CN208457439U - A kind of thermodynamic transport energy saving pipeline - Google Patents

Abstract

The utility model discloses a kind of thermodynamic transport energy saving pipelines, belong to pipe technology field, instrumentation tubes including being used for transmission heat-conducting medium, heat-sink shell one and heat-sink shell two are successively enclosed with outside the instrumentation tubes, it is hollow structure between the heat-sink shell one and heat-sink shell two, heat transfer device is equipped in the hollow structure, the both ends of the heat transfer device are connect with instrumentation tubes and heat-sink shell two respectively.The utility model can either reduce the process of the heat-conducting medium in instrumentation tubes and transmit and dispersed heat at a distance, avoid to low-temperature zone instrumentation tubes reheating, energy saving, also can reduce the temperature of high temperature section instrumentation tubes, extend the service life of high temperature section instrumentation tubes.

Description

A kind of thermodynamic transport energy saving pipeline

Technical field

The utility model relates to pipe technology field, specifically a kind of thermodynamic transport energy saving pipeline.

Background technique

Heat distribution pipeline is the key components of urban heating pipe network system, and typically direct-burried is laid under earth's surface centainly Depth conveys high temperature and pressure hot water into heat distribution pipeline in heating season.Heat distribution pipeline is mostly three-in-one structure, is had interior It is followed successively by working steel tube, insulating layer, outer protection tube outward.

But high temperature and pressure hot water, in the transmission process of this kind of heat distribution pipeline, instrumentation tubes are in remote transmission, work Pipe internal high pressure hot water is easy to carry out heat energy dissipation, when reaching heat supply end, generally requires reheating, waste of energy, and It is excessive to the consumption of instrumentation tubes in the high-temperature pipe section of short distance, cause pipeline life lower, service life is short.

Utility model content

The utility model In view of the above shortcomings of the prior art, provides a kind of thermodynamic transport energy saving pipeline, this is practical The novel heat-conducting medium that can either be reduced in instrumentation tubes dispersed heat by remote transmission, avoids to low-temperature zone instrumentation tubes Reheating, it is energy saving, it also can reduce the temperature of high temperature section instrumentation tubes, extend the service life of high temperature section instrumentation tubes.

The technical solution of the utility model solution technical problem are as follows:

A kind of thermodynamic transport energy saving pipeline, the instrumentation tubes including being used for transmission heat-conducting medium, the instrumentation tubes are successively wrapped outside It is wrapped with heat-sink shell one and heat-sink shell two, is hollow structure between the heat-sink shell one and heat-sink shell two, is set in the hollow structure There is heat transfer device, the both ends of the heat transfer device are connect with instrumentation tubes and heat-sink shell two respectively.

Further, the heat transfer device is copper aluminium mixing mandrel body, and the heat transfer device is equipped with multiple, and along the instrumentation tubes Circumferential and axial on be uniformly distributed.

Further, the heat transfer device is connected with the instrumentation tubes by pipe clamp, and the heat transfer device passes through with heat-sink shell two Support protective case connection.

Further, the pipe clamp is arc in the cross sectional shape perpendicular to instrumentation tubes axial direction, is led between the pipe clamp It crosses and is bolted.

Further, the support protective case includes inner supporting member and outer support member, one end of the inner supporting member and heat transfer device Connection, the one end of the inner supporting member far from heat transfer device are bonded with the inner surface of heat-sink shell two, and one end of the outer support member, which passes through, inhales Thermosphere two is connect with inner supporting member, and the one end of the outer support member far from inner supporting member is bonded with the outer surface of heat-sink shell two.The outer support The outside of part is equipped with thermal insulation layer.

Further, multiple strainers are equipped in the instrumentation tubes.Preferably, it is arranged in the stage junction of the instrumentation tubes Strainer.The strainer includes strainer one and strainer two, and the grid of the strainer one and strainer two is overlapped, and grid is one group flat Capable straight line, the strainer two are mounted in the sliding slot in the instrumentation tubes, and the top of the strainer two is equipped with rotating device.

Further, the rotating device includes connecting rod, the filter frame of the lower end of the connecting rod and the strainer two Top connection, the top of the connecting rod are cased with sleeve, and the sleeve is connected with the connecting rod by elastic component, the elasticity Part is in compressive state.

Further, it is equipped with cavity on the instrumentation tubes top perpendicular to instrumentation tubes axial direction, is equipped with rotation in the cavity Device, for the cavity of rotating device rotation, the cavity is connected to the sliding slot, and the top of the cavity is equipped with cover board one, The cover board one is arc, and one end and the instrumentation tubes of the cover board one are connected by a hinge.

Further, the heat-sink shell one opens up window one on the position of corresponding cover board one, and the heat-sink shell two exists Window two is opened up on the position of the corresponding window one, the outside of the window two is equipped with the cover board two being attached thereto.

The utility model has the advantages that

1, for the utility model by wrapping up heat-sink shell one in the external of instrumentation tubes, heat-sink shell one absorbs the temperature in instrumentation tubes Degree, can be avoided high temperature section instrumentation tubes because in instrumentation tubes heat-conducting medium temperature it is excessively high caused by service life reduce, replacement time The problem of number increases, can effectively save material；Absorb the heat of the sun by heat-sink shell two outside heat-sink shell one, and by the sun Heat passes to instrumentation tubes by heat transfer device, can be avoided the heat-conducting medium in instrumentation tubes after remote transmission, heat loss The problem of, it is not necessary to again to low-temperature zone instrumentation tubes reheating, cause energy waste；It is formed between heat-sink shell one and heat-sink shell two Hollow structure, because hollow structure is sealing, the thermal Finite transmitted by heat-sink shell two, so hollow structure can inhaled Thermosphere one keeps certain temperature after absorbing heat.

2, because heat transfer device is copper aluminium mixing mandrel body, heat transfer device has outstanding thermal conduction effect；It is described thermally conductive Device be equipped with it is multiple, can be improved heat transfer efficiency, and be uniformly distributed along the circumferential and axial of the instrumentation tubes, can conduct heat more It is even, improve heat-transfer effect.

3, the heat transfer device is connected with the instrumentation tubes by pipe clamp, can not cause to damage to the surface of instrumentation tubes, and And it is easy to disassemble；The heat transfer device, by supporting protective case to connect, can not only support heat-sink shell two, Er Qieneng with heat-sink shell two Enough fixed heat transfer device and heat-sink shell two.

4, pipe clamp is arc, can more be bonded instrumentation tubes, improves the bonding strength of heat transfer device and instrumentation tubes, make heat transfer device and Instrumentation tubes are more bonded, and improve heat-conducting effect.

5, it supports the inner supporting member of protective case to be bonded with the inner surface of heat-sink shell two, makes the contact surface of inner supporting member Yu heat-sink shell two Product increases, and improves heat-transfer effect, and one end of the outer support member passes through heat-sink shell two and connect with inner supporting member, can be easily installed With disassembly heat-sink shell two；Outer support member is bonded with the outer surface of heat-sink shell two, and more conducively inner supporting member and outer support member preferably clamps suction Thermosphere two；Thermal insulation layer is set in the outside of outer support member, work tubular heat is can be avoided and scatters and disappears from outer support member.

6, it is equipped with multiple strainers in the instrumentation tubes, the sundries such as iron rust, iron filings, the scale inside instrumentation tubes can be intercepted, And increase strainer and quantity is set, it can be improved the effect of sundries blocking；Preferably, it is set in the stage junction of the instrumentation tubes Strainer is set, this is because the stage junction of instrumentation tubes is easier to corrode, stage junction is easier to generate sundries, institute It strainer is arranged in stage junction, can prevent household internal pipeline from being blocked because using all the year round, reduce later period cleaning The trouble of replacement；So that strainer two is rotated in the sliding slot in instrumentation tubes by rotating device, makes in strainer two and strainer one Grid formed angle, form fine and closely woven strainer, that is, increase the density of strainer grid, improve filter effect；Moreover, the filter Net can also adjust the water flow in instrumentation tubes.

7, because connecting rod is connect with the filter frame of strainer two, strainer two, adjustment filter can be rotated by rotation connection bar The strainer cell densities that net two and strainer one are formed；By being cased with sleeve above connecting rod, and in sleeve and connecting rod Between connected by the elastic component of compressive state, sleeve and the total length of connecting rod can be made to increase when compression elastic piece stretches It is long, sleeve is directly pinched convenient for operator to be operated.

8, the cavity being connected to sliding slot is set, just strainer two can be made to rotate together with rotating device；Cover board one is set on cavity, It can be when needing adjustment strainer two, cover board one covers the cavity in instrumentation tubes, can be avoided water in instrumentation tubes from cavity Interior spilling, and to improve sealing effect；When needing to operate rotating device adjustment strainer two, cover board one is opened, due to rotation Sleeve in device directly passes through compressed spring with connecting rod and connects, so compressed spring can be stretched when cover board one is opened, makes Sleeve is by outside thrust, so that the overall length of sleeve and connecting rod increases, operates convenient for operator.

9, the heat-sink shell one opens up window one on the position of corresponding cover board one, and cover board one can be convenient for by opening up window one It outwardly opens；The heat-sink shell two opens up window two on the position of the correspondence window one, and setting window two can be convenient for behaviour Make personnel and open cover board one to carry out operation to rotating device；The outside of the window two is equipped with cover board two, in this way, can Keep the sealing of hollow structure 4.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of thermodynamic transport energy saving pipeline；

Fig. 2 is the structural schematic diagram of heat transfer device；

Fig. 3 is filter network state schematic diagram of the rotating device in left side；

Fig. 4 is the partial enlarged view at Fig. 3 A；

Fig. 5 is filter network state schematic diagram of the rotating device on right side.

Description of symbols: 1- instrumentation tubes, 2- heat-sink shell one, 3- heat transfer device, 4- hollow structure, 5- heat-sink shell two, 6- every Thermosphere, 7- strainer, 8- rotating device, 101- cavity, 102- cover board one, 103- stud, 104- sliding slot, 201- window one, 301- Pipe clamp, 302- connecting plate, 303- inner supporting member, the outer support member of 304-, 305- bolt, 501- window two, 502- cover board two, 701- filter Net one, 702- strainer two, 703- filter frame, 801- connecting rod, 802- sleeve, 803- compressed spring, 804- auxiliary chute.

It is worth noting that, term " center ", "upper", "lower", "left", "right", " perpendicular in the description of the present invention, Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Specific embodiment

The utility model is further elaborated with reference to the accompanying drawing.

A kind of thermodynamic transport energy saving pipeline, is mounted in earth's surface, and structure is as shown in Figure 1, include being used for transmission thermally conductive Jie The instrumentation tubes 1 of matter, the instrumentation tubes 1 are successively enclosed with heat-sink shell 1 and heat-sink shell 25, the heat-sink shell 1 and heat-sink shell outside Be hollow structure 4 between 25, be equipped with heat transfer device 3 in the hollow structure 4, the both ends of the heat transfer device 3 respectively with instrumentation tubes 1 It is connected with heat-sink shell 25.For the utility model by wrapping up heat-sink shell 1 in the external of instrumentation tubes 1, heat-sink shell 1 absorbs work Temperature on pipe 1, can be avoided high temperature section instrumentation tubes 1 because in instrumentation tubes 1 heat-conducting medium temperature it is excessively high caused by service life It reduces, replace the problem of number increases, can effectively save material；The sun is absorbed by the heat-sink shell 25 outside heat-sink shell 1 Heat, and solar heat is passed into instrumentation tubes 1 by heat transfer device 3, it can be avoided the heat-conducting medium in instrumentation tubes 1 remote After transmission, the problem of heat loss, it is not necessary to again to 1 reheating of low-temperature zone instrumentation tubes, cause energy waste；In heat-sink shell 1 Hollow structure 4 is formed between heat-sink shell 25, because hollow structure 4 is sealing, is had by the heat that heat-sink shell 25 transmits Limit, so hollow structure 5 can keep certain temperature after the heat absorption of heat-sink shell 1.

Preferably, the heat-sink shell 2 is aluminium alloy heat-sink shell.In 1 outer cladding heat-sink shell 1 of instrumentation tubes, it is able to solve height Temperature section instrumentation tubes 1 are heated excessively high problem.Because the heat-sink shell 1 can microabsorption heat, to protect the work of high temperature section The temperature for making pipe 1 is unlikely to excessively high, reduces the consumption of instrumentation tubes 1, improves the service life of this high temperature section instrumentation tubes 1, heat-sink shell One 2 is good using the material thermal effect that disappears of aluminium alloys.

Preferably, the inside of the heat-sink shell 25 is copper aluminium mixed plate filled layer, and the outer surface of the heat-sink shell 25 is Black concrete jacket.Because black concrete and copper aluminium mixed plate can be carried out effectively the absorption transmitting of heat, heat dissipates The effect of mistake is relatively small, and instrumentation tubes 1 were worked in the case where winter, by inside the heat-sink shell 25 If copper aluminium mixed plate filled layer, and be black concrete jacket by the outer surface of heat-sink shell 25, it can prevent because heat preservation is inadequate Sufficiently and ambient weather is too cold, and causes the water flow inside instrumentation tubes 1 that the demand heat of work is not achieved.

Further, the heat transfer device 3 is copper aluminium mixing mandrel body, has outstanding thermal conduction effect；The heat transfer device 3 Equipped with multiple, heat transfer efficiency can be improved, and be uniformly distributed along the circumferential and axial of the instrumentation tubes 1, can conduct heat more It is even, improve heat-transfer effect.

Further, the heat transfer device 3 is connect with 1 inner welded of instrumentation tubes.Heat transfer device 3 is by being welded on instrumentation tubes Instrumentation tubes 1 are kept fixed inside 1.

Alternatively, as shown in Fig. 2, the heat transfer device 3 and the instrumentation tubes 1 are connected by pipe clamp 301, it can not be to instrumentation tubes 1 surface causes to damage, and easy to disassemble；The heat transfer device 3 is connect with heat-sink shell 25 by support protective case, Neng Gouzhi Heat-sink shell 25 is supportted, and is capable of fixing heat transfer device 3 and heat-sink shell 25；The pipe clamp 301 is perpendicular to 1 axial direction of instrumentation tubes Cross sectional shape is arc, and pipe clamp 301 is arc, can more be bonded instrumentation tubes 1, improves heat transfer device 3 and the connection of instrumentation tubes 1 is strong Degree, is bonded heat transfer device and instrumentation tubes more, improves heat-conducting effect；Specifically, the end of the pipe clamp is equipped with connecting plate 302, institute It states and is connected between pipe clamp 301 by bolt 305, specifically, bolt 305 passes through on connecting plate 302 screw hole for two neighboring pipe 301 connection of folder；The support protective case includes inner supporting member 303 and outer support member 304, and one end of the outer support member 304 passes through heat absorption Layer 25 is connect with inner supporting member 303, can be easily installed and dismantle heat-sink shell 25, the inner supporting member 303 is integrated with heat transfer device 3 Formula design, the one end of the inner supporting member 303 far from heat transfer device 3 are bonded with the inner surface of the heat-sink shell 25, the outer support member 304 are bonded with the outer surface of the heat-sink shell 25, are more conducive to inner supporting member 303 in this way and outer support member 304 preferably clamps heat-sink shell 25；The outside of the outer support member 304 is equipped with thermal insulation layer 6, can be avoided heat and scatters and disappears from outer support member 304.

Specifically, one end that the outer support member 304 passes through heat-sink shell 25 is equipped with stud, in the inner supporting member 303 of corresponding stud It is equipped with screw hole, when installation, outer support member 304 is screwed in into inner supporting member 303, i.e. stud and screw hole cooperation, realizes inner supporting member 303 and outer The connection of support member 304.

Further, multiple strainers 7 are equipped in the instrumentation tubes 1, iron rust, iron filings, the water inside instrumentation tubes 1 can be intercepted The sundries such as dirt, and increase strainer 7 and quantity is set, it can be improved the effect of sundries blocking；Preferably, in the instrumentation tubes 1 Strainer 7 is arranged in stage junction, and stage junction is the end of instrumentation tubes 1, and near 1 junction of instrumentation tubes, this is instrumentation tubes 1 Because the stage junction of instrumentation tubes 1 is easier to corrode, stage junction is easier to generate sundries, so connecting in the stage Place's setting strainer 7 is connect, can prevent household internal instrumentation tubes 1 from being blocked because using all the year round, reduce later period cleaning replacement Trouble.

As shown in figure 3 or 4, the strainer 7 includes strainer 1 and strainer 2 702, the strainer 1 and strainer two 702 grid is overlapped, and grid is one group of parallel straight line, and the strainer 2 702 is mounted on the sliding slot in the instrumentation tubes 1 In 104, the top of the strainer 2 702 is equipped with rotating device 8.Specifically, the sliding slot 104 is along instrumentation tubes 1 inner surface week To annular groove.

As shown in figure 3, the grid of strainer 1 and strainer 2 702 is overlapped, rotating device 8 rotates strainer in left side at this time Rotating device 8 on 2 702, rotating device 8 rotates in sliding slot 104 with electric filter 2 702, as shown in figure 5, rotating device 8 On right side, the grid of strainer 2 702 and strainer 1 forms angle at this time, forms fine and closely woven strainer, that is, increases 7 grid of strainer Density, improve filter effect；Moreover, in Fig. 3, the water flow in instrumentation tubes 1 is big, in Fig. 4, more due to strainer 7 It is fine and closely woven, so when instrumentation tubes 1 in water flow reduce, so strainer 7 can also adjust the water flow in instrumentation tubes 1；Root Factually border installation effect can be deleted if strainer 7 is affected to 1 water flow inside of instrumentation tubes.

As shown in figure 4, the rotating device 8 includes connecting rod 801, the lower end of the connecting rod 801 and the strainer two 702 703 top of filter frame connection, the top of the connecting rod 801 is cased with sleeve 802, the sleeve 802 and the connecting rod 801 are connected by compressed spring 803.Cavity 101, the cavity are being equipped with perpendicular to axial 1 top of instrumentation tubes of instrumentation tubes 1 Rotating device 8 is equipped in 101, cavity 101 is rotated for rotating device 8, and the cavity 101 is connected to the sliding slot 104, described The top of cavity 101 is equipped with cover board 1, and the cover board 1 is arc, one end of the cover board 1 and the work Pipe 1 is rotatablely connected by pivot pin, and the other end of the cover board 1 is connect with the instrumentation tubes 1 by stud 103.

When not needing adjustment strainer 2 702, cover board 1 covers the cavity 101 in instrumentation tubes 1, can be avoided work Water in pipe 1 is overflowed out of cavity 101, and to improve sealing effect, sealant is arranged in the lower surface of the cover board 1. When needing to operate adjustment strainer 2 702 of rotating device 8, cover board 1 is opened, due to 802 He of sleeve in rotating device 8 Connecting rod 801 is directly connected by compressed spring 803, so compressed spring 803 can be stretched when cover board 1 is opened, makes to cover Cylinder 802 is by outside thrust, so that the overall length of sleeve 802 and connecting rod 801 increases, operates convenient for operator.

In order to improve the bonding strength of sleeve 802 and connecting rod 801, and avoid compressed spring 803 damage when, Bu Nengzeng When the overall length of long sleeve 802 and connecting rod 801, auxiliary chute 804, the sleeve 802 are equipped in the connecting rod 801 Lower end be equipped with sliding block, the sliding block puts in the auxiliary chute 804.It needs in use, operator pinches sleeve 802, The sliding block of sleeve 802 slides in the auxiliary chute 804 of connecting rod 801, so that the overall length of sleeve 802 and connecting rod 801 Increase or reduces；Moreover, when sliding block in auxiliary chute 804, avoids compressed spring 803 from pushing sleeve 802, due to compressed spring 803 and sleeve 802 be detached from, and occur sleeve 802 be detached from the problem of.

As shown in Fig. 3 or 5, the heat-sink shell 1 opens up window 1 on the position of corresponding cover board 1, opens up Window 1 can outwardly open convenient for cover board 1；The heat-sink shell 25 is opened on the position of the correspondence window 1 If window 2 501, setting window 2 501 can open cover board 1 convenient for operator and carry out the operation to rotating device 8； The outside of the window 2 501 is equipped with the cover board 2 502 being attached thereto, and the cover board 2 502 is removable with the heat-sink shell 25 Connection is unloaded, in this way, it is able to maintain the sealing of hollow structure 4, the material of the cover board 2 502 and 25 phase of heat-sink shell Together, the reduction of the effective endotherm area of extexine 5 will not be led to because of window 2 501 is opened up on heat-sink shell 25 in this way.

Claims (9)

1. a kind of thermodynamic transport energy saving pipeline, the instrumentation tubes including being used for transmission heat-conducting medium, which is characterized in that the instrumentation tubes It is successively enclosed with heat-sink shell one and heat-sink shell two outside, is hollow structure between the heat-sink shell one and heat-sink shell two, it is described hollow Heat transfer device is equipped in structure, the both ends of the heat transfer device are connect with instrumentation tubes and heat-sink shell two respectively.

2. a kind of thermodynamic transport energy saving pipeline according to claim 1, which is characterized in that the heat transfer device is the mixing of copper aluminium Mandrel body, the heat transfer device are equipped with multiple, and are uniformly distributed along the circumferential and axial of the instrumentation tubes.

3. a kind of thermodynamic transport energy saving pipeline according to claim 2, which is characterized in that the heat transfer device and the work Pipe is connected by pipe clamp, and the heat transfer device is with heat-sink shell two by supporting protective case to connect.

4. a kind of thermodynamic transport energy saving pipeline according to claim 3, which is characterized in that the pipe clamp is perpendicular to work The cross sectional shape of pipe axial direction is arc, is bolted between the pipe clamp.

5. a kind of thermodynamic transport energy saving pipeline according to claim 3, which is characterized in that the support protective case includes interior Support member and outer support member, one end of the inner supporting member are connect with heat transfer device, the inner supporting member one end and heat-sink shell far from heat transfer device Two inner surface fitting, one end of the outer support member pass through heat-sink shell two and connect with inner supporting member, and the outer support member is far from inner supporting member One end be bonded with the outer surface of heat-sink shell two.

6. a kind of thermodynamic transport energy saving pipeline according to claim 1, which is characterized in that be equipped in the instrumentation tubes multiple Strainer, the strainer include strainer one and strainer two, and the grid of the strainer one and strainer two is overlapped, and grid is one group flat Capable straight line, the strainer two are mounted in the sliding slot in instrumentation tubes, and the top of the strainer two is equipped with rotating device.

7. a kind of thermodynamic transport energy saving pipeline according to claim 6, which is characterized in that the rotating device includes connection Bar, the lower end of the connecting rod are connect with the filter frame top of the strainer two, and the top of the connecting rod is cased with sleeve, the set Cylinder is connected with connecting rod by elastic component, and the elastic component is in compressive state.

8. a kind of thermodynamic transport energy saving pipeline according to claim 6, which is characterized in that the top of the instrumentation tubes is equipped with Cavity, the cavity is interior to be equipped with rotating device, and the cavity is connected to the sliding slot, and the top of the cavity is equipped with cover board one, The cover board one is arc, and one end of the cover board one is connect with instrumentation tubes hinge.

9. a kind of thermodynamic transport energy saving pipeline according to claim 8, which is characterized in that the heat-sink shell one is covered corresponding Window one is opened up on the position of plate one, the heat-sink shell two opens up window two, the window on the position of the correspondence window one The outside of mouth two is equipped with the cover board two being attached thereto.