CN110207356B - control method and device for air conditioner condensate water level - Google Patents

Abstract

the invention provides a method for controlling the water level of condensed water of an air conditioner, which comprises the following steps: the method comprises the steps that the rotating speed of a rotating shaft of a water pumping motor and the variation of the rotating speed are obtained, wherein fan blades of the water pumping motor are arranged in a water receiving disc of the air conditioner, a condenser in the air conditioner is arranged above the water receiving disc, when the water pumping motor works, water in the water receiving disc can be beaten to the condenser to carry out water cooling on the condenser, and the water receiving disc is used for receiving condensed water generated when the air conditioner works; adjusting the running rotating speed of the fan according to the variation to adjust the water consumption of the condenser for heat dissipation, thereby realizing the water level control of the condensed water in the water receiving tray; wherein, the air current that the fan during operation produced carries out the forced air cooling to the condenser. This application has solved the air conditioner when using, and the user of service need expend time and the position of energy on the comdenstion water, has reached the effect of automatic control comdenstion water level.

Description

Control method and device for air conditioner condensate water level

Technical Field

The invention relates to the technical field of air conditioner condensate water level control, in particular to a method and a device for controlling the air conditioner condensate water level.

Background

When the air conditioner works in a refrigeration mode, a large amount of condensed water can be produced, and the condensed water is splashed to the condenser by being hit by the water beating motor in the water receiving tray, so that the water cooling of the condenser is realized.

The heat dissipation water consumption of the condenser is unequal to the water yield of the evaporator, so that a user needs to perform water replenishing or draining operation to adjust the water level of condensed water of the water pan so as to prevent the water level in the water pan from being overfilled or overlow. And the operation of water replenishing or draining consumes the energy and time of users.

Disclosure of Invention

In order to realize automatic control of the water level of condensed water in a condensation plate and save energy and time of users, the invention provides a method and a device for controlling the water level of the condensed water of an air conditioner, and the adopted technical scheme is as follows:

In a first aspect, a method for controlling a water level of condensed water of an air conditioner is provided, the method comprising the following steps:

The method comprises the steps that the rotating speed and the rotating speed variation of a rotating shaft of a water pumping motor are obtained, fan blades of the water pumping motor are arranged in a water receiving disc of the air conditioner, a condenser in the air conditioner is arranged above the water receiving disc, the water pumping motor can hit moisture in the water receiving disc to the condenser to cool the condenser in a water cooling mode when working, and the water receiving disc is used for receiving condensed water generated when the air conditioner works;

adjusting the running rotating speed of a fan according to the variation to adjust the water consumption of the condenser for heat dissipation, thereby realizing the water level control of the condensed water in the water pan;

And air flow generated by the fan during working is used for air cooling the condenser.

Optionally, adjusting the operating speed of the fan according to the variation includes:

Calculating the acceleration of the rotating shaft of the water fetching motor according to a preset formula, wherein the preset formula is as follows: α = (ω 2- ω 1)/t, wherein ω 1 is a first obtained rotation speed of the rotation shaft of the water fetching motor, ω 2 is a second obtained rotation speed of the rotation shaft of the water fetching motor, a detection time of the first rotation speed is earlier than a detection time of the second rotation speed, t is an interval time between the detection time of the first rotation speed and the detection time of the second rotation speed, and α is an acceleration of the rotation shaft of the water fetching motor;

and adjusting the running rotating speed of the fan according to the acceleration of the rotating shaft of the water fetching motor.

optionally, the operating speed of fan according to the acceleration regulation of the motor shaft of fetching water includes:

If the acceleration alpha is a positive value, increasing the running rotating speed of the fan;

And if the acceleration alpha is a negative value, reducing the running rotating speed of the fan.

Optionally, the method further includes:

If the acceleration alpha is a zero constant and the rotating speed of the water beating motor rotating shaft is a maximum value omega m alpha x, starting a water replenishing switch in a water replenishing and draining system in the air conditioner to replenish water into the water receiving tray, and closing the water replenishing switch to stop replenishing water into the water receiving tray when the rotating speed of the water beating motor rotating shaft is smaller than a first preset rotating speed omega 3;

The maximum value omega m alpha x is the rotating speed of the rotating shaft of the water fetching motor when the water fetching motor works under the condition that the condensate water of the water receiving tray is completely consumed, and a fixed difference value is formed between the first preset rotating speed omega 3 and the maximum value omega m alpha x.

Optionally, the method further includes:

If the acceleration alpha is a zero constant and the rotating speed of the water fetching motor rotating shaft is the minimum value omega min, starting a drainage switch in a water supplementing and draining system in the air conditioner to drain the water in the water receiving tray until the rotating speed of the water fetching motor rotating shaft is greater than a second preset rotating speed omega 4, closing the drainage switch, and stopping draining the water in the water receiving tray;

the minimum value omega min is the rotating speed of the rotating shaft of the water pumping motor when the water pumping motor works under the condition that the water level of the condensed water in the water receiving tray rises to the axis position of the rotating shaft of the water pumping motor, and a fixed difference value is formed between the second preset rotating speed omega 4 and the minimum value omega min.

Optionally, beat water installation hall ring and magnet steel in the motor, the fixed cover of magnet steel is established beat in the pivot of water motor, acquire the rotational speed of beating the water motor pivot includes: and detecting the magnetic pole change of the magnetic steel by using the Hall ring so as to acquire the rotating speed of the rotating shaft of the water fetching motor.

Optionally, the adjusting the operating speed of the fan according to the variation includes:

When the acceleration of the rotating shaft of the water fetching motor is a positive value, the fan is adjusted to a first running rotating speed to run;

When the acceleration of the rotating shaft of the water fetching motor is close to zero, the fan is adjusted to a second operation rotating speed to operate;

when the acceleration of the rotating shaft of the water fetching motor is a negative value, the fan is adjusted to operate at a third operation rotating speed;

Wherein the first operating rotational speed is greater than the second operating rotational speed, which is greater than the third operating rotational speed.

In a second aspect, a computer-readable storage medium is provided, where one or more instructions are stored in the computer-readable storage medium, and when executed by a processor of the air conditioner, the one or more instructions implement the method for controlling the optional air conditioner condensate water level according to any one of the embodiments of the first aspect and the optional first aspect.

in a third aspect, there is provided a control apparatus for a water level, the control apparatus comprising:

a memory and a processor;

At least one program instruction is stored in the memory;

The processor is configured to load and execute the at least one program instruction to implement the method for controlling the water level of the air conditioner condensate water according to the first aspect and any optional implementation manner of the first aspect.

The water level adjusting device has the advantages that the condition of the water level in the water receiving tray is judged by acquiring the rotating speed and the variable quantity of the rotating shaft of the water pumping motor, the fan and the water supplementing and draining system are adjusted, the rotating speed of the fan is changed, so that the water consumption is changed when the condenser dissipates heat, the water level of condensed water in the water receiving tray is adjusted, the water level in the water receiving tray is prevented from being over-full or over-low, and in the process, energy and time consumed when a user adjusts the water level of the condensed water of the air conditioner are reduced by automatically adjusting the fan and the water supplementing and draining system.

drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective assembly view of the air conditioner of the present invention;

FIG. 2 is a flow chart of the method of controlling the water level of the condensed water of the air conditioner according to the present invention;

in the figure: a water pumping motor-10, a water receiving tray-20, a fan-30, an electromagnetic valve-40, a drainage pump-50, a condenser-60 and a water replenishing tank-70.

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 or similar 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 accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

As shown in fig. 1, the present invention provides a mobile air conditioner, which includes a condenser 60, a water pan 20 fixedly installed at the bottom of the condenser 60, a water pumping motor 10 fixedly installed in the water pan 20 and disposed at the bottom of the condenser 60, a blower 30 fixed on the condenser 60, and a water supply and drainage system (not shown) disposed in the water pan 20, wherein when the condenser 60 works, the air temperature inside the air conditioner is raised, and high-temperature air is discharged through the blower 30, so as to regulate and control the external temperature of the air conditioner.

when the air conditioner is adjusted to a refrigeration mode, the water beating motor 10 is started, the generated condensate water is contained in the water receiving tray 20, the water beating motor 10 beats the condensate water onto the condenser 60, the condensate water carries out water-cooling on the condenser 60, and meanwhile, the air output by the fan 30 can carry heat on the upper part of the condenser 60, namely, the fan 30 carries out air-cooling on the condenser 60.

The water supplementing and draining system comprises a water supplementing tank 70 and a draining pump 50, wherein an opening of the water supplementing tank 70 is arranged corresponding to the water receiving tray 20, an electromagnetic valve 40 is arranged at the opening of the water supplementing tank 70, when the electromagnetic valve 40 is disconnected, water in the water supplementing tank 70 is input into the water receiving tray 20, when the electromagnetic valve 40 is closed, the water supplementing tank 70 stops outputting water, one end of a water pipe communicated with the draining pump 50 is arranged in condensed water of the water receiving tray 20, and the other end of the water pipe extends to the outside of the air conditioner.

As shown in fig. 1 and 2, the present invention provides a method for controlling a level of condensed water of an air conditioner, which is used in a cooling mode of the air conditioner, and the method comprises:

And step 110, acquiring the rotating speed of the rotating shaft of the water fetching motor 10.

the fan blades of the water beating motor 10 are arranged in a water receiving tray 20 of the air conditioner, a condenser 60 in the air conditioner is arranged above the water receiving tray 20, the water beating motor 10 can beat condensate water in the water receiving tray 20 to the condenser 60 during working, the condenser 60 is cooled by water, and the water receiving tray 20 is used for receiving the condensate water generated during working of the air conditioner.

optionally, add the magnet steel in the pivot of the motor 10 of fetching water, the hall ring is established to the magnet steel overcoat, and the rotational speed mode of acquireing the motor 10 pivot of fetching water detects the pivot number of turns for the hall ring, specifically does, and the magnet steel magnetic pole takes place to change when the hall intra-annular rotates, produces the pulse signal that corresponds with the magnetic pole on the hall ring, and based on this pulse signal, the controller of air conditioner can obtain the real-time rotational speed of the motor 10 pivot of fetching water.

optionally, when the water pumping motor 10 in the air conditioner is running, the rotating speed of the rotating shaft of the water pumping motor 10 is periodically acquired, that is, step 110 is periodically executed; the data obtained each time are stored in the memory and deleted from the memory after being processed, and the detection period for obtaining the rotating speed of the rotating shaft of the water pumping motor 10 can be set by developers or can be customized by users.

optionally, the air conditioner obtains the time of last detection of the rotating speed of the rotating shaft of the water fetching motor 10 and the current time interval t, and if the time interval t reaches a first preset time length, the step 110 is executed to obtain the rotating speed of the rotating shaft of the water fetching motor 10 again; the first preset time duration is usually set by a developer and can be customized by a user. For example, the first preset time period may be set to 1 minute.

optionally, the air conditioner is adjusted to the refrigeration mode and then is delayed for 3-5 minutes to execute the step 110 so as to obtain the rotating speed of the water pumping motor 10.

and step 120, acquiring the rotating speed variation of the rotating shaft of the water fetching motor 10.

Calculating the rotating speed variation of the rotating shaft of the water fetching motor 10 according to a predetermined formula, wherein the predetermined formula is as follows: Δ ω = ω 2 — ω 1, where ω 1 is a first obtained rotation speed of the rotation shaft of the water fetching motor 10, ω 2 is a second obtained rotation speed of the rotation shaft of the water fetching motor 10, Δ ω is a rotation speed variation of the rotation shaft of the water fetching motor 10, and a detection time of the first rotation speed is earlier than a detection time of the second rotation speed.

and step 130, adjusting the running rotating speed of the fan 30 according to the rotating speed variation.

The implementation of this step can be: calculating the acceleration of the rotating shaft of the water fetching motor 10 according to a preset formula, wherein the preset formula is as follows: α = (ω 2- ω 1)/t = Δ ω/t, where ω 1 is a first obtained rotation speed of the rotation shaft of the water fetching motor 10, ω 2 is a second obtained rotation speed of the rotation shaft of the water fetching motor 10, a detection time of the first rotation speed is earlier than a detection time of the second rotation speed, t is an interval time between the detection time of the first rotation speed and the detection time of the second rotation speed, and α is an acceleration of the rotation shaft of the water fetching motor 10; and adjusting the running speed of the fan 30 according to the acceleration of the rotating shaft of the water fetching motor 10.

the fan 30 is an electric fan with a variable operation speed, the operation speed of the fan 30 has a plurality of grades, and the operation speed of the fan 30 can be adjusted according to the acceleration of the rotating shaft of the water fetching motor 10 in the following way:

setting a positive constant b and a zero constant c, comparing the data types of the acceleration alpha and the positive constant b, if the data types of the acceleration alpha and the positive constant b are the same, adjusting the fan 30 to a high-level operation rotating speed, if the comparison result is different, comparing the data types of the acceleration alpha and the zero constant c, if the data types of the acceleration alpha and the zero constant c are different, adjusting the fan 30 to a low-level operation rotating speed, and if the data types of the acceleration alpha and the zero constant c are the same, adjusting the fan 30 to a medium-level operation rotating speed. When the rotating speed of the fan 30 is adjusted to the middle-level operation, the water replenishing and draining system in the air conditioner can be adjusted and controlled by combining the obtained rotating speed of the rotating shaft.

Optionally, the operation rotation speed of each level may include one or more levels of operation rotation speeds, the increase speed of the condensed water level may be determined according to the data size of the acceleration α, and the fan may be adjusted to the level of the specific operation rotation speed according to the increase speed, where the adjustment mode may refer to the existing variable frequency control technology, and the present embodiment is not limited specifically.

Optionally, in the operation rotation speeds of the fan 30, the high-level operation rotation speed is a first operation rotation speed, the middle-level operation rotation speed is a second operation rotation speed, and the low-level operation rotation speed is a third operation rotation speed, specifically, the first operation rotation speed is greater than the second operation rotation speed, the second operation rotation speed is greater than the third operation rotation speed, when the fan 30 operates according to the level of the first operation rotation speed, the air cooling efficiency of the fan 30 to the condenser 60 is the highest, when the fan 30 operates according to the level of the second operation rotation speed, the operation rotation speed of the fan 30 is moderate, the air cooling efficiency to the condenser 60 is moderate, and when the fan 30 operates according to the level of the third operation rotation speed, the air cooling efficiency of the fan 30 to the condenser 60 is the lowest. Further, there is a fixed operating speed difference between corresponding steps of the three operating speeds, which is usually set by a developer, for example, 500 rpm.

Optionally, a maximum rotation speed ω m α x and a minimum rotation speed ω min of the rotation shaft are set in the air conditioner, the maximum rotation speed ω m α x is a rotation speed of the rotation shaft when the water receiving tray 20 operates when the condensed water is completely consumed, and the minimum rotation speed ω min is a rotation speed of the rotation shaft of the water collecting motor 10 when the condensed water level in the water receiving tray 20 rises to the axis position of the rotation shaft of the water collecting motor 10.

When the obtained acceleration alpha is a zero-value constant, comparing the first rotation speed omega 1 and the rotation speed maximum value omega m alpha x obtained in the step 110, if the comparison results are the same, starting a water replenishing switch in the air conditioner water replenishing and draining system, if the comparison results are different, comparing the first rotation speed omega 1 and the rotation speed minimum value omega min, if the comparison results are the same, starting the water draining switch of the air conditioner water replenishing and draining system, and if the comparison results are different, obtaining the acceleration alpha corresponding to the next time interval t for comparing again.

Optionally, a first preset rotation speed ω 3 and a second preset rotation speed ω 4 of the rotating shaft are set in the air conditioner, the water replenishing switch is the electromagnetic valve 40, the water draining switch is the water draining pump 50, when the obtained acceleration α is a zero constant and the rotation speed of the rotating shaft reaches the maximum rotation speed ω m α x, the electromagnetic valve 40 is turned off, water in the water replenishing tank is replenished into the water receiving tray 20 until the first rotation speed ω 1 obtained in step 110 is smaller than the first preset rotation speed ω 3, and the electromagnetic valve 40 is turned off. Preferably, there is a fixed difference between the first preset rotation speed ω 3 and the rotation speed maximum value ω m α x, which is usually set by a developer, for example 300 rpm.

when the obtained acceleration α is a zero-value constant, and the rotation speed of the rotating shaft reaches a minimum rotation speed ω min, the drain pump 50 is turned on to drain the condensed water in the water pan 20 until the first rotation speed ω 1 obtained in step 110 is greater than a second preset rotation speed ω 4, and the drain pump 50 is turned off, preferably, a fixed difference value is provided between the second preset rotation speed ω 4 and the minimum rotation speed ω min, and the fixed difference value is usually set by a developer, for example, 300 rpm.

In summary, in the method provided in the embodiment of the present invention, the variation of the rotating shaft is calculated by the obtained rotating speed of the rotating shaft of the pumping motor 10, the operating rotating speed of the fan 30 and the water replenishing and draining system are adjusted according to the numerical type and magnitude of the variation of the rotating speed of the rotating shaft, and after the rotating speed of the fan 30 is adjusted, the heat dissipation manner of the condenser 60 is changed, specifically, the heat dissipation manner of the condenser 60 is that air cooling of the fan 30 and water cooling of condensed water hit by the pumping motor 10 are performed simultaneously, and the rotating speed of the fan 30 is increased or decreased, so that the condensed water consumed by the condenser 60 for heat dissipation is reduced or increased, thereby causing the water level in the water receiving tray 20 to rise or fall, and the water level in the water receiving tray 20 to change, which also affects the rotating speed of the rotating shaft in the pumping motor 10, specifically, the higher the water level is, the lower the rotating speed, through the above-mentioned detection regulation and control process, the automatic regulation and control of the water level in the butt joint water tray 20 is realized.

An embodiment of the present invention further provides a computer-readable storage medium, in which one or more instructions are stored, and when the one or more instructions are executed by a processor in an air conditioner, the method for controlling the level of condensed water in the water tray 20 according to any of the embodiments described above is implemented.

An embodiment of the present invention also provides a control apparatus of an air conditioner, including: a memory and a processor; at least one program instruction is stored in the memory; the processor is a control method for implementing the air conditioner condensed water related in any one of the above embodiments by loading and executing the at least one program instruction.

The terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of the indicated technical features. Thus, a defined feature of "first", "second", may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

it will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk, a memory stick, or the like.

the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. a control method for the water level of condensed water of an air conditioner is characterized in that: the method comprises the following steps:

The method comprises the steps that the rotating speed and the rotating speed variation of a rotating shaft of a water pumping motor are obtained, fan blades of the water pumping motor are arranged in a water receiving disc of the air conditioner, a condenser in the air conditioner is arranged above the water receiving disc, the water pumping motor can hit moisture in the water receiving disc to the condenser to cool the condenser in a water cooling mode when working, and the water receiving disc is used for receiving condensed water generated when the air conditioner works;

Firstly, acquiring a first rotating speed omega 1 of a rotating shaft of a water fetching motor, and acquiring a second rotating speed omega 2 of the water fetching motor again when the current time of air conditioner operation and the time interval for acquiring the first rotating speed omega 1 reach a first preset time; calculating the variation delta omega of the rotating speed of the rotating shaft of the water fetching motor according to a preset formula, wherein the preset formula is as follows: Δ ω = ω 2- ω 1; increasing or reducing the running speed of the fan according to the numerical type of the variation delta omega, and adjusting the running speed gear of the fan according to the numerical value of the variation delta omega, specifically calculating the acceleration of the rotating shaft of the water fetching motor according to a preset formula, wherein the preset formula is as follows: α = Δ ω/t, where t is an interval time between a detection time of the first rotation speed and a detection time of the second rotation speed, and α is an acceleration of the rotation shaft of the water beating motor; adjusting the running speed gear of the fan according to the numerical type and the numerical value of the acceleration alpha of the rotating shaft of the water beating motor, wherein:

when the acceleration alpha of the rotating shaft of the water fetching motor is a positive value, the fan is adjusted to a first operation rotating speed to operate;

when the acceleration alpha of the rotating shaft of the water fetching motor is zero, the fan is adjusted to a second operation rotating speed to operate;

when the acceleration alpha of the rotating shaft of the water fetching motor is a negative value, the fan is adjusted to operate at a third operation rotating speed;

wherein the first operating rotational speed is greater than the second operating rotational speed, which is greater than the third operating rotational speed; the number of the grades in each operation rotating speed is at least one, the operation rotating speed of the fan can be adjusted to a specific grade according to the numerical value of the acceleration alpha of the rotating shaft of the water pumping motor, so that the water consumption of the heat radiation of the condenser can be adjusted, and the water level control of the condensed water in the water receiving tray is realized; and air flow generated by the fan during working is used for air cooling the condenser.

2. The method for controlling the water level of condensed water of an air conditioner as claimed in claim 1, wherein: according to the acceleration regulation of the motor shaft of fetching water the operation rotational speed of fan includes:

If the acceleration alpha is a positive value, increasing the running rotating speed of the fan;

And if the acceleration alpha is a negative value, reducing the running rotating speed of the fan.

3. The method for controlling the water level of condensed water of an air conditioner as claimed in claim 1, wherein: the method further comprises the following steps:

if the acceleration alpha is a zero constant and the rotating speed of the water beating motor rotating shaft is a maximum value omega m alpha x, starting a water replenishing switch in a water replenishing and draining system in the air conditioner to replenish water into the water receiving tray, and closing the water replenishing switch to stop replenishing water into the water receiving tray when the rotating speed of the water beating motor rotating shaft is smaller than a first preset rotating speed omega 3;

The maximum value omega m alpha x is the rotating speed of the rotating shaft of the water fetching motor when the water fetching motor works under the condition that the condensate water of the water receiving tray is completely consumed, and a fixed difference value is formed between the first preset rotating speed omega 3 and the maximum value omega m alpha x.

4. The method for controlling the water level of condensed water of an air conditioner as claimed in claim 1, wherein: the method further comprises the following steps:

If the acceleration alpha is a zero constant and the rotating speed of the water fetching motor rotating shaft is the minimum value omega min, starting a drainage switch in a water supplementing and draining system in the air conditioner to drain the water in the water receiving tray until the rotating speed of the water fetching motor rotating shaft is greater than a second preset rotating speed omega 4, closing the drainage switch, and stopping draining the water in the water receiving tray;

the minimum value omega min is the rotating speed of the rotating shaft of the water pumping motor when the water pumping motor works under the condition that the water level of the condensed water in the water receiving tray rises to the axis position of the rotating shaft of the water pumping motor, and a fixed difference value is formed between the second preset rotating speed omega 4 and the minimum value omega min.

5. the method for controlling the water level of condensed water of an air conditioner as claimed in claim 1, wherein: beat water built-in installation hall ring of motor and magnet steel, the fixed cover of magnet steel is established beat in the pivot of water motor, acquire the rotational speed of beating the water motor pivot includes: and detecting the magnetic pole change of the magnetic steel by using the Hall ring so as to acquire the rotating speed of the rotating shaft of the water fetching motor.

6. A computer-readable storage medium having one or more instructions stored therein, the computer-readable storage medium characterized in that: the one or more instructions, when executed by a processor of an air conditioner, implement the method of controlling the level of air conditioner condensate water as set forth in any one of claims 1 to 5.

7. the utility model provides a controlling means of air conditioner comdenstion water level which characterized in that: the control device includes:

a memory and a processor;

at least one program instruction is stored in the memory;

The processor is used for realizing the control method of the air conditioner condensate water level in any one of claims 1 to 5 by loading and executing the at least one program instruction.