TWI788164B - Drinking water facility - Google Patents

Abstract

A drinking water facility comprises: a water discharge control device and a drinking water treatment device. The water discharge control device has a water supply faucet and an operation display interface, the operation display interface is disposed on the water supply faucet. The operation display interface is provided with a hydrogenation on/off button, a water temperature setting button, a hot water discharging button and a room-temperature water discharging button for users to operate. The drinking water treatment device has a control circuit, an inlet pipe, a room-temperature water supply line, a hot water supply line, a discharging water temperature sensor, a quartz heating tube, a room-temperature water discharging valve, a hot water discharging valve and a hydrogenation module. An inlet end of the inlet pipe is communicated with an external water supply source to guide drinking water into the drinking water treatment device. The drinking water treatment device guides the drinking water to flow out in a manner that the room-temperature water supply line and the hot water supply line are in confluent communication with the water supply faucet.

Description

drinking water equipment

The present invention relates to a drinking water equipment, in particular to an instantaneous heating drinking water equipment.

Water dispenser is a device for providing drinking water; according to the nature and function of the equipment, water dispenser can be further divided into types that provide hot water, cold water or normal temperature water. The most common type of water dispenser currently used in daily life is push-type water dispenser; that is to say, when the water switch is pressed, drinking water will flow out from the water outlet, so as to provide water to users conveniently .

In the prior art water dispenser, the drinking water stored in the water tank inside the water dispenser is repeatedly heated, and substances harmful to human health are formed in the drinking water. And, in the drinking water heating process, the drinking water dispenser of prior art can't fully heat drinking water to enough temperature; In other words, drinking water cannot be heated to 100 degrees Celsius for complete boiling disinfection). Therefore, the water dispenser of the prior art is not only likely to cause harm to the health of the user, but also wastes energy due to repeated heating of the drinking water.

Therefore, the object of the present invention is to provide a drinking water device that can provide instant drinking water that is heated to a set temperature in a short time and avoids repeated heating.

The technical means adopted by the present invention to solve the problems of the prior art is to provide a drinking water equipment, including: a water outlet control device, with a water supply faucet and an operation display interface, wherein the operation display interface is arranged on the water supply faucet, and the operation display The interface provides a hydrogenation treatment switch key, a water temperature setting key, a hot water outlet key, and a normal temperature water outlet key for user operation; and a drinking water treatment device with a control circuit, a water inlet pipeline, a normal temperature water supply pipeline, and a hot water supply Pipeline, outlet water temperature sensor, quartz heating tube, normal temperature outlet valve, hot water outlet valve and hydrogenation module, wherein the control circuit is electrically connected to the operation display interface and the outlet water temperature sensor, the quartz heating tube, The normal temperature water outlet valve, the hot water outlet valve, and the hydrogenation module are used to receive signals generated by operating the hydrogenation treatment switch key, the water temperature setting key, the hot water outlet key, and the normal temperature water outlet key, and the control The circuit controls the quartz heating tube, the normal temperature water outlet valve, the hot water outlet valve and the hydrogenation module. The drinking water treatment device introduces drinking water through the water inlet end of the water inlet pipeline connected to an external water supply source, and The outlet end of the water inlet pipeline is connected to the normal temperature water supply pipeline and the hot water supply pipeline in a split flow, and the drinking water treatment device is guided by converging the normal temperature water supply pipeline and the hot water supply pipeline to the water supply faucet To discharge the drinking water, the normal temperature water outlet valve is set on the flow path of the normal temperature water supply pipeline, and the hydrogenation module, the quartz heating tube, and the outlet water temperature are sequentially set on the flow path of the hot water supply pipeline. sensor and the hot water outlet valve, wherein the control circuit is set so that: when the user operates the normal temperature water outlet key, the control circuit controls the normal temperature water outlet valve so that the drinking water from the external water supply source The sequence is output from the water supply faucet through the water inlet pipeline, the normal temperature water supply pipeline and the normal temperature outlet valve. When the user operates the water temperature setting key, the set value of the outlet water temperature is set accordingly. When the hot water outlet key is used, the control circuit controls the quartz heating tube and the hot water outlet valve so that the drinking water from the external water supply source Flow through the water inlet pipeline and the hot water supply pipeline in sequence, and be heated by the quartz heating tube until the water temperature of the drinking water sensed by the outlet water temperature sensor reaches the set value of the outlet water temperature. The heated drinking water is output from the water supply faucet through the hot water outlet valve, and when the user operates the hydrogenation switch key, the control circuit controls the hydrogenation module to control the water flowing through the hot water supply pipeline. Drinking water is hydrotreated.

In one embodiment of the present invention, a drinking water equipment is provided, wherein the drinking water treatment device further has a water inlet valve electrically connected to the control circuit, and the water inlet valve is connected to the water inlet pipeline and the hot water supply pipe between the channels, whereby when the user operates the hot water outlet key, the control circuit controls the water inlet valve so that the drinking water is guided from the water inlet pipeline to the hot water supply pipeline.

In one embodiment of the present invention, a drinking water device is provided, wherein a water inlet temperature sensor adjacent to the water inlet end of the quartz heating tube is further provided on the flow path of the hot water supply pipeline to measure the drinking water temperature. The water inlet temperature value, and the water inlet temperature sensor is electrically connected to the control circuit to transmit the water inlet temperature value to the control circuit, and the control circuit according to the water inlet temperature value and the water outlet temperature set value The difference between them adjusts the heating power of the quartz heating tube for heating the drinking water.

In one embodiment of the present invention, a drinking water device is provided, wherein the operation display interface is further provided with a water supply flow control key, so that the user operates the water supply flow control key to set the flow setting value, and when the flow meter detects When the measured outlet water flow reaches the flow set value, the control circuit controls to close the normal temperature water outlet valve or the hot water outlet valve to stop the output of the drinking water.

In one embodiment of the present invention, a drinking water equipment is provided, wherein a water storage tank is further provided on the flow path of the hot water supply pipeline to store the drinking water flowing through the hot water supply pipeline, and the storage tank The water tank is connected to the quartz heating tube so that the drinking water flows to the quartz heating tube for heating, and the hydrogen The hydrogenation module is installed in the water storage tank to contact the drinking water in the water storage tank, and the drinking water is subjected to hydrogenation treatment when the user operates the hydrogenation treatment switch key.

In one embodiment of the present invention, a drinking water equipment is provided, wherein a water pump is further provided on the flow path of the hot water supply pipeline, the water pump is electrically connected to the control circuit and the water pump The pump is connected between the water storage tank and the quartz heating tube, and the water pump is controlled by the control circuit to draw the drinking water from the water storage tank to the quartz heating tube for heating.

The technical means adopted by the present invention to solve the problems of the prior art is to provide another drinking water equipment, including: a water outlet control device with an operation display interface, the operation display interface is provided with a water temperature setting key, a hot water outlet key and a cold water The water outlet key is for the user to operate; and the drinking water treatment device has a control circuit, a water inlet pipeline, a cold water supply pipeline, a hot water supply pipeline, a hot water outlet temperature sensor, a cold water outlet temperature sensor, a quartz heating pipe, cold water outlet valve, hot water outlet valve and refrigeration module, wherein the control circuit is electrically connected to the operation display interface, the hot water outlet temperature sensor, the cold water outlet temperature sensor, the quartz heating tube, The cold water outlet valve, the hot water outlet valve and the refrigeration module are used to receive signals generated by operating the water temperature setting button, the hot water outlet button and the cold water outlet button, and the control circuit controls the quartz heating tube , the cold water outlet valve, the hot water outlet valve, and the refrigeration module, the drinking water equipment leads in drinking water through the water inlet end of the water inlet pipeline connected to an external water supply source, and the water outlet end of the water inlet pipeline The cold water supply pipeline and the hot water supply pipeline are diverted and connected, and the drinking water equipment guides the drinking water through the common water outlet through the confluence of the cold water supply pipeline and the hot water supply pipeline. The cooling module, the cold water outlet temperature sensor and the cold water outlet valve are sequentially arranged on the flow path of the water supply pipeline, and the quartz heating tube is sequentially arranged on the flow path of the hot water supply pipeline . The hot water outlet temperature sensor and the hot water outlet valve, wherein the control circuit is configured to: when the user operates the water temperature setting key, set The cold water outlet temperature setting value and/or the hot water outlet temperature setting value, when the user operates the cold water outlet key, the control circuit controls the refrigeration module and the cold water outlet valve so that the drinking water from the external water supply source Flow through the water inlet pipeline and the cold water supply pipeline in sequence, and the drinking water is cooled by the refrigeration module until the water temperature of the drinking water sensed by the cold water outlet temperature sensor reaches the cold water outlet temperature setting value, the refrigerated drinking water is output from the common water outlet through the cold water outlet valve, and when the user operates the hot water outlet key, the control circuit controls the quartz heating tube and the hot water outlet valve, The drinking water from the external water supply source flows through the water inlet pipeline and the hot water supply pipeline in sequence, and the drinking water is heated by the quartz heating tube until the hot water outlet temperature sensor senses When the water temperature of the drinking water reaches the set value of the hot water outlet temperature, the heated drinking water is output from the common water outlet through the hot water outlet valve.

In an embodiment of the present invention, another drinking water equipment is provided, wherein a water storage tank is further provided on the flow path of the water inlet pipeline to store the drinking water flowing through the water inlet pipeline, and the water storage tank is connected to the The cold water supply pipeline and the hot water supply pipeline allow the drinking water to flow to the quartz heating tube and the refrigeration module, and the flow path of the hot water supply pipeline is further provided with a water inlet adjacent to the water inlet end of the quartz heating tube The temperature sensor is used to measure the water inlet temperature value of the drinking water, and the water inlet temperature sensor is electrically connected to the control circuit to transmit the water inlet temperature value to the control circuit, and the control circuit according to the The heating power of the quartz heating tube for heating the drinking water is adjusted based on the difference between the inlet water temperature value and the set value of the hot water outlet temperature.

The technical means adopted by the present invention to solve the problems of the conventional technology is to provide yet another drinking water equipment, including: a water outlet control device with an operation display interface, the operation display interface is provided with a water temperature setting key, a hot water outlet key and The cold water outlet key is for the user to operate; and the drinking water treatment device has a control circuit, a water inlet pipeline, a cold water supply pipeline, a hot water supply pipeline, and a hot water outlet temperature sensor, cold water outlet temperature sensor, quartz heating tube, cold water outlet valve, hot water outlet valve and refrigeration module, wherein the control circuit is electrically connected to the operation display interface, the hot water outlet temperature sensor, The cold water outlet temperature sensor, the quartz heating tube, the cold water outlet valve, the hot water outlet valve and the refrigeration module are used to receive the water temperature setting button, the hot water outlet button and the cold water outlet button. The signal generated, and the control circuit controls the quartz heating tube, the cold water outlet valve, the hot water outlet valve and the refrigeration module. Drinking water is introduced, and the water outlet end of the water inlet pipeline is connected to the cold water supply pipeline and the hot water supply pipeline. The temperature sensor and the cold water outlet valve, the quartz heating tube, the hot water outlet temperature sensor and the hot water outlet valve are sequentially arranged on the flow path of the hot water supply pipeline, wherein the control circuit It is set so that: when the user operates the water temperature setting key, the cold water outlet temperature setting value and/or the hot water outlet temperature setting value are set accordingly; when the user operates the cold water outlet key, the control circuit controls The refrigeration module and the cold water outlet valve allow the drinking water from the external water supply source to flow through the water inlet pipeline and the cold water supply pipeline in sequence, and the drinking water is cooled by the refrigeration module until the cold water When the water temperature of the drinking water sensed by the outlet water temperature sensor reaches the set value of the cold water outlet temperature, the refrigerated drinking water is output from the cold water outlet of the cold water supply pipeline through the cold water outlet valve, so that the refrigerated The drinking water is guided out by the drinking water equipment, and when the user operates the hot water outlet key, the control circuit controls the quartz heating tube and the hot water outlet valve so that the drinking water from the external water supply source Water flows through the water inlet pipeline and the hot water supply pipeline in sequence, and the drinking water is heated by the quartz heating tube until the temperature of the drinking water sensed by the hot water outlet temperature sensor reaches the hot water temperature. When the water outlet temperature is set, the heated drinking water is output from the hot water outlet of the hot water supply pipeline through the hot water outlet valve, so that the heated drinking water is guided out from the drinking water equipment.

In an embodiment of the present invention, another drinking water equipment is provided, wherein a water storage tank and an inlet water temperature sensor are further provided on the flow path of the water inlet pipeline, and the water storage tank is set to store the water flowing through the inlet water. The drinking water in the water pipeline, and the water storage tank is connected to the cold water supply pipeline and the hot water supply pipeline so that the drinking water flows to the quartz heating tube and the refrigeration module, and the inlet water temperature sensor is installed on The water storage tank is used to measure the water inlet temperature value of the drinking water, and the water inlet temperature sensor sends the water inlet temperature value to the control circuit, and the control circuit according to the water inlet temperature value and the hot water output The heating power of the quartz heating tube for heating the drinking water is adjusted according to the difference between the temperature setting values.

Through the technical means adopted by the drinking water equipment of the present invention, the following technical effects can be obtained. Through the configuration of the quartz heating tube, the present invention enables the drinking water to be heated to the temperature set by the user in an instant, so as to improve the deficiency that the existing technology cannot heat the drinking water to a sufficient temperature. Moreover, the present invention uses the position of the quartz heating tube on the flow path of the hot water supply pipeline to make the drinking water flow out of the drinking water equipment after being heated (reaching the set heating temperature), so as to avoid the drinking water from being heated repeatedly. Waste of energy.

100: Drinking water equipment

100A: Drinking water equipment

100B: Drinking water equipment

1: Water outlet control device

1A: Water outlet control device

1B: Water outlet control device

11: water supply tap

12: Operation display interface

121: Hydrogenation switch key

121A: water temperature setting key

121B: water temperature setting key

122: Water temperature setting key

122A: Hot water outlet key

122B: Hot water outlet key

123: Hot water outlet key

123A: Cold water outlet key

123B: Cold water outlet key

124: Normal temperature water outlet key

125: Water supply flow control key

12A: Operation display interface

12B: Operation display interface

2: Drinking water treatment device

2A: Drinking water treatment plant

2B: Drinking water treatment plant

2CA: common outlet

20: Inlet valve

20A: Refrigeration module

20B: Refrigeration module

21: Control circuit

21A: control circuit

21B: Control circuit

22: water inlet pipe

221A: Water storage tank

221B: Water storage tank

222B: Inlet water temperature sensor

22A: water inlet pipe

22B: water inlet pipe

23: Normal temperature water supply pipeline

23A: Cold water supply pipeline

23B: Cold water supply pipeline

24: Hot water supply pipeline

241: Inlet water temperature sensor

241A: Inlet water temperature sensor

242: Water storage tank

243: water pump

24A: Hot water supply pipeline

24B: Hot water supply pipeline

25: Outlet water temperature sensor

25A: hot water outlet temperature sensor

25B: hot water outlet temperature sensor

26:Quartz heating tube

26A: cold water outlet temperature sensor

26B: cold water outlet temperature sensor

27: Normal temperature outlet valve

27A: Quartz heating tube

27B: Quartz heating tube

28: Hot water outlet valve

28A: Cold water outlet valve

28B: Cold water outlet valve

29: Hydrogenation module

29A: Hot water outlet valve

29B: Hot water outlet valve

[Fig. 1] is a schematic diagram showing the appearance of drinking water equipment according to the first embodiment of the present invention; [Fig. 2] is a structure showing the drinking water treatment device of drinking water equipment according to the first embodiment of the present invention Structural diagram; [Fig. 3] is a schematic diagram showing the appearance of the drinking water equipment according to the second embodiment of the present invention; [Fig. 4] is a drinking water treatment device showing the drinking water equipment according to the second embodiment of the present invention Schematic diagram of the structure; [Fig. 5] is a schematic diagram showing the appearance of the drinking water equipment according to the third embodiment of the present invention; and [Fig. 6] shows the structure of the drinking water treatment device of the drinking water equipment according to the third embodiment of the present invention. Structure diagram.

Embodiments of the present invention will be described below based on FIGS. 1 to 6 . This description is not intended to limit the implementation of the present invention, but is one of the examples of the present invention.

As shown in FIGS. 1 to 2 , a drinking water device 100 according to a first embodiment of the present invention includes: a water outlet control device 1 and a drinking water treatment device 2 .

As shown in FIG. 1 to FIG. 2 , the water outlet control device 1 has a water supply faucet 11 and an operation display interface 12 . The operation display interface 12 is arranged on the water supply faucet 11, and the operation display interface 12 is provided with a hydrogenation treatment switch key 121, a water temperature setting key 122, a hot water discharge key 123 and a normal temperature water discharge key 124 for user operation.

As shown in Figures 1 to 2, the drinking water treatment device 2 has a control circuit 21, a water inlet pipeline 22, a normal temperature water supply pipeline 23, a hot water supply pipeline 24, an outlet water temperature sensor 25, a quartz heater Pipe 26, normal temperature water outlet valve 27, hot water outlet valve 28 and hydrogenation module 29. The control circuit 21 is electrically connected to the operation display interface 12, the outlet water temperature sensor 25, the quartz heating tube 26, the normal temperature outlet valve 27, the hot water outlet valve 28 and the hydrogenation module 29 to receive the operation The signals generated by the hydrogenation treatment switch key 121 , the water temperature setting key 122 , the hot water discharge key 123 and the normal temperature water discharge key 124 . Moreover, the control circuit 21 controls the quartz heating tube 26 , the normal temperature water outlet valve 27 , the hot water outlet valve 28 and the hydrogenation module 29 .

As shown in Figures 1 to 2, the drinking water treatment device 2 introduces drinking water through the water inlet end of the water inlet pipeline 22 connected to an external water supply source, and the water outlet end of the water inlet pipeline 22 is connected in a shunt. The room temperature water supply pipeline 23 and the hot water supply pipeline 24 . The drinking water treatment device 2 is connected to the water supply faucet 11 through the normal temperature water supply pipeline 23 and the hot water supply pipeline 24 to lead out the drinking water. The normal temperature water outlet valve 27 is disposed on the flow path of the normal temperature water supply pipeline 23 . The hydrogenation module 29 , the quartz heating tube 26 , the outlet water temperature sensor 25 and the hot water outlet valve 28 are sequentially arranged on the flow path of the hot water supply pipeline 24 .

As shown in Figures 1 to 2, the control circuit 21 is configured so that when the user operates the normal temperature water outlet key 124, the control circuit 21 controls the normal temperature water outlet valve 27 so that the water from the external water supply source The drinking water is output from the water supply faucet 11 through the water inlet pipeline 22, the normal temperature water supply pipeline 23 and the normal temperature water outlet valve 27 in sequence; when the user operates the water temperature setting key 122, the outlet water is set accordingly. temperature setting value; when the user operates the hot water outlet key 123, the control circuit 21 controls the quartz heating tube 26 and the hot water outlet valve 28, so that the drinking water from the external water supply source flows through the The water inlet pipeline 22 and the hot water supply pipeline 24 are heated by the quartz heating tube 26 until the water temperature of the drinking water sensed by the outlet water temperature sensor 25 reaches the set value of the outlet water temperature. The drinking water is output from the water supply faucet 11 through the hot water outlet valve 28; and when the user operates the hydrogenation switch key 121, the control circuit 21 controls the hydrogenation module 29 to supply water flowing through the hot water The potable water in line 24 is hydrotreated.

As shown in FIG. 1 to FIG. 2 , according to the drinking water equipment 100 of the first embodiment of the present invention, the drinking water treatment device 2 further has a water inlet valve 20 electrically connected to the control circuit 21 . The water inlet valve 20 is connected between the water inlet pipeline 22 and the hot water supply pipeline 24 . Thus, when the user operates When the hot water outlet key 123 is activated, the control circuit 21 controls the water inlet valve 20 to guide the drinking water from the water inlet pipeline 22 to the hot water supply pipeline 24 .

As shown in Fig. 1 to Fig. 2, according to the drinking water equipment 100 of the first embodiment of the present invention, on the flow path of the hot water supply pipeline 24, there is further provided a water inlet port adjacent to the quartz heating tube 26. The water inlet temperature sensor 241 is used to measure the water inlet temperature value of the drinking water. Moreover, the inlet water temperature sensor 241 is electrically connected to the control circuit 21 to transmit the inlet water temperature value to the control circuit 21 . The control circuit 21 adjusts the heating power of the quartz heating tube 26 for heating the drinking water according to the difference between the inlet water temperature value and the outlet water temperature setting value.

As shown in Figures 1 to 2, according to the drinking water equipment 100 of the first embodiment of the present invention, the operation display interface 12 is further provided with a water supply flow control key 125, whereby the user operates the water supply flow control Key 125 to set the flow setpoint. When the outlet water flow detected by the flow meter reaches the flow set value, the control circuit 21 controls to close the normal temperature water outlet valve 27 or the hot water outlet valve 28 to stop the output of the drinking water.

As shown in Figures 1 to 2, according to the drinking water equipment 100 of the first embodiment of the present invention, a water storage tank 242 is further provided on the flow path of the hot water supply pipeline 24 to store the heat flowing through it. The drinking water of the water supply line 24 . The water storage tank 242 is communicated with the quartz heating tube 26 so that the drinking water flows to the quartz heating tube 26 for heating. The hydrogenation module 29 is installed in the water storage tank 242 to contact the drinking water in the water storage tank 242 , and the drinking water is hydrogenated when the user operates the hydrogenation switch key 121 .

As shown in FIG. 1 to FIG. 2 , in the drinking water equipment 100 according to the first embodiment of the present invention, a pump 243 is further provided on the flow path of the hot water supply pipeline 24 . The drawing water pump 243 is electrically connected to the control circuit 21, and the drawing water pump 243 is communicated with the water storage tank 242 and the quartz Between the heating tubes 26. Moreover, the water pump 243 is controlled by the control circuit 21 to draw the drinking water from the water storage tank 242 to the quartz heating tube 26 for heating.

As shown in FIG. 3 to FIG. 4 , a drinking water equipment 100A according to the second embodiment of the present invention includes: a water outlet control device 1A and a drinking water treatment device 2A.

As shown in FIG. 3 to FIG. 4 , the water outlet control device 1A has an operation display interface 12A. The operation display interface 12A is provided with a water temperature setting key 121A, a hot water dispensing key 122A and a cold water dispensing key 123A for the user to operate.

As shown in Figures 3 to 4, the drinking water treatment device 2A has a control circuit 21A, a water inlet pipeline 22A, a cold water supply pipeline 23A, a hot water supply pipeline 24A, a hot water outlet temperature sensor 25A, a cold water Outlet water temperature sensor 26A, quartz heating tube 27A, cold water outlet valve 28A, hot water outlet valve 29A, and refrigeration module 20A. The control circuit 21A is electrically connected to the operation display interface 12A, the hot water outlet temperature sensor 25A, the cold water outlet temperature sensor 26A, the quartz heating tube 27A, the cold water outlet valve 28A, and the hot water outlet valve 29A. and the refrigeration module 20A to receive signals generated by operating the water temperature setting key 121A, the hot water dispensing key 122A and the cold water dispensing key 123A. The control circuit 21A controls the quartz heating tube 27A, the cold water outlet valve 28A, the hot water outlet valve 29A and the refrigeration module 20A.

As shown in Figures 3 to 4, the drinking water equipment 100A is connected to an external water supply source through the water inlet end of the water inlet pipeline 22A to lead in drinking water, and the water outlet end of the water inlet pipeline 22A is connected to the The cold water supply line 23A and the hot water supply line 24A. The drinking water equipment 100A guides the drinking water through the cold water supply pipeline 23A and the hot water supply pipeline 24A converging and communicating with the common water outlet 2CA. On the flow path of the cold water supply pipeline 23A, the refrigeration module 20A, the cold water outlet temperature Degree sensor 26A and the cold water outlet valve 28A. The quartz heating tube 27A, the hot water outlet temperature sensor 25A and the hot water outlet valve 29A are sequentially arranged on the flow path of the hot water supply pipeline 24A.

As shown in Figures 3 to 4, the control circuit 21A is configured so that when the user operates the water temperature setting key 121A, the set value of the cold water outlet temperature and/or the hot water outlet temperature is set accordingly. ; when the user operates the cold water outlet key 123A, the control circuit 21A controls the refrigeration module 20A and the cold water outlet valve 28A, so that the drinking water from the external water supply source flows through the water inlet pipeline 22A and The cold water supply pipeline 23A, and the drinking water is refrigerated by the refrigeration module 20A until the water temperature of the drinking water sensed by the cold water outlet temperature sensor 26A reaches the set value of the cold water outlet temperature, the refrigerated The drinking water is output from the common water outlet 2CA through the cold water outlet valve 28A; and when the user operates the hot water outlet key 122A, the control circuit 21A controls the quartz heating tube 27A and the hot water outlet valve 29A, The drinking water from the external water supply source flows through the water inlet pipeline 22A and the hot water supply pipeline 24A in sequence, and the drinking water is heated by the quartz heating tube 27A until the hot water outlet temperature sensor When the temperature of the drinking water sensed by 25A reaches the set value of the hot water outlet temperature, the heated drinking water is output from the common water outlet 2CA through the hot water outlet valve 29A.

As shown in Figures 3 to 4, according to the drinking water equipment 100A of the second embodiment of the present invention, a water storage tank 221A is further provided on the flow path of the water inlet pipeline 22A to store the water flowing through the water inlet pipeline 22A. The drinking water, and the water storage tank 221A is connected to the cold water supply pipeline 23A and the hot water supply pipeline 24A so that the drinking water flows to the quartz heating tube 27A and the refrigeration module 20A. The flow path of the hot water supply pipeline 24A is further provided with an inlet temperature sensor 241A adjacent to the inlet end of the quartz heating tube 27A to measure the inlet temperature of the drinking water. Moreover, the inlet water temperature sensor 241A is electrically connected to the control circuit 21A to transmit the inlet water temperature value to the control circuit 21A. The control circuit 21A adjusts the heating power of the quartz heating tube 27A for heating the drinking water according to the difference between the inlet water temperature value and the hot water outlet temperature setting value.

As shown in FIG. 5 to FIG. 6, the drinking water equipment 100B according to the third embodiment of the present invention includes: a water outlet control device 1B and a drinking water treatment device 2B.

As shown in Figures 5 to 6, the water outlet control device 1B has an operation display interface 12B, and the operation display interface 12B is provided with a water temperature setting key 121B, a hot water out key 122B and a cold water out key 123B for the user to operate.

As shown in Figures 5 to 6, the drinking water treatment device 2B has a control circuit 21B, a water inlet pipeline 22B, a cold water supply pipeline 23B, a hot water supply pipeline 24B, a hot water outlet temperature sensor 25B, a cold water Outlet water temperature sensor 26B, quartz heating tube 27B, cold water outlet valve 28B, hot water outlet valve 29B, and refrigeration module 20B. The control circuit 21B is electrically connected to the operation display interface 12B, the hot water outlet temperature sensor 25B, the cold water outlet temperature sensor 26B, the quartz heating tube 27B, the cold water outlet valve 28B, and the hot water outlet valve 29B. and the refrigeration module 20B to receive signals generated by operating the water temperature setting key 121B, the hot water dispensing key 122B and the cold water dispensing key 123B. The control circuit 21B controls the quartz heating tube 27B, the cold water outlet valve 28B, the hot water outlet valve 29B and the refrigeration module 20B.

As shown in Figures 5 to 6, the drinking water equipment 100B leads in drinking water through the water inlet end of the water inlet pipeline 22B connected to an external water supply source, and the water outlet end of the water inlet pipeline 22B is connected to the The cold water supply line 23B and the hot water supply line 24B. The cooling module 20B, the cold water outlet temperature sensor 26B and the cold water outlet valve 28B are sequentially disposed on the flow path of the cold water supply pipeline 23B. The quartz heating tube 27B, the hot water outlet temperature sensor 25B and the hot water outlet valve 29B are sequentially arranged on the flow path of the hot water supply pipeline 24B.

As shown in Figures 5 to 6, the control circuit 21B is configured so that when the user operates the water temperature setting key 121B, the set value of the cold water outlet temperature and/or the hot water outlet temperature is set accordingly. When the user operates the cold water outlet key 123B, the control circuit 21B controls the refrigeration module 20B and the cold water outlet valve 28B, so that the drinking water from the external water supply source flows through the water inlet pipeline 22B and The cold water supply pipeline 23B, and the drinking water is refrigerated by the refrigeration module 20B until the water temperature of the drinking water sensed by the cold water outlet temperature sensor 26B reaches the set value of the cold water outlet temperature, the refrigerated The drinking water is output from the cold water outlet of the cold water supply pipeline 23B through the cold water outlet valve 28B, so that the refrigerated drinking water is guided out from the drinking water equipment 100B; and when the user operates the hot water outlet When key 122B is pressed, the control circuit 21B controls the quartz heating tube 27B and the hot water outlet valve 29B, so that the drinking water from the external water supply source flows through the water inlet pipe 22B and the hot water supply pipe 24B in sequence, And the drinking water is heated by the quartz heating tube 27B until the water temperature of the drinking water sensed by the hot water outlet temperature sensor 25B reaches the set value of the hot water outlet temperature, the heated drinking water passes through the The hot water outlet valve 29B is output from the hot water outlet of the hot water supply pipeline 24B, so that the heated drinking water is guided out from the drinking water equipment 100B.

As shown in FIG. 5 to FIG. 6, according to the third embodiment of the drinking water equipment 100B of the present invention, the flow path of the water inlet pipeline 22B is further provided with a water storage tank 221B and an inlet water temperature sensor 222B. The water storage tank 221B is set to store the drinking water flowing through the water inlet pipeline 22B, and the water storage tank 221B is communicated with the cold water supply pipeline 23B and the hot water supply pipeline 24B so that the drinking water flows to the quartz heating Tube 27B and the refrigeration module 20B.

As shown in FIG. 5 to FIG. 6, the inlet water temperature sensor 222B is installed in the water storage tank 221B to measure the inlet water temperature value of the drinking water, and the inlet water temperature sensor 222B temperature value sent to the control circuit 21B. The control circuit 21B adjusts the heating power of the quartz heating tube 27B for heating the drinking water according to the difference between the inlet water temperature and the hot water outlet temperature setting.

The above descriptions and descriptions are only descriptions of the preferred embodiments of the present invention. Those who have common knowledge of this technology may make other modifications according to the scope of the patent application defined below and the above descriptions, but these modifications should still be It is for the inventive spirit of the present invention and within the scope of rights of the present invention.

100: Drinking water equipment

1: Water outlet control device

11: water supply tap

12: Operation display interface

121: Hydrogenation switch key

122: Water temperature setting key

123: Hot water outlet key

124: Normal temperature water outlet key

125: Water supply flow control key

2: Drinking water treatment device

21: Control circuit

Claims (10)

A drinking water device, comprising: The water outlet control device has a water supply faucet and an operation display interface, wherein the operation display interface is set on the water supply faucet, and the operation display interface provides a hydrogenation treatment on-off key, a water temperature setting key, a hot water out key and a normal temperature water out key, and for user operation; and The drinking water treatment device has a control circuit, a water inlet pipeline, a normal temperature water supply pipeline, a hot water supply pipeline, an outlet water temperature sensor, a quartz heating tube, a normal temperature outlet valve, a hot water outlet valve and a hydrogenation module, wherein the control The circuit is electrically connected to the operation display interface, the outlet water temperature sensor, the quartz heating tube, the normal temperature water outlet valve, the hot water outlet valve and the hydrogenation module, so as to receive the hydrogenation treatment switch key, the water temperature The signals generated by the setting button, the hot water outlet button and the normal temperature water outlet button, and the control circuit controls the quartz heating tube, the normal temperature water outlet valve, the hot water outlet valve and the hydrogenation module, and the drinking water treatment device uses The water inlet end of the water inlet pipeline is connected to an external water supply source to lead in drinking water, and the water outlet end of the water inlet pipeline is connected to the normal temperature water supply pipeline and the hot water supply pipeline by shunting. The normal temperature water supply pipeline and the hot water supply pipeline are converging and connected to the water supply faucet to lead out the drinking water. The normal temperature water outlet valve is arranged on the flow path of the normal temperature water supply pipeline. The hydrogenation module, the quartz heating tube, the outlet water temperature sensor and the hot water outlet valve are sequentially arranged on the flow path, Wherein the control circuit is configured to: When the user operates the normal temperature water outlet key, the control circuit controls the normal temperature water outlet valve so that the drinking water from the external water supply source passes through the water inlet pipeline, the normal temperature water supply pipeline and the normal temperature water outlet valve in sequence, and output from the supply tap, When the user operates the water temperature setting key, the outlet water temperature setting value is set accordingly, When the user operates the hot water outlet key, the control circuit controls the quartz heating tube and the hot water outlet valve so that the drinking water from the external water supply source flows through the water inlet pipeline and the hot water supply in sequence. Pipeline, and heated by the quartz heating tube, until the water temperature of the drinking water sensed by the outlet water temperature sensor reaches the set value of the outlet water temperature, the heated drinking water will automatically flow through the hot water outlet valve the supply tap output, and When the user operates the hydrogenation switch key, the control circuit controls the hydrogenation module to perform hydrogenation treatment on the drinking water flowing through the hot water supply pipeline. The drinking water equipment as described in Claim 1, wherein the drinking water treatment device further has a water inlet valve electrically connected to the control circuit, and the water inlet valve is connected between the water inlet pipeline and the hot water supply pipeline, Therefore, when the user operates the hot water outlet key, the control circuit controls the water inlet valve so that the drinking water is guided from the water inlet pipeline to the hot water supply pipeline. The drinking water equipment as described in Claim 1, wherein an inlet water temperature sensor adjacent to the water inlet end of the quartz heating tube is further provided on the flow path of the hot water supply pipeline to measure the inlet water of the drinking water temperature value, and the inlet water temperature sensor is electrically connected to the control circuit to transmit the inlet water temperature value to the control circuit, and the control circuit according to the difference between the inlet water temperature value and the outlet water temperature set value And adjust the heating power of the quartz heating tube for heating the drinking water. The drinking water equipment as described in claim 1, wherein the operation display interface is further provided with a water supply flow control key, whereby the user operates the water supply flow control key to set the flow setting value, and the output water flow detected by the flow meter When the flow set value is reached, the control circuit controls to close the normal temperature water outlet valve or the hot water outlet valve to stop the output of the drinking water. The drinking water equipment as described in Claim 1, wherein a water storage tank is further provided on the flow path of the hot water supply pipeline to store the drinking water flowing through the hot water supply pipeline, and the water storage tank is connected to the The quartz heating tube makes the drinking water flow to the quartz heating tube for heating, the hydrogenation module is installed in the water storage tank to contact the drinking water in the water storage tank, and when the user operates the hydrogenation treatment key Drinking water is hydrotreated. The drinking water equipment as described in claim 5, wherein a water pump is further provided on the flow path of the hot water supply pipeline, the water pump is electrically connected to the control circuit and the water pump is connected to Between the water storage tank and the quartz heating tube, and the water pump is controlled by the control circuit to draw the drinking water from the water storage tank to the quartz heating tube for heating. A drinking water device, comprising: The water outlet control device has an operation display interface, and the operation display interface is provided with a water temperature setting key, a hot water outlet key and a cold water outlet key for users to operate; and Drinking water treatment device, with control circuit, water inlet pipeline, cold water supply pipeline, hot water supply pipeline, hot water outlet temperature sensor, cold water outlet temperature sensor, quartz heating tube, cold water outlet valve, hot water outlet Valve and refrigeration module, wherein the control circuit is electrically connected to the operation display interface, the hot water outlet temperature sensor, the cold water outlet temperature sensor, the quartz heating tube, the cold water outlet valve, and the hot water outlet valve And the refrigeration module is used to receive the signals generated by operating the water temperature setting key, the hot water outlet key and the cold water outlet key, and the control circuit controls the quartz heating tube, the cold water outlet valve, the hot water outlet Valve and the refrigeration module, the drinking water equipment is connected to an external water supply source through the water inlet end of the water inlet pipe to lead in drinking water, and the water outlet end of the water inlet pipe is connected to the cold water supply pipe and the hot water supply pipe. Water supply pipeline, the drinking water equipment guides the drinking water through the confluence of the cold water supply pipeline and the hot water supply pipeline to a common water outlet, sequentially on the flow path of the cold water supply pipeline The refrigeration module, the cold water outlet temperature sensor, and the cold water outlet valve are provided, and the quartz heating tube, the hot water outlet temperature sensor, and The hot water outlet valve, Wherein the control circuit is configured to: When the user operates the water temperature setting key, the cold water outlet temperature setting value and/or the hot water outlet temperature setting value are set accordingly, When the user operates the cold water outlet key, the control circuit controls the refrigeration module and the cold water outlet valve so that the drinking water from the external water supply source flows through the water inlet pipeline and the cold water supply pipeline in sequence, The drinking water is refrigerated by the refrigeration module until the water temperature of the drinking water sensed by the cold water outlet temperature sensor reaches the set value of the cold water outlet temperature, and the refrigerated drinking water passes through the cold water outlet valve. output from the common outlet, and When the user operates the hot water outlet key, the control circuit controls the quartz heating tube and the hot water outlet valve so that the drinking water from the external water supply source flows through the water inlet pipeline and the hot water supply in sequence. Pipeline, and the drinking water is heated by the quartz heating tube until the temperature of the drinking water sensed by the hot water outlet temperature sensor reaches the set value of the hot water outlet temperature, the heated drinking water passes through The hot water outlet valve is output from the common water outlet. The drinking water equipment as described in claim 7, wherein a water storage tank is further provided on the flow path of the water inlet pipeline to store the drinking water flowing through the water inlet pipeline, and the water storage tank is connected to the cold water supply pipeline and The hot water supply pipeline allows the drinking water to flow to the quartz heating tube and the refrigeration module, and the flow path of the hot water supply pipeline is further provided with an inlet water temperature sensor adjacent to the water inlet end of the quartz heating tube, to measure the incoming water temperature value of the drinking water, and the incoming water temperature sensor is electrically connected to the control circuit to transmit the incoming water temperature value to the control circuit, and the control circuit according to the incoming water temperature value and The difference between the hot water outlet temperature setting values adjusts the heating power of the quartz heating tube for heating the drinking water. A drinking water device, comprising: The water outlet control device has an operation display interface, and the operation display interface is provided with a water temperature setting key, a hot water outlet key and a cold water outlet key for users to operate; and Drinking water treatment device, with control circuit, water inlet pipeline, cold water supply pipeline, hot water supply pipeline, hot water outlet temperature sensor, cold water outlet temperature sensor, quartz heating tube, cold water outlet valve, hot water outlet Valve and refrigeration module, wherein the control circuit is electrically connected to the operation display interface, the hot water outlet temperature sensor, the cold water outlet temperature sensor, the quartz heating tube, the cold water outlet valve, and the hot water outlet valve And the refrigeration module is used to receive the signals generated by operating the water temperature setting key, the hot water outlet key and the cold water outlet key, and the control circuit controls the quartz heating tube, the cold water outlet valve, the hot water outlet Valve and the refrigeration module, the drinking water equipment is connected to an external water supply source through the water inlet end of the water inlet pipe to lead in drinking water, and the water outlet end of the water inlet pipe is connected to the cold water supply pipe and the hot water supply pipe. The water supply pipeline, the refrigeration module, the cold water outlet temperature sensor and the cold water outlet valve are sequentially arranged on the flow path of the cold water supply pipeline, and the flow path of the hot water supply pipeline is sequentially arranged The quartz heating tube, the hot water outlet temperature sensor and the hot water outlet valve are arranged on the ground, Wherein the control circuit is configured to: When the user operates the water temperature setting key, the cold water outlet temperature setting value and/or the hot water outlet temperature setting value are set accordingly, When the user operates the cold water outlet key, the control circuit controls the refrigeration module and the cold water outlet valve so that the drinking water from the external water supply source flows through the water inlet pipeline and the cold water supply pipeline in sequence, The drinking water is refrigerated by the refrigeration module until the water temperature of the drinking water sensed by the cold water outlet temperature sensor reaches the set value of the cold water outlet temperature, and the refrigerated drinking water passes through the cold water outlet valve. output from the cold water outlet of the cold water supply pipeline so that the chilled drinking water is guided out of the drinking water equipment, and When the user operates the hot water outlet key, the control circuit controls the quartz heating tube and the hot water outlet valve so that the drinking water from the external water supply source flows through the water inlet pipeline and the hot water supply in sequence. Pipeline, and the drinking water is heated by the quartz heating tube until the temperature of the drinking water sensed by the hot water outlet temperature sensor reaches the set value of the hot water outlet temperature, the heated drinking water passes through The hot water outlet valve is output from the hot water outlet of the hot water supply pipeline, so that the heated drinking water is guided out from the drinking water equipment. The drinking water equipment as described in Claim 9, wherein a water storage tank and an inlet water temperature sensor are further provided on the flow path of the water inlet pipeline, and the water storage tank is configured to store the drinking water flowing through the water inlet pipeline , and the water storage tank is connected to the cold water supply pipeline and the hot water supply pipeline so that the drinking water flows to the quartz heating tube and the refrigeration module, and the inlet water temperature sensor is installed in the water storage tank to measure The water inlet temperature value of the drinking water, and the water inlet temperature sensor transmits the water inlet temperature value to the control circuit, and the control circuit according to the difference between the water inlet temperature value and the hot water outlet temperature set value According to the difference, the heating power of the quartz heating tube for heating the drinking water is adjusted.

Images