CN113834049A - Steam seat capable of being placed and used at multiple angles - Google Patents

Abstract

A steam seat capable of being placed and used in multiple angles comprises a steam seat shell, a control circuit board, a steam generator and a water supply assembly, wherein the control circuit board is arranged in the steam seat shell; the steam generator at least comprises a first heating surface and a second heating surface, wherein the first heating surface is matched with the first angle placing position, the second heating surface is matched with the second angle placing position, and the first heating surface and the second heating surface are distributed in an L shape or an approximate L shape. When the steam seat is used, when the steam seat shell is positioned at the first angle placing position, the first heating surface works and heats water in the steam generator; when the steam seat shell is located at the second angle placing position, the second heating surface works and heats water in the steam generator.

Description

Steam seat capable of being placed and used at multiple angles

Technical Field

The invention relates to the technical field of steam accessories, in particular to a steam seat capable of being placed and used at multiple angles.

Background

Steam generators (commonly known as boilers) are mechanical devices that use the heat energy of a fuel or other energy source to heat water into hot water or steam. A steamer, an iron, and a steam foot basin are common devices with a steam generating function, and generally include a water storage chamber, a heating chamber with a steam outlet, a flow guide channel for communicating the water storage chamber and the heating chamber, and a heating element disposed in the heating chamber.

Such as steam irons, are known to provide garment smoothing devices comprising a water reservoir within the iron body and a heated soleplate having a surface for contacting the garment. The water may be heated by the soleplate or a separate heater to generate steam which may be continuously delivered through the holes of the soleplate, or which may be controlled to be delivered in response to activation by a trigger or the like or as a result of some detected condition.

Later, steam generators have been developed using an iron with a heated soleplate but no water reservoir, wherein the iron is connected with a steam generating base unit comprising a water reservoir and a heating means for generating steam. Steam and electrical power are typically delivered to the iron through a steam conduit and electrical cord that are disposed within a flexible hose, which allows the iron to be manipulated independently of the base unit. The iron itself of such a steam generator is usually designed like a conventional iron with a handle portion to allow handling of the iron, in particular the soleplate of the iron, for steaming and ironing clothes, etc. The steam generator can generate a greater amount of steam in a longer time than a conventional iron because the steam is generated in the base unit. The base unit is typically larger than the iron and comprises a larger water reservoir and a more powerful steam generator.

In the prior art, such iron products are known in which the steam generating base has a single structural form, as disclosed in CN110088384A, a portable steam generator is disclosed, which comprises a steam generator base including a water reservoir and a steam generating unit operatively and fluidly connected to the water reservoir for supplying water to the steam generating unit. The portable steam generator further comprises an iron comprising a soleplate having openings such that steam can pass through the soleplate. The portable steam generator further comprises a flexible hose between the steam generating base and the iron, the flexible hose comprising a steam conduit in operable fluid connection with the steam generating unit and an internal cavity of the iron for supplying steam to the iron. It is clearly inferred from the description and drawings of the above patent documents that the iron has a unique posture of the steam generator (steam generating base) and a unique posture of the steam generator, is single in use, is inconvenient to move, can be placed on a table in a horizontal manner, and may not be used or even present a safety risk if the posture is changed. Therefore, an improved steam generation base is urgently needed, diversified putting and using postures can be provided, and different using requirements are met.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a steam seat capable of being placed and used at multiple angles.

The technical scheme for solving the technical problem is as follows: a steam seat capable of being placed and used in multiple angles comprises a steam seat shell, a control circuit board, a steam generator and a water supply assembly, wherein the control circuit board, the steam generator and the water supply assembly are arranged in the steam seat shell;

the steam generator at least comprises a first heating surface and a second heating surface, wherein the first heating surface is matched with the first angle placing position, the second heating surface is matched with the second angle placing position, and the first heating surface and the second heating surface are distributed in an L shape or an approximate L shape;

when the steam seat shell is positioned at the first angle placing position, the first heating surface works and heats water in the steam generator; when the steam seat shell is at the second angle placing position, the second heating surface works and heats water in the steam generator.

Preferably, the steam generator is embedded with a first heating element and a second heating element which are independent of each other, the first heating element is arranged on the first heating surface, the second heating element is arranged on the second heating element, and the first heating element and the second heating element are respectively electrically connected with the control circuit board.

Preferably, the steam generator is embedded with a complete integrated heating element, the integrated heating element is provided with a first heating section and a second heating section, the first heating section is arranged on the first heating surface, and the second heating section is arranged on the second heating surface.

Preferably, the steam generator is provided with a first water inlet and a second water inlet, the first water inlet faces the second heating surface, and the second water inlet faces the first heating surface;

when the steam seat shell is in the first angular placing position, water enters the steam generator from the first water inlet, passes through the second heating surface and finally accumulates on the first heating surface; when the steam seat shell is in the second angular placing position, water enters the steam generator from the second water inlet, passes through the first heating surface and finally accumulates on the second heating surface.

Preferably, a position detection sensor is arranged in the shell, and the position detection sensor is in communication connection with the control circuit board.

Preferably, the water supply assembly comprises a water storage container, an inlet and outlet pipeline and a water pump.

Preferably, the water storage container is provided with an installation cavity, the installation cavity is separated from the inner container of the water storage container, and the water pump is assembled in the installation cavity.

Preferably, a first supporting leg assembly is arranged on one of the outer side surfaces of the steam base shell, and the steam base shell can be kept at a first angular arrangement position under the action of the first supporting leg assembly;

and a second supporting leg assembly is arranged on the other outer side surface of the steam base shell, and the steam base shell can be kept at a second angle placing position under the action of the second supporting leg assembly.

The first angle placing position is a horizontal placing position, and the second angle placing position is a vertical placing position.

Preferably, the position detection sensor is one or more of a contact induction detection sensor, a magnetic induction detection sensor, and a photoelectric induction detection sensor.

Preferably, the touch sensing detection sensor comprises a detection shell with a detection channel, a gravity self-adapting piece and signal receiving devices arranged at two ends of the detection channel, wherein the signal receiving devices are electrically connected with the control circuit board;

the detection channel is L-shaped or approximately L-shaped, and the gravity self-adapting piece is movably arranged in the detection channel and can be in communication connection with the signal receiving device.

Preferably, a handle is further arranged on the steam seat shell.

Preferably, the handle comprises a handheld part and connecting parts positioned at two ends of the handheld part, the connecting parts are fixedly connected with the steam seat shell, and a gap is formed between the handheld part and the steam seat shell to form an insertion space for the hand to enter;

the connecting part is also provided with a housing, and the housing is matched with the outer side wall of the connecting part to form an accessory storage slot.

Preferably, a guide sliding groove is formed in the inner side wall of the connecting portion, a connecting piece matched with the lifting handle is arranged on the outer wall of the steam seat shell, and the connecting piece is opposite to the guide sliding groove and can move along the guide sliding groove.

Preferably, a first wedge-shaped surface which is inclined inwards is arranged at the intersection of the handle part and the connecting part, a second wedge-shaped surface is arranged on the steam seat shell, and the first wedge-shaped surface abuts against the second wedge-shaped surface.

Preferably, the handle is further provided with a telescopic strap.

The working principle of the invention is as follows: when a user adjusts the steam seat shell to a first angle placing position, the first heating surface is the bottom surface, the first heating element corresponding to the first heating surface is started to work, the water pump is started to enable water in the water tank to enter the steam generator, under the action of gravity, the water naturally accumulates on the first heating surface and is effectively heated and evaporated into steam, and then the steam is discharged out of the steam seat shell through the steam outlet and the steam outlet in sequence; when a user adjusts the steam seat shell to a second angle placing position, the second heating surface is the bottom surface, the second heating element corresponding to the second heating surface is started to work, the water pump is started to enable water in the water tank to enter the steam generator, under the action of gravity, the water is naturally accumulated on the second heating surface and is effectively heated and evaporated into steam, and then the steam is discharged out of the steam seat shell through the steam outlet and the steam outlet successively.

The invention has the beneficial effects that: 1. the steam seat capable of being placed and used in multiple angles is provided, at least two placing positions (preferably horizontal and vertical) with different angles are provided, and the arrangement of the first heating surface and the second heating surface with different angles is matched, so that water entering the steam generator can be stably heated and evaporated into required steam under the condition of placing positions with different angles; 2. the first heating element and the second heating element can respectively and independently operate, namely, a user can selectively start one heating element and close other heating elements according to the specific angle placing position state in use, so that the energy is saved, the environment is protected, the dry burning condition is prevented, and the service life of components is prolonged; 3. through the setting of position detection sensor, the angle that can be accurate, real-time monitoring steam seat casing is located at present puts the position state to with this information feedback to control circuit board, send control command to each heating member through control circuit board is automatic, realized the automatic switch of heating member, the function of switching, it is more intelligent, it is also more convenient, safe to use.

Drawings

FIG. 1 is a schematic view of the present invention in a horizontal position.

Fig. 2 is a schematic structural view of the present invention in an upright position.

Fig. 3 is a schematic view of the internal structure of the present invention.

Fig. 4 is a cross-sectional view of the present invention.

Fig. 5 is a schematic view of the structure of the integrated heating element of the present invention.

Fig. 6 is a schematic view showing the construction of the telescopic shoulder strap of the present invention in use.

Fig. 7 is a schematic diagram of the principle of the touch sensing detection sensor of the present invention.

Fig. 8 is a schematic diagram of the principle of the magnetic induction detection sensor of the present invention.

Fig. 9 is a schematic diagram of the buoyancy-type detection sensor according to the present invention.

Fig. 10 is a schematic view of the handle and steam seat shell of the present invention shown disassembled.

Fig. 11 is a schematic view of another angle configuration of the present invention.

In the figure: 1. a steam seat housing; 2. a control circuit board; 3. a steam exhaust port; 4. a first heating surface; 5. a second heating surface; 6. a first heating member; 7. a second heating member; 8. an integral heating element; 9. a first heating section; 10. a second heating section; 11. a first water inlet; 12. a second water inlet; 13. a position detection sensor; 14. a first contact switch; 15. a second contact switch; 16. a detection channel; 17. a spheroid; 18. a first reed pipe assembly; 19. a magnetic member; 20. a detection box; 21. a liquid; 22. a float; 23. an air gap; 24. a third contact switch; 25. a fourth contact switch; 26. a water storage container; 27. an inlet and outlet pipeline; 28. a water pump; 29. a steam outlet; 30. a mounting cavity; 31. a slot; 32. a metal fixing sheet; 33. a first leg assembly; 34. a second leg assembly; 35. a handle; 36. a hand-held portion; 37. a connecting portion; 38. placing the mixture into a space; 39. a housing; 40. a receiving slot; 41. a guide chute; 42. a connecting member; 43. a first wedge-shaped face; 44. a second wedge-shaped face; 45. a telescopic strap; 46. a steam generator.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 11, a steam seat capable of being placed and used at multiple angles comprises a steam seat shell 1, a control circuit board 2 arranged in the steam seat shell 1, a steam generator 46 and a water supply assembly, wherein a steam outlet 3 is formed in the steam seat shell 1, the steam generator 46 is respectively communicated with the water supply assembly and the steam outlet 3, and the steam seat shell 1 at least has a first angle placing position and a second angle placing position;

the steam generator 46 at least has a first heating surface 4 and a second heating surface 5, wherein the first heating surface 4 is adapted to the first angular disposition, the second heating surface 5 is adapted to the second angular disposition, and the first heating surface 4 and the second heating surface 5 are distributed in an "L" shape or an approximate "L" shape;

when the steam base housing 1 is in the first angular orientation, the first heating surface 4 is operative to heat water within the steam generator 46; when the steam base housing 1 is in the second angular orientation, the second heating surface 5 is operative to heat water within the steam generator 46.

The conventional steam generator 46 is mostly rectangular, a heating element is embedded in the bottom of the conventional steam generator, and water is heated and evaporated when passing through the conventional steam generator to form steam and then flows out. However, it is apparent that the steam generator 46 is not suitable for use in a steam base having a multi-angle placement, and when placed in a vertical position, the steam generator will dry out, and the water will not be heated efficiently to steam. A preferred structure of the steam generator 46 is provided herein, specifically: the first heating surface 4 and the second heating surface 5 are distributed in an L shape or an approximate L shape. Steam generator 46 adopts above-mentioned structure for no matter at first angle locating position or second angle locating position, its inside water homoenergetic can have great effective heating area, makes water all can have efficient heating evaporation efficiency under each angle locating position, provides the stable use of user and experiences.

Referring to fig. 1 to 2, preferably, the first angular placing position is a horizontal placing position, the second angular placing position is a vertical placing position, and the horizontal and vertical placing positions are the most common placing modes, which can meet the use requirements of most scenes. Of course, the steam seat housing 1 of the present invention may have more angular positions (e.g. inclined between horizontal and vertical), and is not limited herein.

Under different placing position states, if the first heating surface 4 and the second heating surface 5 work simultaneously, firstly, the energy consumption is higher, and the use economy is poor; and part of the heating surface may have dry burning defects, which easily causes the damage of the related heating components.

Referring to fig. 4, in order to prevent the above problem, a first heating member 6 and a second heating member 7 which are independent from each other are embedded in the steam generator 46, the first heating member 6 is disposed at the first heating surface 4, the second heating member 7 is disposed at the second heating member 7, and the first heating member 6 and the second heating member 7 are electrically connected to the control circuit board 2, respectively. Adopt above-mentioned preferred structure, first heating member 6 and second heating member 7 can independent operation respectively, and the user can be according to specific angle locating position state when using, and selective one of them heating member of starting closes other heating members, and is more energy-concerving and environment-protective, and in case the condition of dry combustion, prolongs components and parts's life.

Referring to fig. 5, in another mode, a complete integrated heating element 8 is embedded in the steam generator 46, the integrated heating element 8 has a first heating section 9 and a second heating section 10, the first heating section 9 is disposed at the first heating surface 4, and the second heating section 10 is disposed at the second heating surface 5. Through the setting of its first heating section 9 and second heating section 10, no matter what angle the state of putting is in to steam seat casing 1 for this integral type heating member 8 is at least partly all the time in the aquatic of treating the heating, in order to prevent the condition of dry combustion method, and can heat the evaporation to water.

When the integrated heating element 8 is adopted, certain defects also exist, due to the structure and the gravity action of the steam seat shell 1, the effect of the water to be heated of one of the first heating section 9 and the second heating section 10 (the high-efficiency heating section) is obvious, and the other one (the low-efficiency heating section) is possibly partially in the air, so that the heating efficiency is relatively low, and the heat energy is wasted. To this end, the steam generator 46 is provided with a first water inlet 11 and a second water inlet 12, the first water inlet 11 faces the second heating surface 5, and the second water inlet 12 faces the first heating surface 4. By the above-mentioned structural arrangement, when the steam seat housing 1 is in the first angular disposition position during use, water enters the steam generator 46 from the first water inlet 11, passes through the second heating surface 5 and finally accumulates on the first heating surface 4; when the steam base housing 1 is in the second angular disposition, water enters the steam generator 46 from the second water inlet 12, passes through the first heating surface 4 and finally accumulates on the second heating surface 5. That is, through the special setting to the water inlet direction for the very first time falls on the low efficiency heating section when water gets into, absorbs the heat energy that the low efficiency heating section produced as far as, gathers under the action of gravity on the high efficiency heating section, in order to promote the heat utilization rate of integral type heating member 8, plays energy-conserving effect.

The mode that the user was manual to control the heating member has certain defect, and firstly it is not very convenient, secondly the condition that the maloperation appears easily, forgets the operation. For this purpose, a position detection sensor 13 is provided in the housing, the position detection sensor 13 being connected in communication with the control circuit board 2. Through the setting of position detection sensor 13, the angle that can be accurate, real-time monitoring steam seat casing 1 is located at present puts the position state to with this information feedback to control circuit board 2, through control circuit board 2 automatic to each heating member control command that sends, realized the automatic switch of heating member, the function of switching, it is more intelligent, it is also more convenient, safe to use.

The position detection sensor 13 has various structures, and preferably, the position detection sensor 13 is one or more of a contact induction detection sensor, a magnetic induction detection sensor, a buoyancy detection sensor, and a photoelectric induction detection sensor. Specifically, the contact induction detection sensor comprises a detection shell with a detection channel 16, a gravity self-adapting piece and signal receiving devices arranged at two ends of the detection channel 16, wherein the signal receiving devices are electrically connected with the control circuit board 2; the detection channel 16 is in an L shape or approximately in an L shape, and the gravity self-adapting piece is movably arranged in the detection channel 16 and can be in communication connection with a signal receiving device. When the steam seat shell is used, the gravity self-adapting piece can automatically adjust the state of the steam seat shell according to the change of the placing posture of the steam seat shell 1, so that the signal receiving device senses the change of the gravity self-adapting piece to judge the current placing posture of the steam seat shell 1 and feed back the current placing posture to the control circuit board 2, and the working states of the first heating surface 4 and the second heating surface 5 are adaptively adjusted and switched.

More specifically, there are provided 3 different solutions of position detection sensor 13:

first, referring to fig. 7, the contact sensing detection sensor: the signal receiving device comprises a first contact switch 14 and a second contact switch 15, the first contact switch 14 and the second contact switch 15 are respectively arranged at two ends of a detection channel 16, and the gravity self-adapting piece can be contacted with any one of the first contact switch 14 and the second contact switch 15. The gravity self-adapting piece is a spherical body 17, and the size of the detection channel 16 is larger than that of the spherical body 17, so that the spherical body 17 can roll in the detection channel 16 under the action of gravity and trigger a corresponding contact switch, and a self-adjusting effect is realized.

Second, referring to fig. 8, the magnetic induction detection sensor: the signal receiving device is a first reed pipe assembly 18, the first reed pipe assembly 18 is disposed at any one or two ends of the detection channel 16, and the gravity adaptive element is a magnetic element 19.

Referring to fig. 9, the buoyancy-type detection sensor: the position detection sensor 13 includes a detection tank 20, a liquid 21 filled in the detection tank 20, a float 22 floating on the liquid 21, and a signal receiving device communicatively connected to the float 22, and electrically connected to the control circuit board 2. An air gap 23 exists between the liquid 21 and the detection box 20, the signal receiving device comprises a third contact switch 24 and a fourth contact switch 25 with waterproof performance, the third contact switch 24 and the fourth contact switch 25 are respectively arranged on two adjacent side walls of the detection box 20, and the floater 22 is at least partially exposed out of the air gap 23 and can be contacted with any one of the third contact switch 24 and the fourth contact switch 25.

In the present invention, the water supply assembly includes a water storage tank 26, an inlet and outlet pipe 27 and a water pump 28. The water storage container 26 can be externally hung and can be separated from the steam seat shell 1 for independent operation when water is added; or a built-in water storage container 26, and the water storage container 26 is added with water through an external water pipe; the water storage device can also be a built-in water storage pipeline which needs to be externally connected with a water pipe all the time when in use so as to provide continuous water quantity. Of course, the specific structure of the water storage container 26 may be other types, and is not limited herein. On the other hand, the inlet and outlet pipe 27 is a water pipe, and the steam outlet 29 of the steam generator 46 is communicated with the steam outlet 3 of the steam seat shell 1 through another steam pipe. The water pump 28 is provided to provide pressure throughout the water circuit so that water in the water reservoir 26 can flow more quickly into the steam generator 46.

In order to save the installation space, shorten the length of the inlet and outlet pipeline 27 and optimize the overall structure of the water supply assembly, in this embodiment, an installation cavity 30 is formed in the water storage container 26, the installation cavity 30 is separated from the inner container of the water storage container 26, and the water pump 28 is assembled in the installation cavity 30. Namely, an area is drawn out from the water storage container 26 to form an independent installation cavity 30, so that the hidden installation of the water pump 28 is realized, and the water pump 28 and the water storage container 26 are integrated in appearance, so that the appearance is more attractive; on the other hand, the water pump 28 can be externally assembled on the water storage container 26, and then the whole water storage container 26 is arranged in the steam seat shell 1, so that the installation structure of the water pump 28 is not required to be designed and formed on the steam seat shell 1, the overall structural layout is facilitated, and the overall production and processing difficulty is greatly reduced.

Further, since the water storage container 26 is generally formed by injection molding, if the water pump 28 is directly fixed on the water storage container 26 and a hole needs to be formed in the water storage container 26, the water storage container is easily sealed in place during use, and a water leakage risk exists. In order to solve the possible defects, a slot 31 is formed in the installation cavity 30, a metal fixing piece 32 is inserted into the slot 31, and the water pump 28 is installed on the metal fixing piece 32, so that the fixing mode is firmer and more reliable, a hole does not need to be formed in the water storage container 26, and the water leakage risk is completely eradicated.

The first and second angular disposition positions of the steam base housing 1 can be maintained by their own shape. However, when the overall shape of the steam seat housing 1 is designed to be relatively smooth, it is preferable to design some auxiliary structures so that the stability of the steam seat housing 1 when it is placed for use is better. For example: when the steam seat shell 1 is approximately drop-shaped, the steam seat can be not stable when being directly placed and used, and is easy to fall down. Referring to fig. 11, therefore, a first leg assembly 33 is disposed on one of the outer side surfaces of the steam base housing 1, and the steam base housing 1 can be maintained at a first angular disposition position by the first leg assembly 33; a second leg assembly 34 is disposed on the other outer side of the steam base shell 1, and the steam base shell 1 can be maintained at the second angular disposition position by the second leg assembly 34. Through the respective setting use of first leg subassembly 33 and second bracket component, can make steam seat casing 1 stably keep in first angle posed position or second angle posed position.

Preferably, the first leg assembly 33 and the second leg assembly 34 can be configured as rollers, so that the steam seat housing 1 can perform a movable work function during use.

Generally, in the process of using and moving a steam seat on the market, as the steam seat does not have a handheld structure, both hands are required to surround the steam seat, and therefore, the steam seat is troublesome. In order to make the steam seat move more easily, a handle 35 is further arranged on the steam seat shell 1. More specifically, the handle 35 includes a hand-held portion 36 and connecting portions 37 located at two ends of the hand-held portion 36, the connecting portions 37 are fixedly connected with the steam seat housing 1, and a gap is formed between the hand-held portion 36 and the steam seat housing 1 to form an insertion space 38 for a hand to enter; the connecting portion 37 is further provided with a cover 39, and the cover 39 and the outer side wall of the connecting portion 37 are matched to form an accessory receiving slot 40. When the steam iron is used, a user can carry the steam seat by one hand through the handle 35 and hold the iron by the other hand, so that the whole equipment can be conveniently moved. On the other hand, the user can also use the steam seat on the shoulder, when in use, the user holds the handle 35 with one hand to prevent the steam seat from falling off the shoulder, and controls the iron with the other hand to iron, thus realizing the function of moving and ironing the iron with the steam seat, and filling the blank in the market.

Referring to fig. 10, in order to facilitate the production, installation and use of the handle 35 and the steam seat shell 1, a guide sliding groove 41 is formed on the inner side wall of the connecting portion 37, a connecting member 42 matched with the handle 35 is arranged on the outer wall of the steam seat shell 1, and the connecting member 42 is opposite to the guide sliding groove 41 and can move along the guide sliding groove 41. The junction between the handle portion and the connecting portion 37 has a first wedge-shaped surface 43 inclined inward, the steam seat shell 1 is provided with a second wedge-shaped surface 44, and the first wedge-shaped surface 43 abuts against the second wedge-shaped surface 44. The two wedge-shaped surfaces are abutted, so that on one hand, the lifting handle 35 cannot move relative to the steam seat shell 1 continuously, and the lifting handle 35 is assembled in place, so that the positioning precision and the production and assembly efficiency are improved; on the other hand, the anti-dropping device can also provide better support and play a role in preventing the components from dropping.

Referring to fig. 6, preferably, the handle 35 further includes a retractable strap, which can be extended or retracted relative to the handle 35, so that a user can carry the steam seat housing 1 on his body or hang the steam seat housing on a support through the retractable strap, which is convenient for carrying and storage, and is suitable for different heights.

The steam seat is taken as an example with a horizontal placing position and a vertical placing position, and the working principle is as follows: when a user adjusts the steam seat shell 1 to a horizontal placement position, the first heating surface 4 is a bottom surface, the first heating element 6 corresponding to the first heating surface 4 is started to work (meanwhile, the second heating element 7 stops working), the water pump 28 is started to enable water in the water tank to enter the steam generator 46, under the action of gravity, the water naturally accumulates on the first heating surface 4 and is effectively heated and evaporated into steam, and then the steam is discharged out of the steam seat shell 1 through the steam outlet 29 and the steam outlet 3 in sequence; when the user adjusts the steam seat shell 1 to the vertical placement position, the second heating surface 5 is the bottom surface, the second heating element 7 corresponding to the second heating surface 5 starts to work (meanwhile, the first heating element 6 stops working), the water pump 28 starts to make the water in the water tank enter the steam generator 46, under the action of gravity, the water naturally accumulates on the second heating surface 5 and is effectively heated and evaporated into steam, and then the steam is discharged out of the steam seat shell 1 through the steam outlet 29 and the steam outlet 3.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims (16)

1. The utility model provides a but multi-angle puts steam seat of use, includes steam seat casing (1), sets up control circuit board (2), steam generator (46) and the water supply subassembly in steam seat casing (1), steam seat casing (1) on seted up steam vent (3), steam generator (46) respectively with water supply subassembly and steam vent (3) intercommunication, its characterized in that: the steam seat shell (1) at least has a first angle placing position and a second angle placing position;

the steam generator (46) is at least provided with a first heating surface (4) and a second heating surface (5), wherein the first heating surface (4) is matched with the first angle arrangement position, the second heating surface (5) is matched with the second angle arrangement position, and the first heating surface (4) and the second heating surface (5) are distributed in an L shape or an approximate L shape;

when the steam seat shell (1) is in a first angle placing position, the first heating surface (4) works and heats water in the steam generator (46); when the steam seat shell (1) is in the second angle placing position, the second heating surface (5) works and heats water in the steam generator (46).

2. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: steam generator (46) in inlay and be equipped with first heating member (6) and second heating member (7) of mutual independence, first heating member (6) set up first heating surface (4) department, second heating member (7) set up second heating member (7) department, just first heating member (6) and second heating member (7) respectively with control circuit board (2) electricity be connected.

3. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: steam generator (46) in inlay and be equipped with complete integral type heating member (8), integral type heating member (8) first heating section (9) and second heating section (10) have, first heating section (9) set up first heating surface (4) department, second heating section (10) set up second heating surface (5) department.

4. The steam seat capable of being put and used at multiple angles according to claim 3, characterized in that: the steam generator (46) is provided with a first water inlet (11) and a second water inlet (12), the first water inlet (11) faces the second heating surface (5), and the second water inlet (12) faces the first heating surface (4);

when the steam seat shell (1) is in the first angular placing position, water enters the steam generator (46) from the first water inlet (11), passes through the second heating surface (5) and finally accumulates on the first heating surface (4); when the steam seat shell (1) is in the second angular placing position, water enters the steam generator (46) from the second water inlet (12), passes through the first heating surface (4) and finally accumulates on the second heating surface (5).

5. The steam seat capable of being put and used at multiple angles according to any one of claims 1 to 4, wherein: the shell is internally provided with a position detection sensor (13), and the position detection sensor (13) is in communication connection with the control circuit board (2).

6. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: the water supply assembly comprises a water storage container (26), an inlet and outlet pipeline (27) and a water pump (28).

7. The steam seat capable of being put and used at multiple angles according to claim 6, characterized in that: the water storage container (26) is provided with an installation cavity (30), the installation cavity (30) is separated from an inner container of the water storage container (26), and the water pump (28) is assembled in the installation cavity (30).

8. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: a first supporting leg assembly (33) is arranged on one of the outer side surfaces of the steam base shell (1), and the steam base shell (1) can be kept at a first angle arrangement position under the action of the first supporting leg assembly (33);

and a second supporting leg assembly (34) is arranged on the other outer side surface of the steam seat shell (1), and the steam seat shell (1) can be kept at a second angle placing position under the action of the second supporting leg assembly (34).

9. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: the first angle placing position is a horizontal placing position, and the second angle placing position is a vertical placing position.

10. The steam seat capable of being put and used at multiple angles according to claim 5, characterized in that: the position detection sensor (13) is one or more of a contact induction detection sensor, a magnetic induction detection sensor and a photoelectric induction detection sensor.

11. The steam seat capable of being put and used at multiple angles according to claim 10, characterized in that: the contact induction detection sensor comprises a detection shell with a detection channel (16), a gravity self-adapting piece and signal receiving devices arranged at two ends of the detection channel (16), wherein the signal receiving devices are electrically connected with the control circuit board (2);

the detection channel (16) is L-shaped or approximately L-shaped, and the gravity self-adapting piece is movably arranged in the detection channel (16) and can be in communication connection with a signal receiving device.

12. The steam seat capable of being put and used at multiple angles according to claim 1, characterized in that: the steam seat shell (1) is also provided with a handle (35).

13. The steam seat capable of being put and used at multiple angles according to claim 12, wherein: the handle (35) comprises a handheld part (36) and connecting parts (37) positioned at two ends of the handheld part (36), the connecting parts (37) are fixedly connected with the steam seat shell (1), and a gap is formed between the handheld part (36) and the steam seat shell (1) to form an insertion space (38) for the hand to enter;

the connecting portion (37) are further provided with a cover shell (39), and the cover shell (39) is matched with the outer side wall of the connecting portion (37) to form an accessory storage slot (40).

14. The steam seat capable of being put and used at multiple angles according to claim 13, characterized in that: the steam seat is characterized in that a guide sliding groove (41) is formed in the inner side wall of the connecting portion (37), a connecting piece (42) matched with the lifting handle (35) is arranged on the outer wall of the steam seat shell (1), and the connecting piece (42) is opposite to the guide sliding groove (41) and can move along the guide sliding groove (41).

15. The steam seat capable of being put and used at multiple angles according to claim 13, characterized in that: the steam seat is characterized in that a first wedge-shaped surface (43) which is inclined inwards is arranged at the intersection of the handle part and the connecting part (37), a second wedge-shaped surface (44) is arranged on the steam seat shell (1), and the first wedge-shaped surface (43) is abutted to the second wedge-shaped surface (44).

16. The steam seat capable of being put and used at multiple angles according to claim 12, wherein: the handle (35) is also provided with a telescopic strap (45).

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