CN212870192U - Dual-mode opening and closing integrated intelligent water tank - Google Patents

Abstract

The utility model provides a double-mode opening and closing integrated intelligent water tank, aiming at the technical problems in the prior art, and comprising a shell, a heat preservation buffer water tank arranged in the shell, an opening and closing conversion valve, a water inlet, a water return port, a sewage discharge port and a water outlet; the switching valve is arranged at the upper part of the heat-preservation buffer water tank, the water inlet is connected with the heat-preservation buffer water tank through a pipeline, and an electromagnetic valve is arranged between the water inlet and the heat-preservation buffer water tank; a pipeline between the electromagnetic valve and the heat preservation buffer water tank is communicated with the water return port, and a second water flow switch, an auxiliary heating module and a check valve are sequentially arranged from the water return port to the pipeline between the electromagnetic valve and the heat preservation buffer water tank; the bottom of the heat-preservation buffer water tank is connected with a sewage draining outlet through a pipeline. Adopt unique switching water tank transform structure, the inside water pressure of automatically regulated water tank realizes supplying water at constant pressure at any time, satisfies the water demand of a plurality of water consumption points.

Description

Dual-mode opening and closing integrated intelligent water tank

Technical Field

The utility model relates to a heating equipment technical field, concretely relates to double mode integration intelligent water tank of switching.

Background

At present, constant-temperature and constant-pressure heat supply at any time interval cannot be realized in the field, and the conditions such as unstable water pressure and the like easily occur in the existing equipment, so that the user experience is poor, even the heat source operation fault is caused, and the problems of equipment service life reduction, energy consumption increase and the like can be caused by frequent repeated heat of extreme events.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the technical problem who exists among the prior art, provide a double mode integration intelligent water tank of switching, adopt unique switching water tank transform structure, the inside water pressure of automatically regulated water tank realizes supplying water at constant voltage at any time, satisfies the water demand of a plurality of water points.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an open-close dual-mode integrated intelligent water tank comprises a shell, and a heat-preservation buffer water tank, an open-close conversion valve, a water inlet, a water return port, a sewage discharge port and a water outlet which are arranged in the shell; the switching valve is arranged at the upper part of the heat-preservation buffer water tank, the water inlet is connected with the heat-preservation buffer water tank through a pipeline, and an electromagnetic valve is arranged between the water inlet and the heat-preservation buffer water tank; a pipeline between the electromagnetic valve and the heat preservation buffer water tank is communicated with the water return port, and a second water flow switch, an auxiliary heating module and a check valve are sequentially arranged from the water return port to the pipeline between the electromagnetic valve and the heat preservation buffer water tank; the bottom of the heat-preservation buffer water tank is connected with the sewage outlet through a pipeline, the side face of the bottom of the heat-preservation buffer water tank is connected with the water outlet through a pipeline, and a hot water pump and a first water flow switch are sequentially arranged between the buffer water tank and the water outlet; the water supply device is characterized in that a water replenishing switch is arranged on the upper portion inside the heat-preservation buffer water tank, a water shortage protection switch is arranged on the lower portion inside the heat-preservation buffer water tank, and a temperature sensor is arranged in the heat-preservation buffer water tank.

Preferably, a pressure relief safety valve is arranged at the top of the heat preservation buffer water tank, a pressure sensor is arranged in the heat preservation buffer water supply tank, and when the pressure in the heat preservation buffer water tank is too high, the pressure is relieved through the pressure relief safety valve.

Preferably, the on-off switching valve is one of a mechanical valve, a ball float valve, a gravity valve, and an electronic valve.

Preferably, the water replenishment switch and the water shortage protection switch are liquid level sensors, and control to open and close a switching valve and a hot water pump and an electromagnetic valve, respectively, based on the detected water level state.

Preferably, the liquid level sensor is a mechanical floating ball type liquid level sensor or an electronic induction type liquid level sensor.

The utility model has the advantages that: the utility model provides a double mode integration intelligent water tank of switching adopts unique switching water tank transform structure, and the inside water pressure of automatically regulated water tank realizes supplying water at constant voltage at any time, satisfies the water demand of a plurality of water consumption points.

Drawings

Fig. 1 is a schematic structural view of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

the water heater comprises a water inlet 1, an electromagnetic valve 2, a check valve 3, a water return port 4, a second water flow switch 5, a shell 6, an auxiliary heating module 7, a hot water pump 8, a first water flow switch 9, a water outlet 10, a sewage discharge port 11, a water shortage protection switch 12, a temperature sensor 13, a heat preservation buffer water tank 14, a water replenishing switch 15, a pressure relief safety valve 16 and an opening and closing conversion valve 17.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the embodiment discloses an integrated intelligent water tank with dual open/close modes, which comprises a shell 6, and a heat-preservation buffer water tank 14, an open/close change-over valve 17, a water inlet 1, a water return port 4, a sewage outlet 11 and a water outlet 10 which are arranged in the shell 6; the switching valve 17 is arranged at the upper part of the heat preservation buffer water tank 14, the water inlet 1 is connected with the heat preservation buffer water tank 14 through a pipeline, and an electromagnetic valve 2 is arranged between the water inlet 1 and the heat preservation buffer water tank; a pipeline between the electromagnetic valve 2 and the heat preservation buffer water tank 14 is communicated with the water return port 4, and a second water flow switch 5, an auxiliary heating module 7 and a check valve 3 are sequentially arranged from the water return port 4 to the pipeline between the electromagnetic valve 2 and the heat preservation buffer water tank 14; the bottom of the heat-preservation buffer water tank 14 is connected with the sewage outlet 11 through a pipeline, the side surface of the bottom of the heat-preservation buffer water tank 14 is connected with the water outlet 10 through a pipeline, and a hot water pump 8 and a first water flow switch 9 are sequentially arranged between the buffer water tank and the water outlet 10; the upper portion of the inside of heat preservation buffer water tank 14 is equipped with moisturizing switch 15, the lower part of the inside of heat preservation buffer water tank 14 is equipped with lack of water protection switch 12, be equipped with temperature sensor 13 in the heat preservation buffer water tank.

Preferably, a pressure relief safety valve 16 is arranged at the top of the heat preservation buffer water tank 14, a pressure sensor is arranged in the heat preservation buffer water supply tank, and when the pressure in the heat preservation buffer water tank 14 is too high, the pressure is relieved through the pressure relief safety valve 16. Preferably, the on-off switching valve 17 is one of a mechanical valve, a ball float valve, a gravity valve, and an electronic valve. Preferably, the water replenishment switch 15 and the water shortage protection switch 12 are liquid level sensors, and control the on-off switching valve 17 and the hot water pump 8 based on the detected water level states, respectively. Preferably, the liquid level sensor is a mechanical floating ball type liquid level sensor or an electronic induction type liquid level sensor.

In this embodiment, the on-off switching valve 17 of the thermal insulation buffer water supply tank is controlled to be opened or closed by the water replenishing switch 15, when the water storage amount of the thermal insulation buffer water tank 14 is lower than the water replenishing level, the on-off switching valve 17 of the thermal insulation buffer water tank 14 is opened, the thermal insulation buffer water tank 14 is changed from the closed state to the open state, the thermal insulation buffer water tank 14 is communicated with the outside atmosphere, and the electromagnetic valve 2 is opened. The hot water is supplied into the heat preservation buffer water tank 14 through the water inlet 1, when the water level in the heat preservation buffer water tank 14 is higher than the water supply water level, the electromagnetic valve 2 is closed in a delayed mode, the opening-closing change-over valve 17 of the heat preservation buffer water tank 14 is closed under pressure after the heat preservation buffer water tank 14 is filled with water in the delayed mode, the heat preservation buffer water tank 14 is closed from an open state, and at the moment, the water pressure in the heat preservation buffer water tank 14 is equal to the water supply water pressure.

In addition, in this embodiment, can realize intaking and the unequal water supply mode of outlet flow, when the water demand of delivery port 10 is greater than 1 water supply of water inlet, it still can guarantee the constant temperature and isopiestic pressure of delivery port 10, satisfies the user to the user demand of constant pressure hot water. Besides, in the embodiment, an auxiliary heating module 7 is arranged between the check valve 3 and the second water flow switch 5, and the auxiliary heating module 7 can be a low-power auxiliary heat source for maintaining 24-hour hot water supply for a user, and avoids the influence caused by high failure rate due to energy consumption and frequent starting of a high-power heat source.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (5)

1. An open-close dual-mode integrated intelligent water tank is characterized by comprising a shell, and a heat-preservation buffer water tank, an open-close conversion valve, a water inlet, a water return port, a sewage outlet and a water outlet which are arranged in the shell; the switching valve is arranged at the upper part of the heat-preservation buffer water tank, the water inlet is connected with the heat-preservation buffer water tank through a pipeline, and an electromagnetic valve is arranged between the water inlet and the heat-preservation buffer water tank; a pipeline between the electromagnetic valve and the heat preservation buffer water tank is communicated with the water return port, and a second water flow switch, an auxiliary heating module and a check valve are sequentially arranged from the water return port to the pipeline between the electromagnetic valve and the heat preservation buffer water tank; the bottom of the heat-preservation buffer water tank is connected with the sewage outlet through a pipeline, the side face of the bottom of the heat-preservation buffer water tank is connected with the water outlet through a pipeline, and a hot water pump and a first water flow switch are sequentially arranged between the buffer water tank and the water outlet; the water supply device is characterized in that a water replenishing switch is arranged on the upper portion inside the heat-preservation buffer water tank, a water shortage protection switch is arranged on the lower portion inside the heat-preservation buffer water tank, and a temperature sensor is arranged in the heat-preservation buffer water tank.

2. The dual-mode opening and closing integrated intelligent water tank as claimed in claim 1, wherein a pressure relief safety valve is arranged on the top of the heat preservation buffer water tank, a pressure sensor is arranged inside the heat preservation buffer water supply tank, and when the pressure inside the heat preservation buffer water tank is too high, the pressure is relieved through the pressure relief safety valve.

3. The on-off dual-mode integrated intelligent water tank as claimed in claim 2, wherein the on-off switching valve is one of a mechanical valve, a ball float valve, a gravity valve and an electronic valve.

4. The on-off dual-mode integrated intelligent water tank as claimed in claim 3, wherein the water replenishing switch and the water shortage protection switch are liquid level sensors, and the on-off switching valve, the hot water pump and the electromagnetic valve are respectively controlled based on the detected water level state.

5. The open-close dual-mode integrated intelligent water tank as claimed in claim 4, wherein the liquid level sensor is a mechanical floating ball type liquid level sensor or an electronic induction type liquid level sensor.

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