CN211552030U

CN211552030U - Electric water heater

Info

Publication number: CN211552030U
Application number: CN201921909955.3U
Authority: CN
Inventors: 安志怀; 安雨飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-09-22
Anticipated expiration: 2029-11-07

Abstract

The utility model discloses an electric water heater, electric water heater includes: the first heating chamber comprises a first water outlet, a first movable partition plate, a first water inlet and a first control switch, and the second heating chamber comprises a second water outlet, a second movable partition plate, a second water inlet and a second control switch; the double heating chambers are adopted for alternately supplying power for heating, so that the energy-saving effect is obvious; and the power failure and hot water supply are adopted, so that the safety of the product is improved.

Description

Electric water heater

Technical Field

The utility model relates to a household electrical appliances field especially relates to an electric heating water heater.

Background

The method adopted by the existing electric heating water heater is as follows: the water heating device comprises a water inlet, a water outlet and a heating space (heating chamber) in the middle, wherein a heating rod is arranged in the heating chamber to heat water, after the heating chamber is filled with water, the heating rod is powered on to heat the water, and the water heating device can be used when the water is heated to a set temperature.

When the water heater is used, with the hot water delivered from the hot water port, cold water (tap water supply) starts to enter the heating chamber in equal amount, cold water and hot water start to be mixed for energy exchange in the heating chamber, the water temperature in the heating chamber starts to drop, although the heating rod still heats (the power of the heating rod cannot be set to be infinite), the newly-incoming cold water cannot be heated to the set temperature in a short time, and the water temperature at the water outlet starts to drop until the temperature suitable for a user cannot be met. The existing manufacturer has the following solutions: firstly, the power of the heating rod is increased; and secondly, the capacity of the heating chamber is increased, certain improvement can be achieved, but the constant change of the temperature of the water outlet and the continuity of use cannot be guaranteed. Under the measures of leakage protection and the like, certain potential safety hazards still exist.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an electric heating water heater for solve the above-mentioned problem among the prior art.

An embodiment of the utility model provides an electric heating water heater, include:

the first heating chamber comprises a first water outlet, a first movable partition plate, a first water inlet and a first control switch, wherein the initial position of the first movable partition plate is arranged at the first water inlet in the first heating chamber, the first heating chamber is particularly used for heating water when the water is powered on, when the temperature of the water reaches a set value, the first heating chamber is triggered to be powered off and the second heating chamber is powered on according to the boiling water operation of a user, the first water outlet and the first water inlet are opened, hot water output from the chamber is isolated from input cold water through the first movable partition plate, when the first movable partition plate moves to a preset position, namely the output hot water reaches a threshold value, the first control switch is triggered through the first movable partition plate to close the first water outlet and the first water inlet and power on the first heating chamber, the second heating chamber is powered off and the second water outlet and the second water inlet are opened, wherein the temperature of the water in the second heating chamber reaches a set value before the first movable partition is moved to a predetermined position;

a second heating chamber including a second water outlet, a second movable partition, a second water inlet, and a second control switch, wherein an initial position of the second movable partition is disposed at the second water inlet in the second heating chamber, the second heating chamber is specifically configured to heat water when powered on, to power off the second heating chamber based on the triggering of the first movable partition, and to open the second water outlet and the second water inlet, to isolate the hot water output from the cold water input through the second movable partition, and to trigger the second control switch to close the second water outlet and the second water inlet and to power on the second heating chamber, and to power off the first heating chamber and to open the first water outlet and the first water inlet when the second movable partition is moved to a predetermined position, that is, when an amount of hot water output reaches a threshold value, wherein before the second movable partition is moved to the predetermined position, the temperature of the water in the first heating chamber reaches a set value.

Adopt the embodiment of the utility model provides a, through using one set of energy-saving control device, reach energy-conservation, safety and promote the purpose of electric water heater product quality. The heat energy exchange of cold and hot water in the heating chamber can be reduced, the temperature change of the water outlet is reduced, the heat energy use efficiency is improved, and the satisfaction degree of a user is improved; the double heating chambers are adopted for alternately supplying power for heating, so that the energy-saving effect is obvious; and the power failure and hot water supply are adopted, so that the safety of the product is improved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a schematic view of an electrically heated water heater according to an embodiment of the present invention;

fig. 2 is a flow chart of the operation of the electric water heater according to the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

According to the utility model discloses according to the embodiment provides an electric water heater, and fig. 1 is the utility model discloses an electric water heater's schematic diagram, as shown in fig. 1, according to the utility model discloses electric water heater specifically includes:

a first heating chamber 10 including a first water outlet 100, a first movable partition 102, a first water inlet 104, and a first control switch 106, wherein an initial position of the first movable partition 102 is disposed at the first water inlet 104 of the first heating chamber 10, the first heating chamber 10 is specifically configured to heat water when being powered on, when a temperature of the water reaches a set value, the first heating chamber 10 is powered off and the second heating chamber 20 is powered on according to a user's boiling operation, the first water outlet 100 and the first water inlet 104 are opened, hot water output from the chamber is isolated from cold water input through the first movable partition 102, when the first movable partition 102 is moved to a predetermined position, that is, when an amount of hot water output reaches a threshold value, the first control switch 106 is triggered through the first movable partition 102 to close the first water outlet 100 and the first water inlet 104 and power on the first heating chamber 10, powering off the second heating chamber 20 and opening the second water outlet 200 and the second water inlet 204, wherein the temperature of the water in the second heating chamber 20 reaches a set value before the first moving partition 102 moves to a predetermined position;

the first movable partition 102 may be moved electrically or mechanically.

A second heating chamber 20 including a second water outlet 200, a second movable partition 202, a second water inlet 204, and a second control switch 206, wherein an initial position of the second movable partition 202 is set at the second water inlet 204 in the second heating chamber 20, the second heating chamber 20 is specifically used for heating water when being powered on, when the temperature of the water reaches a set value, the second heating chamber 20 is powered off based on the triggering of the first movable partition 102, and the second water outlet 200 and the second water inlet 204 are opened, the hot water output from the chamber is isolated from the cold water input by the second movable partition 202, when the second movable partition 202 moves to a predetermined position, that is, when the amount of hot water output reaches a threshold value, the second control switch 206 is triggered by the second movable partition 202 to close the second water outlet 200 and the second water inlet 204 and power on the second heating chamber 20, the first heating chamber 10 is powered off and the first water outlet 100 and the first water inlet 104 are opened, wherein the temperature of the water in the first heating chamber 10 reaches a set value before the second moving partition 202 moves to a predetermined position.

The second movable partition 202 may be moved electrically or mechanically.

The first heating chamber 10 is specifically configured to: when the first movable partition 102 triggers the first control switch 106 to close the first water outlet 100 and the first water inlet 104 and to power on the first heating chamber 10 and to power off the second heating chamber 20 and to open the second water outlet 200 and the second water inlet 204, the first movable partition 102 is reset.

The second heating chamber 20 is specifically configured to: when the second movable partition 202 triggers the second control switch 206 to close the second water outlet 200 and the second water inlet 204 and to power on the second heating chamber 20, to power off the first heating chamber 10 and to open the first water outlet 100 and the first water inlet 104, the second movable partition 202 is reset.

In the embodiment of the present invention, the first water outlet 100 and the second water outlet 200 are branches of a total water outlet. The first and

second water inlets

104, 204 are branches of a total water inlet.

The utility model discloses electric water heater still includes:

and a first check valve disposed at the main water outlet for performing opening and closing of the first and

second water outlets

100 and 200. In the embodiment of the present invention, when the first water outlet 100 is turned on, the first water inlet 104 is turned on at the same time, and when the second water outlet 200 is turned on, the second water inlet 204 is turned on at the same time.

The above technical solutions according to the embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 2 is a processing flow chart of the operation of the electric water heater according to the embodiment of the present invention, as shown in fig. 2, the existing heating chamber is divided into two heating chambers a and B, and when the hot water in the heating chamber a is output to a certain amount (a threshold), the trigger controller closes the water outlet a and opens the water outlet B. Similarly, when the hot water in the heating chamber B is output to a certain amount (a threshold value), the controller is triggered to close the water outlet B and open the water outlet A, and the water outlet A is circularly reciprocated to keep the continuity of water outlet.

In the embodiment of the present invention, a movable partition is respectively installed inside the heating chamber A, B, and the initial position is located at the cold water inlet, so as to isolate the hot water heated in the chamber from the cold water to be input, and prevent them from exchanging heat energy.

When the power supply is turned on to heat the heating chamber A, the chamber A is powered off and the water outlet of the chamber A is opened according to the boiled water operation of a user when the temperature of the chamber A reaches a set value. When the A chamber outputs hot water, the B chamber is powered on to heat. When the hot water output by the chamber A reaches a certain amount, the movable partition triggers the controller to close the water outlet A, and the movable partition resets.

And when the temperature of the chamber B reaches a set value, the chamber B is powered off and the water outlet of the chamber B is opened based on the triggering of the first movable partition plate. When the B chamber starts to output hot water, the A chamber is connected with the power supply to start heating. When the hot water output by the chamber B reaches a certain amount, the movable partition triggers the controller to close the water outlet B, and the movable partition resets. The operation is repeated and alternated. When the heating power satisfies a reasonable value, continuous hot water supply can be realized.

According to the technical scheme, the movable cold and hot water partition isolation baffle is arranged in the heating chamber to prevent cold and hot water in the heating chamber from exchanging heat energy. The initial position of the isolation barrier is at the cold water inlet end. The baffle moves reasonably along with the change of the space occupied by the cold water and the hot water. When the heated hot water is less than a certain amount, the water outlet of the heating chamber is closed, and the baffle returns to the initial position. When water is supplied to the outside, the heating chamber is powered off, and the use safety is guaranteed. The two heating chambers are arranged, and energy can be saved by alternately heating.

In conclusion, with the help of the technical scheme of the utility model, the heat energy exchange of hot and cold water has been reduced effectively to the removal baffle in the heating chamber, has improved the quality of heating chamber export hot water temperature (being close to invariable), has improved user's satisfaction (original scheme delivery port temperature is by high to low continuous variation, and the user will constantly adjust the muddy water valve). The two heating chambers are heated alternately, so that energy conservation can be effectively realized. The heating chamber is powered off and water supply is carried out, so that the safety is improved. The power of the heating rod is reasonably set according to the maximum water yield and the proper temperature, so that continuous and stable hot water supply can be achieved, and waiting is avoided.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and optionally they may be implemented by program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that shown or described herein, or separately fabricated as individual integrated circuit modules, or multiple ones of them fabricated as a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An electrically heated water heater, comprising:

a second heating chamber including a second water outlet, a second movable partition, a second water inlet, and a second control switch, wherein an initial position of the second movable partition is disposed at the second water inlet in the second heating chamber, the second heating chamber is specifically configured to heat water when powered on, when the temperature of the water reaches a set value, the second heating chamber is powered off based on the triggering of the first movable partition, the second water outlet and the second water inlet are opened, hot water output from the chamber is isolated from cold water input through the second movable partition, when the second movable partition moves to a predetermined position, that is, when the amount of hot water output reaches a threshold value, the second control switch is triggered through the second movable partition to close the second water outlet and the second water inlet and power on the second heating chamber, the first heating chamber is powered off and the first water outlet and the first water inlet are opened, wherein the temperature of the water in the first heating chamber reaches a set value before the second movable partition is moved to a predetermined position.

2. An electrically heated water heater as claimed in claim 1 wherein the first heating chamber is particularly adapted to: when the first movable clapboard triggers the first control switch to close the first water outlet and the first water inlet and electrify the first heating chamber, and the second heating chamber is powered off and the second water outlet and the second water inlet are opened, the first movable clapboard is reset.

3. An electrically heated water heater as claimed in claim 1 wherein the second heating chamber is particularly adapted to: when the second movable clapboard triggers the second control switch to close the second water outlet and the second water inlet and electrify the second heating chamber, and the first heating chamber is powered off and the first water outlet and the first water inlet are opened, the second movable clapboard is reset.

4. An electrically heated water heater as claimed in claim 1 wherein the first water outlet and the second water outlet are branches of a common water outlet.

5. An electrically heated water heater according to claim 1 wherein the first and second water inlets are branches of a total water inlet.

6. The electrically heated water heater of claim 4, further comprising:

and the first one-way valve is arranged at the main water outlet and used for opening and closing the first water outlet and the second water outlet.