阅读说明：本技术 一种能精准调节的空调器及其调节方法 (Air conditioner capable of being accurately adjusted and adjusting method thereof ) 是由 郭玮 于 2021-08-23 设计创作，主要内容包括：本发明提供了一种能精准调节的空调器及其调节方法,所述空调器包括：冷凝器、蒸发器、压缩机以及冷媒循环管道,所述冷凝器包括多根相互连接的冷凝管、以及设置在所述冷凝管上的第一外盘温度传感器和第二外盘温度传感器,所述第一外盘温度传感器位于所述冷凝器的中部,所述第二外盘温度传感器位于所述冷凝器的下部,本发明所述的空调器及其调节方法根据空调器制冷和制热运行时冷凝器外盘温度的分布特点,对接入响应的外盘温度传感器进行增加和区分,这样可以更准确地反馈对应的空调器运行状态参数,实现空调器的精准调节和控制。(The invention provides an air conditioner capable of being accurately adjusted and an adjusting method thereof, wherein the air conditioner comprises: the air conditioner and the adjusting method thereof increase and distinguish the outer disc temperature sensors connected with the response according to the distribution characteristics of the temperature of the outer disc of the condenser during the refrigeration and heating operation of the air conditioner, so that the corresponding operating state parameters of the air conditioner can be fed back more accurately, and the accurate adjustment and control of the air conditioner are realized.)

1. An air conditioner capable of being adjusted precisely, the air conditioner comprising: condenser (1), evaporimeter, compressor and refrigerant circulating line, its characterized in that, condenser (1) includes many interconnect's condenser pipe (2) and sets up first outer dish temperature sensor (3) and second outer dish temperature sensor (4) on condenser pipe (2), first outer dish temperature sensor (3) are located the middle part of condenser (1), second outer dish temperature sensor (4) are located the lower part of condenser (1).

2. The air conditioner capable of precisely adjusting according to claim 1, wherein the first outer disk temperature sensor (3) and the second outer disk temperature sensor (4) are respectively connected with a control unit of the air conditioner and can provide temperature detection values to the control unit, and the control unit can judge the current operation state of the air conditioner according to the temperature detection values provided by the first outer disk temperature sensor (3) or the second outer disk temperature sensor (4) and send out a control instruction.

3. The air conditioner capable of precisely adjusting according to claim 2, wherein when the air conditioner is in a cooling mode, the first outer disk temperature sensor (3) is connected to the control unit, and the control unit determines the current operating state of the air conditioner according to a temperature detection value provided by the first outer disk temperature sensor (3) and sends a control command.

4. The air conditioner capable of being adjusted precisely according to claim 2, wherein when the air conditioner is in a heating mode, the second external disk temperature sensor (4) is connected to the control unit, and the control unit judges the current operation state of the air conditioner according to a temperature detection value provided by the second external disk temperature sensor (4) and sends out a control instruction.

5. The precisely adjustable air conditioner according to claim 1 or 2 or 3 or 4, characterized in that it further comprises a first and a second mounting seat, through which the first and second outer disk temperature sensors (3, 4) are mounted on the condenser tubes (2) in the condenser (1), respectively.

6. The air conditioner capable of being precisely adjusted according to claim 1, wherein the condensation pipe (2) is a U-shaped pipe, the distance between the central axes of the two legs of the U-shaped pipe is denoted as P, the number of the condensation pipes (2) in the condenser 1 is denoted as N, the installation height of the first outer disk temperature sensor (3) is denoted as S1, and the installation height S1 of the first outer disk temperature sensor (3) has a value range of: p2 < S1 < P (N/2-2).

7. The air conditioner capable of being adjusted precisely as claimed in claim 6, wherein a position with the highest temperature is taken as a final mounting position of the first outer disk temperature sensor (3) within the value range of S1.

8. The air conditioner capable of being precisely adjusted according to claim 1, wherein the condensation pipe (2) is a U-shaped pipe, the distance between the central axes of two legs of the U-shaped pipe is denoted as P, the installation height of the second external disk temperature sensor (4) is denoted as S2, and the installation height S2 of the second external disk temperature sensor (4) has a value range of: p/2 < S2 < P3.

9. The precisely adjustable air conditioner according to claim 8, wherein the position with the lowest temperature is taken as the final installation position of the second outer disk temperature sensor (4) within the value range of S2.

10. An air conditioner adjusting method, which is used for the air conditioner according to any one of claims 1 to 9, and comprises the following steps:

s1, starting the air conditioner to run;

s2, judging the operation mode of the air conditioner, if the operation mode of the air conditioner is a cooling mode, continuing to execute the step S3; if the operation mode of the air conditioner is the heating mode, continuing to execute the step S4; if the operation mode of the air conditioner is a mode other than the cooling and heating mode, continuing to execute the step S5;

s3, connecting the first outer disk temperature sensor to the control unit of the air conditioner, and continuing to execute the step S6;

s4, connecting the second outer disk temperature sensor to the control unit of the air conditioner, and continuing to execute the step S6;

s5, keeping the current state of the air conditioner unchanged, and continuing to execute the step S6;

s6, the control unit of the air conditioner acquires the temperature detection value of the first outer disk temperature sensor or the second outer disk temperature sensor and continues to execute the step S7;

and S7, the control unit of the air conditioner judges the current running state of the air conditioner according to the acquired temperature detection value and sends a control instruction.

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner capable of being accurately adjusted and an adjusting method thereof.

Background

Generally, an outer plate temperature sensor is arranged on a condenser of an air conditioner outdoor unit, and in the use process, the air conditioner performs corresponding adjustment and control according to a temperature value fed back by the outer plate temperature sensor, so that energy saving and stable operation of the air conditioner are realized, and actions such as frequency reduction, shutdown protection and the like can be performed if necessary, so that reliable and safe operation of the air conditioner is ensured.

However, in the operation process of the air conditioner, because a deviation exists between the temperature value detected by the outer disk temperature sensor and the actual temperature of the condenser, the current operation state of the air conditioner cannot be accurately reflected through the temperature value, and further deviation occurs in the control of the air conditioner, for example, a control command is advanced or delayed, so that the problems of reduction of the operation stability of equipment or increase of energy consumption and the like occur.

The present application is proposed to solve the above technical problems.

Disclosure of Invention

The invention designs an air conditioner capable of being accurately adjusted and an adjusting method thereof, and aims to solve the problems that the control of the air conditioner is advanced or lagged due to the fact that deviation exists between a temperature value detected by an outer disc temperature sensor and the actual temperature of a condenser in the existing air conditioner, and finally the operation stability of equipment is reduced or energy consumption is increased.

In order to solve the above problems, the present invention discloses an air conditioner capable of being precisely adjusted, the air conditioner comprising: condenser, evaporimeter, compressor and refrigerant circulating line, the condenser includes many interconnect's condenser pipe and sets up first outer dish temperature sensor and second outer dish temperature sensor on the condenser pipe, first outer dish temperature sensor is located the middle part of condenser, second outer dish temperature sensor is located the lower part of condenser.

This application the theory of operation that the air conditioner that can accurately adjust was based on is as follows: when the air conditioner is used for refrigerating, the temperature of the middle part of the condenser is higher, the temperature of the position can more accurately reflect the current running state of the air conditioner, more reliable judgment basis is provided for the air conditioner to send instructions such as risk prompt and protection, and the like, and the stable and low-power-consumption running of the air conditioner is ensured; on the contrary, the air conditioner is when heating, because the hot-air in the condenser outside up removes, the defrosting water in the condenser outside flows down simultaneously, the temperature that leads to condenser lower part coil pipe is lower, at this moment, for the promptness and the thoroughness of guaranteeing to heat the defrosting better, the lower part of condenser should be selected to temperature sensor's position, so can more accurately detect the state value when the air conditioner moves, and on this basis, further take reasonable and timely regulation action, if the air conditioner can be more timely, accurately get into to change the frost and withdraw from and change the frost etc. finally, promote the performance and the travelling comfort etc. of air conditioner.

Furthermore, the first outer disk temperature sensor and the second outer disk temperature sensor are respectively connected with a control unit of the air conditioner and can provide temperature detection values for the control unit, and the control unit can judge the current running state of the air conditioner according to the temperature detection values provided by the first outer disk temperature sensor or the second outer disk temperature sensor and send out control instructions.

According to the distribution characteristics of the temperature of the outer plate of the condenser during the refrigeration and heating operation of the air conditioner, the temperature sensors of the outer plate which are accessed to respond are increased and distinguished, so that the corresponding running state parameters of the air conditioner can be fed back more accurately, and the accurate adjustment and control of the air conditioner are realized.

Further, when the air conditioner is in a cooling mode, the first outer disc temperature sensor is connected to the control unit, and the control unit judges the current running state of the air conditioner according to a temperature detection value provided by the first outer disc temperature sensor and sends a control instruction.

Further, when the air conditioner is in a heating mode, the second outer disk temperature sensor is connected to the control unit, and the control unit judges the current operation state of the air conditioner according to a temperature detection value provided by the second outer disk temperature sensor and sends a control instruction.

Through the application of the first outer plate temperature sensor and the second outer plate temperature sensor, the optimal states of the air conditioner in operation such as refrigeration and heating can be respectively achieved, and efficient and reliable operation of the air conditioner is realized.

Furthermore, the air conditioner further comprises a first mounting seat and a second mounting seat, and the first outer disk temperature sensor and the second outer disk temperature sensor are respectively installed on the condensing pipe in the condenser through the first mounting seat and the second mounting seat.

The first outer plate temperature sensor and the second outer plate temperature sensor can be conveniently and stably installed at specified positions on the condenser through the first installation seat and the second installation seat.

Further, the condenser pipe is a U-shaped pipe, the distance between the central axes of the two legs in the U-shaped pipe is denoted as P, the number of the condenser pipes in the condenser 1 is denoted as N, the installation height of the first outer pan temperature sensor is denoted as S1, and the installation height of the first outer pan temperature sensor S1 is defined as a zero elevation surface: p2 < S1 < P (N/2-2).

Limiting the range of the installation height S1 of the first outer disk temperature sensor as follows: p2 < S1 < P (N/2-2) can realize the purpose of reflecting the operation state of the condenser without influencing the installation space of other components in the air conditioner, such as a fan and the like.

Further, in the value range of S1, the position with the highest temperature is taken as the final mounting position of the first outer disc temperature sensor.

In the value range of the S1, the control accuracy of the air conditioner can be further improved by installing the first outer disk temperature sensor at the position where the temperature is highest.

Further, the condenser pipe is a U-shaped pipe, the distance between the central axes of the two legs in the U-shaped pipe is denoted as P, the installation height of the second external disk temperature sensor is denoted as S2, and the installation height S2 of the second external disk temperature sensor ranges from a zero elevation plane to a zero elevation plane: p/2 < S2 < P3.

The range of the mounting height S2 of the second outer disk temperature sensor is further defined as: p/2 < S2 < P3 can realize the purpose of reflecting the operation state of the condenser without influencing the installation space of other components below and below the condenser.

Further, in the value range of S2, the position with the lowest temperature is taken as the final mounting position of the second outer disk temperature sensor.

In the value range of the S2, the control accuracy of the air conditioner can be further improved by installing the second outer disk temperature sensor at the position where the temperature is the lowest.

An adjusting method of an air conditioner, the method is used for the air conditioner, and the adjusting method comprises the following steps:

s1, starting the air conditioner to run;

s2, judging the operation mode of the air conditioner, if the operation mode of the air conditioner is a cooling mode, continuing to execute the step S3; if the operation mode of the air conditioner is the heating mode, continuing to execute the step S4; if the operation mode of the air conditioner is a mode other than the cooling and heating mode, continuing to execute the step S5;

s3, connecting the first outer disk temperature sensor to the control unit of the air conditioner, and continuing to execute the step S6;

s4, connecting the second outer disk temperature sensor to the control unit of the air conditioner, and continuing to execute the step S6;

s5, keeping the current state of the air conditioner unchanged, and continuing to execute the step S6;

s6, the control unit of the air conditioner acquires the temperature detection value of the first outer disk temperature sensor or the second outer disk temperature sensor and continues to execute the step S7;

and S7, the control unit of the air conditioner judges the current running state of the air conditioner according to the acquired temperature detection value and sends a control instruction.

When the air conditioner operates in a refrigerating mode, the temperature detection value obtained by the first outer disc temperature sensor is larger than that obtained by the second outer disc temperature sensor, the first outer disc temperature sensor is connected into the control unit of the air conditioner, the control unit of the air conditioner obtains the temperature detection value of the connected first outer disc temperature sensor, judges the current operation state of the air conditioner according to the obtained temperature detection value, and then sends out a control instruction, so that the air conditioner can be accurately and timely adjusted and controlled; correspondingly, when the air conditioner operates in heating, the temperature detection value obtained by the first outer disk temperature sensor is larger than that obtained by the second outer disk temperature sensor, the second outer disk temperature sensor is connected into the control unit of the air conditioner, the control unit of the air conditioner obtains the temperature detection value of the connected second outer disk temperature sensor, the current operation state of the air conditioner is judged according to the obtained temperature detection value, and a control instruction is sent out, so that the air conditioner can be accurately and timely adjusted and controlled. In addition, when the air conditioner operates in a dehumidification mode, a ventilation mode or a defrosting mode and the like, the current state of the air conditioner is kept unchanged, namely the access states of the first outer disc temperature sensor and the second outer disc temperature sensor are unchanged, the control unit of the air conditioner acquires the temperature detection value of the accessed first outer disc temperature sensor or the accessed second outer disc temperature sensor, judges the current operation state of the air conditioner according to the acquired temperature detection value, and then sends out a control instruction, so that the air conditioner can be accurately and timely adjusted and controlled. Therefore, the air conditioner obtains the temperature of the condenser through the temperature sensing at different positions in different states, the normal operation of the air conditioner is more reasonable and accurate, the purposes of timely and fast frequency reduction or fast defrosting and the like can be achieved, and the efficient, safe and reliable operation of the air conditioner for refrigeration, heating and the like is realized.

The air conditioner capable of being accurately adjusted and the adjusting method thereof have the following advantages:

firstly, according to the distribution characteristics of the temperature of the outer disc of the condenser during the refrigeration and heating operation of the air conditioner, the temperature sensors of the outer disc which are accessed to respond are added and distinguished, so that the corresponding operation state parameters of the air conditioner can be fed back more accurately, the accurate adjustment and control of the air conditioner are realized, the response delay of the air conditioner is prevented, and the problems of safety and the like are avoided;

secondly, in addition, by the application of the first outer disk temperature sensor and the second outer disk temperature sensor, the optimal states of the air conditioner in operation such as refrigeration, heating and the like can be respectively achieved, and the efficient and reliable operation of the air conditioner is realized;

third, the air conditioner that can accurately adjust and adjusting method described in this application are particularly useful for configuring lower air conditioners, through selecting respectively and designing the most reasonable position and state of outer plate temperature sensor under the modes such as refrigeration and heating, have very big help to the cost reduction and efficiency improvement of air conditioner like this, can promote the competitiveness of the product by a wide margin.

Drawings

FIG. 1 is a schematic structural diagram of a condenser in an air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an adjusting method of an air conditioner according to an embodiment of the invention.

Description of reference numerals:

1. a condenser; 2. a condenser tube; 3. a first outer disc temperature sensor; 4. a second outer disk temperature sensor.

Detailed Description

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

As shown in fig. 1, an air conditioner capable of precise adjustment, the air conditioner includes: condenser 1, evaporimeter, compressor and refrigerant circulating line etc, condenser 1 includes many interconnect's condenser pipe 2 and sets up first outer dish temperature sensor 3 and second outer dish temperature sensor 4 on the condenser pipe 2, first outer dish temperature sensor 3 is located the middle part of condenser 1, second outer dish temperature sensor 4 is located the lower part of condenser 1.

This application the theory of operation that the air conditioner that can accurately adjust was based on is as follows: in the existing air conditioner, when in a cooling and heating mode, a temperature value detected by only one outer plate temperature sensor only can represent the local temperature of a specific area of a condenser in different states, the actual operation state of the condenser is difficult to reflect, certain deviation exists, and the deviation formally causes the problems of leading or lagging of a control command of the air conditioner and the like, so that the operation stability of equipment is reduced or the energy consumption is increased. But the applicant found through trial and error that: the temperature distribution of the condenser 1 in the air conditioner has the following law: when the air conditioner is used for refrigerating, the temperature of the middle part of the condenser 1 is higher, the temperature of the position can accurately reflect the current running state of the air conditioner, more reliable judgment basis is provided for the air conditioner to send instructions such as risk prompt and protection, and the like, and the stable and low-power-consumption running of the air conditioner is ensured; on the contrary, the air conditioner is when heating, because the hot-air in the condenser 1 outside up removes, the defrosting water in the condenser 1 outside flows down simultaneously, lead to the temperature of condenser 1 lower part coil pipe lower, at this moment, for the promptness and the thoroughness of better assurance heating defrosting, condenser 1's lower part should be selected to temperature sensor's position, so can more accurately detect the state value when the air conditioner moves, and on this basis, further take reasonable and timely regulation action, if the air conditioner can be more timely, accurately get into to change the frost and withdraw from and change the frost etc. finally, the performance and the travelling comfort etc. of promotion air conditioner.

It should be noted that, the technical scheme disclosed in the present application is more important to find the temperature change rule of the condenser 1 in the using process, and to reflect the current operating state of the air conditioner by respectively arranging the temperature sensors at the middle part and the lower part of the condenser 1 according to the rule, so as to finally solve the problem that the control instruction of the air conditioner is advanced or lagged because the temperature value detected by the only outer plate temperature sensor can only represent the local temperature of the specific area of the condenser in different states, the actual operating state of the condenser is difficult to reflect, and a certain deviation exists in the prior art.

In addition, this application the air conditioner can be any one in the current air conditioner, like cabinet-type air conditioner, hang-up, ceiling fan etc. except that condenser 1, its overall structure is the same with current air conditioning equipment, does not give unnecessary details here.

Further, the first outer disk temperature sensor 3 and the second outer disk temperature sensor 4 are respectively connected with a control unit of the air conditioner and can provide temperature detection values for the control unit, and the control unit can judge the current running state of the air conditioner according to the temperature detection values provided by the first outer disk temperature sensor 3 or the second outer disk temperature sensor 4 and send out control instructions.

Furthermore, when the air conditioner is in a cooling mode, the first outer disk temperature sensor 3 is connected to the control unit, and the control unit judges the current running state of the air conditioner according to the temperature detection value provided by the first outer disk temperature sensor 3 and sends out a control instruction.

Furthermore, when the air conditioner is in a heating mode, the second outer disk temperature sensor 4 is connected to the control unit, and the control unit judges the current operation state of the air conditioner according to the temperature detection value provided by the second outer disk temperature sensor 4 and sends out a control instruction.

So, the air conditioner just can pass through respectively the temperature detection value that first outer dish temperature sensor 3 and second outer dish temperature sensor 4 provided carries out more accurate and timely regulation and control, lets the air conditioner operation more energy-conserving and safety.

Further, the air conditioner further comprises a first mounting seat and a second mounting seat, and the first outer plate temperature sensor 3 is mounted in the middle of the condenser 1 through the first mounting seat; the second outer disk temperature sensor 4 is installed at the lower portion of the condenser 1 through the second mounting seat.

Preferably, the first outer plate temperature sensor 3 and the second outer plate temperature sensor 4 are respectively installed on the condensation pipe 2 in the condenser 1 through the first installation seat and the second installation seat, so that the first outer plate temperature sensor 3 and the second outer plate temperature sensor 4 can more accurately detect the temperature of the condensation pipe 2 in the condenser 1.

As some embodiments of the present application, the first outer disk temperature sensor 3 and the second outer disk temperature sensor 4 may be installed on the condenser 1 by using a clamping, an inserting, or the like manner of the first mounting seat and the second mounting seat.

Furthermore, the specific installation positions of the first outer disk temperature sensor 3 and the second outer disk temperature sensor 4 need to be comprehensively selected according to actual measurement values, the positions shown in this embodiment are only schematic diagrams, and the specific installation positions need to be accurately and reasonably selected according to actual operating parameters of the air conditioner.

Further, as shown in fig. 1, when the condensation duct 2 is a U-shaped duct, the distance between the center axes of the two legs of the U-shaped duct is P, the number of the condensation ducts 2 in the condenser 1 is N, the installation height of the first outer pan temperature sensor 3 is S1, and the lower surface of the condenser 1 is a zero-height surface, the installation height S1 of the first outer pan temperature sensor 3 has a value range of: p2 < S1 < P (N/2-2).

Preferably, in the value range of S1, the position with the highest temperature is taken as the final mounting position of the first outer disk temperature sensor 3. Specifically, within the value range of S1, the specific value of the mounting height S1 of the first outer disk temperature sensor 3 may be determined by a test before shipment, and the first outer disk temperature sensor 3 is mounted at a corresponding position according to a test result.

Meanwhile, the installation height of the second external disk temperature sensor 4 is recorded as S2, and the lower surface of the condenser 1 is taken as a zero elevation surface, so that the value range of the installation height S2 of the second external disk temperature sensor 4 is as follows: p/2 < S2 < P3.

Preferably, in the value range of S2, the position with the lowest temperature is taken as the final mounting position of the second outer disk temperature sensor 4. Specifically, within the value range of S2, the specific value of the mounting height S2 of the second external disk temperature sensor 4 may be determined by a test before shipment, and the second external disk temperature sensor 4 is mounted at a corresponding position according to a test result.

Example 2

An adjusting method of an air conditioner, as shown in fig. 2, includes the steps of:

s1, starting the air conditioner to run;

s2, judging the operation mode of the air conditioner, if the operation mode of the air conditioner is a cooling mode, continuing to execute the step S3; if the operation mode of the air conditioner is the heating mode, continuing to execute the step S4; if the operation mode of the air conditioner is a mode other than the cooling and heating mode, continuing to execute the step S5;

s3, connecting the first outer disk temperature sensor 3 to the control unit of the air conditioner, and continuing to execute the step S6;

s4, connecting the second outer disk temperature sensor 4 to the control unit of the air conditioner, and continuing to execute the step S6;

s5, keeping the current state of the air conditioner unchanged, and continuing to execute the step S6;

s6, the control unit of the air conditioner acquires the temperature detection value of the first outer disk temperature sensor 3 or the second outer disk temperature sensor 4 and continues to execute the step S7;

and S7, the control unit of the air conditioner judges the current running state of the air conditioner according to the acquired temperature detection value and sends a control instruction.

When the air conditioner operates in a refrigerating mode, the temperature detection value obtained by the first outer disc temperature sensor 3 is larger than the temperature detection value obtained by the second outer disc temperature sensor 4, the first outer disc temperature sensor 3 is connected to the control unit of the air conditioner, the control unit of the air conditioner obtains the temperature detection value of the connected first outer disc temperature sensor 3, judges the current operation state of the air conditioner according to the obtained temperature detection value, and then sends out a control instruction, so that the air conditioner can be accurately and timely adjusted and controlled; correspondingly, when the air conditioner operates in heating, the temperature detection value obtained by the first outer disk temperature sensor 3 is larger than the temperature detection value obtained by the second outer disk temperature sensor 4, the second outer disk temperature sensor 4 is connected into the control unit of the air conditioner, the control unit of the air conditioner obtains the temperature detection value of the connected second outer disk temperature sensor 4, judges the current operation state of the air conditioner according to the obtained temperature detection value, and sends out a control instruction, so that the air conditioner can be accurately and timely adjusted and controlled. In addition, when the air conditioner operates in a dehumidification, ventilation or defrosting mode and the like, the current state of the air conditioner is kept unchanged, namely the access states of the first outer disc temperature sensor 3 and the second outer disc temperature sensor 4 are unchanged, the control unit of the air conditioner acquires the temperature detection value of the accessed first outer disc temperature sensor 3 or the accessed second outer disc temperature sensor 4, judges the current operating state of the air conditioner according to the acquired temperature detection value, and then sends out a control command, so that the air conditioner can be accurately and timely adjusted and controlled. Like this, the air conditioner obtains the temperature of condenser 1 through the temperature sensing of different positions respectively under the state of difference, and is more reasonable and accurate to the normal operating of air conditioner, can reach in time fast the purpose such as frequency reduction or rapid defrosting, realizes the high-efficient safe and reliable operation such as air conditioner refrigeration and heating.

Furthermore, it can be reasonably concluded that: for those skilled in the art, on the basis of the air conditioner and the control method thereof described herein, the air conditioner and the control method thereof described herein can be applied to an indoor unit or other devices by simple replacement, such as replacing the condenser 1 described herein with an indoor unit evaporator.

To sum up, the air conditioner capable of being accurately adjusted and the adjusting method thereof have the following advantages:

firstly, according to the distribution characteristics of the temperature of the outer disc of the condenser during the refrigeration and heating operation of the air conditioner, the temperature sensors of the outer disc which are accessed to respond are added and distinguished, so that the corresponding operation state parameters of the air conditioner can be fed back more accurately, the accurate adjustment and control of the air conditioner are realized, the response delay of the air conditioner is prevented, and the problems of safety and the like are avoided;

secondly, in addition, by the application of the first outer disk temperature sensor and the second outer disk temperature sensor, the optimal states of the air conditioner in operation such as refrigeration, heating and the like can be respectively achieved, and the efficient and reliable operation of the air conditioner is realized;

third, the air conditioner that can accurately adjust and adjusting method described in this application are particularly useful for configuring lower air conditioners, through selecting respectively and designing the most reasonable position and state of outer plate temperature sensor under the modes such as refrigeration and heating, have very big help to the cost reduction and efficiency improvement of air conditioner like this, can promote the competitiveness of the product by a wide margin.

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