CN101893274A

CN101893274A - Intelligent solar heating system

Info

Publication number: CN101893274A
Application number: CN2009101168278A
Authority: CN
Inventors: 吴建刚
Original assignee: 张家顺
Priority date: 2009-05-21
Filing date: 2009-05-21
Publication date: 2010-11-24

Abstract

The invention discloses an intelligent solar heating system. The intelligent solar heating system is characterized by comprising a hot water drinking supply subsystem, an indoor heating sub-cycle system and a bathing warm water supply subsystem, wherein a temperature detection sensor is arranged in an insulated cabinet; and an output water pipe connected with a solar heat collector is provided with a temperature detection sensor. Due to the adoption of the system, hot water with needed temperature can be provided in various ways. The temperature detection sensor is arranged so that temperature can be controlled when the system is used and the waste of a large amount of heat energy is avoided.

Description

Intelligent solar heating system

Technical Field

The invention relates to a heating system, in particular to an intelligent solar heating system.

Background

The place that needs set up heating system such as high scholars house or large-scale mill on the existing market all is with conventional gas boiler provides hot water, can consume a large amount of natural gas like this, and waste a large amount of water, bring economic a large amount of wastes, consequently intelligent solar heating system has appeared on the market, present intelligent solar heating system has played certain energy-conserving effect, but the heat supply is single when using, can not carry out the hot water that many-sided provided required temperature simultaneously, and owing to not adopting the control to the temperature when using, also can waste a large amount of heat energy.

Disclosure of Invention

In order to solve the technical problem, the invention provides an intelligent solar heating system capable of saving energy.

The invention provides an intelligent solar heating system which comprises a hot water drinking supply subsystem, an indoor heating sub-circulation system and a bathing warm water supply subsystem; the hot water drinking supply subsystem comprises an insulation box, wherein a coil pipe is arranged in the insulation box, and external cold water passes through the coil pipe and is heated in the insulation box to form warm water at about 50 ℃; the heat preservation box is connected with an auxiliary heating device through a water pipe, and the flow of warm water in the water pipe between the heat preservation box and the auxiliary heating device is controlled through an electromagnetic valve 103, so that cold water flows into the auxiliary heating device for heating after being heated by the heat preservation box, and drinkable hot water is formed.

The indoor heating sub-circulation system comprises the heat preservation box and heating fins, the heat preservation box is connected with the heating radiators through water pipes, the flow of warm water in the water pipes between the heat preservation box and the heating radiators is controlled through a water pump, and the warm water enters the heating radiators from the heat preservation box through the water pipes and flows back to the heat preservation box through the water pipes.

The bath warm water supply subsystem comprises a solar heat collector, an insulation box and an auxiliary heating device, wherein a temperature detection sensor is arranged on an output water pipe of the solar heat collector, when the temperature detection sensor is higher than required temperature in sunny days, the electromagnetic valve 101 is controlled through a solar temperature sensing signal, the electromagnetic valve 101 is opened, water switches on two sides are opened, external cold water flows into the solar heat collector through a filter, and hot water is squeezed into the insulation box for storage. The temperature detection sensor is arranged on the input water pipe of the heat preservation box, the warm water in the heat preservation box is long in storage time, and when the water temperature is lower than the temperature set by the temperature detection sensor, the control system can enable the water pump 113 to work to pump out the water in the heat preservation box and convey the water into the heat preservation box, and the solar heat collector automatically and circularly heats the water to reach the required temperature for bathing.

When the water level and the temperature in the heat preservation box are automatically detected in a timed mode through the computer control system in rainy weather, when the temperature detection sensor is lower than the required temperature and the water level is lower than the required water level, the electromagnetic valves 102 and 104 are opened, the auxiliary heating device is started, external cold water flows into the heat preservation box to reach the required water level, and the water in the heat preservation box flows into the auxiliary heating device for heating and then flows into the heat preservation box for automatic circulation to reach the required bath water temperature.

In cold winter, when the temperature of the heat collector is lower than the set temperature, the water pump 113 is started to work under the work of the control system, so that water forms a loop between the heat collector and the heat insulation box, and the automatic circulation system plays a role in cold prevention.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

the invention can provide hot water with required temperature in multiple aspects, and can control the temperature during use without wasting a large amount of heat energy due to the arrangement of the detection sensor.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent solar heating system of the present invention.

Wherein: 1. solar collector, 2, insulation can, 3, auxiliary heating device, 4, radiator, 5, filter, 6, coil pipe, 7, temperature detection sensor, 8, temperature detection sensor, 91 switch, 92, switch, 93, switch, 94, switch, 95, switch, 96, switch, 97, switch, 98, switch, 99, switch, 910, switch, 911, switch, 912, switch, 913, switch, 914, switch, 101, solenoid valve, 102, solenoid valve, 103, solenoid valve, 104, solenoid valve, 111, water pump, 112, water pump, 113, water pump.

Detailed Description

As shown in fig. 1, the present invention provides an intelligent solar heating system, which comprises a hot water drinking supply subsystem, an indoor heating sub-circulation system and a bathing and heating water supply subsystem;

the working principle of the hot water drinking supply subsystem is as follows: cold water is filtered by the filter 5 and then directly flows into the coil 6 through the water pipe, the coil 6 absorbs heat in the heat preservation box 2, so that water in the coil 6 is heated to form warm water, the electromagnetic valve 103 is automatically opened when a certain temperature is reached, the switch 99 and the switch 910 are also opened, the electric (gas) auxiliary heating device 3 flows in, the heating speed is increased, when boiled water for drinking at a required temperature is reached, the water pump 113 works, and the switch 913 is opened, so that the boiled water for drinking can be obtained.

The working principle of the indoor heating sub-circulation system is as follows: a temperature detection sensor 8 is arranged in the heat preservation box 2, when the temperature (70-80 ℃) required to be set is detected, the water pump 111 starts to work to enable hot water in the heating pipe to flow into the heating radiator to enable the heating radiator 4 to generate heat to be radiated for indoor heating, and the hot water flows into the heating radiator and then flows into the heat preservation box 2 to circularly work.

The working principle of the bath warm water supply subsystem is as follows: the output water pipe of the solar heat collector 1 is provided with a temperature detection sensor 7, when the temperature sensor 7 is higher than the required temperature in sunny days, the electromagnetic valve 101 is controlled by the temperature sensing signal of the solar energy, the electromagnetic valve 101 is opened, the

switches

91, 92 and 93 at the two sides are opened, the external cold water flows into the solar heat collector 1 through the filter 5, and the hot water is squeezed into the heat insulation box 2 for storage. The temperature detection sensor 8 is arranged on the heat preservation box 2, the warm water in the heat preservation box 2 is long in preservation time, and when the water temperature is lower than the temperature set by the temperature detection sensor 8, the control system can enable the water pump 112 to be started, the working switches 97 and 98 are switched on, the water in the heat preservation box is pumped out and is conveyed into the solar heat collector 1 to be heated automatically and circularly to reach the required temperature, and the water is used for bathing.

When the weather is rainy, the water level and the temperature in the insulation can are automatically determined at regular time through the computer control system, when the

water levels

121, 122 and 123 are lower than the required water level, the electromagnetic valve 102, the

switches

94, 95 and 96 are opened, external cold water flows into the insulation can to reach the required water level, when the temperature detection sensor 8 is lower than the required temperature, the auxiliary heating device 3 works, the electromagnetic valve 104, the switch 911 and the switch 912, after the water in the insulation can is opened and flows into the auxiliary heating device 3 for heating, the water pump 113 works, the switch 914 opens hot water to flow into the insulation can for automatic circulation to reach the required bath water temperature, and the switch 913 opens the.

In severe winter, when the temperature of the heat collector 1 is lower than the set temperature, the water pump 112 is started to work under the work of the control system, so that water forms a loop between the heat collector and the heat insulation box, and the automatic circulating system plays a role in cold prevention.

Finally, it should be noted that: the above embodiments are only used to illustrate the present invention and do not limit the technical solutions described in the present invention; thus, while the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.

Claims

1. The utility model provides an intelligence solar heating system which characterized in that: the intelligent solar heating system comprises a hot water drinking supply subsystem, an indoor heating sub-circulation system and a bathing warm water supply subsystem; wherein,

the hot water drinking supply subsystem comprises an insulation box, wherein a coil pipe is arranged in the insulation box, and external cold water passes through the coil pipe and is heated in the insulation box to form warm water; the heat preservation box is connected with an auxiliary heating device through a water pipe, and the flow of warm water in the water pipe between the heat preservation box and the auxiliary heating device is controlled through an electromagnetic valve 103, so that cold water flows into the auxiliary heating device for heating after being heated by the heat preservation box, and drinkable hot water is formed;

the indoor heating sub-circulation system comprises the heat preservation box and a radiator, the heat preservation box is connected with the radiator through a water pipe, the flow of warm water in the water pipe between the heat preservation box and the radiator is controlled through a water pump, and the warm water enters the radiator from the heat preservation box through the water pipe and flows back to the heat preservation box through the water pipe;

the bath warm water supply subsystem comprises a solar heat collector, an insulation box and an auxiliary heating device, wherein the solar heat collector and the insulation box are mutually connected through a water pipe, an automatic electromagnetic valve is controlled to be opened through a solar temperature sensing signal according to the required set temperature in sunny days, solar hot water is squeezed into a water tank to be stored through the principle of squeezing cold water upwards, and when the temperature of water in the water storage tank is lower than the set temperature, the control system can automatically judge to control the heat collector to circularly heat; on cloudy days, the water level and the temperature of the water tank are regularly and automatically determined through the computer control system, the water is automatically supplemented, and the auxiliary heating device is regularly started to supplement the water, so that the water demand is met.

2. The intelligent solar heating system according to claim 1, wherein: the temperature of the heat collector can be set in winter, and the water pump 112 automatically and circularly works to prevent freezing when the temperature is lower than the set temperature.

3. The intelligent solar heating system according to claim 1, wherein: and a temperature detection sensor is arranged in the heat preservation box.

4. An intelligent solar heating system according to claim 1 or 2, wherein: and a temperature detection sensor is arranged on an output water pipe connected with the solar heat collector.

5. An intelligent solar heating system according to claim 1 or 2, wherein: the heat preservation box is provided with a water level detection sensor.