CN210241788U - Water tank assembly, air conditioner humidifier and air conditioner - Google Patents

Abstract

The utility model discloses a water tank set spare, air conditioner humidifier and air conditioner, water tank set spare includes: the first water tank is provided with a water outlet and is communicated with the atmosphere; the second water tank is provided with a water inlet, and the gas pressure in the second water tank is variable; the check valve comprises a valve seat and a valve core, a valve cavity is formed in the valve seat, the valve seat is provided with a first interface and a second interface which are communicated with the valve cavity, the first interface is connected with the water outlet, the second interface is connected with the water inlet, the valve core is movably arranged in the valve cavity and located between the first interface and the second interface, when acting force F borne by the valve core is larger than 0, the valve core moves to unidirectionally communicate the valve cavity from the first interface to the second interface, and the first water tank automatically supplies water to the second water tank. According to the utility model discloses a water tank subassembly can make the water in the second water tank can not flow backwards to first water tank, need not the first water tank of external power simultaneously alright supply water to the second water tank is automatic.

Description

Water tank assembly, air conditioner humidifier and air conditioner

Technical Field

The utility model belongs to the technical field of air treatment equipment and specifically relates to a water tank set spare, air conditioner humidifier and air conditioner are related to.

Background

In the related art, the water supply device of the second water tank of the water tank assembly is a water pump with an external power source, water in the first water tank is pumped into the second water tank under the action of the water pump, meanwhile, for ensuring that a certain amount of water exists in the second water tank, a water level monitoring device needs to be arranged to detect the water level in the second water tank, and the water pump and the water level monitoring device are both connected with a control circuit, so that the structure is complex, the cost is high, and the maintenance is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a water tank component can make the water in the second water tank can not flow backwards to first water tank, and the water yield in the second water tank is controllable, need not the first water tank of external power simultaneously alright to the automatic water supply of second water tank, simple structure, with low costs and easy maintenance.

The utility model also provides an air conditioner humidifier of having above-mentioned water tank set spare.

The utility model also provides an air conditioner of having above-mentioned air conditioner humidifier.

According to the utility model discloses water tank assembly, include: a first water tank having a water outlet, the first water tank being in communication with the atmosphere; a second water tank, thereforThe second water tank is provided with a water inlet, and the gas pressure in the second water tank is variable; the check valve comprises a valve seat and a valve core, a valve cavity is formed in the valve seat, the valve seat is provided with a first interface and a second interface which are communicated with the valve cavity, the first interface is connected with the water outlet, the second interface is connected with the water inlet, the valve core is movably arranged in the valve cavity and positioned between the first interface and the second interface, when the acting force F borne by the valve core is larger than 0, the valve core moves to conduct the valve cavity in a one-way mode in the direction from the first interface to the second interface, and the first water tank automatically supplies water to the second water tank; wherein F ═ F₁+F₂+F_{Floating body}+ G, said F₁Is the resultant force of the liquid pressure on one side of the valve core adjacent to the first water tank and the acting force of the atmosphere on the valve core, and F₂Is the resultant force of the liquid pressure on one side of the valve core adjacent to the second water tank and the acting force of the gas in the second water tank on the valve core, and F_{Floating body}The component force of the buoyancy of the valve core in the motion direction of the valve core, and the component force of the gravity of the valve core in the motion direction of the valve core.

According to the utility model discloses water tank assembly, through set up the check valve between first water tank and second water tank, can make the water in the second water tank can not flow backwards to first water tank, when effort F that the case receives > 0, need not the first water tank of extra power alright to the automatic water supply of second water tank, and when recovering standard atmospheric pressure in the second water tank, the liquid level in the second water tank is not less than the liquid level in the first water tank, thereby make the water yield in the second water tank controllable, moreover, the steam generator is simple in structure, low cost and easy maintenance.

In some embodiments of the present invention, the inner peripheral wall of the valve chamber is formed with an annular step portion extending in the circumferential direction of the valve chamber, the valve element is located between the step portion and the first interface, and the valve element is matched with the step portion to cut off the valve chamber.

The utility model discloses an in some embodiments, be equipped with a plurality of edges on the inner wall of valve pocket the spacing muscle of the spaced apart setting of circumferential direction of valve pocket, the case is located spacing muscle with between the second interface under the state that the valve pocket switched on, spacing muscle is suitable for and ends the case.

The utility model discloses an in some embodiments, be equipped with the direction muscle on the internal perisporium of valve pocket, the direction muscle is used for right the removal direction of case.

In some embodiments of the present invention, the valve element is formed in a cylindrical shape, a spherical shape, or a conical shape.

In some embodiments of the present invention, the valve element is a flexible member.

Optionally, the valve seat comprises: the valve comprises a first valve seat and a second valve seat, wherein the first valve seat and the second valve seat are matched to limit the valve cavity, the first valve seat is provided with a first connector, and the second valve seat is provided with a second connector.

In some embodiments of the present invention, the first interface is connected to the water outlet through a communication pipe.

Optionally, the communication tube is a U-shaped tube.

In some embodiments of the present invention, the second water tank includes a water tank body and a heating member, the water tank body is provided with the water inlet and the steam outlet, and the heating member is used for heating the water in the water tank body into steam.

Optionally, the top of the water tank body is provided with an exhaust valve.

Optionally, the heating element is a PTC heater.

According to the utility model discloses air conditioner humidifier, include: the water tank assembly is described above.

According to the utility model discloses air conditioner humidifier, through set up the check valve between first water tank and second water tank, can make the water in the second water tank can not flow backwards to first water tank, effort F that the case receives > 0 the time, need not the first water tank of extra power alright to the automatic water supply of second water tank, and when recovering standard atmospheric pressure in the second water tank, the liquid level in the second water tank is not less than the liquid level in the first water tank, thereby make the water yield in the second water tank controllable, be favorable to realizing air conditioner humidifier's humidification function, moreover, the steam generator is simple in structure, and is with low costs and easy maintenance.

In some embodiments of the present invention, the first water tank is connected to a water purifying device, and the water flows through the water purifying device after being filtered to the first water tank.

According to the utility model discloses air conditioner, include: at least one outdoor unit; a plurality of indoor units; in the air conditioner humidifier, an air pipe is connected between the steam outlet and the indoor unit, the air pipe comprises a plurality of branch pipes, and each branch pipe is connected with the corresponding indoor unit.

According to the utility model discloses air conditioner, through setting up according to the utility model discloses the air conditioner humidifier of above-mentioned embodiment, the steam accessible tuber pipe conduction that the second water tank produced to indoor set, indoor set blow steam to the interior space in order to the interior space humidification, air conditioner humidifier's simple structure, with low costs and easy maintenance simultaneously.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a water tank assembly according to some embodiments of the present invention, wherein a check valve is in a closed state;

fig. 2 is a schematic structural view of a water tank assembly according to some embodiments of the present invention, wherein a check valve is in one-way communication and a first water tank supplies water to a second water tank;

FIG. 3 is a schematic structural view of a water tank assembly according to some embodiments of the present invention, wherein P₁＝P₂The liquid level heights of the first water tank and the second water tank are equal;

fig. 4 is a schematic plan view of a check valve according to some embodiments of the present invention;

FIG. 5 is a schematic cross-sectional view taken at A-A in FIG. 4;

fig. 6 is a schematic view of the operation of a check valve according to some embodiments of the present invention when closed, wherein the direction of the arrows refers to the direction of flow of water;

fig. 7 is a schematic diagram of the operation of the check valve in one-way communication according to some embodiments of the present invention, wherein the direction of the arrows indicates the flow direction of water;

fig. 8 is a schematic structural view of a first valve seat according to some embodiments of the present invention;

fig. 9 is a schematic structural view of a second valve seat according to some embodiments of the present invention;

FIG. 10 is an enlarged partial schematic view at B of FIG. 9;

fig. 11 is a schematic structural view of a second valve seat according to further embodiments of the present invention;

FIG. 12 is an enlarged partial schematic view at C of FIG. 11;

fig. 13 is a schematic perspective view of a one-way valve according to some embodiments of the present invention;

fig. 14 is a perspective view of a second valve seat and poppet according to some embodiments of the present invention;

fig. 15 is a schematic structural view of a check valve according to further embodiments of the present invention;

fig. 16 is a schematic diagram of a check valve according to further embodiments of the present invention.

Reference numerals:

a water tank assembly 100;

a first water tank 10; a water outlet 101;

a second water tank 20; a water inlet 201;

a check valve 30;

a valve seat 1; a first valve seat 1 a; a second valve seat 1 b;

a valve chamber 11; a first cavity 11 a; a second cavity 11 b; a first interface 111; a first joint 1111; a second interface 112; a second joint 1121;

a step portion 12; a first step surface 121; a second step surface 122; the seal-fitting portion 123; a first annular face 1231; a second annular surface 1232; an abutment line 1233; abutting the arc surface 1234;

a limiting rib 13;

a guide rib 14;

a valve core 2; a valve core bottom wall 21; a cartridge side wall 22; a lightening hole 23;

the communication pipe 40.

Detailed Description

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

A water tank assembly 100 according to an embodiment of the present invention is described below with reference to the accompanying drawings.

Referring to fig. 1, a water tank assembly 100 according to an embodiment of the present invention may include: the water-saving device comprises a first water tank 10, a second water tank 20 and a one-way valve 30, wherein the first water tank 10 is provided with a water outlet 101, and the first water tank 10 is communicated with the atmosphere. For example, the top of the first tank 10 may be provided with a vent hole to communicate with the atmosphere, and it is understood that the pressure of the atmosphere in the first tank 10 is a standard atmospheric pressure.

Referring to fig. 2 and 3, the second water tank 20 has a water inlet 201, and the pressure of gas in the second water tank 20 is variable. It will be appreciated that the air pressure in the second water tank 20 may be greater than the standard atmospheric pressure, less than the standard atmospheric pressure, or equal to the standard atmospheric pressure, and the air pressure in the second water tank 20 may eventually return to the standard atmospheric pressure.

Referring to fig. 4 and 5, the check valve 30 includes a valve seat 1 and a valve core 2, a valve cavity 11 is formed in the valve seat 1, the valve seat 1 is provided with a first interface 111 and a second interface 112 communicated with the valve cavity 11, the first interface 111 is connected with the water outlet 101, the second interface 112 is connected with the water inlet 201, the valve core 2 is movably disposed in the valve cavity 11 and located between the first interface 111 and the second interface 112, when F is less than 0, the valve core 2 moves to be matched with a part of the inner wall of the valve cavity 11 to cut off the valve cavity 11, as shown in fig. 7, when the acting force F applied to the valve core 2 is greater than 0, the valve core 2 moves to unidirectionally conduct the valve cavity 11 in the direction from the first interface 111 to the second interface 112, and the first water tank 10 automatically supplies water to the.

Wherein F ═ F₁+F₂+F_{Floating body}+G，F₁Is the resultant force of the liquid pressure on the side of the valve core 2 adjacent to the first water tank 10 and the acting force of the atmosphere on the valve core 2, F₂Is the resultant force of the liquid pressure on the side of the valve core 2 adjacent to the second water tank 20 and the acting force of the gas in the second water tank 20 on the valve core 2, F_{Floating body}Is a component force of the buoyancy of the spool 2 in the moving direction of the spool 2, and G is a component force of the gravity of the spool 2 in the moving direction of the spool 2.

In addition, F₁、F₂、F_{Floating body}And G are vectors, the direction of the valve core 2 disengaged from the partial inner peripheral wall of the valve cavity 11 is taken as a forward direction, the direction of the valve core 2 engaged with the partial inner peripheral wall of the valve cavity 11 is taken as a reverse direction, when F is less than 0, the valve core 2 moves to be engaged with the partial inner wall of the valve cavity 11 to cut off the valve cavity 11, when F is more than 0, the valve core 2 moves to be disengaged from the partial inner wall of the valve cavity 11 to unidirectionally conduct the valve cavity 11 in the direction from the first interface 111 to the second interface 112, and the first water tank 10 automatically supplies water to the second water tank 20.

It can be understood that F₁＝F₁₁+ρgh₁S₁，F₂＝F₁₂+ρgh₂S₂，F＝F₁₁+F₁₂+ρgh₁S₁+ρgh₂S₂+F_{Floating body}+G，F₁₁Is the force of the gas in the first tank 10 on the valve core, S₁Is the pressure area h of the valve core 2 under the action of positive force₁The liquid level of water in the first water tank 10 relative to the valve core 2 is F₁₂Is the force of the gas in the second tank 20 on the valve core, S₂Is the pressure area, h, of the valve core 2 under the action of the reverse force₂G is a gravity constant, and ρ is a density of the liquid, which is a height of the water in the second tank 20 with respect to the liquid surface of the valve body 2.

In particular toIn other words, when F₁₁＝-F₁₂If at this time ρ gh₁S₁+ρgh₂S₂+F_{Floating body}If + G is greater than 0, F is greater than 0, the valve core 2 moves to unidirectionally conduct the valve cavity 11 in the direction from the first port 111 to the second port 112, the first water tank 10 automatically supplies water to the second water tank 20, and finally, under the combined action of the air pressure of the first water tank 10 and the air pressure of the second water tank 20, the liquid level in the second water tank 20 is equal to the liquid level in the first water tank 10; if at this time ρ gh₁S₁+ρgh₂S₂+F_{Floating body}G is less than 0, namely F is less than 0, the valve core 2 moves to be matched with part of the inner wall of the valve cavity 11 to cut off the valve cavity 11, the one-way valve 30 is not conducted, so that water in the second water tank 20 cannot flow back to the first water tank 10, and finally the liquid level height in the second water tank 20 is larger than that of the first water tank 10;

when F is present₁₁＞-F₁₂(the air pressure of the first water tank 10 is greater than the air pressure in the second water tank 20), if F is greater than 0 at this time, the valve core 2 moves to unidirectionally conduct the valve chamber 11 in the direction from the first port 111 to the second port 112 and the first water tank 10 automatically supplies water to the second water tank 20, if F is less than 0 at this time, the valve core 2 moves to cooperate with a part of the inner wall of the valve chamber 11 to shut off the valve chamber 11, the check valve 30 is not conducted, but when the atmospheric pressure in the second water tank 20 is restored to the standard atmospheric pressure, the liquid level in the second water tank 20 is greater than or equal to the liquid level of the first water tank 10;

when F is present₁₁＜-F₁₂(the air pressure of the first tank 10 is less than the air pressure of the second tank 20), if F > 0 at this time, the valve body 2 moves to unidirectionally open the valve chamber 11 in a direction from the first port 111 to the second port 112 and the first tank 10 automatically supplies water to the second tank 20, if F < 0 at this time, the valve body 2 moves to engage with a part of the inner wall of the valve chamber 11 to shut off the valve chamber 11, the check valve 30 is not opened, but when the atmospheric pressure of the second tank 20 is restored to the standard atmospheric pressure, the liquid level of the second tank 20 is greater than or equal to the liquid level of the first tank 10.

From this, through set up check valve 30 between first water tank 10 and second water tank 20, can make the water in the second water tank 20 can not flow backwards to first water tank 10, when effort F that the case 2 received is > 0, need not external power, first water tank 10 alright to the automatic water supply of second water tank 20, and when atmospheric pressure in the second water tank 20 resumes standard atmospheric pressure, the liquid level height in the second water tank 20 is more than or equal to the liquid level height in the first water tank 10, thereby it is controllable to make the water yield in the second water tank 20, the simple structure of water tank subassembly 100 simultaneously, with low costs and easy maintenance.

According to the utility model discloses water tank assembly 100, through set up check valve 30 between first water tank 10 and second water tank 20, can make the water in the second water tank 20 can not flow backwards to first water tank 10, when the effort F that case 2 receives > 0, need not external power, first water tank 10 alright to second water tank 20 automatic water supply, and when atmospheric pressure in second water tank 20 resumes standard atmospheric pressure, liquid level in the second water tank 20 more than or equal to liquid level in the first water tank 10, thereby make the water yield in the second water tank 20 controllable, moreover, the steam generator is simple in structure, and is with low costs and easy maintenance.

In some embodiments of the present invention, referring to fig. 5, an annular step portion 12 extending along a circumferential direction of the valve cavity 11 is formed on an inner circumferential wall of the valve cavity 11, the valve element 2 is located between the step portion 12 and the first interface 111, the valve element 2 cooperates with the step portion 12 to cut off the valve cavity 11, when F < 0, F pushes the valve element 2 to a direction close to the step portion 12, so that the valve element 2 cooperates with the step portion 12 to cut off the valve cavity 11; when F > 0, F pushes the valve core 2 to a direction away from the step portion 12, so that the valve core 2 moves to a direction away from the step portion 12, thereby disengaging the valve core 2 from the step portion 12 to enable the one-way valve 30 to be conducted in one direction, and the first water tank 10 automatically supplies water to the second water tank 20. Of course, the present invention is not limited to this, and at least a part of the peripheral wall of the valve cavity 11 may be gradually reduced in the direction from the second joint 1121 to the first joint 1111, and the valve core may be engaged with a part of the peripheral wall of the valve cavity 11 having a smaller flow area to cut off the valve cavity 11.

In the description of the present invention, it is to be understood that the terms "center", "length", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting.

Optionally, the second water tank 20 includes a water tank body and a heating member, the water tank body is provided with a water inlet 201 and a steam outlet, for example, the water inlet 201 is provided on the peripheral wall of the water tank body, the steam outlet is provided on the top of the water tank body, the heating member is used for heating the water in the water tank body into steam, and the top of the water tank body is provided with an exhaust valve.

For example, the heating element is a PTC heater, wherein PTC is an abbreviation of Positive Temperature Coefficient, which means a semiconductor material or a component having a large Positive Temperature Coefficient. In general, reference to PTC refers to a positive temperature coefficient thermistor, abbreviated as a PTC thermistor. The PTC heater is also called as PTC heating body, and is composed of PTC ceramic heating elements and an aluminum tube. The PTC heating element has the advantages of small thermal resistance and high heat exchange efficiency, and is an automatic constant-temperature and electricity-saving electric heater. The PTC heater has the outstanding characteristic of safety performance, and the phenomenon of reddening on the surface of the electric heating tube heater can not be generated under any application condition, so that potential safety hazards such as scalding and fire disasters are avoided.

In some examples, the density of the cartridge 2 is the same as the density of water, so F_{Floating body}And G may cancel each other out, for a simplified force analysis with the example in fig. 1, F ═ F₁+F₂And due to F₁＝P₁S₁+ρgh₁S₁，F₂＝P₂S₂+ρgh₂S₂Wherein P is₁Is the pressure of the gas in the first tank 10, P₂Is the atmospheric pressure in the second tank 20, where S₁And S₂Approximately equal, then F ═ P₁+P₂+ρgh₁+ρgh₂]S₁Then the direction of F is only equal to P₁+P₂+ρgh₁+ρgh₂Positive and negative values of (c).

The operation of the water tank assembly 100 will now be briefly described, with reference to FIG. 2, before the water tank assembly 100 is heated, at time P₁＝-P₂，h₁＞h₂Thus P is₁+P₂+ρgh₁+ρgh₂F > 0, so that the valve body 2 moves to unidirectionally conduct the valve chamber 11 in a direction from the first port 111 to the second port 112 and the first tank 10 automatically supplies water to the second tank 20, and finally h₂＝h₁That is, the liquid level in the second tank 20 and the liquid level in the first tank 10 are finally made equal (F is 0, and the check valve 30 is between conduction and non-conduction).

Then, the exhaust valve is closed, and when the heating member heats the water in the second water tank 20, the air pressure in the second water tank 20 is gradually increased, so that P₁+P₂+ρgh₁+ρgh₂If the water level in the second water tank 20 is less than 0, namely the acting force F borne by the valve core 2 is less than 0, the one-way valve 30 is not communicated, so that the water in the second water tank 20 cannot flow back to the first water tank 10, and meanwhile, the steam can be discharged to the indoor environment through the steam outlet to humidify the indoor environment;

when the heating element stops heating, if the exhaust valve is not opened in advance, the steam is condensed, and at the moment P₂Is reduced while the liquid level of the second tank 20 is lower than the liquid level of the first tank 10, so that P₁+P₂+ρgh₁+ρgh₂When the acting force F on the second valve core 2 is greater than 0, referring to fig. 2, the check valve 30 is turned on, and the first water tank 10 automatically supplies water to the second water tank 20;

when the heating member stops heating, if the exhaust valve is opened in advance, the outside atmosphere balances the pressure in the second water tank 20 and makes P₂＝-P₁And because then h₁＞h₂Referring to FIG. 2, when the second valve body 2 is acted by a force F > 0, the check valve 30 is opened, and the first water tank 10 automatically supplies water to the second water tank 20, as shown in FIG. 3, because P is the same₂＝-P₁So finally h₂＝h₁I.e. the level of the second tank 20 is equal to the level of the first waterThe level of the tank 10 (in this case F is 0 and the check valve 30 is between conducting and non-conducting).

Alternatively, referring to fig. 10, the step portion 12 includes a first step surface 121 and a second step surface 122 intersecting with each other, the first step surface 121 is disposed facing the valve element 2, a seal engagement portion 123 is disposed on the first step surface 121, the seal engagement portion 123 includes a first annular surface 1231 and a second annular surface 1232, the first annular surface 1231 and the second annular surface 1232 respectively extend in the circumferential direction of the valve chamber 11, an end of the first annular surface 1231 away from the first step surface 121 intersects with an end of the second annular surface 1232 away from the first step surface 121 to define an abutment line 1233, and when F < 0, the valve element 2 abuts against the abutment line 1233 to be in line seal engagement with the seal engagement portion 123.

It can be understood that when F is less than 0, the valve core 2 is stopped to the abutting line 1233, and the deformation amount of the valve core 2 can be increased under the same pressure, which is beneficial to improving the sealing effect between the valve core 2 and the sealing matching part 123, thereby ensuring the sealing performance of the check valve 30 on the occasion with low fluid pressure and being beneficial to improving the working reliability of the water tank assembly 100.

Of course, as shown in fig. 12, the present invention is not limited thereto, the end of the first annular surface 1231 away from the first step surface 121 and the end of the second annular surface 1232 away from the first step surface 121 may also be transited through the abutting arc surface 1234, thereby being beneficial to reducing the manufacturing difficulty of the sealing matching portion 123, and being beneficial to reducing the production cost.

In some alternative embodiments of the present invention, as shown in fig. 5, the surface of the valve element 2 engaged with the seal engaging portion 123 is a flat surface. Therefore, the valve core 2 has a simple structure, and the manufacturing difficulty of the valve core 2 is favorably reduced. For example, as shown in fig. 5, the valve core 2 includes a valve core bottom wall 21 and a valve core side wall 22, the lower end of the valve core side wall 22 is connected with the outer periphery of the valve core bottom wall 21, a lightening hole 23 is defined between the valve core side wall 22 and the valve core bottom wall 21, the central axis of the lightening hole 23 is collinear with the central axis of the valve core side wall 22, and the lower surface of the valve core bottom wall 21 is formed into a plane and is matched with the sealing matching part 123, it can be understood that, by providing the lightening hole 23, not only the weight of the valve core 2 can be reduced to reduce the production cost, but also when F < 0, the contact area between the liquid on the side of the valve core 2 adjacent to the second water tank 20 and the valve core 2 can be increased, so that the deformation amount of the valve core 2 can be increased under the same liquid pressure, the sealing effect between the valve core 2 and the sealing matching part, which is advantageous in improving the reliability of the operation of the water tank assembly 100.

Alternatively, as shown in fig. 10, the cross-sectional area of the seal-fitting portion 123 gradually decreases in the direction from the first port 111 to the spool 2. Note that a single-sided cross section obtained by cutting the plane of the center axis of the seal engagement portion 123 through the seal engagement portion 123 is a cross section of the seal engagement portion 123. When F is less than 0, the valve core 2 is stopped to the end, with the smaller cross-sectional area, of the sealing matching part 123, the deformation amount of the valve core 2 can be increased under the same pressure, and the sealing effect between the valve core 2 and the sealing matching part 123 is favorably improved, so that the sealing performance of the check valve 30 on occasions with low fluid pressure is ensured, and the working reliability of the water tank assembly 100 is favorably improved. For example, as shown in fig. 10, the seal-fitting portion 123 is formed in a substantially triangular shape in cross section.

In some optional embodiments of the present invention, referring to fig. 15 and 16, the step portion 12 includes a first step surface 121 and a second step surface 122, the first step surface 121 is disposed facing the spool 2, the first step surface 121 and the second step surface 122 intersect to define an intersecting line, when F < 0, a portion of the spool 2 extends into the ring defined by the second step surface 122 and the spool 2 abuts against the intersecting line to be in line sealing engagement with the step portion 12. Therefore, the deformation amount of the valve core 2 can be increased under the same pressure by stopping the valve core 2 against the intersecting line, which is beneficial to improving the sealing effect between the valve core 2 and the sealing matching part 123, thereby ensuring the sealing performance of the check valve 30 on the occasion with low fluid pressure and being beneficial to improving the working reliability of the water tank assembly 100.

For example, referring to fig. 15, the bottom surface of the spool 2 is formed as a downwardly concave spherical surface, a portion of the spherical bottom surface of the spool 2 projects into the ring defined by the second step surface 122 and the spool 2 stops to the intersection line to be in line sealing engagement with the step portion 12. As another example, referring to fig. 16, the bottom surface of the valve element 2 is formed as a downwardly concave conical surface, a portion of the conical bottom surface of the valve element 2 extends into the ring defined by the second step surface 122 and the valve element 2 stops to the intersection line to be in line sealing engagement with the step portion 12.

In some embodiments of the present invention, referring to fig. 8, a plurality of spacing ribs 13 are disposed on the inner wall of the valve cavity 11 and spaced apart from each other along the circumferential direction of the valve cavity 11, the valve element 2 is disposed between the spacing ribs 13 and the second interface 112, and the spacing ribs 13 are adapted to stop the valve element 2 when the valve cavity 11 is turned on. It can be understood that, under the state that valve pocket 11 switched on, the water accessible in the first water tank 10 flows to second water tank 20 in the clearance between two adjacent spacing muscle 13, thereby guarantee when F > 0, the water in the first water tank 10 can flow to second water tank 20, and simultaneously, through spacing muscle 13 and case 2 the cooperation of ending, be favorable to preventing that case 2 from getting into first interface 111, thereby guarantee that case 2 removes between spacing muscle 13 and second interface 112, be favorable to improving the reliability of case 2 work. Wherein a plurality means two or more.

In some examples of the present invention, as shown in fig. 5, the inner peripheral wall of the valve cavity 11 is formed with an annular step portion 12 extending along the circumferential direction of the valve cavity 11, the inner wall of the valve cavity 11 is provided with a plurality of spacing ribs 13 spaced apart from each other along the circumferential direction of the valve cavity 11, the annular step portion 12 and the spacing ribs 13 are spaced apart from each other in the direction from the first interface 111 to the second interface 112, and the valve element 2 is movably disposed between the annular step portion 12 and the spacing ribs 13.

Specifically, when F is in the reverse direction (F < 0), the spool 2 moves toward a direction close to the step portion 12 by the action of F, so that the spool 2 cooperates with the step portion 12 to cut off the valve chamber 11; when F is forward (F > 0), under the effect of F, the spool 2 moves towards the direction far away from the step part 12, thereby making the spool 2 and the spacing rib 13 abut, water in the first water tank 10 can loop through the annular step part 12, the gap between the spool 2 and the valve cavity 11 and the gap between the two adjacent spacing ribs 13 flow to the second water tank 20, thereby realizing that the first water tank 10 automatically supplies water to the second water tank 20, therefore, the spool 2 can be ensured to move back and forth between the annular step part 12 and the spacing rib 13, which is beneficial to improving the reliability of the one-way valve 30 switching between the one-way conduction state and the closed state, and further ensuring the reliability of the water tank assembly 100 in working.

In some embodiments of the present invention, referring to fig. 5, the inner peripheral wall of the valve cavity 11 is provided with a guiding rib 14, and the guiding rib 14 is used for guiding the movement of the valve element 2. For example, as shown in fig. 14, the guide rib 14 is plural, the plural guide ribs 14 are provided at regular intervals on the inner peripheral wall of the valve chamber 11, and each guide rib 14 extends in the longitudinal direction of the valve chamber 11. Therefore, the valve core 2 is guaranteed to move in the designated direction by the limiting and guiding action of the guiding ribs 14 on the valve core 2, and the reliability of switching the one-way valve 30 between the on state and the off state is guaranteed.

In some embodiments of the present invention, as shown with reference to fig. 5, 15 and 16, the valve cartridge 2 is formed in a cylindrical, spherical or conical shape. Therefore, the structure is simple, and the production cost is reduced.

In some embodiments of the present invention, the valve element 2 is a flexible member. Therefore, in the non-conduction state, the reliability of sealing between the valve core 2 and the valve cavity 11 is improved.

Optionally, the valve core 2 is a silicone piece or a rubber piece, and the shore hardness of the valve core 2 is between 30HA and 50HA, for example, the shore hardness of the valve core 2 may be 31HA, 32HA, 35HA, 40HA, 50HA, or 49 HA.

Optionally, as shown in fig. 5, the valve seat 1 includes a first valve seat 1a and a second valve seat 1b, the first valve seat 1a and the second valve seat 1b cooperate to define the valve chamber 11, the first valve seat 1a is provided with a first interface 111, and the second valve seat 1b is provided with a second interface 112. Therefore, the structure is simple, and the manufacturing and molding of the valve seat 1 are convenient.

Optionally, the first valve seat 1a and the second valve seat 1b are both formed by injection molding, and the first valve seat 1a and the second valve seat 1b are connected by welding. For example, the first and second valve seats 1a and 1b may be made of a plastic material or a metal material.

In some embodiments of the present invention, referring to fig. 5, the valve cavity 11 includes a first cavity 11a and a second cavity 11b that are connected to each other, the first cavity 11a extends vertically, the second cavity 11b extends horizontally, and the valve core 2 is disposed in the first cavity 11 a. From this, through making case 2 to establish in valve pocket 11 with reciprocating, can reduce the influence of case 2 gravity to case 2 moving direction, avoid causing case 2 to remove because of the influence of case 2 gravity and take place the skew, be favorable to improving the one-way sealed effect of case 2 to can avoid case 2 card to die, and then improve the reliability of water tank set 100 work, simultaneously, check valve 30's simple structure, the check valve 30 of being convenient for links to each other with the lateral wall of second water tank 20.

For example, as shown in fig. 5, a first cavity 11a is formed in the first valve seat 1a, a second cavity 11b is formed in the second valve seat 1b, the first valve seat 1a and the second valve seat 1b cooperate to define a valve cavity 11, and an included angle between the first cavity 11a and the second cavity 11b is 90 °. Of course, the present invention is not limited to this, the first cavity 11a extends vertically, and the included angle between the first cavity 11a and the second cavity 11b may be disposed adjacent to 90 °, for example, the included angle between the first cavity 11a and the second cavity 11b may be 70 °, 80 °, 85 °, 95 °, 105 ° or 110 °.

Alternatively, referring to fig. 5, an end of the first cavity 11a far away from the second cavity 11b defines a first interface 111, an end of the second cavity 11b far away from the first cavity 11a defines a second interface 112, and the first interface 111 is located below the second interface 112. Therefore, the structure is simple, the connection between the second connector 112 and the side wall of the second water tank 20 is facilitated, and the first connector 111 is located below the second connector 112, so that the water in the first water tank 10 is ensured to be fully utilized.

In some embodiments of the present invention, as shown in fig. 3 and 5, the first interface 111 is connected to the water outlet 101 through the communication pipe 40. Therefore, the structure is simple, and the connection between the first interface 111 and the water outlet 101 is convenient to realize.

Alternatively, as shown in fig. 5, the check valve 30 includes a first joint 1111 and a second joint 1121, a free end of the first joint 1111 of the check valve 30 defines a first connection 111, a free end of the second joint 1121 of the check valve 30 defines a second connection 112, the first joint 1111 is connected to the first tank 10 through a connection pipe 40, and the second joint 1121 is connected to the second tank 20 through a screw thread. Therefore, the second joint 1121 and the second water tank 20 can be connected through the screw thread, and then the first joint 1111 is connected to the first water tank 10 through the communication pipe 40, so that the installation of the check valve 30 is facilitated, meanwhile, when a heating element is arranged in the second water tank 20, the working pressure of the second water tank 20 is high, and the second joint 1121 and the second water tank 20 are connected through the screw thread, which is beneficial to improving the reliability of the connection between the second joint 1121 and the second water tank 20, and thus the reliability of the operation of the check valve 30 is improved.

Alternatively, the communication pipe 40 is a U-shaped pipe. Thus, it is advantageous to reduce the space occupation of the communication pipe 40, thereby reducing the space occupation of the entire water tank assembly 100.

According to the utility model discloses air conditioner humidifier, include: according to the above embodiment of the present invention, the water tank assembly 100.

According to the utility model discloses air conditioner humidifier, through setting up the utility model discloses water tank set spare 100 of above-mentioned embodiment, can make the water in the second water tank 20 can not flow backwards to first water tank 10, when the effort F that case 2 receives > 0, need not the first water tank 10 of external power alright to the automatic water supply of second water tank 20, and when the atmospheric pressure in first water tank 10 and the second water tank 20 is equal, the liquid level in the second water tank 20 is not less than the liquid level in the first water tank 10, thereby make the water yield controllable in the second water tank 20, be favorable to realizing air conditioner humidifier's humidification function, moreover, the steam generator is simple in structure, with low costs and easy maintenance.

Optionally, the first water tank 10 is connected to a water purifying device, and water flows to the first water tank 10 after being filtered by the water inlet device. For example, the air conditioner humidifier is installed in a kitchen or a bathroom (for example, installed on a ceiling of the kitchen or the bathroom), and the first water tank 10 is connected to a water purifier in the room, so that the air conditioner humidifier can provide water vapor to the room by using filtered purified water, which is beneficial to improving the reliability of the operation of the air conditioner humidifier.

According to the utility model discloses air conditioner, include: at least one off-premises station, a plurality of indoor set and according to the utility model discloses the air conditioner humidifier of above-mentioned embodiment is connected with the tuber pipe between steam outlet and the indoor set, and the tuber pipe includes a plurality of branch pipes, and every branch pipe links to each other with the indoor set that corresponds. The steam generated from the second water tank 20 may be conducted to the indoor unit through the wind pipe, and the indoor unit blows the steam to the indoor space to humidify the indoor space. For example, the air conditioner humidifier is disposed outside the outdoor unit and the indoor unit, and the length of the air duct is between 3 meters and 5 meters.

According to the utility model discloses air conditioner, through setting up the basis the utility model discloses the air conditioner humidifier of above-mentioned embodiment, the steam accessible tuber pipe conduction that second water tank 20 produced to indoor set, indoor set blow steam to the interior space in order to the interior space humidification, air conditioner humidifier's simple structure, with low costs and easy maintenance simultaneously.

Other configurations of the air conditioner according to the embodiment of the present invention, such as an indoor heat exchanger and an outdoor heat exchanger, and the like, and operations thereof are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (15)

1. A water tank assembly, comprising:

a first water tank having a water outlet, the first water tank being in communication with the atmosphere;

a second water tank having a water inlet, the second water tank having a variable gas pressure therein;

the check valve comprises a valve seat and a valve core, a valve cavity is formed in the valve seat, the valve seat is provided with a first interface and a second interface which are communicated with the valve cavity, the first interface is connected with the water outlet, the second interface is connected with the water inlet, the valve core is movably arranged in the valve cavity and positioned between the first interface and the second interface, when the acting force F borne by the valve core is larger than 0, the valve core moves to conduct the valve cavity in a one-way mode in the direction from the first interface to the second interface, and the first water tank automatically supplies water to the second water tank;

wherein F ═ F₁+F₂+F_{Floating body}+ G, said F₁Is the resultant force of the liquid pressure on one side of the valve core adjacent to the first water tank and the acting force of the atmosphere on the valve core, and F₂Is the resultant force of the liquid pressure on one side of the valve core adjacent to the second water tank and the acting force of the gas in the second water tank on the valve core, and F_{Floating body}The component force of the buoyancy of the valve core in the motion direction of the valve core, and the component force of the gravity of the valve core in the motion direction of the valve core.

2. The water tank assembly as claimed in claim 1, wherein an inner peripheral wall of the valve chamber is formed with an annular step portion extending in a circumferential direction of the valve chamber, the valve element is located between the step portion and the first port, and the valve element cooperates with the step portion to shut off the valve chamber.

3. The water tank assembly as claimed in claim 1, wherein a plurality of limiting ribs are arranged on an inner wall of the valve cavity at intervals along a circumferential direction of the valve cavity, the valve core is positioned between the limiting ribs and the second interface, and the limiting ribs are adapted to stop against the valve core when the valve cavity is in a conducting state.

4. The water tank assembly as claimed in claim 1, wherein a guide rib is provided on an inner peripheral wall of the valve chamber, the guide rib being for guiding movement of the valve element.

5. The water tank assembly of claim 1, wherein said valve core is formed in a cylindrical, spherical or conical shape.

6. The water tank assembly of claim 1, wherein said valve core is a flexible member.

7. The water tank assembly of claim 1, wherein said valve seat comprises: the valve comprises a first valve seat and a second valve seat, wherein the first valve seat and the second valve seat are matched to limit the valve cavity, the first valve seat is provided with a first connector, and the second valve seat is provided with a second connector.

8. The water tank assembly of claim 1, wherein the first port is connected to the water outlet via a communication pipe.

9. The water tank assembly of claim 8, wherein said communication pipe is a U-shaped pipe.

10. The water tank assembly as claimed in any one of claims 1 to 9, wherein said second water tank comprises a tank body on which said water inlet and steam outlet are provided, and a heating element for heating water in said tank body to steam.

11. The cistern assembly of claim 10, wherein the top of the cistern body is provided with a vent valve.

12. The water tank assembly of claim 10, wherein said heating element is a PTC heater.

13. An air conditioning humidifier, comprising: a cistern assembly as claimed in any one of claims 10 to 12.

14. An air conditioning humidifier according to claim 13, wherein said first water tank is connected to a water purification unit, and water is filtered by said water purification unit and flows to said first water tank.

15. An air conditioner, comprising:

at least one outdoor unit;

a plurality of indoor units;

an air conditioner humidifier according to claim 13, wherein an air duct is connected between said steam outlet and said indoor unit, said air duct including a plurality of branch ducts, each of said branch ducts being connected to a corresponding said indoor unit.

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