CN214620104U - Heat-retaining far infrared induction cycle equipment - Google Patents

Abstract

The utility model provides a heat-storage far infrared induction circulation device, which relates to the technical field of intelligent home life; the device comprises a heating device, a hot water storage tank, a hot water circulating pipeline, a cold water pipeline and an infrared sensing device; heating device is provided with inlet tube and outlet pipe, the other end of inlet tube and outlet pipe all is connected with the heat storage water tank, hot water circulating pipe's both ends are hot water import and hot water export respectively, hot water import and hot water export all are connected with the heat storage water tank, be provided with the return water pump on the hot water circulating pipe, the return water pump is connected with infrared induction system electricity, infrared induction system sets up in the water area, it has promptly to open hot water, but hot water recycling, the energy consumes less characteristics, be fit for using widely in this area.

Description

Heat-retaining far infrared induction cycle equipment

Technical Field

The utility model relates to an intelligence house life technical field particularly, relates to a heat-retaining far infrared induction circulation equipment.

Background

When the traditional water heater is used, a power supply needs to be turned on in advance to heat and preserve heat for a period of time, cold water flows out first when a faucet is boiled, and the water temperature slowly rises along with the time extension to reach an ideal temperature. The time for waiting hot water is wasted for users, and the cold water flowing out and the energy consumed by heating and heat preservation in advance are wasted. As the base of using such water heaters increases, the total amount of water wasted will also increase substantially. Although the development process of the water heater is continuously completed, the heating time of hot water is gradually shortened, and the efficiency is high.

But still can't solve the problem that cold water can reach the user for a long time, therefore, domestic hot water circulating system comes to bear, and domestic hot water circulating system circulates hot water through the pipeline to shorten the hot-water supply time, among the prior art, hot water circulating system divide into be equipped with the wet return and do not be equipped with the wet return. In a system with a water return pipe, the pipeline design does not circulate from the water using point, a branch exists, and a section of pipeline for starting the water pump has cold water. In a system without a return pipe, a hot water pipe is connected to a cold water pipe, and although a check valve is provided, the use of cold water is affected. Furthermore, the existing hot water circulation system is basically either burning and circulating, so the domestic hot water circulation system in the prior art has the defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat-retaining far infrared induction circulating equipment, it can be directed against in prior art not enough, proposes the solution, has hot water and opens promptly and have, but hot water recycling consumes less characteristics, the energy.

The embodiment of the utility model is realized like this:

a heat-storage far infrared induction circulation device comprises a heating device, a heat-storage water tank, a hot water circulation pipeline, a cold water pipeline and an infrared induction device; heating device is provided with inlet tube and outlet pipe, the other end of inlet tube and outlet pipe all with the heat storage water tank is connected, hot water circulating pipe's both ends are hot water import and hot water export respectively, hot water import and hot water export all with the heat storage water tank is connected, be provided with the return water pump on the hot water circulating pipe, the return water pump with infrared induction system electricity is connected, infrared induction system sets up in the water area.

The utility model discloses an in some embodiments, above-mentioned hot water circulating pipe has seted up a plurality of hot mouths of delivering water, cold water pipeline has seted up a plurality of cold mouths of delivering water, hot mouth of delivering water and cold mouth of delivering water all cooperate to set up in the water region. The cold water feeding port and the hot water feeding port which are arranged in pairs in each water using area respectively and correspondingly feed out cold water and hot water, and in actual use, a user can open the corresponding water feeding ports according to own needs to use water with corresponding temperature.

In some embodiments of the present invention, the cold water pipeline includes a first pipeline and a second pipeline, the first pipeline is communicated with the water inlet pipe, and the second pipeline is communicated with the cold water inlet. The first pipeline of the cold water pipeline provides original water for the heating device for heating, and cold water in the second pipeline is directly conveyed to a water using area.

In some embodiments of the utility model, be provided with the temperature detector in the above-mentioned heat storage water tank, heating device is provided with the electric switch, the temperature detector with electric switch electric connection.

In some embodiments of the present invention, the water temperature detector is electrically connected to a water temperature controller, the water temperature controller is electrically connected to the electric switch, and the water temperature threshold range of the water temperature controller for sending the action signal is 40-70 ℃. When the water temperature controller receives the real-time temperature of the water temperature detector in the hot water storage tank, when the temperature value is lower than the water temperature threshold value, the water temperature controller sends an action signal, the action signal starts the electric switch, and at the moment, the heating device is started to heat the cold water brought by the water inlet pipe and then convey the cold water into the hot water storage tank.

In some embodiments of the present invention, the water heater further comprises a timer, wherein the timer is disposed in the hot water storage tank, and the timer is electrically connected to the water temperature controller. The timer also generates a signal within a certain time to enable the water temperature controller to generate an action signal, and the action signal can also start the heating device to heat.

In some embodiments of the present invention, the timer has a timing range of 1-24 hours.

In some embodiments of the present invention, the water return pump is disposed at the hot water inlet. The water return pump is arranged at a hot water inlet, hot water which is not used by the hot water circulating pipe is recovered, and the hot water is heated again for next cycle use.

In some embodiments of the present invention, a branch pipe is disposed on the first pipeline, and the branch pipe communicates with the heat storage water tank. The branch pipe can be arranged to send the water with the temperature which is not up to the requirement in the hot water storage tank to the heating device for heating.

In some embodiments of the present invention, the branch pipe is provided with a valve, and the valve is a check valve. Cold water is prevented from flowing back to the heat storage water tank, the temperature of stored water in the heat storage water tank is prevented from being influenced, and therefore the temperature of hot water is insufficient.

The embodiment of the utility model provides an at least, have following advantage or beneficial effect:

the effect is that hot water is available immediately; the utility model is provided with a heating device, a heat storage water tank, a hot water circulating pipeline, a cold water pipeline and an infrared induction device; heating device is provided with inlet tube and outlet pipe, and the other end of inlet tube and outlet pipe all is connected with heat storage water tank, and hot water circulating pipe's both ends are hot water import and hot water export respectively, and hot water import and hot water export all are connected with heat storage water tank, are provided with the return water pump on the hot water circulating pipe, and the return water pump is connected with infrared sensing device electricity, and infrared sensing device sets up the technical scheme in the water consumption region. Furthermore, a plurality of hot water feeding ports are formed in the hot water circulating pipeline, a plurality of cold water feeding ports are formed in the cold water pipeline, and the hot water feeding ports and the cold water feeding ports are matched with each other and arranged in a water using area. In each water-using area, a hot water outlet of a hot water circulating pipeline is arranged, so that hot water is guaranteed to be available at each time, but in the traditional technology, cold water in the pipeline is firstly sent into a heating device to be heated and then sent into the water outlet, so that cold water can be always output for a period of time, then hot water can be output, and the situation that hot water is available at once cannot be achieved; the utility model discloses then can realize hydrothermal opening promptly and have through the hot water circulating line who establishes alone and heat storage water tank, avoid the awkwardness of washing one's face and rinsing one's mouth, shower winter. In addition, by arranging the infrared sensing device and the water return pump and electrically connecting the infrared sensing device and the water return pump, in actual use, when a user enters a water using area (such as a toilet, a kitchen, a living balcony and the like), the infrared sensing device senses that the user enters the water using area, the water return pump is started, hot water in the hot water storage tank is continuously circulated and flows through the hot water circulation pipeline, the hot water is ensured to be available immediately after being opened, the temperature is kept stable, and the comfort level of the user is improved; until the infrared induction device senses that the user has gone away from, the return water pump stops this moment, and when next someone got into, the return water pump was started again.

The effect II is that hot water can be recycled; the utility model also arranges a heating device, a hot water storage tank, a hot water circulating pipeline, a cold water pipeline and an infrared induction device; after cold water is heated in the heating device, hot water is conveyed to the heat storage water tank for storage, a hot water inlet and a hot water outlet are respectively arranged at two ends of the hot water circulation pipeline, and the hot water inlet and the hot water outlet are both connected with the heat storage water tank; hot water enters a hot water circulation pipeline from a hot water inlet and flows, and then returns to the heat storage water tank from a hot water outlet, part of the hot water can be used from a hot water supply port in the process, the rest of the hot water returns to the heat storage water tank, the temperature of the part of the hot water can not reach the standard, the part of the hot water is sent to the heating device again to be heated and then returns to the heat storage water tank, and the hot water is sequentially recirculated to continuously provide hot water; therefore, the hot water can be recycled, and the utilization efficiency is improved.

The effect is three, the energy consumption is less; the utility model discloses a set up infrared induction device to and hot water circulating pipe and return water pump, and heating device, furtherly, be provided with the temperature detector in the heat storage water tank, heating device is provided with the electric switch, above-mentioned temperature detector electric connection has temperature controller, and temperature controller is connected with the electric switch electricity, and the temperature is provided with the temperature threshold value of sending actuating signal. When the water temperature controller receives the real-time temperature of the water temperature detector in the hot water storage tank, when the temperature value is lower than the water temperature threshold value, the water temperature controller sends an action signal, the action signal starts the electric switch, and at the moment, the heating device is started to heat the cold water brought by the water inlet pipe and then convey the cold water into the hot water storage tank. The water temperature controller is electrically connected with the water temperature controller. The timer also generates a signal within a certain time to enable the water temperature controller to generate an action signal, and the action signal can also start the heating device to heat. In practical use, the hot water in the hot water storage tank can not circulate in the hot water circulation pipeline when no person enters the water using area, the hot water in the hot water circulation pipeline can be started to circulate only when a user enters the water using area, and the hot water circulation can not be started when the user is not used, so that the water saving device has the beneficial effect of saving electric energy; meanwhile, the temperature in the heat storage water tank is detected by the arranged water temperature detector, and then the heating device is started to heat water when the temperature is lower than a water temperature threshold value, so that direct heating in the water tank is avoided, the temperature cannot be reduced even if the water is continuously heated, and energy sources such as gas or liquefied petroleum gas are saved; still through setting up the timer, if the family does not have the people one day, can suspend the water temperature detector, the time that will expect to return, then the adjustment timer can realize that the temperature detects and realizes heating in advance in the previous hour when the people returns, opens the water temperature detector. Therefore, when nobody is in use, the heating is not carried out, the energy is saved, when the nobody returns quickly, the heating in advance can be realized, and on the premise of ensuring the use effect, the electric energy or the energy such as natural gas and liquefied petroleum gas is saved. Therefore, the utility model has the characteristics of the energy consumes less, practices thrift the environmental protection.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Icon: 1-a heating device, 2-a hot water storage tank, 3-a hot water circulation pipeline, 4-a cold water pipeline, 5-an infrared sensing device, 6-a water inlet pipe, 7-a water outlet pipe, 8-a water return pump, 9-a check valve, 10-a water using area, 11-a hot water supply port, 12-a cold water supply port, 13-a water temperature detector, 14-a first pipeline, 15-a second pipeline and 16-a branch pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, the description is only for convenience of description of the present invention and simplification, but the indication or suggestion that the device or element to be referred must have a specific position, be constructed and operated in a specific position, and therefore, the present invention should not be construed as being limited thereto. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not require that the components be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the embodiments of the present invention, "a plurality" means at least 2.

In the description of the embodiments of the present invention, it should be further noted that unless explicitly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Examples

Referring to fig. 1, fig. 1 shows an embodiment of the present invention.

As shown in fig. 1, the present embodiment provides a heat-storage far infrared induction circulation device, which includes a heating device 1, a heat-storage water tank 2, a hot water circulation pipeline 3, a cold water pipeline 4, and an infrared induction device 5; heating device 1 is provided with inlet tube 6 and outlet pipe 7, the other end of inlet tube 6 and outlet pipe 7 all is connected with heat storage water tank 2, hot water circulating pipeline 3's both ends are hot water import and hot water export respectively, hot water import and hot water export all are connected with heat storage water tank 2, be provided with return water pump 8 on the hot water circulating pipe (be can electric control switch's return water pump 8), return water pump 8 is connected with infrared induction system 5 electricity, infrared induction system 5 sets up in water consumption region 10. In practical use, cold water is heated in the heating device 1 and then is sent to the heat storage water tank 2 for storage, and the infrared sensing device 5 and the water return pump 8 are arranged and electrically connected; when a user enters the water using area 10 (such as a toilet, a kitchen, a living balcony and the like), the infrared sensing device 5 senses the entry of the user, at the moment, the infrared sensing device 5 sends a signal to start the water return pump 8, the water return pump 8 drives the hot water circulating pipeline 3 to continuously circulate and flow hot water in the hot water storage tank 2, the temperature is also kept stable, and the user can use the hot water in any water using area 10, so that the comfort level of the user is improved; until the infrared sensing device 5 senses that the user leaves, the water return pump 8 stops, the hot water circulating pipeline 3 stops circulating, and the state is kept; until next time someone gets into then, infrared induction device 5 senses someone and enters into water area 10, restarts return water pump 8, and the hot water with in the heat storage water tank 2 circulates in hot water circulating pipe 3 once more, and at this moment, the user uses hot water, and hot water circulation accomplishes, opens the hot water that has the temperature stability promptly to realize hot water along with having along with, very convenient.

In order to ensure that hot water and cold water can be supplied simultaneously in each water usage area 10, the cold water and the hot water should be supplied separately using two separate pipes. In this embodiment, the hot water circulation pipe 3 has a plurality of hot water supply ports 11, the cold water pipe 4 has a plurality of cold water supply ports 12, and both the hot water supply ports 11 and the cold water supply ports 12 are disposed in the water use area 10. The cold water supply port 12 and the hot water supply port 11 which are arranged in pairs in each water using area 10 respectively and correspondingly supply cold water and hot water, so that in actual use, a user can open the corresponding water supply ports according to own needs, the water supply ports are respectively connected with water outlet switches, the corresponding switches are opened, and then water with corresponding temperatures is used.

The cold water source is tap water, and the tap water enters the household through the cold water pipeline 4, in this embodiment, the cold water pipeline 4 includes a first pipeline 14 and a second pipeline 15, the first pipeline 14 is communicated with the water inlet pipe 6, and the second pipeline 6 is sequentially communicated with the cold water feeding port 12. The first pipe 14 of the cold water pipe 4 provides the original water for heating the heating device 1, the heated hot water is fed into the hot water storage tank 2 for temporary storage, and the cold water in the second pipe 15 is directly fed into the water using area 10.

In order to keep the temperature of the hot water in the hot water storage tank relatively constant, in this embodiment, a water temperature detector 13 is disposed in the hot water storage tank 2, an electric switch (not specifically shown in the drawings) is disposed on the heating device 1, the water temperature detector 13 is electrically connected to a water temperature controller (not specifically shown), the water temperature controller is electrically connected to the electric switch, and the water temperature threshold range of the water temperature controller sending an actuation signal is 40-70 ℃. The water temperature threshold in this embodiment is 40 ℃; when the water temperature controller receives the real-time temperature of the water temperature detector 13 in the heat storage water tank 2, when the temperature value is lower than the water temperature threshold value of 40 ℃, the water temperature controller sends an action signal, the action signal starts an electric switch, at the moment, the heating device 1 is started, cold water brought by the water inlet pipe 6 is heated, and then the cold water is conveyed into the heat storage water tank 2.

It is emphasized here that the inlet conduit 6 communicates with this first conduit 6, whereas the above-mentioned first conduit 6 is provided with a branch conduit 16, which branch conduit 16 communicates with the hot-storage water tank 2. The branch pipe 16 is arranged to re-feed the water in the hot water storage tank 2, which has not reached the required temperature, to the heating device 1 for heating. The branch pipe 16 is provided with a valve which is a check valve 9. Cold water is prevented from flowing back to the heat storage water tank 2 to affect the temperature of the stored water in the heat storage water tank 2, so that the temperature of hot water is insufficient. Therefore, the cold water in the water inlet pipe 6 is partly tap water from the outside and partly warm water in the hot water storage tank 2, which has a temperature that does not reach the standard, and the cold water and the warm water together constitute the water source of the water inlet pipe 6 of the heating device 1.

The utility model discloses still include the timer (the attached drawing is not specifically illustrated), the timer sets up in heat storage water tank 2, and the timer is connected with the temperature controller electricity. The timing range of the timer is 1-24 hours. In the embodiment, the timer also generates a signal within a certain time period to enable the water temperature controller to generate an action signal, wherein the action signal has two practical purposes; firstly, when the water temperature detector 13 may be damaged or insensitive, problems may occur when the temperature control hot water is heated circularly, or when the time is not enough to start the electric switch of the heating device 1, the timer can send out signals at intervals, so that the water temperature controller generates an action signal which is transmitted to the electric switch of the heating device 1, and the heating device 1 is started to heat, and generally, the time is set to two hours; secondly, when the user normally goes to work and does not have any person at home in the daytime, the water temperature detector 13 can be temporarily stopped, a timer sets a time, for example, ten hours, after ten hours, a signal is generated to enable the water temperature controller to generate an action signal, so that the water temperature detector 13 is activated, the detection of the water temperature threshold is realized, the temperature does not reach the water temperature threshold, the water temperature controller controls the heating device 1 to heat, and then hot water is sent into the hot water storage tank 2 to be stored; when a person goes home from work, the heat storage water tank 2 is filled with hot water, as long as the person enters the water using area 10, the infrared sensing device 5 senses a user, the infrared sensing device 5 sends a signal to start the water return pump 8, the water return pump 8 drives the hot water circulating pipeline 3 to continuously circulate and flow the hot water in the heat storage water tank 2, the temperature is kept stable, the person can be heated by the water when the person is started, and the person does not need to wait.

In order to achieve better hot water recycling effect, in the present embodiment, the above-mentioned return water pump 8 is disposed at the hot water inlet. The return water pump 8 is provided at the hot water inlet to recover the hot water not used by the hot water circulation pipe and to heat the water again for the next circulation.

It should be emphasized here that the utility model provides a water temperature detector 13, water temperature controller, electric switch, and infrared induction device 5 are common model and style on the market, do not do specific restriction here, as to how infrared induction device 5 controls return water pump 8 and starts, and how water temperature controller controls the concrete control process of electric switch, and the prior art is more mature technique, does not describe here in detail, and technical staff in the field can understand.

In addition, the existing hot water circulation is basically two, one is that the hot water is always heated by burning and then continuously circulated, so that the hot water can be available when a hot water switch is turned on every time, and the zero cold water effect is achieved; the other is that when a hot water switch is turned on, hot water circulation starts, and hot water with higher temperature is sent out within several seconds; both of the two methods have disadvantages, and the first method can realize the quick arrival of hot water, but consumes energy and has higher economic cost; the second type can not reach the instant boiling of hot water, reduces people's experience comfort level. However, in the embodiment of the present invention, the heating device 1, the hot water storage tank 2, the hot water circulation pipeline 3, the cold water pipeline 4 and the infrared sensing device 5 are provided; heating device 1 is provided with inlet tube 6 and outlet pipe 7, and the other end of inlet tube 6 and outlet pipe 7 all is connected with heat storage water tank 2, and hot water circulating pipeline 3's both ends are hot water import and hot water export respectively, and hot water import and hot water export all are connected with heat storage water tank 2, are provided with return water pump 8 on the hot water circulating pipe, and return water pump 8 is connected with infrared induction system 5 electricity, and infrared induction system 5 sets up the technical scheme in regional 10 with water. Further, a plurality of hot water supply ports 11 are formed in the hot water circulating pipeline 3, a plurality of cold water supply ports 12 are formed in the cold water pipeline 4, and the hot water supply ports 11 and the cold water supply ports 12 are both arranged in the water using area 10 in a matched mode. In each water using area 10, a hot water outlet of the hot water circulating pipeline 3 is arranged, so that hot water is guaranteed to be available at each time, and the problem that in the prior art, cold water in the pipeline is sent to the heating device 1 for heating and then sent to the water outlet is solved; the utility model discloses then can realize hydrothermal opening promptly and have through the hot water circulating line 3 and the heat storage water tank 2 of establishhing alone, avoid the awkwardness of washing one's face and rinsing one's mouth, shower winter. In addition, by arranging the infrared sensing device 5 and the water return pump 8 and electrically connecting the infrared sensing device 5 and the water return pump 8, in practical use, when a user enters the water using area 10 (such as a toilet, a kitchen, a living balcony and the like), the water return pump 8 is started when the infrared sensing device 5 senses the user to enter, hot water in the heat storage water tank 2 is continuously circulated and flows through the hot water circulation pipeline 3, when the user walks to turn on a hot water switch, the hot water is directly delivered, the hot water is ensured to be instantly available at once, the temperature is kept stable, and the comfort level of the user is improved; until the infrared induction device 5 induces that the user has left, the water return pump 8 stops at this moment, and the water return pump 8 is started again until someone enters next time. The utility model is also provided with a heating device 1, a hot water storage tank 2, a hot water circulating pipeline 3, a cold water pipeline 4 and an infrared induction device 5; after cold water is heated in the heating device 1, hot water is conveyed to the heat storage water tank 2 to be stored, a hot water inlet and a hot water outlet are respectively arranged at two ends of the hot water circulating pipeline 3, and the hot water inlet and the hot water outlet are both connected with the heat storage water tank 2; hot water enters a hot water circulating pipeline 3 from a hot water inlet to flow, and then returns to the hot water storage tank 2 from a hot water outlet, part of the hot water may be used from a hot water supply port 11 in the process, the rest of the hot water returns to the hot water storage tank 2, the temperature of the part of the hot water possibly does not reach the standard, the part of the hot water is sent to the heating device 1 again to be heated and then returns to the hot water storage tank 2, and the hot water is sequentially recirculated to continuously provide hot water; therefore, the hot water can be recycled, and the utilization efficiency is improved. The utility model discloses a set up infrared induction device 5 to and hot water circulating pipe 3 and return water pump 8, and heating device 1, further, be provided with temperature detector 13 in the heat storage water tank 2, heating device 1 is provided with the electric switch, and above-mentioned temperature detector 13 electric connection has the temperature controller, and the temperature controller is connected with the electric switch electricity, and the temperature is provided with the temperature threshold value that sends actuating signal. When the water temperature controller receives the real-time temperature of the water temperature detector 13 in the heat storage water tank 2, when the temperature value is lower than the water temperature threshold value, the water temperature controller sends an action signal, the action signal starts the electric switch, the heating device 1 is started at the moment, cold water brought by the water inlet pipe 6 is heated, and then the cold water is conveyed into the heat storage water tank 2. The water storage device further comprises a timer, the timer is arranged on the heat storage water tank 2, and the timer is electrically connected with the water temperature controller. The timer also generates a signal within a certain time period to enable the water temperature controller to generate an action signal, and the action signal can also start the heating device 1 to heat. In practical use, the hot water in the hot water storage tank 2 cannot circulate in the hot water circulation pipeline 3 when no person enters the water using area 10, the hot water in the hot water circulation pipeline 3 is started to circulate only when a user enters the water using area 10, and the hot water circulation cannot be started when the user is not used any more, so that the water heating system has the beneficial effect of saving electric energy; meanwhile, the temperature in the heat storage water tank 2 is detected by the arranged water temperature detector 13, and then the heating device 1 is started to heat water when the temperature is lower than a water temperature threshold value, so that direct heating in the water tank is avoided, the temperature is not reduced even if the water is continuously heated, and energy sources such as gas or liquefied petroleum gas are saved; still through setting up the timer, if the family does not have the people one day, can suspend water temperature detector 13, the time that will expect to return, then the adjustment timer can realize that the people is the first hour when returning, opens water temperature detector 13, carries out temperature detection and realizes heating in advance. Therefore, when nobody is in use, the heating is not carried out, the energy is saved, when the nobody returns quickly, the heating in advance can be realized, and on the premise of ensuring the use effect, the electric energy or the energy such as natural gas and liquefied petroleum gas is saved. Therefore, the utility model has the characteristics of the energy consumes less, practices thrift the environmental protection. Is very suitable for being popularized and used in the field, and has better popularization and application prospect.

To sum up, the embodiment of the utility model provides a heat-retaining far infrared induction circulating equipment, it can be directed against in prior art not enough, proposes the solution, has hot water and opens promptly and have, but hot water recycling consumes less characteristics. The use is very comfortable, the structural principle is not complicated, the technical staff in the field can understand and implement the method very easily, the technical barrier in popularization and use does not exist, and the method has very good market popularization prospect.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (10)

1. A heat-storage far infrared induction circulation device is characterized by comprising a heating device, a heat storage water tank, a hot water circulation pipeline, a cold water pipeline and an infrared induction device; heating device is provided with inlet tube and outlet pipe, the other end of inlet tube and outlet pipe all with the heat storage water tank is connected, hot water circulating pipe's both ends are hot water import and hot water export respectively, hot water import and hot water export all with the heat storage water tank is connected, be provided with the return water pump on the hot water circulating pipe, the return water pump with infrared induction system electricity is connected, infrared induction system sets up in the water area.

2. The heat-storage far-infrared induction circulation equipment as claimed in claim 1, wherein the hot water circulation pipeline is provided with a plurality of hot water supply ports, the cold water pipeline is provided with a plurality of cold water supply ports, and the hot water supply ports and the cold water supply ports are both arranged in the water using area in a matching manner.

3. The heat-storage far-infrared induction circulation device as claimed in claim 2, wherein the cold water pipe comprises a first pipe and a second pipe, the first pipe is communicated with the water inlet pipe, and the second pipe is communicated with the cold water supply port in sequence.

4. The heat-storage far-infrared induction circulation device according to claim 3, characterized in that a water temperature detector is provided in the heat storage water tank, the heating device is provided with an electric switch, and the water temperature detector is electrically connected with the electric switch.

5. The heat-storage far-infrared induction circulation device as claimed in claim 4, wherein the water temperature detector is electrically connected with a water temperature controller, the water temperature controller is electrically connected with the electric switch, and the water temperature threshold range of the water temperature controller sending out the action signal is 40-70 ℃.

6. The heat-storage far-infrared induction circulation device according to claim 5, further comprising a timer, wherein the timer is disposed in the heat storage water tank, and the timer is electrically connected to the water temperature controller.

7. The heat-retaining far infrared induction cycle apparatus of claim 6, characterized in that the timer timing range is 1-24 hours.

8. The heat-storage far-infrared induction cycle apparatus as claimed in any one of claims 1 to 7, characterized in that the return water pump is provided at the hot water inlet.

9. The heat-storage far-infrared induction circulation device as claimed in claim 3, characterized in that a branch pipe is provided on the first pipe, the branch pipe being in communication with the heat storage water tank.

10. The heat-storage far-infrared induction cycle apparatus as claimed in claim 9, wherein a valve is provided on the branch pipe, the valve being a check valve.

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