Household intelligent bathtub bathing device
Technical Field
The invention belongs to the field of intelligent home furnishing, and particularly relates to a home furnishing intelligent bathtub and bathing device.
Background
With the gradual enrichment of smart home products, research on smart bathtubs is also in depth, but at present, smart bathtubs mainly focus on heat insulation performance, for example, chinese published patents such as CN201710375795, and research and development on other performances besides heat insulation are less, for example, CN205697464U discloses a bathtub with a physiotherapy function. The structure setting of current multi-performance bathtub internals is not reasonable to the utmost extent, how can be more reasonable abundant with each performance setting to it is the question of treating the solution to make a screech with this bathing process intellectuality.
Disclosure of Invention
Aiming at the technical problem, the invention provides a household intelligent bathtub bathing device.
The method is realized by the following technical means:
a household intelligent bathtub bathing device comprises a bathtub shell system, a heat preservation system, a gas bath system, a defoaming system, a circulating water system and a drying system.
The bathtub shell system comprises a bathtub body, a bathtub shell and a heat-insulating shell; the bathtub body is arranged inside a bathtub shell, the bathtub body is used for receiving bathing water and bathing users, the bottom of the bathtub shell is fixedly connected with the upper portion of the ground and used for receiving the bathtub body according to the structure of the bathtub body, the heat insulation system, the gas bath system, the defoaming system, the circulating water system and the drying system are arranged inside the bathtub shell, a heat insulation shell is arranged between the bathtub shell and the bathtub body, and the heat insulation shell wraps the side portion of the bathtub body in an arc shape.
The heat preservation system sets up inside the heat preservation shell (promptly the heat preservation shell with the space that forms between the bathtub body lateral wall), including heater block and heat-conducting liquid, heat-conducting liquid be full of in the heat preservation shell with the space that forms between the bathtub body lateral wall, the heater block set up in the heat-conducting liquid.
The gas bath system is arranged at the bottom of the bathtub body and comprises a bottom gas jet, a gas storage cavity, a gas inlet pipe, a pressurization gas pump, a gas heating cavity and a total gas inlet; gas storage chamber rigid coupling in bathtub cylinder body bottom, the bottom air jet is provided with a plurality ofly, evenly arranges on the bathtub cylinder body diapire, and every the bottom air jet all communicates the bathtub cylinder body inside with the gas storage chamber, intake pipe one end with gas storage chamber bottom intercommunication, the other end and the total air inlet intercommunication of setting in bathtub shell outside are provided with in the intake pipe and are used for carrying out the supercharged air pump to gas in the intake pipe and are used for carrying out the gas heating chamber that heats to gas in the intake pipe be provided with the gas heating part in the gas heating chamber.
The defoaming system comprises a foam outlet, a foam filter plate, a backwater conveying pipe, a water pump and a backwater impact port; the foam outlet is arranged at the top end of the side wall of the bathtub body, the backwater impact port is arranged on the side wall of the bathtub body opposite to the foam outlet, the backwater conveying pipe is communicated between the foam outlet outside the bathtub body and the backwater impact port, the backwater conveying pipe is arranged outside the bathtub body in a U-shaped structure, one or more foam filter plates are arranged in a vertical section of the U-shaped structure of the backwater conveying pipe close to the foam outlet and used for filtering foam entering the backwater conveying pipe through the foam outlet, and a water pump is further arranged on the backwater conveying pipe and used for pressurizing water in the backwater conveying pipe.
The circulating water system comprises a cylinder body water release port, a water storage tank, a circulating water pipeline, a secondary cleaning pressurization tank and a pressurization nozzle; the water storage tank is arranged at the lower part of the gas storage cavity and comprises a water storage water inlet, a water storage water outlet, a total water release port and a water outlet filter plate; the water storage water inlet is arranged at the top of the water storage tank, the water outlet filter plate is transversely arranged in the water storage tank, the side wall of the water storage tank at the bottom of the water outlet filter plate is provided with a water outlet, the bottom wall of the water storage tank is provided with a main water release port, and the main water release port is communicated with a household sewer pipeline; the bathtub body water release ports are arranged at the bottom of the bathtub body and communicated with the inside of the bathtub body and the water storage water inlet through pipelines; the bathtub body is provided with a plurality of water storage outlets, a plurality of pressurizing nozzles are arranged on the side wall of the bathtub body, each pressurizing nozzle is divided into an upper outlet and a lower outlet, a pressurizing water spray nozzle is arranged in the outlet below the pressurizing nozzle, the circulating water pipeline is communicated with the water storage outlets and the pressurizing water spray nozzles, a secondary cleaning pressurizing box is arranged on the circulating water pipeline, and a pressurizing water pump, an air-water separation plate, an air-water outlet, a pressurizing box water inlet and a pressurizing box air inlet are arranged in the secondary cleaning pressurizing box; the booster water pump is used for carrying out boosting operation on a water body in the circulating water pipeline, one end of the gas-water separation plate is hinged to the position between the water inlet of the booster box and the air inlet of the booster box, the other end of the gas-water separation plate is movably arranged at the left end or the right end of the gas-water outlet, and the water body or the gas discharged from the gas-water outlet can be controlled through the left-right movement of the other end of the gas-water separation plate.
The drying system comprises a pressurizing air nozzle, an air inlet branch pipe and a bathtub rolling cover curtain, the pressurizing air nozzle is arranged in an outlet above the pressurizing nozzle of the circulating water system, one end of the air inlet branch pipe is communicated with an air inlet pipe of the air bath system, the other end of the air inlet branch pipe is communicated with an air inlet of the pressurizing box of the secondary cleaning pressurizing box, one end of the bathtub rolling cover curtain is fixedly connected with the top of one end of a bathtub body, and the other end of the bathtub rolling cover curtain can be rolled up in a spiral mode and opened in a flat-laying mode.
Further, the heat preservation shell is provided with a plurality of, and the dispersion is arranged in bathtub body outside portion.
Further, the heating component is a resistance heating wire.
Further, the heating component is a resistance heating rod.
Furthermore, each bottom air jet is provided with an electromagnetic valve for controlling the opening and closing of the bottom air jet.
Furthermore, a stainless steel filter screen is arranged on each bottom air jet.
Further, the gas heating component is a plurality of vertically arranged resistance heating rods or resistance heating rods arranged in a zigzag manner or resistance heating wires arranged in a densely distributed manner.
Further, the defoaming system is used for enabling foam on the surface of water in the bathtub body to enter the foam outlet for defoaming treatment through the impact of the backwater impact port, and enabling a water body circulation to be integrally formed between the backwater conveying pipe and the surface of the water in the bathtub body.
Furthermore, the number of the circulating water pipelines entering each secondary cleaning pressurizing box is one, the number of the circulating water pipelines going out of each secondary cleaning pressurizing box is multiple, and each circulating water pipeline is communicated with the pressurizing water spray nozzle.
Furthermore, a booster pump is also arranged on the air inlet branch pipe.
Furthermore, the household intelligent bathtub and bath device also comprises a control system, wherein the control system is used for controlling the heating part according to data transmitted by the temperature sensor, and turning on and/or turning off the gas bath system, the defoaming system, the circulating water system and the drying system according to the input of a control panel of a user and/or a preset program.
The invention has the following effects:
1, through setting up the gas bath system, through the mode increase bubble bath's of blowing hot bubble from the bottom upwards travelling comfort (massage nature), and simultaneously, because the effect of bubble surface tension, can adsorb materials such as organic bathing bath lotion in the water on the bubble surface, at last enrichment forms the foam and has realized the inside relative cleanness of water on the water surface of floating, simultaneously follow-up bubble removal system removes the bubble and also only needs to remove the bubble operation to the water surface (if there is not bubble come-up process, then there are a large amount of materials such as bath lotion in the water inside, remove bubble operation and also can't clear away these materials in the water, after the release of water, these materials can the adhesion on user's health, greatly increased the washing degree of difficulty and also reduced the travelling comfort), great improvement the process of separation foam after the bubble bath.
2, through setting up the heat preservation chamber (the space that forms between heat preservation shell and the bathtub body lateral wall), and set up heat-conducting liquid in the heat preservation intracavity, heat-conducting liquid through the heater block, and heat-conducting liquid is the fluid, and the specific heat of the heat-conducting liquid of selling at present all is greater than water, therefore its heat accumulation ability also is than water strong, consequently can heat with bathtub body surface through better the pair of heat-conducting liquid, thereby realize that even stable water to bathtub body heats the heat preservation, thereby realized high-efficient even heating and heat preservation.
And 3, by arranging the backwater impact port and arranging the backwater impact port opposite to the foam outlet, unidirectional circulation can be formed on the surface of the water body, and closed-loop unidirectional circulation is formed in the backwater conveying pipe, so that the probability that foam enters the backwater conveying pipe is greatly improved, the defoaming efficiency is greatly improved, and the efficiency of the water release process is improved.
Through setting up the storage water tank for the water release process is accomplished fast, and the water in the storage water tank can be fast again through the pressure boost water spout with relatively clean water spray to user's health carry out the secondary cleaning after filtering by the filter.
By arranging the gas heating cavity, the air is slightly heated and then used, so that the fusion degree of the fine bubbles sprayed out through the bottom air jet and the water body is improved, and the temperature constancy of the water body is not influenced; the comfort of the air sprayed out through the booster air nozzle is improved.
The pressurization of the invention refers to the fact that air or water can be sprayed out to enable a human body to feel comfortable pressure, such as the water pressure of water sprayed by a household shower.
Drawings
FIG. 1 is a side view, partially cut-away, schematic structural view of a home intelligent bathtub and shower apparatus of the present invention.
FIG. 2 is another side view, partially cross-sectional, schematic structural view of the home intelligent bathtub and shower apparatus of the present invention.
Fig. 3 is a schematic structural diagram of a household intelligent bathtub bathing device in a top view.
Wherein: FIG. 1 is a view for illustrating the structure and positional relationship of some parts from the side, FIG. 2 is a view for illustrating the structure and positional relationship of other parts from the side, and FIG. 3 is a view for illustrating the positional relationship of the pressurizing nozzle-related part and the holding chamber part with each other. 11-bathtub body, 12-bathtub shell, 13-heat preservation shell, 21-heating component, 22-heat conducting liquid, 31-bottom air jet, 32-air storage cavity, 33-air inlet pipe, 34-pressurization air pump, 35-air heating cavity, 351-air heating rod, 36-total air inlet, 41-foam outlet, 42-foam filter plate, 43-backwater conveying pipe, 44-water pump, 45-backwater impact port, 451-electromagnetic valve, 51-bathtub body water release port, 52-water storage tank, 521-total water release port, 53-water outlet filter plate, 54-secondary cleaning pressurization box, 55-pressurization nozzle, 551-pressurization water spray nozzle, 61-pressurization air jet, 62-air inlet branch pipe and 63-bathtub rolling cover curtain.
Detailed Description
Example 1
As shown in fig. 1-3.
A household intelligent bathtub bathing device comprises a bathtub shell system, a heat preservation system, a gas bath system, a defoaming system, a circulating water system and a drying system.
The bathtub shell system comprises a bathtub body, a bathtub shell and a heat-insulating shell; the bathtub body is arranged inside a bathtub shell, the bathtub body is used for receiving bathing water and bathing users, the bottom of the bathtub shell is fixedly connected with the upper portion of the ground and used for receiving the bathtub body according to the structure of the bathtub body, the heat insulation system, the gas bath system, the defoaming system, the circulating water system and the drying system are arranged inside the bathtub shell, a heat insulation shell is arranged between the bathtub shell and the bathtub body, and the heat insulation shell wraps the side portion of the bathtub body in an arc shape.
The heat preservation system sets up inside the heat preservation shell (promptly the heat preservation shell with the space that forms between the bathtub body lateral wall), including heater block and heat-conducting liquid, heat-conducting liquid be full of in the heat preservation shell with the space that forms between the bathtub body lateral wall, the heater block set up in the heat-conducting liquid.
The gas bath system is arranged at the bottom of the bathtub body and comprises a bottom gas jet, a gas storage cavity, a gas inlet pipe, a pressurization gas pump, a gas heating cavity and a total gas inlet; gas storage chamber rigid coupling in bathtub cylinder body bottom, the bottom air jet is provided with 30 (2 row every 15), evenly arranges on the bathtub cylinder body diapire, and every the bottom air jet all communicates the bathtub cylinder body inside with the gas storage chamber, intake pipe one end with gas storage chamber bottom intercommunication, the other end and the total air inlet intercommunication of setting in bathtub shell outside are provided with in the intake pipe and are used for carrying out the supercharged air pump to gas in the intake pipe and are used for carrying out the gas heating chamber that heats to gas in the intake pipe be provided with the gas heating spare in the gas heating chamber.
The defoaming system comprises a foam outlet, a foam filter plate, a backwater conveying pipe, a water pump and a backwater impact port; the foam export sets up the top of bathtub cylinder body lateral wall sets up on the bathtub cylinder body lateral wall rather than the relative position the return water strike the mouth, strike and pass through between the mouth at the outside foam export of bathtub cylinder body and return water conveying pipe intercommunication, the return water conveying pipe sets up outside the bathtub cylinder body with "U" shape structure, is being close to the foam export the perpendicular section of return water conveying pipe "U" shape structure is interior from the top down and has set gradually 3 foam filters, and is provided with the foam at foam filter's terminal and collects the board thing of foam filter with the foam filter box. And the water return conveying pipe is also provided with a water pump for pressurizing water in the water return conveying pipe.
The circulating water system comprises a cylinder body water release port, a water storage tank, a circulating water pipeline, a secondary cleaning pressurization tank and a pressurization nozzle; the water storage tank is arranged at the lower part of the gas storage cavity and comprises a water storage water inlet, a water storage water outlet, a total water release port and a water outlet filter plate; the water storage water inlet is arranged at the top of the water storage tank, the water outlet filter plate is transversely arranged in the water storage tank, the side wall of the water storage tank at the bottom of the water outlet filter plate is provided with a water outlet, the bottom wall of the water storage tank is provided with a main water release port, and the main water release port is communicated with a household sewer pipeline; the bathtub body water release ports are arranged at the bottom of the bathtub body and communicated with the inside of the bathtub body and the water storage water inlet through pipelines; the bathtub body is provided with a plurality of water storage outlets, a plurality of pressurizing nozzles are arranged on the side wall of the bathtub body, each pressurizing nozzle is divided into an upper outlet and a lower outlet, a pressurizing water spray nozzle is arranged in the outlet below the pressurizing nozzle, the circulating water pipeline is communicated with the water storage outlets and the pressurizing water spray nozzles, a secondary cleaning pressurizing box is arranged on the circulating water pipeline, and a pressurizing water pump, an air-water separation plate, an air-water outlet, a pressurizing box water inlet and a pressurizing box air inlet are arranged in the secondary cleaning pressurizing box; the booster water pump is used for carrying out boosting operation on a water body in the circulating water pipeline, one end of the gas-water separation plate is hinged to the position between the water inlet of the booster box and the air inlet of the booster box, the other end of the gas-water separation plate is movably arranged at the left end or the right end of the gas-water outlet, and the water body or the gas discharged from the gas-water outlet can be controlled through the left-right movement of the other end of the gas-water separation plate.
The drying system comprises a pressurizing air nozzle, an air inlet branch pipe and a bathtub rolling cover curtain, the pressurizing air nozzle is arranged in an outlet above the pressurizing nozzle of the circulating water system, one end of the air inlet branch pipe is communicated with an air inlet pipe of the air bath system, the other end of the air inlet branch pipe is communicated with an air inlet of the pressurizing box of the secondary cleaning pressurizing box, one end of the bathtub rolling cover curtain is fixedly connected with the top of one end of a bathtub body, and the other end of the bathtub rolling cover curtain can be rolled up in a spiral mode and opened in a flat-laying mode.
As shown in fig. 3, the heat-insulating case is provided with 2 cases which are relatively arranged at the outer side part of the bathtub body in a scattered manner.
The heating component is a resistance heating wire.
And each bottom air jet is provided with an electromagnetic valve for controlling the opening and closing of the bottom air jet.
And each bottom air jet is provided with a stainless steel filter screen.
The gas heating parts are a plurality of resistance heating rods which are vertically arranged.
The defoaming system is used for enabling foam on the surface of water in the bathtub body to enter a foam outlet for defoaming treatment through the impact of the backwater impact port, and enabling a water body circulation to be integrally formed between the backwater conveying pipe and the surface of the water in the bathtub body.
The number of the circulating water pipelines entering each secondary cleaning pressurizing box is one, the number of the circulating water pipelines going out of each secondary cleaning pressurizing box is multiple, and each circulating water pipeline is communicated with the pressurizing water spray nozzle.
And a booster air pump is also arranged on the air inlet branch pipe.
And an electromagnetic valve is arranged on the pipeline at the rear part of the pressurizing nozzle, and water in the cylinder body flows backwards.
Mode of use
Pour into the warm water into the bathtub cylinder body earlier, the user lies into the back, through the inside temperature of temperature sensor real-time detection cylinder body, when being less than to set for the low temperature threshold value after, start the heater block promptly, the heater block heats heat-conducting liquid, heat-conducting liquid heats the heat preservation from the bathtub cylinder body surface to the water in the cylinder body, monitor in real time when temperature sensor that the water temperature in the cylinder body is higher than and set for the highest threshold value after, then stop the heater block, so keep the temperature of the water in the bathtub basically invariable repeatedly. And starting a bottom air jet according to the control of a user or a program which is fixedly set, and upwards jetting bubbles (heated air, such as 40-45 ℃) from the bottom of the bathtub body to massage the user, and simultaneously floating bath liquid such as bath liquid in the water body to the surface of the water body through the surface tension of the bubbles to form foams. After the bath, simultaneously opening a foam outlet and a backwater impact port to form unidirectional circulation on the upper surface of the water body, defoaming the foam and a part of water in unidirectional circulation, closing the foam outlet after circulating for a certain time, and refluxing the water body in a circulating pipeline into the bathtub body. The water body is discharged in a short time, after the water in the bathtub body is drained completely, the booster water pump is started to re-spray the filtered water in the water storage tank into the bathtub body through the booster water spray nozzle, so that secondary washing of a user is realized, and in the washing process, the water body flows into a sewer pipeline through the water release ports of the bathtub body and the water storage tank. After the washing is finished, the drying system is started, the bathtub rolling cover curtain is released, the upper surface of the bathtub body is basically covered, heated gas (for example, 38 ℃ or 40 ℃) is sprayed onto the body of a user through the pressurizing air nozzle to dry the body of the user, and the bathing is finished after the drying.
Comparative example 1
The comparative example is not provided with a backwater impact port, the terminal of the backwater conveying pipe is communicated with the water storage tank, other arrangement modes are the same as those of the example 1, and the backwater impact port is obtained after 10 times of contrast tests under the same conditions: the foam removal rate of the water surface of the comparative example is only 23% of that of example 1 on average, a large amount of foam flows out through the water release port of the cylinder body, so that a large amount of foam remains on the body of a user, and then in the secondary flushing process, the foam still returns to the water body again, and the body of the user cannot be flushed cleanly (mainly because unidirectional circulation of the water surface is not formed).
Comparative example 2
This comparative example only sets up a cylinder body and releases the mouth to do not set up the storage water tank, and the play water filter sets up in the pipeline, and other arrangement is the same with example 1, obtains through the contrast test under 10 times the same condition: in the primary drainage process, the drainage time is 3.8 times of that of the embodiment 1, and the heating component cannot be heated in the drainage process, so that the time for a user to wait for secondary washing is greatly increased, and the user is easy to catch a cold.
Comparative example 3
This comparative example does not set up the storage water tank, goes out the water filter setting in the pipeline, and other arrangement methods are the same with example 1, obtains through the contrast experiment under 10 times the same condition: in the first draining process, the draining time was 2.1 times that of example 1.
Comparative example 4
This comparative example does not set up heat-conducting liquid, only sets up the resistance wire in bathtub body surface, and other arrangement methods are the same with example 1, obtains through the contrast experiment under 10 times the same condition: the stability of the water temperature in the bathtub body is reduced by 51% compared with that of the bathtub body in the embodiment 1, the conduction time of the heated heat to the water body is 2.3 times that of the bathtub body in the embodiment 1, and the temperature difference between the highest temperature and the lowest temperature of the water body is 1.6 times that of the bathtub body in the embodiment 1.
Comparative example 5
The comparative example is not provided with a secondary cleaning pressurizing box, but directly connects the circulating water pipeline with the pressurizing water nozzle, and directly connects the air inlet branch pipe with the pressurizing air nozzle. The other setup was the same as in example 1, and was obtained by 10 comparative tests under the same conditions: because the area of the outer surface of the bathtub body is limited and a plurality of pressurized air nozzles and a plurality of pressurized water nozzles are required to be arranged, the diameters of the circulating water pipeline and the air inlet branch pipe are required to be greatly reduced, so that the air injection amount is 63% of that of embodiment 1, the water injection amount of secondary cleaning is 68% of that of embodiment 1, and the cleaning and drying efficiency is reduced.