CN203642304U - Automatic super conductor temperature control heat supplying and energy saving system - Google Patents

Abstract

The utility model relates to a heat supplying and energy saving system, in particular to an automatic super conductor temperature control heat supplying and energy saving system. The automatic super conductor temperature control heat supplying and energy saving system comprises a water inlet pipeline, an indoor pipeline and a water return pipeline, wherein an electric ball valve, a filter and a heat meter are installed on the water inlet pipeline in sequence; a temperature controller and an indoor radiating device are installed on the indoor pipeline; the temperature controller controls the electric ball valve and the heat meter; a first switch valve is installed on the water inlet pipeline; a temperature control ball valve and a second switch valve are installed on the water return pipeline in sequence; the temperature control ball valve is connected with the heat meter. The automatic super conductor temperature control heat supplying and energy saving system is characterized in that the indoor radiating device is a super conductor floor heating radiating device. By the adoption of the structure, the automatic super conductor temperature control heat supplying and energy saving system has the advantages of being novel in structure, capable of saving energy, controllable in temperature, high in safety performance and the like.

Description

Super conductor temperature control automation heating energy-saving system

Technical field

The utility model relates to heating energy-saving system, specifically a kind of super conductor temperature control automation heating energy-saving system.

Background technology

At present, in existing heating equipment, conventionally all collective's heating, the heating of so-called collective is normally installed into water lines at subscriber unit, interior conduit and water return pipeline, electrical ball valve is installed on inlet pipeline, filter and heat energy meter, temperature controller and indoor radiating device are installed on interior conduit, the employing grounding heat coil tube that described heat abstractor has, some employing radiators, the deficiency of this structure: the one, if adopt radiator, it is normally connected on heat pipe and is combined by multiple monomer steam heating pipes, the number of combinations of monomer whose steam heating pipe is depending on heating area, what have is panel radiator, what also have adds the structure of radiating fin for water pipe, by the circulation of hot water, heat is dispersed in atmosphere through heat pipe, cause heat-transfer rate slow, radiating efficiency is low, energy resource consumption is large, if employing grounding heat coil tube, in the long-time process that adopts floor heating pipe heating, also need often floor heating pipe to be cleaned, causing to prevent from stopping up that overpressure is excessive causes explosion, cause the unnecessary losses such as the household jewelry in hot-water soak room, and, it is also that heat-transfer rate is slow that this structure utilizes water circulation to adopt hot deficiency, energy resource consumption is large, the 2nd, because collective's heating consumes a large amount of coal resources, can not utilize effective natural resources to carry out energy-conservation, the 3rd, when indoor need to use hot water time, existing subscriber unit all utilizes hot-blast stove conventionally, hot-blast stove has hot-blast stove, hot-blast stove, gas burner, electric furnace heat supply, or the direct employing solar energy hot-water supply having, its deficiency is: in the time utilizing the washing bath of solar energy winter, because temperature does not reach, can only use separately hot-blast stove, hot-blast stove has hot-blast stove, hot-blast stove, gas burner, electric furnace is by hot water heating, and waste the partial heat energy that sun the subject of knowledge and the object of knowledge has, make the energy can not mutually supplement utilization.

Summary of the invention

The purpose of this utility model is to solve above-mentioned the deficiencies in the prior art, the super conductor temperature control automation heating energy-saving system of provide a kind of novel structure, save the energy, temperature is controlled, security performance is high.

The utility model solves the technical scheme that its technical problem adopts:

A kind of super conductor temperature control automation heating energy-saving system, comprise inlet pipeline, interior conduit and water return pipeline, electrical ball valve is installed on inlet pipeline successively, filter and heat energy meter, temperature controller and indoor radiating device are installed on interior conduit, described temperature controller is controlled respectively electrical ball valve and heat energy meter, the first switch valve is installed on described inlet pipeline, on water return pipeline, be provided with successively temperature control ball valve and second switch valve, temperature control ball valve is connected with heat energy meter, it is characterized in that described indoor radiating device adopts super conductor ground-heating radiation device, described super conductor ground-heating radiation device carries heat energy pipe to form by hot water tube connector and energy-conservation super conduction, described hot water tube connector is connected with interior conduit, hot water tube connector sidewall is laid with plural connecting through hole vertically, described energy-conservation super conduction carries heat energy pipe one end insert in connecting through hole and be tightly connected with hot water tube connector, energy-conservation super conduction carries heat energy pipe two ends to be tightly connected through plug, in the annular seal space of energy-conservation super conduction conveying heat energy pipe, be provided with gas superconductive medium and charge valve.

The utility model can also be reached by following measure:

A kind of super conductor temperature control automation heating energy-saving system, comprise inlet pipeline, interior conduit and water return pipeline, electrical ball valve is installed on inlet pipeline successively, filter and heat energy meter, temperature controller and indoor radiating device are installed on interior conduit, described temperature controller is controlled respectively electrical ball valve and heat energy meter, the first switch valve is installed on described inlet pipeline, on water return pipeline, be provided with successively temperature control ball valve and second switch valve, temperature control ball valve is connected with heat energy meter, it is characterized in that described indoor radiating device adopts super conductor heat abstractor, described super conductor heat abstractor is hot water tube connector, heat energy pipe and medium transport pipe are carried in energy-conservation super conduction, described medium transport pipe two ends are tightly connected respectively, in the annular seal space of medium transport pipe one end, be provided with charge valve, medium transport pipe sidewall vertically linear array has plural connecting through hole, energy-conservation super conduction carries heat energy pipe one end to be communicated with the medium transport seal of tube through connecting through hole, the other end and heating tube cross sidewalls are tightly connected, in the annular seal space that described energy-conservation super conduction carries heat energy pipe and medium transport pipe to be connected, be provided with air heat superconductive medium.

The utility model can be parallel with solar energy heat collecting module between described inlet pipeline and water return pipeline, described solar energy heat collecting module water inlet pipe is connected with water return pipeline, outlet pipe is connected with inlet pipeline with interior conduit through triple valve, described solar energy heat collecting module water inlet pipe is provided with the 3rd switch valve, outlet pipe is provided with the 4th switch valve, be beneficial to the water temperature while being greater than the water temperature in inlet pipeline when solar heat-collection module on daytime, can close the first switch valve and second switch valve, open the 3rd switch valve and the 4th switch valve, interior conduit is connected with water inlet pipe and the return pipe of solar energy heat collecting module, in the time that the water temperature in night inlet pipeline is greater than the water temperature in solar energy heat collecting module, can close the 3rd switch valve and the 4th switch valve, and open the first switch valve and second switch valve, utilize the heat energy heat supply of heat supply company, greatly save the heat energy of heat supply company.

The utility model also can be parallel with water heater between described inlet pipeline and water return pipeline, the water inlet pipe of described heater inleting pipe and solar energy heat collecting module is connected with the outlet pipe of water return pipeline and interior conduit through four-way respectively, the outlet pipe of water heater outlet and solar energy heat collecting module is connected with interior conduit through three-way pipe respectively, the water inlet pipe of described water heater is provided with the 5th switch valve, outlet pipe is provided with the 6th switch valve, when in the time that central heating stops, and indoor while also needing heat supply, can utilize the solar energy heat collecting module on daytime to carry out heat supply to interior conduit, close solar energy night, utilize water heater to carry out heat supply to interior conduit, reach the effect that not only can heat but also can heat supply.

The utility model can be provided with the first circulating pump on the water inlet pipe of solar energy heat collecting module, is beneficial to improve the circulation rate of hot water in interior conduit and solar energy heat collecting module, reaches intensification and acts on efficiently.

The utility model also can be provided with the second circulating pump on the water inlet pipe of water heater, is beneficial to improve the circulation rate of hot water in interior conduit and solar energy heat collecting module, reaches intensification and acts on efficiently.

The utility model also can be provided with temperature difference compensation device on the water inlet pipe of solar energy heat collecting module, the water inlet pipe of water heater is provided with into water electrical ball valve, return pipe is provided with water outlet electrical ball valve, temperature difference compensation device one connects wire and is connected with water inlet electrical ball valve, another connects wire and is connected with backwater electrical ball valve, water inlet electrical ball valve is connected with temperature controller respectively with backwater electrical ball valve, when temperature that the heat producing when solar energy heat collecting module is set higher than room, open the 3rd switch valve on solar energy heat collecting module and the 4th switch valve to room heat supply, close the 5th switch valve and the 6th switch valve on water heater simultaneously, make to form between solar energy heat collecting module and interior conduit an independently water circulation system, when the water temperature in solar energy heat collecting module lower than set temperature time, temperature difference compensation device starts water inlet electrical ball valve and the backwater electrical ball valve on water heater, making water heater is interior conduit heat supply, to guarantee indoor temperature.

The utility model also can be parallel with pressure relief pipe between inlet pipeline and water return pipeline, is beneficial to guarantee the pressure balance of heating pipeline, reaches the effect that security performance is high.

The utility model can the energy-conservation super conduction in described energy-conservation super conductor ground-heating radiation device carry heat energy pipe bottom to be provided with heat-conducting plate, on described heat-conducting plate, corresponding energy-conservation super conduction carries heat energy pipe to be provided with detent, energy-conservation super conduction carries heat energy pipe to be connected with heat-conducting plate through detent, the cross section of described detent can be square, can be curved, also can be V-shaped, the material of heat-conducting plate adopts heat conductivility high, corrosion resistant material is made, described heat-conducting plate preferably adopts aluminium sheet to make, be beneficial to fast whole indoor temperature increase be arrived to required temperature.

Hot water tube connector sidewall in energy-conservation super conductor ground-heating radiation device described in the utility model is provided with more than one sealing shroud, the corresponding sealing shroud of hot water tube connector inwall is provided with inverted draw cut, inverted draw cut and sealing shroud are on same center line, be beneficial to the super conduction of positioning energy-saving and carry heat energy pipe, described sealing shroud is connected with hot water tube connector, on sealing shroud, be fixed with locating ring, sealing shroud outer wall is provided with thread segment, silica gel sealing ring is threaded with sealing shroud, be beneficial to the fixing energy-conservation super conduction of sealing and carry heat energy pipe, prevent from leaking or seeping water, described energy-conservation super conduction carries heat energy pipe one end to penetrate sealing shroud and hot water tube connector inner chamber, inverted draw cut in top and hot water tube connector is inconsistent, and after silica gel sealing ring and clamp nut are threaded with sealing shroud, silica gel sealing ring one end and locating ring are inconsistent, the other end and clamp nut are inconsistent to be tightly connected, so that the hot water temperature who flows in hot water tube connector passes to energy-conservation super conduction conveying heat energy pipe fast, energy-conservation super conduction carries the gas superconductive medium in heat energy pipe fast the temperature conduction of hot water to whole energy-conservation super conduction to be carried to heat energy pipe under the effect of temperature, realize the super conduction heating that liquid medium and gas medium combine, greatly reduce energy resource consumption, reach energy-conserving and environment-protective, the effect that heat transfer efficiency is high.

Charge valve described in the utility model is by sealing-plug, push rod, piston, tensioning spring, top cover, lead and Sealing shield ring composition, described sealing-plug is cylindrical, sealing-plug center is provided with screwed hole from inside to outside successively, plunger shaft and push rod perforation, described screwed hole, plunger shaft and push rod perforation are connected, screwed hole internal thread is connected with top cover, in plunger shaft, be provided with piston, piston one end is fixedly connected with the push rod inserting in push rod perforation, the other end is fixedly connected with the lead that inserts top cover centre bore, tensioning spring is enclosed within on lead, tensioning spring one end and top cover are inconsistent, the other end and piston are inconsistent, described piston seals and contacts mutually with sealing-plug inwall through Sealing shield ring under the effect of tensioning spring, described top cover end face circumference is provided with air inlet through hole, air inlet through hole axially arranges, in the time will carrying in heat energy pipe injecting gas superconductive medium to energy-conservation super conduction, by the inside propulsion arm of external force, the piston reach of push rod front end compresses tensioning spring, gas superconductive medium is bored a hole through push rod, plunger shaft, air inlet through hole on thread cavity and lead enters energy-conservation super conduction and carries in heat energy pipe, inject complete, unclamp push rod, push rod promotes piston automatic homing under the effect of tensioning spring, piston and Sealing shield ring are sealed gas medium, reach easy to operate effect.

Plug described in the utility model is that the tensioning plate of being crowded around by baffle plate and baffle plate periphery fixes and forms, and described energy-conservation super conduction carries the openend of plug at heat energy pipe two ends respectively towards outer end, to reach the effect of tight seal.

Water heater described in the utility model can adopt burnt gas wall hanging furnace, also can adopt electric boiler.

The utility model is owing to adopting said structure, has novel structure, saves that the energy, temperature are controlled, security performance advantages of higher.

accompanying drawing explanation

Fig. 1 is the structural representation of the utility model the first embodiment.

Fig. 2 is the structural representation of the utility model the second embodiment.

Fig. 3 is the structural representation of super conductor ground-heating radiation device in Fig. 1.

Fig. 4 is the structural representation of super conductor heat abstractor in Fig. 2.

Fig. 5 is the structural representation of the hot water tube connector in Fig. 1.

Fig. 6 is the structural representation that heat energy pipe is carried in the energy-conservation super conduction in Fig. 1.

Reference numeral: inlet pipeline 1, interior conduit 2, water return pipeline 3, electrical ball valve 4, filter 5, heat energy meter 6, temperature controller 14, temperature control ball valve 8, second switch valve 9, hot water tube connector 10, heat energy pipe 11 is carried in energy-conservation super conduction, plug 12, charge valve 13, temperature controller 14, heat-conducting plate 15, detent 16, sealing shroud 17, inverted draw cut 18, locating ring 19, silica gel sealing ring 20, clamp nut 21, sealing-plug 22, push rod 23, piston 24, tensioning spring 25, top cover 26, lead 27, Sealing shield ring 28, air inlet through hole 29, solar energy heat collecting module 32, the 3rd switch valve 33, the 4th switch valve 34, water heater 35, four-way 36, the 5th switch valve 37, the 6th switch valve 38, the first circulating pump 39, the second circulating pump 40, temperature difference compensation device 41, water heater 35, water inlet electrical ball valve 43, pressure relief pipe 44, medium transport pipe 45, indoor radiating device 46.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is further illustrated:

Embodiment 1: as shown in drawings, a kind of super conductor temperature control automation heating energy-saving system, comprise inlet pipeline 1, interior conduit 2 and water return pipeline 3, electrical ball valve 4 is installed on inlet pipeline 1 successively, filter 5 and heat energy meter 6, temperature controller 14 and indoor radiating device 46 are installed on interior conduit 2, described temperature controller 14 is controlled respectively electrical ball valve 4 and heat energy meter 6, the first switch valve 7 is installed on described inlet pipeline 1, on water return pipeline 3, be provided with successively temperature control ball valve 8 and second switch valve 9, temperature control ball valve 8 is connected with heat energy meter 6, it is characterized in that described indoor radiating device 46 adopts super conductor ground-heating radiation device, described super conductor ground-heating radiation device is by hot water tube connector 10, energy-conservation super conduction carries heat energy pipe 11 to form, described hot water tube connector is connected with interior conduit 2, hot water tube connector 10 sidewalls are laid with plural connecting through hole vertically, described energy-conservation super conduction carries heat energy pipe 11 1 ends insert in connecting through hole and be tightly connected with hot water tube connector 10, energy-conservation super conduction carries heat energy pipe 11 two ends to be tightly connected through plug 12, in the annular seal space of energy-conservation super conduction conveying heat energy pipe 11, be provided with gas superconductive medium and charge valve 13, the utility model can the energy-conservation super conduction in the super conductor ground-heating radiation of described joint device carry heat energy pipe bottom to be provided with heat-conducting plate, on described heat-conducting plate, corresponding energy-conservation super conduction carries heat energy pipe to be provided with detent, energy-conservation super conduction carries heat energy pipe to be connected with heat-conducting plate through detent, the cross section of described detent can be square, can be curved, also can be V-shaped, the material of heat-conducting plate adopts heat conductivility high, corrosion resistant material is made, heat-conducting plate described in the utility model preferably adopts aluminium sheet to make, be beneficial to fast whole indoor temperature increase be arrived to required temperature, described hot water tube connector 14 sidewalls are provided with more than one sealing shroud 17, the corresponding sealing shroud of hot water tube connector 14 inwalls is provided with inverted draw cut 18, inverted draw cut 18 and sealing shroud 17 are on same center line, be beneficial to the super conduction of positioning energy-saving and carry heat energy pipe, described sealing shroud 17 is connected with hot water tube connector 14, on sealing shroud 17, be fixed with locating ring 19, sealing shroud 17 outer walls are provided with thread segment, silica gel sealing ring 20 is threaded with sealing shroud 17, be beneficial to the fixing energy-conservation super conduction of sealing and carry heat energy pipe 11, prevent from leaking or seeping water, described energy-conservation super conduction carries heat energy pipe 11 one end to penetrate sealing shroud 20 and hot water tube connector 14 inner chambers, inverted draw cut 18 in top and hot water tube connector 14 is inconsistent, and after silica gel sealing ring 20 and clamp nut 21 are threaded with sealing shroud 17, silica gel sealing ring 20 one end and locating ring 19 are inconsistent, the other end and clamp nut 21 is inconsistent is tightly connected, so that the hot water temperature who flows in hot water tube connector passes to energy-conservation super conduction conveying heat energy pipe 11 fast, energy-conservation super conduction carries the gas superconductive medium in heat energy pipe 11 fast the temperature conduction of hot water to whole energy-conservation super conduction to be carried to heat energy pipe 11 under the effect of temperature, realize the super conduction heating that liquid medium and gas medium combine, greatly reduce energy resource consumption, reach energy-conserving and environment-protective, the effect that heat transfer efficiency is high, described charge valve 13 is by sealing-plug 22, push rod 23, piston 24, tensioning spring 25, top cover 26, lead 27 and Sealing shield ring 28 form, described sealing-plug 22 is cylindrical, sealing-plug 22 centers are provided with screwed hole from inside to outside successively, plunger shaft and push rod perforation, described screwed hole, plunger shaft and push rod perforation are connected, screwed hole internal thread is connected with top cover 26, in plunger shaft, be provided with piston 24, piston 24 one end are fixedly connected with the push rod 23 inserting in push rod perforation, the other end is fixedly connected with the lead 27 that inserts top cover centre bore, tensioning spring 25 is enclosed within on lead 27, tensioning spring 25 one end and top cover 26 are inconsistent, the other end and piston 24 are inconsistent, described piston 24 seals and contacts mutually with sealing-plug 22 inwalls through Sealing shield ring 28 under the effect of tensioning spring 25, described top cover 26 end face circumference are provided with air inlet through hole 29, air inlet through hole 29 axially arranges, in the time will carrying heat energy pipe 11 interior injecting gas superconductive medium to energy-conservation super conduction, by the inside propulsion arm 23 of external force, piston 24 reaches of push rod 23 front ends compress tensioning spring 25, gas superconductive medium is bored a hole through push rod, plunger shaft, air inlet through hole on thread cavity and lead 27 enters energy-conservation super conduction and carries in heat energy pipe 11, inject complete, unclamp push rod, push rod promotes piston 24 automatic homings under the effect of tensioning spring 25, piston 24 and Sealing shield ring 28 are sealed gas medium, reach easy to operate effect, described plug 12 is that the tensioning plate 31 of being crowded around by baffle plate 30 and baffle plate 30 peripheries fixes and forms, the openend of the plug 12 at described energy-conservation super conduction conveying heat energy pipe 11 two ends is respectively towards outer end, to reach the effect of tight seal, the utility model can be parallel with solar energy heat collecting module 32 between described inlet pipeline 1 and water return pipeline 3, described solar energy heat collecting module 32 water inlet pipes are connected with water return pipeline 3 through triple valve, outlet pipe is connected with inlet pipeline 1 with interior conduit 2 through triple valve, described solar energy heat collecting module 32 water inlet pipes are provided with the 3rd switch valve 33, outlet pipe is provided with the 4th switch valve 34, be beneficial in the time that daytime, solar heat-collection module 32 water temperature was greater than the water temperature in inlet pipeline 1, can close the first switch valve 7 and second switch valve 9, open the 3rd switch valve 33 and the 4th switch valve 34, 2 of interior conduits are connected with water inlet pipe and the return pipe of solar energy heat collecting module 32, in the time that the water temperature in night inlet pipeline 1 is greater than the water temperature in solar energy heat collecting module 32, can close the 3rd switch valve 33 and the 4th switch valve 34, and open the first switch valve 7 and second switch valve 9, utilize the heat energy heat supply of heat supply company, greatly save the heat energy of heat supply company, the utility model also can be parallel with water heater 35 between described inlet pipeline 1 and water return pipeline 3, the water inlet pipe of described water heater 35 water inlet pipes and solar energy heat collecting module 32 is connected with the outlet pipe of interior conduit 2 with water return pipeline 3 through four-way 36 respectively, the outlet pipe of water heater 35 outlet pipes and solar energy heat collecting module 32 is connected with interior conduit 2 through three-way pipe respectively, the water inlet pipe of described water heater 35 is provided with the 5th switch valve 37, outlet pipe is provided with the 6th switch valve 38, when in the time that central heating stops, and indoor while also needing heat supply, can utilize the solar energy heat collecting module 32 on daytime to carry out heat supply to interior conduit 2, close solar energy heat collecting module 32 night, utilize water heater 35 to carry out heat supply to interior conduit 2, reach the effect that not only can heat but also can heat supply, the utility model can be provided with the first circulating pump 39 on the water inlet pipe of solar energy heat collecting module 32, be beneficial to improve the circulation rate of interior conduit 2 and solar energy heat collecting module 32 interior hot water, reaching intensification acts on efficiently, the utility model also can be provided with the second circulating pump 40 on the water inlet pipe of water heater 35, be beneficial to improve the circulation rate of interior conduit 2 and solar energy heat collecting module 32 interior hot water, reaching intensification acts on efficiently, the utility model also can be provided with temperature difference compensation device 41 on the water inlet pipe of solar energy heat collecting module 32, the water inlet pipe of water heater 35 is provided with into water electrical ball valve 42, return pipe is provided with water outlet electrical ball valve 43, temperature difference compensation device 41 1 connects wire and is connected with water inlet electrical ball valve 42, another connects wire and is connected with backwater electrical ball valve 43, water inlet electrical ball valve 42 is connected with temperature controller 14 respectively with backwater electrical ball valve 43, when temperature that the heat producing when solar energy heat collecting module 32 is set higher than room, open the 3rd switch valve 33 on solar energy heat collecting module 32 and the 4th switch valve 34 to room heat supply, close the 5th switch valve 37 and the 6th switch valve 38 on water heater 35 simultaneously, make between solar energy heat collecting module 32 and interior conduit 2 to form an independently water circulation system, when the water temperature in solar energy heat collecting module 32 lower than set temperature time, 41 water inlet electrical ball valve 42 and backwater electrical ball valves 43 that start on water heater 35 of temperature difference compensation device, make water heater 41 for interior conduit 2 heat supplies, to guarantee indoor temperature, the utility model also can be parallel with pressure relief pipe 44 between inlet pipeline 1 and water return pipeline 3, be beneficial to guarantee the pressure balance of heating pipeline, reach the effect that security performance is high, the utility model in use, the heat that described solar energy heat collecting module 32 produces passes through temperature difference compensation device through outlet pipe, the first circulating pump, threeway, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, get back to solar energy heat collecting module through water inlet pipe, give room heat supply, because indoor ground-heating adopts super conduction ground heating pipe, utilize little hot water can allow indoor temperature obtain fast lifting within the extremely short time, greatly save the energy, in the time that the heat in solar energy heat collecting module does not reach needed temperature, temperature difference compensation device cuts out, make solar energy heat collecting module stop heat supply, simultaneously, temperature difference compensation device starts water inlet electrical ball valve and the backwater electrical ball valve on burnt gas wall hanging furnace or electric boiler, be interior conduit heat supply by water heater, the heat that heating produces is by the second circulating pump, threeway, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, get back to solar energy heat collecting module, give room heat supply or supply hot water for life, control system is according to the start and stop of coolant-temperature gage control the second circulating pump of setting, in the time that water reaches capping water temperature, the second circulating pump starts, during lower than setting lower limit water temperature, the second circulating pump stops.At night, can open the first switch valve and second switch valve, collective heats through inlet pipeline, and the threeway in interior conduit, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, four-way, get back to thermoelectricity heat plant boiler through water return pipeline.The utility model is owing to adopting said structure, has novel structure, saves that the energy, temperature are controlled, security performance advantages of higher.

Embodiment 2: as shown in Figure 2, a kind of super conductor temperature control automation heating energy-saving system, comprise inlet pipeline 1, interior conduit 2 and water return pipeline 3, electrical ball valve 4 is installed on inlet pipeline 1 successively, filter 5 and heat energy meter 6, temperature controller 14 and indoor radiating device are installed on interior conduit 2, described temperature controller 14 is controlled respectively electrical ball valve 4 and heat energy meter 6, the first switch valve 7 is installed on described inlet pipeline 1, on water return pipeline 3, be provided with successively temperature control ball valve 8 and second switch valve 9, temperature control ball valve 8 is connected with heat energy meter 6, it is characterized in that described indoor radiating device adopts super conductor heat abstractor, described super conductor heat abstractor is hot water tube connector 10, heat energy pipe 11 and medium transport pipe 45 are carried in energy-conservation super conduction, described medium transport pipe 45 two ends are tightly connected respectively, in the annular seal space of medium transport pipe 45 one end, be provided with charge valve 13, medium transport pipe 45 sidewalls vertically linear array have plural connecting through hole, energy-conservation super conduction carries heat energy pipe 11 one end to be communicated with 45 sealings of medium transport pipe through connecting through hole, the other end and hot water tube connector 10 cross sidewalls are tightly connected, in the annular seal space that described energy-conservation super conduction carries heat energy pipe 11 and medium transport pipe 45 to be connected, be provided with air heat superconductive medium, energy-conservation super conduction carries heat energy pipe bottom to be provided with heat-conducting plate, on described heat-conducting plate 15, corresponding energy-conservation super conduction carries heat energy pipe 11 to be provided with detent 16, energy-conservation super conduction carries heat energy pipe to be connected with heat-conducting plate through detent, the cross section of described detent can be square, can be curved, also can be V-shaped, the material of heat-conducting plate adopts heat conductivility high, corrosion resistant material is made, described heat-conducting plate preferably adopts aluminium sheet to make, be beneficial to fast whole indoor temperature increase be arrived to required temperature, described charge valve 13 is by sealing-plug 22, push rod 23, piston 24, tensioning spring 25, top cover 26, lead 27 and Sealing shield ring 28 form, described sealing-plug 22 is cylindrical, sealing-plug 22 centers are provided with screwed hole from inside to outside successively, plunger shaft and push rod perforation, described screwed hole, plunger shaft and push rod perforation are connected, screwed hole internal thread is connected with top cover 26, in plunger shaft, be provided with piston 24, piston 24 one end are fixedly connected with the push rod 23 inserting in push rod perforation, the other end is fixedly connected with the lead 27 that inserts top cover centre bore, tensioning spring 25 is enclosed within on lead 27, tensioning spring 25 one end and top cover 26 are inconsistent, the other end and piston 24 are inconsistent, described piston 24 seals and contacts mutually with sealing-plug 22 inwalls through Sealing shield ring 28 under the effect of tensioning spring 25, described top cover 26 end face circumference are provided with air inlet through hole 29, air inlet through hole 29 axially arranges, in the time will carrying heat energy pipe 11 interior injecting gas superconductive medium to energy-conservation super conduction, by the inside propulsion arm 23 of external force, piston 24 reaches of push rod 23 front ends compress tensioning spring 25, gas superconductive medium is bored a hole through push rod, plunger shaft, air inlet through hole on thread cavity and lead 27 enters energy-conservation super conduction and carries in heat energy pipe 11, inject complete, unclamp push rod, push rod promotes piston 24 automatic homings under the effect of tensioning spring 25, piston 24 and Sealing shield ring 28 are sealed gas medium, reach easy to operate effect, the utility model can be parallel with solar energy heat collecting module 32 between described inlet pipeline 1 and water return pipeline 3, described solar energy heat collecting module 32 water inlet pipes are connected with water return pipeline 3 through triple valve, outlet pipe is connected with inlet pipeline 1 with interior conduit 2 through triple valve, described solar energy heat collecting module 32 water inlet pipes are provided with the 3rd switch valve 33, outlet pipe is provided with the 4th switch valve 34, be beneficial in the time that daytime, solar heat-collection module 32 water temperature was greater than the water temperature in inlet pipeline 1, can close the first switch valve 7 and second switch valve 9, open the 3rd switch valve 33 and the 4th switch valve 34, 2 of interior conduits are connected with water inlet pipe and the return pipe of solar energy heat collecting module 32, in the time that the water temperature in night inlet pipeline 1 is greater than the water temperature in solar energy heat collecting module 32, can close the 3rd switch valve 33 and the 4th switch valve 34, and open the first switch valve 7 and second switch valve 9, utilize the heat energy heat supply of heat supply company, greatly save the heat energy of heat supply company, the utility model also can be parallel with water heater 35 between described inlet pipeline 1 and water return pipeline 3, the water inlet pipe of described water heater 35 water inlet pipes and solar energy heat collecting module 32 is connected with the outlet pipe of interior conduit 2 with water return pipeline 3 through four-way 36 respectively, the outlet pipe of water heater 35 outlet pipes and solar energy heat collecting module 32 is connected with interior conduit 2 through three-way pipe respectively, the water inlet pipe of described water heater 35 is provided with the 5th switch valve 37, outlet pipe is provided with the 6th switch valve 38, when in the time that central heating stops, and indoor while also needing heat supply, can utilize the solar energy heat collecting module 32 on daytime to carry out heat supply to interior conduit 2, close solar energy heat collecting module 32 night, utilize water heater 35 to carry out heat supply to interior conduit 2, reach the effect that not only can heat but also can heat supply, the utility model can be provided with the first circulating pump 39 on the water inlet pipe of solar energy heat collecting module 32, be beneficial to improve the circulation rate of interior conduit 2 and solar energy heat collecting module 32 interior hot water, reaching intensification acts on efficiently, the utility model also can be provided with the second circulating pump 40 on the water inlet pipe of water heater 35, be beneficial to improve the circulation rate of interior conduit 2 and solar energy heat collecting module 32 interior hot water, reaching intensification acts on efficiently, the utility model also can be provided with temperature difference compensation device 41 on the water inlet pipe of solar energy heat collecting module 32, the water inlet pipe of water heater 35 is provided with into water electrical ball valve 42, return pipe is provided with water outlet electrical ball valve 43, temperature difference compensation device 41 1 connects wire and is connected with water inlet electrical ball valve 42, another connects wire and is connected with backwater electrical ball valve 43, water inlet electrical ball valve 42 is connected with temperature controller 14 respectively with backwater electrical ball valve 43, when temperature that the heat producing when solar energy heat collecting module 32 is set higher than room, open the 3rd switch valve 33 on solar energy heat collecting module 32 and the 4th switch valve 34 to room heat supply, close the 5th switch valve 37 and the 6th switch valve 38 on water heater 35 simultaneously, make between solar energy heat collecting module 32 and interior conduit 2 to form an independently water circulation system, when the water temperature in solar energy heat collecting module 32 lower than set temperature time, 41 water inlet electrical ball valve 42 and backwater electrical ball valves 43 that start on water heater 35 of temperature difference compensation device, make water heater 41 for interior conduit 2 heat supplies, to guarantee indoor temperature, the utility model also can be parallel with pressure relief pipe 44 between inlet pipeline 1 and water return pipeline 3, be beneficial to guarantee the pressure balance of heating pipeline, reach the effect that security performance is high, the utility model in use, the heat that described solar energy heat collecting module 32 produces passes through temperature difference compensation device through outlet pipe, the first circulating pump, threeway, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, get back to solar energy heat collecting module through water inlet pipe, give room heat supply, because indoor ground-heating adopts super conduction ground heating pipe, utilize little hot water can allow indoor temperature obtain fast lifting within the extremely short time, greatly save the energy, in the time that the heat in solar energy heat collecting module does not reach needed temperature, temperature difference compensation device cuts out, make solar energy heat collecting module stop heat supply, simultaneously, temperature difference compensation device starts water inlet electrical ball valve and the backwater electrical ball valve on burnt gas wall hanging furnace or electric boiler, be interior conduit heat supply by water heater, the heat that heating produces is by the second circulating pump, threeway, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, get back to solar energy heat collecting module, give room heat supply or supply hot water for life, control system is according to the start and stop of coolant-temperature gage control the second circulating pump of setting, in the time that water reaches capping water temperature, the second circulating pump starts, during lower than setting lower limit water temperature, the second circulating pump stops.At night, can open the first switch valve and second switch valve, collective heats through inlet pipeline, and the threeway in interior conduit, filter, calorimeter, super conductor ground heating pipe, Temp. measuring ball valve, four-way, get back to thermoelectricity heat plant boiler through water return pipeline.

Claims (10)

1. a super conductor temperature control automation heating energy-saving system, comprise inlet pipeline, interior conduit and water return pipeline, electrical ball valve is installed on inlet pipeline successively, filter and heat energy meter, temperature controller and indoor radiating device are installed on interior conduit, described temperature controller is controlled respectively electrical ball valve and heat energy meter, the first switch valve is installed on described inlet pipeline, on water return pipeline, be provided with successively temperature control ball valve and second switch valve, temperature control ball valve is connected with heat energy meter, it is characterized in that described indoor radiating device adopts super conductor ground-heating radiation device, described super conductor ground-heating radiation device carries heat energy pipe to form by hot water tube connector and energy-conservation super conduction, described hot water tube connector is connected with interior conduit, hot water tube connector sidewall is laid with plural connecting through hole vertically, described energy-conservation super conduction carries heat energy pipe one end insert in connecting through hole and be tightly connected with hot water tube connector, energy-conservation super conduction carries heat energy pipe two ends to be tightly connected through plug, in the annular seal space of energy-conservation super conduction conveying heat energy pipe, be provided with gas superconductive medium and charge valve.

2. a super conductor temperature control automation heating energy-saving system, comprise inlet pipeline, interior conduit and water return pipeline, electrical ball valve is installed on inlet pipeline successively, filter and heat energy meter, temperature controller and indoor radiating device are installed on interior conduit, described temperature controller is controlled respectively electrical ball valve and heat energy meter, the first switch valve is installed on described inlet pipeline, on water return pipeline, be provided with successively temperature control ball valve and second switch valve, temperature control ball valve is connected with heat energy meter, it is characterized in that described indoor radiating device adopts super conductor heat abstractor, described super conductor heat abstractor is hot water tube connector, heat energy pipe and medium transport pipe are carried in energy-conservation super conduction, described medium transport pipe two ends are tightly connected respectively, in the annular seal space of medium transport pipe one end, be provided with charge valve, medium transport pipe sidewall vertically linear array has plural connecting through hole, energy-conservation super conduction carries heat energy pipe one end to be communicated with the medium transport seal of tube through connecting through hole, the other end and heating tube cross sidewalls are tightly connected, in the annular seal space that described energy-conservation super conduction carries heat energy pipe and medium transport pipe to be connected, be provided with air heat superconductive medium.

3. the super conductor temperature control of one according to claim 1 and 2 automation heating energy-saving system, it is characterized in that being parallel with solar energy heat collecting module between described inlet pipeline and water return pipeline, described solar energy heat collecting module water inlet pipe is connected with water return pipeline, outlet pipe is connected with inlet pipeline with interior conduit through triple valve, described solar energy heat collecting module water inlet pipe is provided with the 3rd switch valve, and outlet pipe is provided with the 4th switch valve.

4. the super conductor temperature control of one according to claim 1 and 2 automation heating energy-saving system, it is characterized in that being parallel with water heater between described inlet pipeline and water return pipeline, the water inlet pipe of described heater inleting pipe and solar energy heat collecting module is connected with the outlet pipe of water return pipeline and interior conduit through four-way respectively, the outlet pipe of water heater outlet and solar energy heat collecting module is connected with interior conduit through three-way pipe respectively, the water inlet pipe of described water heater is provided with the 5th switch valve, and outlet pipe is provided with the 6th switch valve.

5. the super conductor temperature control of one according to claim 3 automation heating energy-saving system, is characterized in that the water inlet pipe of described solar energy heat collecting module is provided with the first circulating pump, and the water inlet pipe of water heater is provided with the second circulating pump.

6. the super conductor temperature control of one according to claim 3 automation heating energy-saving system, the water inlet pipe that it is characterized in that described solar energy heat collecting module is provided with temperature difference compensation device, the water inlet pipe of water heater is provided with into water electrical ball valve, return pipe is provided with water outlet electrical ball valve, temperature difference compensation device one connects wire and is connected with water inlet electrical ball valve, another connects wire and is connected with backwater electrical ball valve, and water inlet electrical ball valve is connected with temperature controller respectively with backwater electrical ball valve.

7. the super conductor temperature control of one according to claim 1 and 2 automation heating energy-saving system, is characterized in that being parallel with pressure relief pipe between described inlet pipeline and water return pipeline.

8. the super conductor temperature control of one according to claim 1 automation heating energy-saving system, it is characterized in that the energy-conservation super conduction conveying heat energy pipe bottom in described energy-conservation super conductor ground-heating radiation device is provided with heat-conducting plate, on described heat-conducting plate, corresponding energy-conservation super conduction carries heat energy pipe to be provided with detent, and energy-conservation super conduction carries heat energy pipe to be connected with heat-conducting plate through detent.

9. the super conductor temperature control of one according to claim 1 automation heating energy-saving system, it is characterized in that the hot water tube connector sidewall in described energy-conservation super conductor ground-heating radiation device is provided with more than one sealing shroud, sealing shroud is connected with hot water tube connector, the corresponding sealing shroud of hot water tube connector inwall is provided with inverted draw cut, inverted draw cut and sealing shroud are on same center line, described sealing shroud is connected with hot water tube connector, on sealing shroud, be fixed with locating ring, sealing shroud outer wall is provided with thread segment, silica gel sealing ring is threaded with sealing shroud, described energy-conservation super conduction carries heat energy pipe one end to penetrate sealing shroud and hot water tube connector inner chamber, inverted draw cut in top and hot water tube connector is inconsistent, and after silica gel sealing ring and clamp nut are threaded with sealing shroud, silica gel sealing ring one end and locating ring are inconsistent, the other end and clamp nut are inconsistent to be tightly connected.

10. the super conductor temperature control of one according to claim 1 and 2 automation heating energy-saving system, it is characterized in that described charge valve is by sealing-plug, push rod, piston, tensioning spring, top cover, lead and Sealing shield ring composition, described sealing-plug is cylindrical, sealing-plug center is provided with screwed hole from inside to outside successively, plunger shaft and push rod perforation, described screwed hole, plunger shaft and push rod perforation are connected, screwed hole internal thread is connected with top cover, in plunger shaft, be provided with piston, piston one end is fixedly connected with the push rod inserting in push rod perforation, the other end is fixedly connected with the lead that inserts top cover centre bore, tensioning spring is enclosed within on lead, tensioning spring one end and top cover are inconsistent, the other end and piston are inconsistent, described piston seals and contacts mutually with sealing-plug inwall through Sealing shield ring under the effect of tensioning spring, described top cover end face circumference is provided with air inlet through hole, air inlet through hole axially arranges.

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