CN205372874U - Indoor temperature regulation and controlling system - Google Patents

Abstract

The utility model relates to an indoor temperature regulation and controlling system, including the refrigeration subsystem with heat the subsystem, the refrigeration subsystem includes that refrigerator, cover establish cold junction adapter on the refrigerator cold head, lead cold pipe, water tank and heat abstractor, leads cold pipe one end and connects the cold junction adapter, water tank is connected to its other end, the heat abstractor water inlet is connected to refrigerator radiating part delivery port, and refrigerator radiating part water inlet is connected to the heat abstractor delivery port, the pipeline end of intaking in the water tank delivery port junction chamber, indoor pipeline goes out water end (W. E. ) connection water tank water inlet, it includes that generator, third pipeline, fourth pipeline establish the cogeneration of heat and power boiler of first combustor and second combustor in, and connect power input terminal's accumulate bottle to heat the subsystem, the pipeline goes out the water end (W. E. ) in sending out motor heat dissipation portion water inlet junction chamber, sends out a motor heat dissipation portion delivery port and connects cogeneration of heat and power boiler water inlet, the pipeline end of intaking in the cogeneration of heat and power boiler delivery port junction chamber. This system can adjust the indoor temperature refrigeration and heat, satisfies the requirement of human comfort degree.

Description

Indoor temperature regulation and control system

Technical field

This utility model relates to indoor temperature and regulates field, particularly relates to a kind of indoor temperature regulation and control system.

Background technology

In current indoor temperature regulates, indoor temperature mainly uses central air-conditioning or discrete air-conditioning to be adjusted, to meet indoor refrigeration or to heat purpose.But, there is cold wind blow-through skin or hot blast blow-through skin phenomena in indoor refrigeration or the two class air-conditionings heated, causes that human comfort is very poor.

According to researching and analysing human comfort, only being exchanged with the slow of human skin temperature by indoor air temperature, the mode reaching to lower the temperature or heat is only the best mode meeting human comfort.Although adopting now floor heating measure can solve to carry out the comfortable purpose heated in indoor, but do not obtain the solution of essence for indoor comfortable cooling problem.Therefore, design one can individually realize indoor temperature being freezed and heating adjustment, and the indoor temperature regulation and control system that can meet again human comfort requirement becomes the another requirement in current indoor temperature adjustment field.

Utility model content

Technical problem to be solved in the utility model is to provide one can individually realize indoor temperature being freezed and heating adjustment for above-mentioned prior art, can meet again the indoor temperature regulation and control system of human comfort requirement.

The technical scheme that the above-mentioned technical problem of this utility model solution adopts is: indoor temperature regulation and control system, it is characterized in that, including refrigeration subsystem and heat subsystem, described refrigeration subsystem includes refrigeration machine, cold end adapter, conduction cooling pipe, water tank and heat abstractor, cold end adapter is set on the cold head of refrigeration machine, cold end adapter is connected with one end of conduction cooling pipe, and the other end of conduction cooling pipe connects water tank；The outlet of the radiating part of described refrigeration machine connects the water inlet of heat abstractor by the first pipeline, and the outlet of heat abstractor connects the water inlet of the radiating part of refrigeration machine by the second pipeline；The outlet of described water tank connects the water inlet end of interior conduit, and the water side of interior conduit connects the water inlet of water tank；

The described subsystem that heats includes electromotor, the 3rd pipeline, the 4th pipeline, CHP boiler and storage storage battery；The generating burner of described electromotor is positioned at CHP boiler, is provided with the first burner and the second burner in CHP boiler, and the first burner, the second burner have been connected respectively gas inlet pipeline；The water inlet of the radiating part of described electromotor connects the water side of interior conduit by the 3rd pipeline, and the outlet of the radiating part of electromotor connects the water inlet of CHP boiler, and the outlet of CHP boiler connects the water inlet end of interior conduit by the 4th pipeline；The electrical energy inputs of described electromotor connects storage storage battery.

In order to increase conduction cooling pipe conduction cooling area in water tank, to accelerate the refrigeration of current in water tank, as improvement, described conduction cooling pipe part helix in water tank is wound around and is arranged at inside water tank.Wherein, as a kind of optimal way realizing the quick conduction cooling of conduction cooling pipe, described conduction cooling pipe is superconducting pipe.

In order to avoid conduction cooling pipe is relatively low and quickly freeze in water tank endogenous cause of ill temperature, affects the normal cold quantity transmission of refrigeration machine, as improvement, a plurality of conduction cooling pipe the conduction cooling pipe assembly formed can be set inside described water tank.

Further, described heat abstractor includes fan and heat radiation fin, and described first pipeline, the second pipeline are wound around the pipeline arranged and connect by heat abstractor internal coiling.

In order to make interior conduit, refrigeration subsystem and the current realization circulation heating between subsystem, meet this control system and realize separate refrigeration or the needs heated, as improvement, it is provided with the water pump of conveying current between water inlet end and the outlet of CHP boiler of the water inlet end of described interior conduit and the outlet of water tank and interior conduit, the 3rd pipeline and the 4th pipeline are provided with stop valve.

Heating subsystem automatically controlling heating effect described in realizing, as improvement, described first burner and/or the second burner are the burner having and automatically adjusting firepower magnitude function.First burner and the second burner all can adjust firepower size or cut-out according to situations such as the water temperatures set automatically, to keep water flow temperature in pipeline constant.

In order to realize the artificial control to this indoor temperature regulation and control system further, as improvement, described indoor temperature regulation and control system still further comprises the first temperature control system connecting refrigeration machine and connects the second temperature control system of electromotor, the first burner, the second burner and storage storage battery respectively.Adjusted the temperature in water tank by the first temperature control system and control the operation of refrigeration machine；Second temperature control system adjusts the firepower of the first burner and the second burner and controls the operation of electromotor.

In order to further speed up the refrigeration of refrigeration subsystem and heat the heating effect of subsystem, as preferably, described refrigeration machine is sterlin refrigerator, and described electromotor is stirling generator.

Further, in order to understand charge condition stored in storage storage battery, as improvement, described indoor temperature regulation and control system also includes the voltameter of electric energy stored by display storage storage battery.

Compared with prior art, the utility model has the advantage of: first, after refrigeration machine starts, the cold at cold head place is reached in water tank by conduction cooling pipe, is freezed by the water in water tank；Cold water in water tank, in interior conduit inlet chamber, completes indoor high temperature and the cold and hot exchange of cold water low temperature in interior conduit, reaches the effect to indoor temperature cooling refrigeration, then the cold water in interior conduit becomes hot water, be back in water tank, hot water again with conduction cooling pipe heat-shift, recycle；In refrigeration machine process of refrigerastion, the hot water that refrigeration machine radiating part produces enters in heat abstractor through the first pipeline lowers the temperature, in heat abstractor, the cold water after cooling is back to its radiating part again, ensure that the normal temperature of refrigeration machine radiating part is so that refrigeration machine normal operation, need not again supplement cold water from system, save water source；Secondly, after first burner and electromotor start, a part of heat that the first burner combustion produces is by the cool water heating in CHP boiler, and in interior conduit inlet chamber, complete indoor low temperature and the cold and hot exchange of hot water high temperature in interior conduit, reach indoor temperature heats the effect heated；Meanwhile, another part heat supply generator generating that fuel gas buring produces, the electric energy that electromotor produces stores at storage storage battery place, meets everyday home electricity consumption needs；Finally, this indoor temperature regulation and control system can realize indoor temperature individually being freezed and heating adjustment, can meet again the comfort level requirement of human body.

Accompanying drawing explanation

Fig. 1 is the structural representation of indoor temperature regulation and control system in this utility model embodiment；

Fig. 2 is the structural representation of refrigeration subsystem in system shown in Figure 1；

Fig. 3 is the structural representation heating subsystem in system shown in Figure 1.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, this utility model is described in further detail.

As it is shown in figure 1, the indoor temperature regulation and control system in the present embodiment, including refrigeration subsystem 1 with heat subsystem 2, refrigeration subsystem 1 is as in figure 2 it is shown, heat subsystem as it is shown on figure 3, wherein:

Refrigeration subsystem 1 includes refrigeration machine 11, cold end adapter 12, conduction cooling pipe 13, water tank 14 and heat abstractor 15, and water tank 14 is in order to store water, to meet the water circulation needs of whole temperature regulating and controlling system；Cold end adapter 12 is set on the cold head 110 of refrigeration machine 11, and cold end adapter 12 is connected with one end of conduction cooling pipe 13, and the other end of conduction cooling pipe 13 connects water tank 14, for instance, this conduction cooling pipe 13 one end connecting water tank 14 enters in water tank 14；Cold end adapter 12 keeps in order to the cold that cold head 110 place is produced, and the cold at cold head 110 place is conducted to the water in water tank 14 through conduction cooling pipe 13, to reach the refrigeration of water in water tank 14, the outlet of the radiating part 111 of refrigeration machine 11 connects the water inlet of heat abstractor 15 by the first pipeline 16, the outlet of heat abstractor 15 connects the water inlet of the radiating part 111 of refrigeration machine 11 by the second pipeline 17, so that refrigeration machine 11 normal operation；The outlet of water tank 14 connects the water inlet end of interior conduit 3, and the water side of interior conduit 3 connects the water inlet of water tank 14.

Heat subsystem 2 and include electromotor the 21, the 3rd pipeline the 22, the 4th pipeline 23, CHP boiler 24 and storage storage battery 25；The generating burner 211 of electromotor 21 is positioned at CHP boiler 24, the first burner 241 and the second burner 242 it is provided with in CHP boiler 24, first burner the 241, second burner 242 has been connected respectively gas inlet pipeline 26, combustion gas inputs through gas inlet pipe 26, and burns at the first burner 241 and the second burner 242 place；The water inlet of the radiating part 210 of electromotor 21 connects the water side of interior conduit 3 by the 3rd pipeline 22, the outlet of the radiating part 210 of electromotor 21 connects the water inlet of CHP boiler 24, and the outlet of CHP boiler 24 connects the water inlet end of interior conduit 3 by the 4th pipeline 23；The electrical energy inputs of electromotor 21 connects storage storage battery 25, storage storage battery 25 store the electric energy produced when electromotor 21 works, to meet daily electricity consumption needs.

In refrigeration subsystem 1, in order to increase the conduction cooling pipe 13 conduction cooling area in water tank 14, to accelerate refrigeration, as improvement, the part helix in water tank 14 of the conduction cooling pipe 13 in the present embodiment is wound around and is arranged at inside water tank 14.Wherein, as a kind of optimal way realizing the quick conduction cooling of conduction cooling pipe 13, this conduction cooling pipe 13 is superconducting pipe.Superconducting pipe can also adopt aluminum matter superconducting pipe assembly.

It addition, in order to avoid conduction cooling pipe is relatively low and quickly freeze in water tank 14 endogenous cause of ill temperature, affect the normal cold quantity transmission of refrigeration machine 11, as improvement, water tank 14 is internal can arrange the conduction cooling pipe assembly formed by a plurality of conduction cooling pipe.Wherein, in the accompanying drawing of the present embodiment, the conduction cooling pipe assembly in water tank 14 is shown specifically.

In order to make radiating part 111 in refrigeration machine 11 keep proper temperature, with and can normal operation, heat abstractor 15 in the present embodiment includes fan 151 and heat radiation fin 152, and first pipeline the 16, second pipeline 17 is wound around the pipeline arranged and connects by heat abstractor 15 internal coiling.

In order to make interior conduit 3, refrigeration subsystem 1 and the current realization circulation heating between subsystem 2, meet this control system and realize separate refrigeration or the needs heated, in the present embodiment, it is provided with the water pump 4 of conveying current between water inlet end and the outlet of CHP boiler 24 of the water inlet end of interior conduit 3 and the outlet of water tank 14 and interior conduit 3, the 3rd pipeline 22 and the 4th pipeline 23 are provided with stop valve 5.When this control system is individually freezed, in water tank 14, the cold water after conduction cooling pipe 13 freezes in inlet chamber, completes the refrigeration to indoor temperature under the transmitting power effect of a water pump 4；It addition, when individually opening heating mode, the hot water produced at CHP boiler 24 place is then under another water pump 4 acts in inlet chamber, with the effect that indoor temperature is heated by realization.

In order to realize heating subsystem 2 automatically controlling heating effect, as improvement, the first burner 241 or the second burner 242 in the present embodiment have the function automatically adjusting firepower size.Certainly, as best implementation, the first burner 241 and the second burner 242 are respectively provided with and automatically adjust firepower magnitude function.Wherein, the second burner 242 plays the supplementary result to the first burner 241 firepower.Firepower at the first burner 241 is not enough so that when in pipeline, water reaches set water temperature, the second burner 242 then starts, adjusts self firepower size, and the first burner 241 is supplemented；When the water temperature in CHP boiler 24 reaches preset temperature, the first burner 241 and the second burner 242 cut off burning, to keep water temperature in pipeline.

In order to realize the artificial control to this indoor temperature regulation and control system, as improvement, the indoor temperature regulation and control system in the present embodiment also includes the first temperature control system 18 of connection refrigeration machine 11 and connects electromotor the 21, first burner the 241, second burner 242 and the second temperature control system 27 of storage storage battery 25 respectively.Adjusted the temperature in water tank 14 by the first temperature control system 18 and control the operation of refrigeration machine 11；Second temperature control system 27 adjusts the firepower of the first burner 241 and the second burner 242 and controls the operation of electromotor 21.Set the temperature of CHP boiler 24 by the second temperature control system 27 after, start the first burner 241 to electromotor 21 heat supply, so that it starts；Another heat energy that first burner 241 produces is then for by the pipeline in CHP boiler 24, completing the heating of water in stove.It addition, this indoor temperature regulation and control system can further include the voltameter 28 of electric energy stored by display storage storage battery 25, to understand the storage electricity situation of storage storage battery 25.

In order to accelerate the refrigeration of refrigeration subsystem 1 and heat the heating of subsystem 2, as preferably, the refrigeration machine 11 in the present embodiment is sterlin refrigerator, and electromotor 21 is stirling generator.It is of course also possible to refrigeration machine 11 adopts sterlin refrigerator, electromotor 21 selects to use other types electromotor, or refrigeration machine 11 adopts other kinds of refrigeration machine, and electromotor 21 adopts stirling generator.

Below in conjunction with Fig. 1 to Fig. 3, the working condition of indoor temperature regulation and control system in the present embodiment is explained:

(1) separate refrigeration process

After starting refrigeration machine 11, the cold that cold head 110 place produces keeps through cold end adapter 12, and the cold at cold head 110 place is conducted to the water tank 14 being filled with water by conduction cooling pipe 13, to be freezed by the water in water tank 14；Under the power conveying effect of water pump 4, the cold water in water tank 14, in interior conduit 3 inlet chamber, completes indoor high temperature and the cold and hot exchange of cold water low temperature in interior conduit 3, reaches the effect to indoor temperature cooling refrigeration；

Refrigeration machine 11 starts in refrigeration work process, the hot water that its radiating part 111 produces enters in heat abstractor 15 through the first pipeline 16 lowers the temperature, in heat abstractor 15, the cold water after cooling is re-introduced in refrigeration machine 11 water inlet of radiating part 111, ensure the normal temperature of refrigeration machine radiating part 111, so that refrigeration machine 11 normal operation, need not again supplement cold water from system, save water source；

(2) independent heating operations

After first burner 241 and electromotor 21 start, combustion gas is after gas inlet pipe 26 enters, and the first burner 241 burns, and by the second burner 242, the firepower situation of the first burner 241 is supplemented；A part of heat that fuel gas buring produces is by the cool water heating in CHP boiler 24, current after heating enter into indoor through interior conduit 3 under water pump 4 acts on, complete indoor low temperature and the cold and hot exchange of hot water high temperature in interior conduit 3, reach indoor temperature heats the effect heated；

Another part heat then supply generator 21 that fuel gas buring produces generates electricity, and the electric energy that electromotor 21 produces stores at storage storage battery 25 place, meets everyday home electricity consumption needs.

Claims (10)

1. indoor temperature regulation and control system, it is characterized in that, including refrigeration subsystem (1) with heat subsystem (2), described refrigeration subsystem (1) includes refrigeration machine (11), cold end adapter (12), conduction cooling pipe (13), water tank (14) and heat abstractor (15), cold end adapter (12) is set on the cold head (110) of refrigeration machine (11), cold end adapter (12) is connected with one end of conduction cooling pipe (13), and the other end of conduction cooling pipe (13) connects water tank (14)；The outlet of the radiating part (111) of described refrigeration machine (11) connects the water inlet of heat abstractor (15) by the first pipeline (16), and the outlet of heat abstractor (15) connects the water inlet of the radiating part (111) of refrigeration machine (11) by the second pipeline (17)；The outlet of described water tank (14) connects the water inlet end of interior conduit (3), and the water side of interior conduit (3) connects the water inlet of water tank (14)；

The described subsystem (2) that heats includes electromotor (21), the 3rd pipeline (22), the 4th pipeline (23), CHP boiler (24) and storage storage battery (25)；The generating burner (211) of described electromotor (21) is positioned at CHP boiler (24), being provided with the first burner (241) and the second burner (242) in CHP boiler (24), the first burner (241), the second burner (242) have been connected respectively gas inlet pipeline (26)；Radiating part (210) water inlet of described electromotor (21) connects the water side of interior conduit (3) by the 3rd pipeline (22), the outlet of the radiating part (210) of electromotor (21) connects the water inlet of CHP boiler (24), and the outlet of CHP boiler (24) connects the water inlet end of interior conduit (3) by the 4th pipeline (23)；The electrical energy inputs of described electromotor (21) connects storage storage battery (25).

2. indoor temperature regulation and control system according to claim 1, it is characterised in that the described conduction cooling pipe (13) part helix in water tank (14) is wound around and is arranged at water tank (14) inside.

3. indoor temperature regulation and control system according to claim 2, it is characterised in that described conduction cooling pipe (13) is superconducting pipe.

4. indoor temperature regulation and control system according to claim 1, it is characterized in that, described heat abstractor (15) includes fan (151) and heat radiation fin (152), and described first pipeline (16), the second pipeline (17) are wound around the pipeline arranged and connect by heat abstractor (15) internal coiling.

5. indoor temperature regulation and control system according to claim 1, it is characterized in that, between water inlet end and the outlet of CHP boiler (24) of the water inlet end of described interior conduit (3) and the outlet of water tank (14) and interior conduit (3), be provided with the water pump (4) of conveying current.

6. indoor temperature regulation and control system according to claim 1, it is characterised in that described first burner (241) and/or the second burner (242) are the burner having and automatically adjusting firepower magnitude function.

7. indoor temperature regulation and control system according to claim 1, it is characterized in that, also include the first temperature control system (18) connecting refrigeration machine (11) and the second temperature control system (27) connecting electromotor (21), the first burner (241), the second burner (242) and storage storage battery (25) respectively.

8. indoor temperature regulation and control system according to any one of claim 1 to 7, it is characterised in that described refrigeration machine (11) is sterlin refrigerator, described electromotor (21) is stirling generator.

9. indoor temperature regulation and control system according to any one of claim 1 to 7, it is characterised in that also include the voltameter (28) of electric energy stored by display storage storage battery (25).

10. indoor temperature regulation and control system according to any one of claim 1 to 7, it is characterised in that described water tank (14) is internal arranges the conduction cooling pipe assembly formed by a plurality of conduction cooling pipe.