JPH0430852B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a dishwasher mainly used for office purposes, and particularly relates to a technology for detecting the water level and concentration of cleaning liquid stored in a cleaning liquid tank. This is related to the improvement of

(Prior art) In order to meet the needs of restaurants, cafeterias, etc. that handle a large number of dishes, to quickly wash dirty dishes and improve their usage efficiency, dishes have been automatically washed. A variety of dishwashers are provided. The cleaning liquid used in this dishwasher is usually water or hot water with a predetermined concentration mixed with a predetermined amount of detergent.

By the way, in such a dishwasher,
In order to prevent the washing pump, which sucks the washing liquid from the washing liquid tank located at the bottom of the washing chamber and sprays it onto the dishes, from running dry and from deteriorating cleaning performance due to a decrease in the concentration of the washing liquid, the washing liquid in the washing liquid tank is kept at a specified level. The water level detection means determines whether or not the water level has been stored or not, and the detergent concentration detection means determines whether the cleaning liquid in the cleaning liquid tank has a predetermined concentration or higher. If the amount of cleaning liquid is insufficient, the cleaning liquid is While hot water is supplied to the tank, detergent is also supplied when the concentration of the cleaning solution is low.

For example, water level detection means for detecting the water level of cleaning fluid have conventionally been float-type or pressure switches (for example, Noken Kogyo Co., Ltd.'s pressure switch (product name ``OL Switch'') catalog No. 213
) etc. are well known.
Additionally, devices are known that detect the concentration of the cleaning solution and automatically supply detergent according to the concentration of the cleaning solution (for example, EL Co., Ltd.'s detergent supply device (product name: "Sensomatik-26"), Lion's (See each catalog for the same device (product name "C-1000") from Hygiene Co., Ltd.).

(Problem to be Solved by the Invention) However, in conventional dishwashers, the detection of the cleaning liquid level in the cleaning liquid tank and the detection of the concentration of the cleaning liquid are performed separately, resulting in a complicated structure. Moreover, it was necessary to carry out maintenance separately.

The present invention was made in view of these points,
The purpose of this is to make effective use of the fact that there is a large difference between the electrical resistance when air is used as a medium and the electrical resistance when cleaning liquid (water or hot water) is used as a medium. To make it possible to detect both the water level of a cleaning liquid and its concentration based on the detected values, thereby simplifying the structure of the water level and concentration detection means and facilitating maintenance work. It is in.

(Means for Solving the Problems) In order to achieve the above object, the solution of the present invention is to use different criteria for determining electrical resistance by electrodes when detecting water level and when detecting concentration. .

Specifically, the present invention, as shown in FIG.
A cleaning liquid tank 7 that is arranged at the bottom of the cleaning chamber 5 and stores cleaning liquid, and various equipment related to when the cleaning liquid level in the cleaning liquid tank 7 is lower than a predetermined water level.
For example, the water level lowering operation means 25 controls the operation of a water supply device that supplies hot water to the cleaning liquid tank 7, a cleaning pump that suctions and pumps the cleaning liquid in the tank 7, etc. The present invention is based on a dishwasher equipped with a detergent supply device that supplies detergent, an alarm device that warns of a decrease in concentration, etc., and a concentration decrease activation means 26 that controls the operation of various devices.

A pair of electrodes 12, 12 are attached to the wall portion 7a of the cleaning liquid tank 7 so as to be able to come into contact with the cleaning liquid supplied into the cleaning liquid tank 7 to a predetermined water level.

Further, the voltage applying means 15 applies a predetermined voltage between the two electrodes 12, 12, and the voltage applying means 15
Based on the voltage applied by the electrode 1
Interelectrode resistance detection means 16 for detecting the resistance value r between electrodes 2 and 12 is provided.

Further, upon receiving the output of the inter-electrode resistance detection means 16, the detected inter-electrode resistance value r is compared with a predetermined first threshold value _r1 , and the cleaning liquid is supplied into the cleaning liquid tank 7 at a predetermined water level or higher. water level detection means 19 for detecting that the
6, the interelectrode resistance value r is compared with a second threshold value _r2 , which is lower than the first threshold value r1, and the cleaning liquid concentration in the cleaning liquid tank ₇ is found to be equal to or higher than the specified concentration. A concentration detection means 20 for detecting this is provided.

In addition, upon receiving each output signal from the water level detection means 19 and the concentration detection means 20, when the cleaning liquid is not supplied into the cleaning liquid tank 7 at a predetermined water level or higher, the water level lowering operation means 25 is activated, and the cleaning liquid tank 7 is activated. When the concentration of the cleaning liquid in 7 is lower than the specified concentration, the concentration decrease activation means 26
A control means 27 is provided for operating the .

(Function) With this configuration, in the present invention, the cleaning liquid tank 7
A pair of electrodes 12, 1 attached to the wall 7a of
A predetermined voltage is applied between the electrodes 12 by the voltage applying means 15, based on this applied voltage, the electric resistance value r between the electrodes 12, 12 is detected by the interelectrode resistance detecting means 16, and this detected resistance value r is determined by the water level detecting means. It is compared with a first threshold value r ₁ in step 19 and compared with a second threshold value r ₂ in concentration detection means 20 . When the cleaning liquid is not supplied into the cleaning liquid tank 7 at a predetermined water level or higher, the pair of electrodes 1
The cleaning liquid does not come into contact with the electrodes 12, 1
The electrical resistance value r between the two is large because air is used as the medium, and is greater than the first threshold value _r1 . Therefore, the water level detection means 19 determines that the cleaning liquid level in the cleaning liquid tank 7 is lower than the predetermined water level, and the control means 27 receives the output signal (operation command signal) of the water level detection means 19.
As a result of the operation, the water level lowering operation means 25 is activated, and hot water is supplied into the cleaning liquid tank 7.

On the other hand, when the cleaning liquid is supplied into the cleaning liquid tank 7 at a predetermined water level or higher, the pair of electrodes 1
When the cleaning liquid comes into contact with 2 and 12, the electrical resistance value r between them decreases because the cleaning liquid is used as a medium. This electrical resistance value r changes depending on the concentration of the cleaning liquid. For example, when the cleaning liquid is tap water and its concentration is zero, it is several kilohms, but when detergent is added and the concentration increases, it is several hundred ohms. becomes. Therefore, by comparing this electrical resistance value r with the second threshold value _r2 in the concentration detection means 20,
It can be determined whether the concentration of the cleaning liquid is higher than a predetermined concentration, and when the concentration detection means 20 determines that the concentration of the cleaning liquid is lower than the predetermined concentration, the output signal (operation command signal) of the concentration detection means 20 is transmitted. In response to the operation of the control means 27, the concentration lowering operation means 26 is activated, and the detergent is supplied into the cleaning liquid tank 7.

Therefore, in this case, both the water level and the concentration of the cleaning liquid in the cleaning liquid tank 7 are detected based on the electrical resistance value r between the pair of electrodes 12, 12, so the structure for water level detection and concentration detection is extremely simple. This makes it easier to maintain the system.

(Example) Hereinafter, an example of the present invention will be described based on the drawings.

In FIG. 6, A is a three-way opening type dishwasher according to an embodiment of the present invention;
is equipped with a base 1, and on the right edge of the upper surface of the base 1 is a prewash table _T1 having a sink S;
Draining tables T ₂ are hooked to the front edge of the upper surface, and dirty dishes (not shown) are washed in the dishwasher A before being washed in the dishwasher _A. After being pre-washed and dropped in S, it is placed on a basket-shaped rack R and then washed in washing machine A.
On the other hand, the dishes taken out from the dishwasher A together with the rack R are temporarily left on a draining table _T2 to drain them.

The dishwasher A has a washing tank 2 on the top of the base 1.
A washing chamber 5 for washing dishes is formed by sealing the space above the washing tank 2 with a rectangular box-shaped hood 4 that is raised and lowered by operating a handle 3. A pair of washing arms 6, 6 are rotatably supported on the ceiling and bottom of the washing chamber 5, respectively, for spraying washing liquid from above and below onto the dishes set on the washing tank 2.

Further, as shown in FIG. 2, in the base 1, a cleaning liquid tank 7 opened upward is installed at the bottom of the cleaning tank 2, which corresponds to the bottom of the cleaning chamber 5. This cleaning liquid tank 7 is connected to the suction side of a cleaning pump 8 installed in the base 1 below the cleaning liquid tank 7 via a recovery pipe 9, and the discharge side of the cleaning pump 8 is connected to the above-mentioned upper and lower portions via a supply pipe 10. The cleaning liquid stored in the cleaning liquid tank 7 is force-fed to both the cleaning arms 6, 6 by the cleaning pump 8, and the washing arms 6, 6 are connected to the cleaning arms 6, 6.
A cleaning liquid circulation system 11 is configured to discharge the cleaning liquid from the inside of the cleaning chamber 5 into the cleaning chamber 5 and to collect the cleaning liquid discharged into the cleaning chamber 5 into a cleaning liquid tank 7 at the bottom thereof.

Although not shown, the cleaning liquid tank 7 is equipped with a heater device for heating and maintaining the cleaning liquid at a substantially constant temperature. The cleaning liquid is hot water mixed with detergent at a predetermined concentration, and the hot water is supplied to the cleaning liquid circulation system 11 (inside the cleaning liquid tank 7) by a water heater having a pump or a hot water supply solenoid valve.
The detergent is supplied by a detergent feeder as a detergent supply device.

A pair of electrodes 12, 12 are attached to the side wall 7a of the cleaning liquid tank 7 so that their tips can come into contact with the cleaning liquid supplied into the cleaning liquid tank 7 up to a predetermined water level. As shown in enlarged detail in FIG. 4, these electrodes 12, 12 are attached to a mounting plate 13 made of a substantially oval-shaped electric insulator having a cover portion 13a on the upper edge.
are insulated and fixed to the cleaning liquid tank 7 at predetermined intervals in the horizontal and lateral directions. The base of each of the electrodes 12, 12 extends outside the side wall 7a of the cleaning tank 7, and is connected to a control unit 14 containing a CPU 28.

As shown in FIG. 3, the control unit 14 has a power supply circuit 15 as a voltage applying means for applying an alternating current voltage of a predetermined voltage (for example, 24 V) between the electrodes 12, 12. This power supply circuit 15 is conventionally well-known and includes a transformer Tr that steps down the external power supply voltage, and the AC voltage stepped down by the transformer Tr is applied between the electrodes 12 and 12.

Further, the control unit 14 is provided with an inter-electrode resistance detection circuit 16 that detects the electrical resistance value r between the electrodes 12 and 12 based on the voltage applied between the electrodes 12 and 12 by the power supply circuit 15. It is being This detection circuit 16 includes both the electrodes 12,
It consists of two rectifier circuits 17 and 18, which rectify the AC voltage applied between the electrodes and convert it into a DC voltage signal corresponding to the interelectrode resistance value, and each rectifier circuit 17 and 18 has a diode D. ₁ , _D2 , electrolytic capacitors _C1 , _C2 , and resistors _R1 , _R2 .

The output signal of the first rectifier circuit 17 is input to the positive input section of the first comparator 19.
Furthermore, a first threshold setting circuit 21 is connected to the negative input section of the first comparator 19, which sets a first threshold value _r1 , which is to be a reference for comparing interelectrode resistance values, by means of a resistor _R3 . The first comparator 19 compares the interelectrode resistance value r (more specifically, the voltage signal corresponding to the resistance value r) passed through the first rectifier circuit 17 with the first threshold value _r1 . , a Hi level signal is output when the inter-electrode resistance value r is larger than the first threshold value _r1 , and it is detected that the cleaning liquid is supplied into the cleaning liquid tank 7 at a predetermined water level or higher. water level detection means is constructed. Furthermore, the above first threshold value
As shown by the dashed line in FIG. 5, r ₁ is set to, for example, 50 KΩ, which is much larger than the resistance value using water as a medium (several KΩ for tap water).

On the other hand, the output signal of the second rectifier circuit 18 is
It is input to the plus side input section of the comparator 20. Further, a second threshold value is set at the minus side input portion of the second comparator 20 by setting a second threshold value r ₂ lower than the first threshold value r ₁ using resistors R ₄ to R ₆ . A circuit 22 is connected, and the second comparator 22 compares the interelectrode resistance value r as a voltage signal passed through the second rectifier circuit 18 with a second threshold value _r2 , thereby determining the resistance value r. is larger than the second threshold value _r2 , a Hi level signal is output, and the cleaning liquid tank 7
Concentration detection means is configured to detect that the concentration of the cleaning liquid in the cleaning liquid is higher than a predetermined concentration. A changeover switch SW is connected to the second threshold setting circuit 22 for switching the resistors r ₄ to r ₆ to be connected to the negative input section of the second comparator 20. , the second threshold value _r2 is Lo level (0.6KΩ), M level (1.0KΩ), as shown by the broken line in Figure 5.
It can be adjusted to 3 high and low levels of Hi level (1.5KΩ).

Furthermore, the first and second comparators 1
The output signals of 9 and 20 are respectively output from photocoupler 2.
3 and 24 to the CPU 28.
One control function in this CPU 28 operates the water heater when the cleaning liquid level in the cleaning liquid tank 7 is lower than a predetermined water level, stops the operation of the cleaning pump 8, and further controls the heating and holding of the cleaning liquid. A water level drop activation means 25 that controls the operation of various related devices, such as turning off the heater device, and a cleaning liquid tank 7.
When the concentration of the cleaning liquid in the container is lower than a predetermined concentration, the detergent feeder is turned on, or an alarm device (not shown) such as an alarm lamp or an alarm buzzer is activated to warn that the concentration of the cleaning liquid has decreased. Concentration drop activation means 26 is configured to control the operation of various related devices.

In addition, other control functions in the same CPU 28 receive the Hi level output signal of the first comparator 19 as the water level detection means and the Hi level output signal of the second comparator 20 as the concentration detection means, and When the cleaning liquid is not supplied above a predetermined water level, the water level lowering activation means 25 is activated, and when the cleaning liquid concentration in the cleaning liquid tank 7 is lower than the predetermined concentration, the concentration decreasing activation means 26 is activated. A control means 27 is configured.

Next, the operation of the above embodiment will be explained.
AC voltage from the power supply circuit 15 is applied between a pair of electrodes 12, 12 attached to the side wall 7a of the cleaning liquid tank 7, and the electricity between the electrodes 12, 12 is applied based on the voltage applied between the electrodes 12, 12. A resistance value r is detected. When the water level of the cleaning liquid supplied in the cleaning liquid tank 7 is less than a predetermined water level, for example, when the cleaning liquid tank 7 becomes empty before the initial hot water supply or during operation, the gap between the electrodes 12 and 12 is The electrical resistance value r increases when air acts as a medium. For this reason, the potential at the positive input part of the first comparator 19 as a water level detection means increases, and this increases the potential at the first threshold value set by the first threshold setting circuit 21 and input to the negative input part. As a result, the first comparator 19 outputs a Hi level signal, and the CPU ₂₈ that receives the Hi level signal from the first comparator 19 controls the operation of various related devices. . That is, one cycle of cleaning operation is performed first, and then the water level in the cleaning liquid tank 7 is detected in the same manner as described above. If it is detected that the cleaning liquid level is still below the predetermined water level, the water heater is activated. The cleaning pump 8 is activated, the cleaning pump 8 is stopped, the heater device is turned off, etc.
Thereafter, when the water level of the cleaning liquid in the cleaning liquid tank 7 reaches a predetermined level or higher due to the operation of the water heater, the resistance value r between the electrodes 12 and 12 decreases because water is used as the medium. 1st comparator 1
The level of the input signal to the positive side input section of 9 becomes lower than that to the negative side input section, and the output signal of the first comparator 19 becomes Lo level, so that the CPU 28 operates the water heater and the heater device. The OFF operation, etc. of is canceled.

On the other hand, when the cleaning liquid level in the cleaning liquid tank 7 is equal to or higher than the predetermined water level by comparing the electric resistance value r between the electrodes 12 and 12 with the first threshold value _r1 as described above, When the concentration of the cleaning liquid is lower than a predetermined concentration, such as at the end of initial hot water supply, the electrodes 12, 12
The electrical resistance value r between them becomes relatively high. For this reason,
The potential at the plus side input section of the second comparator 20 serving as the concentration detection means increases, and the second threshold value _r2 input to the minus side input section set by the second threshold setting circuit 22 increases. As a result, the second comparator 20 outputs Hi.
A level signal is output, and this second comparator 2
The CPU 28 receives the Hi level signal from 0.
The detergent feeder is activated, the alarm device is activated, etc. Thereafter, when the concentration of the cleaning liquid in the cleaning liquid tank 7 reaches a predetermined concentration or more due to the operation of the detergent feeder, the resistance value r between the electrodes 12 and 12 decreases, and the positive side of the second comparator 20 The input signal level to the input section becomes lower than that to the negative side input section, and the output signal of the second comparator 20 becomes Low level.
Operation control of the detergent feeder and the like by the CPU 28 is stopped.

At that time, electrode 1 serves as a reference for the cleaning solution concentration.
The second threshold value r ₂ corresponding to the electrical resistance value r between 2 and 12 is set to three levels of Lo, M and Hi by the changeover switch SW in the second threshold setting circuit 22.
Since the switching is variable in stages, it is possible to flexibly deal with the required cleaning liquid concentration.

Therefore, in the case of this embodiment, the electrical resistance value r between the pair of electrodes 12, 12 provided on the side wall 7a of the cleaning liquid tank 7 is detected, and the water level and concentration of the cleaning liquid are determined based on the resistance value r. The structure for detecting the water level and concentration of the cleaning liquid is extremely simple, and its maintenance can be easily performed at one location.

Furthermore, since the voltage applied between the electrodes 12, 12 is an alternating current voltage, bubbles and scales are not generated on the surface of each electrode 12 due to the electrolytic action of the cleaning liquid, unlike in the case of a direct current voltage. Therefore, the resistance value r between the electrodes 12, 12 can be detected with high accuracy, and the water level of the cleaning liquid and its concentration can therefore be accurately detected.

(Effects of the Invention) As explained above, according to the present invention, the electric resistance value between a pair of electrodes attached to the wall of the cleaning liquid tank in a dishwasher is compared in magnitude with two types of threshold values. By detecting the water level and concentration of the cleaning liquid based on the results, the water level and concentration of the cleaning liquid can be detected using a pair of electrodes, and the structure of the water level and concentration detection system can be improved. Simplification and easy maintenance can be achieved.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the configuration of the present invention. 2 to 6 show embodiments of the present invention, and FIG. 2 is an explanatory diagram schematically showing the overall structure of a dishwasher;
Fig. 3 is an electric circuit diagram showing the detailed configuration of the control unit, Fig. 4 is an enlarged front view of the electrodes, Fig. 5 is a characteristic diagram illustrating the inter-electrode resistance characteristics with respect to cleaning liquid concentration, and Fig. 6 is a tableware washing machine and It is a perspective view showing the table around it. A...Dishwasher, 5...Cleaning chamber, 12...Electrode, 1
4...Control unit, 15...Power circuit, 1
6... Interelectrode resistance detection circuit, 17, 18... Rectifier circuit, 19, 20... Comparator, 21, 22... Threshold setting circuit, 25... Water level lowering operating means, 2
6... Concentration reduction activation means, 27... Control means, 28
...CPU, r...Interelectrode resistance value, _r1 , _r2 ...Threshold value.

Claims (1)

[Claims] 1. A cleaning liquid tank 7 disposed at the bottom of the cleaning chamber 5 and storing cleaning liquid, and a water level lowering operating means 25 that controls the operation of various related devices when the cleaning liquid level in the cleaning liquid tank 7 is lower than a predetermined water level. ,
Concentration drop activation means 26 for controlling the operation of various related devices when the cleaning liquid concentration in the cleaning liquid tank 7 is lower than a predetermined concentration; and a wall portion 7 of the cleaning liquid tank 7.
a pair of electrodes 12, 12 attached to a so as to be able to contact the cleaning liquid supplied to the cleaning liquid tank 7 to a predetermined water level, and a voltage applying means 15 for applying a predetermined voltage between the electrodes 12, 12; interelectrode resistance detection means 16 for detecting the resistance value r between the electrodes 12, 12 based on the voltage applied by the voltage application means 15; The inter-electrode resistance value r is set to a predetermined first value.
The water level detection means ₁₉ detects that the cleaning liquid is supplied into the cleaning liquid tank 7 at a predetermined water level or higher by comparing it with the threshold r 1 of a concentration detection means 20 that compares the value r with a second threshold value _r2 lower than the first threshold value _r1 and detects that the concentration of the cleaning liquid in the cleaning liquid tank 7 is higher than a predetermined concentration; , receives each output signal from the water level detection means 19 and the concentration detection means 20, and when the cleaning liquid is not supplied into the cleaning liquid tank 7 at a predetermined water level or higher, the water level lowering operation means 25 is activated, and the water level inside the cleaning liquid tank 7 is activated. 2. A dishwasher comprising: a control means 27 for operating the concentration reduction activation means 26 when the concentration of the cleaning liquid is lower than a predetermined concentration.