CN203810532U - Heating system - Google Patents

Abstract

The utility model provides a heating system and relates to the field of heat superconduction. The service life of the heating system can be prolonged. The heating system comprises a heat source used for providing heat energy, one or more radiators, and a distributor connected with the heat source and the radiators and used for distributing the heat energy provided by the heat source to the radiators. Each radiator comprises one or more heat superconduction tubes. Each heat superconduction tube comprises a stainless steel tube, a cover, a metal valve and a tube cap. The covers are arranged outside one ends the corresponding stainless steel tubes in a buckled mode, rubber rings are arranged at the open ends of the covers, and the covers are connected with the corresponding stainless steel tubes in a sealing mode by pressing the rubber rings. The metals valves are located at the other ends of the corresponding stainless steel tubes and placed in the corresponding stainless steel tubes. The tube covers are connected with the other ends of the corresponding stainless steel tubes in a sealing mode. The heating system serves as a heat supply or heat radiation system.

Description

A kind of heating system

Technical field

The utility model relates to hot superconduction field, relates in particular to a kind of super heat-conductive pipe.

Background technology

Hot superconductor is a kind of colourless liquid gas material, first carries out application of vacuum by closing valve, then fills and inserts after a certain proportion of liquid gas, and heating makes the gas expansion in pipe carry out heat by conduction, has just become super heat-conductive pipe.Super heat-conductive pipe is to rely on its inner makings circulating phase-change and device of transferring heat in a closure casing of being pumped into certain vacuum, and the superpower thermal conductivity factor of super heat-conductive pipe is 500 times of left and right of common metal.

Heating technology is exactly by artificial means to indoor supply heat, makes the certain temperature of indoor maintenance, to create suitable living condition or the technology of condition of work.Heating system is made up of thermal source (heating agent preparation), heat circulating system (pipe network or heating agent are carried) and three major parts of heat dissipation equipment (heating agent utilization).Wherein, heat dissipation equipment can adopt above-mentioned super heat-conductive pipe, to realize good heat radiating.

In prior art, super heat-conductive pipe in use, one end seals by solder technology, the other end is provided with inflation or topping up valve, and by pipe cap welded seal, inner chamber stores superconducting fluid or gas, but, seal because one end of super heat-conductive pipe adopts solder technology, easily produce the seepage flow of gas or liquid, make the service life of heating system shorter.

Utility model content

Embodiment of the present utility model provides a kind of heating system, can extend the service life of heating system.

For achieving the above object, embodiment of the present utility model adopts following technical scheme:

On the one hand, provide a kind of heating system, comprising:

Thermal source, for providing heat energy;

At least one heat dissipation equipment;

Distributor, described distributor is connected with described thermal source and described heat dissipation equipment respectively, distributes to described heat dissipation equipment for the heat energy that described thermal source is provided;

Wherein, each described heat dissipation equipment comprises at least one super heat-conductive pipe, and each described super heat-conductive pipe comprises:

Stainless steel tube;

Block, described block buckles in the outside of described stainless steel tube one end, and described block openend is provided with rubber ring, and by suppressing described rubber ring, described block and described stainless steel tube are tightly connected;

Metal valve, described metal valve is positioned at the other end of described stainless steel tube, and is positioned in described stainless steel tube;

Pipe cap, the other end of described pipe cap and described stainless steel tube is tightly connected.

Optionally, described stainless steel tube and described block adopt identical stainless steel material, and the nickel content of described stainless steel material is more than or equal to 9 percent.

Optionally, the internal diameter of described block and the external diameter of described stainless steel tube equate.

Optionally, described pipe cap is convex pipe cap, and the external diameter of the protruding end of described convex pipe cap equates with the internal diameter of described stainless steel tube, and by solder technology, the protruding end of described convex pipe cap is connected with the inner wall sealing of the other end of described stainless steel tube.

Optionally, described thermal source is solar energy heat collector.

Optionally, described heating system also comprises:

Intelligent control device, described intelligent control device is connected with described solar energy heat collector, for controlling temperature, the circulation of hot water and the time of heating of the hot water that described solar energy heat collector provides.

The utility model provides a kind of heating system, because the block of super heat-conductive pipe is to adopt compact technique to buckle the one end at stainless steel tube, one end hermetically-sealed construction of the stainless steel tube forming compared to solder technology, seal more tight, improve sealing, thereby reduce the seepage flow of super heat-conductive pipe, extended the service life of heating system.

Brief description of the drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation of a kind of heating system that Fig. 1 provides for the utility model;

The front view of the super heat-conductive pipe that Fig. 2 provides for the utility model;

Front view and the left view of the metal valve that Fig. 3 provides for the utility model;

The structural representation of a kind of super heat-conductive pipe that Fig. 4 provides for the utility model;

The structural representation of a kind of pipe cap that Fig. 5 provides for the utility model;

The structural representation of the another kind of super heat-conductive pipe that Fig. 6 provides for the utility model;

The structural representation of the another kind of heating system that Fig. 7 provides for the utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model provides a kind of heating system 1, as shown in Figure 1, comprising:

Thermal source 11, for heat energy is provided, optional, described thermal source can be solar energy heat collector, because solar energy heat collector converts solar energy into heat energy, therefore green non-pollution, is that good thermal source is selected.

At least one heat dissipation equipment 12.

Distributor 13, described distributor 13 is connected with described thermal source 11 and described heat dissipation equipment 12 respectively, distributes to described heat dissipation equipment 12 for the heat energy that described thermal source 11 is provided.

Wherein, as shown in Figure 2, each described heat dissipation equipment 12 comprises at least one super heat-conductive pipe 10, and each described super heat-conductive pipe 10 comprises:

Stainless steel tube 101, the caliber of described stainless steel tube 101, i.e. internal diameter, can arrange as the case may be, and the wall thickness of described stainless steel tube 101 can be for being more than or equal to 0.8mm.

Block 102, described block 102 buckles at described stainless steel tube 101 one end a, described block 102 openends are provided with rubber ring 1021, by suppressing described rubber ring 1021, described block 102 is tightly connected with described stainless steel tube 101, and described rubber ring 1021 adopts compacting to be connected with described stainless steel tube 101, its pressing direction, as directions X in Fig. 2, for vertical and towards the direction of the tube wall place of described stainless steel tube 101 face.

Metal valve 103, described metal valve 103 is positioned at the other end b of described stainless steel tube 101, and is positioned in described stainless steel tube 101.As shown in Figure 3, in Fig. 3, draw respectively the front view and the left view that have metal valve 103, metal valve 103 can be barrel-like structure, outer surface at this barrel-like structure is provided with annular groove, and rubber blanket 1031 is set in this groove, the thickness of this rubber blanket 1031 and the deep equality of groove, the internal diameter that the external diameter of described barrel-like structure equals stainless steel tube equates, by compact technique, the inwall of described metal valve and described stainless steel tube is combined closely, and plays the effect of sealing.It should be noted that, described metal valve can be copper valve, belongs to hydraulic seal valve or gas sealing valve, and its concrete structure can be with reference to prior art, and the utility model no longer describes in detail this.

Pipe cap 104, described pipe cap 104 is tightly connected with the other end b of described stainless steel tube 101.

So, because the block of super heat-conductive pipe is to adopt compact technique to buckle the one end at stainless steel tube, one end hermetically-sealed construction of the stainless steel tube forming compared to solder technology, seal more tight, improve sealing, thereby reduce the seepage flow of super heat-conductive pipe, extended the service life of heating system.

In prior art, due to the easy seepage flow of super heat-conductive pipe, in the time that thermal source is solar energy heat collector, very high to the water storage requirement of solar energy heat collector, need larger solar energy heat-storage tank, make the volume of solar energy heat collector larger, manufacturing cost is higher.

In embodiment of the present utility model, in the time that thermal source is solar energy heat collector, circulate in pipe because super heat-conductive pipe does not need hot water, only need to touch thermal source, the water storage of solar energy heat collection pipe is required to also corresponding minimizing, can be 1/15th of common water consumption, therefore, compared to the solar energy heat collector of same area, can be original tens times for heat energy, reduce manufacturing cost simultaneously.

It should be noted that, described stainless steel tube 101, described block 102 and described pipe cap 104 can adopt identical stainless steel material, the nickel content of described stainless steel material is more than or equal to 9 percent, for example, described stainless steel material can be 304 stainless steels, can realize like this corrosion-and high-temp-resistant, oxidation resistant effect.

Especially, described block 102 is barrel-like structure, this barrel-like structure is socketed on stainless steel tube by openend, and then be positioned at the rubber ring of this barrel-like structure open end edge by compacting, block is connected with stainless steel tube, the internal diameter of this barrel-like structure is more than or equal to the external diameter of described stainless steel tube 101, preferably, as shown in Figure 4, the internal diameter P of described block 102 can equate with the external diameter R of described stainless steel tube 101, can ensure like this to block a shot 102 and the good socket of stainless steel tube 101, avoid the generation in gap, reduce the seepage flow of liquid or gas.

Further, described pipe cap 104 is used for covering the other end b of stainless steel tube 101 described in stifled Fig. 2, on described pipe cap 104, screw thread can be set, corresponding stainless steel tube 101 also arranges pipe end internal thread, described pipe cap 104 can be arranged on described pipe end external screw thread, makes the other end shutoff of stainless steel tube 101, as shown in Figure 5, described pipe cap 104 can be also convex pipe cap, this convex pipe cap is barrel-like structure, its shaft section is " recessed " font, the blind end m of this barrel-like structure is towards 101 other end b of stainless steel tube and embed the inner side of 101 other end b of this stainless steel tube, the openend n of this barrel-like structure is towards the inner side of 101 other end b of stainless steel tube, as shown in Figure 6, the external diameter h of described convex pipe cap equates to pass through solder technology with the internal diameter r of described stainless steel tube, described convex pipe cap is connected with the inner wall sealing of the other end b of described stainless steel tube, described solder technology is generally argon arc welding, so, convex pipe cap has embedded in stainless steel tube, ensure the sealing of stainless steel tube.

It should be noted that; due to the existence of artificial or machine error; can there is micron-sized tolerance in the size of the internal diameter of block 102 and the external diameter of described stainless steel tube 101; can there is micron-sized tolerance in the internal diameter of the external diameter of described pipe cap 104 and described stainless steel tube 101; any be familiar with those skilled in the art the utility model disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection domain of the present utility model.Especially, the rubber ring in the present embodiment and rubber blanket all adopt the erosion-resisting elastomeric material of high temperature high voltage resistant, to ensure effective sealing.

Further, each device in described heating system 1 adopts pipeline to connect conventionally, in pipeline, be filled with thermal medium, optionally, described thermal medium can be water, in the time that thermal medium is water and when described thermal source is solar energy heat collector 110, as shown in Figure 7, described heating system 1 can also comprise: intelligent control device 14, described intelligent control device 14 is connected with described solar energy heat collector 110, for controlling temperature, the circulation of hot water and the time of heating of the hot water that described solar energy heat collector 110 provides.

For controlling the temperature of the heat energy that described solar energy heat collector 110 provides, supply equipment 15, described supply equipment 15 is connected with described distributor 13, described solar energy heat collector 110 heats water to specified temp according to the control of intelligent control device 14, offer distributor 13, the hot water of specified temp is distributed to as the case may be at least one in supply equipment 15 and heat dissipation equipment 12 by distributor 13, when the water temperature in supply equipment 15 and heat dissipation equipment 12 is reduced to default temperature threshold, can will return to distributor 13 lower than the cold water of this temperature threshold, returning to solar energy heat collector 110 by distributor 13 heats again, thereby form a heat circulation.Optionally, described supply equipment 15 can be bath apparatus, is used to provide the hot water that bathing is used, and can be also that the kitchen and toilet facility that washes one's face, washes dish hot water is directly provided; Described heat dissipation equipment 12 can be the floor heating of radiator or the super heat-conductive pipe composition of super heat-conductive pipe formation.In actual applications, described intelligent control device 14 can independently arrange, also can be set directly on described solar energy heat collector 110, this intelligent control device 14 can be adjusted according to the temperature control condition of artificial setting the temperature of the heat energy that solar energy heat collector 110 exports, the temperature that also can regulate in real time according to ambient environmental conditions the heat energy that solar energy heat collector 110 exports, the present embodiment does not limit this.Described distributor 13 can be according to the quantity of supply equipment 15 and heat dissipation equipment 12, water requirement, dynamically adjust the distribution of hot water, for example, do not use supply equipment 15 but indoor when steady temperature need to be kept user, stop providing hot water to supply equipment 15, concentrate to heat dissipation equipment 12 and provide hot water to make heat dissipation equipment 12 distribute heats keep indoor temperature.

Especially, in order to ensure heating system still effectively heating the solar energy deficiency in the situation that, described heating system can also comprise supplementary energy, as electric energy, combustion gas or fuel oil etc., in the time that solar energy is not enough, carries out the heating of thermal medium, so that heat energy to be provided.

The heating system that the utility model provides, because the block of super heat-conductive pipe is to adopt compact technique to buckle the one end at stainless steel tube, one end hermetically-sealed construction of the stainless steel tube forming compared to solder technology, seal more tightly, improved sealing, thereby reduced the seepage flow of super heat-conductive pipe, extend the service life of heating system, increase intelligent control device simultaneously, thereby reduced artificial waste, improved the intelligent operation degree of system.The above; it is only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited to this; any be familiar with those skilled in the art the utility model disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (6)

1. a heating system, is characterized in that, comprising:

Thermal source, for providing heat energy;

At least one heat dissipation equipment;

Distributor, described distributor is connected with described thermal source and described heat dissipation equipment respectively, distributes to described heat dissipation equipment for the heat energy that described thermal source is provided;

Wherein, each described heat dissipation equipment comprises at least one super heat-conductive pipe, and each described super heat-conductive pipe comprises:

Stainless steel tube;

Block, described block buckles in the outside of described stainless steel tube one end, and described block openend is provided with rubber ring, and by suppressing described rubber ring, described block and described stainless steel tube are tightly connected;

Metal valve, described metal valve is positioned at the other end of described stainless steel tube, and is positioned in described stainless steel tube;

Pipe cap, the other end of described pipe cap and described stainless steel tube is tightly connected.

2. heating system according to claim 1, is characterized in that,

Described stainless steel tube and described block adopt identical stainless steel material, and the nickel content of described stainless steel material is more than or equal to 9 percent.

3. heating system according to claim 1 and 2, is characterized in that,

The internal diameter of described block equates with the external diameter of described stainless steel tube.

4. heating system according to claim 1 and 2, is characterized in that,

Described pipe cap is convex pipe cap, and the external diameter of the protruding end of described convex pipe cap equates with the internal diameter of described stainless steel tube, and by solder technology, the protruding end of described convex pipe cap is connected with the inner wall sealing of the other end of described stainless steel tube.

5. heating system according to claim 1, is characterized in that,

Described thermal source is solar energy heat collector.

6. heating system according to claim 5, is characterized in that, described heating system also comprises:

Intelligent control device, described intelligent control device is connected with described solar energy heat collector, for controlling temperature, the circulation of hot water and the time of heating of the hot water that described solar energy heat collector provides.