KR20150098601A - Foot heating device with motor for press - Google Patents

Abstract

A vibrating foot heating device (1000) according to the present invention comprises: a body (100); heating boards (100a, 100b) which are formed on the left and right sides of an upper plate of the body (100); an acupressure vibrating unit (180) which is formed in a front central portion of the body; a heater operational switch (80) which is an on/off switch for electricity and is formed in a lower portion of the body; and an acupressure vibrating switch (80a) which is formed on one side of the body.

Description

{Foot heating device with motor for press}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a foot warmer with a chiropractic motor, and more particularly, to a foot warmer having a heating device and a vibrating motor for applying an acupressure motor attached thereto for heating the human foot .

1, a foot bath is a device that immerses a foot or a hand in hot water and activates stagnant blood to improve the unbalance of body temperature, thereby promoting peripheral blood capillary blood flow in the foot, which is a part far from the heart, And thus it has been widely used. In addition, a "gyojanggi" of Korean Registered Utility Model No. 20-0244201 in which one embodiment is disclosed will be described as follows. same.

The footbath unit includes a body 11 including a heating plate having a heat-conducting body and an adjusting box having a temperature control switch, a bubble generator operating switch, and a bubble generator at an upper side of the body, A heat collecting plate corresponding to an upper surface of the inserting portion; And a bathtub (12) having a plurality of acupressure projections and bubble discharge holes on the upper surface of the bottom plate.

That is, a structure is adopted in which water is contained in the inner space of the bathtub 12, the heating wire embedded in the bottom portion is heated to heat the water to an appropriate temperature, and then the feet are immersed in the water in the bathtub 12, There is an advantage that it can be easily used anywhere in the home supplied.

However, since water is an essential element for using the bathing hob, it is necessary to carry the bathing water to the bathroom or the water bath to store the water in the bathtub 12, or to float the water and pour it separately into the bathtub 12, There is the inconvenience that the water contained in the bathtub 12 should be emptied again after use, and there is a difficulty in repeatedly hearing the heavy bathtub 12.

Since the heater for heating the water is embedded in the bottom of the container, the upper and lower temperatures of the water contained in the bath are different from each other, and bacteria or viruses living in the water are transferred to the user's feet as they are, resulting in unsanitary problems.

In addition, when a foot bath is used, when the foot is removed from the foot bath due to other work, there is a disadvantage in that it is necessary to remove the water because the foot is in a state of being stuck on the foot.

Therefore, a footbath that does not use water while maintaining the function of footbath was developed.

2 to 4, a heat insulating material 40 formed at a lower portion, a planar heating element 30 provided at an upper portion of the heat insulating material 40, a nonwoven fabric 20 provided at an upper portion of the planar heating element 30, A cover member 50 formed on the nonwoven fabric and including a plate member 10 provided with a natural cobblestone 1 coated with a resin coating layer 2 in a semicircular shape on an upper surface thereof, A lid 60 and 60 'provided on upper and lower portions of the cover 50 and having a lid opening 61 for inserting a foot thereon and a cover 50 and a cover 60 connected to the surface heating body 30, , 60 ') extending from the power supply line (70).

The cover 60 may be raised up to the ankle or above the knee and a rubber band 62 may be provided on the rim of the lid opening 61 formed on one side of the lid 60.

The method of use and operation of the present invention is as follows. First, after the housing is fixed at a desired position, power is connected to the power line 70, and then the foot is inserted into the cover through hole 61 of the cover 60, The foot is placed on the upper part of the natural pebble 1 coated with the cover 2 and the lid 60 is adjusted to an appropriate position. When the operation is to be stopped, the operation is stopped in the reverse order.

The above-mentioned bobbin heater has a hygienic problem such that the nonwoven fabric of the surface heating element is not easily replaced, and the production of the plate material having the pebble is costly and impractical, and even in the case of the lid coming up to the top, And it was inconvenient to naturally warm the feet while working in front of the actual desk or to change the slippers immediately when necessary and to do other work.

Accordingly, the present invention has been developed in order to solve the above-mentioned problems, and it is necessary to keep the foot on the function, but it is necessary to warm the foot naturally while viewing the work in front of the actual desk, So that the power cord can be prevented from being inserted for a long time by attaching a timer even during the adjustment time of the power cord.

The vibration type massage device 1000 according to the present invention has the body 100 and the upper and lower plates 100a and 100b formed on the left and right sides of the body 100, And a heater switch 80, which is an electric on / off switch, is formed at a lower portion thereof, and an acupressure vibration switch 80a is formed at one side of the heater switch 80a. .

Further, in the present invention, the thermal seat 100a (100b) is formed in a groove on an upper part of the main body 100, and is detachably attached for sanitary washing.

Further, in the present invention, the thermal seat 100a, 100b is formed by a cloth having a foot shape using an electric heating line to which far-infrared rays are radiated.

Further, in the present invention, the acupressure vibration switch 80a is a switch for turning on / off the acupressure tranquilizing unit 180, and is a switch that is turned on when pressed, and off when pressed once. It is the foot heat with the motor attached.

The vibration massage footrests 150a and 150b are formed of a rigid material in place of the heat and seat plates 100a and 100b of the body 100, And flexible rubber shoes 153a and 153b are connected to the vibrating massage footsteps 150a and 150b at the entire edges thereof so as to provide vibrations to the vibration massage footsteps 150a and 150b.

In addition, the present invention is characterized in that the electric massager 280 formed with one or both sides on the upper part of the round footboard and having pillars for supporting the foot or both sole is formed with a fixed case 281 and a removable diaphragm 282 And a diaphragm connecting end portion 281a is formed on the upper end of the fixed case 281 so as to protrude laterally and a motor-equipped diaphragm 283 is formed and attached to the diaphragm connecting diaphragm 283, And a motor 284 is attached to the lower portion of the motor-attached diaphragm 283 and the motor 284 is attached to the diaphragm connecting end 281a of the fixed case. And eccentric cams 284b are formed on both sides of the motor shaft 284a to vibrate the diaphragm during rotation of the motor.

The upper part of the motor-attached diaphragm 283 has a size such that it can be fitted in the engaging piece 282b formed on both sides of the lower portion of the removable diaphragm 282 having the vibration projection 282a formed thereon, 283b are formed and a certain space is formed between the diaphragm connection end 281a of the fixed case 281 and an empty space of the diaphragm 281. The lower portion of the detachable diaphragm 282 and the diaphragm- (285a) and (285b) are formed at the upper and lower portions of the upper and lower portions of the upper portion of the main body (283) to facilitate detachment and attachment thereof.

Therefore, as described above, the present invention has the effect of warming the feet naturally while watching the work in front of the actual desk and, when necessary, changing the slippers immediately, and doing other work. The power cord is not plugged in for a long period of time, so it provides a safe heat source. Especially when working or resting in the office under the desk or under the sofa in the living room, And the effect of promoting the blood circulation effect obtained by acupressure by applying acupressure to the sole (or the like) by an electric motor.

1 is a perspective view of a foot joint according to the first invention
Figs. 2 (a) and 2 (b) are schematic perspective views of two types of foot warmers of the second invention
Figs. 3 and 4 are schematic side cross-sectional views of the foot heater corresponding to Figs. 2 (a) and 2 (b)
Fig. 5 is a schematic perspective view of a first embodiment of the present invention; Fig.
Fig. 6 is a schematic plan view of a first embodiment of the present invention; Fig.
FIG. 7 is a block diagram mainly showing a key input unit of a foot-and-mouth opening according to a first embodiment of the present invention.
FIG. 8 is a block diagram mainly showing a heating mode of the foot heater, which is the first embodiment of the present invention; FIG.
9 is a flow chart of an operation method of a timer for limiting the use time, which is the first embodiment of the present invention
Fig. 10 is a schematic perspective view of a foot opening, which is a second embodiment of the present invention
11 is a schematic perspective view of the electric massager of the present invention
12 is a schematic side cross-sectional view of the electric massager of the present invention
Fig. 13 is a perspective view of the entire electric massager of the present invention
14 is an overall front view of the electric massager of the present invention

Hereinafter, embodiments of the present invention will be described in detail.

In order to explain the preferred embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the attached drawings may be exaggerated or omitted for clarity and convenience of description, Terms to be given are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Fig. 5 is a schematic perspective view of the foot warmer of the present invention, and Fig. 6 is a schematic plan view of the foot warmer of the present invention.

As shown in the figure, the vibrating type door heat exchanger 1000 has the body 100 and the heat seat plates 100a and 100b formed on the right and left sides, and the vibrating vibration unit 180 is formed on the center front portion thereof A time setting unit 20 as a timer at the center lower portion, and an electric capacity multi-stage switch 80b (a circled display below it means a multi-stage switch) as a switch of a strong, medium, And a heater activating switch 80, which is an electric on / off switch, is formed at a lower portion thereof, and an acupressure vibration switch 80a is formed at one side thereof.

The main body 100 is a round-shaped, stereoscopic type, in which electronic equipment, a circuit board, and the like are housed, and is made to have a size that can be seated by vibration.

The hot and warm seats 100a and 100b can be detachably attached for sanitary washing, and the temperature can be controlled by connecting a heating wire to a seat of a loess material.

In another embodiment, a groove portion capable of placing a foot integrally on the upper portion of the main body 100 is formed, and a warming device can be provided under the heating portion, thereby promoting blood circulation of a person.

In the case of the heating wire, the heating wire may be formed as a foot-shaped cloth by using a heating wire radiating far-infrared rays, and they may be manufactured in a separate form and formed as connection means such as an adapter so as to be replaceable.

In addition, an acupressure vibration unit 180 is formed at a central front portion of the main body. The inside of the acupressure power supply unit 180 is vibrated by an eccentric rotation body using a motor, The more circulation it will give rise.

The acupressure projection 180a can be formed on the upper part of the acupressure mode driving part 180 for a better effect.

In addition, since the time setting unit 20 is formed as a timer, power can be automatically shut off when the power cord can not be removed due to work or a long time out.

In addition, the electric capacity multi-stage switch 80b is formed as a switch between the high-temperature medium and the high-temperature operation switch 80 in cooperation with the high-temperature operation switch 80.

The acupressure mode vibration switch 80a is a switch for turning on / off the acupressure mode electromotive unit 180. The switch is turned on when it is pressed and turned off when it is pressed again. So that it can be operated.

Next, the operation method of the present invention will be described.

FIG. 7 is a block diagram centering on the key input unit of the present invention, and FIG. 8 is a block diagram centering on the heating mode of the foot warmer of the present invention.

As shown in the figure, FIG. 6 is a block diagram of an embodiment of the automatic on-off device of the present invention. A heating mode input unit 10 for designating a corresponding function to operate the heating means so that the user can heat the heating means, a time setting unit 10 for setting a time corresponding to the operation period and the stop period of the heater in the heating mode input unit 10 A counter 50 for counting a time set by the time setting unit 20 and a counter 50 for counting the time set by the time setting unit 20 and the acupressure vibration unit 40 An on / off switch unit 80 for turning on and off the operation of the tachometer by receiving a control signal of the microcomputer and a power supply unit 60 for supplying power to the system A power on / off control unit 70 connected between the on / off switch 80 and the power source unit 60 for controlling on / off of the power source in the heating mode, The power supply unit 60 is powered by the power supply unit 60, Is composed of the operating portion 90 is acting.

Figure 9 shows a method of operation of the timer limiting the use time of the present invention.

An operation mode switching process (S200) in which a power-on process (S100) for turning on the power supply of the fan-warmer is performed and an operation mode is automatically switched on and off during sleep-out A power-on mode control process (S300) for setting a time duration and a stop duration of the fan-warming operation, S400), an operation time elapse determination process (S500) for determining whether the operation duration set in the time setting process (S300) has elapsed by operating the foot switch in the power on mode control process (S400) If the determination result in the operation time elapse determination process (S500) indicates that the set time has not elapsed, the power on mode control process (S400) and the operation time elapse determination process (S500) are performed. plate A power off mode control process S600 for controlling the power source to turn off when the determination result indicates that the set time has elapsed in step S500, (S700) for determining whether the time set as the stop duration in the time setting process (S300) has elapsed after counting from immediately after the power supply is turned off and the operation of the heater is stopped, If the determination result of the time lapse determination process (S700) indicates that the set time has not elapsed, the routine of the power off mode control process (S600) and the stop time lapse determination process (S700) If the result of the determination in the elapsing step S700 indicates that the stopping time of the bellows has elapsed, the process returns to step S400, and the bellows is turned on to start the bellows operation And that, to continue the routine of the stopping time determination process (S700) from the power-on mode control process (S400) of the above until the user releases the operating mode.

The operation of each process according to the flowchart of the present invention will be described. The operation mode switching process (S200) is a process of changing the control system of the fan heater so that operation and stop of the fan heater are alternately performed for a predetermined time when the user wishes to operate the fan heater during operation.

The time setting process (S300) is a process in which the user arbitrarily sets a time period during which the family heater is operated during operation and a time during which the family heater is operated, and inputs the set time to the microcomputer. For example, set the time for the bellows operation to 20 minutes, and set the time that the bellows stops and continues to stop until the start of the next operation, so that the bellows operates for 20 minutes during operation. Minute, and sets the time so that it can be performed alternately.

The power-on mode control process (S400) is a process that operates only when the fan-warming control system is in the operating mode. This is the process of controlling the ON state of the power supply so that the heater is operated in the operating mode.

During the power-on mode control process (S400), the user operates the footbath for the operating time set in the time setting process (S300).

The operation time elapse determination process S500 is a process for determining whether or not the operation time set in the time setting process S300 has elapsed. If it is determined that the warm-up time has elapsed, control is performed to stop the warm-up operation. If the warm-up time has not yet elapsed, the determination process is repeatedly performed until the set time has elapsed.

The power off mode control process S600 is a process for keeping the door open in a stopped state for the stop duration set in the time setting process S300 when the operation time has elapsed. This process also works only if the control system of the boiler is in the operating mode.

The stop time lapse determination process (S700) is a process for determining whether the set stop time has elapsed. If the time has not elapsed, the routine of the power off mode control process (S600) is performed so that the heater is stopped until the set time has elapsed. If it is determined that the set time has elapsed, the process goes to the power-on mode control process (S400) to turn on the power to turn on the power source, and the operation time elapse determination process (S500) The elapse determination process (S700) is repeatedly performed until the user releases the operation mode.

The following is an example of a deformable embodiment, as a heating element.

Fig. 10 is a schematic perspective view of a foot-and-mouth opening according to a second embodiment of the present invention.

As shown in the drawing, the vibration type massage device 1000 includes a main body 100 and vibrating massage footstools 150a and 150b formed on left and right sides, and an acupressure vibration unit 180 is formed at a central front portion thereof A time setting unit 20 as a timer at the center lower portion, and an electric capacity multi-stage switch 80b (a circled display below it means a multi-stage switch) as a switch of a strong, medium, And an actuating switch 80 of the vibrating massage footrests 150a and 150b, which are electric on / off switches, is formed at a lower portion thereof, and an acupressure vibration switch 80a is formed at one side thereof.

The main body 100 is a round-shaped, stereoscopic type, in which electronic equipment, a circuit board, and the like are housed, and is made to have a size that can be seated by vibration.

The vibrating massage footrests 150a and 150b are formed of a rigid material and are provided with acupressure protrusions 151a and 150b on the upper side and the vibrating massage footrests 150a and 150b are vibrat 150b are connected to flexible connection rubber 153a and 153b so that the vibration massage pedestals 150a and 150b can be prevented from falling.

In addition, a groove portion capable of placing a foot integrally on the upper portion of the main body 100 is formed, and a warming device can be provided under the heating portion, thereby promoting blood circulation of a person.

In the case of the heating wire, the heating wire may be formed as a foot-shaped cloth by using a heating wire radiating far-infrared rays, and they may be manufactured in a separate form and formed as connection means such as an adapter so as to be replaceable.

In the center of the main body, motors 155a and 155b are formed by forming eccentric cams 157a and 157b, respectively, and a vibrating vibration unit 180 is formed at the center. 180 are vibrated by the eccentric rotation body using a motor, and a vibration phenomenon occurs from the feet, so that blood circulation is further increased.

The acupressure projection 180a can be formed on the upper part of the acupressure mode driving part 180 for a better effect.

In addition, since the time setting unit 20 is formed as a timer, power can be automatically shut off when the power cord can not be removed due to work or a long time out.

The capacitive multi-stage switch 80b is formed as a switch between the strong-middle-weak by interlocking with the operation switch 80 of the vibratory massage footrests 150a and 150b.

The acupressure mode vibration switch 80a is a switch for turning on / off the acupressure mode electromotive unit 180. The switch is turned on when it is pressed and turned off when it is pressed again. So that it can be operated.

The following describes the structure of the electric massager of the present invention

Fig. 11 is a schematic perspective view of the electric massager of the present invention, Fig. 12 is a schematic side sectional view of the electric massager of the present invention, Fig. 13 is an overall perspective view of the electric massager of the present invention, It is a whole front view of the massage machine.

As shown in the figure, the electric massager 280 includes a fixed case 281 and a removable diaphragm 282. The diaphragm connecting end 281a is formed at the upper end of the fixed case 281 so as to protrude laterally And the motor-attached diaphragm 283 is formed with a connecting portion 283a at a side end portion thereof and fixed to the diaphragm connecting end portion 281a of the fixing case by bolts 283c do.

The connecting portion 283a has a soft material made of polyethylene or the like so as to shake the motor-attached diaphragm 283 with the vibration of the motor.

The fixed case 281 of the electric massager 280 is shaped like a round pedestal (not shown: shaped like the main body 100 of the vibratory angular femoral 1000) by the connecting pillar 290, Or two on both sides so as to shave a single foot or both sole.

Reference numeral 102 is a cushioning material for relieving vibration of the main body.

This operation is achieved by attaching each switch 292 to the front surface at the position of the connecting post 290 so that it can be turned on and off even with the toes.

A motor coupling portion 283d is formed in a round shape so as to be received in the lower portion of the motor-mounted diaphragm 283 so that the motor 284 can be accommodated. A motor shaft 284a is provided on both sides of the motor 284 The eccentric cam 284b is formed at the center so that the diaphragm is vibrated at the time of the rotation of the motor to massage the sole.

The motor 284 is fixed to the motor coupling portion 283d by the fastening means by the motor fastener string 283e.

The upper portion of the motor-attached diaphragm 283 has a size enough to be fitted in the fitting piece 282b formed on both sides of the bottom of the removable diaphragm 282 in which the vibration projection 282a is formed and the diaphragm upper body 283b And a fixed space is formed between the fixed case 281 and the diaphragm connection end 281a of the fixed case 281 so as to be fitted in the empty space. The lower portion of the removable diaphragm 282 and the motor Magnets 285a and 285b are formed on the upper portions of the upper and lower portions of the mounting diaphragm 283 so as to facilitate detachment and separation of the diaphragm 282 so that the detachable diaphragm 282 can be cleaned.

Accordingly, in the electric massager as described above, the motor-attached diaphragm 283 is vibrated by the vibration of the eccentric cam due to the rotation of the motor, and massage is applied to the sole by the vibration protrusion of the removable diaphragm attached thereto.

The vibration protrusions may be formed of a silicone member flexibly so as not to stimulate the human body, or may include gemstones that emit a far-infrared ray useful for a human body to the silicone member.

Also, in the method of use, the electric massager can be placed on the back of a chair and massage a person's back.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the scope of the present invention. It will be understood by those skilled in the art that various changes may be made and equivalents may be resorted to without departing from the scope of the appended claims.

20: Time setting unit
80: Heater switch
80a: acupressure vibration switch
80b: Capacitance Multistage Switch
100:
100a: Thermal plate
100b:
280: Electric Massager

Claims (7)

The vibrating angular heat exchanger 1000 includes left and right side plates 100a and 100b formed on the main body 100 and a top plate of the main body 100. A vibrating vibrating unit 180 is formed on the center front side And a heater switch 80, which is an electric on / off switch, is formed at a lower portion thereof, and an acupressure vibration switch 80a is formed at one side thereof.
[3] The apparatus as claimed in claim 1, wherein the thermal seat (100a) (100b) is formed in a groove on an upper part of the main body (100)
2. The acupressure apparatus according to claim 1, wherein the hot and warm seats (100a) and (100b) are formed by a cloth having a foot shape using a heating wire radiating far-infrared rays.
4. The acupressure type vibration switch (80a) according to any one of claims 1 to 3, wherein the acupressure mode vibration switch (80a) is a switch for turning on / off the acupressure mode driving unit (180) Wherein the switch is a switch that turns on and off.
The massage device according to claim 1, wherein the vibration massage footrests (150a) and (150b) are formed of a rigid material in place of the thermal seat plates (100a) and (100b) And flexible rubber shoes 153a and 153b are connected to the vibrating massage footsteps 150a and 150b at their entire edges so as to give vibration to the vibration massage footsteps 150a and 150b.
The electric massage machine 280 includes a fixed case 281 and a removable diaphragm 282 formed on one or both sides of the rounded foot plate so as to support a foot or both sole, The diaphragm connecting end portion 281a is formed at the upper end of the diaphragm 281 so as to protrude laterally and a motor-equipped diaphragm 283 is formed and attached to the diaphragm connecting diaphragm 283. The diaphragm 283 has a flexible connecting portion And a motor 284 is attached to the lower portion of the motor-attached diaphragm 283. The motor 284 is attached to both sides of the motor 284 by a bolt 283c, And an eccentric cam (284b) is formed around the motor shaft (284a) to vibrate the diaphragm during rotation of the motor.
The vibration plate according to claim 6, wherein an upper portion of the motor-attached diaphragm (283) has a size such that the upper portion of the motor-attached diaphragm (283) can be fitted in a fitting piece (282b) formed on both sides below the removable diaphragm (282) (281a) of the fixed case (281) so as to be fitted in the empty space, and a lower portion of the detachable diaphragm (282) and the motor attachment portion Magnets (285a) and (285b) are formed on the upper portion of the diaphragm (283) at positions coinciding with the upper and lower sides of the diaphragm (283)

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