CN111412576A - Control method of air conditioner, air guide door and air conditioner - Google Patents

Abstract

The invention provides a control method of an air conditioner, an air guide door and the air conditioner, wherein the air conditioner comprises the air guide door, the air guide door comprises an air guide door body and a high water absorption resin layer, the high water absorption resin layer is at least arranged on the upper surface of the air guide door body, the control method comprises the following steps of determining whether the air guide door is closed or not according to the relation between the weight change △ m of the high water absorption resin layer and a preset weight value △ m1 after the air conditioner is finished, controlling the air guide door to be continuously opened when the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1, and controlling the air guide door to be closed when the relation between the weight change △ m and the preset weight value △ m1 is △ m not more than △ m 1.

Description

Control method of air conditioner, air guide door and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a control method of an air conditioner, an air guide door and the air conditioner.

Background

The air conditioner is at the in-process of refrigeration mode operation, and the phenomenon of comdenstion water often can appear on the wind-guiding door position of air conditioner air outlet department, and when the comdenstion water drop was gathered more and more, because the relation of gravity, the drop will drip, and serious influence user's use is experienced.

In the prior art, in order to solve the problem of the dropping of condensed water on the air guide door of the air conditioner, the method comprises the steps of additionally installing an electric heating sheet on the air guide door, or arranging a groove on the air guide door, and coating a material coating on the inner surface of the groove.

The electric heating sheet is additionally arranged on the air guide door, so that the temperature of the air guide door can be raised through heating, the evaporation of condensed water on the air guide door is promoted, the condensed water is prevented from being collected on the air guide door, and the occurrence of the dripping of the condensed water is avoided; however, this method has the following disadvantages:

1) the use of the electric heating sheet can improve the air outlet temperature of the air outlet from the air outlet, not only bring bad use experience to users, but also increase the energy consumption of the air conditioner;

2) install the electric heating piece additional in air guide door department, because probably there is the comdenstion water on the air guide door and condenses, so have the potential safety hazard.

In addition, the mode that the air guide door is provided with the groove and the inner surface of the groove is coated with the material coating is adopted, and the condensed water is prevented from dripping mainly under the combined action of the groove and the material coating; however, this method has the following disadvantages:

1) the groove is required to be arranged on the surface of the air guide door, so that the processing procedures of the air guide door are increased, and the processing time of the air guide door is increased;

2) the strength of the damper door is reduced due to the presence of the groove.

Disclosure of Invention

In order to solve the problem that condensed water on the air guide door of the air conditioner drips, the invention provides a control method of the air conditioner, the air conditioner comprises an air guide door, the air guide door comprises an air guide door body and a high water absorption resin layer, and the high water absorption resin layer is at least arranged on the upper surface of the air guide door body;

the control method comprises the following steps:

after the air conditioner is operated, determining whether the air guide door is closed or not according to the relation between the weight change △ m of the super absorbent resin layer and a preset weight value △ m 1;

when the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1, controlling the air guide door to continue to open;

and when the relation between the weight change △ m and the preset weight value △ m1 is that △ m is not more than △ m1, controlling the air guide door to be closed.

The control method of the invention can not only avoid the dropping of the condensed water, but also be beneficial to the reutilization of the high water absorption resin layer; in the process of volatilizing the water absorbed by the super absorbent resin layer, the indoor humidity can be further increased, and the use comfort of a user is improved; in addition, because the super absorbent resin layer is dry, the breeding of harmful bacteria such as bacteria can be avoided because the super absorbent resin layer is in a humid environment for a long time.

Optionally, when the relation between the variation △ m and the preset weight value △ m1 is △ m > △ m1, the control method further comprises the following steps:

re-determining the relationship between the weight change △ m and the preset weight value △ m 1.

After the air conditioner is operated, judging that the air guide door is in a continuous opening state, judging the relation between the weight change △ m and the preset weight value △ m1 again after a period of time, and effectively judging the state of the high water absorption resin layer to ensure that the high water absorption resin layer can reach a dry state, wherein the air guide door is controlled to be closed in the state.

Optionally, the weight change △ m is a difference between the weight m of the air guiding door body and the super absorbent resin layer after the super absorbent resin layer absorbs condensed water and an initial weight value m0 of the air guiding door body and the super absorbent resin layer.

This kind of mode, after absorbing the comdenstion water through the super absorbent resin layer, the weight m of wind-guiding door body and super absorbent resin layer calculates with the difference of wind-guiding door body and super absorbent resin layer's initial weight value m0, can realize the effective judgement of super absorbent resin layer absorption comdenstion water state, and then the realization is to the control of wind-guiding hole open and close the state.

Optionally, the running time t of the air conditioner and the preset time t are used_{Preset of}Determining whether the relationship between the weight change △ m and the preset weight value △ m1 is judged after the operation of the air conditioner is finished;

when the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is t>t_{Preset of}When the operation of the air conditioner is finished, judging the relation between the weight change △ m and the preset weight value △ m 1;

when the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is less than or equal to t_{Preset of}And when the operation of the air conditioner is finished, controlling the air guide door to be closed.

In this way, the running time t and the preset time t of the air conditioner are used_{Preset of}And after the operation of the air conditioner is finished, whether the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1 is judged is further determined, so that the step of judging the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1 after the operation of the air conditioner is finished can be avoided under the condition that the startup operation time of the air conditioner is short.

The invention also provides the air guide door of the air conditioner, which comprises an air guide door body and the high water absorption resin layer, wherein the high water absorption resin layer is at least arranged on the upper surface of the air guide door body.

According to the air guide door, the super absorbent resin layer is added on the basis of the existing air guide door, and particularly, the super absorbent resin layer is at least arranged on the upper surface of the air guide door body, so that when an air conditioner operates in a refrigeration mode, even if condensate water is generated on the air guide door, the condensate water can be absorbed through the super absorbent resin layer, and the problem of condensate water dripping cannot occur; in addition, the contact area of the super absorbent resin layer and air is large, and moisture absorbed by the super absorbent resin can be slowly evaporated in dry air, so that the humidity of indoor air is adjusted to a certain extent, and better use experience is brought to users; and ensuring the dryness of the super absorbent resin layer so that the super absorbent resin layer can be reused.

Optionally, the thickness h of the super absorbent resin layer has a value range of: h is more than or equal to 1mm and less than or equal to 3 mm.

According to the structure, the super absorbent resin layer is very thin, the value range of the thickness h is more than or equal to 1mm and less than or equal to 3mm, preferably 2mm, the condensed water can be prevented from dripping, the use of an air conditioner indoor unit cannot be influenced, and the blowing-out of cold air of an air conditioner, the swinging of an air guide door and the like cannot be influenced.

Optionally, the air guide door comprises a weight detection structure, and the weight detection structure is arranged on the air guide door body.

According to the structure, the weight change can occur in the process of absorbing condensed water by the high-water-absorption resin layer, so that the weight change of the air guide door can be detected through the arrangement of the weight detection structure, and data support is provided for the control of the air guide door.

Optionally, the weight detection structure is a strain gauge pressure sensor.

In the structure, the weight detection structure is specifically a strain gauge pressure sensor, and the strain gauge pressure sensor converts the resistance value change thereof into a pressure numerical value by using an elastic sensitive element; the strain gauge pressure sensor is low in price and high in economical efficiency.

Optionally, the air guide door comprises a rotating shaft, the rotating shaft is arranged on two sides of the air guide door body, the air guide door body is in running fit with the indoor unit of the air conditioner through the rotating shaft, and the strain gauge pressure sensor is arranged on the rotating shaft.

The structure avoids the influence of the swing of the air guide door body on the wiring of the strain gauge pressure sensor, and avoids the influence of the angle change of the air guide door body on the accuracy of the measurement data of the strain gauge pressure sensor.

Optionally, the strain gauge pressure sensor is arranged at a position where the rotating shaft is far away from the air guide door body.

By the structure, the damage of the swing of the air guide door body to the strain gauge pressure sensor is avoided.

The invention also provides an air conditioner, which executes the control method and/or comprises the air guide door.

Drawings

Fig. 1 is a schematic structural view of an air guide door according to the present invention;

FIG. 2 is a schematic sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

FIG. 4 is a first flowchart of a control method of an air conditioner according to the present invention;

fig. 5 is a second flowchart of a control method of an air conditioner according to the present invention.

Description of reference numerals:

10-a wind guide door; 100-air guide door body; 200-a super absorbent resin layer; 300-a weight detection structure; 400-rotating shaft.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Example 1

The invention provides an air guide door 10 of an air conditioner, as shown in one of figures 1 to 3, the air guide door 10 comprises an air guide door body 100 and a high water absorption resin layer 200, wherein the high water absorption resin layer 200 is at least arranged on the upper surface of the air guide door body 100.

According to the air guide door 10, on the basis of the existing air guide door 10, the high water absorption resin layer 200 is added, specifically, the high water absorption resin layer 200 is at least arranged on the upper surface of the air guide door body 100, so that when an air conditioner runs in a refrigeration mode, even if condensate water is generated on the air guide door 10, the condensate water can be absorbed through the high water absorption resin layer 200, and the problem of condensate water dripping can not occur; in addition, because the contact area of the super absorbent resin layer 200 and the air is large, and the moisture absorbed by the super absorbent resin can be slowly evaporated in the dry air, the humidity of the indoor air is adjusted to a certain extent, and better use experience is brought to users; and the dryness of the super absorbent resin layer 200 is ensured so that the super absorbent resin layer 200 can be reused.

Among them, the super absorbent resin layer 200 preferably completely covers the upper surface of the air guide door body 100.

Super Absorbent Polymer SAP is a new functional Polymer material. The synthetic resin has hydrophilic groups, can absorb a large amount of water and swell, can keep the water not to flow out, has strong water absorption, water locking and water retention functions, such as starch grafted acrylate, grafted acrylamide, high-substitution-degree crosslinked carboxymethyl cellulose, crosslinked carboxymethyl cellulose grafted acrylamide, crosslinked hydroxyethyl cellulose grafted acrylamide polymer and the like, can generally absorb the water which is more than 100 times of the volume of the resin, and has the highest water absorption rate of more than 1000 times.

Compared with the scheme of preventing condensed water from dripping in the prior art, the air guide door 10 has the following advantages:

the structure of the air guide door 10 of the invention has higher safety because no charged part is contained in the process of preventing condensed water from dripping; the air outlet temperature of the air outlet from the air outlet cannot be increased, so that the use experience of a user cannot be influenced;

the super absorbent resin in the super absorbent resin layer 200 is low in price and high in economical efficiency; the super absorbent resin can absorb water and release water for multiple times, and has long service life; and super absorbent resin, which is used in large quantity at present, has mature process, no toxicity, no harm and wide source;

the present invention does not modify the existing structure of the air guide door body 100, so that the processing time of the air guide door 10 is not increased, and the strength of the air guide door 10 is not affected.

In the above, the upper surface of the air guide door body 100 is a side surface of the air guide door body 100 close to the inside of the air conditioner, and when the air guide door 10 is in a use state, the upper surface is located above, and when the air guide door 10 is in a closed state, the upper surface is invisible.

In the present embodiment, the thickness h of the super absorbent resin layer 200 has a value range of: h is more than or equal to 1mm and less than or equal to 3 mm.

By adopting the structure, the super absorbent resin layer 200 is very thin, the thickness h is within the range of 1mm to h being less than or equal to 3mm, preferably 2mm, the condensed water can be prevented from dripping, the use of an air conditioner indoor unit cannot be influenced, and the blowing-out of cold air of an air conditioner, the swinging of the air guide door 10 and the like cannot be influenced.

The application of the super absorbent resin to the air guide door 10 has feasibility, and the specific analysis is as follows:

taking 1.5 on-hook air conditioners as an example, the size of the air guide door 10 is about 80cm long and about 9cm wide. Since the super absorbent resin layer 200 completely covers the entire upper surface of the air guide door body 100, the volume V, length, width, and thickness of the super absorbent resin layer 200 is 80, 9, 0.2, 144cm 3.

Because the super absorbent resin can generally absorb more than 100 times of the volume of the resin, the maximum water absorption can reach more than 1000 times, and 100 times is taken as an example for calculation. Then the theoretical absorbent volume of the superabsorbent resin layer 200:

V_{water (W)}＝V*100＝144*100＝14400cm³。

Therefore, the theoretical water absorption quality of the super absorbent resin is as follows

m＝V_{Water (W)}*ρ_{Water (W)}＝14400*1＝14400g＝14.4kg。

Because the condensed water drops on the upper surface of the air guide door body 100 are few and far smaller than the theoretical water absorption mass of the super absorbent resin of 14.4kg, the super absorbent resin layer 200 can completely absorb the condensed water which can be condensed on the air guide door 10, so as to achieve the purpose of preventing the condensed water of the air conditioner from dropping.

In the present embodiment, the air guiding door 10 includes the weight detecting structure 300, and the weight detecting structure 300 is provided on the air guiding door main body 100.

In this structure, since the weight of the super absorbent resin layer 200 changes during the process of absorbing the condensed water, the weight detection structure 300 can detect the weight change of the air guide door 10 and provide data support for the control of the air guide door 10.

In the present embodiment, the weight detecting structure 300 is a strain gauge pressure sensor.

In this structure, the weight detection structure 300 is specifically a strain gauge pressure sensor, which converts the resistance value change thereof into a pressure value by using an elastic sensitive element; the strain gauge pressure sensor is low in price and high in economical efficiency.

In the present embodiment, the air guide door 10 includes a rotating shaft 400, the rotating shaft 400 is provided on both sides of the air guide door body 100, the air guide door body 100 is rotatably engaged with an indoor unit of an air conditioner via the rotating shaft 400, and the strain gauge pressure sensor is provided on the rotating shaft 400.

By the structure, the influence of the swing of the air guide door body 100 on the wiring of the strain gauge pressure sensor is avoided, and the influence of the angle change of the air guide door body 100 on the accuracy of the measurement data of the strain gauge pressure sensor is avoided.

In the present embodiment, the strain gauge pressure sensor is provided at a position where the rotation shaft 400 is distant from the air guide door body 100.

With the structure, the damage of the swing of the air guide door body 100 to the strain gauge pressure sensor is avoided.

Example 2

The present invention provides an embodiment of a method for controlling an air conditioner based on the air guiding door 10 in embodiment 1, it should be noted that the steps shown in the flowchart of the drawings may be executed in a computer system such as a set of computer executable instructions, and although a logical order is shown in the flowchart, in some cases, the steps shown or described may be executed in an order different from that shown or described here.

As shown in fig. 4, the control method includes the steps of:

the air conditioner operates in a cooling mode;

s1, finishing the operation of the air conditioner;

s2, determining whether the air guide door is closed or not according to the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1, namely, after the operation of the air conditioner is finished, judging whether the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1 or not;

s3, when the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1, controlling the air guide door to continue to open;

s4, when the relation between the weight change △ m and the preset weight value △ m1 is that △ m is less than or equal to △ m1, controlling the air guide door to close.

According to the invention, after the air conditioner stops running, the air guide door is not closed together, but whether the air guide door is closed or not is determined according to the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1, and the specific weight change △ m of the super absorbent resin layer is that the super absorbent resin layer absorbs the mass of condensed water in the running process of the air conditioner;

when the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1, the air guide door needs to be opened to facilitate the volatilization of water on the super absorbent resin layer, and the super absorbent resin layer is dried to facilitate the next continuous use, so that the air guide door is controlled to be continuously opened under the condition;

when the relation between the weight change △ m and the preset weight value △ m1 is that △ m is not more than △ m1, the super absorbent resin layer is in a relatively dry state, at the moment, the air guide door is closed, the next use of the super absorbent resin layer is not influenced, and therefore, the air guide door is controlled to be closed under the condition;

by adopting the mode, the dropping of the condensed water can be avoided, and the recycling of the high water absorption resin layer can be facilitated; in the process of volatilizing the water absorbed by the super absorbent resin layer, the indoor humidity can be further increased, and the use comfort of a user is improved; in addition, because the super absorbent resin layer is dry, the breeding of harmful bacteria such as bacteria can be avoided because the super absorbent resin layer is in a humid environment for a long time.

In the embodiment, when the relation between the change △ m and the preset weight value △ m1 is △ m > △ m1, the control method further comprises the following steps after the step:

the relationship between the weight change △ m and the preset weight value △ m1 is determined again, i.e., the process returns to step S2.

After the air conditioner is operated, judging that the air guide door is in a continuous opening state, judging the relation between the weight change △ m and the preset weight value △ m1 again after a period of time, and effectively judging the state of the high water absorption resin layer to ensure that the high water absorption resin layer can reach a dry state, wherein the air guide door is controlled to be closed in the state.

In the present embodiment, the weight change △ m is the difference between the weight m of the air guide door body and the super absorbent resin layer after the super absorbent resin layer absorbs the condensed water and the initial weight value m0 of the air guide door body and the super absorbent resin layer.

This kind of mode, after absorbing the comdenstion water through the super absorbent resin layer, the weight m of wind-guiding door body and super absorbent resin layer calculates with the difference of wind-guiding door body and super absorbent resin layer's initial weight value m0, can realize the effective judgement of super absorbent resin layer absorption comdenstion water state, and then the realization is to the control of wind-guiding hole open and close the state.

The weight m of the air guide door body and the super absorbent resin layer can be detected in real time or at intervals; the initial weight value m0 of wind guide door body and super absorbent resin layer can detect for after the air conditioner is started each time, also can set up when the air conditioner is out of the factory state in advance.

In the present embodiment, as shown in fig. 5, the control method further includes the steps of:

s5, according to the running time t and the preset time t of the air conditioner_{Preset of}Determining whether the relationship between the weight change △ m and the preset weight value △ m1 is judged after the air conditioner operation is finished, namely, judging the operation time t and the preset time t of the air conditioner before the air conditioner operation is finished_{Preset of}Whether or not the relationship of (1): t is t>t_{Preset of}；

When the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is t>t_{Preset of}When the operation of the air conditioner is finished, judging the relationship between the weight change △ m and the preset weight value △ m1, namely entering step S1;

s6, when the operation time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is less than or equal to t_{Preset of}And when the air conditioner is finished to operate, controlling the air guide door to close.

In this way, the running time t and the preset time t of the air conditioner are used_{Preset of}And after the operation of the air conditioner is finished, whether the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1 is judged is further determined, so that the step of judging the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1 after the operation of the air conditioner is finished can be avoided under the condition that the startup operation time of the air conditioner is short.

Specifically, when the operation time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is less than or equal to t_{Preset of}When, the operation of the air conditioner is explainedThe time is short, no condensed water exists, and therefore after the operation of the air conditioner is finished, the air guide door is controlled to be closed, and the relation between the weight change △ m of the super absorbent resin layer and the preset weight value △ m1 is not judged;

when the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is t>t_{Preset of}When the air-conditioning operation is finished, the relationship between the weight change △ m and the preset weight value △ m1 is judged to further judge the drying state of the super absorbent resin layer.

Example 3

The invention provides an air conditioner, which executes the control method and/or comprises the air guide door. Executing the control method of any one of the above.

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

Claims (11)

1. A control method of an air conditioner is characterized in that:

the air conditioner comprises an air guide door (10), wherein the air guide door (10) comprises an air guide door body (100) and a high-water-absorption resin layer (200), and the high-water-absorption resin layer (200) is at least arranged on the upper surface of the air guide door body (100);

the control method comprises the following steps:

after the air conditioner is operated, determining whether the air guide door is closed or not according to the relation between the weight change △ m of the super absorbent resin layer and a preset weight value △ m 1;

when the relation between the weight change △ m and the preset weight value △ m1 is △ m > △ m1, controlling the air guide door to continue to open;

and when the relation between the weight change △ m and the preset weight value △ m1 is that △ m is not more than △ m1, controlling the air guide door to be closed.

2. The control method as claimed in claim 1, wherein after the step of controlling the air guide door to be continuously opened when the weight variation △ m is in relation to the preset weight value △ m1, which is △ m > △ m1, the control method further comprises the steps of:

re-determining the relationship between the weight change △ m and the preset weight value △ m 1.

3. The control method according to claim 1, wherein the weight change △ m is a difference between the weight m of the air guide door body and the super absorbent resin layer after the super absorbent resin layer absorbs condensed water and an initial weight value m0 of the air guide door body and the super absorbent resin layer.

4. The control method according to claim 1, characterized in that: the control method further comprises the following steps:

according to the running time t and the preset time t of the air conditioner_{Preset of}Determining whether the relationship between the weight change △ m and the preset weight value △ m1 is judged after the operation of the air conditioner is finished;

when the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is t>t_{Preset of}When the operation of the air conditioner is finished, judging the relation between the weight change △ m and the preset weight value △ m 1;

when the running time t is equal to the preset time t_{Preset of}The relationship of (1) is: t is less than or equal to t_{Preset of}And when the operation of the air conditioner is finished, controlling the air guide door to be closed.

5. The utility model provides a wind guide door of air conditioner which characterized in that: air guide door (10) are including air guide door body (100) and super absorbent resin layer (200), super absorbent resin layer (200) are located at least the upper surface of air guide door body (100).

6. The air guide door of claim 5, wherein: the thickness h of the super absorbent resin layer (200) has the following value range: h is more than or equal to 1mm and less than or equal to 3 mm.

7. The air guide door of claim 5, wherein: the air guide door (10) comprises a weight detection structure (300), and the weight detection structure (300) is arranged on the air guide door body (100).

8. The air guide door of claim 7, wherein: the weight detection structure (300) is a strain gauge pressure sensor.

9. The air guide door of claim 8, wherein: air guide door (10) are including pivot (400), pivot (400) are located the both sides of air guide door body (100), air guide door body (100) pass through pivot (400) with the indoor set normal running fit of air conditioner, foil gage pressure sensor locates on pivot (400).

10. The air guide door according to claim 9, wherein: the strain gauge pressure sensor is arranged on the position, far away from the air guide door body (100), of the rotating shaft (400).

11. An air conditioner, characterized in that: -performing the control method of any of claims 1 to 4, and/or-comprising the air guide door (10) of any of claims 5 to 10.

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