KR20020088658A - Pipe-search-Methode of multi type air-conditioner - Google Patents

Abstract

PURPOSE: A method for initially probing tube of multi-split type air conditioner is provided to prevent miss-piping in advance. CONSTITUTION: A method includes the steps of: a first step(S11) determining whether a cooling tube or a heating tube is probed and collectively reporting to indoor units; a second step(S12) driving a compressor of an outdoor unit at appropriate frequency needed for heating or cooling according to the determination in the first step and opening all of electronic expansion valves placed on the tube; a third step(S13) stabilizing a system for fixed time; a fourth step closing and opening the electronic expansion valves in order at regular intervals and selecting maximum inflection point from at least one inflection point of tube temperature generated at each of the time intervals to store signal according to the maximum inflection point in each of the indoor units on each of the time intervals; a fifth step(S15) opening all of the electronic expansion valves and transmitting signal stored in each of the indoor unit to the outdoor unit; and a sixth step(S16) in which the outdoor unit gives each of the indoor unit a fixed number.

Description

Pipe-search-method of multi type air-conditioner

The present invention relates to a multi air conditioner, and more particularly, to an initial pipe search method of a multi air conditioner.

In general, as shown in FIG. 1, a multi-air conditioner includes one outdoor unit 1 provided outdoors, several indoor units 2 provided in each room, and a communication line power source interconnecting the outdoor unit and each indoor unit. It consists of a line and a pipe (3) is large, it is a device for the multi-type air-conditioning of each room installed indoor unit in the central microcomputer (not shown) by connecting several indoor units (2) in parallel to one outdoor unit (1).

Accordingly, when connecting a plurality of indoor units (2) to a single outdoor unit (1) pipe (3), it is very important that the information about the location of the indoor unit (2) is accurately transmitted to the outdoor unit (1), in general, When several indoor units 2 are connected to one outdoor unit 1, the pipes 3 have difficulty in connection. As a result, the pipes are incorrectly connected, which causes deterioration of the reliability of the multi-air conditioners.

On the other hand, in order to solve such a problem, the prior art first connects each indoor unit 2 to the outdoor unit 1 by a pipe 3, and then assigns a number to the indoor unit, and operates the indoor unit according to the specified number. The initial pipe search method was used, and the specific configuration is as follows.

First, the initial pipe search method under the cooling condition, as shown in Figure 2a, initializing the system for 0-T1 time (S1), and whether the cooling pipe search in the outdoor unit (1) for T1-T2 time? Determining whether to conduct heating pipe search (here, cooling pipe search) and notifying the indoor unit 2 collectively (S2), and during cooling or heating of the compressor 1a of the outdoor unit 1 for T2-T3 time. A step (S3) which operates at the appropriate frequency necessary for opening and opens all the electronic expansion edges 4 and LEV, and closes the 1st electronic expansion edge LEV1 at T3 time, and opens the 1st electronic expansion edge again at T4 time. In step B (S4) of transmitting the signal according to the inflection point of the instantaneous piping temperature appearing to the outdoor unit, and after the number of the indoor unit (2), if there are six indoor units, second, third, four, five, six The electron expansion sides (LEV2, 3, 4, 5, 6) were closed in order of the set time (T5, T6, T7, T8 T9), respectively. For example, step C (S5) of transmitting the signal according to the inflection point of the instantaneous piping temperature generated at each time point to the outdoor unit 1 at each time point, and the signals according to the inflection point of the instantaneous piping temperature by the outdoor unit 1 are hourly In step S6, the outdoor unit 1 assigns the determined number to each indoor unit 2 at the final point of time, and when the determined number is given, the compressor 1a of the outdoor unit 1 is turned off for a predetermined time. Initializing the outdoor unit while all the electronic expansion edges 4 are closed (S7), and then the normal communication (S8).

Herein, the steps B4 and C5 are described in detail.

When each of the electronic expansion edge 4 is instantaneously turned on / off, the instantaneous piping temperature rises and falls because the refrigerant flowing into the indoor unit 2 is blocked for a predetermined time. In this case, when the inflection point is generated, a signal corresponding to the inflection point of the pipe 3 temperature is transmitted to the microcomputer (not shown) of the outdoor unit 1 through the communication line at each time point.

Secondly, the initial pipe search method under heating conditions is almost similar to the initial pipe search method under the cooling conditions, as shown in FIG. The compressor 1a is reduced by half to operate the compressor 1a (S3-1), and then a step S3 is performed after a predetermined time. In addition, when performing the step B or C step, the instantaneous piping temperature drops and rises in contrast to the initial pipe search method under the cooling conditions. In this case, the moment the inflection point occurs, the pipe (3) to the microcomputer of the outdoor unit (1) The signal according to the inflection point of the temperature is transmitted through the communication line.

However, the initial pipe search method of the multi-air conditioner according to the prior art made as described above had the following problems.

First, after operating the compressor 1a at an appropriate frequency and simultaneously opening the entire electronic expansion valve 4 (S3), immediately performing step B (S4), so that the system B is not stable enough. There was a problem that an error occurs in the number determination of each indoor unit (2).

Second, in the process of performing step B (S4) or step C (S5), it is asked whether the inflection point of the instantaneous piping temperature, which appears as each electronic expansion edge 4 is turned on or off, is caused by an external environment or disturbance. As soon as the inflection point appears, the inflection point of the pipe temperature is transmitted to the outdoor unit 1, so that the thermistor (not shown) of the indoor unit 2 does not have enough time to detect the accurate temperature change of the pipe, There was a problem that an error occurred in the numbering of each indoor unit 2.

The present invention has been made to solve the problems of the prior art, by improving the pipe search method of the multi-air conditioner so that the number of each indoor unit is correctly specified, the purpose is to block the problem of mis-pipe in advance.

1 is a block diagram showing the configuration of a general multi-air conditioner.

Figure 2a, according to the prior art, a flow chart showing the initial pipe search method during cooling.

Figure 2b is in accordance with the prior art, a flow chart showing the initial pipe search method during heating.

Figure 3a, according to the present invention, a flow chart showing the initial pipe search method during cooling.

Figure 3b is another flow chart of the present invention, the initial pipe search method for heating.

Explanation of symbols for main parts of the drawings

1: outdoor unit 2: indoor unit

3: piping 4: electromagnetic expansion valve

In order to achieve the above object, the present invention connects several indoor units to one outdoor unit by piping, and then assigns a number to the indoor unit, and then operates an indoor unit according to the designated number to operate the initial air conditioner for multi-air conditioners. To; Determining whether to perform a cooling pipe search or a heating pipe search in the outdoor unit and notifying the indoor unit collectively; and when cooling or heating the compressor of the outdoor unit according to the pipe search determined in the first step. A second step of operating at the proper frequency required and opening all of the electron expansion edges provided on the pipe; a third step of stabilizing the system for a predetermined time; and closing and opening the respective electron expansion edges in a predetermined time interval. Selecting a maximum inflection point among at least one inflection point of the pipe temperature generated at each time interval and storing a signal according to the inflection point in each indoor unit at each time interval; A fifth step of transmitting a signal stored in each indoor unit to the outdoor unit; Includes the sixth step to give the final group numbers provides navigation in pipe air conditioner, characterized by yirueojim sequentially.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3A is a flowchart illustrating an initial pipe search method for cooling according to the present invention, and FIG. 3B is a flowchart illustrating an initial pipe search method for heating according to the present invention.

Prior to the description of the drawings, since the general structure of the multi-air conditioner has been mentioned in the prior art, the description thereof is omitted, and the same reference numerals as in the prior art are given only to the same configuration as the prior art.

In the initial pipe search method of the multi-air conditioner according to the present invention, as shown in FIG. 3A or 3B, a plurality of indoor units 2 are connected to a single outdoor unit 1 by piping 3, and then the indoor unit 2 In the initial piping search method of the multi-air conditioner to operate the indoor unit according to the specified number to designate a number) to air conditioning each room; A first step (S11) of determining whether to perform a cooling pipe search or a heating pipe search in the outdoor unit (1) and notifying the indoor unit collectively; and according to the pipe search determined in the first step, the outdoor unit (1) Step (S12) for operating the compressor 1a at a proper frequency necessary for cooling or heating and opening all of the electromagnetic expansion edges 4 and LEV provided on the pipe 3, and for a predetermined time. The third step (S13) of stabilizing the system, and the respective inflation time (4, LEV) in order to close the interval in order to open and close the maximum inflection point of the at least one or more inflection point of the pipe temperature generated at each time interval. A fourth step S14 of selecting and storing a signal according to the inflection point in each indoor unit 2 at each time interval; and opening all of the electronic expansion edges 4 and receiving the signal stored in each indoor unit 2; Song to outdoor unit (1) Step 5 (S15), and the outdoor unit (1) includes a first step 6 (S16) that gives the number determined by each of the indoor unit 2 is made in order to.

At this time, the predetermined time of the third step S13 is preferably a time from when the compressor 1a is operated to a time when the refrigerant is supplied to the entire system while the compressor is running smoothly. More specifically, it is more preferable that the time from the time when the compressor 1a is operated to the time when the refrigerant is supplied to the entire system so that the temperature of the pipe 3 is balanced with the temperature of the refrigerant.

In addition, in the predetermined time of the fourth step S14, when the electronic expansion edge 4 is closed, not only a large temperature change due to the system itself but also a small temperature change due to disturbance appear. If detected, it is preferably the time until the temperature change is recognized as the maximum inflection point.

In detail, the temperature change of the pipe 3 due to disturbance generally has a relatively small inflection point, while the temperature change of the pipe 3 due to the compression force of the compressor 1a, which is the system itself, has a relatively large inflection point. Has That is, since the inflection point of the pipe temperature indicated by the system itself is significantly different from the inflection point of the pipe temperature indicated by the disturbance, if the inflection point that is noticeably different during the detection of the temperature change several times is detected, the inflection point of the pipe temperature and the pipe of the pure compressor 1a It is recognized as an inflection point indicated by the length of (3), and the time until this becomes the predetermined time mentioned above.

3A and 3B, the initial pipe search method of the multi-air conditioner according to the present invention will be described in detail as follows.

First, the initial pipe search method under the cooling conditions, as shown in Figure 3a, the power is turned on to initialize the system, by determining whether the cooling pipe search or heating pipe search in the outdoor unit (1) Piping search) The indoor unit 2 is collectively notified.

When the cooling pipe search is determined, the compressor 1a of the outdoor unit 1 is operated at an appropriate frequency required for cooling, and all of the electromagnetic expansion sides 4 provided on the pipe 3 are opened. Thus, after the compressor 1a is operated at an appropriate frequency, the refrigerant is supplied to the whole system to stabilize the system during the time when the temperature of the pipe is balanced with the temperature of the refrigerant.

Subsequently, if the number of indoor units 2 is assumed to be six, the maximum inflection point among the inflection points of at least one or more pipe temperatures generated at each time interval is closed and opened in order in a predetermined time interval. When the inflection point of the pipe temperature according to the system itself is detected, the signal according to the inflection point is stored in each indoor unit 2 at each time interval.

Then, all of the electronic expansion edges 4 are opened and a signal stored in each indoor unit 2 is transmitted to the outdoor unit 1, and the outdoor unit is assigned a number determined by each indoor unit.

Thereafter, after passing a predetermined communication waiting time, one outdoor unit 1 and several indoor units 2 perform normal communication.

Secondly, the initial pipe search method under heating conditions is almost similar to the initial pipe search method under the cooling conditions as shown in FIG. 3B, and only when the second step S12 is performed, the compressor 1a is unreasonable. First, the compressor is operated by reducing the frequency in half (S12-1) so that the second step (S12) is performed after a predetermined time. In addition, when performing the fourth step (S14), the instantaneous piping temperature drops and rises opposite to the initial pipe searching method under the cooling condition.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be implemented. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

As described above, the present invention is to improve the pipe search method of the multi-air conditioner so that the number of each indoor unit is correctly specified, has the following effects.

First, after performing in the second step, instead of performing the fourth step immediately, by placing the third step, which is the system stabilization step, the reliability of the pipe temperature change is guaranteed, so that the number of each indoor unit is accurately determined. .

Secondly, as the fourth, fifth, and sixth steps are performed, whether the inflection point of the pipe temperature that appears after the electronic expansion valve is closed is accurately detected by the external environment (disturbance) or systemic, and the signal according to the inflection point is transmitted to the outdoor unit. In other words, the number of each indoor unit is accurately determined.

Claims (3)

In the initial pipe search method of the multi-air conditioner to connect several indoor units to a single outdoor unit by piping, and then assign a number to the indoor unit and operate the indoor units according to the specified number to air condition each room. A first step of determining whether to perform a cooling pipe search or a heating pipe search in the outdoor unit and notifying the indoor unit collectively; A second step of operating the compressor of the outdoor unit at an appropriate frequency required for cooling or heating according to the pipe search determined in the first step, and opening all of the electromagnetic expansion edges respectively provided on the pipe; A third step of stabilizing the system for a period of time, The electronic expansion edges are closed and opened in order at predetermined time intervals, and the maximum inflection point is selected from at least one inflection point of the pipe temperature generated at each time interval, and the signal according to the inflection point is stored in each indoor unit at each time interval. The fourth step, A fifth step of opening all the electronic expansion edges and transmitting a signal stored in each indoor unit to the outdoor unit; And a sixth step of assigning a number determined by each of the indoor units to be sequentially performed. The method of claim 1, The predetermined time of the third step, the pipe search method of the multi-air conditioner, characterized in that the time from the time the compressor is running to the time when the refrigerant is supplied to the entire system while the compressor is running smoothly. The method of claim 1, In the predetermined time of the fourth step, when the electronic expansion valve is closed, not only a large temperature change due to the system itself but also a small temperature change due to disturbance appear. At this time, a large temperature change due to the system itself is detected and the temperature change is maximized. Piping search method of a multi-air conditioner, characterized in that it is time until the inflection point is recognized.