CN215412070U

CN215412070U - Circulation heating system

Info

Publication number: CN215412070U
Application number: CN202121761774.8U
Authority: CN
Inventors: 孙真
Original assignee: Fadian Changfeng Sanya Energy Co ltd
Current assignee: Fadian Changfeng Sanya Energy Co ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2022-01-04
Anticipated expiration: 2031-07-30

Abstract

The present invention provides a circulation heating system, including: water storage bucket, heating case and the radiator that supplies water, the left side of water storage bucket is equipped with the pressure water pitcher, first water pump is installed to a side of water storage bucket, the fixed intercommunication of input of first water pump has the drinking-water pipe, the input of drinking-water pipe runs through the water storage bucket and extends to the inside of water storage bucket. This circulation heating system, utilize the photovoltaic board to absorb solar light source and convert light energy into electric energy, and store into storage battery's inside, natural power supply has been realized, city resource has effectively been practiced thrift, heating case and heating pipe through setting up, the electric energy that can utilize storage battery to store heats the rainwater of incasement portion through with the second water pump, the cooperation of inlet tube and wet return, can realize that the high temperature rainwater is at the inside circulation flow of the radiator that supplies water, be convenient for supply water the continuous heating of radiator, effectively practiced thrift non-renewable resources, avoid non-renewable resources's consumption.

Description

Circulation heating system

Technical Field

The utility model relates to the technical field of heating, in particular to a circulating heating system.

Background

The heating system consists of three main parts, namely a heat source (heat medium preparation), a heat circulation system (pipe network or heat medium conveying) and a heat dissipation device (heat medium utilization), the heating is a technology for supplying heat to the indoor to keep the indoor at a certain temperature so as to create suitable living conditions or working conditions, the heating industry is different from other public industries such as water, electricity, gas and the like, the heating industry is seasonal, the heating length of different areas is different, the heat supply belongs to daily necessities in winter in the heating areas, the demand is strong, and the heat supply system is a key industry supported in the field of infrastructure in China.

With the acceleration of urban construction pace in China, the industry has huge market potential as an important aspect of public utilities, and particularly has ideal development prospect in the fields of encouraging and supporting development of countries such as spinal heating, cogeneration and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a circulating heating system which is used for solving the problems that the heat is produced by burning coal in the existing heating industry, the pollutant emission is increased by burning the coal, the heating cost is higher, and the energy resource is greatly consumed.

The utility model provides a circulation heating system, comprising: the water storage tank, the heating box and the water supply heating radiator, wherein a pressure water tank is arranged on the left side of the water storage tank, a first water pump is installed on one side face of the water storage tank, a water pumping pipe is fixedly communicated with the input end of the first water pump, the input end of the water pumping pipe penetrates through the water storage tank and extends into the water storage tank, a first communication pipe is fixedly communicated with the output end of the first water pump, the output end of the first communication pipe is fixedly communicated with the input end of the pressure water tank, a second communication pipe is fixedly communicated with the output end of the pressure water tank, a solenoid valve is fixedly communicated with the output end of the second communication pipe, a drain pipe is fixedly communicated with the output end of the solenoid valve, the bottom end of the drain pipe is fixedly communicated with the upper surface of the heating box, a heating pipe is installed on the inner wall of the heating box, a second water pump is fixedly connected with the bottom surface of the heating box, and a third communication pipe is fixedly communicated with the input end of the second water pump, the top of third communicating pipe and the fixed intercommunication in bottom surface of heating the case, the fixed intercommunication in output of second water pump has the inlet tube, the output of inlet tube and the fixed intercommunication of the input of the radiator that supplies water, the fixed intercommunication in output of the radiator that supplies water has the wet return, the left end of wet return and the fixed intercommunication in right flank of heating the case, the photovoltaic board is installed to a side of heating the case.

Preferably, the upper surface of the heating box is fixedly connected with a generator box, a voltage charging controller, a storage battery pack, an inverter and a single chip microcomputer are arranged inside the generator box, the photovoltaic panel is electrically connected with the voltage charging controller through a wire, the voltage charging controller is electrically connected with the storage battery pack through a wire, the storage battery pack is electrically connected with the inverter through a wire, and the inverter is electrically connected with the single chip microcomputer through a wire.

Preferably, the fixed surface of the upper surface of the heating box is inlaid with a water level sensor, the fixed surface of the right side of the heating box is inlaid with a temperature sensor, the water level sensor is connected with the single chip microcomputer through a wire, the temperature sensor is connected with the single chip microcomputer through a wire, the single chip microcomputer is connected with the first water pump through a wire, the single chip microcomputer is connected with the electromagnetic valve through a wire, the single chip microcomputer is connected with the heating pipe through a wire, and the single chip microcomputer is connected with the second water pump through a wire.

Preferably, the upper surface of water storage bucket is fixed and is inlayed and have a rain collection fill, the inner wall fixedly connected with one-level filter and activated carbon plate of rain collection fill, activated carbon plate is located the below of one-level filter.

Preferably, the inner bottom wall fixedly connected with toroidal tube of water storage bucket, the last fixed surface intercommunication of toroidal tube has the air jet head that the annular was arranged, the right side of water storage bucket is equipped with chlorine gas pitcher, the fixed intercommunication of output of chlorine gas pitcher has the trachea, tracheal output run through the water storage bucket and with the fixed intercommunication of input of toroidal tube.

Preferably, the front of the water storage barrel is fixedly hinged with a decontamination cabin door through two hinges, and the front of the heating box is fixedly embedded with an observation frame.

Compared with the related art, the circulation heating system provided by the utility model has the following beneficial effects:

1. the rainwater collecting device can conveniently collect and store rainwater through the rainwater collecting hopper and the water storage barrel, can filter and purify the collected rainwater through the matching of the rainwater collecting hopper, the first-stage filter plate and the activated carbon plate, can supply chlorine to the water storage barrel through the arranged chlorine tank and the arranged air pipe, realizes the disinfection of the rainwater, is convenient for the use of the rainwater, and effectively saves water resources.

2. According to the solar water heating radiator, the photovoltaic panel, the voltage charging controller, the storage battery pack and the inverter are arranged, the photovoltaic panel can be used for absorbing a solar light source, light energy is converted into electric energy through the cooperation with the voltage charging controller, the electric energy is stored in the storage battery pack, natural power supply is achieved, urban resources are effectively saved, rainwater in the heating box can be heated through the electric energy stored in the storage battery pack through the arranged heating box and the heating pipe, the rainwater can flow in the water supply radiator in a circulating mode through the cooperation with the second water pump, the water inlet pipe and the water return pipe, continuous heat supply of the water supply radiator is facilitated, people can use the radiator conveniently, non-renewable resources are effectively saved, and the consumption of the non-renewable resources is avoided.

Drawings

FIG. 1 is a cross-sectional view showing a schematic configuration of a heating system according to the present invention;

FIG. 2 is a front view of a schematic diagram of the heating system of the present invention;

FIG. 3 is a diagram of an electrical system for a heating system according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1 according to the present invention.

Reference numbers in the figures: 1. the device comprises a water storage barrel, 2, a chlorine tank, 3, an air pipe, 4, a jet head, 5, a rain collecting hopper, 6, an activated carbon plate, 7, a first-stage filter plate, 8, a water pumping pipe, 9, a first water pump, 10, a first communicating pipe, 11, a pressure water tank, 12, a second communicating pipe, 13, a generator box, 14, a photovoltaic plate, 15, a water inlet pipe, 16, a water supply heating radiator, 17, a water return pipe, 18, a ring pipe, 19, an observation frame, 20, a third communicating pipe, 21, a second water pump, 22, a temperature sensor, 23, a decontamination cabin door, 24, a water level sensor, 25, a heating box, 26, an electromagnetic valve, 27, a storage battery pack, 28, a voltage charging controller, 29, an inverter, 30, a heating pipe, 31, a single chip microcomputer, 32 and a drain pipe.

Detailed Description

The utility model is further described with reference to the following figures and embodiments.

Referring to fig. 1, 2, 3 and 4, a circulation heating system includes: a water storage barrel 1, a heating box 25 and a water supply radiator 16, wherein a pressure water tank 11 is arranged on the left side of the water storage barrel 1, a first water pump 9 is installed on one side surface of the water storage barrel 1, a water pumping pipe 8 is fixedly communicated with an input end of the first water pump 9, an input end of the water pumping pipe 8 penetrates through the water storage barrel 1 and extends into the water storage barrel 1, a first communicating pipe 10 is fixedly communicated with an output end of the first water pump 9, an output end of the first communicating pipe 10 is fixedly communicated with an input end of the pressure water tank 11, a second communicating pipe 12 is fixedly communicated with an output end of the pressure water tank 11, an electromagnetic valve 26 is fixedly communicated with an output end of the second communicating pipe 12, a drain pipe 32 is fixedly communicated with an output end of the electromagnetic valve 26, a bottom end of the drain pipe 32 is fixedly communicated with an upper surface of the heating box 25, a heating pipe 30 is installed on an inner wall of the heating box 25, a second water pump 21 is fixedly connected with a bottom surface of the heating box 25, and a third communicating pipe 20 is fixedly communicated with an input end of the second water pump 21, the top end of the third communicating pipe 20 is fixedly communicated with the bottom surface of the heating box 25, the output end of the second water pump 21 is fixedly communicated with a water inlet pipe 15, the output end of the water inlet pipe 15 is fixedly communicated with the input end of a water supply heating radiator 16, the output end of the water supply heating radiator 16 is fixedly communicated with a water return pipe 17, the left end of the water return pipe 17 is fixedly communicated with the right side surface of the heating box 25, and a photovoltaic panel 14 is installed on one side surface of the heating box 25.

In the specific implementation process, the upper surface of the heating box 25 is fixedly connected with the generator box 13, the inside of the generator box 13 is provided with a voltage charging controller 28, a storage battery 27, an inverter 29 and a single chip microcomputer 31, the photovoltaic panel 14 is electrically connected with the voltage charging controller 28 through a lead, the voltage charging controller 28 is electrically connected with the storage battery 27 through a lead, the storage battery 27 is electrically connected with the inverter 29 through a lead, the inverter 29 is electrically connected with the single chip microcomputer 31 through a lead, the photovoltaic panel 14 can be used for absorbing natural light sources to generate electric energy and utilizing the electric energy, urban electric power resources are effectively saved, the upper surface of the heating box 25 is fixedly embedded with a water level sensor 24, the right side surface of the heating box 25 is fixedly embedded with a temperature sensor 22, the water level sensor 24 is electrically connected with the single chip microcomputer 31 through a lead, and the temperature sensor 22 is electrically connected with the single chip microcomputer 31 through a lead, singlechip 31 passes through wire and 9 electric connection of first water pump, singlechip 31 passes through wire and 26 electric connection of solenoid valve, singlechip 31 passes through wire and heating pipe 30 electric connection, singlechip 31 passes through wire and 21 electric connection of second water pump, can monitor the rainfall of heating the inside of case 25 by level sensor 24, avoid the reduction of rainfall, influence the work of radiator 16 that supplies water, through the temperature sensor 22 who sets up, can be convenient monitor the inside rainwater temperature of heating case 25, make the rainwater temperature keep certain temperature value, the heating work of radiator 16 that supplies water is convenient for.

The upper surface of the water storage barrel 1 is fixedly embedded with a rain collecting hopper 5, the inner wall of the rain collecting hopper 5 is fixedly connected with a first-stage filter plate 7 and an activated carbon plate 6, the activated carbon plate 6 is positioned below the first-stage filter plate 7, rainwater can be conveniently collected and purified, the use of the rainwater is convenient, the inner bottom wall of the water storage barrel 1 is fixedly connected with a ring pipe 18, the upper surface of the ring pipe 18 is fixedly communicated with annularly arranged air nozzles 4, the right side of the water storage barrel 1 is provided with a chlorine tank 2, the output end of the chlorine tank 2 is fixedly communicated with an air pipe 3, the output end of the air pipe 3 penetrates through the water storage barrel 1 and is fixedly communicated with the input end of the ring pipe 18, chlorine can be injected into the water storage barrel 1, the rainwater can be effectively sterilized and disinfected, the purification of the rainwater is convenient, the front surface of the water storage barrel 1 is fixedly hinged with a decontamination cabin door 23 through two hinges, and the cleaning of the temporal part of the water storage barrel 1 is convenient, effectively keep the inside cleanliness factor of water storage bucket 1, the fixed observation frame 19 of inlaying in the front of heating case 25 can conveniently observe the inside rainwater content of heating case 25, avoids rainwater content to reduce, is convenient for supply water heating radiator 16's heating effect.

The working principle of the circulation heating system provided by the utility model is as follows: when in use, firstly, the rainwater is collected and stored by the rainwater collecting bucket 5 and the water storage bucket 1, the collected rainwater is filtered and purified by the first-stage filter plate 7 and the activated carbon plate 6, chlorine gas in the chlorine gas tank 2 is uniformly injected into the water storage bucket 1 through the gas pipe 3, the annular pipe 18 and the air nozzle 4 to realize the disinfection and purification of the rainwater, then the solar light source is absorbed by the photovoltaic plate 14, the light energy is converted into electric energy through the cooperation with the voltage charging controller 28 and is stored into the storage battery 27, the electric energy is converted into usable electric power through the inverter 29, the singlechip 31, the heating pipe 30, the first water pump 9, the electromagnetic valve 26 and the second water pump 21 are powered, the rainwater collected in the water storage bucket 1 is extracted by the first water pump 9 and is injected into the pressure water tank 11, and enters the heating tank 25 through the electromagnetic valve 26, then the singlechip 31 controls the heating pipe 30 to work, the rainwater is heated, when the temperature reaches the set temperature, the temperature sensor 22 transmits an electric signal to the singlechip 31, the heating pipe 30 stops heating, then the second water pump 21 works to extract the high-temperature rainwater in the heating box 25, the high-temperature rainwater enters the water supply heating radiator 16 through the water inlet pipe 15, and then flows into the heating box 25 again through the water return pipe 17, and the circulating heating of the water supply heating radiator 16 is realized.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A hydronic heating system, comprising: water storage bucket (1), heating case (25) and water supply radiator (16), the left side of water storage bucket (1) is equipped with pressure water pitcher (11), first water pump (9) is installed to a side of water storage bucket (1), the fixed intercommunication of input of first water pump (9) has drinking-water pipe (8), the input of drinking-water pipe (8) runs through water storage bucket (1) and extends to the inside of water storage bucket (1), the fixed intercommunication of output of first water pump (9) has first communicating pipe (10), the output of first communicating pipe (10) and the fixed intercommunication of input of pressure water pitcher (11), the fixed intercommunication of output of pressure water pitcher (11) has second communicating pipe (12), the fixed intercommunication of output of second communicating pipe (12) has solenoid valve (26), the fixed intercommunication of output of solenoid valve (26) has drain pipe (32), the bottom end of the drain pipe (32) is fixedly communicated with the upper surface of the heating box (25), a heating pipe (30) is arranged on the inner wall of the heating box (25), a second water pump (21) is fixedly connected with the bottom surface of the heating box (25), the input end of the second water pump (21) is fixedly communicated with a third communicating pipe (20), the top end of the third communicating pipe (20) is fixedly communicated with the bottom surface of the heating box (25), the output end of the second water pump (21) is fixedly communicated with a water inlet pipe (15), the output end of the water inlet pipe (15) is fixedly communicated with the input end of the water supply radiator (16), the output end of the water supply radiator (16) is fixedly communicated with a return pipe (17), the left end of wet return (17) and the right flank of heating case (25) are fixed to be communicated, photovoltaic board (14) are installed to a side of heating case (25).

2. A circulation heating system according to claim 1, wherein the upper surface of the heating box (25) is fixedly connected with a generator box (13), a voltage charging controller (28), a storage battery (27), an inverter (29) and a single chip microcomputer (31) are arranged inside the generator box (13), the photovoltaic panel (14) is electrically connected with the voltage charging controller (28) through a conducting wire, the voltage charging controller (28) is electrically connected with the storage battery (27) through a conducting wire, the storage battery (27) is electrically connected with the inverter (29) through a conducting wire, and the inverter (29) is electrically connected with the single chip microcomputer (31) through a conducting wire.

3. A circulation heating system according to claim 1, characterized in that a water level sensor (24) is fixedly embedded in the upper surface of the heating box (25), a temperature sensor (22) is fixedly embedded in the right side of the heating box (25), the water level sensor (24) is electrically connected with a single chip microcomputer (31) through a wire, the temperature sensor (22) is electrically connected with the single chip microcomputer (31) through a wire, the single chip microcomputer (31) is electrically connected with the first water pump (9) through a wire, the single chip microcomputer (31) is electrically connected with the electromagnetic valve (26) through a wire, the single chip microcomputer (31) is electrically connected with the heating pipe (30) through a wire, and the single chip microcomputer (31) is electrically connected with the second water pump (21) through a wire.

4. A circulation heating system according to claim 1, characterized in that the upper surface of the water storage tank (1) is fixedly embedded with a rain collecting hopper (5), the inner wall of the rain collecting hopper (5) is fixedly connected with a primary filter plate (7) and an activated carbon plate (6), and the activated carbon plate (6) is positioned below the primary filter plate (7).

5. A circulation heating system according to claim 1, characterized in that the inner bottom wall of the water storage barrel (1) is fixedly connected with a ring pipe (18), the upper surface of the ring pipe (18) is fixedly communicated with annularly arranged air nozzles (4), the right side of the water storage barrel (1) is provided with a chlorine tank (2), the output end of the chlorine tank (2) is fixedly communicated with an air pipe (3), and the output end of the air pipe (3) penetrates through the water storage barrel (1) and is fixedly communicated with the input end of the ring pipe (18).

6. A circulation heating system according to claim 1, characterized in that the front of the water storage barrel (1) is fixedly hinged with a cleaning cabin door (23) through two hinges, and the front of the heating box (25) is fixedly embedded with an observation frame (19).