KR0125751B1 - Testing method for icing of icing machine - Google Patents

Abstract

The method comprises steps of On/Off decision, On/Off integration and making ice test. In the On/Off decision step, On/Off time is determined according to the operation of micro-switch by the ice volume. In the On/Off integration step, the number of On/Off is counted and compared with the reference number. In the making ice test step, the testing is performed if the counted number is over the reference number. Thereby, the test is performed accurately with user's convenience.

Description

How to inspect ice machines

1 is a schematic longitudinal cross-sectional view of an ice maker in accordance with the present invention;

2 is a control block diagram of an ice making apparatus for an ice maker according to an embodiment of the present invention;

3A and 3B are flowcharts showing the ice-making inspection operation procedure of the ice maker according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: DC power supply means 20: control means

30: feed water pump driving means 40: temperature sensing means

50: fan motor driving means 60: moving motor driving means

The present invention relates to an automatic ice maker for a refrigerator, and more particularly, to an ice making inspection method of an ice maker for checking whether the ice making operation of the apparatus is performed correctly.

In general, in the conventional automatic ice maker, the automatic ice maker is mounted on the lower end of the gearbox in the freezer compartment to check whether the automatic ice maker performs a series of ice making operations, which include water supply, ice making, ice breaking, and ice storage. A separate test switch (TEST SWITCH) was used.

That is, when the test switch is turned on, it is possible to check whether the ice making operation of the automatic ice maker is performed correctly by performing a series of ice making operations including water supply, ice making, ice making, and ice storage once.

However, in such a method, since a separate test switch must be used to inspect whether the automatic ice maker is shipped correctly or abnormally when the automatic ice maker is shipped, there is a problem that the manufacturing cost is complicated while the configuration is complicated.

In addition, since the test switch is mounted at the lower end of the gearbox, that is, the position which is not easily found by the user, the user requests A / S at every abnormality of the automatic ice maker, thereby making it bothersome and cumbersome for both producers and consumers. There was a problem that the time consumed increases.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention by using the storage amount detection lever for detecting the amount of ice stored in the storage vessel the user several times within a predetermined time the storage amount detection lever It is possible to reduce the manufacturing cost because it is possible to check whether the ice maker is performing the ice making operation correctly by switching to the ice making inspection mode which performs a series of ice making actions according to the repeated raising and lowering (for example, five times or more). It is possible to provide an ice making inspection method of an ice maker that is simple in construction.

It is another object of the present invention to provide an ice making inspection method of an ice maker that is easy to use and can satisfy the user's satisfaction with a product because the user can easily inspect whether the ice making operation of the ice making machine is properly performed. .

In order to achieve the above object, the ice-making inspection method of the ice maker according to the present invention includes an on / off discrimination step for determining an on / off time of the microswitch according to the shanghai movement of the ice storage detection lever, and the on / off discrimination step. An on / off integration step for integrating the microswitch on / off count according to an on or off time and determining whether the predetermined number or more is set in the control means, and the on / off count accumulated in the on / off integration step; If the predetermined number of times or more, the micro switch is characterized by consisting of an ice making test step of performing the ice making operation by switching to the ice making test mode in accordance with the on / off elapsed time.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, a water supply tank 2 for storing an ice making material is provided in the lower end of the partition wall partitioning the freezing compartment 1a and the refrigerating compartment 1b of the refrigerator body 1, that is, the refrigerating compartment 1b. A water supply pump 31 is provided at the lower end of the water supply tank 2 and supplies water stored in the water supply tank 2 to the ice making plate 4 mounted in the freezing chamber 1a through the water supply pipe 3. Is equipped.

In addition, a cooling fan 51 is provided to supply the cool air generated in the evaporator 5 to the periphery of the ice tray 4 so as to ice the ice-making material supplied to the ice tray 4 by the water pump 31. At the lower end of the ice tray 4, a storage container 6 for storing ice I iced by the cooling fan 51 is mounted.

In addition, on one side of the ice tray 4, a storage amount detection lever 7 for detecting the amount of ice (I) stored in the storage container (6) is rotatably mounted around the hinge point (7a), On one side of the storage amount sensing lever 7 is a micro switch 8 which is operated on or off by the storage amount sensing lever 7 which moves up and down according to the amount of ice I stored in the storage container 6. Is equipped.

As shown in FIG. 2, the DC power supply means 10 converts and supplies commercial AC power from an AC power input terminal (not shown) into a predetermined DC voltage necessary for the operation of the automatic ice maker, and supplies the control means 20. The microcomputer which receives the DC power supplied from the DC power supply unit 10 and at the same time receives the ON or OFF signal from the micro switch 8 to initialize the automatic ice maker and controls the overall ice making operation. to be.

In addition, the feed water pump driving means 30 receives the control signal output from the control means 20 and drives the feed water pump 31 to supply the deicing water stored in the feed water tank 2 to the ice making plate 4. To control.

In addition, the temperature sensing means 40 detects the temperature of the water supplied to the ice making plate 4 by the feed water pump driving means 30, and outputs the temperature sensing data to the control means 20, and drives the fan motor. The means 50 receives the control signal from the control means 20 and discharges cool air generated in the evaporator 5 to the periphery of the ice making plate 4 so as to ice water supplied to the ice making plate 4. Drive control of the cooling fan 51 is carried out.

The moving motor driving means 60 receives the control signal output from the control means 20 and drives the moving motor 61 to ice the ice I in the ice tray 4 onto the ice storage container 6. .

Hereinafter, the operation effect of the ice making inspection method of the ice maker comprised as mentioned above is demonstrated.

3A and 3B are flowcharts showing the ice making inspection operation procedure of the ice maker according to the present invention. In FIGS. 3A and 3B, S denotes a step.

First, when power is supplied to the automatic ice maker, the DC power supply unit 10 receives commercial AC power from an AC power input terminal (not shown) and converts it into a predetermined DC voltage necessary for the operation of the automatic ice maker. Output to

Accordingly, in step S1, the control means 20 receives the DC voltage from the DC power supply means 10 and initializes the automatic ice maker according to the ice making test function. In step S2, the control means 20 stores the storage vessel. Clears the number of times of turning on (A) and the number of times of turning off (B) of the microswitch 8 which changes according to the shanghai east of the ice level detection lever 7 which detects the amount of ice (I) stored in the circuit. do.

Subsequently, in step S3, it is determined whether the micro switch 8 is turned on as the storage amount detecting lever 7 moves upward, and the micro switch 8 is turned on (Yes). In step S4, the time Ton at which the microswitch 8 is turned on is counted by a timer built in the control means 20, and the reference time t1 at which the counter-on time Ton is preset is set. Greater than about, for one second, the control means 20 determines.

When the on-time Ton determined by the control means 20 is greater than the reference time t1 (Yes) as a result of the determination in step S, the automatic ice maker is in a full ice state, thus ending the operation. If the on time Ton is not greater than the reference time t1 (No), the user moves the storage amount detection lever 7 to check the ice making operation of the automatic ice maker. In step 1, 1 is added to the on count A cleared in the step S2 in order to accumulate the number A of turning the microswitch 8 on.

Accordingly, in step S6, the number of times A at which the microswitch 8 is turned on in step S5 is set to the control means 20 in advance for a predetermined number of times Na; to inspect the ice making operation of the automatic ice maker. In order to determine whether the user is less than the minimum number of times to move the storage amount detecting lever 7 for approximately five times).

As a result of the discrimination in step S6, when the on count A determined by the control means 20 is smaller than a predetermined number Na (Yes), the micro switch 8 returns to the step S3. The operation of step S3 or less is repeated until the number of times A to be turned on is equal to or larger than the predetermined number Na set in the control means 20.

On the other hand, when the determination result in step S3 indicates that the microswitch 8 is not turned ON (NO) in response to the movement of the storage amount detecting lever 7, the microswitch ( The time Toff at which 8) is turned off is counted by a timer built in the control means 20, and the countered off time Toff is greater than a preset reference time t1 (about 1 second). Is determined by the control means 20.

As a result of the discrimination in step S, when the off time Toff determined by the control means 20 is not greater than the reference time t1 (No), the time for turning off the microswitch 8 is Since the user has moved the ice level detecting lever 7 down to check the ice making operation of the automatic ice maker without elapse of 1 second, the number B of turning off the microswitch 8 is determined in step S8. In order to accumulate, 1 is added to the off-times B cleared in the step S2.

Accordingly, in step S9, the number of times B at which the microswitch 8 is turned off in step S8 is set to the control means 20 in predetermined time Nb; to check the ice making operation of the automatic ice maker. To determine whether the user is less than the minimum number of times to move the storage amount detection lever (7, generally about 5 times).

As a result of the discrimination in step S9, when the off frequency B determined by the control means 20 is smaller than the predetermined number Nb (Yes), the micro switch 8 returns to the step S3. The operation of step S3 or less is repeated until the number of times B to be turned off is equal to or greater than the predetermined number Nb set in the control means 20.

On the other hand, as a result of the discrimination in the step S6 and the step S9, when the on-times A determined by the control means 20 are not smaller than a predetermined number Na (No) or the off-times B Is not smaller than the predetermined number Nb (No), and the user repeats the operation of raising and lowering the ice storage detection lever 7 several times to switch the automatic ice maker to the ice making test mode. It is determined whether the total time taken to move the storage amount storage lever 7 up and down is within a predetermined time (for example, about 10 seconds) set in the control means 20.

As a result of the determination in step S10, when the total time required for moving the storage amount detection lever 7 up and down several times is within a predetermined time (Yes), the automatic ice maker should be switched to the ice making test mode. The control means 20 outputs a control signal to the moving motor driving means 60.

Therefore, in step S11, the ice-making motor driving means 60 receives the control signal from the control means 20 to drive-control the moving motor 61 to drive the ice-making plate 61 in accordance with the driving of the ice-making motor 61. Rotates about 180 °, the ice (I) iced in the ice tray (4) falls into the storage container (6) and is stored in the storage container (6).

At this time, the storage amount detection lever 7 is lifted up to prevent the storage amount detection lever 7 from being buried inside the ice I stored in the storage container 6.

Subsequently, at step S12, it is determined whether the ice tray 4 rotated by the ice motor driving means 60 is horizontal, and when the ice tray 4 is not horizontal (No), the process returns to step S11. By rotating the ice motor 61 forward or reverse in the ice driving unit 60 so that the ice tray 4 is horizontal, and when the ice tray 4 is horizontal (Yes) The control means 20 outputs a control signal to the feed water pump driving means 30 to perform a series of ice making operations in the inspection mode.

Therefore, in step S13, the water supply pump 31, which receives the control signal from the control means 120, drives the water supply pump 31 to control the deicing water stored in the water supply tank 2. The water is supplied to the ice tray 4 through step S14, and the temperature sensing means 40 detects the temperature Tw of the ice making water supplied to the ice tray 4 by the water supply pump 31 and detects the temperature thereof. Data is output to the control means 20.

Accordingly, in step S15, the water for ice making is supplied to the predetermined temperature T1 (the ice making plate 4) in which the temperature data Tw impregnated by the temperature sensing means 40 is set in the control means 20. It is determined whether or not the minimum temperature data of the water at the time of completion is equal to or greater, and when the temperature data Tw determined by the control means 20 is not equal to or higher than the predetermined temperature T1 (No), the ice making plate 4 ), Since the water for ice making is not completely supplied with water, the flow returns to the step S13 and the water supply pump 31 is driven until the water supply is completed.

As a result of the discrimination in step S15, when the temperature data Tw determined by the control means 20 is equal to or greater than a predetermined temperature T1 (Yes), water supply is completed in the ice making plate 4, and step S16 In the control means 20 outputs a control signal to the feed water pump driving means 30, the feed water pump driving means 30 stops the operation of the feed water pump 31 to stop the water supply operation.

Subsequently, in step S17, the fan motor driving means 50 receives the control signal from the control means 20 to drive the cooling fan 51 to cool the air generated in the evaporator 5 of the ice making plate 4. Supplying to the surroundings and ending the operation while ice water supplied to the ice tray (4).

On the other hand, when the determined off time Toff in the control means 20 is greater than the reference time t1 (Yes) as a result of the determination in step S7, the automatic ice maker is performing an ice making operation. In this state, the flow advances to step S17 to continue the ice making operation.

According to the ice-making inspection method of the ice maker according to the present invention as described above, the user using the storage amount detection lever for detecting the amount of ice and the ice stored in the storage vessel several times within a predetermined time ( For example, 5 times or more). It is possible to check whether the ice maker is performing the ice making operation correctly by switching to the ice making test mode which performs a series of ice making operations in accordance with the repeated operation of lowering, so that the manufacturing cost can be reduced and the configuration is simple. Since the user can easily check whether the ice making operation of the ice maker is properly performed, there is an excellent effect that it is convenient to use and satisfies the user's satisfaction with the product.

Claims (5)

On / off discrimination step for determining the microswitch on / off time according to the shanghai movement of the storage amount detection lever and the on / off frequency of the microswitch in accordance with the on or off time in the on / off discrimination step On / off integration system for determining whether or not the predetermined number of times set in the control means, and if the on or off number accumulated in the on / off integration system is a predetermined number or more according to the on / off elapsed time of the microswitch An ice making inspection method for an ice maker, comprising: an ice making inspection system which switches to an ice making inspection mode and performs an ice making operation. The ice maker according to claim 1, wherein when the on time determined by the on / off judging step has elapsed from the reference time t1 set in the control means, the automatic ice maker is finished in the ice state. Method of ice making The ice making operation according to claim 1, wherein the deicing operation is performed under the control of the control means when the off time determined by the on / off discrimination step has passed the reference time t1 set in the control means. Ice making method of the ice maker. The ice maker of claim 1, wherein the predetermined number of times set by the control means is five or more times the user moves the ice storage detection lever up and down so that the automatic ice maker can switch to the ice making test mode. Deicing inspection method. 2. The ice making inspection method according to claim 1, wherein the on / off elapsed time in the ice making inspection system is within 10 seconds set in the control means.