KR100569895B1 - Method for control temperature of refrigerator - Google Patents

Abstract

The present invention relates to a temperature control method of a refrigerator, wherein a compressor is started based on a refrigerator compartment temperature, and a compressor stop is based on both a freezer compartment and a refrigerator compartment temperature, and the refrigerator compartment temperature measured by the temperature sensor corresponds to a preset refrigerator compartment temperature. When the upper limit is reached, the compressor is started, and after the temperature of any one of the freezer compartment and the refrigerator compartment measured by the temperature sensor (the freezer compartment or the refrigerator compartment measurement temperature) reaches the lower limit of the preset temperature (the freezer compartment or the refrigerator compartment set temperature). When the other temperature (freezer or fridge measurement temperature) reaches the lower limit of another preset temperature (freezer or fridge set temperature), the refrigerator control algorithm precisely controls the fridge temperature while stopping the compressor. Refrigeration of compressor initial start-up caused by excessive rise of the refrigerator compartment temperature It has an excellent effect capable of preventing a temperature rise.

In addition, since the temperature control method of the present invention as described above, not only the temperature of the refrigerator compartment but also the freezer compartment temperature is precisely controlled, and thus, the energy efficiency of the refrigerator may also be greatly improved as compared with the related art.

Refrigerator, freezer temperature, freezer temperature, freezer temperature control

Description

Method for control temperature of refrigerator

1 is a perspective view of a typical refrigerator with a freezer door and a refrigerating compartment door open.

2 is an operating state diagram of controlling a refrigerator compartment temperature by starting / stopping a compressor through a set temperature upper / lower limit of a conventional freezer compartment.

Figure 3 is a flow chart for controlling the refrigerator compartment temperature by starting / stopping the compressor through the set temperature upper limit of the refrigerating compartment and the lower limit of the set temperature of the freezer compartment and the refrigerating compartment according to the present invention.

4 is an operating state diagram of controlling the refrigerator compartment temperature by starting / stopping the compressor through the set temperature upper limit of the refrigerating compartment and the set temperature lower limit of the freezer compartment and the refrigerating compartment.

Explanation of symbols on the main parts of the drawings

F. Freezer R. Fridge

2. Main Unit 10. Blower Room

12. Blower fan 14. Freezer temperature sensor

20. Cold duct 22. Multi duct

20a, 22a. Cold air outlet 24. Cold room temperature sensor

The present invention relates to a refrigerator. More specifically, the compressor is started when the set temperature upper limit of the refrigerating chamber is reached, instead of the method of controlling the refrigerator temperature by starting / stopping the compressor when the set temperature is reached. The compressor control algorithm such as stopping the compressor when the lower limit temperature of the refrigerating chamber is reached enables precise control of the refrigerating chamber temperature. In particular, the freezer compartment temperature is prevented by increasing the freezer temperature at the initial start of the compressor caused by excessive rise of the refrigerating chamber temperature. It also relates to a temperature control method of the refrigerator to precisely control to improve the energy efficiency of the refrigerator.

In general, a refrigerator includes a freezing cycle in which a freezer compartment F and a refrigerator compartment R are partitioned by the barrier 1 as shown in FIG. 1, and the freezer compartment F and the refrigerator compartment R are kept at a low temperature. A main body 2 equipped with a device, a freezer compartment door (not shown) rotatably connected to the main body 2 to open and close the freezer compartment F, and the main body 2 to open and close the refrigerating compartment R. It is configured to include a refrigerator compartment door (not shown) rotatably connected to the).

The refrigeration cycle apparatus includes a compressor (not shown) for compressing a low temperature low pressure gas refrigerant, a condenser (not shown) in which the high pressure refrigerant compressed by the compressor is radiated to outside air, and condensed, and the refrigerant condensed in the condenser is An expansion device (not shown) to be depressurized, and an evaporator (not shown) is evaporated to take heat from the freezing chamber (F) and the refrigerating chamber (R) is a thermal expansion of the refrigerant in the expansion device.

In the case of the refrigerator configured as described above, the low-temperature low-pressure gaseous refrigerant is compressed to high temperature and high pressure by the compressor, and the compressed high-temperature high-pressure gas phase refrigerant is condensed in the course of passing through the condenser to change into a high-pressure liquid phase and into a high-pressure liquid phase. The phase-changed refrigerant is adiabaticly expanded at low temperature and low pressure while passing through an expansion valve (not shown), and then evaporates in the evaporator to take heat from the surroundings to cool the air therein. The air cooled through the evaporator forms a refrigeration cycle in which the temperature of the freezing compartment F and the refrigerating compartment R is lowered by being circulated in the freezing and refrigerating compartment by the operation of the blower fan 12 located at one side of the evaporator.

The cold air generated by the above-mentioned refrigeration cycle is discharged to the front of the freezing chamber F by driving the blower fan 12, and the cold air duct on the upper part of the refrigerating chamber R communicating with the blowing chamber 10 at the upper end of the freezing chamber F. In this case, a damper (not shown) is installed between the blower chamber 10 at the upper end of the freezing chamber F and the cold air duct 20 at the upper end of the refrigerating chamber R. By the opening and closing action to control the flow rate of the cold air flowing from the blowing chamber 10 to the cold air duct 20, in the case of the refrigerator configured as described above, the freezer compartment temperature reference to control the compressor based on the almost freezer compartment temperature (F) Control schemes will be used.

As shown in FIG. 2, the freezer compartment temperature reference control method includes a freezer compartment in which a freezer compartment F temperature measured by the temperature sensor 14 of the refrigerator is measured based on the freezer compartment F temperature. F) When the temperature rises above the upper limit, the compressor is started to circulate the refrigerant to cool the inside of the refrigerator. As described above, the compressor is started based on the temperature of the freezer compartment F, and then the damper of the refrigerator compartment R is opened. After opening and cooling the freezer compartment F and the refrigerating compartment R at the same time, when the temperature of the refrigerating compartment R drops below the lower limit of the preset refrigerating compartment R temperature, the damper is closed and only the freezer compartment F is cooled. When the temperature of the freezing compartment F is lowered below the lower limit of the preset freezing compartment F temperature, the freezing cycle is stopped and the operation of the freezing cycle is stopped.

In the case of the control method of the freezer compartment temperature reference, even when the temperature of the refrigerating compartment R exceeds the upper limit of the preset refrigerating compartment R temperature, the compressor only when the temperature of the freezer compartment F reaches the upper limit of the preset freezer compartment F temperature. Since is started, when a new load flows into the refrigerating chamber R, the temperature of the refrigerating chamber R by the new load increases, and the refrigerating chamber R temperature also when the compressor being started is stopped. Irrespective of this, since the compressor is stopped only when the temperature of the freezer compartment F becomes a reference and the freezer compartment F temperature reaches a lower limit of the preset freezer compartment F temperature, the freezer compartment temperature reference is controlled accordingly. As a method, there was a big problem that the temperature of the refrigerating chamber R cannot be precisely controlled.

As described above, when the compressor is initially started, the damper of the refrigerator compartment R is opened to simultaneously cool the refrigerator compartment R and the freezer compartment F. In this case, when the temperature of the refrigerator compartment R becomes too high, the damper opened. As a result, the freezing compartment F temperature is also increased, so that the freezing compartment F temperature can not be precisely controlled.

In addition, as described above, there is a big problem that the energy efficiency of the refrigerator due to the rise in the freezer compartment F due to the initial startup of the compressor is greatly reduced.

In order to solve the above problems, the present invention provides a refrigerator compartment in which a compressor startup is based on a refrigerating chamber temperature, and a compressor stop is based on both temperatures of a freezer compartment and a refrigerating chamber, and the refrigerating compartment temperature measured by the temperature sensor is preset. When the upper limit of the temperature is reached, the compressor is started, and the temperature of any one of the freezer compartment and the refrigerator compartment measured by the temperature sensor (freezer compartment or the refrigerator compartment measurement temperature) reaches the lower limit of the preset temperature (freezer compartment or the refrigerator compartment set temperature). Then, when the other temperature (freezer or refrigerator measurement temperature) reaches the lower limit of the other preset temperature (freezer or refrigerator set temperature), the refrigerator control temperature is precisely controlled through a compressor control algorithm that stops the compressor. At the same time, the initial startup of the compressor caused by excessive rise of the refrigerating chamber temperature The purpose is to prevent the freezer temperature rise.

In addition, since the temperature control method of the present invention as described above, not only the temperature of the refrigerator compartment but also the freezer compartment temperature is precisely controlled, and thus the energy efficiency of the refrigerator is further improved. .

The object of the present invention is to set the upper and lower limits of the set temperature of the freezer compartment and the refrigerating compartment, respectively, to start the compressor when the refrigerating compartment temperature measured by the temperature sensor reaches the set temperature upper limit of the refrigerating compartment, and measured by the temperature sensor. After the temperature of one of the freezer and refrigerator compartments reaches the lower limit of the preset temperature, the temperature of the refrigerator compartment is controlled by a compressor control algorithm that stops the compressor when the other temperature also reaches the lower limit of the other preset temperature. The bar can be solved by the temperature control method of the refrigerator configured to precisely control, will be described in detail with reference to the accompanying drawings.

Figure 3 shows a flow chart for controlling the refrigerator compartment temperature by starting / stopping the compressor through the set temperature upper limit of the refrigerating compartment and the set temperature lower limit of the freezer compartment and the refrigerating compartment, according to the present invention, Figure 4 is the upper limit of the set temperature of the refrigerating compartment and the freezer compartment And an operating state diagram of controlling the refrigerator compartment temperature by starting / stopping the compressor through the set temperature lower limit of the refrigerator compartment.

The temperature control method of the refrigerator of this invention is the refrigerator which reduces the temperature of the freezer compartment F and the refrigerating compartment R using cold air produced | generated by the refrigerating cycle;

The compressor is started when the temperature of the refrigerating chamber R measured by the temperature sensor 24 reaches the set temperature upper limit of the refrigerating chamber R by setting the upper and lower limits of the set temperature of the freezer compartment F and the refrigerating chamber R, respectively. The temperature of any one of the temperatures of the freezer compartment F and the refrigerator compartment R measured by the temperature sensors 14 and 24 (the freezer compartment F or the refrigerator compartment R measurement temperature) is a preset temperature (freezer compartment). After reaching the lower limit of (F) or the set temperature of the refrigerating chamber (R), the other temperature (freezing chamber (F) or the refrigerating chamber (R) measurement temperature) is also set to another preset temperature (freezing chamber (F) or refrigerating chamber (R). It is to control the temperature of the refrigerating chamber (R) precisely through a compressor control algorithm that stops the compressor when the lower limit of the set temperature) is reached.

At this time, the compressor control algorithm, the step of setting the temperature range of the freezer compartment (F) and the refrigerator compartment (R) so that the compressor can be started / stopped according to the set temperature of the freezer compartment (F) and the refrigerator compartment (R) ( 110);

Measuring (120) the temperatures of the freezer compartment (F) and the freezer compartment (R) through temperature sensors (14) (24) installed in the freezer compartment (F) and the refrigerator compartment (R);

Comparing and determining (130) whether the measured temperature of the refrigerating chamber (R) reaches an upper limit of the set temperature of the refrigerating chamber (R);

When it is determined that the measured temperature of the refrigerating compartment (R) reaches an upper limit of the set temperature of the refrigerating compartment (R), starting the compressor to allow a refrigeration cycle (140);

The temperature of any one of the measured temperatures of the freezer compartment F and the refrigerator compartment R (freezer compartment F or the refrigerator compartment R measurement temperature) is set to a preset temperature (freezer compartment F or the refrigerator compartment R set temperature). Comparing and determining whether a lower limit has been reached (150);

When it is determined that any one of the measured temperatures of the freezer compartment F and the refrigerator compartment R has reached the lower limit of the predetermined temperature, the other temperature (freezer compartment F or the refrigerator compartment R measurement temperature) is also determined. Comparing and determining whether a lower limit of another predetermined temperature (freezer compartment F or refrigerator compartment R set temperature) has been reached (160);

After the temperature of any one of the temperatures of the freezer compartment F and the refrigerating compartment R measured by the temperature sensors 14 and 24 reaches a lower limit of the preset temperature, the other temperature is also set to the other preset temperature. When it is determined that the lower limit has been reached, step 170 of stopping the compressor in operation is made.

Hereinafter, the temperature control method of the refrigerator of the present invention will be described in detail.

The temperature control method of the refrigerator of the present invention starts the compressor when the temperature of the freezer compartment F measured by the temperature sensor 14 on the basis of the freezer compartment F reaches the upper / lower limit of the preset freezer compartment F temperature. Compared with the conventional method of controlling the temperature of the refrigerator compartment R by stopping / compressing, the compressor start is based on the temperature of the refrigerator compartment R, and the compressor stop is based on both the temperatures of the freezer compartment F and the refrigerator compartment R. When the temperature of the refrigerating chamber R measured by 24 reaches the upper limit of the predetermined temperature of the refrigerating chamber R, the compressor is started, and the freezing chamber F and the refrigerating chamber measured by the temperature sensors 14 and 24 ( After the temperature of any one of R) (freezer compartment F or refrigerator compartment R measurement temperature) reaches the lower limit of the preset temperature (freezer compartment F or refrigerator compartment R set temperature), the other temperature is reached. (Freezing Room (F) or Refrigerating Room (R) Measurement Temperature) also other preset temperatures (Freezing Room (F)). Alternatively, the compressor is controlled precisely through a compressor control algorithm such as stopping the compressor when the lower limit of the set temperature of the refrigerator compartment R is reached, and at the same time, the compressor caused by excessive rise in the refrigerator compartment temperature. As it is possible to prevent the freezing chamber (F) temperature rise of the initial startup, the present invention will be described in detail. The same reference numerals will be applied to the same configurations as those of the present invention and the conventional art described above.

As shown in FIG. 3, the temperature control method of the refrigerator according to the present invention sets the upper and lower limit values of the set temperatures of the freezing compartment F and the refrigerating compartment R, respectively, and measures the refrigerating compartment measured by the temperature sensor 24 ( R) When the temperature reaches the upper limit of the set temperature of the refrigerating chamber (R), the compressor is started, and the temperature of any one of the temperatures of the freezer compartment (F) and the refrigerating chamber (R) measured by the temperature sensors (14, 24). After the (freezing chamber F or the refrigerating chamber R measurement temperature) reaches the lower limit of the preset temperature (the freezing chamber F or the refrigerating chamber R set temperature), the other temperature (the freezing chamber F or the refrigerating chamber R) ) The measured temperature) can also precisely control the temperature of the refrigerating compartment (R) through a compressor control algorithm that stops the compressor when it reaches the lower limit of another preset temperature (freezer compartment (F) or refrigerating compartment (R) set temperature). It would be.

At this time, the compressor control algorithm, as shown in Figures 3 and 4, the freezer compartment (F) and the refrigerating compartment so that the compressor can be started / stopped according to the set temperature of the freezer compartment (F) and the refrigerator compartment (R). Setting a temperature range of (R) (110); Measuring (120) the temperatures of the freezer compartment (F) and the freezer compartment (R) through temperature sensors (14) (24) installed in the freezer compartment (F) and the refrigerator compartment (R); Comparing and determining (130) whether the measured temperature of the refrigerating chamber (R) reaches an upper limit of the set temperature of the refrigerating chamber (R); When it is determined that the measured temperature of the refrigerating compartment (R) reaches an upper limit of the set temperature of the refrigerating compartment (R), starting the compressor to allow a refrigeration cycle (140); The temperature of any one of the measured temperatures of the freezer compartment F and the refrigerator compartment R (freezer compartment F or the refrigerator compartment R measurement temperature) is set to a preset temperature (freezer compartment F or the refrigerator compartment R set temperature). Comparing and determining whether a lower limit has been reached (150); When it is determined that any one of the measured temperatures of the freezer compartment F and the refrigerator compartment R has reached the lower limit of the predetermined temperature, the other temperature (freezer compartment F or the refrigerator compartment R measurement temperature) is also determined. Comparing and determining whether a lower limit of another predetermined temperature (freezer compartment F or refrigerator compartment R set temperature) has been reached (160); After the temperature of any one of the temperatures of the freezer compartment F and the refrigerating compartment R measured by the temperature sensors 14 and 24 reaches a lower limit of the preset temperature, the other temperature is also set to the other preset temperature. When it is determined that the lower limit has been reached, step 170 of stopping the compressor in operation is made.

As described above through the steps 110 to 160, the compressor start is based on the temperature of the refrigerating chamber R, and the compressor stop is based on the temperature of both the freezer compartment F and the refrigerating chamber R. When the temperature of the refrigerating chamber R measured by the sensor 24 reaches the upper limit of the predetermined temperature of the refrigerating chamber R, the compressor is started, and the freezing chamber F measured by the temperature sensors 14 and 24 and After the temperature of any one of the temperatures of the refrigerator compartment R (freezer compartment F or the measured temperature of the refrigerator compartment R) reaches the lower limit of the preset temperature (the refrigerator compartment F or the refrigerator compartment R set temperature), the other one Temperature (freezer compartment (F) or refrigerator compartment (R) measurement temperature) also stops the compressor when it reaches the lower limit of another preset temperature (freezer compartment (F) or refrigerator compartment (R) set temperature). ) Temperature can be controlled precisely, especially on the freezer compartment (F) temperature Energy efficiency of the refrigerator by preventing the win also has a feature that can be significantly improved compared to the prior art.

The process of controlling the refrigerating compartment temperature in contrast to the flow chart shown in FIG. 3 will now be described in detail.

First, the temperature range of the freezer compartment F and the refrigerating compartment R (upper / lower limit values of the freezer compartment temperature and the upper side of the refrigerating compartment temperature) so that the compressor can be started / stopped according to the set temperatures of the freezer compartment F and the refrigerator compartment R. / Lower limit value), and then, the temperature of the freezing compartment F and the refrigerating compartment R is respectively measured through the temperature sensors 14 and 24 installed in the freezing compartment F and the refrigerating compartment R, respectively. In order to start the compressor at a standstill, the measured refrigerating chamber R temperature reaches an upper limit of the set temperature of the refrigerating chamber R and the predetermined refrigerating chamber R and the preset refrigerating chamber R. Comparison determination 130 of the upper limit of the temperature is performed.

At this time, if it is determined that the temperature of the refrigerating chamber R measured by the temperature sensor 24 reaches the upper limit of the predetermined temperature of the refrigerating chamber R, the compressor is started to perform a refrigeration cycle (140). On the contrary, when it is determined that the measured temperature of the refrigerating chamber R does not reach the upper limit of the predetermined temperature of the refrigerating chamber R, the compressor maintains a stopped state in which the compressor is not started.

In addition, as a method for stopping the compressor in operation, first of any one of the temperatures of the freezer compartment F and the refrigerator compartment R (freezer compartment F or the refrigerator compartment) measured by the temperature sensors 14 and 24. (R) measurement temperature) is compared to reach the lower limit of the predetermined temperature (freezer compartment F or the refrigerator compartment (R) set temperature) is determined 150, the freezer compartment (F) and the refrigerator compartment (R) measured as described above. If it is determined that any one of the temperatures of the temperature reaches the lower limit of the preset temperature, another temperature (freezer compartment F or refrigerator compartment measured temperature) is also the other preset temperature (freezer compartment F or The comparison determination 160 determines whether the lower limit value of the refrigerating chamber R has been reached, on the contrary, on the contrary, the temperature of any one of the measured temperatures of the freezer compartment F and the refrigerating chamber R (freezer compartment F or the refrigerating compartment ( R) Measurement temperature) is set to a preset temperature (freezer (F) or refrigerator (R)) If it is determined that the lower limit of the temperature) is not reached, the compressor is started until the temperature of any one of the measured temperatures of the freezer compartment F and the refrigerating compartment R reaches the lower limit of the preset temperature. Will be maintained.

In addition, as the temperature of any one of the temperatures of the freezer compartment F and the refrigerating compartment R measured as described above reaches the lower limit of the preset temperature (150), another temperature for stopping the compressor (freezer compartment F). Alternatively, the refrigerator (R) measurement temperature) is also compared to determine whether the lower limit of the other predetermined temperature (freezer (F) or the refrigerator (R) set temperature) has reached the comparison 160, at this time another determination step (160) When it is determined that one temperature also reaches the lower limit of the other preset temperature, the compressor in operation is stopped (170) to stop the operation of the refrigeration cycle, on the contrary, the measured freezer compartment (F) and the refrigerator compartment (R). If it is determined that another temperature (freezer compartment F or refrigerator compartment temperature) of the temperature of does not reach the lower limit of another preset temperature (freezer compartment F or refrigerator compartment R set temperature), Said another one came This will also keep the activation state of the compressor until it reaches the lower limit value of the other predetermined temperature.

At this time, the temperature of any one of the temperature of the freezer compartment (F) and the freezer compartment (R) measured by the temperature sensor (14, 24) in comparison with Figure 3 (freezer compartment (F) or the refrigerator compartment (R) measurement Comparing and determining whether the temperature has reached the lower limit of the predetermined temperature (the freezing chamber F or the refrigerating chamber R set temperature), and another temperature (the freezing chamber F or the refrigerating chamber R measuring temperature). ) Also in the step of comparing and determining (160) whether the lower limit of the other predetermined temperature (freezer (F) or the refrigerator (R) set temperature) has been reached, so that any one of the above temperature is easier to understand. In the part of comparing and determining 150 when the lower limit of the set temperature is reached, the determination unit is represented by the lower limit of the temperature of the refrigerating chamber R and the predetermined temperature of the refrigerating chamber R measured by the temperature sensor 14.

In addition, in the part of comparing and determining 160 whether another temperature has also reached the lower limit of the other preset temperature, the freezer compartment F measured by the temperature sensor 24 is the lower limit of the preset freezer compartment F temperature. The judgment part was shown.

As such, when controlling whether the compressor is started or not through the compressor control algorithm, as described above, the temperature of the refrigerator compartment R can be more precisely controlled than in the related art, and in particular, the temperature of the refrigerator compartment R is excessively increased. There is also a feature that can prevent the rise of the freezer compartment (F) temperature caused by the initial startup of the compressor.

The temperature control method of the refrigerator as described above is not only a side-by-side type refrigerator in which the freezer compartment F and the refrigerating compartment R are divided into left and right sides, but also a freezer compartment ( F) Top Mount-Type Refrigerator with top and bottom compartments R and Bottom Freezer-Type with Top and Bottom compartments F and R compartments Note that it can also be applied to refrigerators, etc.).

In the method of controlling the temperature of the refrigerator of the present invention, the compressor is started based on the refrigerator compartment temperature, and the compressor is stopped based on both the freezer compartment and the refrigerator compartment temperature, and the refrigerator compartment temperature measured by the temperature sensor reaches an upper limit of the preset refrigerator compartment temperature. The compressor is started and the temperature of any one of the freezer compartment and the refrigerator compartment measured by the temperature sensor (the freezer compartment or the refrigerator compartment measurement temperature) reaches the lower limit of the preset temperature (the freezer compartment or the refrigerator compartment set temperature), and the other one. The temperature of the refrigerator compartment or the refrigerator compartment temperature is also controlled at the same time as the refrigerator compartment temperature is precisely controlled by a compressor control algorithm that stops the compressor when the lower limit of the other preset temperature (the refrigerator compartment or the refrigerator compartment preset temperature) is reached. Freezer temperature rise during initial compressor start-up caused by It has an excellent effect that can be prevented.

In addition, since the temperature control method of the present invention as described above, not only the temperature of the refrigerator compartment but also the freezer compartment temperature is precisely controlled, and thus, the energy efficiency of the refrigerator may also be greatly improved as compared with the related art.

Claims (2)

A refrigerator which reduces the temperature of a freezer compartment and a refrigerator compartment using the cold air produced | generated by the refrigerating cycle; Setting a temperature range of the freezing compartment and the refrigerating compartment so that the compressor can be started / stopped according to the set temperatures of the freezing compartment and the refrigerating compartment; Measuring the temperatures of the freezer compartment and the refrigerator compartment through temperature sensors installed in the freezer compartment and the refrigerator compartment; Comparing and determining whether the refrigerator compartment temperature measured by the temperature sensor reaches an upper limit of a set temperature range; Determining that the measured refrigerating compartment temperature reaches an upper limit of a set temperature, starting a compressor to perform a refrigeration cycle; Re-measuring the temperature of the refrigerating compartment after a predetermined time elapses from the time when the compressor is started; Comparing and determining whether the temperature of the re-measured refrigerator compartment has reached a lower limit of a predetermined temperature; Re-measuring the temperature of the freezer compartment if it is determined that the measured temperature of the refrigerating compartment has reached a lower limit of a predetermined temperature; Comparing and determining whether the temperature of the re-measured freezer compartment reaches a lower limit of a predetermined temperature; And stopping the compressor in operation when it is determined that the temperature of the re-measured freezer compartment reaches a lower limit of a preset temperature. delete

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