CN218552681U - Dry-wet foot steaming device - Google Patents

Abstract

A wet and dry foot steaming device comprising: a main body; a chamber located within the body; at least one group of halogen lamps, wherein the halogen lamps comprise at least one halogen bulb and are at least partially arranged in the cavity; the atomizing assembly comprises at least one ultrasonic atomizing nozzle, and the spray nozzle of the ultrasonic atomizing nozzle is communicated with the chamber; in an operating state, one of the halogen lamp and the atomizing assembly is started or started simultaneously, the halogen lamp is configured to heat air in the chamber, and the atomizing assembly is configured to spray water mist to the chamber. Through the utility model discloses, the user can start halogen lamps and lanterns and/or atomization component according to the demand, and the sufficient device is evaporated according to dry steaming mode or wet mode work to the configuration, and temperature power is adjustable, and the heating effect is controllable, and constant temperature is effectual, and response speed is fast when closing. When humidity needs to be adjusted, the atomizing assembly can be matched to work, steam heating is not needed, the phenomenon that gas and liquid phases are mixed to steam feet is avoided, and steam scald is prevented.

Description

Dry-wet foot steaming device

Technical Field

The utility model belongs to the technical field of lavipeditum equipment, especially, relate to a dry and wet multiplexing is evaporated sufficient device.

Background

Foot bath health care is favored by many people. According to the report of people's net: after the foot skin is bathed in hot water, the blood vessel is dilated, the blood circulation is increased, and the metabolism is enhanced. The foot bath method has been popular worldwide, and the "health of foot reflex region" method, which is the same as the above, is also widely spread worldwide. The organs of the human body have specific reflecting areas on the soles, the inner sides and the outer sides of the feet, the dorsum of the feet and even the small legs, and once the corresponding areas are stimulated, the potential energy of the human body can be excited, the unbalance state can be adjusted, the immunity of the organism can be improved, the physique can be enhanced, and the diseases can be prevented. "\8230isused in foot bath to prevent skin burn due to excessive water temperature, and the optimal temperature is 40-45 deg.C. Meanwhile, the time for foot bath is preferably 30-40 minutes, and the water temperature is kept in the time for foot bath. The optimal foot bath effect can be ensured only by keeping a certain temperature and ensuring the specified foot bath time.

In view of the demand that water injection is inconvenient and the temperature is difficult to be constantly controlled, commercially available foot bath apparatuses gradually use steam instead of hot water as a heating medium. For example, the technical solution disclosed in chinese patent application (CN 112972241A): 'a steam foot bath tub', which comprises a tub body provided with a foot bath tub, wherein a steam module and an atomization device are arranged in the tub body, and the steam module is connected with the atomization device through a connecting pipe so as to lead water in the steam module to the atomization device and be communicated with the foot bath tub through a steam channel; the steam channel is provided with a heating device for heating the atomized fog by a user, and the fog flowing through the steam channel flows into the foot bath after being heated by the heating device. The design is that after water is atomized, the atomized fog is heated by a heating device to raise the temperature, and steam is generated. After the mist is heated by the heating device, the temperature of the steam is more uniform and the temperature of the steam is increased, so that the steam cannot sink, and the generation of wet water at the periphery is avoided.

However, in the practical application process, the water mist and the steam which are mixed by gas phase and liquid phase and pass through the steam channel still are mixed by gas phase and liquid phase after being reheated and then flow into the foot bath tank, and the temperature and the flow rate are difficult to achieve stable control. If deviation occurs, burn is easy to cause, and the use safety needs to be improved.

Disclosure of Invention

The utility model discloses to among the prior art steam lavipeditum basin at the practical application in-process, the water smoke and the steam temperature and the flow of the double-phase mixture of gas-liquid are difficult to reach stable control, lead to easily burning, and the safety in utilization remains the problem that improves, designs and provides a dry wet multiplexing foot steaming device.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:

a wet and dry reusable foot steaming device comprising: a body and a chamber within the body; further comprising: at least one group of halogen light fixtures comprising at least one halogen bulb, the halogen light fixtures at least partially disposed in the chamber; the atomizing assembly comprises at least one ultrasonic atomizing nozzle, and the atomizing nozzle of the ultrasonic atomizing nozzle is communicated with the chamber; in an operating state, one of the halogen lamp and the atomizing assembly is activated or activated simultaneously, the halogen lamp is configured to heat air in the chamber, and the atomizing assembly is configured to spray water mist to the chamber.

Further, the method also comprises the following steps: the power supply module is electrically connected with the halogen bulb through a first switch element and is electrically connected with the atomization assembly through a second switch element; the processing module is electrically connected with the control end of the first switch element and the control end of the second switch element respectively; and the human-computer interaction module is in communication connection with the processing module, and is configured to receive a human-computer interaction signal and output the human-computer interaction signal to the processing module.

Further, the human-computer interaction signal comprises a dry steaming mode signal and a wet steaming mode signal; the human-computer interaction module receives the dry steaming mode signal and outputs the dry steaming mode signal to the processing module, and the processing module receives the dry steaming mode signal and switches a first switching element to act to switch on or switch off a first power supply path between the power supply module and the halogen bulb; or the human-computer interaction module receives the wet steaming mode signal and outputs the wet steaming mode signal to the processing module, and the processing module receives the wet steaming mode signal, switches a first switch element to act to switch on or off a first power supply passage between the power supply module and the halogen bulb, and switches a second switch element to act to correspondingly switch on or off a second power supply passage between the power supply module and the atomization assembly.

Further, the human-computer interaction signal further comprises a humidification mode signal; the human-computer interaction module receives the humidification mode signal and outputs the humidification mode signal to the processing module, and the processing module receives the humidification mode signal and switches a second switch element to switch on or off a second power supply passage between the power supply module and the atomization assembly.

Further, the halogen lamp comprises a plurality of halogen bulbs; in the working state, one or more of the halogen bulbs are started simultaneously.

Further, the halogen lamp includes: the halogen lamp comprises an insulating shell, wherein a plurality of halogen bulbs are distributed in an annular array and arranged in the insulating shell.

Further, the halogen lamp further comprises: the heat-proof sleeve is detachably arranged on the outer side of the insulating shell.

Furthermore, two chambers are arranged in the main body, and at least one group of halogen lamps and one group of atomization assemblies are arranged in each chamber; wherein the atomizing assembly is disposed proximate to the opening of the chamber and the halogen light fixture is disposed distal to the opening of the chamber.

Further, in a use state, the main body covers the outer sides of the lower leg and the foot, the opening is close to the lower leg, the foot is close to the halogen lamp, and the halogen lamp is located above the opening.

Further, in a use state, the main body covers the outer sides of the lower leg and the foot, the opening is close to the lower leg, the foot is close to the halogen lamp, and the halogen lamp is located below the opening.

Compared with the prior art, the utility model discloses an advantage is with positive effect: through the structural design, a user can start the halogen lamp and/or the atomization assembly according to the requirement, and the foot steaming device is configured to work in a dry steaming mode or a wet steaming mode. The halogen lamp has the advantages of adjustable temperature power, controllable heating effect, good constant temperature effect, high response speed when being closed, and difficult scald occurrence. When humidity is adjusted to needs, then can cooperate atomization component work, atomization component adopts ultrasonic atomization nozzle, need not steam heating, avoids appearing the double-phase mixture of gas-liquid and evaporates sufficient situation, and ultrasonic atomization nozzle flow is controllable, avoids the steam scald.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a dry-wet foot steaming device provided by the present invention;

FIG. 2 is a schematic diagram of the internal structure of the wet and dry foot steaming device shown in FIG. 1;

FIG. 3 is a top view of the wet and dry reusable foot steaming device of FIG. 1;

FIG. 4 is a schematic view of a halogen lamp;

FIG. 5 is a schematic view of another halogen lamp with another view angle;

FIG. 6 is a schematic block diagram of a portion of the electrical circuitry of the wet and dry foot steaming device shown in FIG. 1;

fig. 7 is a schematic block diagram of another part of the electric circuit of the dry-wet multiplexing foot steaming device shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

A wet and dry foot steaming device is shown in figures 1 to 3. The utility model provides a dry and wet multiplexing foot steaming device has a barrel-shaped main body 10, and a cavity (11-1 and 11-2 in figure 2) is formed in the main body 10. The chamber has an opening into which the lower extremities of the human body extend, the chamber allowing movement therein of the lower extremities of the human body, in particular the lower legs to the feet. In order to avoid skin burn caused by water mist and steam mixed with gas and liquid, the foot steaming device provided by the utility model does not heat the steam any more, but is specially designed with a halogen lamp 12 and an atomizing component 13. The halogen light fixture 12 includes at least one halogen bulb. As a whole, the halogen lamp 12 is at least partially disposed in the chamber. The atomizing assembly 13 includes at least one ultrasonic atomizing nozzle. The spray opening of the ultrasonic atomization spray head is communicated with the cavity. The water tank that the supporting setting of atomization component 13 can set up in the main part 10 outside also can set up in the main part 10 inboardly, and the water inlet and the water tank intercommunication of ultrasonic atomization shower nozzle. The number of spray outlets may be set to one or more than one (as shown in fig. 4, 15-1 to 15-6) in uniform distribution. In the working state, one of the halogen lamp 12 and the atomizing assembly 13 is started or started simultaneously, the halogen lamp 12 is configured to heat the air in the chamber to achieve dry steaming on the feet of the human body, and the atomizing assembly 13 is configured to spray water mist to the chamber to improve the humidity in the chamber to achieve wet steaming on the feet of the human body. Through the structural design, a user can start the halogen lamp 12 and/or the atomization assembly 13 according to requirements, and the foot steaming device is configured to work according to different modes. The halogen lamp 12 has adjustable power, controllable heating effect, good constant temperature effect, fast response speed when being closed, and uneasy scald. When humidity needs to be adjusted, then can cooperate atomization component 13 work, atomization component 13 adopts ultrasonic atomization nozzle, need not steam heating, avoids appearing the double-phase mixture of gas-liquid and evaporates sufficient situation, and ultrasonic atomization nozzle flow is controllable, avoids the steam scald.

From the point of view of circuit connection, the wet and dry foot steaming device comprises a power module 14. The power module 14 may be implemented by a 12V dc power adapter, or may adopt other power supply modes. The power module 14 is electrically connected to the halogen bulb through the first switching element and the atomization assembly 13 through the second switching element, respectively. In a preferred embodiment, a plurality of halogen bulbs are disposed in each halogen lamp 12, and a first switch element is disposed in each halogen bulb (as shown in fig. 6 and 7, the halogen lamp a15-1 is connected to the normally open contact of the relay KM _1, \8230;, and the halogen lamp N15-N is connected to the normally open contact of the relay KM _ N). Under the working state, one or more of the halogen bulbs are started simultaneously, so that the independent control of the halogen bulbs is realized, and the heating mode is more flexible. The first switch element and the second switch element may be implemented by relays as shown in fig. 6 and 7, or may be switched by a matched voltage stabilizing switch circuit, and then the switch tube is used to drive the atomizing assembly 13. The control terminals of the first switching element and the second switching element are electrically connected to the processing module 17, respectively. The processing module 17 is preferably implemented by a single-chip microcomputer. The input end of the processing module 17, i.e. the I/O port of the single chip microcomputer, is connected to the human-computer interaction module 16. The human-computer interaction module 16 is in communication connection with the processing module 17, and the communication connection mode comprises wired connection and wireless connection. The human-computer interaction module 16 is configured to receive the human-computer interaction signal and output the human-computer interaction signal to the processing module 17. The human-computer interaction module 16 may be a key interface disposed on the table 21 of the main body 10, a remote controller, or an intelligent mobile terminal capable of implementing the same function.

Specifically, the human-computer interaction signal includes a dry steaming mode signal and a wet steaming mode signal, for example, generated by different keys on a key interface or generated by different keys on a remote controller with a coding chip. The human-computer interaction module 16 receives the dry steaming mode signal and outputs the dry steaming mode signal to the processing module 17, and the processing module 17 receives the dry steaming mode signal, switches the first switch element to operate to turn on or off the first power supply path between the power supply module 14 and the halogen bulb, and starts one or more halogen bulbs. The dry steaming mode signal may further include a plurality of setting signals corresponding to different temperature (power) levels, and the processing module 17 switches the corresponding number of first switching elements to turn on or off the corresponding first power supply paths after receiving the setting signals corresponding to the temperature (power) levels. When a plurality of halogen bulbs need to be started, a timing module is preferably arranged, the first switch elements are switched one by one to act according to a set time interval, and corresponding first power supply paths are conducted, so that gradient temperature rise is realized, and burns are avoided. Taking a relay as an example, the first switch element is preferably a normally open contact of the relay, a coil of the relay is electrically connected to an I/O interface of the processing module 17, after the processing module 17 receives a dry steaming mode start signal, the coil of the relay is energized through a triode drive circuit or an optocoupler, and the normally open contact is closed; or the processing module 17 receives a dry steaming mode closing signal, so that the coil of the relay is powered off, and the normally open contact is disconnected.

Similarly, the human-computer interaction module 16 receives the wet steaming mode signal and outputs the wet steaming mode signal to the processing module 17, and the processing module 17 receives the wet steaming mode signal, switches the first switch element to operate to turn on or off the first power supply path between the power module 14 and the halogen bulb, and switches the second switch element (the normally open contact of the relay KA) to operate to correspondingly turn on or off the second power supply path between the power module 14 and the atomizing assembly 13; the synchronous operation of the halogen bulb and the atomizing assembly 13 is realized.

In addition, the device can also work in a separate humidifying mode. The human-computer interaction module 16 receives the humidification mode signal and outputs the humidification mode signal to the processing module 17, and the processing module 17 receives the humidification mode signal and switches the second switch element to turn on or off the second power supply path between the power supply module 14 and the atomization assembly 13.

In a preferred design, the chambers within the body 10 include a first chamber 11-1 and a second chamber 11-2 as shown in FIG. 2. Taking the orientation shown in fig. 2 as an example, the halogen lamps 12-1 and 12-2 are disposed at the bottom of the first and second chambers 11-1 and 11-2, respectively, i.e., away from the openings of the first and second chambers 11-1 and 11-2. The lower portions of the first and second chambers 11-1 and 11-2 are separated by an insulating material to form an installation space 18. The halogen lamp 12 is partially fixed in the installation space 18, and the terminal of the halogen lamp 12 is preferably led out from the wiring hole on the bottom wall of the installation space 18 to the electrical box outside the main body 10 for wiring, so that the electrical safety of the equipment is improved. The halogen lamp 12 has an insulating housing 19, and a plurality of halogen bulbs (e.g., six halogen bulbs 15-1 to 15-6 as shown in fig. 4) are arranged in an annular array and disposed in the insulating housing 19. In use, two, four or six of these symmetrically distributed may be activated depending on the power (temperature) gear required. The halogen lamps 12 may also be arranged in multiple groups, for example, the first chamber 11-1 is respectively arranged at the bottom of the first chamber and on the multiple side walls, and the halogen bulbs in the multiple halogen lamps 12 are all independently controlled, so that a 3D stereoscopic foot steaming effect can be achieved. The outer side of the halogen lamp 12, i.e. the outer side of the insulating housing 19, is provided with a heat shield 20 for protection. A partition (not shown) with a human body contour can be further arranged above the halogen lamp 12 to improve the comfort of the user.

The first atomizing assembly 13-1 and the second atomizing assembly 13-2 are also provided corresponding to the first chamber 11-1 and the second chamber 11-2, respectively. The first atomizing assembly 13-1 and the second atomizing assembly 13-2 are preferably disposed close to the opening so that the mist of water having a relatively low temperature can flow downward and be uniformly distributed in the first chamber 11-1 and the second chamber 11-2, while also improving the electrical safety of the apparatus. The first atomizing assembly 13-1 and the second atomizing assembly 13-2 may also be disposed at other locations in the chamber 11-1 and the second chamber 11-2.

The utility model provides a wet multiplexing foot device that evaporates futilely can adopt the mode just put and invert when using: when the device is in use, the main body 10 covers the outer sides of the lower leg and the foot. The opening is near the lower leg, the foot is near the halogen light 12, and the halogen light 12 is above the opening (as oriented in fig. 2). When the body 10 is used upside down, it covers the outer sides of the lower leg and foot. The opening is near the lower leg, the foot is near the halogen light 12, and the halogen light 12 is below the opening. Because the foot device is evaporated in wet reuse futilely need not to pour into a large amount of water into, and the water tank is external. When the device is used in an inverted mode, only simple fixing is needed, and using burden is small. The user can steam the feet in a prone posture, so that the soles are uniformly heated, and the foot bath physiotherapy effect is improved.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the form and details of the embodiments may be made, or equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (7)

1. A wet and dry reusable foot steaming device comprising:

a main body which is provided with a plurality of grooves,

a chamber located within the body;

it is characterized in that the foot steaming device further comprises:

at least one group of halogen light fixtures comprising at least one halogen bulb, the halogen light fixtures at least partially disposed in the chamber;

the atomizing assembly comprises at least one ultrasonic atomizing nozzle, and the atomizing nozzle of the ultrasonic atomizing nozzle is communicated with the chamber;

in an operating state, one of the halogen lamp and the atomizing assembly is activated or activated simultaneously, the halogen lamp is configured to heat air in the chamber, and the atomizing assembly is configured to spray water mist to the chamber.

2. The wet and dry foot steaming device according to claim 1,

the halogen light fixture comprises a plurality of halogen bulbs; in the working state, one or more of the halogen bulbs are started simultaneously.

3. The wet and dry foot steaming device according to claim 2,

the halogen lamp includes:

the halogen lamp comprises an insulating shell, wherein a plurality of halogen lamps are distributed in an annular array and arranged in the insulating shell.

4. The wet and dry foot steaming device according to claim 3,

the halogen lamp further comprises:

the heat-proof sleeve is detachably arranged on the outer side of the insulating shell.

5. The wet and dry foot steaming device according to any one of claims 1 to 4,

two chambers are arranged in the main body, and at least one group of halogen lamps and one group of atomization assemblies are arranged in each chamber; wherein the atomizing assembly is disposed proximate to the opening of the chamber and the halogen light fixture is disposed distal to the opening of the chamber.

6. The wet and dry foot steaming device according to claim 5,

in a use state, the main body covers the outer sides of the lower leg and the foot, the opening is close to the lower leg, the foot is close to the halogen lamp, and the halogen lamp is located above the opening.

7. The wet and dry foot steaming device according to claim 5,

in a use state, the main body covers the outer sides of the lower leg and the foot, the opening is close to the lower leg, the foot is close to the halogen lamp, and the halogen lamp is located below the opening.

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