KR20180077754A - Dishwasher system - Google Patents

Abstract

Disclosed is a dishwasher system, which comprises: a washing mechanical unit provided in a flow path between a rinse water tank and a rinse nozzle, the washing mechanical unit including a check valve preventing a reverse flow of rinse water; a hot water mechanical unit including a hot water pump for pumping the rinse water of the rinse water tank to hot water and a quantity servo for opening/closing according to an outflow temperature of the hot water to be delivered; and a control unit for controlling an operation of the hot water pump and the opening/closing of the quantity servo by comparing the outflow temperature detected from an outflow temperature detection sensor with the set hot water temperature.

Description

Dishwasher system

The present invention relates to a dishwasher system in which a rinse water of a dishwasher is managed in a clean state without being subjected to indirect heat exchange and taken in hot water.

In the dishwasher, since the hot water of about 80-95 degrees is sprayed on the tableware during the dish washing step and the rinsing step, washing and rinsing are performed. Therefore, it is necessary to continuously supply the hot water in the process of washing the dishes. Large sized dishwashers require a large amount of hot water. In order to continuously supply hot water to the dishwasher, a large-capacity hot water supply device equipped with a heat exchanger and a hot water storage tank may be connected and used. The hot water supply device for supplying hot water to the dishwasher includes a heat exchanger for heating the water and a hot water storage tank so that the cold water flowing into the hot water storage tank is forcibly circulated through the heat exchanger so that hot hot water is supplied again to the hot water storage tank, The hot water stored in the hot water storage tank is supplied to the dishwasher. In the conventional dishwasher, a secondary heat exchanger (sub-hex) was installed in the rinse water circulation part to supply hot water through indirect heat exchange when cold water was supplied, but it was also possible to use a secondary heat exchanger From this, hot water channels have been complicatedly connected, resulting in an increase in the number of component parts, manufacturing and production costs, and an increase in product volume. Accordingly, in the manufacture of dishwasher having a hot water supply function, a proposal for simply adding a hot water supply function without increasing component parts is required.

Patent Document 1: Korean Patent Registration No. 10-1466858 (Published on Dec. 03, 2014)

Patent Document 2: Korean Patent Publication No. 10-1273553 (Announcement date: June 17, 2013)

Patent Document 3: Korean Patent Publication No. 10-1214379 (Published on December 14, 2012)

One of the technical problems of the present invention is to enable rinsing water heated in a dishwasher to be used as hot water without indirect heat exchange. The rinse water is used as hot water, and the rinse water is supplied in a clean state.

According to an aspect of the present invention, there is provided a washing machine comprising: a washing machine having a washing machine provided in a flow path between a rinsing water tank and a rinsing nozzle, the washing machine including a backflow prevention valve for preventing reverse flow of rinsing water; A water heater unit including a hot water pump for pumping the rinse water of the rinse water tank to the hot water outlet and a quantity servo for opening / closing the hot water outlet temperature; And a controller for controlling the operation of the hot water pump and the opening and closing of the quantity servo by comparing the outflow temperature detected by the outflow temperature detection sensor with the set hot water temperature.

According to an embodiment of the present invention, the check valve may include at least one selected from a check valve, a flow control valve, and a solenoid valve.

According to an embodiment of the present invention, a door may be installed in a part of the rinse water tank.

According to the embodiment of the present invention, the water heater bend includes a door capable of opening the rinse water tank, and the door can be configured to be located on the upper side of the rinse water tank and in front of the front side.

According to the embodiment of the present invention, the water heater bend may include a flow rate sensor that detects the flow rate and detects the use of hot water.

According to the embodiment of the present invention, the control unit compares the temperature detected from the outflow temperature detecting sensor provided on the hot water outflow side with the hot water set temperature, and when the outflow temperature is low, the hot water pump is driven to increase the primary flow rate, And an MCU for opening the quantity servo to lower the outflow temperature by a second flow rate control when the outflow temperature is higher than the set temperature for the hot water.

According to the embodiment of the present invention, when the rinsing water level of the rinsing water tank detected by the rinsing water level detection sensor falls below the reference value in the outbound temperature control of the water leaving the hot water outflow side, the control unit decelerates the hot water pump, And an MCU controlling the amount of hot water outflow by controlling the amount of hot water outflow.

According to the embodiment of the present invention, when the rinsing water level of the rinsing water tank detected by the rinsing water level sensor falls below the predetermined reference value in the water temperature control of the water temperature leaving the hot water outflow side, And an MCU that increases the amount of water supplied to the rinse water tank by increasing the amount of opening and controls the combustion unit to increase the heat source heat amount of the heat exchanger so as not to affect the cleaning performance.

The water quality of the rinse water tank of the dishwasher can be kept clean. Compared to existing dishwasher, it has a simple structure and reduces manufacturing cost and input resources. Since the rinse water of the rinse water tank is mixed with the water supply at a predetermined temperature, the temperature of the hot water can be accurately controlled and the hot water temperature can be controlled smoothly. The water supply and the amount of heat are adjusted according to the rinse water level of the rinse water tank to minimize the influence on the rinse performance of the dishwasher.

1 is an illustration of a dishwasher system according to an embodiment of the present invention.
2 is an illustration showing the main part of a dishwasher system according to an embodiment of the present invention.
3 is an exemplary block diagram of a dishwasher system according to an embodiment of the present invention.
4 is an illustration of a control routine in hot water use of a dishwasher system according to an embodiment of the present invention.
5 is an illustration of a water supply and calorie control routine according to the rinse water temperature control of a dishwasher system according to an embodiment of the present invention.

Hereinafter, a 'dishwasher system' according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The dishwasher system according to the present invention is proposed to maintain the quality of the rinse water tank in a clean and clean state.

The dishwasher system according to the present invention determines that the use of hot water is started when the flow rate is detected in the flow rate sensor and the hot water pump is operated so that the hot water is discharged from the rinse water tank to raise the water supply temperature.

The dishwasher system according to the present invention determines that the quantity of the rinse water tank is below the reference value or is not detected and determines that there is an influence on the washing performance and stops the operation of the hot water pump and the operation of the hot water pump it is suggested to precisely control the bypass flow rate using a servo to supply the outgoing water temperature to the hot water of a constant temperature.

In the dishwasher system according to the present invention, when the quantity of the rinse water tank is equal to or less than the reference value, the opening amount of the water supply side water supply valve is increased to increase the amount of water supplied into the rinse water tank, To provide a dishwasher that is not affected by cleaning performance.

1 is a flow diagram of a dishwasher system. Dishwashers vary in type. The dishwasher system of Figure 1 is an example of a gas dishwasher that uses gas as a heat source. The present invention is not limited to the dishwasher type as shown in Fig.

As shown in FIG. 1, the dishwasher 100 is adapted to put a dish in the dishwasher 110 and clean the dishware by washing and rinsing. The supply time of cold and hot water required for dish washing and rinsing, the supply and heating of pump, rinsing water and rinsing water, and the drainage control are controlled by the control unit according to the water temperature, the water level, and the like.

In the dishwasher 100, a rinsing nozzle 120 and a cleaning nozzle 130 are positioned around a cleaning tank 110. The water supplied to the rinsing nozzle 120 and the cleaning nozzle 130 is divided into rinsing water and washing water and the water stored in the rinsing water tank 140 and the washing water tank 150 is supplied to the rinsing pump 160, And then supplied to the washing tub 110. [

A rinsing water level detection sensor 141 and a rinsing water temperature detection sensor 142 are installed in the rinse water tank 140 and a washing water level detection sensor 151 and a washing water temperature detection sensor 152 are installed in the washing water tank 150 .

A rinsing pump 160 is installed in the rinsing water conduit and a rinsing pump 170 is installed in the rinsing water conduit, so that the rinsing water necessary for rinsing and washing and the washing water . The cold water supplied through the water supply side W1 is supplied to the rinsing water tank 140 when the water supply valve 191 is opened and the water to which the water supply is supplied flows from the rinsing water tank 140 to the circulation pump 190 And is converted into hot water through the heat exchanger 180 and circulated. In the gas-type dishwasher, the heat source of the heat exchanger is a gas burner (not shown) that generates heat of combustion.

The dishwasher system is controlled by the control unit 300. The apparatus portion constituting the dishwasher system includes a water temperature detecting portion for detecting the water temperature in the washing water tank 150 and the rinse water tank 140, a water level detecting portion for detecting the water level in the washing water tank and the rinse water tank, A pump driving unit for pumping or circulating the washing water, a heat source unit including a heater for heating the washing water and the rinsing water, and water supply and drainage units for supplying or discharging the washing water and the rinsing water.

The water temperature and water level detection unit is a sensor or the like that detects or measures the temperature, the water level, the pressure, etc. and sends the detection signal to the control unit 300. The water supply and drainage unit includes a water level control valve (Various kinds of solenoid valves). The heat source may be a gas burner, an electric heater, and an external heat source. Reference numeral 101 denotes a check valve provided in accordance with the present invention. Reference numeral 181 denotes a heat source of the wash water tank 150.

The control unit includes a control unit 300 for receiving a detection signal from the device unit, executing a program control command, determining the operation timing and order of each device, and controlling the operation timing. The reference value of the set temperature, the reference value of the set water level, and the set flow rate value set in the control unit 300 may be a comparison reference value memorized in the program or a reference value arbitrarily set by the user through the operation unit 310. [

The control unit 300 may include a display unit such as a display panel for indicating the start of washing through the operation unit 310 and a current operation state and an inputting state. The control unit 300 can identify the dishwasher control input, Let's do it.

A dishwasher system 100 according to an embodiment of the present invention will be described as a dishwasher A for performing washing and a water heater B for supplying hot water as follows.

FIG. 2 is a detailed illustration of the dishwasher system according to the embodiment of the present invention, which is divided into a dishwasher and a water heater.

The washing machine bumper A may be configured to include a backflow prevention valve 101 installed in a flow path between the rinsing water tank 140 and the rinsing nozzle 120 to prevent reverse flow of the rinsing water.

The cleaning device A may include a detergent motor 103 for supplying detergent to the rinsing water pumped through the rinsing pump 160 and a rinsing motor 102 for supplying rinsing to the rinsing water.

The water heater unit B may include a hot water pump 400 for pumping the rinsing water of the rinsing water tank 140 to the hot water and a quantity servo 410 for opening and closing the hot water pump 400 according to the hot water temperature. The hot water pump 400 is a pump for sending the hot water of the rinse water tank 400 to the hot water outflow side W2. The quantity servo 410 may be a switch that is feedback-controlled in accordance with the hot water flow rate checked by the flow rate sensor 411.

The control unit 300 for controlling the washing machine A and the water heater B detects the opening and closing of the quantity servo 410 and the driving of the hot water pump 400 from the outflow temperature detection sensor 420 of the outgoing side W2 And the hot water set temperature set in the control unit. The set temperature of the hot water may be a value input by the user through the operation unit 310 or a value stored in the control unit.

The configuration of a dishwasher system according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3. FIG.

2 is an illustration showing the main part of a dishwasher system according to an embodiment of the present invention.

3 is an exemplary block diagram of a dishwasher system according to an embodiment of the present invention.

The check valve (101) provided in the washing machine bore (A) may include at least one selected from a check valve, a flow control valve, and a solenoid valve. The backflow prevention valve 101 blocks the rinsing water mixed with the rinsing liquids (for example, detergent / rinsing) in the process of supplying the rinsing water to the nozzle 120 so as not to flow back to the rinsing water tank 140, So that clean water is always left in the water tank 140. Thus, when the water in the rinse water tank 140 is used as hot water, clean hot water not mixed with the washing liquid can be collected.

The door 140a of the rinse water tank 140 installed in the water heater unit B can open the door 140a if the rinse water tank 140 is dirty and clean the inside of the tank 140a, To be managed in a clean state at all times.

Preferably, the door 140a provided in the rinse water tank 140 is installed so as to be opened and closed. The position of the door 140a is preferably the upper position of the rinse water tank 140. And may be disposed in front of the front surface of the tank. When the door is positioned at the front of the front surface of the rinse water tank 140 with reference to the body of the rinse water tank 140, it may be advantageous to open the door 140a and check or clean the contamination degree of the tank.

The water heater unit B may be provided with a flow sensor 411 for detecting the flow rate of hot water and detecting the use of hot water. The flow rate sensor 411 senses the rinse water of the rinse water tank 140 when it is used as hot water, detects the flow rate of the rinse water, and controls the quantity control unit 410 through the control unit 300 by feedback control.

The control unit 300 compares the outgoing water temperature of the hot water detected from the outflow temperature detection sensor 420 provided on the hot water outgoing side W2 with the hot water set temperature set to the user input or control unit as the reference value, The controller controls the MCU 301 to control the water heater 400 to increase the primary water flow rate by increasing the primary water flow rate to increase the water outflow temperature and to open the water temperature servo 410 when the water temperature is high to lower the water outflow temperature of the hot water ).

When the rinsing water level of the rinsing water tank 140 detected by the rinsing water level detection sensor 141 falls below the predetermined reference value in the outgoing water temperature control, the control unit 300 decelerates the hot water pump 400, And an MCU 301 for controlling so as to limit the amount of water coming out of the entire hot water.

The controller 300 controls the water supply side water supply valve 191 so that when the rinsing water level of the rinsing water tank 140 detected by the rinsing water level detection sensor 141 falls below a predetermined reference value, And an MCU 301 for increasing the amount of water flowing into the rinsing water tank 140 and increasing the amount of heat of the heat exchanger 180 so as to control the combustion unit so as not to affect the cleaning performance .

A control example of the hot water of the dishwasher system according to the embodiment of the present invention will be described as follows.

4 is an illustration of a control routine in hot water use of a dishwasher system according to an embodiment of the present invention.

When there is a user hot water selection operation for using hot water, the flow sensor 411 detects the hot water flow rate and hot water usage, and the signal is input to the controller 300 (S110). At this time, the rinse water level and the rinse water temperature are checked by the rinse water level sensor 141 and the rinse water temperature sensor 142, respectively, and input to the controller 300 (S111).

The rinsing water temperature checked in step S111 is compared with the set temperature input to the controller 300. [ At this time, the rinse water level may be compared with the set water level reference value input to the controller 300 (S112).

If it is determined in step S112 that the rinsing water temperature is lower than the set temperature or the rinsing water level is insufficient, the process returns to step S111.

If it is determined in step S112 that the rinsing water temperature is higher than the set temperature and the rinsing water level is sufficient, the outflow temperature is checked (S113), and the operation degree of the hot water pump 400 is continuously calculated (for example, Designation of an rpm value affecting the power, etc.) (S114), and the hot water pump 400 is operated (S115). The hot water continuously flowing out to the water outlet side W2 by the hot water pump 400 is checked by the outflow temperature detection sensor 420 to the outflow temperature (S116), and the outflow temperature to be checked is set to the set temperature (S117).

If it is determined in step S117 that the outflow temperature is higher than the set temperature, the control returns to the hot water pump control in step S114.

If it is determined in step S117 that the outflow temperature is lower than the set temperature, it is determined whether the rinsing water tank is low or the rinsing water temperature is lower than the set temperature (S118).

If it is determined in step S117 that the water level of the rinse water tank is insufficient or the water temperature of the rinse water is lower than the set water temperature, the quantity servo 410 is controlled to be open together with the deceleration of the hot water pump and returns to step S111 S119).

If it is determined in step S118 that the rinsing water level is not sufficient and the rinsing water temperature is the set temperature, the control returns to the hot water pump control in step S114.

The dishwasher system according to the present invention compares the outgoing water temperature with the user's input or the reference value set in the control unit when the hot water is used and increases the primary water flow rate by driving the hot water pump 400 when the outflow temperature is low, When the outflow temperature is high, the quantity servo 410 may be opened to control the outflow temperature by controlling the second flow rate. When the rinsing water level of the rinsing water tank 140 falls below a predetermined reference value, the controller controls the water pump 400 to decelerate and the quantity servo 410 to be closed so as to limit the total amount of hot water outflow .

Therefore, if the quantity of the rinse water tank is below the reference value or is not detected, stop the operation of the hot water pump to smoothly proceed or wait for the progress, and use the degree of operation (increase / decrease) of the hot water pump and the quantity servo of the flow sensor, So that the temperature of the outgoing hot water can be supplied to the hot water of a constant temperature by precise control.

An example of water supply and heat quantity control according to the rinse tank level of the dishwasher system according to the embodiment of the present invention will be described as follows.

5 is an illustration of a water supply and calorie control routine according to the rinse water temperature control of a dishwasher system according to an embodiment of the present invention.

If the rinse water temperature is adjusted or fluctuated during use of the hot water (S210), it is first determined whether the hot water is being used (S211).

As a result of the determination in step S211, if it is not in use, it waits. If it is determined that the rinse water tank is in use, the level of the rinse water tank is checked (S212).

If the rinsing water level is continuously set to the reference water level set in the control unit, for example, the set water level = the heavy water level, it is determined whether the rinsing water level is lower than the middle water level (S213).

As a result of the determination in step S213, if it is determined that the water level is higher than the middle water level, the flow returns to the existing state or is maintained (S214). If it is determined that the water level is lower than the middle water level, S215).

At this time, since the temperature of the hot water coming out can be increased, the discharge flow rate of the hot water pump 400 is preferably reduced.

The amount of water flowing into the rinse water tank 140 is increased by increasing the opening amount of the water supply valve 191 on the water supply side W1 or reducing the flow amount flowing into the water discharge side W2. Accordingly, the water supply flow rate on the side of the rinse water tank 140 is increased and the combustion section is instructed to increase the heat quantity supplied to the heat exchanger 180, so that the water level of the rinse water tank rises and the rinse water temperature rises rapidly, The level of the rinse water tank is checked (S216).

The dishwasher system according to the embodiment of the present invention increases the amount of opening of the water supply valve W1 on the water supply side (W1) 191 when the rinse water level of the rinse water tank 140 falls below a predetermined reference value, 140 to increase the amount of heat supplied to the heat exchanger 180, and to control the dishwasher so as not to affect the cleaning performance by instructing the combustion unit to increase the amount of heat of the heat exchanger 180.

As described above, in the dishwasher system according to the embodiment of the present invention, hot water, which has been heat-exchanged through a heat exchanger for heating the rinse water, can be directly used from the rinse water tank without using any additional heating source, and clean water quality management of the rinse water can be performed .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Included in thought.

100: dishwasher 101: backflow prevention valve
102: Rinse motor 103: Detergent motor
120: rinse nozzle 130: cleaning nozzle
140: rinse water tank 140a: door
141: rinse water level detecting sensor
142: rinse water temperature detection sensor 150: washing water tank
160: Rinsing pump 170: Cleaning pump
180: heat exchanger (for heating rinse water) 190: circulation pump
191: Water supply valve 192: Water supply temperature detection sensor
300: control unit 301: MCU
310: operating part 400: hot water pump
410: Quantity Servo 411: Flow sensor

Claims (8)

A rinse water valve provided in a flow path between the rinse water tank and the rinse nozzle and including a check valve for preventing the rinse water from flowing backward;
A water heater unit including a hot water pump for pumping the rinse water of the rinse water tank to the hot water, and a quantity servo for opening / closing the hot water at the outflow temperature; And
And a controller for controlling the driving of the hot water pump and the opening and closing of the quantity servo by comparing the outflow temperature detected by the outflow temperature detection sensor with the set hot water temperature. The method according to claim 1,
Wherein the check valve includes at least one selected from a check valve, a flow rate control valve, and a solenoid valve. The method according to claim 1,
Wherein a door is provided at a part of the rinse water tank. The method according to claim 1,
Wherein the water heater is provided with a door capable of opening a rinse water tank, the door being located at an upper position of the rinse water tank and in front of the front portion. The method according to claim 1,
Wherein the water heater bend includes a flow sensor for detecting the hot water flow rate and the hot water usage. The method according to claim 1,
Wherein,
The temperature detected by the outflow temperature detecting sensor provided on the hot water outflow side is compared with the hot water set temperature, and when the outflow temperature is low, the hot water pump is driven to increase the primary flow rate to increase the outflow temperature, And controlling the quantity of water to be lowered by opening the quantity servo to the second flow rate control when the temperature of the dishwasher is higher than the temperature of the dishwasher. The method according to claim 1,
Wherein,
When the rinsing water level of the rinsing water tank detected by the rinsing water level sensor drops below the reference value in the temperature control of the outgoing water temperature to the hot water outflow side, the hot water pump is decelerated and the quantity servo is controlled to be closed, And an MCU for limiting and controlling the dishwasher. The method according to claim 1,
Wherein,
When the rinsing water level of the rinsing water tank detected by the rinsing water level detecting sensor falls below the predetermined reference value in the water temperature control of the water temperature leaving the hot water outflow side,
And an MCU for increasing the amount of water supplied to the rinse water tank by increasing the amount of opening of the water supply side water supply valve and controlling the combustion unit so as to increase the heat source heat amount of the heat exchanger so as not to affect the cleaning performance, .

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