CN210154110U - Energy-gathering water heating equipment - Google Patents

Abstract

The utility model discloses an it can attitude hot-water apparatus to gather, relate to and can attitude hot water field, it is very common to gather ability attitude water heater, but current gather can attitude water heater structural design on intelligent inadequately, can not satisfy people now and require water heater open closed state at any time, normally open state wastes the electric energy, and the time spent reopen and can not satisfy people's demand in real time again, the utility model discloses an air energy host computer among the energy-gathering attitude hot-water apparatus is connected to the intelligent control ware, keeps the switching according to user's demand time, on the basis of the energy saving, has still satisfied the user to hydrothermal real-time demand for gather ability attitude hot-water apparatus more intelligently satisfies the user demand, and still practice thrift the electric energy.

Description

Energy-gathering water heating equipment

Technical Field

The utility model relates to an gather ability attitude hot water field, in particular to gather ability attitude hot-water apparatus.

Background

Energy-saving is more and more important in the society today, and energy-collecting state water heater is also more and more popularized, and energy-collecting state hot water equipment is a dual-energy combination system combining a solar water heater and air energy utilizing reverse Carnot circulation, and can further heat air when the solar water heater cannot reach the desired temperature in rainy days or other insufficient sunshine time.

Through multi-party application and testing, the energy-saving performance, convenience, practicability and reliability of the energy-gathering water heater are not inferior to those of any other similar products, and the energy-gathering water heater is an ideal choice for replacing pure solar energy at present and is a water heating device with the lowest running cost and the highest energy-saving effect in all water heating modes.

The existing energy-gathering water heater is not intelligent enough in structural design, can not meet the requirement of people that the water heater can be opened and closed at any time, the normally open state wastes electric energy, and the water heater can not meet the requirements of people in real time when being opened again.

Disclosure of Invention

The utility model aims to provide a: the utility model provides an it can attitude hot-water apparatus to gather has solved current gather can attitude water heater structural design and is intelligent inadequately, can not satisfy people now and require the water heater state that can open and shut at any time, and the normally open state wastes the electric energy, and the problem that can not satisfy people's demand in real time again to open again when using time.

The utility model adopts the technical scheme as follows:

an energy-gathering water heater is composed of solar hot water tank, air energy host, solar heat-collecting tube array, intelligent controller, solar hot water tank with shell, internal container, and insulating layer between said shell and internal container, solar heat-collecting tube array for heating the water in internal container, the solar hot water tank is also connected with a cold water replenishing port, an overflow port and a user hot water outlet, the air energy host machine is provided with an upper circulation port and a lower circulation port, the cold water replenishing port is connected with city water, the overflow port is connected with the lower circulation port of the air energy host machine, the user hot water outlet is respectively connected with the upper circulation port of the air energy host machine and the water using end of the user through a three-way valve, a temperature sensor is arranged in the inner container of the hot water tank, the intelligent controller is connected with the temperature sensor, and the intelligent controller is further connected with the three-way valve and the air energy host.

The utility model discloses a theory of operation does: a certain amount of water is injected into the solar hot water tank from city water supply through the cold water filling port, when the intelligent controller is set to be in a working state or in preset working time, the intelligent controller can read the temperature of the water in the inner container of the hot water tank, when the water temperature reaches the preset water temperature, the air energy host does not operate, when the water temperature is lower than the preset water temperature, the air energy host starts to operate, water in the solar hot water tank enters the air energy host through the overflow port to be further heated, after heating, if the user does not use hot water at the moment, no hot water flow is generated at the water using end of the user, hot water in the air energy host machine enters the solar hot water tank through the three-way valve, if the user uses the hot water at the moment, the hot water in the air energy host machine directly flows into the water end of the user through the three-way valve and the hot water in the solar hot water tank to be supplied to the user.

Furthermore, the city water supply is connected with a water end of a user through an intelligent valve.

Further, the intelligent valve is also connected to an intelligent controller.

Furthermore, the intelligent controller is connected with mains power supply and has the function of timing opening and closing.

Furthermore, the intelligent controller is provided with a wireless transceiver module, and parameters of the intelligent controller can be adjusted through corresponding mobile phone programs, so that the opening and closing states of the air energy host and the opening and closing degrees of the three-way valve and the intelligent valve are controlled.

Furthermore, the three-way valve comprises a valve A connected with a hot water outlet of a user, a valve B connected with an upper circulation port, and a valve C connected with a water end of the user, wherein the opening and closing degrees of the valve A, the valve B and the valve C can be independently adjusted.

Furthermore, the main module of the intelligent controller uses a PLC control module, so that the control is more stable.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model relates to an it can attitude hot-water apparatus to gather has satisfied people and has now required the water heater can open and close state at any time.

2. The utility model relates to an it can attitude hot-water apparatus, time switch moves in the appointed time, has avoided normally open state to waste the electric energy, and the problem that can not satisfy people's demand in real time again to open again in the time of.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a block diagram of the structure of the present invention;

FIG. 2 is a block diagram of the present invention;

fig. 3 is a connection diagram of the three-way valve of the present invention;

in the figure, 1-a solar hot water tank, 2-an air energy host, 3-a solar heat collecting pipe array, 4-an intelligent controller, 5-a temperature sensor, 6-a three-way valve, 7-a user water end, 8-an intelligent valve, 101-a hot water tank shell, 102-a hot water tank inner container, 103-a heat insulation layer, 104-a cold water replenishing port, 105-an overflow port, 106-a user hot water outlet, 201-an upper circulation port, 202-a lower circulation port, 601-a valve A, 602-a valve B, 603-a valve C.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention will be described in detail with reference to fig. 1, 2 and 3.

Example 1

An energy-gathering water heating device comprises a solar hot water tank 1, an air energy host machine 2, a solar heat-collecting pipe array 3 and an intelligent controller 4, wherein the solar hot water tank 1 comprises a hot water tank shell 101, a hot water tank liner 102 and a heat-insulating layer 103 between the hot water tank shell 101 and the hot water tank liner 102, the solar heat-collecting pipe array 3 is directly opened to the solar hot water tank 1 normally and directly heats water in the hot water tank liner 102, the solar hot water tank 1 is further connected with a cold water replenishing port 104, an overflow port 105 and a user hot water outlet 106, the air energy host machine 2 is provided with an upper circulation port 201 and a lower circulation port 202, the cold water replenishing port 104 is connected with city water, the overflow port 105 is connected with a lower circulation port 202 of the air energy host machine 2, the user hot water outlet 106 is respectively connected with the upper circulation port 201 of the air energy host machine 2 and a user water end 7 through a three-way valve 6, the intelligent controller 4 is connected with the temperature sensor 5, and the intelligent controller 4 is also connected with the three-way valve 6 and the air energy host 2.

The utility model discloses a theory of operation does: a certain amount of water is injected into the solar hot water tank 1 from city water supply through the cold water filling port 104, the preset water temperature is set to be 60 ℃, when the user water end 7 is set to use hot water, the intelligent controller 4 is in a working state, and when the preset working time is from 7 am to 24 pm, the intelligent controller 4 is also in the working state. When the user uses hot water at the water end 7 or from 7 am to 24 pm, the intelligent controller 4 reads the temperature of the water in the hot water tank inner container 102, when the water temperature reaches the preset water temperature of 60 ℃, the air energy host machine 2 does not operate, when the water temperature is lower than the preset water temperature of 60 ℃, the air energy host machine 2 starts to operate, water in the solar hot water tank 1 enters the air energy host machine 2 through the overflow port 105 for further heating, after heating, if the user does not use hot water at the moment, the user water end 7 generates no hot water flow, the hot water in the air energy host 2 enters the solar hot water tank 1 through the three-way valve 6, if the user uses the hot water, the flow rate of hot water is provided in the user water end 7, and the hot water in the air energy host 2 directly flows into the user water end 7 together with the hot water in the solar hot water tank 1 through the three-way valve 6 to be supplied to the user.

Example 2

The present embodiment differs from embodiment 1 only in that the city water is also connected to the user water terminal 7 through an intelligent valve 8.

Further, the smart valve 8 is also connected to the smart controller 4.

Furthermore, the intelligent controller 4 is connected with mains supply, and the intelligent controller 4 has a function of timing opening and closing.

The user is with water end 7 through intelligent valve 8 connection city water supply end for when the user needs to use warm water, the water that the user supplied with water end 7 is cold water that the city water supply end supplied with and the warm water after the hot water of the utility model supplies mixes, and temperature 70 ℃ in present solar hot water tank 1, city water supply temperature 10 ℃, the user that the user opened now with water end 7 needs to use 40 ℃ warm water, then the ratio of hot-water tank 1 and city water end supply with the water of user with water end is 1:1, the water temperature that the user used water end 7 to flow out is 40 ℃.

Example 3

The difference between this embodiment and embodiment 1 is only that the intelligent controller 4 has a wireless transceiver module, and parameters of the intelligent controller 4 can be adjusted through a corresponding mobile phone program, so as to control the open/close state of the air energy host 2 and the open/close degrees of the three-way valve 6 and the intelligent valve 8. Thus, the set opening and closing time can be changed on the mobile phone through a program.

If the preset value of the water temperature of the hot water tank is 60 ℃ in the past, the preset value of the air energy host 2 from 24 pm to 7 pm is kept closed, 70 ℃ hot water is needed at 6 pm in the next morning, the intelligent controller 4 at 5 pm in the next evening can be set to be started, the preset value of the water temperature is 70 ℃, the intelligent controller 4 is started at 5 pm in the next morning, the water temperature in the solar hot water tank 1 is read by the temperature sensor 5, the reading is timed after 5 pm, and once the real-time temperature is lower than 70 ℃, the air energy host 2 works, continuously heats and sends the hot water into the solar hot water tank 1.

Example 4

The difference between this embodiment and embodiment 1 is that the three-way valve 6 includes a valve a601 connected to the hot water outlet 106 of the user, a valve B602 connected to the upper circulation port 201, and a valve C603 connected to the user water end 7, and the opening and closing degrees of the valves a601, B602, and C603 can be independently adjusted. When a user does not use hot water, if the set working time is from 7 am to 24 pm, the valve C603 is closed, the valve a601 and the valve B602 are fully opened, the water heated in the air energy host 2 sequentially passes through the valve B602 and the valve a601 to enter the solar hot water tank 1, and if the user uses hot water, the valve a601, the valve B602 and the valve C603 set corresponding opening and closing degrees according to the water temperature the user wants to use and the water temperatures of the solar hot water tank 1, the air energy host 2 and a city water supply end to supply the water temperature the user wants.

Furthermore, the main module of the intelligent controller 4 uses a PLC control module, so that the control is more stable.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can be covered within the protection scope of the present invention without the changes or substitutions conceived by the inventive work within the technical scope disclosed by the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (7)

1. The utility model provides an it can attitude hot-water heating equipment, includes solar hot water tank (1), air can host computer (2) and solar energy collection pipe array (3), intelligent control ware (4), its characterized in that: the solar hot water tank (1) comprises a hot water tank shell (101), a hot water tank inner container (102) and a heat insulation layer (103) between the hot water tank shell (101) and the hot water tank inner container (102), a solar heat collecting pipe array (3) is kept normally open and directly heats water in the hot water tank inner container (102), the solar hot water tank (1) is further connected with a cold water replenishing port (104), an overflow port (105) and a user hot water outlet (106), the air energy host (2) is provided with an upper circulation port (201) and a lower circulation port (202), the cold water replenishing port (104) is connected with city water, the overflow port (105) is connected with the lower circulation port (202) of the air energy host (2), the user hot water outlet (106) is respectively connected with the upper circulation port (201) of the air energy host (2) and a user water end (7) through a three-way valve (6), and a temperature sensor (5) is arranged in the hot water tank inner container (102), the intelligent controller (4) is connected with the temperature sensor (5), and the intelligent controller (4) is also connected with the three-way valve (6) and the air energy host (2).

2. A shaped hot water apparatus according to claim 1, wherein: the city water supply is also connected with a water using end (7) of a user through an intelligent valve (8).

3. A hot water apparatus according to claim 2, wherein: the intelligent valve (8) is also connected to an intelligent controller (4).

4. A shaped hot water apparatus according to claim 1, wherein: the intelligent controller (4) is connected with mains supply, and the intelligent controller (4) has a timed opening and closing function.

5. A shaped hot water apparatus according to claim 1, wherein: the intelligent controller (4) is provided with a wireless transceiving module, and parameters of the intelligent controller (4) can be adjusted through corresponding mobile phone programs, so that the opening and closing states of the air energy host (2) and the opening and closing degrees of the three-way valve (6) and the intelligent valve (8) are controlled.

6. A shaped hot water apparatus according to claim 1, wherein: the three-way valve (6) comprises a valve A (601) connected with a user hot water outlet (106), a valve B (602) connected with an upper circulation port (201), and a valve C (603) connected with a user water end (7), wherein the opening and closing degrees of the valve A (601), the valve B (602) and the valve C (603) can be independently adjusted.

7. A shaped hot water apparatus according to claim 1, wherein: the main module of the intelligent controller (4) uses a PLC control module.

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