CN105300144A - Efficient heat transferring and exchange device - Google Patents

Abstract

The invention relates to an efficient heat transferring and exchange device. The efficient heat transferring and exchange device comprises at least one heat material source, a positioning frame, at least one heat exchange pipeline and drainage pipes, wherein the heat exchange pipeline is mounted on the positioning frame and is of a closed annular structure; the heat exchange pipeline comprises thermal insulation protective outer pipes and at least two heat transferring sleeves which are covered with the thermal insulation protective outer pipes, and the thermal insulation protective outer pipes and the heat transferring sleeves are coaxially distributed; the heat transferring sleeves are coaxially distributed; a cavity of each thermal insulation protective outer pipe is divided by the corresponding heat transferring sleeve into at least one layer of high temperature cavity body and at least one layer of low temperature cavity body; the high temperature cavity bodies and the low temperature cavity bodies are each provided with at least two drainage pipes; the drainage pipes are communicated with the heat material source through flow guide pipes; the heat material source is mounted on the positioning frame. The demand for heat exchange and transferring between two or more fluid substances can be effectively met on the one hand, the structure of a heat exchange system can be effectively simplified on the other hand, size and self weight of the heat exchange system are reduced, and the applicability of the heat exchange system is improved.

Description

A kind of efficient transfer of heat heat-exchanger rig

Technical field

The present invention relates to a kind of efficient transfer of heat heat-exchanger rig, possession iron train apparatus technical field.

Background technology

At present in actual production life, often need by the gas of heat exchanger-type equipment to different temperatures, transfer of heat and absorption is carried out between the flowing materials such as liquid, thus reach raising heat utilization ratio, reduce the object of thermal losses, but find in actual use, current heat exchanger-type equipment is mainly divided into " U " shape tubing structure and bundle pipes class formation, although these two kinds of structures all can meet the needs of exchange heat between material, but it often only can realize exchange heat between two kinds of materials simultaneously, and heat exchange coefficient is also comparatively low, therefore current heat transmission equipment heat exchange efficiency is caused low, still cause the thermal losses of increasing, simultaneously, current heat transmission equipment structure and deadweight also often larger, place applicability is relatively poor, therefore for this present situation, in the urgent need to developing a kind of novel many warm areas experimental rig, with the needs that satisfied reality uses.

Summary of the invention

The object of this invention is to provide and the invention provides a kind of efficient transfer of heat heat-exchanger rig.

In order to achieve the above object, the invention provides following technical scheme:

A kind of efficient transfer of heat heat-exchanger rig, comprise thermal source material source, locating rack, heat exchanging pipe and drainage tube, wherein heat exchanging pipe is arranged on locating rack, at least one also in closed circulus, heat exchanging pipe comprises heat insulation protection outer tube and heat transfer sleeve pipe, wherein heat insulation protection outer tube is coated on heat transfer outside of sleeve, and shift sleeve pipe with heat and coaxially distribute, heat transfer sleeve pipe at least two, and all coaxially distribute between each heat transfer sleeve pipe, heat insulation protection outer tube tube chamber is divided at least one floor height temperature chamber and at least one deck low temperature cavity by heat transfer sleeve pipe, and high temperature chamber and low temperature cavity structure all in the form of a ring, high temperature chamber and low temperature cavity all establish at least two drainage tubes, and drainage tube one end is communicated with low temperature cavity with high temperature chamber respectively, the other end is positioned at heat insulation protection outside pipe, drainage tube is communicated with thermal source material source by mozzle, thermal source material source at least one and be arranged on locating rack, be not communicated with mutually between each thermal source material source, thermal source material source comprises the material cavity of at least two different temperatures scopes, isolated by heat insulation dividing plate between each material cavity.

Further, described heat insulation protection outer tube and heat shift sleeve pipe and the hot sleeve pipe that shifts is located by connecting by being connected gusset with hot transfer between sleeve pipe.

Further, described connection gusset two ends respectively by chute and heat insulation protection outer tube and the heat tube wall that shifts sleeve pipe be slidably connected.

Further, described locating rack and establish elastomeric isolation cushion block between heat exchanging pipe and thermal source material source.

Further, when described heat exchanging pipe is two or more, isolated by dividing plate between heat exchanging pipe.

Further, when described high temperature chamber and low temperature cavity are two or more, then each high temperature chamber and low temperature cavity establish drainage tube respectively, and are not all interconnected between each drainage tube.

Structure of the present invention is simple, operation energy consumption is little, modularization, integrated journey, rate of heat exchange is high and heat loss is few, thus effectively can meet the needs of exchange heat transfer between two or more flowing materials on the one hand, can effectively simplify heat-exchange system structure on the other hand, reduce volume and the deadweight of heat-exchange system, enhance the applicability of heat-exchange system, and the operation energy consumption of heat-exchange system can be effectively reduced.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is structural representation of the present invention;

Fig. 2 is heat exchanging pipe structural representation.

Detailed description of the invention

Be clearly and completely described technical scheme of the present invention below in conjunction with accompanying drawing of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

A kind of efficient transfer of heat heat-exchanger rig as illustrated in fig. 1 and 2, comprise thermal source material source 1, locating rack 2, heat exchanging pipe 3 and drainage tube 4, wherein heat exchanging pipe 3 is arranged on locating rack 2, at least one also in closed circulus, heat exchanging pipe 3 comprises heat insulation protection outer tube 31 and heat transfer sleeve pipe 32, wherein heat insulation protection outer tube 31 is coated on outside heat transfer sleeve pipe 32, and shift sleeve pipe 31 with heat and coaxially distribute, heat transfer sleeve pipe 31 at least two, and all coaxially distribute between each heat transfer sleeve pipe 32, heat insulation protection outer tube 31 tube chamber is divided at least one floor height temperature chamber 33 and at least one deck low temperature cavity 34 by heat transfer sleeve pipe 32, and high temperature chamber 33 and low temperature cavity 34 structure all in the form of a ring, high temperature chamber 33 and low temperature cavity 34 all establish at least two drainage tubes 4, and drainage tube 4 one end is communicated with low temperature cavity 34 with high temperature chamber 33 respectively, it is outside that the other end is positioned at heat insulation protection outer tube 31, drainage tube 2 is communicated with thermal source material source 1 by mozzle 5, thermal source material source 1 at least one and be arranged on locating rack 2, be not communicated with mutually between each thermal source material source 1, thermal source material source 1 comprises the material cavity 11 of at least two different temperatures scopes, isolated by heat insulation dividing plate 12 between each material cavity 11.

In the present embodiment, described heat insulation protection outer tube 31 and heat shift sleeve pipe 32 and the hot sleeve pipe 32 that shifts is located by connecting by being connected gusset 35 with hot transfer between sleeve pipe 32.

In the present embodiment, described connection gusset 35 two ends respectively by chute 36 and heat insulation protection outer tube 31 and the heat tube wall that shifts sleeve pipe 32 be slidably connected.

In the present embodiment, described locating rack 2 and establish elastomeric isolation cushion block 6 between heat exchanging pipe 3 and thermal source material source 1.

In the present embodiment, when described heat exchanging pipe 3 is two or more, isolated by dividing plate 7 between heat exchanging pipe 3.

In the present embodiment, when described high temperature chamber 33 and low temperature cavity 34 are two or more, then each high temperature chamber 33 and low temperature cavity 34 establish drainage tube 4 respectively, and are not all interconnected between each drainage tube 4.

Structure of the present invention is simple, operation energy consumption is little, modularization, integrated journey, rate of heat exchange is high and heat loss is few, thus effectively can meet the needs of exchange heat transfer between two or more flowing materials on the one hand, can effectively simplify heat-exchange system structure on the other hand, reduce volume and the deadweight of heat-exchange system, enhance the applicability of heat-exchange system, and the operation energy consumption of heat-exchange system can be effectively reduced.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection domain of claim.

Claims (6)

1. an efficient transfer of heat heat-exchanger rig, it is characterized in that: described efficient transfer of heat heat-exchanger rig comprises thermal source material source, locating rack, heat exchanging pipe and drainage tube, wherein said heat exchanging pipe is arranged on locating rack, at least one also in closed circulus, described heat exchanging pipe comprises heat insulation protection outer tube and heat transfer sleeve pipe, wherein said heat insulation protection outer tube is coated on heat transfer outside of sleeve, and shift sleeve pipe with heat and coaxially distribute, described heat transfer sleeve pipe at least two, and all coaxially distribute between each heat transfer sleeve pipe, heat insulation protection outer tube tube chamber is divided at least one floor height temperature chamber and at least one deck low temperature cavity by described heat transfer sleeve pipe, and high temperature chamber and low temperature cavity structure all in the form of a ring, described high temperature chamber and low temperature cavity all establish at least two drainage tubes, and drainage tube one end is communicated with low temperature cavity with high temperature chamber respectively, the other end is positioned at heat insulation protection outside pipe, described drainage tube is communicated with thermal source material source by mozzle, described thermal source material source at least one and be arranged on locating rack, be not communicated with mutually between each thermal source material source, described thermal source material source comprises the material cavity of at least two different temperatures scopes, isolated by heat insulation dividing plate between described each material cavity.

2. the efficient transfer of heat heat-exchanger rig of one according to claim 1, is characterized in that, described heat insulation protection outer tube and heat shift sleeve pipe and the hot sleeve pipe that shifts is located by connecting by being connected gusset with hot transfer between sleeve pipe.

3. the efficient transfer of heat heat-exchanger rig of one according to claim 2, is characterized in that, described connection gusset two ends respectively by chute and heat insulation protection outer tube and the heat tube wall that shifts sleeve pipe be slidably connected.

4. the efficient transfer of heat heat-exchanger rig of one according to claim 1, is characterized in that, described locating rack and establish elastomeric isolation cushion block between heat exchanging pipe and thermal source material source.

5. the efficient transfer of heat heat-exchanger rig of one according to claim 1, is characterized in that, when described heat exchanging pipe is two or more, isolated between heat exchanging pipe by dividing plate.

6. the efficient transfer of heat heat-exchanger rig of one according to claim 1, is characterized in that, when described high temperature chamber and low temperature cavity are two or more, then each high temperature chamber and low temperature cavity establish drainage tube respectively, and are not all interconnected between each drainage tube.