CN210154109U - Self-cleaning energy-gathering heat collector - Google Patents

Abstract

The utility model discloses an ability attitude heat collector of automatically cleaning, the ability attitude heat collector field of gathering that relates to the automatically cleaning, traditional can the hot water that attitude heat collector produced, because can't clean for a long time, lead to the aquatic to contain more impurity and mineral salt impurity and chlorine residue, the utility model discloses an add silicon phosphorus crystal filter equipment respectively in gathering attitude heat collector, active carbon filter equipment and milipore filter equipment for user's water end activity water flows respectively with can directly drink water, has improved the quality of water of domestic water and drinking water, and each filter equipment filter core and filtration membrane come to continuously keep the cleanness to quality of water through changing simultaneously, when having solved traditional can the periodic cleaning of attitude heat collector, dismantles the hot-water tank difficulty, and the scavenging period is long, and the problem that the replacement water tank is with high costs.

Description

Self-cleaning energy-gathering heat collector

Technical Field

The utility model relates to an can attitude heat collector structure field, in particular to can attitude heat collector of automatically cleaning.

Background

Nowadays, the social development is increasingly rapid, the living standard of people is higher and higher, meanwhile, the attention on health is higher and higher, and the health degree of domestic water is also more and more paid attention.

In the case of drinking water, if harmful bacteria, such as typhoid, cholera, dysentery, etc., are contained in the water, various infectious diseases are transmitted. When a large amount of plankton (such as protozoa, algae, etc.) is present in water, it affects the physical properties of water and generates odor and water color. If the water contains some mineral salt impurities, various diseases can be caused. If drinking water contains too much fluorine, teeth may be stained to cause "plaque and odontopathy", and serious people may completely collapse teeth. The improvement of water quality in daily life has important significance for improving the health of human bodies.

The hot water generated by the traditional energy-gathering heat collector can not be cleaned for a long time, so that the water contains more impurities, mineral salt impurities and residual chlorine, and domestic water can cause certain harm to human bodies when being used or drunk (directly drunk or drunk after being boiled in a common way); when the traditional energy-gathering heat collector is cleaned regularly, the hot water tank is difficult to disassemble, the cleaning time is long, and the cost for replacing the water tank is high.

Disclosure of Invention

The utility model aims to provide a: the self-cleaning energy-gathering state heat collector solves the problem that hot water generated by the traditional energy-gathering state heat collector contains more impurities, mineral salt impurities and residual chlorine due to long-term incapability of cleaning, and domestic water is harmful to human bodies when being used or drunk (directly drunk or drunk after being boiled in a common way); when the traditional energy-gathering heat collector is cleaned regularly, the hot water tank is difficult to disassemble, the cleaning time is long, and the cost for replacing the water tank is high.

The utility model adopts the technical scheme as follows:

a self-cleaning energy-gathering heat collector comprises a hot water supply tank, an air energy water circulation host and a solar heat collector, wherein the solar heat collector directly heats water in the hot water supply tank, the hot water supply tank comprises a shell, an inner container and a heat insulation layer arranged in the inner container, the solar heat collector further comprises a cold water replenishing port, an overflow port and a user hot water outlet, the air energy water circulation host is provided with an upper circulation port and a lower circulation port, the cold water replenishing port is connected with the upper circulation port and is connected with a one-way valve only flowing to the hot water supply tank behind a joint point, the other end of the one-way valve is connected with a city water supply port, the overflow port is connected with the lower circulation port, a silicon-phosphorus crystal filtering device is arranged on the user hot water outlet, a plurality of silicon-phosphorus crystal particles are arranged in the silicon-phosphorus crystal filtering device, a domestic water outlet is arranged behind the silicon-phosphorus crystal filtering device, and an active carbon filtering device and an, a direct drinking water outlet is arranged behind the ultrafiltration membrane filtering device.

The utility model discloses a working process does: a city water supply system injects a certain amount of tap water into a hot water supply tank through a one-way valve, a solar heat collector collects solar energy to heat water in an inner container, when the water in the inner container reaches a preset threshold value, an air energy water circulation host does not work, when the water in the inner container does not reach the preset threshold value, the water in the inner container enters the air energy water circulation host through an overflow port, the air energy water circulation host starts to further heat the water and then enters an upper water replenishing port of the hot water supply tank through an upper circulation port to further enter the inner container of the hot water supply tank, when a user needs to use the water, the water faucet is opened, the water in the inner container flows out through a hot water outlet of the user and is primarily filtered through a silicon-phosphorus crystal filtering device, if the user opens the water faucet corresponding to a domestic water outlet, the water directly flows out from the domestic water outlet, if the user opens the faucet corresponding to a direct drinking water outlet, the water, the water can be further filtered by the active carbon filtering device and the ultrafiltration membrane filtering device, and the standard of direct drinking water is opened, so that the water can be directly drunk or drunk after being boiled.

Furthermore, there is a temperature-sensing ware in the confession hot water tank inner bag, and intelligent treater is connected to the temperature-sensing ware, and intelligent treater can control opening of air ability hydrologic cycle host computer, detects temperature in the inner bag and is less than the threshold value of predetermineeing when the temperature-sensing ware, then can open air ability hydrologic cycle host computer, and the auxiliary heating then can close when detecting temperature in the inner bag and be higher than the threshold value of predetermineeing, the energy saving.

Furthermore, the water inlet end of the silicon-phosphorus crystal filtering device is also connected with a city water supply port, a water pipe is connected behind the silicon-phosphorus crystal filtering device and before the domestic water outlet and a user hot water outlet are connected behind the silicon-phosphorus crystal filtering device, and an intelligent valve capable of adjusting the opening and closing degree is arranged on the city water supply port in front of the water inlet end of the silicon-phosphorus crystal filtering device. When a user needs warm water, the water supply proportion from the inner container to the water supply end in the market before the silicon-phosphorus crystal filtering device can be adjusted according to the angle of the tap opened by the user, so that the user demand is met.

Furthermore, the intelligent processor and the intelligent valve are provided with WiFi modules and can be controlled through WiFi signals.

Furthermore, the intelligent processor can compare the temperature of water in the inner container of the hot water supply tank returned by the temperature sensor with a preset threshold value, and then controls the starting and stopping of the air energy water circulation host machine.

Furthermore, a detachable silicon-phosphorus crystal tank is arranged in the silicon-phosphorus crystal filtering device, a detachable activated carbon tank is arranged in the activated carbon filtering device, and a detachable ultrafiltration membrane is arranged in the ultrafiltration membrane filtering device. The filter elements of all the filter devices can be directly replaced by the detachable arrangement, and the filter device is convenient and simple.

Furthermore, the air energy water circulation host, the silicon-phosphorus crystal filtering device, the activated carbon filtering device and the ultrafiltration membrane filtering device are all placed under a support supporting the solar thermal collector, a water storage tank for storing direct drinking water is arranged under the support supporting the solar thermal collector, and the water storage tank is also placed under the support supporting the solar thermal collector. The design of this kind of structure for whole can the compact structure of attitude heat collector, area reduces, and drinking water special storage water tank has separated straight drinking water and domestic water, makes domestic water independently store, and is more healthy.

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 ability attitude heat collector of automatically cleaning has solved the hot water that traditional ability attitude heat collector produced, because long-term unable cleanness, leads to the aquatic to contain more impurity and mineral salt impurity and chlorine residue, and domestic water uses or drinks (directly drinks or ordinary boiling back is drunk) and all can have the problem of certain harm to the human body, makes domestic water and drinking water can reach the health standard.

2. The utility model relates to an ability attitude heat collector of automatically cleaning has solved the tradition and has gathered when attitude heat collector regularly washs, dismantles the hot-water tank difficulty, and the scavenging period is long, and changes the problem that the water tank is with high costs, can continuously keep the cleanness to quality of water through changing each filter equipment filter core and filtration membrane.

3. The utility model relates to an ability attitude heat collector of automatically cleaning has solved that the tradition can the attitude heat collector area big, and does not have the special storage water tank of drinking water, the problem of direct drinking water and domestic water unseparated.

Drawings

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

FIG. 1 is a view showing the structure of the present invention;

fig. 2 is a schematic diagram of the actual structure of the present invention;

FIG. 3 is a lower end portion of the solar collector holder of FIG. 2 in a block diagram;

in the figure, 1-a hot water supply tank, 2-an air energy water circulation host, 3-a solar heat collector, 4-a one-way valve, 5-a silicon phosphorus crystal filter device, 6-a domestic water outlet, 7-an activated carbon filter device, 8-an ultrafiltration membrane filter device, 9-a direct drinking water outlet, 10-a temperature sensor, 11-an intelligent processor, 12-an intelligent valve, 101-a shell, 102-an 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 and 202-a lower circulation port.

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

A self-cleaning energy-gathering heat collector comprises a hot water supply tank 1, an air energy water circulation host 2 and a solar heat collector 3, wherein the solar heat collector 3 directly heats water in the hot water supply tank 1, the hot water supply tank 1 comprises a shell 101, an inner container 102 and a heat insulation layer 103 arranged in the inner container, the solar heat collector 1 further comprises a cold water replenishing port 104, an overflow port 105 and a user hot water outlet 106, the air energy water circulation 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 the upper circulation port 201 and is connected with a one-way valve 4 only flowing to the hot water supply tank 1 after a combination point, the other end of the one-way valve 4 is connected with a city water supply port, the overflow port 105 is connected with the lower circulation port 202, a silicon-phosphorus crystal filtering device 5 is arranged on the user hot water outlet 106, a plurality of silicon-phosphorus crystal filtering devices 5 are arranged in the silicon-phosphorus crystal filtering devices 5, a domestic water, an active carbon filtering device 7 and an ultrafiltration membrane filtering device 8 are sequentially arranged on a pipeline of a hot water outlet 106 of the user behind the domestic water outlet 6, and a direct drinking water outlet 9 is arranged behind the ultrafiltration membrane filtering device 8.

The utility model discloses a working process does: the threshold value of water in the inner container is preset to be 70 ℃, when the system runs, a water supply system injects a certain amount of tap water into the water supply tank 1 through the one-way valve 4, the solar thermal collector 3 collects solar energy to heat the water in the inner container 102, when the temperature of the water in the inner container 102 reaches above 70 ℃, the air energy water circulation main machine 2 does not work, when the temperature of the water in the inner container 102 is not higher than 70 ℃, the water in the inner container 102 enters the air energy water circulation main machine 2 through the overflow port 105, the air energy water circulation main machine 2 starts to further heat the water and then enters the upper water replenishing port 104 of the water supply tank 1 through the upper circulation port 201 to further enter the inner container 102 of the water supply tank 1, when a user needs to use the water, the water tap is opened, the water in the inner container 102 flows out through the user hot water outlet 106 and is primarily filtered through the silicon-phosphorus crystal filtering device 5, if the user opens the, if the tap corresponding to the direct drinking water outlet 9 opened by the user is generally connected with a household water dispenser, the water can be further filtered through the activated carbon filtering device 7 and the ultrafiltration membrane filtering device 8, the standard of direct drinking water is opened, and the direct drinking water can be directly drunk or drunk after being boiled.

Further, a temperature sensor 10 is arranged in the inner container 102 of the water supply tank 1, the temperature sensor 10 is connected with an intelligent processor 11, and the intelligent processor 11 can control the start and stop of the air energy water circulation host machine 2. When the temperature sensor 10 detects that the water temperature in the inner container 102 is lower than 70 ℃, the air energy water circulation main machine 2 is started to assist in heating, and when the water temperature in the inner container 102 is higher than 70 ℃, the air energy water circulation main machine is closed, so that energy is saved.

Example 2

The difference between this embodiment and embodiment 1 is that the water inlet end of the silicon phosphorus crystal filtering device 5 is further connected with a city water supply port, after the silicon phosphorus crystal filtering device 5, the domestic water before the water outlet 6 and the user hot water outlet 106 are gathered to flow to a water pipe after the silicon phosphorus crystal filtering device 5, and an intelligent valve 12 capable of adjusting the opening and closing degree is further arranged on the city water supply port before the water inlet end of the silicon phosphorus crystal filtering device 5. Due to the design, when a user needs warm water, the opening degree of the intelligent valve 12 can be adjusted according to the angle of the user for opening the water faucet, and the water supply proportion from the inner container 102 to the water supply end in the market before the silicon-phosphorus crystal filtering device 5 is further adjusted, so that the user needs can be met. If the water temperature in the inner container 102 is 70 ℃ and the temperature of the commercial water is 10 ℃ at this time, the user needs to use the warm water with the temperature of 50 ℃, and the tap corresponding to the domestic water outlet 6 is opened to the position of 50 ℃, the intelligent valve 12 is adjusted to enable the ratio of the commercial water outlet to the water outlet of the hot water outlet 106 of the user to be 1:2, and then the user requirement can be met.

Further, the intelligent processor 11 and the intelligent valve 12 both have WiFi modules, and can be controlled by WiFi signals. The preset threshold value of 70 ℃ can be changed into 60 ℃ through a mobile phone program, or 12 pm to 6 am, the whole system is closed, and if the time period from 12 pm to 6 am is reached, the air energy and water circulation host machine 2 cannot operate no matter what water temperature in the inner container 102 is detected by the temperature sensor 10, so that energy can be saved, and waste can be avoided.

Example 3

The difference between this embodiment and embodiments 1 and 2 is only that the intelligent processor 11 controls the start and stop of the air-energy water circulation host 2 according to the comparison between the temperature of the water in the inner container 102 of the hot water supply tank 1 returned by the temperature sensor 10 and a preset threshold.

Furthermore, a detachable silicon-phosphorus crystal tank is arranged in the silicon-phosphorus crystal filtering device 5, a detachable activated carbon tank is arranged in the activated carbon filtering device 7, and a detachable ultrafiltration membrane is arranged in the ultrafiltration membrane filtering device 8.

Further, the air energy water circulation host 2, the silicon-phosphorus crystal filtering device 5, the activated carbon filtering device 7 and the ultrafiltration membrane filtering device 8 are all placed under a support supporting the solar thermal collector 3, the direct drinking water outlet 9 is also provided with a water storage tank for storing direct drinking water under the support supporting the solar thermal collector 3, and the water storage tank is also placed under the support supporting the solar thermal collector 3.

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 ability attitude heat collector of automatically cleaning, includes confession hot water tank (1), air can hydrologic cycle host computer (2) and solar collector (3), its characterized in that: the solar heat collector (3) directly heats water in the hot water supply tank (1), the hot water supply tank (1) comprises a shell (101), an inner container (102) and a heat insulation layer (103) arranged in the inner container, the hot water supply tank (1) further comprises a cold water replenishing port (104), an overflow port (105) and a user hot water outlet (106), the air energy water circulation 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 the upper circulation port (201) and is connected with a check valve (4) only flowing to the hot water supply tank (1) after a combination point, the other end of the check valve (4) is connected with a city water supply port, the overflow port (105) is connected with the lower circulation port (202), a silicon-phosphorus crystal filtering device (5) is arranged on the user hot water outlet (106), a plurality of silicon-phosphorus crystal filtering devices (5) are provided with silicon-phosphorus crystal particles, and a domestic water outlet (6) is arranged behind the silicon-phosphorus crystal filtering device, an activated carbon filtering device (7) and an ultrafiltration membrane filtering device (8) are sequentially arranged on a pipeline of a hot water outlet (106) of a user behind the domestic water outlet (6), and a direct drinking water outlet (9) is arranged behind the ultrafiltration membrane filtering device (8).

2. The self-cleaning, energy concentrating collector of claim 1 further comprising: a temperature sensor (10) is arranged in an inner container (102) of the water supply tank (1), the temperature sensor (10) is connected with an intelligent processor (11), and the intelligent processor (11) can control the start and stop of the air energy water circulation host (2).

3. The self-cleaning, energy concentrating collector of claim 2 further comprising: the water inlet end of the silicon-phosphorus crystal filtering device (5) is also connected with a city water supply port, a domestic water outlet (6) and a user hot water outlet (106) are gathered behind the silicon-phosphorus crystal filtering device (5) and flow to a water pipe behind the silicon-phosphorus crystal filtering device (5), and an intelligent valve (12) capable of adjusting the opening and closing degree is further arranged on the city water supply port in front of the water inlet end of the silicon-phosphorus crystal filtering device (5).

4. The self-cleaning, energy concentrating collector of claim 3, wherein: the intelligent processor (11) and the intelligent valve (12) are provided with WiFi modules and can be controlled through WiFi signals.

5. The self-cleaning, energy concentrating collector of claim 2 further comprising: the intelligent processor (11) can compare the temperature of water in the inner container (102) of the hot water supply tank (1) returned by the temperature sensor (10) with a preset threshold value, and then controls the starting and stopping of the air energy water circulation host (2).

6. A self-cleaning energy concentrating collector as claimed in any one of claims 1 to 5 wherein: the silicon-phosphorus crystal filtering device (5) is internally provided with a detachable silicon-phosphorus crystal tank, the activated carbon filtering device (7) is internally provided with a detachable activated carbon tank, and the ultrafiltration membrane filtering device (8) is internally provided with a detachable ultrafiltration membrane.

7. A self-cleaning energy concentrating collector as claimed in any one of claims 1 to 5 wherein: the air energy water circulation host (2), the silicon-phosphorus crystal filtering device (5), the activated carbon filtering device (7) and the ultrafiltration membrane filtering device (8) are all placed under a support supporting the solar heat collector (3), a water storage tank for storing direct drinking water is further arranged under the support supporting the solar heat collector (3) at a direct drinking water outlet (9), and the water storage tank is also placed under the support supporting the solar heat collector (3).

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