KR101648202B1 - Automatic coffee machine that includes a temperature compensation means and Temperature compensation method - Google Patents

Abstract

The automatic coffee bean coffee machine and the temperature difference correcting method including the temperature difference correcting means of the present invention are characterized in that the temperature difference between the temperature sensor at room temperature and the control board is inspected and if there is a difference, The difference between the bean discharge temperature set in the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine is checked and if it is different, the temperature difference can be corrected by adjusting up or down, It is possible to use a coffee machine to drink coffee beans of high quality accurately roasted at a desired set temperature. In addition, it is possible to prevent a problem that the A / S rushes in advance as well as the reliability of a fully automatic coffee bean coffee machine.

Description

TECHNICAL FIELD [0001] The present invention relates to a fully automatic coffee bean machine and a temperature difference correcting method,

The present invention relates to a fully automatic coffee bean coffee machine and a temperature difference correcting method including temperature difference correcting means.

The present invention relates to a fully automatic coffee bean coffee machine capable of automatically producing and supplying coffee beans by injecting green beans into a roasting kettle, and more particularly, to a fully automatic coffee bean coffee machine and a temperature difference correcting method including a temperature difference correcting means .

The automatic coffee bean coffee machine as disclosed in Patent Documents 1 to 5 is manufactured by placing the green beans in a roasting kettle and roasting them for a predetermined time to produce beans, grinding roasted beans again through a grinder, It is configured so that all the processes of dripping and automatic supply of coffee bean can be performed automatically.

However, as a means of measuring the degree of roasting of beans during roasting by putting a certain amount of green beans in a roasting kettle, the degree of roasting is measured by measuring the temperature of the beans or the temperature inside or outside the roasting kettle. At the time, the degree of roasting is judged by the experience and sense of temperature sensor and varistor. However, when automating or mass-producing a fully automatic coffee bean coffee machine, a measurement error of various temperature sensors and an error between various components used for the control board are generated. Since the error range becomes larger as the number of parts used increases, It has been found that there is a problem in that a proper roasting temperature can not be consistently maintained even if all the machines are set to the same temperature in mass production of the machine.

This is because there is a temperature difference between the temperature sensor mounted on the roasting kettle (hereinafter simply referred to as temperature sensor) and the control board at room temperature, and the value of the bean discharge temperature already set in the temperature sensor and the value of the bean discharge temperature value And that there is a temperature difference between and.

When the automatic coffee bean coffee machine is released in such a state, the final consumer, the coffee bean drinker, can not enjoy the desired high quality coffee, leading to a decrease in the confidence in the automatic bean coffee machine. Also, the A / S may become congested.

Therefore, even in the case of a mass-produced automatic coffee bean coffee machine, the temperature sensor set at the same bean discharge temperature by matching the temperature of the temperature sensor with the temperature of the control board has a constant and stable reference temperature for maintaining the same degree of roasting And the need to adjust it to keep it.

Korean Patent Publication No. 10-0306058 Korean Patent Publication No. 10-1991-0008470 Korean Patent Laid-Open Publication No. 10-2001-0025521 Korean Patent Laid-Open Publication No. 10-2009-0128937 Korean Patent Laid-Open Publication No. 10-2011-0045443

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of controlling a temperature of a control substrate, And the test roasting is performed to check whether there is a difference between the bean discharge temperature value set in the temperature sensor and the actual bean discharge operation temperature value and if there is a difference, the actual bean discharge operation temperature value is set to the set bean discharge temperature And the temperature difference is equal to the value of the temperature difference. The present invention aims at correcting the temperature difference so that the actual bean discharge operation temperature value becomes equal to the bean discharge temperature value already set in the temperature sensor.

It is impractical and impossible to measure the error of the temperature sensor of each coffee machine and to set the reference temperature value for each machine by measuring the error of each of many electronic components.

Therefore, it is most preferable to correct the temperature of the temperature sensor by an error value after the machine is assembled and assembled.

There are two methods for checking and adjusting whether the difference between the bean discharge temperature value set in the temperature sensor and the actual bean discharge operation temperature value is as follows. That is, there is a method of correcting by hardware (substrate) and a method of correcting by software (program).

In the case of hardware calibration, the difference between the bean discharge temperature value set on the temperature sensor, that is, the bean discharge temperature value of the temperature sensor, and the actual bean discharge operation temperature value of the fully assembled bean coffee machine, The temperature or the temperature of the temperature sensor may be corrected by operating the position or the volume upward or downward.

If the software is calibrated, it is possible to calibrate the set temperature by adding a setup program that adjusts the temperature of the dip switch or volume in the calibration to the above hardware by adjusting the temperature value upward or downward in the program so as to match the bean discharge temperature value of the temperature sensor. have.

The automatic coffee bean coffee machine of the present invention comprises:

Roasting means for storing a predetermined amount of green beans and performing roasting for a predetermined time;

A crushing means for crushing the beans at a predetermined grain size by conveying and receiving the roasted beans;

Drip means for supplying coffee beans by supplying hot water to ground ground coffee powder; And

Control means for controlling the roasting temperature of the roasting means, the roasting time and the timing of the bean discharge, controlling the pulverization particle size of the roasted beans in the grinding means, and controlling the temperature and flow of the hot water flowing into the dripping means and,

The control means checks the temperature difference between the temperature sensor mounted on the roasting means at the room temperature and the control board. If there is a difference, the temperature of the temperature sensor coincides with the temperature of the control board, And the actual bean discharge operation temperature value of the bean coffee machine that has been assembled is checked. If there is a difference, the bean discharge temperature value set in the temperature sensor is adjusted up or down to correct the temperature difference correction And means for controlling the operation of the apparatus.

The temperature difference correcting means inspects the temperature difference between the temperature sensor at room temperature and the control board. If there is a difference, the temperature sensor coincides with the temperature of the control substrate in the program, And the difference between the actual bean discharge operating temperature value of the bean coffee machine that has been assembled and the actual bean discharge operation temperature value of the bean coffee machine that has been assembled is checked. If there is a difference, the actual bean discharge operation temperature value is set to the bean discharge temperature value set in the temperature sensor The program can be adjusted so as to be adjusted upward or downward on the program.

The temperature difference correcting means inspects the temperature difference between the temperature sensor at room temperature and the control board. If there is a difference, the temperature sensor coincides with the temperature of the control substrate in the program, And the difference between the actual bean discharge operating temperature value of the bean coffee machine that has been assembled and the actual bean discharge operation temperature value of the bean coffee machine that has been assembled is checked. If there is a difference, the actual bean discharge operation temperature value is set to the bean discharge temperature value set in the temperature sensor And can be adjusted by upward or downward adjustment using a dip switch or a volume on the substrate.

A method for correcting temperature difference in a fully automatic coffee bean coffee machine of the present invention comprises:

Roasting means for storing a predetermined amount of green beans and performing roasting for a predetermined time;

A crushing means for crushing the beans at a predetermined grain size by conveying and receiving the roasted beans;

Drip means for supplying coffee beans by supplying hot water to ground ground coffee powder; And

Control means for controlling the roasting temperature of the roasting means, the roasting time and the timing of the bean discharge, controlling the pulverization particle size of the roasted beans in the grinding means, and controlling the temperature and flow of the hot water flowing into the dripping means Wherein the coffee machine comprises:

Inspecting the temperature difference between the temperature sensor and the control board at room temperature and, if there is a difference, matching the temperature of the temperature sensor with the temperature of the control board; And

 The test roasting is performed to check the difference between the bean discharge temperature value set on the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine, and if there is a difference, the actual bean discharge operation temperature value is set to the temperature sensor Correcting the temperature difference by adjusting the bean discharge temperature value upward or downward;

And a control unit.

According to the present invention, the temperature difference between the temperature sensor at the room temperature and the control board is checked. If there is a difference, the temperature of the temperature sensor is matched with the temperature of the control board, It is possible to check the difference of the actual bean discharge operation temperature value of the completed coffee bean machine and correct it by adjusting the temperature difference upward or downward if there is a difference. Therefore, it is most preferable to use a fully automatic bean coffee machine for drinking coffee beans It is possible to drink high-quality coffee beans accurately roasted at a set temperature. In addition, it is possible to prevent a problem that the A / S rushes in advance as well as the reliability of a fully automatic coffee bean coffee machine.

1 to 5 are perspective views of respective conventional fully automatic coffee bean coffee machines.
6 is a main configuration diagram of a fully automatic coffee bean coffee machine including the temperature difference correcting means of the present invention.
7 is a flowchart showing a temperature difference correction method.

Conventionally, a bean coffee machine which has been popular in the past is to purchase already roasted beans instead of ordinary beans in a home or business, and grinds and drips them in a coffee machine having only crushing and dripping functions to produce coffee beans .

However, as it is well known, the roasted beans have begun to deteriorate in flavor and aroma after a few days. Therefore, it is most preferable to crush the beans immediately after several days of roasting.

The automatic coffee bean coffee machine as shown in Figs. 1 to 5 and the like is devised by such a demand. These automatic coffee bean coffee machines are prepared by directly purchasing green beans and accommodating them in a roasting kettle, stirring them while heating them under conditions set by a consumer, roasting while adjusting them to a predetermined temperature for a predetermined time, And discharged to a crushing means, where the crushing is carried out by the customer at a desired grain size. Next, the hot water is flowed down while being controlled to an appropriate amount and an appropriate temperature by the dripping means on the ground coffee ground with the appropriate particle size as described above. Then, consumers will be able to drink the best coffee beans of the highest quality.

However, as mentioned for the purpose of the present invention, a temperature difference may exist in the temperature sensor due to a mechanical or program error due to mass production of a fully automatic coffee bean coffee machine. In addition, And found that there is a difference between the temperature and the bean discharge temperature value in actual operation.

The reason why the automatic coffee bean coffee machine can not be put into practical use is thought to be the problem. In order to solve such a problem, the present invention checks the temperature difference between the temperature sensor and the control board at room temperature. If there is a difference, the temperature of the temperature sensor matches the temperature of the control board, Check whether there is a difference between the bean discharge temperature value set on the temperature sensor and the actual bean discharge operation temperature value and if there is a difference, correct the temperature difference so that the actual bean discharge operation temperature value becomes equal to the set bean discharge temperature value Means.

First, the basic configuration and operation of the automatic coffee bean coffee machine including the temperature difference correcting means will be described as follows.

The automatic coffee bean coffee machine including the temperature difference correcting means roughly comprises: roasting means (100) for storing a predetermined amount of green beans and performing roasting for a predetermined period of time; A dredging means 300 for supplying coffee beans to the ground coffee bean powder by supplying hot water to the ground bean coffee powder and controlling the roasting temperature of the roasting means 100, And control means (400) for controlling the pulverization particle size of the roasted beans in the pulverizing means (200) and for controlling the temperature and flow of the hot water flowing into the dripping means (300).

In order to solve the above-mentioned problems of the conventional fully automatic coffee bean coffee machine, in the present invention, the value of the bean discharge temperature set in the temperature sensor and the actual bean discharge operation temperature of the bean- And a temperature difference correcting means 410 for correcting the difference of the values.

The temperature difference correcting means 410 checks the temperature difference between the temperature sensor at the room temperature and the control board. If there is a difference, the temperature of the temperature sensor is made equal to the temperature of the control board, Means for checking whether there is a difference between the bean discharge temperature value set on the sensor and the actual bean discharge operation temperature value and, if there is a difference, correcting the temperature difference so that the actual bean discharge operation temperature value becomes equal to the set bean discharge temperature value to be.

The temperature difference between the temperature sensor at the room temperature and the control board is compared with the temperature sensor displayed on the program and the control board. If there is a difference, the temperature of the temperature sensor is matched to the temperature of the control board.

In addition, actual test roasting is performed to check the difference between the bean discharge temperature value set by the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine by the program, and if there is a difference, . Alternatively, the temperature difference correcting means 410 may be configured to match the difference between the bean discharge temperature value set in the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine using the dip switch position or volume do.

The steps of correction will be described in detail with reference to the flowchart of Fig.

When a fully automatic coffee bean coffee machine is manufactured through various complicated steps and processes, the temperature difference between the temperature sensor and the control board at room temperature is checked by comparing the temperature sensor displayed on the program with the control board (step S1) The process proceeds to step S2, and if there is a difference, the temperature of the temperature sensor is made equal to the temperature of the control substrate (step S3).

Next, test roasting is performed (step 3) to check whether the value of the bean discharge temperature set on the temperature sensor coincides with the value of the actual bean discharge operation temperature of the bean coffee machine that has been assembled (step S4). If they match, the correction of the temperature difference is not required, and therefore, the goods issue may proceed (step S8). However, if the temperature difference is not matched, the correction means 410 of the present invention corrects the temperature difference. In other words, it may be corrected by adjusting it upward or downward by a program or by a dip switch (step S5). When the correction is completed, the flow advances to the production preparation step (step S8). If the temperature difference in the roasting of many mass-produced products is corrected, it will be possible to drink high-quality coffee beans roasted accurately at the set temperature. In addition to the reliability of the automatic coffee bean coffee machine, Can be prevented in advance.

[Example 1]

First, the temperature difference between the temperature sensor at room temperature and the control board was examined for a fully automatic coffee bean coffee machine manufactured through various complicated steps and processes. The temperature of the temperature sensor displayed on the program was 23 ° C and the temperature of the control substrate at room temperature was 25 ° C. Thus, the temperature of the temperature sensor 23 ° C was adjusted to 25 ° C, which is the temperature of the control substrate, on the program.

Next, to a fully automatic coffee bean coffee machine set to a roasting discharge temperature of 204 캜, 30 g of green beans was put in a kettle, and test roasting was carried out. After about 10 minutes, when the temperature of the temperature sensor reached 204 占 폚, the roasted beans were discharged.

When the roasted state of the discharged beans was observed, it was observed that the roasting state was too advanced. As a result, it was confirmed that it was discharged at 207 ° C.

Therefore, although the setting was 204 DEG C using the correction means 410 of the present invention, the setting temperature was set by three steps (3 DEG C) downward adjustment on the program. As described above, it goes without saying that the DIP switch position provided at a predetermined position of the substrate can be adjusted by downward adjustment in three steps (3 DEG C). That is, the operating temperature at the time of actually discharging the beans is adjusted to be 204 deg. C which is the temperature sensor set temperature.

Then, 30 g of beans were put into a kettle of a fully automatic coffee bean coffee machine, and test roasting was carried out again. After about 10 minutes, the roasted bean was discharged when the re-set temperature (actual temperature 204 ° C) was reached.

It was observed that this time, the beans were very good, and they were discharged with high quality beans.

[Example 2]

First, the temperature difference between the temperature sensor at room temperature and the control board was examined for a fully automatic coffee bean coffee machine manufactured through various complicated steps and processes. The temperature of the temperature sensor displayed on the program was 27 占 폚, and the temperature of the control substrate at room temperature was 25 占 폚. The temperature of the temperature sensor was adjusted to 27 ° C on the program and the temperature of the control substrate to 25 ° C.

Next, to a fully automatic coffee bean coffee machine set to a roasting discharge temperature of 204 캜, 30 g of green beans was put in a kettle, and test roasting was carried out. After about 10 minutes, when the temperature of the temperature sensor reached 204 占 폚, the roasted beans were discharged.

The roasted state of the discharged beans was observed, and it was observed that the roasting condition was less progressed. As a result, it was confirmed that it was discharged at 200 ° C.

Therefore, although the setting was 204 DEG C using the correction means 410 of the present invention, the setting temperature was set by four steps (4 DEG C) upward adjustment on the program. As described above, it goes without saying that the DIP switch position provided at a predetermined position of the substrate can be set by adjusting the fourth step (4 DEG C) upward. That is, the operating temperature at the time of actually discharging the beans is adjusted to be 204 deg. C which is the temperature sensor set temperature.

Then, 30 g of beans were put into a kettle of a fully automatic coffee bean coffee machine, and test roasting was carried out again. After about 10 minutes, the roasted bean was discharged when the re-set temperature (actual temperature 204 ° C) was reached.

It was observed that this time, the beans were very good, and they were discharged with high quality beans.

As described above, according to the present invention, the temperature difference between the temperature sensor at room temperature and the control board is checked. If there is a difference, the temperature of the temperature sensor is matched with the temperature of the control board, And the actual value of the bean discharge temperature value can be corrected. Therefore, it is possible to use a fully automatic bean coffee machine to drink coffee beans and to drink high quality coffee beans roasted accurately at a desired set temperature . In addition, it is possible to prevent a problem that the A / S rushes in advance as well as the reliability of a fully automatic coffee bean coffee machine.

100; Roasting means
200; Crushing means
300; Drip means
400; The control means
410; The temperature difference correcting means

Claims (4)

A roasting means (100) for storing a predetermined amount of green beans and performing roasting for a predetermined time;
A crushing means (200) for crushing the beans at a predetermined grain size by conveying and receiving the roasted beans;
Drip means (300) for supplying the ground coffee beans with hot water to provide ground coffee; And
The control unit controls the roasting temperature of the roasting unit 100, the roasting time and the timing of the bean discharge, controls the pulverization particle size of the roasted beans in the grinding unit 200, and controls the temperature of the hot water flowing into the dripping unit 300 And control means (400) for controlling the flow of the coffee beans,
The control means (400) includes a temperature difference correcting means (410)
The temperature difference correcting means 410 checks the temperature difference between the temperature sensor at room temperature and the control board and, if there is a difference, coincides the temperature of the temperature sensor with the temperature of the control board on the program, The difference between the bean discharge temperature value set in the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine is checked, and if there is a difference, the actual bean discharge operation temperature value is set to the temperature sensor Wherein the controller is configured to adjust the bean discharge temperature value by adjusting up or down using a dip switch or a volume on the control board. delete delete A roasting means (100) for storing a predetermined amount of green beans and performing roasting for a predetermined time;
A crushing means (200) for crushing the beans at a predetermined grain size by conveying and receiving the roasted beans;
Drip means (300) for supplying the ground coffee beans with hot water to provide ground coffee; And
The control unit controls the roasting temperature of the roasting unit 100, the roasting time and the timing of the bean discharge, controls the pulverization particle size of the roasted beans in the grinding unit 200, and controls the temperature of the hot water flowing into the dripping unit 300 And a control means (400) for controlling the flow of the coffee beans,
Inspecting the temperature difference between the temperature sensor and the control board at room temperature and, if there is a difference, matching the temperature of the temperature sensor with the temperature of the control board; And
The test roasting is performed to check the difference between the bean discharge temperature value set on the temperature sensor and the actual bean discharge operation temperature value of the assembled bean coffee machine. If there is a difference, the actual bean discharge operation temperature value is applied to the temperature sensor Correcting the temperature difference by correcting upward or downward to a set value of the bean discharge temperature;
Wherein the temperature difference correction method comprises the steps of:

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