CN217928963U - Super bath - Google Patents

Abstract

The utility model provides a bathroom heater, including first fan, with the wind channel subassembly of first fan intercommunication, with first air-out portion and second air-out portion that the wind channel subassembly is connected, be equipped with valve switching subassembly in the wind channel subassembly, valve switching subassembly is including first valve and the second valve of crisscross opposition and axis of rotation coincidence mutually, first valve control first fan with first air-out portion intercommunication, second valve control first fan with second air-out portion intercommunication. The utility model discloses a set up first valve and the second valve that crisscross opposition and axis of rotation coincidence mutually, simple structure only can realize the switching control to first air-out portion and second air-out portion with the first valve of single fan cooperation and second valve to realize the heating of multistate air-out.

Description

Super bath

Technical Field

The utility model relates to a bathroom heater belongs to the bathroom equipment field.

Background

The bathroom heater is a heating device commonly used in a bathroom, and is popular with consumers due to the advantages of high heating speed, space saving in installation and the like, and the bathroom heater often has multiple functions of heating, exhausting and the like at the same time in order to improve the use convenience.

The vast majority of domestic toilet warmers on the market generally have two states: heating state and ventilation state. If there are two district function demands to increase 1 kind of state (for example two heating + take a breath), most of framework schemes are to increase the number of the motor spiral cases directly and become the platform of the double motor spiral case, there are also few to use the single motor inner and outer multilayer rotating spiral cases, these schemes either make the machine cost high, or make the framework become complicated and the wind channel is not smooth. How to use the fewest motor wind wheel spiral case subassembly, realize many wind gaps wind channel requirement, and the performance also can maximize gives consideration to and becomes the difficult problem that technical personnel in this field need to solve promptly.

In view of the above, there is a need to provide a new bathroom heater to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bathroom heater, simple structure makes single motor spiral case bathroom heater also can realize three kinds of states heating.

In order to achieve the above object, the utility model provides a bathroom heater, include: first fan, with the wind channel subassembly of first fan intercommunication, with first air-out portion and second air-out portion that the wind channel subassembly is connected, be equipped with valve switching assembly in the wind channel subassembly, valve switching assembly includes first valve and the second valve of crisscross opposition and rotation axis line coincidence mutually, first valve control first fan with first air-out portion intercommunication, second valve control first fan with second air-out portion intercommunication.

As a further improvement of the present invention, the air duct assembly includes a first rotating motor and a second rotating motor which are arranged up and down relatively, the first rotating motor is connected to the first valve, and is configured to control the first valve is rotated, the second rotating motor is connected to the second valve, and is configured to control the second valve.

As a further improvement of the present invention, the air duct assembly includes a first rotating motor, the air duct assembly to the direction of the first fan extend and with a first air duct is formed between the first fans, the first valve with the second valve fixed connection, the first rotating motor with the first valve or the second valve is connected, configuration is controlled the first valve with the second valve rotates together to communicate or close the first air duct.

As a further improvement of the utility model, the bathroom heater still includes main part and second fan, first fan the wind channel subassembly the second fan sets up in the main part, be equipped with air intake and scavenge port in the main part, the air intake with first fan with the second fan intercommunication, the second fan with the scavenge port intercommunication.

As a further improvement, the air duct assembly includes an air duct shell, the valve switching assembly is accommodated in the air duct shell, be equipped with first locating part, second locating part and the third locating part that the interval set up in the air duct shell, first valve is spacing first locating part with between the second locating part, configure to control the air duct assembly with second wind channel intercommunication between the first air-out portion or closing, the second valve is spacing second locating part with between the third locating part, configure to control the air duct assembly with third wind channel intercommunication between the second air-out portion or closing.

As a further improvement of the present invention, the first valve includes an open state and a closed state, and when the first valve is in the open state, the first valve is controlled by the first locating part, and the second air duct is communicated.

As a further improvement of the present invention, the second valve includes an open state and a closed state, and when the second valve is in the closed state, the second valve is controlled by the second limiting part, and is configured to control the third air duct is closed.

As a further improvement of the present invention, the first valve and the second valve include a first connecting plate and a second connecting plate which are arranged from top to bottom, and are connected to the baffle of the first connecting plate and the second connecting plate, the baffle is connected to the first connecting plate and the second connecting plate, the baffle extends upwards/downwards to exceed the first connecting plate/the second connecting plate.

As a further improvement, the baffle is arc, first connecting plate with the second connecting plate is fan-shaped, first connecting plate the second connecting plate reaches the centre of a circle of baffle all is located on the rotation axis of first valve.

As a further improvement of the utility model, the wind channel subassembly includes that the first rotation motor and the second that the symmetry set up from top to bottom rotate the motor, first connecting plate with the second connecting plate is kept away from the one end of baffle all is equipped with rotates motor connecting portion, configure into with first rotation motor and/or the second rotates the motor and connects.

The beneficial effects of the utility model are that: the utility model discloses a bathroom heater simple structure, cost are lower, through setting up valve switching component to first valve and the second valve including crisscross opposition and rotation axis line coincidence mutually, the first fan of first valve control and the first intercommunication that goes out the wind portion, the first fan of second valve control and the second intercommunication that goes out the wind portion to the realization just can realize the multiple heating mode of bathroom heater through a first fan and a valve switching component, improves the application range of bathroom heater.

Drawings

Fig. 1 is a perspective view of the bathroom heater of the present invention.

Fig. 2 is a schematic view of fig. 1 with the cover removed.

Fig. 3 is an exploded view of fig. 1.

Fig. 4 is a perspective view of the base of fig. 3.

Fig. 5 is an exploded view of the valve switching assembly of fig. 3.

Fig. 6 is a cross-sectional view of the valve switching assembly of fig. 3.

Fig. 7 is a perspective view of the first valve of fig. 5.

Fig. 8 is a perspective view of the first air outlet portion in fig. 3.

Fig. 9 is a schematic view of a first warm air state of the present invention.

Fig. 10 is a schematic view of a second warm air state of the present invention.

Fig. 11 is a schematic view of a third warm air state of the present invention.

Fig. 12 is a schematic view of a fourth warm air state of the present invention.

Description of reference numerals:

100-super bath,

1-main body, 11-base, 111-first side wall, 1111-first air outlet, 1112-second air outlet, 1113-electric connection part, 112-second side wall, 1121-ventilation port, 113-third side wall, 1131-air inlet, 12-cover body, 13-cover body, 131-first cover body and 132-second cover body;

2-a first fan;

3-air duct component, 31-air duct shell, 311-valve containing cavity, 312-first limiting piece, 313-second limiting piece, 314-third limiting piece, 315-first air duct, 316-second air duct, 317-third air duct, 318-first valve sub-shell, 3181-first rotating motor, 3182-negative ion component, 319-second valve sub-shell, 3191-second rotating motor, 32-valve switching component, 321-first valve, 322-second valve, 3211-baffle, 3212-first connecting plate, 3213-second connecting plate and 3214-rotating motor connecting part;

4-a first air outlet part, 41-PTC heating element;

5-a second air outlet part;

6-a second fan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention is described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the utility model discloses a bathroom heater 100, including main part 1, first fan 2, wind channel subassembly 3, first air-out portion 4 and second air-out portion 5, second fan 6, bathroom heater 100 is used for realizing rising temperature and taking a breath in bathroom or certain space, and bathroom heater 100 of this application hangs and establishes on the ceiling. The main part 1 is hidden on the ceiling, and first fan 2, wind channel subassembly 3, first air-out portion 4, second air-out portion 5, second fan 6 all set up inside main part 1.

The main body 1 is a main body part of the bathroom warmer 100, and includes a base 11 and a cover 12, wherein the main body 1 is rectangular, and the cover 12 is covered on the base 11.

Referring to fig. 4, the base 11 includes a first side wall 111, a second side wall 112, and a third side wall 113, in the embodiment of the present application, the first side wall 111 and the third side wall 113 are disposed opposite to each other, and the second side wall 112 is adjacent to and connected to the first side wall 111 and the third side wall 113.

The first sidewall 111 is provided with a first outlet 1111 and a second outlet 1112. Further, the first air outlet 1111 and the second air outlet 1112 have the same structure, are disposed on the first sidewall 111 of the main body 1, and are respectively used for installing the first air outlet portion 4 and the second air outlet portion 5, so as to realize the function of heating the warm air. The design of two air outlets for the air-out of bathroom heater 100 of this application has had more selections promptly to warm the state, can the single district air-out, also can two district air-outs. Meanwhile, the two air outlets can enable the air outlet of the bathroom heater 100 to be more uniform, the air outlet range is wider, and the bathroom is accelerated to be uniformly heated.

Further, an electrical connection part 1113 is further disposed on the first side wall 111 for connecting the super bath 100 with an external power source.

The second side wall 112 is provided with a ventilation opening 1121, and the ventilation opening 1121 is used for being connected with the second fan 6, so as to realize the air outlet and ventilation functions of the bathroom heater 100.

The third sidewall 113 is provided with an air inlet 1131, and the air inlet 1131 is communicated with the first fan 2 and the second fan 6, so as to realize exchange and flow of the main body 1 and the outside air, that is, to suck the outside air.

Further, the main part 1 still includes the cover body 13, and the cover body 13 is installed on the base 11 of main part 1 for protect first air outlet 1111, second air outlet 1112, scavenge port 1121, air intake 1131, the cross sectional area of the vertical direction of the cover body 13 diminishes gradually along the direction of being close to main part 1 to keeping away from main part 1, and the cross sectional area that diminishes gradually can assemble gas for the air current velocity of flow. Meanwhile, the grid is further arranged on the cover body 13, so that the air flow is not influenced, meanwhile, the first air outlet 1111, the second air outlet 1112, the air exchange port 1121 and the air inlet 1131 are protected, external objects are prevented from blocking the ports, and meanwhile, a user is prevented from accidentally extending a hand into the air exchange port to cause accidents.

Further, the cover 13 includes a first cover 131 and a second cover 132, the first cover 131 is installed on the first air outlet 1111, the second air outlet 1112, and the air inlet 1131, and the second cover 132 is installed on the ventilation opening 1121.

The first fan 2 is disposed in the main body 1, is communicated with the air duct assembly 3 through the first air duct 315, and is configured to suck air from the main body 1 and blow air to the air duct assembly 3 through the first air duct 315. In the embodiment of the application, the first fan 2 is a volute single fan, and the volute structure adopting the single wind wheel does not occupy larger space, so that the volume of the machine is controlled.

Referring to fig. 5 to 6, the air duct assembly 3 includes an air duct housing 31 and a valve switching assembly 32 located in the air duct housing 31, the air duct assembly 3 is connected to the first fan 2 to receive air blown from the first fan 2, and the air duct assembly 3 is connected to the first air outlet portion 4 and the second air outlet portion 5 to switch and control the communication of air flow blown from the first fan 2 to the first air outlet portion 4 and/or the second air outlet portion 5 through its own valve. That is, the air duct assembly 3 extends in the direction of the first fan 2 and forms a first air duct 315 therebetween, extends in the direction of the first air outlet portion 4 and forms a second air duct 316 therebetween, and extends in the direction of the second air outlet portion 5 and forms a third air duct 317 therebetween.

A valve receiving cavity 311 is formed in the air duct housing 31 formed by combining the first valve sub-housing 318 and the second valve sub-housing 319, and the valve receiving cavity 311 is used for receiving the valve switching assembly 32. The valve receiving cavity 311 is cylindrical, the valve switching assembly 32 is disposed at a center of the cylinder, and a first limiting member 312, a second limiting member 313 and a third limiting member 314 are disposed in the valve receiving cavity 311.

Further, the first air duct 315 is located between the valve accommodating cavity 311 and the first fan 2, the second air duct 316 is located between the valve accommodating cavity 311 and the first air outlet portion 4, and the third air duct 317 is located between the valve accommodating cavity 311 and the second air outlet portion 5. The valve switching assembly 32 can control the connection or disconnection of the first air duct 315, the second air duct 316, and the third air duct 317. In one embodiment of the present application, the first stopper 312 is disposed between the first wind tunnel 315 and the second wind tunnel 316, the second stopper 313 is disposed between the second wind tunnel 316 and the third wind tunnel 317, and the third stopper 314 is disposed between the first wind tunnel 315 and the third wind tunnel 317. The first valve 321 is disposed between and limited by the first limiting member 312 and the second limiting member 313 and configured to control the connection or the disconnection of the second air duct 316, and the second valve 322 is disposed between and limited by the second limiting member 313 and the third limiting member 314 and configured to control the connection or the disconnection of the third air duct 317.

In an embodiment of the present application, the first valve sub-housing 318 is provided with a first rotating motor 3181 and an anion component 3182, and the first rotating motor 3181 is connected to the rotating motor connection portion 3214 of the first valve 321 and configured to control rotation of the first valve 321. The negative ion component 3182 is disposed at a position of the first valve sub-housing 318 close to the first air duct 315, that is, close to the first fan 2, and the negative ion component 3182 passes through the first valve sub-housing 318 and is connected to the first air duct 315, so as to purify the air flow blown into the valve accommodating cavity 311 by the first fan 2 through the first air duct 315, thereby adding negative ions to the air flow. The second valve sub-housing 319 is provided with a second rotating motor 3191, and the second rotating motor 3191 and the first rotating motor 3181 are disposed opposite to each other in the vertical direction, connected to a rotating motor connecting portion 3214 of the second valve 322, and configured to control the rotation of the second valve 322. Through the double-step motor that sets up from top to bottom for first valve 321 and second valve 322 can steady atress, and each other supports, and the motion axiality is high.

It should be noted that, in the present application, the first rotating motor 3181 and the second rotating motor 3191 are the same motor, and in a bathroom heater commonly found in the market, in order to control the rotation angle of the valve, one or more sensors are additionally provided for sensing the rotation condition of the valve, and although the sensor is more effective in control, the sensor needs to be provided with additional space, and the sensor itself needs additional cost, which increases the price of the whole bathroom heater. In this embodiment, the position limitation is realized by the first position-limiting member 312, the second position-limiting member 313 and the third position-limiting member 314 without providing a sensor. When the first valve 321 is limited by the first limiting member 312, the first valve 321 does not block the communication between the valve accommodating cavity 311 and the second air duct 316, and when the first valve 321 is limited by the second limiting member 313, the first valve 321 blocks the communication between the valve accommodating cavity 311 and the second air duct 316. When the second valve 322 is limited by the second limiting member 313, the second valve 322 blocks the communication between the valve receiving cavity 311 and the third air duct 317, and when the second valve 322 is limited by the third limiting member 314, the second valve 322 does not block the communication between the valve receiving cavity 311 and the third air duct 317.

The arrangement of the first air duct 315, the second air duct 316 and the third air duct 317 enables the air duct structure of the whole bathroom heater 100 to be in smooth transition, and soft and stable air outlet is ensured.

Referring to fig. 7, the valve switching assembly 32 includes a first valve 321 and a second valve 322 that are opposite to each other and have coinciding rotation axes, and the valve switching assembly 32 is disposed in the air duct housing 31 for controlling the air duct assembly 3 to communicate with or close the first air outlet portion 4 and/or the second air outlet portion 5.

The first valve 321 is limited between the first limiting member 312 and the second limiting member 313, and is configured to control communication or closing of the second air duct 316, in other words, the first valve 321 is used for controlling communication or closing of the air duct assembly 3 and the first air outlet portion 4.

The first valve 321 includes a baffle 3211, a first connecting plate 3212, a second connecting plate 3213, the first connecting plate 3212 and the second connecting plate 3213 are disposed at an upper and lower interval, the baffle 3211 is used for connecting the first connecting plate 3212 and the second connecting plate 3213 and disposed at an end of the first connecting plate 3212 and the second connecting plate 3213 away from the rotation axis, the baffle 3211 is arc-shaped, and the baffle 3211 extends upward/downward beyond the first connecting plate 3212/the second connecting plate 3213. When the first valve 321 is limited by the second limiting member 313, the blocking plate 3211 is configured to block the communication between the valve accommodating cavity 311 and the second air duct 316. An air outlet gap exists between the first connecting plate 3212 and the second connecting plate 3213 which are arranged at an interval, when the first valve 321 is limited by the first limiting member 312, the baffle 3211 does not block the communication between the valve accommodating cavity 311 and the second air duct 316, and the first air duct 315 and the second air duct 316 can be communicated through the air outlet gap, so that the air flow blown by the first fan 2 can be blown to the first air outlet portion 4 through the air duct assembly 3.

Further, in the present application, the first connecting plate 3212 and the second connecting plate 3213 are fan-shaped, and centers of circles of the first connecting plate 3212, the second connecting plate 3213, and the arc-shaped baffle 3211 are located on the same rotation axis. So configured, the first valve 321 is more easily and stably rotated.

A rotation motor connecting portion 3214 is provided at an end of the first connecting plate 3212 remote from the stopper 3211, and is configured to be connected to a first rotation motor 3181. Drive first connecting plate 3212 through first rotation motor 3181 and rotate to drive baffle 3211 change position, realize the switching control to the intercommunication between wind channel subassembly 3 and the first air-out portion 4.

The second valve 322 and the first valve 321 have the same structure, are alternately opposite to each other, and have the same rotation axes which are coincident with each other, except that the first connection plate 3212 of the first valve 321 is disposed adjacent to the first valve sub-housing 318 so as to be connected to the first rotation motor 3181 of the first valve sub-housing 318, while the first connection plate 3212 of the second valve 322 is disposed adjacent to the second valve sub-housing 319, and the rotation motor connection 3214 is configured to be connected to the second rotation motor 3191 of the second valve sub-housing 319. The second valve 322 is limited between the second limiting member 313 and the third limiting member 314, and is configured to control the communication between the valve accommodating cavity 311 and the third air duct 317, in other words, the second valve 322 is used to control the communication between the switching air duct assembly 3 and the second air outlet portion 5. The first valve 321 and the second valve 322 with the same structure are arranged in a staggered way, the second connecting plate 3213 of the second valve 322 is stacked below the first connecting plate 3212 of the first valve 321 in a staggered way, the two valves do coaxial rotation and do not interfere with the rotation of the other valve, the two valves are driven by two motors to rotate, the stress is stable, the two valves are mutually supported, the reliability is higher, and the moving coaxiality is high,

referring to fig. 8, the first air outlet portion 4 is disposed at the first air outlet 1111, the second air outlet portion 5 is disposed at the second air outlet 1112, and the second air outlet portion 5 has the same structure as the first air outlet portion 4 in the embodiment of the present disclosure and includes the PTC heating element 41. In this application, the air blown out from the second air duct 316 becomes warm air after passing through the PTC heating element 41 of the first air outlet portion 4, and the air blown out from the third air duct 317 becomes warm air after passing through the PTC heating element 41 of the second air outlet portion 5, thereby achieving the heating and temperature raising function of the bathroom heater 100.

The bathroom heater 100 further comprises a second fan 6, the structure of the second fan 6 is the same as that of the first fan 2, and the second fan 6 is used for being connected with the ventilation port 1121 and blowing air to the outside of the main body 1, so that the ventilation function of the bathroom heater 100 is realized.

Referring to fig. 9 to 12, the first valve 321 and the second valve 322 of the self-heating bath 100 have two states, and the bath 100 has four heating states by the combination of the states of the first valve 321 and the second valve 322.

The first valve 321 includes an open state and a closed state, and when the first valve 321 is in the open state, the first valve 321 is limited by the first limiting member 312 and configured to control the second air duct 316 between the air duct assembly 3 and the first air outlet portion 4 to open, that is, the air blown by the first fan 2 is blown to the first air outlet portion 4 through the first air duct 315, the valve accommodating cavity 311, and the second air duct 316 in sequence. When the first valve 321 is in a closed state, the first valve 321 is limited by the second limiting member 313, and is configured to control the second air duct 316 between the air duct assembly 3 and the first air outlet portion 4 to be closed, that is, the air blown from the first fan 2 sequentially passes through the first air duct 315 and the valve accommodating cavity 311 and cannot be blown to the first air outlet portion 4 through the second air duct 316.

The second valve 322 includes an open state and a closed state, when the second valve 322 is in the open state, the second valve 322 is limited by the third limiting member 314, and is configured to control the third air duct 317 between the air duct assembly 3 and the second air outlet portion 5 to be opened, that is, the air blown by the first fan 2 is blown to the second air outlet portion 5 through the first air duct 315, the valve accommodating cavity 311, and the third air duct 317 in sequence. When the second valve 322 is in the closed state, the second valve 322 is limited by the second limiting member 313, and is configured to control the third air duct 317 between the air duct assembly 3 and the second air outlet portion 5 to be closed, that is, the air blown by the first fan 2 passes through the first air duct 315 and the valve accommodating cavity 311 in sequence, and then cannot be blown to the second air outlet portion 5 through the closed third air duct 317.

The four warm air states combined by the two states of the first valve 321 and the second valve 322 are respectively:

when the bathroom heater 100 is in the first warm air state, the first valve 321 is in an open state, the first valve 321 is limited by the first limiting part 312, the second valve 322 is in an open state, the second valve 322 is limited by the third limiting part 314, the second air duct 316 and the third air duct 317 can be communicated with the valve accommodating cavity 311, warm air is blown out from the first air outlet 1111 and the second air outlet 1112 simultaneously, a solution is provided for double-area heating and blowing, and the balanced temperature rise of a large bathroom area can be accelerated.

In the second warm air state, the first valve 321 is in a closed state, the first valve 321 is limited by the second limiting member 313, the second valve 322 is in an open state, the second valve 322 is limited by the third limiting member 314, the second air duct 316 is blocked by the first valve 321 and cannot be communicated with the valve accommodating cavity 311, the third air duct 317 is not blocked and can be communicated with the valve accommodating cavity 311, and the bathroom heater 100 can only blow out warm air from the second air outlet 1112 at this time.

In the third warm air state, the first valve 321 is in an open state, the first valve 321 is limited by the first limiting member 312, the second valve 322 is in a closed state, the second valve 322 is limited by the second limiting member 313, the second air duct 316 is not blocked by the first valve 321 and is communicated with the valve accommodating cavity 311, the third air duct 317 is blocked by the second valve 322 and is not communicated with the valve accommodating cavity 311, and the bathroom heater 100 can only blow out warm air from the first outlet 1111 at this time.

In the fourth warm air state, the first valve 321 is in a closed state, the first valve 321 is limited by the first limiting member 312, the second valve 322 is in a closed state, and the second valve 322 is limited by the second limiting member 313, that is, when viewed from the horizontal cross section, the first valve 321 is limited by the second limiting member 313 when rotating clockwise, the second valve 322 is limited by the second limiting member 313 when rotating counterclockwise, and at this time, the second air duct 316 and the third air duct 317 are respectively blocked by the first valve 321 and the second valve 322 and cannot be communicated with the valve accommodating cavity 311, and the bathroom heater 100 cannot blow out warm air at this time.

Further, the present invention provides another embodiment, in which only one first rotating motor 3181 is provided, and the first rotating motor 3181 is disposed on the first valve sub-housing 318 or the second valve sub-housing 319, and is connected to the first valve 321 or the second valve 322. At this time, the first valve 321 and the second valve 322 are fixedly connected, the relative position is fixed in the rotation process, and the first valve 321 and the second valve 322 can be driven to rotate simultaneously by the first rotating motor 3181. At this time, the first valve 321 and the second valve 322 can have three different states, including a double-open state, a single-open state, and a closed state, driven by the first rotating motor 3181. When two divisions of states, first valve 321 and second valve 322 do not hinder any wind channel, and first wind channel 315, second wind channel 316, third wind channel 317 all communicate, and first air-out portion 4 and the air-out of second air-out portion 5 are the air-out simultaneously, and at this moment, can realize the first warm braw state of two warm braws, provide the solution for two regional heating are bloied, can accelerate the regional balanced intensification in big bathroom. When the air conditioner is in the single-open state, any one of the second air duct 316 and the third air duct 317 is blocked and cannot be communicated by rotating the first valve 321 or the second valve 322, and only one of the first air outlet portion 4 and the second air outlet portion 5 can be used for discharging air at the moment, so that the second warm air state or the third warm air state is realized. When the air conditioner is in the closed state, the first air duct 315 is blocked and cannot be communicated by rotating the first valve 321 or the second valve 322, at this time, the air blown out by the first fan 2 cannot reach the valve accommodating cavity 311, no air flow is blown out from the second air duct 316 and the third air duct 317, and the first air outlet portion 4 and the second air outlet portion 5 are not air-out, that is, the fourth warm air state is realized. Through three different states of the first valve 321 and the second valve 322, four warm air outlet modes of the bathroom heater 100 can be realized. It should be noted that, in this embodiment, the first air duct 315, the second air duct 316, and the third air duct 317 can be blocked by the baffle 3211 of the first valve 321 or the second valve 322, and at this time, the first limiting element 312, the second limiting element 313, and the third limiting element 314 are not disposed in the valve accommodating cavity 311, so as to ensure that the first valve 321 and the second valve 322 can rotate smoothly. In order to precisely control the movement states of the first valve 321 and the second valve 322, positioning sensors may be provided to position the rotational positions of the first valve 321 and the second valve 322.

To sum up, the utility model discloses a bathroom heater 100 simple structure, cost are lower, through setting up valve switch module 32 to first valve 321 and second valve 322 including crisscross opposition and rotation axis coincidence mutually, the first fan of first valve 321 control 2 and the first intercommunication that goes out wind portion 4, the first fan of second valve 322 control 2 and the second intercommunication that goes out wind portion 5 to realize just can realizing the multiple heating mode of bathroom heater 100 through a first fan 2 and a valve switch module 32, improve bathroom heater 100's application range.

The above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A super bath, comprising: first fan (2), with wind channel subassembly (3) of first fan (2) intercommunication, with first air-out portion (4) and second air-out portion (5) that wind channel subassembly (3) are connected, wind channel subassembly (3) include valve switching subassembly (32), valve switching subassembly (32) are including first valve (321) and second valve (322) that crisscross opposition and axis of rotation coincidence mutually, first valve (321) control first fan (2) with first air-out portion (4) intercommunication, second valve (322) control first fan (2) with second air-out portion (5) intercommunication.

2. The super bath of claim 1, wherein: the air duct assembly (3) comprises a first rotating motor (3181) and a second rotating motor (3191) which are arranged up and down oppositely, the first rotating motor (3181) is connected with the first valve (321) and configured to control the first valve (321) to rotate, and the second rotating motor (3191) is connected with the second valve (322) and configured to control the second valve (322) to rotate.

3. The bathroom heater of claim 1, wherein: the air duct assembly (3) comprises a first rotating motor (3181), the air duct assembly (3) extends towards the direction of the first fan (2) and is provided with a first air duct (315) between the first fan (2), the first valve (321) is fixedly connected with the second valve (322), the first rotating motor (3181) is connected with the first valve (321) or the second valve (322) and is configured to control the first valve (321) and the second valve (322) to rotate together so as to communicate or close the first air duct (315).

4. The super bath of claim 1, wherein: the bathroom heater (100) further comprises a main body (1) and a second fan (6), the first fan (2), the air duct assembly (3) and the second fan (6) are arranged in the main body (1), an air inlet (1131) and a ventilation opening (1121) are formed in the main body (1), the air inlet (1131) is communicated with the first fan (2) and the second fan (6), and the second fan (6) is communicated with the ventilation opening (1121).

5. The super bath of claim 1, wherein: the air duct assembly (3) comprises an air duct shell (31), the valve switching assembly (32) is accommodated in the air duct shell (31), a first limiting piece (312), a second limiting piece (313) and a third limiting piece (314) are arranged in the air duct shell (31) at intervals, the first valve (321) is limited between the first limiting piece (312) and the second limiting piece (313), the second valve is configured to control communication or closing of a second air duct (316) between the air duct assembly (3) and the first air outlet portion (4), and the second valve (322) is limited between the second limiting piece (313) and the third limiting piece (314), and is configured to control communication or closing of a third air duct (317) between the air duct assembly (3) and the second air outlet portion (5).

6. The super bath of claim 5, wherein: the first valve (321) has an open state and a closed state, when the first valve (321) is in the open state, the first valve (321) is limited by the first limiting member (312) and configured to control the second air duct (316) to communicate, and when the first valve (321) is in the closed state, the first valve (321) is limited by the second limiting member (313) and configured to control the second air duct (316) to close.

7. The bathroom heater of claim 5, wherein: the second valve (322) comprises an open state and a closed state, when the second valve (322) is in the closed state, the second valve (322) is limited by the second limiting piece (313) and is configured to control the third air duct (317) to be closed, and when the second valve (322) is in the open state, the second valve (322) is limited by the third limiting piece (314) and is configured to control the third air duct (317) to be communicated.

8. The super bath of claim 1, wherein: the first valve (321) and the second valve both comprise a first connecting plate (3212) and a second connecting plate (3213) which are arranged up and down, and a baffle (3211) which connects the first connecting plate (3212) and the second connecting plate (3213), the baffle (3211) is connected to one end of the first connecting plate (3212) and the second connecting plate (3213) which is far away from the rotation axis, and the baffle (3211) extends upwards/downwards beyond the first connecting plate (3212)/the second connecting plate (3213).

9. The super bath of claim 8, wherein: the baffle (3211) is arc-shaped, the first connecting plate (3212) and the second connecting plate (3213) are fan-shaped, and the centers of circles of the first connecting plate (3212), the second connecting plate (3213) and the baffle (3211) are all located on the rotation axis of the first valve (321).

10. The super bath of claim 8, wherein: the air duct assembly (3) comprises a first rotating motor (3181) and a second rotating motor (3191) which are arranged up and down oppositely, one ends, far away from the baffle plate (3211), of the first connecting plate (3212) and the second connecting plate (3213) are respectively provided with a rotating motor connecting portion (3214), the first rotating motor (3181) is connected with the rotating motor connecting portion (3214) of the first connecting plate (3212), and the second rotating motor (3191) is connected with the rotating motor connecting portion (3214) of the second connecting plate (3213).

Images