater substrate 43 sandwiched between mica plates 42 and 42 is interposed between the infrared plate 40 and the back plate 41. Reference numeral 40a denotes an attachment piece to the back plate 41 formed on the periphery of the infrared plate 40, and reference numeral 43a denotes a nichrome heater wire.
[0030]
Further, as shown in FIG. 2, the infrared plate 40 has a front surface curved in a concave shape toward the infrared radiation direction, and concentrates far infrared rays on the affected area to improve the therapeutic effect.
[0031]
The infrared heater 4 is surrounded by a reflecting plate 5 formed of a metal plate such as stainless steel or aluminum in the shape of a bun. The reflecting plate 5 has a peripheral edge between the cap 16 and the front end opening 12 described above. It is sandwiched between them.
[0032]
The infrared heater 4 can be composed of only the heater substrate 43 and the nichrome heater wire 43a in the above-described configuration, and a powder as an infrared radiator, for example, silicate is sintered as a main material and pulverized. The product obtained in this manner may be coated by a method such as spraying or dipping through a binder.
[0033]
The auxiliary heater 7 uses a bare heater wire that generates heat immediately after being energized. As shown in FIGS. 2 and 3, a coil-shaped heater is formed on a coil substrate 71 formed by combining two substrates in a cross-sectional shape. The wire is wound and surrounded by a metallic cylindrical heat shield casing 70 having a diameter smaller than that of the infrared heater 4 so that the heat of the auxiliary heater 7 is not directly transmitted to the head casing 1.
[0034]
The motor housing portion 71a provided on the coil substrate 71 houses and arranges the rear half of the fan motor 81 of the fan 8 and the front half is held by a motor holding cylinder 80a provided at the center of the fan case 80. Thus, the auxiliary heater 7 and the fan 8 are connected in series. Reference numeral 80b denotes a motor holding cylinder support plate.
[0035]
As described above, the infrared treatment device A according to the present embodiment enables the warm air to be blown to the affected part immediately after the start of the infrared treatment device A by the rotation of the fan 8, warms the affected part immediately, and continuously during the treatment. Since hot air can be applied to the affected area, the feeling of use is improved.
[0036]
In the infrared treatment device A, the present invention is characterized in that a buffer portion D is interposed between the infrared heater 4 and the head casing 1.
[0037]
That is, as shown in FIGS. 2 and 3, the buffer portion D includes a cantilever-supporting buffering protrusion 9 provided with a mounting hole 90 for inserting and fixing the screw body 41 a of the infrared heater 4. The shock can be absorbed by the flexure of the buffering projecting piece 9, and an effective shock mitigating function can be achieved with a simple configuration. In the present embodiment, the buffering projecting piece 9 is constituted by an annular fixing plate 17 provided in a plural number so as to face inward.
[0038]
The annular fixing plate 17 is made of metal in consideration of heat resistance, and is formed by projecting three buffering projecting pieces 9 from the inner peripheral edge of the annular portion 17a toward the center, and the annular portion 17a is formed in the head casing. 1 is detachably attached to a front opening of a cylindrical unit casing E that is detachably disposed in the inside.
[0039]
The cylindrical unit casing E is integrally formed of a heat-resistant synthetic resin, and forms an annular fixing plate receiving peripheral surface E2 along the periphery of the rear opening of the front short cylindrical portion E1, and the front of the peripheral surface E2 A clamping claw E3 that holds the annular fixing plate 17 with a gap slightly larger than the thickness of the annular fixing plate 17 projecting inwardly. Then, between the clamping claw E3 and the annular fixing plate receiving peripheral surface E2, the engagement convex piece 17b formed on the outer peripheral edge of the annular portion 17a of the annular fixing plate 17 is engaged in a superposed state. .
[0040]
Further, an engagement flange E4 is formed on the outer periphery of the rear portion of the front short tube portion E1, and is engaged with ribs 1c formed on a pair of half casings 1b and 1b constituting the head casing 1, thereby restricting the position in the front-rear direction. is doing.
[0041]
In addition, a heat shield casing fitting piece E5 is provided on the back surface of the annular fixing plate receiving peripheral surface E2 so as to protrude rearward, and the front end of the heat shield casing 70 containing the auxiliary heater 7 is inserted. It is possible.
[0042]
In this way, by passing through the cylindrical unit casing E having the above-described configuration, the infrared heater 4, the buffer part D, and the auxiliary heater 7 and the fan 8 connected to the auxiliary heater 7 are unitized to form a unit in the head casing 1. In order to rationalize the manufacturing process, it is possible to integrate and dispose the components individually attached to the head casing as a unit.
[0043]
In addition, for example, when the reflector 5 is made of metal, the synthetic resin tubular unit casing E separates the metal reflector 5 from the annular fixing plate 17 and the heat shield casing 70. Thus, each is reliably insulated, and for example, even if the infrared heater 7 or the auxiliary heater 7 is leaked, the reflector 5 that is easy to touch from the outside is not energized and safety is improved.
[0044]
Further, in this embodiment, in order to further improve the buffering function, a cylindrical cylindrical buffer member 91 is mounted in the mounting hole 90 of the buffering projecting piece 9. The shock absorbing member 91 can absorb the shock more reliably, and the heat of the infrared heater 4 is transmitted to other components such as the head casing 1 and the cylindrical unit casing E because the material has low thermal conductivity. In addition, the insulation is further improved.
[0045]
In addition, if foamed silicon is used as the buffer member 91 in place of the silicon, the cushioning property is improved and the thermal conductivity is further lowered, so that it is excellent in terms of thermal conduction. Further, in addition to silicon, for example, a heat-resistant resin, an insulator, or the like may be formed in a cylindrical shape, and the material is not limited as long as it functions as a buffer.
[0046]
Further, the annular fixing plate 17 is provided with a mounting plate 60 for holding a thermal fuse 63, which is one of the means for preventing overheating, and the mounting plate 60 is a mounting surface for mounting the thermal fuse 63. 60a is bulged toward the infrared heater 4 side. 60b is a leg piece protruding rearward so as to bulge the mounting surface 60a.
[0047]
Therefore, the temperature fuse 63 can be disposed in the state as close as possible to the infrared heater 4 and can be surely reacted to the overheating of the infrared heater 4, so that it is extremely safe. For example, even if the fan motor 82 is locked and becomes abnormal temperature due to winding of hair or the like, the temperature fuse 63 can be operated immediately.
[0048]
Further, the annular fixing plate 17 on which the mounting plate 60 is disposed can be kept away from the infrared heater 4 as much as possible, thereby making it difficult for heat to be transmitted thereto.
[0049]
Further, since the space on the back surface portion is expanded by the amount of bulging of the mounting surface 60a, the wiring from the infrared heater 4 can be passed through the space, and the limited space in the head casing 1 is effectively used. Since it can be used, the entire infrared treatment device A can be made compact. 63a is a metal fuse fitting such as stainless steel, and 63b is a mounting screw.
[0050]
In addition, as an overheat prevention means in the present embodiment, there is a thermostat 62 provided in the auxiliary heater 7 in addition to the temperature fuse 63.
[0051]
As described above, in the infrared treatment device A according to the present invention, since the buffer portion D is interposed between the infrared heater 4 and the head casing 1, the treatment device body A1 is accidentally dropped during use. Even if the shock is absorbed, the shock absorber D absorbs the infrared heater 4 and the ceramics of the heater 4 are not cracked.
[0052]
4 and 5 show another embodiment of the buffer portion D. FIG.
[0053]
FIG. 4 shows a shock-absorbing protrusion 9 projecting from the inner peripheral wall of the head casing 1, and is formed in an L-shape in cross-section from the vertical protrusion 9a and the horizontal protrusion 9b. Thus, the mounting shaft of the infrared heater 4 is connected to the horizontal protrusion 9b.
[0054]
In such a configuration, for example, when an impact is applied to the head casing 1, vibrations in the X-direction component and the Y-direction component can be absorbed by the buffer protrusion 9, and the impact is prevented from being directly transmitted to the infrared heater 4. it can. In this embodiment, the reflecting plate 5 is omitted.
[0055]
In FIG. 5, a buffering protrusion 9 is formed by protruding from the rear edge of the reflector 5, and an infrared heater is provided on the buffering protrusion 9 via a buffering member 91. 4 mounting shafts are connected. In this embodiment, the auxiliary heater 7 and the fan 8 are omitted, and the head casing 1 is bowl-shaped.
[0056]
In addition, what is shown in FIG. 6 is one in which a clip 2b is connected to the lower end of the grip portion 2, and with such a configuration, the clip 2b can be sandwiched between edges of a table or other places that are difficult to place. Can be used by holding. In FIG. 6, 2c is a gripping part for operation, 2d is a clamping part with a slip stopper formed inside, and 2e is a pivot.
[0057]
By the way, in each of the embodiments described above, the head casing 1 and the stand 3 have been described as separate bodies. However, even a stationary type in which the head casing 1 and the stand 3 are integrally connected can be used. Application is possible.
[0058]
【The invention's effect】
As described above, the present invention has the following effects.
[0059]
(1) Even if the infrared therapy device is accidentally overturned or dropped, it is possible to prevent the shock from being transmitted to the infrared heater as much as possible, and to prevent cracks in the ceramic part of the heater. can do.
[0060]
(2) Since the buffer portion includes a cantilever-supporting buffering protrusion formed so that the mounting shaft of the infrared heater can be fixed, an effective shock mitigating function can be achieved with a simple configuration.
[0061]
(3) The mounting plate for holding the infrared heater, the buffer, the temperature rise prevention means, etc. can be unitized and stored in the head casing via the cylindrical unit casing, making maintenance and the like extremely easy. Become.
[0062]
(4) Further, the cylindrical buffer member can absorb the shock more reliably and enhance the buffer function, and the heat conductivity of the buffer member is low, so that the heat of the infrared heater is reduced to the head casing and other It can be prevented from being transmitted to the parts, and deformation due to heat can be prevented.
[0063]
(5) Since the mounting plate disposed on the annular fixing plate has the mounting surface for mounting the overheat prevention means bulging to the infrared heater side, the overheat prevention means can be provided to the infrared heater as much as possible. It can be placed close to the heater, and it can react safely to the overheating of the heater to improve safety, and the annular fixed plate with the mounting plate should be kept away from the infrared heater as much as possible Is possible. In addition, since the space on the back side of the mounting surface is expanded, the wiring from the infrared heater can be passed through the space, and the limited space in the head casing can be used effectively. The entire infrared therapy device can be made compact.
[Brief description of the drawings]
FIG. 1 is a side view of an infrared treatment device according to the present invention.
FIG. 2 is a cross-sectional view of the treatment device main body.
FIG. 3 is an exploded perspective view of the same.
FIG. 4 is an explanatory diagram of a buffer unit according to another embodiment.
FIG. 5 is an explanatory diagram of a buffer according to another embodiment.
FIG. 6 is an explanatory view showing an embodiment of an infrared treatment device according to the present invention.
[Explanation of symbols]
A Infrared therapy device D Buffer section E Tubular unit casing 1 Head casing 4 Infrared heater 7 Auxiliary heater 8 Fan 9 Buffering protrusion
17 Annular fixing plate
60 Mounting plate
60a Mounting surface
70 Thermal insulation casing
91 Shock absorber

Claims (2)

In the head casing (1) of the front end opening, a plate-shaped infrared heater (4) and a bunnel-shaped metal reflector (5) surrounding the heater (4) are attached, and the infrared heater ( In the infrared treatment device with the auxiliary heater (7) and the fan (8) arranged behind 4),
The auxiliary heater (7) is surrounded by a metal heat shield casing (70), and the heat shield casing (70) is inserted into a cylindrical unit casing (E) made of synthetic resin, and the infrared heater (4 ) And the head casing (1), a buffer part (D) is interposed ,
Buffer portion of this (D) is in the tubular unit casing (E) to preparative Tagged metallic annular fixing plate (17), mounting holes (90 for inserting fixing the mounting shaft of said infrared heater (4) ) And three buffering protrusions (9) with cantilever support provided continuously from the inner peripheral edge toward the center, and a cylindrical buffer member (91) is mounted in the mounting hole (90). In addition, the cylindrical unit casing (E) made of synthetic resin separated the metallic reflectors (5) , the annular fixed plate (17), and the heat shield casing (70). Infrared therapy device. The annular fixing plate (17) is provided with a mounting plate (60) in which a mounting surface (60a) for mounting an overheat prevention means is bulged to the infrared heater (4) side. The infrared treatment device according to claim 1.

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