CN116007109A - Ventilation circulating robot for sauna room and use method thereof - Google Patents

Abstract

The invention relates to a ventilation circulating robot for a sauna room and a using method thereof, comprising a shell with preset acceptances for carrying each part, and further comprising three parts of a collecting assembly, a circulating assembly and a releasing assembly. The collecting mechanism comprises an air inlet mechanism embedded in the surface of the working surface of the shell and a guiding mechanism connected with the air inlet mechanism and arranged in a cavity chamber in the shell; the circulating assembly comprises a condensing mechanism connected with the guiding mechanism and a storage mechanism connected with the condensing mechanism; the release assembly comprises an electrolysis mechanism connected with the storage mechanism and an oxygen outlet mechanism connected with the electrolysis mechanism. In the later operation process, the air with preset humidity can be condensed by the condensing mechanism to obtain the aqueous solution, and then the aqueous solution is electrolyzed by the electrolysis mechanism to obtain the oxygen for discharging, so that the air self-circulation in the sauna room is realized.

Description

Ventilation circulating robot for sauna room and use method thereof

Technical Field

The invention relates to the field of bath saunas, in particular to a ventilation circulating robot for a sauna room and a using method thereof.

Background

The sauna is used for putting a human body in hot and humid air, so that blood circulation and metabolism are quickly accelerated, functions of tissues and organs of the whole body including brain, heart, liver, spleen, muscles, skin and the like can be improved, and due to the large blood flow in the sauna process, all tissues and organs of the whole body can obtain nutrition and oxygen brought by blood, and the sauna has unexpected effects of quickly eliminating fatigue, recovering physical strength and improving sexual function, especially for people with heavy physical and mental work. Along with the continuous development of technological life, sauna sweat steaming still becomes one of the indispensable projects in people's entertainment life.

In a special environment of a sauna room, the sealing performance is good, the ventilation performance is poor, good ventilation circulation is inconvenient to carry out, the temperature and the humidity are high, and the conditions of syncope and the like caused by discomfort of a user are easy to occur.

Disclosure of Invention

The invention aims to: provides a ventilation circulating robot for a sauna room, and further provides a using method based on the ventilation circulating robot for the sauna room, so as to solve the problems in the prior art.

The technical scheme is as follows: a ventilation circulating robot for sauna room comprises a housing with preset acceptances for carrying each component, and further comprises three parts of a collecting assembly, a circulating assembly and a releasing assembly.

The collecting assembly comprises an air inlet mechanism and a guiding mechanism; the air inlet mechanism is embedded in the surface of the working surface of the shell and is used for sucking air in the sauna room; the guiding mechanism is connected with the air inlet mechanism and is arranged in the cavity chamber of the shell, and is used for conveying and guiding air pumped by the air inlet mechanism.

The circulating assembly comprises a condensing mechanism and a storage mechanism; the condensing mechanism is connected with the guiding mechanism and is used for condensing the air with the preset humidity and pumped in by the guiding mechanism; the storage mechanism is connected with the condensing mechanism and provided with a preset storage space for storing the aqueous solution generated after the condensing mechanism is subjected to condensation treatment.

The release assembly comprises an electrolysis mechanism and an oxygen outlet mechanism; the electrolysis mechanism is connected with the storage mechanism and is used for carrying out electrolysis treatment on the aqueous solution stored in the storage mechanism so as to obtain preset oxygen; the oxygen outlet mechanism is connected with the electrolysis mechanism and is used for releasing oxygen obtained by treatment of the electrolysis mechanism.

In a further embodiment, the air intake mechanism comprises an air intake plate and a pump; the air inlet plate is embedded into the surface of the working surface of the shell, is hollow and has a preset bearing space, and at least one surface extends to the surface of the working surface of the shell; an air inlet is formed in the wall surface of the working surface of the shell at the extension part of the air inlet plate, and is used for providing a preset space for air inflow; the air extractor is arranged in the air inlet plate bearing space and is in a preset distance with the air inlet, and is used for sucking air in the sauna room.

In a further embodiment, the guiding mechanism comprises two parts of a guiding pipe and an adapter pipe; one end of the induced draft pipe is connected with the pump, penetrates through the wall surface of the air inlet plate, extends into the bearing space of the air inlet plate and is used for guiding and conveying air pumped by the pump; one end of the switching pipe is connected with the air inducing pipe, and the other end of the switching pipe is connected with the condensing mechanism and is used for mutually connecting the air inducing pipe and the condensing mechanism.

In a further embodiment, the condensing mechanism comprises three parts, a condensing tube, a condensing generator and a recovery tube; one end of the condensing pipe is connected with the switching pipe and is used for mutually connecting the switching pipe and the condensing mechanism, so that air with preset humidity flowing in through the switching pipe can be condensed, guided and conveyed; the condensation generator is connected with the other end of the condensation pipe and is used for condensing air entering through the condensation pipe so as to obtain a preset condensed water solution; the recovery pipe is connected with the condensation generator and is used for conducting drainage and collection on the aqueous solution condensed by the condensation generator.

In a further embodiment, the storage mechanism comprises two parts, a liquid storage tank and a liquid delivery pipe; the liquid storage tank is connected with the recovery pipe, is hollow and has preset acceptances, and is used for storing the water solution flowing in through the recovery pipe; one end of the liquid conveying pipe is connected with the liquid storage tank through a pressurizing pump and is used for pressurizing and conveying the water solution stored in the liquid storage tank.

In a further embodiment, the electrolysis mechanism comprises three parts, an electrolysis tank, an oxygen collection mechanism and a hydrogen gas discharge mechanism; the electrolytic tank is connected with the other end of the liquid conveying pipe and is used for carrying out electrolytic treatment on the aqueous solution conveyed by the liquid conveying pipe; the oxygen collection mechanism is connected with the electrolytic tank and provided with a preset storage space for collecting and storing the oxygen electrolytically separated by the electrolytic tank; the hydrogen discharging mechanism is connected with the electrolytic tank and is used for collecting and discharging the hydrogen separated by the electrolysis of the electrolytic tank.

In a further embodiment, the oxygen outlet mechanism comprises two parts, namely an oxygen therapy tube and an oxygen release plate; the oxygen delivery pipe is connected with the oxygen collection mechanism, penetrates through the wall surface of the oxygen collection mechanism, extends into the storage space of the oxygen collection mechanism and is used for delivering oxygen prepared by electrolysis of the electrolysis mechanism; the oxygen release plate is connected with the oxygen therapy pipe, penetrates through the shell and extends out of the surface of the working surface of the shell, and an oxygen outlet is formed in the extending part of the surface of the wall surface of the working surface of the shell and used for discharging oxygen.

In a further embodiment, the wind shields with a preset inclination angle and a preset radian are arranged at the oxygen outlet of the wind inlet and the oxygen outlet; the air extractor is arranged on the surface of the side wall surface of the air inlet plate, an air blocking plate is arranged at the front of the air extractor in the operation direction of the air extractor at a preset distance, and the air blocking plate is at a preset distance from the air inlet; the overall operation size of the choke plate is smaller than that of the air inlet.

The application method of the ventilation circulating robot for the sauna room comprises the following steps:

s1, starting a pump, sucking air with preset humidity through an air inlet, and conveying the air along an induced draft pipe;

s2, air with preset humidity and conveyed through the induced air pipe passes through the switching pipe and then the condensing pipe, and enters the condensing generator through the condensing pipe to perform corresponding condensing treatment operation;

s3, enabling the liquid condensed by the condensation generator to flow into a liquid storage tank through a recovery pipe, storing the liquid in the liquid storage tank, and sending the liquid into an electrolysis tank through a liquid sending pipe for electrolysis treatment;

s4, the oxygen obtained after the electrolysis treatment flows into an oxygen collection mechanism, and the obtained hydrogen flows into a hydrogen discharge mechanism; then oxygen in the oxygen collecting mechanism is conveyed through an oxygen conveying pipe and finally discharged through an oxygen outlet on the surface of the oxygen release plate;

s5, repeating the S1 to S4 in sequence, and realizing ventilation circulation operation.

The invention relates to a ventilation circulating robot for a sauna room and a using method thereof, comprising a shell with preset acceptances for carrying each part, and further comprising three parts of a collecting assembly, a circulating assembly and a releasing assembly. The collecting mechanism comprises an air inlet mechanism embedded in the surface of the working surface of the shell and a guiding mechanism connected with the air inlet mechanism and arranged in a cavity chamber in the shell; the circulating assembly comprises a condensing mechanism connected with the guiding mechanism and a storage mechanism connected with the condensing mechanism; the release assembly comprises an electrolysis mechanism connected with the storage mechanism and an oxygen outlet mechanism connected with the electrolysis mechanism. In the later operation process, the air with preset humidity can be condensed by the condensing mechanism to obtain the aqueous solution, and then the aqueous solution is electrolyzed by the electrolysis mechanism to obtain the oxygen for discharging, so that the air self-circulation in the sauna room is realized.

Drawings

Fig. 1 is a cross-sectional view from any perspective of the overall invention.

Fig. 2 is an overall schematic view of the condensing mechanism according to the present invention.

FIG. 3 is an overall schematic view of the electrolytic mechanism of the present invention.

The reference numerals in the drawings are as follows: a shell 1, a condensing mechanism 2, an electrolysis mechanism 3, a condensing pipe 4, a condensing generator 5, a recycling pipe 6, an electrolysis tank 7, an oxygen collection mechanism 8 and a hydrogen discharge mechanism 9.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the invention may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the invention.

The applicant believes that in a special environment such as a sauna room, the sealing performance is good, the ventilation performance is poor, good ventilation circulation is inconvenient to carry out, the temperature and the humidity are high, and the conditions of syncope and the like caused by the discomfort of a user are easy to occur.

Therefore, the applicant designs a ventilation circulating robot for a sauna room and a using method thereof, wherein the air with preset humidity is pumped in through a condensing mechanism 2 to be condensed to obtain an aqueous solution, and then the aqueous solution is electrolyzed through an electrolysis mechanism 3 to obtain oxygen to be discharged, so that the self circulation of the air in the sauna room is realized.

The ventilation circulating robot for sauna room mainly comprises a housing 1 with preset acceptances for carrying various components, and further comprises three parts of a collecting assembly, a circulating assembly and a releasing assembly. The collecting assembly comprises an air inlet mechanism and a guiding mechanism; the air inlet mechanism is embedded in the surface of the working surface of the shell 1 and is used for sucking air in the sauna room; the guiding mechanism is connected with the air inlet mechanism and is arranged in a cavity chamber in the shell 1 and used for conveying and guiding air pumped by the air inlet mechanism. The circulating assembly comprises a condensing mechanism 2 and a storage mechanism; the condensing mechanism 2 is connected with the guiding mechanism and is used for condensing the air with preset humidity and pumped in by the guiding mechanism; the storage mechanism is connected with the condensing mechanism 2 and provided with a preset storage space for storing the aqueous solution generated after the condensing mechanism 2 is subjected to condensation treatment. The release assembly comprises an electrolysis mechanism 3 and an oxygen outlet mechanism; the electrolysis mechanism 3 is connected with the storage mechanism and is used for carrying out electrolysis treatment on the aqueous solution stored in the storage mechanism so as to obtain preset oxygen; the oxygen outlet mechanism is connected with the electrolysis mechanism 3 and is used for releasing oxygen processed by the electrolysis mechanism 3.

The air inlet mechanism comprises an air inlet plate and a pump; the air inlet plate is embedded into the working surface of the shell 1, is hollow and has a preset bearing space, and at least one surface extends to the working surface of the shell 1; an air inlet is formed in the wall surface of the working surface of the shell 1 at the extension position of the air inlet plate, and is used for providing a preset space for air inflow; the air extractor is arranged in the air inlet plate bearing space and is in a preset distance with the air inlet, and is used for sucking air in the sauna room.

The guiding mechanism comprises two parts, namely an air guiding pipe and an adapter pipe; one end of the induced draft pipe is connected with the pump, penetrates through the wall surface of the air inlet plate, extends into the bearing space of the air inlet plate and is used for guiding and conveying air pumped by the pump; one end of the switching pipe is connected with the induced air pipe, and the other end of the switching pipe is connected with the condensing mechanism 2 and is used for mutually connecting the induced air pipe and the condensing mechanism 2.

The condensing mechanism 2 comprises a condensing pipe 4, a condensing generator 5 and a recycling pipe 6; one end of the condensation pipe 4 is connected with the switching pipe, and is used for mutually connecting the switching pipe and the condensation mechanism 2, so that air with preset humidity flowing in through the switching pipe can be condensed, guided and conveyed; the condensation generator 5 is connected with the other end of the condensation pipe 4 and is used for condensing the air entering through the condensation pipe 4 so as to obtain a preset condensed water solution; the recovery pipe 6 is connected with the condensation generator 5 and is used for conducting drainage and collection of the aqueous solution condensed by the condensation generator 5.

The storage mechanism comprises a liquid storage tank and a liquid conveying pipe; the liquid storage tank is connected with the recovery pipe 6, is hollow and has a preset accommodating property, and is used for storing the water solution flowing in through the recovery pipe 6; one end of the liquid conveying pipe is connected with the liquid storage tank through a pressurizing pump and is used for pressurizing and conveying the water solution stored in the liquid storage tank.

The electrolysis mechanism 3 comprises an electrolysis box 7, an oxygen collection mechanism 8 and a hydrogen discharge mechanism 9; the electrolytic tank 7 is connected with the other end of the liquid conveying pipe and is used for carrying out electrolytic treatment on the aqueous solution conveyed by the liquid conveying pipe; the oxygen collection mechanism 8 is connected with the electrolytic tank 7 and provided with a preset storage space for collecting and storing the oxygen electrolytically separated by the electrolytic tank 7; the hydrogen gas discharge mechanism 9 is connected to the electrolytic tank 7 for collecting and discharging hydrogen gas electrolytically separated via the electrolytic tank 7.

The oxygen outlet mechanism comprises an oxygen delivery pipe and an oxygen release plate; the oxygen delivery pipe is connected with the oxygen collection mechanism 8, penetrates through the wall surface of the oxygen collection mechanism 8, extends into the storage space of the oxygen collection mechanism 8 and is used for delivering oxygen electrolyzed by the electrolysis mechanism 3; the oxygen release plate is connected with the oxygen therapy tube, penetrates through the shell 1 and extends out of the surface of the working face of the shell 1, and an oxygen outlet is formed in the surface of the wall surface of the working face of the shell 1 at the extending position and used for discharging oxygen.

The wind shields with a preset inclination angle and a preset radian are arranged at the oxygen outlet of the wind inlet; the air extractor is arranged on the surface of the side wall surface of the air inlet plate, an air blocking plate is arranged at the front of the air extractor in the operation direction of the air extractor at a preset distance, and the air blocking plate is at a preset distance from the air inlet; the overall operation size of the choke plate is smaller than that of the air inlet.

On the basis of the ventilation circulating robot for the sauna room, the invention provides a using method of the ventilation circulating robot for the sauna room, which comprises the following specific steps:

first, the pump is started, air having a predetermined humidity is drawn in through the air inlet, and is transported along the induced draft tube.

Then, the air with the preset humidity conveyed by the induced air pipe passes through the transfer pipe and then the condensing pipe 4, and enters the condensing generator 5 through the condensing pipe 4 to carry out corresponding condensing treatment operation.

Subsequently, the liquid condensed by the condensation generator 5 flows into a liquid storage tank by a recovery pipe 6, is stored in the liquid storage tank, and is sent into an electrolysis tank 7 by a liquid feeding pipe for electrolysis treatment;

finally, the oxygen obtained after the electrolytic treatment flows into the oxygen collection mechanism 8, and the obtained hydrogen flows into the hydrogen discharge mechanism 9; the oxygen in the oxygen collection mechanism 8 is then transported through the oxygen delivery tube and finally discharged through the oxygen outlet on the surface of the oxygen release plate.

And the working steps are repeated in sequence, so that ventilation circulation operation is realized.

In addition, the humidity monitor and the emergency ventilator can be added according to actual requirements in the later operation process. When the humidity monitor is needed to be added, the humidity monitor can be arranged on the outer surface of the shell 1, the humidity monitor belonging to the city is connected with the circulating assembly through wireless signals, and when the humidity in the air is detected to reach the preset percentage, the condensing mechanism 2 and the electrolysis mechanism 3 can be started to perform self-circulation operation. An emergency breathing machine can be further arranged, and when emergency needs to be taken in case of emergency, corresponding emergency measures can be carried out through oxygen obtained through electrolysis of the electrolysis mechanism 3.

As described above, although the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the invention itself. Various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A ventilation circulation robot for a sauna room, comprising a housing having a predetermined housing for carrying respective components, characterized by further comprising:

the collecting assembly comprises an air inlet mechanism embedded in the surface of the working surface of the shell; the guiding mechanism is connected with the air inlet mechanism and is arranged in the cavity chamber in the shell;

a circulation assembly including a condensing mechanism coupled to the directing mechanism for condensing air drawn in via the directing mechanism; a storage mechanism connected to the condensing mechanism, the storage mechanism having a predetermined storage space;

the release assembly comprises an electrolysis mechanism connected with the storage mechanism and is used for carrying out electrolysis treatment on the liquid stored by the storage mechanism; and the oxygen outlet mechanism is connected with the electrolysis mechanism and is used for releasing oxygen obtained by treatment of the electrolysis mechanism.

2. The ventilation and circulation robot for a sauna room according to claim 1, wherein the air inlet mechanism comprises:

the air inlet plate is embedded into the surface of the working surface of the shell, the hollow part is provided with a preset bearing space, and at least one surface of the air inlet plate extends out of the surface of the working surface of the shell; the wall surface of the air inlet plate extending out of the surface of the shell working surface is provided with an air inlet;

the air extractor is arranged in the air inlet plate bearing space and is in a preset distance with the air inlet and is used for sucking air in the sauna room.

3. The ventilation circulating robot for sauna room of claim 2, wherein the guiding mechanism comprises:

one end of the air guiding pipe is connected with the pump, penetrates through the wall surface of the air inlet plate and extends into the bearing space of the air inlet plate;

and one end of the switching tube is connected with the air inducing tube, and the other end of the switching tube is connected with the condensing mechanism and is used for mutual connection between the air inducing tube and the condensing mechanism.

4. The ventilation circulating robot for sauna room of claim 3, wherein the condensing mechanism comprises:

one end of the condensing tube is connected with the switching tube and is used for mutually connecting the switching tube and the condensing mechanism;

the condensation generator is connected with the other end of the condensation pipe and is used for condensing the air entering through the condensation pipe;

and the recovery pipe is connected with the condensation generator and is used for carrying out condensation on the liquid condensed by the condensation generator.

5. The ventilation and circulation robot for sauna room of claim 4, wherein the storage mechanism comprises:

a liquid storage tank connected to the recovery pipe, hollow and having a predetermined accommodation property, for storing the liquid flowing in through the recovery pipe;

and one end of the liquid conveying pipe is connected with the liquid storage tank through a pressurizing pump and is used for pressurizing and conveying liquid stored in the liquid storage tank.

6. The ventilation and circulation robot for sauna room of claim 5, wherein the electrolysis mechanism comprises:

the electrolysis box is connected with the other end of the liquid conveying pipe and is used for carrying out electrolysis treatment on the liquid conveyed through the liquid conveying pipe;

the oxygen collection mechanism is connected with the electrolytic tank and provided with a preset storage space and is used for collecting and storing the oxygen which is electrolytically separated by the electrolytic tank;

and the hydrogen discharging mechanism is connected with the electrolytic tank and is used for collecting and discharging the hydrogen which is electrolytically separated by the electrolytic tank.

7. The ventilation and circulation robot for sauna room of claim 6, wherein the oxygen outlet mechanism comprises:

the oxygen transmission pipe is connected with the oxygen collection mechanism, penetrates through the wall surface of the oxygen collection mechanism, extends into the storage space of the oxygen collection mechanism and is used for conveying oxygen produced by electrolysis;

the oxygen release plate is connected with the oxygen therapy tube, penetrates through the shell and extends out of the surface of the working surface of the shell, and an oxygen outlet is formed in the surface of the wall surface extending out of the surface of the working surface of the shell.

8. The ventilation circulating robot for sauna room as claimed in claim 7, wherein:

the wind shields with a preset inclination angle and a preset radian are arranged at the oxygen outlet of the wind inlet; the air extractor is arranged on the surface of the side wall surface of the air inlet plate, an air blocking plate is arranged at the front of the air extractor in the operation direction of the air extractor at a preset distance, and the air blocking plate is at a preset distance from the air inlet; the overall operation size of the choke plate is smaller than that of the air inlet.

9. The use method of a ventilation and circulation robot for a sauna room according to any one of claims 1 to 8, characterized by comprising the steps of:

s1, starting a pump, sucking air with preset humidity through an air inlet, and conveying the air along an induced draft pipe;

s2, air with preset humidity and conveyed through the induced air pipe passes through the switching pipe and then the condensing pipe, and enters the condensing generator through the condensing pipe to perform corresponding condensing treatment operation;

s3, enabling the liquid condensed by the condensation generator to flow into a liquid storage tank through a recovery pipe, storing the liquid in the liquid storage tank, and sending the liquid into an electrolysis tank through a liquid sending pipe for electrolysis treatment;

s4, the oxygen obtained after the electrolysis treatment flows into an oxygen collection mechanism, and the obtained hydrogen flows into a hydrogen discharge mechanism; then oxygen in the oxygen collecting mechanism is conveyed through an oxygen conveying pipe and finally discharged through an oxygen outlet on the surface of the oxygen release plate;

s5, repeating the S1 to S4 in sequence, and realizing ventilation circulation operation.

Images