CN217482881U - Anhydrous humidification module and air conditioner - Google Patents

Abstract

The utility model provides a no water humidification module and air conditioner relates to air conditioner technical field. The anhydrous humidification module includes: adsorb runner, runner lower cover, fan, heater, frame, mounting and buckle spare, adsorb the runner and install and cover under the runner, the fan is installed and is kept away from one side of runner lower cover at adsorbing the runner, the heater is installed on the frame, heater and frame setting are between fan and adsorption runner for the air that the heating part fan blew out, buckle spare is installed on the frame, buckle spare and the cooperation of runner lower cover, mounting fixed connection frame and runner lower cover. The buckle sets up on the frame, when the installation frame, makes buckle and runner lower wall cooperation earlier, fixes a position the frame earlier to the frame, then fixes frame and runner lower wall through the mounting, simple structure, and it is convenient to install, convenient maintenance.

Description

Anhydrous humidification module and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an anhydrous humidification module and air conditioner.

Background

The waterless humidifying module is applied to the air conditioner and is mainly used in the air conditioner, and the waterless humidifying module is mainly used for humidifying the air entering the room without adding water, so that the structure of the humidifying module is reduced, and the volume and the manufacturing cost of the whole air conditioner are reduced. Generally, an adsorption rotating wheel is provided with an adsorption material, a part of the adsorption rotating wheel has an adsorption effect to absorb moisture in air and discharge the air subjected to adsorption treatment to the outside, the other part of the adsorption rotating wheel has a desorption effect, air blown out of a fan is heated by a heater and enters the adsorption rotating wheel, hot air can absorb moisture in the adsorption material after entering the rotating wheel to achieve the humidification purpose, and the humidified air is discharged into the room. The fan that the fan blew off passes through the in-process of heater heating, has certain resistance to the heater, if the condition that breaks away from appears easily under the fixed not firm condition of heater, needs to improve the fixed effect to the heater, and most all adopt more complicated structure to fix the heater among the prior art at present, lead to the installation complicated to do not maintain well.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how to make things convenient for the maintenance.

In order to solve the above problem, the utility model provides a no water humidification module and air conditioner.

In a first aspect, an embodiment of the present invention provides an anhydrous humidification module, the anhydrous humidification module includes: adsorb runner, runner lower cover, fan, heater, frame, mounting and buckle spare, adsorb the runner and install on the runner lower cover, the fan is installed adsorb the runner and keep away from one side of runner lower cover, the heater is installed on the frame, the heater reaches the frame sets up the fan with adsorb between the runner, be used for the heating part the air that the fan blew off, buckle spare is installed on the frame, buckle spare with the cooperation of runner lower cover, mounting fixed connection the frame reaches the runner lower cover.

The buckle sets up on the frame, when the installation frame, makes buckle and runner lower wall cooperation earlier, fixes a position the frame earlier to the frame, then fixes frame and runner lower wall through the mounting, simple structure, and it is convenient to install, convenient maintenance.

In an alternative embodiment of the present invention, the outer frame includes a body and a fixing member, the fixing member is installed on the body, the fixing member is a hollow structure, and the fixing member is used for fixing the heater.

In an alternative embodiment of the present invention, the fixing member includes a plurality of fixing plates and a plurality of clamping portions, and a plurality of the fixing plates are installed on the body to form a fixing cavity, the heater is installed in the fixing cavity, and a plurality of the clamping portions are respectively installed on a plurality of the fixing plates.

The utility model discloses in the optional embodiment, the card is held the portion and is included linkage segment and direction section, the one end of linkage segment with the fixed plate is connected, the other end with the direction section is connected, the heater can for the direction section slides the heater with the direction section breaks away from under the gliding condition, the heater card go into extremely fixed intracavity.

In an alternative embodiment of the present invention, the fixed cavity is plural, the heater is plural, and the heater is plural and is arranged along a radial direction of the adsorption rotating wheel.

In an alternative embodiment of the present invention, a plurality of said fixing cavities are at least partially arranged in a staggered manner.

The utility model discloses in the optional embodiment, buckle spare includes canned paragraph and backstop section, the one end of canned paragraph with the frame is connected, the other end of canned paragraph with the backstop section is connected, the backstop section with the cooperation of runner lower cover.

In an alternative embodiment of the present invention, the outer frame is provided with a first fixing hole, the lower cover of the rotating wheel is provided with a second fixing hole, and the fixing member is matched with the first fixing hole and the second fixing hole.

In an alternative embodiment of the present invention, the outer frame is a nylon outer frame or a PPC outer frame.

In a second aspect, an embodiment of the present invention provides an air conditioner, which includes the anhydrous humidification module provided by the first aspect.

Drawings

Fig. 1 is a sectional view of a waterless humidification module according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of an outer frame and a heater of the anhydrous humidification module according to the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an outer frame of the anhydrous humidification module according to the first embodiment of the present invention.

Fig. 4 is a partial enlarged view of the anhydrous humidifying module provided by the first embodiment of the present invention at IV in fig. 3.

Fig. 5 is a partial enlarged view of the anhydrous humidifying module provided by the first embodiment of the present invention at V in fig. 3.

Fig. 6 is a schematic structural diagram of an air conditioner according to a second embodiment of the present invention.

Description of reference numerals:

100-a waterless humidifying module; 110-an adsorption wheel; 120-lower cover of runner; 130-a fan; 140-a heater; 150-outer frame; 152-a first fixing hole; 154-a body; 156-a fixing member; 157-fixing plate; 158-a catch; 1582-connecting section; 1584-guide section; 1586-guide surface; 1588-stop surface; 159-fixed chamber; 160-a clasp; 162-a fixed segment; 164-a stop section; 170-avoidance groove; 180-reinforcing ribs; 190-line slot; 10-an air conditioner; 11-main body.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

Referring to fig. 1 and 2, the embodiment provides a waterless humidifying module 100, and the waterless humidifying module 100 fixes the heater 140 through the outer frame 150, so that the structure is simple, the installation is more convenient, and the maintenance is convenient.

The anhydrous humidification module 100 is applied to the air conditioner 10 and is mainly used in the air conditioner 10, and the anhydrous humidification module 100 is mainly used for humidifying air entering a room without adding water, so that the structure of the humidification module is reduced, and the volume and the manufacturing cost of the whole air conditioner 10 are reduced. Generally, the adsorption rotor 110 is provided with an adsorption material, a part of the adsorption rotor 110 has an adsorption function to absorb moisture in the air and discharge the air after the adsorption treatment to the outside, the other part of the adsorption rotor 110 has a desorption function, the air blown out from the fan 130 is heated by the heater 140 and enters the adsorption rotor 110, and the hot air can absorb moisture in the adsorption material after entering the rotor to achieve the humidification purpose and discharge the humidified air into the room. In the process that the fan 130 blown out by the fan 130 is heated by the heater 140, the fan 130 has a certain resistance to the heater 140, and if the heater 140 is easily separated from the heater 140 in a loose state, the fixing effect of the heater 140 needs to be improved. The anhydrous humidification module 100 provided by the embodiment fixes the heater 140 through the outer frame 150, and has the advantages of simple structure, more convenient installation and convenient maintenance.

In the present embodiment, the anhydrous humidification module 100 includes: adsorbing runner 110, runner lower cover 120, fan 130, heater 140, frame 150, mounting 156 and buckle 160, adsorbing runner 110 is installed on runner lower cover 120, fan 130 is installed in the one side of adsorbing runner 110 far away from runner lower cover 120, heater 140 is installed on frame 150, heater 140 and frame 150 set up between fan 130 and adsorbing runner 110, the air for heating part fan 130 blew out, buckle 160 is installed on frame 150, buckle 160 and runner lower cover 120 cooperate, mounting 156 fixed connection frame 150 and runner lower cover 120.

In this embodiment, the fastening member 160 is disposed on the outer frame 150, and when the outer frame 150 is installed, the fastening member 160 is engaged with the lower disc of the wheel, the outer frame 150 is positioned first, and then the outer frame 150 and the lower disc of the wheel are fixed by the fixing member 156.

In this embodiment, in a state where the anhydrous humidification module 100 is operating, the fan 130 is disposed above the heater 140, the adsorption rotor 110 and the rotor lower cover 120 are disposed below the heater 140, a part of the air blown by the fan 130 directly passes through the adsorption rotor 110, the adsorbent on the adsorption rotor 110 adsorbs moisture in the air, and the air after adsorption is discharged to the outside. And the other part of the wind passes through the adsorption rotating wheel 110 with the adsorption material after being heated by the heater 140, the heated air can desorb the moisture adsorbed on the adsorption material, so that the purpose of humidifying the air is achieved, and the humidified air enters the room, so that the purpose of humidifying the indoor air is achieved.

In this embodiment, the heater 140 needs to rapidly make the air reach a higher temperature, so the temperature of the heater 140 is higher, and the outer frame 150 mainly fixes the heater 140, so the outer frame 150 needs to be high temperature resistant, the outer frame 150 is made of a high temperature resistant material, specifically, the outer frame 150 is made of a nylon material or a PPC material, that is, the outer frame 150 is the nylon outer frame 150 or the PPC outer frame 150, the nylon material and the PPC material can work at a high temperature for a long time, and the outer frame is firm and reliable, small in deformation and good in heat dissipation, and the overall surface temperature of the outer frame 150 can reach more than 300 degrees and far exceeds the surface limit temperature of the heater 140 by 250 degrees.

Wherein, the PPC material is polymethyl ethylene carbonate.

Meanwhile, the outer frame 150 is a PPC outer frame 150 or a nylon outer frame 150, so that direct contact between metal and the heater 140 is avoided, the insulation property is good, the electrical safety is high, and the large-area popularization can be realized.

Referring to fig. 3 and 4, in the present embodiment, the locking element 160 includes a fixing section 162 and a stopping section 164, one end of the fixing section 162 is connected to the outer frame 150, the other end of the fixing section 162 is connected to the stopping section 164, and the stopping section 164 is matched with the lower cover 120 of the wheel.

In the embodiment, the fixing section 162 connects the outer frame 150 and the stopping section 164, so that the outer frame 150 and the stopping section 164 are spaced apart from each other, and the stopping section 164 extends into the structure of the lower cover 120 of the wheel and is held in the lower cover 120 of the wheel.

Similarly, the body 154 is further provided with an avoiding groove 170, the lower cover 120 of the wheel is provided with a protrusion, the avoiding groove 170 is matched with the protrusion to position the body 154, and the outer frame 150 is fixed on the lower cover 120 of the wheel through the fastener 160 on the body 154.

In this embodiment, the outer frame 150 is provided with a first fixing hole 152, the lower cover 120 of the wheel is provided with a second fixing hole, and the fixing member 156 is matched with the first fixing hole 152 and the second fixing hole.

The fixing element 156 is a fastening screw, and after the fastening element 160 is engaged with the lower cover 120, the fixing element 156 extends into the first fixing hole 152 and the second fixing hole, and fixes the outer frame 150 and the lower cover 120 via the screw. The outer frame 150 and the lower cover 120 of the rotary wheel can be fixed by fastening screws, and modular installation can be realized, thereby facilitating after-sale maintenance.

In this embodiment, the outer frame 150 includes a body 154 and a fixing member 156, the fixing member 156 is mounted on the body 154, the fixing member 156 is a hollow structure, and the fixing member 156 is used for fixing the heater 140.

In this embodiment, the fixing member 156 has a hollow structure for mounting the heater 140, and the hollow fixing member 156 enables the air blown by the fan 130 to flow through the heater 140 to the adsorbing rotor 110 having the adsorbing material, and desorbs the moisture attached to the adsorbing material, thereby achieving the purpose of humidification.

In the embodiment, the fixing member 156 includes a plurality of fixing plates 157 and a plurality of retainers 158, the plurality of fixing plates 157 are mounted on the body 154 and form a fixing cavity 159, the heater 140 is mounted in the fixing cavity 159, and the plurality of retainers 158 are respectively mounted on the plurality of fixing plates 157.

In the present embodiment, the plurality of fixing plates 157 form a fixing cavity 159, and the heater 140 slides relative to the retainer 158 during the installation of the heater 140, and the retainer 158 retains the heater 140 in the fixing cavity 159 after the sliding is completed.

Here, for convenience of description, an end of the fixing cavity 159 near the catch 158 is defined as a top, and an end far from the catch 158 is defined as a bottom. The fixing member 156 is a hollow structure, that is, the fixing cavity 159 is a middle frame structure, and the opening at the bottom of the fixing cavity 159 is smaller than the external dimension of the heater 140. The heater 140 is restrained by the bottom of the fixing chamber 159 in a direction away from the catch 158, and the heater 140 is restrained by the catch 158 in a direction close to the catch 158, thereby fixing the heater 140 in the fixing chamber 159.

In the present embodiment, the projection of the heater 140 on the bottom of the fixing cavity 159 is rectangular, the opening on the bottom of the fixing cavity 159 is also rectangular, the width of the bottom opening is smaller than the width of the heater 140, and the length of the bottom opening is smaller than the length of the heater 140, which means that the external dimension of the bottom opening is smaller than the external dimension of the heater 140, thereby ensuring that the heater 140 does not fall out of the opening.

In the present embodiment, the plurality of retainers 158 are provided at intervals on the plurality of fixing plates 157, and the plurality of retainers 158 retain the heater 140 from the periphery of the heater 140 under the condition that the heater 140 is installed in the fixing chamber 159, thereby fixing the heater 140 at the top of the fixing chamber 159.

Referring to fig. 5, in the embodiment, the holding portion 158 includes a connecting section 1582 and a guiding section 1584, one end of the connecting section 1582 is connected to the fixing plate 157, and the other end is connected to the guiding section 1584, so that the heater 140 can slide relative to the guiding section 1584, and the heater 140 is clamped into the fixing cavity 159 under the condition that the heater 140 is separated from the guiding section 1584.

The connecting section 1582 is mainly used for connecting the fixing plate 157 and the guide section 1584, in the process of installing the heater 140, the heater 140 slides relative to the guide section 1584 from the end, far away from the connecting section 1582, of the guide section 1584 to the end, close to the connecting section 1582, of the guide section 1584, and under the condition that the heater 140 is separated from the sliding of the guide section 1584, the heater 140 is clamped between the bottom of the fixing cavity 159 and the clamping section, so that the heater 140 is fixed.

In this embodiment, the guide section 1584 includes a guide surface 1586 and a stop surface 1588, the guide surface 1586 is disposed obliquely with respect to the connection section 1582, and the stop surface 1588 is disposed below the guide section 1584 and connected to the connection section 1582. During the process of installing the heater 140, the heater 140 firstly abuts against the guide surface 1586 and slides relative to the guide surface 1586, and under the condition that the heater 140 is separated from the guide surface 1586, the heater 140 is clamped between the guide section 1584 and the bottom of the fixing cavity 159 and abuts against the stop surface 1588 of the guide section 1584, so that the heater 140 is fixed.

It is easily understood that the guide section 1584 is convexly provided on the connecting section 1582, and the stop surface 1588 is provided at a portion of the guide section 1584 that protrudes with respect to the connecting section 1582, and the stop surface 1588 stops the heater 140 in a direction of a top of the fixing chamber 159 under the condition that the heater 140 is fixed to the fixing chamber 159.

It should be noted that, except for the scheme that the guide section 1584 is convexly arranged on the connecting section 1582, the guide section 1584 may be flush with the connecting section 1582, that is, the guide section 1584 has no stop surface 1588, the guide section 1584 has only a guide surface 1586, and the guide section 1584 can only play a role in guiding and cannot play a role in limiting the heater 140. Since the guide segments 1584 having only the guide surfaces 1586 do not have a limiting function, the number of the guide segments 1584 having only the guide surfaces 1586 is small.

In the present embodiment, the fixing chamber 159 is plural, the heater 140 is plural, and the plural heaters 140 are arranged in the radial direction of the adsorption rotor 110.

In this embodiment, the plurality of heaters 140 are arranged along the radial direction of the adsorption rotor 110, the heating area can cover the entire fan-shaped desorption region of the rotor, the larger the heating area of the air blown out by the blower 130 is, the better the desorption effect on the moisture attached to the adsorption material is, the larger the utilization area of the adsorption rotor 110 is, and the humidification efficiency of the adsorption rotor 110 is improved.

Preferably, in the present embodiment, there are two heaters 140, there are two fixing chambers 159, the two heaters 140 are respectively disposed in the two fixing chambers 159, and the two heaters 140 are disposed side by side in the radial direction of the adsorption rotor 110.

In the present embodiment, the plurality of heaters 140 are at least partially disposed in offset positions.

In this embodiment, the heaters 140 are disposed with a part thereof being shifted from each other, so that the heating area of the air blown from the fan 130 can be increased, and the larger the heating area of the air blown from the fan 130 is, the better the desorption effect of the moisture attached to the adsorbent is, the larger the utilization area of the adsorbent rotor 110 is, and the humidification efficiency of the adsorbent rotor 110 is improved.

In the present embodiment, the two adjacent fixing cavities 159 are communicated with each other, and the gap between the two adjacent heaters 140 prevents a part of air from flowing out of the two adjacent heaters 140 without being heated, so that the heating area of the air blown by the fan 130 is increased.

In this embodiment, the anhydrous humidifying module 100 further includes a reinforcing rib 180, one end of the reinforcing rib 180 is connected to the body 154, and the other end is connected to the fixing plate 157, so as to enhance the strength of the fixing plate 157 and improve the fixing effect of the fixing plate 157 to the heater 140.

Similarly, the number of the reinforcing ribs 180 is plural, and one fixing plate 157 is connected to the body 154 through at least one reinforcing rib 180.

Under the premise that the strength of the reinforcing ribs 180 is met, the height of the surfaces of the reinforcing ribs 180 is lower than that of the upper surface of the heater 140, so that cold air can penetrate through the heater 140 from bottom to top and then can be diffused in the adsorption rotating wheel 110, and the effective desorption area of the adsorption rotating wheel 110 is increased.

In this embodiment, the body 154 is further provided with a wire passing groove 190, and the wire passing groove 190 is used for a connecting wire of the heater 140 to pass through, so as to facilitate the routing of the heater 140.

In summary, in the anhydrous humidification module 100 provided in this embodiment, the fastening element 160 is disposed on the outer frame 150, and when the outer frame 150 is installed, the fastening element 160 is first engaged with the lower disc of the rotation wheel, the outer frame 150 is first positioned, and then the outer frame 150 and the lower disc of the rotation wheel are fixed by the fixing element 156.

Second embodiment

Referring to fig. 6, the present embodiment provides an air conditioner 10, and the air conditioner 10 provided in the present embodiment has a simple structure, is convenient to install, and is convenient to maintain.

For the sake of brief description, where this embodiment is not mentioned, reference may be made to the first embodiment.

In this embodiment, the air conditioner 10 includes a main body 11 and the waterless humidification module 100 provided in the first embodiment, and the waterless humidification module 100 is mounted on the main body 11. The main body 11 comprises components such as a heat exchanger and an air outlet structure which are used for achieving a basic temperature adjusting function, and the water-free humidifying device is mainly used for humidifying the indoor environment. The non-water humidifying module 100 can adsorb moisture in outdoor air, humidify the outdoor air entering the room through the moisture, and realize a non-water humidifying function without manual water addition.

The air conditioner 10 may be a wall-mounted air conditioner indoor unit, a cabinet air conditioner, or other type of air conditioning system, among others.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. A waterless humidification module, the waterless humidification module (100) comprising: the adsorption rotating wheel (110), the rotating wheel lower cover (120), the fan (130), the heater (140), the outer frame (150), the fixing piece (156) and the clamping piece (160), wherein the adsorption rotating wheel (110) is installed on the rotating wheel lower cover (120), the fan (130) is installed on one side, far away from the rotating wheel lower cover (120), of the adsorption rotating wheel (110), the heater (140) is installed on the outer frame (150), the heater (140) and the outer frame (150) are arranged between the fan (130) and the adsorption rotating wheel (110) and used for heating air blown out by the fan (130), the clamping piece (160) is installed on the outer frame (150), the clamping piece (160) is matched with the rotating wheel lower cover (120), and the fixing piece (156) is fixedly connected with the outer frame (150) and the rotating wheel lower cover (120).

2. The anhydrous humidifying module according to claim 1, wherein the outer frame (150) comprises a body (154) and a fixing member (156), the fixing member (156) is mounted on the body (154), the fixing member (156) is a hollow structure, and the fixing member (156) is used for fixing the heater (140).

3. The anhydrous humidification module of claim 2, wherein the fixing member (156) comprises a plurality of fixing plates (157) and a plurality of catches (158), the plurality of fixing plates (157) are mounted on the body (154) and form a fixing cavity (159), the heater (140) is mounted in the fixing cavity (159), and the plurality of catches (158) are mounted on the plurality of fixing plates (157), respectively.

4. The anhydrous humidification module according to claim 3, wherein the retainer (158) comprises a connecting section (1582) and a guiding section (1584), one end of the connecting section (1582) is connected with the fixing plate (157) and the other end is connected with the guiding section (1584), the heater (140) is capable of sliding relative to the guiding section (1584), and the heater (140) is snapped into the fixing cavity (159) under the condition that the heater (140) is not slid from the guiding section (1584).

5. The anhydrous humidification module according to claim 3, wherein the fixed chamber (159) is plural, the heater (140) is plural, and the plural heaters (140) are arranged in a radial direction of the sorption rotor (110).

6. The anhydrous humidification module of claim 5, wherein a plurality of the heaters (140) are at least partially offset.

7. The anhydrous humidification module according to claim 1, wherein the fastener (160) comprises a fixing section (162) and a stopping section (164), one end of the fixing section (162) is connected to the outer frame (150), the other end of the fixing section (162) is connected to the stopping section (164), and the stopping section (164) is engaged with the lower cover (120) of the rotating wheel.

8. The anhydrous humidifying module according to claim 1, wherein the outer frame (150) is provided with a first fixing hole (152), the lower cover (120) of the wheel is provided with a second fixing hole, and the fixing member (156) is engaged with the first fixing hole (152) and the second fixing hole.

9. The anhydrous humidification module of claim 1, wherein the outer frame (150) is a nylon outer frame (150) or a PPC outer frame (150).

10. An air conditioner, characterized in that it comprises a waterless humidification module (100) according to any one of claims 1-9.

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