CN111074978A - Integrated water tank and control method thereof - Google Patents

Abstract

The invention discloses an integrated water tank, which comprises a water tank cabinet body, wherein the water tank cabinet body comprises a cabinet body and a water tank arranged at the top of the cabinet body, and a gas water heater, a dish washing machine and a plurality of water using interfaces are arranged in the cabinet body; be equipped with the delivery port corresponding with basin, dish washer and water interface quantity on the gas heater, the delivery port leads to pipe to be connected with basin, dish washer and water interface respectively be equipped with first rivers sensor and first temperature sensor in the delivery port respectively be equipped with second rivers sensor and the second temperature sensor who is used for calculating the discharge through gas heater and the temperature of intaking respectively in the gas heater, be connected through the water pipe between delivery port and the total water inlet, be equipped with electronic water regulating valve on the water pipe between delivery port and the total water inlet be equipped with the temperature controller that can control each delivery port temperature respectively on gas heater's the panel.

Description

Integrated water tank and control method thereof

Technical Field

The invention relates to the field of kitchen appliances, in particular to an integrated water tank and a control method thereof.

Background

The existing kitchen appliances are more, the kitchen appliances usually relate to water and electricity, the safety requirement is high, meanwhile, how to effectively utilize kitchen space to install common kitchen electricity is also the problem which needs to be solved at present, and the existing kitchen appliances needing hot water are all independently provided with built-in heating devices, so that the cost is high and the efficiency is low.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problems to be solved by the invention are as follows: the kitchen appliances that relate to the water power consumption of present mainstream all integrate together, realize the modularization installation, provide hot water for a plurality of water equipment through a heating device, and every water equipment can set for the temperature alone, and during a plurality of water equipment water, can use water equipment to realize corresponding water temperature.

An integrated water tank comprises a water tank cabinet body, wherein the water tank cabinet body comprises a cabinet body and a water tank arranged at the top of the cabinet body, and a gas water heater, a dish washing machine and a plurality of water using interfaces are arranged in the cabinet body;

be equipped with the delivery port corresponding with basin, dish washer and water interface quantity on the gas heater, the delivery port leads to pipe to be connected with basin, dish washer and water interface respectively be equipped with first rivers sensor and first temperature sensor in the delivery port respectively be equipped with second rivers sensor and the second temperature sensor who is used for calculating the discharge through gas heater and the temperature of intaking respectively in the gas heater, be connected through the water pipe between delivery port and the total water inlet, be equipped with electronic water regulating valve on the water pipe between delivery port and the total water inlet be equipped with the temperature controller that can control each delivery port temperature respectively on gas heater's the panel.

Further, still include: the water treatment device is arranged in the cabinet body, the water treatment device is arranged between the main water inlet and the electric water regulating valve and is connected with the electric water regulating valve through a water pipe, and the water outlet of the water treatment device is connected with the water inlet of the gas water heater through a water pipe.

Further, still include: the water pumps are respectively arranged in the gas water heater, the water treatment equipment, the dish-washing machine and the water using interface, and double-stage pressurization can be realized between the water pumps.

Further, a third water flow sensor is arranged at a water inlet of the water treatment equipment.

Further, the internal integrated control ware that can pass through network control that is equipped with of cabinet, integrated control ware is connected with gas heater, water treatment facilities, dish washer, water pump, electronic water regulating valve, temperature controller, first rivers sensor, first temperature sensor, second rivers sensor, second temperature sensor and third rivers sensor electricity respectively.

A method of controlling an integrated sink as claimed in any one of claims 1 to 5, comprising the steps of:

the outlet water temperature of each water outlet is set through a temperature controller;

detecting water flow, namely igniting and burning the gas water heater when the second water flow sensor detects that the water flow is more than 2.5L/min, and judging the heating temperature according to a water flow signal obtained by the first water flow sensor;

when the first water flow sensor acquires more than two water flow signals, the cold water flow is controlled by the electric water regulating valve to be mixed, and the water using equipment reaches the required temperature;

and judging whether the water pump needs to be started or not according to the water flow signal acquired by the first water flow sensor.

Further, the method for judging the heating temperature according to the water flow signal acquired by the first water flow sensor is as follows:

when only one water flow signal exists, the gas water heater heats according to the temperature set by the corresponding water outlet, and the water temperature is confirmed through the corresponding first temperature sensor and the second temperature sensor;

when more than two water flow signals exist, the gas water heater heats according to the maximum temperature set between the corresponding water outlets.

Further, the calculation method for controlling the cold water flow is as follows:

when there are two water flow signals L1 and L2, if L1 and L2 are 5L/min and 3L/min, respectively, the corresponding set temperature of L1 is 50 degrees, and the corresponding set temperature of L2 is 42 degrees, the gas water heater heats at 50 degrees, and if L2 requires cold water mixing flow Lx, the energy formula Q is CMT, and the following results are obtained: (Lx × T + L2 × 50) ═ 42 × (Lx + L2), so that Lx may become 8 × L2/(42-T), the corresponding electric water control valve is controlled so that Lx becomes 8 × L2/(42-T).

Further, the method for judging whether the water pump needs to be started according to the water flow signal acquired by the first water flow sensor comprises the following steps:

and when any water outlet or more than two water outlets with large water flow demand has a water flow signal, the water pump is started.

Further, the method also comprises a filtering method of the water treatment equipment, and the method comprises the following steps:

and the water quantity condition detected by the third water flow sensor is judged by adopting one-stage filtration or two-stage filtration or no filtration.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention integrates a plurality of kitchen appliances (such as a gas water heater, a water treatment device, a dish washer, a water pump and a kitchen garbage disposer) into the water tank cabinet body to save the installation space, integrates the communication among the kitchen appliances through the integrated treater, can support each other, enables some common functions (such as kitchen appliances needing an electric heating module or a water pump module, the interior of the kitchen appliances needing the electric heating module or the water pump module can be saved or integrated), can simplify the internal structure of each kitchen appliance after integrating the kitchen appliances into the water tank cabinet body, effectively reduces the cost, simplifies the circuit of the product by integrated control, is convenient for production and maintenance, adopts the modularized design of each kitchen appliance, and can be installed by a user according to the requirement, need install additional or change also very convenient in the later stage, the unified water equipment heat supply water of water supply tank, dish washer and water use interface etc. of gas heater makes every water equipment can independent settlement temperature through temperature controller, when a plurality of water equipment simultaneous water use, adjusts department's cold water volume through the electronic water regulating valve that corresponds in proportion, realizes cold, hot water and mixes to reach the temperature that each equipment set for, and simple structure, convenient to use.

Drawings

FIG. 1 is a schematic view of a structural frame of an integrated sink according to the present invention;

fig. 2 is a schematic diagram of a framework of an integrated sink control method according to the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of the claims of the present invention.

As shown in fig. 1-2, an integrated sink comprises a sink body 1, wherein the sink body 1 comprises a cabinet body 10 and a sink 11 disposed on the top of the cabinet body 10, and a gas water heater 2, a dishwasher 4 and a plurality of water interfaces 5 are disposed in the cabinet body 10;

the water treatment device comprises a gas water heater 2, a water outlet 20 and a water treatment device 3, wherein the number of the water outlet 20 is corresponding to that of the water tank 11, the dishwasher 4 and the water interface 5, the water outlet 20 is respectively connected with the water tank 11, the dishwasher 4 and the water interface 5 through water pipes, the water outlet 20 is respectively provided with a first water flow sensor 21 and a first temperature sensor 22, the gas water heater 2 is internally provided with a second water flow sensor 23 and a second temperature sensor 24 which are respectively used for calculating the water flow and the water inlet temperature of the gas water heater 2, the water outlet 20 is connected with a main water inlet through water pipes, the water pipe between the water outlet 20 and the main water inlet is provided with an electric water regulating valve 25, the panel of the gas water heater 2 is provided with a temperature controller 26 which can respectively control the temperature of each water outlet 20, the water treatment device 3 is arranged in a cabinet body 10, the water treatment device 3 is arranged between the, the water outlet of the water treatment equipment 3 is connected with the water inlet of the gas water heater 2 through a water pipe, the gas water heater 2 can be arranged at the leftmost side or the rightmost side in the cabinet body 10 to facilitate air exhaust, a plurality of kitchen appliances (such as the gas water heater 2, the water treatment equipment 3, the dish washing machine 4, the water pump 6 and the kitchen garbage disposer) are integrated into the sink cabinet body 1 to play a role in saving the installation space, the communication among the kitchen appliances is integrated together through the integrated controller 8, the functions can be mutually supported, some common functions (such as the kitchen appliances needing an electric heating module or a water pump module, the interior of which needs to be independently provided with the electric heating module or the water pump module) on each kitchen appliance can be omitted or integrated, and the internal structure of each kitchen appliance can be simplified after the plurality of kitchen appliances are integrated into the sink cabinet body, effectual reduce cost, integrated control makes the circuit of product simplify more, be convenient for production and maintenance, each kitchen appliance adopts the modular design, the user can select the installation as required, it is also very convenient to install additional or change in the later stage, 2 unified feed water tanks 11 of gas heater, the water equipment heat supply water of dish washer 4 and water interface 5 etc., it can independently set for the temperature to make every water equipment through temperature controller 26, when a plurality of water equipment are used simultaneously, locate the cold water volume through the electronic water regulating valve 25 proportion regulation that corresponds, realize cold, the hot water mixes, in order to reach the temperature that each equipment set for, and simple structure, high durability and convenient use.

The invention also includes: set up water pump 6 in gas heater 2, water treatment facilities 3, dish washer 4 and water interface 5 respectively, can realize the doublestage pressure boost between water pump 6, can make water pump 6 between water treatment facilities 3 and the gas heater 2 start simultaneously, realize the doublestage pressure boost, improve and use the travelling comfort, each water equipment can independently install water pump 6 additional as required.

The third water flow sensor 30 is arranged at the water inlet of the water treatment equipment 3, the water flow entering the water treatment equipment 3 can be detected by the third water flow sensor 30, the filtering mode can be selected according to the water flow, and the filtering efficiency and the filtering quality are improved.

The integrated controller 8 which can be controlled through a network is arranged in the cabinet body 10, the integrated controller 8 is respectively electrically connected with the gas water heater 2, the water treatment equipment 3, the dish washing machine 4, the water pump 6, the electric water regulating valve 25, the temperature controller 26, the first water flow sensor 21, the first temperature sensor 22, the second water flow sensor 23, the second temperature sensor 24 and the third water flow sensor 30, the equipment in the integrated water tank is controlled through the network through the integrated controller 8, and meanwhile, the complexity of systems and structures of all the equipment is reduced.

A method of controlling an integrated sink as claimed in any one of claims 1 to 5, comprising the steps of:

the outlet water temperature of each water outlet 20 is set through the temperature controller 26;

detecting water flow, namely igniting and burning the gas water heater 2 when the second water flow sensor 23 detects that the water flow is more than 2.5L/min, and judging the heating temperature according to a water flow signal obtained by the first water flow sensor 21;

when the first water flow sensor 21 acquires more than two water flow signals, the cold water flow is controlled by the electric water regulating valve 25 to be mixed, and the water using equipment reaches the required temperature;

and judging whether the water pump 6 needs to be started or not according to the water flow signal acquired by the first water flow sensor 21.

The method for judging the heating temperature according to the water flow signal acquired by the first water flow sensor 21 comprises the following steps:

when only one water flow signal exists, the gas water heater 2 heats according to the temperature set by the corresponding water outlet 20, and the water temperature is confirmed through the corresponding first temperature sensor 22 and the second temperature sensor 24;

when more than two water flow signals exist, the gas water heater 2 heats according to the maximum temperature set between the corresponding water outlets 20.

The calculation method for controlling the cold water flow comprises the following steps:

when there are two water flow signals L1 and L2, if L1 and L2 are 5L/min and 3L/min, respectively, the corresponding set temperature of L1 is 50 degrees, and the corresponding set temperature of L2 is 42 degrees, the gas water heater 2 heats at 50 degrees, and if L2 requires the cold water mixing flow Lx, the energy formula Q is CMT, and the following results are obtained: (Lx + T + L2 + 50) ═ 42 (Lx + L2), so that Lx may be 8 × L2/(42-T), the corresponding electric water control valve 25 is controlled to make Lx become 8 × L2/(42-T), the required amount of cold water is calculated according to the above formula, and the amount of cold water is controlled by the electric water control valve 25 to mix cold water and hot water to reach the set water temperature.

The method for judging whether the water pump 6 needs to be started according to the water flow signal acquired by the first water flow sensor 21 comprises the following steps:

when any water outlet 20 or more than two water outlets 20 with large water flow demand have water flow signals, the water pump 6 is started, and the water pressure is increased by starting the water pump, so that the water using equipment can better operate.

The invention also comprises a filtering method of the water treatment equipment 3, which comprises the following steps:

the water quantity detected by the third water flow sensor 30 is judged by one-stage filtration, two-stage filtration or no filtration.

Firstly, a user sets the temperature of each water-using device, when the water-using device uses water, the first water flow sensor 21 connected with the water-using device receives a water flow signal, the temperature controller 25 heats according to the temperature set by the water-using device corresponding to the water flow signal, if more than two water-using signals occur, the water-using device with the highest temperature is heated according to the highest temperature, meanwhile, the electric water regulating valve 25 is used for mixing and regulating cold water of the water-using device with the highest temperature, so that the water-using device reaches the set temperature, when the first water flow sensor 21 detects that any water outlet 20 with large water flow demand or any two or more water outlets 20 have water flow signals, the water pump 6 is started to increase the front-end water pressure, the water flow of the water inlet is detected by the third water flow sensor 30 in the water treatment device 3, and the.

The above-mentioned embodiments are intended to illustrate the technical solutions and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only the most preferred embodiments of the present invention, and are not intended to limit the present invention, and any modifications, additions, equivalents, etc. made within the scope of the principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. An integrated sink, comprising a sink cabinet body (1), characterized in that: the sink cabinet body (1) comprises a cabinet body (10) and a sink (11) arranged at the top of the cabinet body (10), wherein a gas water heater (2), a dish washing machine (4) and a plurality of water using interfaces (5) are arranged in the cabinet body (10);

the gas water heater (2) is provided with water outlets (20) corresponding to the water tanks (11), the dish-washing machine (4) and the water connectors (5), the water outlet (20) is respectively connected with the water tank (11), the dish-washing machine (4) and the water interface (5) through water pipes, a first water flow sensor (21) and a first temperature sensor (22) are respectively arranged in the water outlet (20), a second water flow sensor (23) and a second temperature sensor (24) which are respectively used for calculating the water flow and the inlet water temperature of the gas water heater (2) are arranged in the gas water heater (2), the water outlet (20) is connected with the main water inlet through a water pipe, an electric water regulating valve (25) is arranged on the water pipe between the water outlet (20) and the main water inlet, and a temperature controller (26) capable of respectively controlling the temperature of each water outlet (20) is arranged on the panel of the gas water heater (2).

2. The integrated sink of claim 1, further comprising: the water treatment device (3) is arranged in the cabinet body (10), the water treatment device (3) is arranged between the main water inlet and the electric water regulating valve (25) and is connected through a water pipe, and the water outlet of the water treatment device (3) is connected with the water inlet of the gas water heater (2) through a water pipe.

3. The integrated sink of claim 2, further comprising: the water pump (6) is respectively arranged in the gas water heater (2), the water treatment equipment (3), the dish-washing machine (4) and the water interface (5), and double-stage pressurization can be realized between the water pumps (6).

4. An integrated sink according to claim 2 or 3, wherein: and a third water flow sensor (30) is arranged at the water inlet of the water treatment equipment (3).

5. The integrated water tank as claimed in any one of claims 1 to 4, wherein: the intelligent water heater is characterized in that an integrated controller (8) capable of being controlled through a network is arranged in the cabinet body (10), and the integrated controller (8) is electrically connected with the gas water heater (2), the water treatment equipment (3), the dish washing machine (4), the water pump (6), the electric water regulating valve (25), the temperature controller (26), the first water flow sensor (21), the first temperature sensor (22), the second water flow sensor (23), the second temperature sensor (24) and the third water flow sensor (30) respectively.

6. A method for controlling an integrated water tank as claimed in any one of claims 1 to 5, comprising the steps of:

the water outlet temperature of each water outlet (20) is set through a temperature controller (26);

detecting water flow, namely igniting and burning the gas water heater (2) when the second water flow sensor (23) detects that the water flow is more than 2.5L/min, and judging the heating temperature according to a water flow signal obtained by the first water flow sensor (21);

when the first water flow sensor (21) acquires more than two water flow signals, the cold water flow is controlled by the electric water regulating valve (25) to be mixed, and the water using equipment reaches the required temperature;

and judging whether the water pump (6) needs to be started or not according to the water flow signal acquired by the first water flow sensor (21).

7. The method for controlling an integrated water tank as claimed in any one of claims 1 to 5, wherein the method for determining the heating temperature based on the water flow signal obtained by the first water flow sensor (21) comprises the following steps:

when only one water flow signal exists, the gas water heater (2) heats according to the temperature set by the corresponding water outlet (20), and the water temperature is confirmed through the corresponding first temperature sensor (22) and the second temperature sensor (24);

when more than two water flow signals exist, the gas water heater (2) heats according to the maximum temperature set between the corresponding water outlets (20).

8. The control method for an integrated water tank as claimed in any one of claims 1 to 5, wherein the calculation method for controlling the flow rate of cold water is as follows:

when there are two water flow signals L1, L2, if L1, L2 are 5L/min, 3L/min respectively, L1 sets the temperature to 50 degrees correspondingly, L2 sets the temperature to 42 degrees correspondingly, then the gas water heater (2) heats at 50 degrees, L2 is set to require the cold water mixing flow Lx, and the energy formula Q ═ CMT can obtain: (Lx × T + L2 × 50) ═ 42 × (Lx + L2), whereby Lx may become 8 × L2/(42-T), and the corresponding electric water control valve (25) is controlled so that Lx becomes 8 × L2/(42-T).

9. The method for controlling an integrated water tank as claimed in any one of claims 6 to 8, wherein the method for determining whether the water pump (6) needs to be started based on the water flow signal obtained by the first water flow sensor (21) comprises the following steps:

when any water outlet (20) or more than any two water outlets (20) with large water flow demand has a water flow signal, the water pump (6) is started.

10. The control method of an integrated water tank as claimed in any one of claims 6 to 8, further comprising a filtering method of the water treatment device (3), wherein the method comprises the following steps:

the condition of the water quantity detected by the third water flow sensor (30) is judged by adopting one-stage filtration or two-stage filtration or no filtration.

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