CN216764600U - Reverse osmosis type kitchen lower heat purification machine waterway system - Google Patents

Abstract

The utility model belongs to the field of water path systems of heat purifiers, and particularly relates to a reverse osmosis type water path system of a heat purifiers under a kitchen, wherein a raw water path flows to a front filter module of a composite filter module through a raw water port, water flow passing through the front filter module sequentially flows to a water inlet valve, a booster pump and a fine filter module, purified water filtered by the fine filter module flows to a rear filter module of the composite filter module through a one-way valve, purified water passing through the rear filter module flows to a purified water path, the purified water path is divided into a normal-temperature purified water path and a hot-water purified water path, a normal-temperature water valve and a water outlet faucet are sequentially arranged on the normal-temperature purified water path, and a hot-water replenishing valve is sequentially arranged on the hot-water purified water path, the heating device comprises a heating tank and a hot water pump, wherein the hot water pump is connected with a water outlet faucet, the wastewater filtered by the fine filtering module flows to a wastewater waterway, and a wastewater control device and a wastewater outlet are arranged on the wastewater waterway. This technical scheme can ensure that the heat engine water temperature keeps invariable in the exothermal water in-process, including first cup hot water temperature invariant.

Description

Reverse osmosis type kitchen lower heat purification machine waterway system

Technical Field

The utility model belongs to the field of waterway systems of heat purifiers, namely a machine waterway system integrating water purifying and heating functions, and particularly relates to a waterway system of a reverse osmosis type under-kitchen heat purifier.

Background

Water purification units have been widely used in the daily lives of thousands of households, including heat purifiers that integrate water purification and heating functions. However, the heat engine on the market has the following disadvantages: the heating system is arranged in the water purifier, hot water is extruded out by water pressure, the water temperature is lower along with the water discharging process, the water temperature is not guaranteed to be unchanged in the water discharging process, a pipeline between a water outlet of the water purifier and a water faucet can retain water, and the water can be cooled, so that the water temperature of the first cup of water discharged next time is low; the heating mode is an instant heating type heating body, the hot water outlet flow is very small due to the limitation of the power of household appliances, the experience feeling is poor, the hot water reaches the water outlet faucet through a long section of pipeline, the water temperature is easy to be reduced due to the influence of the ambient temperature in the water outlet process, and the final water outlet temperature is influenced.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the water temperature of the existing heat purifier product can not be kept constant in the process of releasing heat water, and the water temperature is continuously reduced in the water discharging process, and the heat purifier product comprises a first cup of hot water.

Therefore, the technical scheme adopted by the utility model is as follows: a reverse osmosis type water path system of a heat purifying machine under a kitchen comprises a raw water path, a pure water path and a waste water path, it is characterized in that the raw water waterway flows to a prepositive filtering module of the composite filtering module through a raw water port, the water flow after passing through the prepositive filtering module flows to a water inlet valve, a booster pump and a fine filtering module in sequence, the purified water after being filtered by the fine filtering module flows to a postpositive filtering module of the composite filtering module through a one-way valve, the purified water after passing through the postpositive filtering module flows to a purified water waterway, the pure water waterway is divided into a normal-temperature pure water waterway and a hot-water pure water waterway, a normal-temperature water valve and a water outlet faucet are sequentially arranged on the normal-temperature pure water waterway, the device is characterized in that a hot water replenishing valve, a heating tank and a hot water pump are sequentially arranged on the hot pure water path, the hot water pump is connected with a water outlet faucet, the wastewater filtered by the fine filtering module flows to the wastewater path, and a wastewater control device and a wastewater outlet are arranged on the wastewater path.

Further, the heating tank is a double-layer vacuum heat-preservation tank.

Furthermore, an opening is arranged on the heating tank and is connected with a water outlet faucet pipeline, and steam in the heating tank is discharged through an exhaust hole of the water outlet faucet.

Furthermore, the water outlet faucet is an intelligent faucet, and the water outlet temperature and the water outlet quantity can be set on the intelligent faucet.

The water heater further comprises an electric control device, and the electric control device can control the opening and closing of the water inlet valve, the booster pump, the normal-temperature water valve, the hot water replenishing valve, the hot water pump, the water outlets of the water outlet faucet and the heating device in the heating tank.

The utility model has the following beneficial effects: the water temperature of the heat purifier is kept constant in the process of releasing heat, including the constant temperature of the first cup of hot water.

Drawings

FIG. 1 is a schematic view of a reverse osmosis type under-kitchen heat purifier water circuit system.

1. The system comprises a raw water port, 2 a composite filtering module, 3 a front filtering module, 4 a rear filtering module, 5 a water inlet valve, 6 a booster pump, 7 a fine filtering module, 8 a waste water control device, 9 a waste water outlet, 10 a one-way valve, 11 a normal-temperature water valve, 12 a water outlet faucet, 13 a hot water replenishing valve, 14 a heating tank, 15 and a hot water pump.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1, in the present embodiment, a waterway system of a reverse osmosis type heat and water purifier is provided, which mainly includes a raw water waterway, a pure water waterway and a wastewater waterway, wherein the pure water waterway is divided into a normal temperature pure water waterway and a hot water pure water waterway.

In the specific operation, a raw water waterway flows to a preposed filtering module 3 of a composite filtering module 2 through a raw water port 1, water flow after passing through the preposed filtering module 3 sequentially flows to a water inlet valve 5, a booster pump 6 and a fine filtering module 7, purified water after being filtered by the fine filtering module 7 flows to a postposition filtering module 4 through a one-way valve 10, purified water after passing through the postposition filtering module 4 flows to a purified water waterway, the purified water waterway is divided into a normal-temperature purified water waterway and a hot-water purified water waterway, the normal-temperature purified water waterway is sequentially provided with a normal-temperature water valve 11 and a water outlet 12, the hot-water purified water waterway is sequentially provided with a hot-water replenishing valve 13, a heating tank 14 and a hot water pump 15, the hot water pump 15 is connected with the water outlet 12, waste water after being filtered by the fine filtering module 7 flows to a waste water waterway, and the waste water waterway is provided with a waste water control device 8 and a waste water outlet 9.

In the technical scheme, the heating tank has the functions of heating and storing water, and a heating device and a temperature and water storage amount detection device are arranged in the heating tank so as to control the temperature and the water storage amount in the heating tank and ensure the safety of water use; meanwhile, a hot water pump pumping technology is adopted, a hot water button on a faucet is clicked, hot water is pumped from a heating tank and discharged, a hot water replenishing valve is closed in the hot water pumping process of the hot water pump, the heating tank does not perform water replenishing action, the problem that the temperature of the hot water is reduced due to the fact that cold water is mixed with the hot water in the heating tank is avoided, and therefore the temperature of the hot water is constant in the whole heat releasing water process. And after the hot water stops flowing out, the hot water replenishing valve is kept closed continuously, the hot water in the pipeline flows back to the heating tank, heat preservation is carried out on the heating tank, when the hot water is released again next time, the hot water is pumped from the heating tank, so that the residual water in the pipeline is prevented from being cooled, the constant temperature of the initially-discharged hot water is ensured, namely the constant temperature of the first cup of hot water. When the water storage capacity of the hot water in the heating tank reaches the lower limit of the set value, the hot water pump stops working, the hot water outlet in the water outlet faucet is closed, the hot water replenishing valve is opened, the heating tank performs water replenishing action, and meanwhile, the heating device in the heating tank is started to heat until the water temperature and the water storage capacity in the heating tank reach the set value. In addition, if the normal-temperature water needs to be obtained, the normal-temperature water button on the water outlet faucet is clicked, and the normal-temperature water valve is opened, so that the normal-temperature water can be obtained at the normal-temperature water outlet of the water outlet faucet.

Can ensure through this technical scheme that the heat engine is in the hot water temperature of giving out heat water in-process and keep invariable all the time, it is invariable including first cup hot water temperature.

In the specific operation, the heating tank 14 is a double-layer vacuum heat-preserving tank, so that the heat-preserving effect is better, and the heat-preserving time is longer.

In the specific operation, an opening is arranged on the heating tank 14 and is connected with the water outlet faucet 12, namely, the opening on the heating tank is connected with the water outlet faucet through a pipeline, and steam is discharged through a steam exhaust hole on the water outlet faucet, so that the water safety is ensured. The opening on the heating tank is connected with the water tap through the pipeline, the heating tank is changed into an open system, and steam generated in the heating process can be discharged from the pipeline in time, so that the heating tank is not likely to form a closed container, and the heating tank is likely to explode due to the fact that the pressure of an inner cavity is increased because a large amount of steam generated in the heating process cannot be discharged. This section pipeline sets up to an open system, has not only guaranteed water safety, also can realize simultaneously: firstly, under the condition that a hot water replenishing valve is closed, a hot water pump can pump water from a heating tank; and residual hot water after water is discharged from a hot water outlet of the heating tank to the section of the pipe of the water outlet faucet can return to the heating tank.

In specific operation, the water outlet faucet is an intelligent faucet, the water outlet temperature and the water outlet amount can be set on the intelligent faucet, namely after a hot water button on the water outlet faucet is clicked, a dialog box of the hot water temperature and the hot water amount jumps out of a control screen, and a user can set the water temperature and the water amount through the dialog box, so that the water using experience of a heat purifier user is improved.

In the specific operation, the system further comprises an electric control device (not shown in the figure), and the electric control device can control the water inlet valve, the booster pump, the normal-temperature water valve, the hot water replenishing valve, the hot water pump, the water outlets of the water outlet faucet and the heating device in the heating tank to be opened and closed, so that the automatic operation level of the heat purifier is improved. For example, when the water storage amount of the hot water in the heating tank reaches the lower limit of the set value, the electric control device prompts and controls the hot water pump to stop working, the hot water outlet in the water outlet faucet is closed, the hot water replenishing valve is opened, the heating tank performs water replenishing action, and meanwhile, the heating device in the heating tank is started to heat until the water temperature and the water storage amount in the heating tank reach the set value.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. A reverse osmosis type kitchen heat purifier waterway system comprises a raw water waterway, a pure water waterway and a waste water waterway, it is characterized in that the raw water waterway flows to a prepositive filtering module of the composite filtering module through a raw water port, the water flow after passing through the prepositive filtering module flows to a water inlet valve, a booster pump and a fine filtering module in sequence, the purified water after being filtered by the fine filtering module flows to a postpositive filtering module of the composite filtering module through a one-way valve, the purified water after passing through the postpositive filtering module flows to a purified water waterway, the pure water waterway is divided into a normal-temperature pure water waterway and a hot-water pure water waterway, a normal-temperature water valve and a water outlet faucet are sequentially arranged on the normal-temperature pure water waterway, the device is characterized in that a hot water replenishing valve, a heating tank and a hot water pump are sequentially arranged on the hot pure water path, the hot water pump is connected with a water outlet faucet, the wastewater filtered by the fine filtering module flows to a wastewater path, and a wastewater control device and a wastewater outlet are arranged on the wastewater path.

2. The reverse osmosis under-kitchen heat exchanger waterway system of claim 1, wherein: the heating tank is a double-layer vacuum heat-preservation tank.

3. The reverse osmosis under-kitchen clean water system of claim 1, wherein: an opening is arranged on the heating tank and is connected with a water outlet faucet pipeline, and steam in the heating tank is discharged through an exhaust hole of the water outlet faucet.

4. The reverse osmosis under-kitchen clean water system of claim 1, wherein: the water outlet faucet is an intelligent faucet, and the water outlet temperature and the water outlet quantity can be set on the intelligent faucet.

5. The reverse osmosis undergraduate heat exchanger water circuit system of any one of claims 1-4, wherein: the water inlet valve, the booster pump, the normal-temperature water valve, the hot water replenishing valve, the hot water pump, the water outlets of the water outlet faucet and the heating device in the heating tank can be controlled to be opened and closed by the electric control device.

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