CN214964590U - Quantitative heating water dispenser - Google Patents

Abstract

The utility model relates to a quantitative heating water dispenser, which comprises a water storage tank, a quantitative water storage container, a heating device and a water level monitoring component; the water storage tank is communicated with the quantitative water storage container through a water supply waterway so as to supply water quantitatively to the quantitative water storage container; the heating device is arranged on the quantitative water storage container to heat the water body in the quantitative water storage container; the water level monitoring assembly is arranged on the quantitative water storage container to monitor the water level in the quantitative water storage container; the heating device and the water level monitoring assembly are connected with the control module. The quantitatively-heated water dispenser has low energy consumption and high heating efficiency, ensures the water quality and ensures the health of drinking water.

Description

Quantitative heating water dispenser

Technical Field

The utility model relates to a water dispenser, in particular to a water dispenser with quantitative heating.

Background

The traditional water dispenser is often required to be provided with a large-capacity water tank, the heating device directly heats water in the water tank, and a user can take water for drinking after the water in the water tank is heated to boiling. The water dispenser has the following defects: the water in the water tank is more, so that the required electric energy is more when the water in the water tank is directly heated, namely, the energy consumption is high, the power consumption is large, the heating efficiency is low, and the load of a heating device is high; when the water temperature in the water tank is lower than the set minimum temperature, the system can start the heating device to heat the water body so as to ensure that the water temperature is constant at the set drinking temperature, and the control mode can lead the water body in the water tank to be continuously and repeatedly heated, thus leading the water quality to be influenced and further influencing the drinking health; the temperature controller in the traditional water dispenser is arranged in the inner cavity of the water tank to detect the temperature of the water body, but the detection method has the disadvantages of slow response speed and low sensitivity, so certain errors can occur.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a water dispenser with quantitative heating, which has low energy consumption, high heating efficiency and guaranteed water quality, thus ensuring the health of drinking water.

The purpose of the utility model is realized like this:

a drinking machine with quantitative heating function comprises a water storage tank, a quantitative water storage container, a heating device and a water level monitoring component; the water storage tank is communicated with the quantitative water storage container through a water supply waterway so as to supply water quantitatively to the quantitative water storage container; the heating device is arranged on the quantitative water storage container to heat the water body in the quantitative water storage container; the water level monitoring assembly is arranged on the quantitative water storage container to monitor the water level in the quantitative water storage container; the heating device and the water level monitoring assembly are connected with the control module.

The water level monitoring assembly comprises a lowest water level sensor for monitoring the lowest water level and a highest water level sensor for monitoring the highest water level; and the lowest water level sensor and the highest water level sensor are in communication connection with the control module.

The probe of the lowest water level sensor and the probe of the highest water level sensor respectively extend into the inner cavity of the quantitative water storage container, and the plane where the probe of the highest water level sensor is located is higher than the plane where the probe of the lowest water level sensor is located.

The heating device is attached to the outer side wall of the quantitative water storage container, and the plane where the lowest water level sensor probe is located is higher than the top end of the heating device.

The heating device is a thick film heater.

The heating device is provided with a temperature controller for monitoring the temperature of the heating device, and the temperature controller is connected with the control module.

And a manually controlled or electrically controlled water outlet switch is arranged on the quantitative water storage container and is connected with the control module.

The water outlet switch is positioned at the bottom of the quantitative water storage container, and a water receiving area is arranged below the quantitative water storage container.

A backflow waterway is arranged between the water storage tank and the quantitative water storage container; in the heating process, steam and/or water in the quantitative water storage container flow back to the water storage tank through the backflow waterway.

The volume of the quantitative water storage container is 100ml-300ml, and preferably 150ml-250 ml.

The utility model has the advantages as follows:

when the water dispenser is used, quantitative water is firstly injected into the quantitative water storage container, the system then starts the heating device to heat the water body in the quantitative water storage container, and as the quantity of water to be heated is relatively less, the energy consumption is lower (namely, the power consumption is low) and the heating efficiency is high; the water in the quantitative water storage container can be completely drained after the heating action is finished, so that the influence of repeated heating on the water quality is avoided, and the drinking water health of a user is ensured; the water level monitoring assembly can effectively ensure that the water in the quantitative water storage container is in a set range and ensure that all parts work normally; the temperature controller directly detects the temperature of the heating device, so that the temperature monitoring response is rapid and the error is small.

Drawings

Fig. 1 is a schematic view of a water dispenser according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1, the water dispenser according to the present embodiment includes a water storage tank 1, a quantitative water storage container 6, a heating device 9, and a water level monitoring assembly; the water storage tank 1 is communicated with a quantitative water storage container 6 through a water supply waterway 3, and a pump body 2 is arranged on the water supply waterway 3 so as to supply water quantitatively to the quantitative water storage container 6; the heating device 9 is arranged on the quantitative water storage container 6 to heat the water body in the quantitative water storage container 6; the water level monitoring assembly is arranged on the quantitative water storage container 6 to monitor the water level in the quantitative water storage container 6; the pump body 2, the heating device 9 and the water level monitoring assembly are respectively connected with the control module 7. When the water dispenser is used, quantitative water is firstly injected into the quantitative water storage container 6, the system then starts the heating device 9 to heat the water body in the quantitative water storage container 6, and as the quantity of water to be heated is relatively small, the energy consumption is low (namely, the power consumption is low), and the heating efficiency is high; the water in the quantitative water storage container 6 can be completely drained after the heating action is finished, so that the influence of repeated heating on the water quality is avoided, and the drinking water health of a user is ensured; the water level monitoring assembly can effectively ensure that water in the quantitative water storage container is in a set range, and the normal work of all parts is ensured.

Further, the water level monitoring assembly includes a minimum water level sensor 4 for monitoring a minimum water level and a maximum water level sensor 5 for monitoring a maximum water level; the lowest water level sensor 4 and the highest water level sensor 5 are in communication connection with the control module 7. When the lowest water level sensor 4 or the highest water level sensor 5 detects the corresponding water level, the system controls the pump body 2 to stop, and the water level in the quantitative water storage container 6 is prevented from being too high or too low.

Furthermore, the probe of the lowest water level sensor 4 and the probe of the highest water level sensor 5 respectively extend into the inner cavity of the quantitative water storage container 6, and the plane where the probe of the highest water level sensor 5 is located is higher than the plane where the probe of the lowest water level sensor 4 is located.

Further, the heating device 9 is attached to the outer side wall of the quantitative water storage container 6, and the plane where the probe of the lowest water level sensor 4 is located is higher than the top end of the heating device 9, so that the lowest water level is higher than the heating device 9, and dry burning is avoided.

Further, the heating device 9 is a thick film heater; other types of heating means 9 are also possible in addition to this.

Furthermore, a temperature controller 8 for monitoring the temperature of the heating device 9 is arranged on the heating device 9, and the temperature controller 8 is connected with the control module 7. The temperature controller 8 directly detects the temperature of the heating device 9, so the temperature monitoring response is rapid, and the error is small.

Furthermore, a manually controlled or electrically controlled water outlet switch 10 is arranged on the quantitative water storage container 6, and the electrically controlled water outlet switch 10 is connected with the control module 7; the water outlet switch 10 according to the present embodiment is preferably electrically controlled.

Furthermore, the water outlet switch 10 is located at the bottom of the quantitative water storage container 6, a water receiving area 12 is located below the quantitative water storage container 6, and a user can place a cup and the like into the water receiving area 12 to receive water.

Further, a backflow waterway 11 is arranged between the water storage tank 1 and the quantitative water storage container 6; in the heating process, steam and/or water in the quantitative water storage container 6 flows back to the water storage tank 1 through the backflow waterway 11.

Further, the volume of the quantitative water storage container is preferably 200 ml; of course, the volume of the quantitative water storage container can be adjusted according to the actual needs of users.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A drinking machine with quantitative heating, which comprises a water storage tank (1); the method is characterized in that: the water-saving device also comprises a quantitative water storage container (6), a heating device (9) and a water level monitoring component; the water storage tank (1) is communicated with the quantitative water storage container (6) through a water supply waterway (3) so as to quantitatively supply water to the quantitative water storage container (6); the heating device (9) is arranged on the quantitative water storage container (6) to heat the water body in the quantitative water storage container (6); the water level monitoring assembly is arranged on the quantitative water storage container (6) to monitor the water level in the quantitative water storage container (6); the heating device (9) and the water level monitoring assembly are connected with the control module (7).

2. The quantitatively heated water dispenser according to claim 1, characterized in that: the water level monitoring assembly comprises a lowest water level sensor (4) for monitoring the lowest water level and a highest water level sensor (5) for monitoring the highest water level; and the lowest water level sensor (4) and the highest water level sensor (5) are in communication connection with the control module (7).

3. The quantitatively heated water dispenser according to claim 2, characterized in that: the probe of the lowest water level sensor (4) and the probe of the highest water level sensor (5) respectively extend into the inner cavity of the quantitative water storage container (6), and the plane where the probe of the highest water level sensor (5) is located is higher than the plane where the probe of the lowest water level sensor (4) is located.

4. The quantitatively heated water dispenser according to claim 2, characterized in that: the heating device (9) is attached to the outer side wall of the quantitative water storage container (6), and the plane where the probe of the lowest water level sensor (4) is located is higher than the top end of the heating device (9).

5. The quantitatively heated water dispenser according to claim 4, characterized in that: the heating device (9) is a thick film heater.

6. The quantitatively heated water dispenser according to claim 1, characterized in that: the heating device (9) is provided with a temperature controller (8) used for monitoring the temperature of the heating device (9), and the temperature controller (8) is connected with the control module (7).

7. The quantitatively heated water dispenser according to claim 1, characterized in that: the quantitative water storage container (6) is provided with a manually controlled or electrically controlled water outlet switch (10), and the electrically controlled water outlet switch (10) is connected with the control module (7).

8. The quantitatively heated water dispenser according to claim 7, characterized in that: the water outlet switch (10) is positioned at the bottom of the quantitative water storage container (6), and a water receiving area (12) is arranged below the quantitative water storage container (6).

9. The quantitatively heated water dispenser according to claim 1, characterized in that: a backflow water channel (11) is arranged between the water storage tank (1) and the quantitative water storage container (6); in the heating process, steam and/or water in the quantitative water storage container (6) flow back to the water storage tank (1) through the backflow waterway (11).

10. The water dispenser with quantitative heating according to any one of claims 1 to 9, characterized in that: the volume of the quantitative water storage container (6) is 100ml-300 ml.

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