CN201819592U - Heat conduction facility for heating - Google Patents
Heat conduction facility for heating Download PDFInfo
- Publication number
- CN201819592U CN201819592U CN2010205700356U CN201020570035U CN201819592U CN 201819592 U CN201819592 U CN 201819592U CN 2010205700356 U CN2010205700356 U CN 2010205700356U CN 201020570035 U CN201020570035 U CN 201020570035U CN 201819592 U CN201819592 U CN 201819592U
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- flange
- heat
- tank body
- heat conducting
- ellipse head
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Abstract
The utility model relates to a heat conduction facility for heating, which is formed by serially connecting a plurality of heat conduction devices. Each heat conduction device comprises a tank body, a front elliptical seal head, a rear elliptical seal head, a front saddle support, a rear saddle support, a tube flange inlet and a tube flange outlet. A heat conducting fuel tank is equipped in the lower part inside the tank body. The two ends of the heat conducting fuel tank are respectively provided with a heat conducting oil inlet and a heat conducting oil outlet. The tank body and the front elliptical seal head are in seal connection. A baffle plate is horizontally equipped inside the front elliptical seal head. The tank body and the rear elliptical seal head are also in seal connection. A plurality of heat-collecting tubes are equipped inside the tank body. A conducting liquid inlet is equipped on the upper part of the tank body external periphery while a drain outlet is equipped on the lower part. Each heat conduction device tube flange outlet is connected with the tube flange inlet of the next heat conduction device. Each heat conduction device heat conducting oil outlet is connected with the heat conducting oil inlet of the next heat conduction device through the heat conducting fuel tank. The heat conduction facility for heating in the utility model has the characteristics of simple structure, convenient installation, strong pressure bearing capability, low heat loss and high thermal efficiency.
Description
Technical field
The utility model relates to a kind of heating heat transfer equipment, especially for the heat transfer equipment of urban heat supplying.
Background technology
At present, be used for the urban heat supplying heat transfer equipment heating equipments such as coal-burning boiler, oil burning boiler, water source heat pump units, solar energy are arranged.The boiler combustion coal heats by the circulation of water, though water resource heat pump does not need coal combustion or natural gas, but need to extract a large amount of underground water, also be difficult to 100% and recharge, cause water resource waste, and water source heat pump units to be subjected to the influence of underground water temperature very big, the low more thermal-arrest of underground water temperature is difficult more, and the power consumption of water resource heat pump is very big, and the electricity charge are very high, and the enterprise that much heats is difficult to bear; Present solar heating equipment in the winter time, when outdoor temperature when not having sunlight for-10 ℃, often the heating and the domestic hot-water can not normally use again, be subjected to the influence of ambient temperature very big.No matter use which kind of heat transfer equipment, all be to need the feedwater heating as medium, temperature can not be higher than 100 ℃, causes the waste of unnecessary heat.
Summary of the invention
The technical problems to be solved in the utility model has provided a kind of novel heating heat transfer equipment.This heating heat transfer equipment is not only simple in structure, easy for installation, bearing capacity is big, and heat loss is few, thermal efficiency height.
For overcoming the above problems, concrete technical scheme of the present utility model is as follows: a kind of heating heat transfer equipment, be connected in series by some groups of heat conducting devices and form, described heat conducting device comprises tank body, preceding ellipse head, back ellipse head, preceding saddle support, back saddle support, pipe flange import and pipe flange outlet, be provided with the heat conduction fuel tank below in tank body, the two ends of heat conduction fuel tank are respectively equipped with heat conductive oil inlet and conduction oil outlet; Front end at tank body is provided with the front tube sheet flange, is provided with the front header flange on the end face of preceding ellipse head, and front header flange and front tube sheet flange are horizontally disposed with baffle plate for being tightly connected in preceding ellipse head; The rear end of tank body is provided with the back tube sheet flange, the end face of back ellipse head is provided with the rear header flange, rear header flange and back tube sheet flange are for being tightly connected, be provided with some thermal-collecting tubes between front tube sheet flange and back tube sheet flange, the internal diameter of every thermal-collecting tube communicates with the cavity of preceding ellipse head and back ellipse head; Be provided with the conductive liquid inlet on the top of tank body excircle, be provided with sewage draining exit in the bottom; The pipe flange outlet of every group of heat conducting device links to each other with the pipe flange import of next group heat conducting device, and the conduction oil outlet of every group of heat conducting device links to each other by heat conduction fuel tank circulation pipe with the heat conductive oil inlet of next group heat conducting device.
The excircle of tank body of the one group of heat conducting device in back also is provided with saddle support behind a preceding saddle support and, with the preceding saddle support of last group heat conducting device and afterwards saddle support be connected.
A kind of heating heat transfer equipment, also can be connected in series and form by two groups of heat conducting devices, described heat conducting device comprises tank body, preceding ellipse head, back ellipse head, preceding saddle support, back saddle support, pipe flange import and pipe flange outlet, be provided with the heat conduction fuel tank below in tank body, the two ends of heat conduction fuel tank are respectively equipped with heat conductive oil inlet and conduction oil outlet; Front end at tank body is provided with the front tube sheet flange, is provided with the front header flange on the end face of preceding ellipse head, and front header flange and front tube sheet flange are horizontally disposed with baffle plate for being tightly connected in preceding ellipse head; The rear end of tank body is provided with the back tube sheet flange, the end face of back ellipse head is provided with the rear header flange, rear header flange and back tube sheet flange are for being tightly connected, be provided with some thermal-collecting tubes between front tube sheet flange and back tube sheet flange, the internal diameter of every thermal-collecting tube communicates with the cavity of preceding ellipse head and back ellipse head; Be provided with the conductive liquid inlet on the top of tank body excircle, be provided with sewage draining exit in the bottom; The pipe flange import of one group of heat conducting device of pipe flange outlet and back of last group of heat conducting device links to each other, and the heat conductive oil inlet of one group of heat conducting device of conduction oil outlet and back of every last group of heat conducting device links to each other by heat conduction fuel tank circulation pipe.
Also be provided with thermometer mouth, relief valve port and gauge port on the excircle of the tank body of described every group of heat conducting device, above the ellipse head of back, be provided with exhaust outlet.
This heating heat transfer equipment adopts said structure, can utilize conduction oil in the heat conduction fuel tank with the conductive liquid in the heat transferred tank body, conductive liquid can heat up rapidly, heat is passed to water in the thermal-collecting tube again, thereby reach the hydronic process of water, this transmission equipment adopts at least two group heat conducting devices, makes the heating water fully absorb heat.This heat transfer equipment is simple in structure, easy for installation, bearing capacity is big, and heat loss is few in running, thermal efficiency height.
Also be provided with thermometer mouth, relief valve port and gauge port on the excircle of the tank body of described every group of heat conducting device.Its thermometer mouth is installed thermometer; relief valve port is installed safety valve, gauge port setting pressure table, thereby can monitor the pressure and temperature in the tank body at any time, and when the tank body internal pressure is too high; can carry out pressure release by safety valve, the safety of protection tank body.Above the ellipse head of back, be provided with exhaust outlet, can at any time the steam in the tank body be discharged.
Description of drawings
Below in conjunction with accompanying drawing the specific embodiment of the present utility model is described in further detail:
Fig. 1 is the structural representation of heat transfer equipment.
Fig. 2 is Fig. 1 cutaway view.
The specific embodiment
As shown in Figure 1, a kind of heating heat transfer equipment, be connected in series by two groups of heat conducting devices 30 and form, described heat conducting device 30 comprises tank body 6, preceding ellipse head 1, back ellipse head 15, preceding saddle support 20, back saddle support 23, pipe flange import 2 and pipe flange outlet 17, be provided with heat conduction fuel tank 21 below in tank body 6, the two ends of heat conduction fuel tank 21 are respectively equipped with heat conductive oil inlet 16 and conduction oil outlet 24, conduction oil 22 is housed in the heat conduction fuel tank 21, this conduction oil is the triumphant synthetic conduction oil DIPHYL DT of high-temperature liquid-phase that beautifies worker Co., Ltd in Suzhou City, this conduction oil serviceability temperature is between-30 ℃~330 ℃, its advantage is that kinematic viscosity is very little, the power and energy saving; Front end at tank body 6 is provided with front tube sheet flange 4, on the end face of preceding ellipse head 1, be provided with front header flange 3, front header flange 3 and front tube sheet flange 4 are for being tightly connected, in preceding ellipse head 1, be horizontally disposed with baffle plate 25, this baffle plate 25 is used for the water of pipe flange import 2 is sent into thermal-collecting tube 11, after fully absorbing the heat of conductive liquid 10, turn back to the below of baffle plate 25 again, flow out from pipe flange outlet 17; The rear end of tank body 6 is provided with back tube sheet flange 12, the end face of back ellipse head 15 is provided with rear header flange 13, rear header flange 13 and back tube sheet flange 12 are for being tightly connected, as shown in Figure 2, between front tube sheet flange 4 and back tube sheet flange 12, be provided with some thermal-collecting tubes 11, the quantity of this thermal-collecting tube 8 and caliber are decided according to the gross area of tank body and the original temperature of water, the internal diameter of every thermal-collecting tube 11 communicates with the cavity of preceding ellipse head 1 and back ellipse head 15, is family or water for industrial use in this thermal-collecting tube 11; Be provided with conductive liquid inlet 5 on the top of tank body 6 excircles, be provided with sewage draining exit 18 in the bottom, this sewage draining exit 18 promptly can be used for the replacing outlet of conductive liquid, also can be used for the sewage draining exit of conductive liquid, inject conductive liquid in the tank body 6, this conductive liquid is produced by University of Science and Technology, Shenyang solar energy design and installation company, and this conductive liquid operating temperature is at 30 ℃~300 ℃, and its advantage programming rate is fast, heat loss is few, can whole day use, this conductive liquid not with water generation chemical reaction, safe and reliable; The pipe flange import 2 of one group of heat conducting device 30 of pipe flange outlet 17 and back of preceding group heat conducting device 30 links to each other, the conduction oil outlet 24 of every group of heat conducting device 30 links to each other by heat conduction fuel tank circulation pipe 19 with the heat conductive oil inlet 16 of next group heat conducting device 30, heat supply water and conduction oil circulation in each heat conducting device 30 respectively like this.
The excircle of tank body 6 of the one group of heat conducting device 30 in back also is provided with saddle support 23 behind a preceding saddle support 20 and, be connected with back saddle support 23 with the preceding saddle support 20 of last group heat conducting device 30, last like this group heat conducting device 30 can be connected with the one group of heat conducting device 30 in back, has guaranteed the stability of whole heating heat transfer equipment.
Also be provided with thermometer mouth 7, relief valve port 8 and gauge port 9 on the excircle of the tank body 6 of described every group of heat conducting device 30; Above the ellipse head 15 of back, be provided with exhaust outlet 14.
Its course of work is: conductive liquid 10 absorbs the heat of conduction oil 22 in the heat conduction fuel tank 21, reaction fast, and release heat, the water that enters from the pipe flange import 2 of last group of heat conducting device 30, the top of ellipse head 1 before entering, through thermal-collecting tube 11, the heat of conductive liquid is absorbed, thereby water is heated, water after the heating is discharged from pipe flange outlet 17 by the bottom of preceding ellipse head 1, flow into the pipe flange import 2 of next group heat conducting device 30, absorb the heat of conductive liquid 10 releases of back group once more, water temperature is raised once more, and flows out from the pipe flange outlet 17 of next group, finish the heating process of water, simultaneously the conduction oil 22 in the heat conduction fuel tank 21 also enters from last group heat conductive oil inlet 16, after flowing out from the conduction oil outlet 24 of this group, enters next group heat conductive oil inlet 16 through heat conduction fuel tank circulation pipe 19, and flow out from the conduction oil of this group outlet 24, the high conduction oil of temperature is recycled.
The utility model heat transfer equipment heat transfer temperature height, efficient height, speed are used soon, all the year round, can be widely used in industry, civilian.Industrial can be used as, mixed the central hot water engineering of hot equipment, factory's heating; Be not only applicable to Home Heating or domestic hot-water on civilian, more be applicable to heating of sub-district collective or domestic hot-water, particularly high-rise sub-district dwelling house.
Claims (4)
- One kind the heating heat transfer equipment, it is characterized in that: be connected in series by some groups of heat conducting devices (30) and form, described heat conducting device (30) comprises tank body (6), preceding ellipse head (1), back ellipse head (15), preceding saddle support (20), back saddle support (23), pipe flange import (2) and pipe flange outlet (17), below in tank body (6) is provided with heat conduction fuel tank (21), and the two ends of heat conduction fuel tank (21) are respectively equipped with heat conductive oil inlet (16) and conduction oil outlet (24); Front end at tank body (6) is provided with front tube sheet flange (4), is provided with front header flange (3) on the end face of preceding ellipse head (1), and front header flange (3) and front tube sheet flange (4) are horizontally disposed with baffle plate (25) for being tightly connected in preceding ellipse head (1); The rear end of tank body (6) is provided with back tube sheet flange (12), the end face of back ellipse head (15) is provided with rear header flange (13), rear header flange (13) and back tube sheet flange (12) are for being tightly connected, be provided with some thermal-collecting tubes (11) between front tube sheet flange (4) and back tube sheet flange (12), the internal diameter of every thermal-collecting tube (11) communicates with the cavity of preceding ellipse head (1) and back ellipse head (15); Top at tank body (6) excircle is provided with conductive liquid/inlet (5), is provided with sewage draining exit (18) in the bottom; The pipe flange outlet (17) of every group of heat conducting device (30) links to each other with the pipe flange import (2) of next group heat conducting device (30), and the conduction oil outlet (24) of every group of heat conducting device (30) links to each other by heat conduction fuel tank circulation pipe (19) with the heat conductive oil inlet (16) of next group heat conducting device (30).
- 2. heat transfer equipment as claimed in claim 1, it is characterized in that: the excircle of tank body (6) of the one group of heat conducting device in back (30) also is provided with saddle support (23) behind a preceding saddle support (20) and, is connected with back saddle support (23) with the preceding saddle support (20) of last group heat conducting device (30).
- 3. heat transfer equipment as claimed in claim 2, it is characterized in that: be connected in series by two groups of heat conducting devices (30) and form, described heat conducting device (30) comprises tank body (6), preceding ellipse head (1), back ellipse head (15), preceding saddle support (20), back saddle support (23), pipe flange import (2) and pipe flange outlet (17), below in tank body (6) is provided with heat conduction fuel tank (21), and the two ends of heat conduction fuel tank (21) are respectively equipped with heat conductive oil inlet (16) and conduction oil outlet (24); Front end at tank body (6) is provided with front tube sheet flange (4), is provided with front header flange (3) on the end face of preceding ellipse head (1), and front header flange (3) and front tube sheet flange (4) are horizontally disposed with baffle plate (25) for being tightly connected in preceding ellipse head (1); The rear end of tank body (6) is provided with back tube sheet flange (12), the end face of back ellipse head (15) is provided with rear header flange (13), rear header flange (13) and back tube sheet flange (12) are for being tightly connected, be provided with some thermal-collecting tubes (11) between front tube sheet flange (4) and back tube sheet flange (12), the internal diameter of every thermal-collecting tube (11) communicates with the cavity of preceding ellipse head (1) and back ellipse head (15); Be provided with conductive liquid inlet (5) on the top of tank body (6) excircle, be provided with sewage draining exit (18) in the bottom; The pipe flange outlet (17) of last group of heat conducting device (30) links to each other with the pipe flange import (2) of the one group of heat conducting device in back (30), and the conduction oil outlet (24) of every last group of heat conducting device (30) links to each other by heat conduction fuel tank circulation pipe (19) with the heat conductive oil inlet (16) of the one group of heat conducting device in back (30).
- 4. as claim 1,2 or 3 each described heat transfer equipments, it is characterized in that: also be provided with thermometer mouth (7), relief valve port (8) and gauge port (9) on the excircle of the tank body (6) of described every group of heat conducting device (30); Top at back ellipse head (15) is provided with exhaust outlet (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010205700356U CN201819592U (en) | 2010-10-21 | 2010-10-21 | Heat conduction facility for heating |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010205700356U CN201819592U (en) | 2010-10-21 | 2010-10-21 | Heat conduction facility for heating |
Publications (1)
Publication Number | Publication Date |
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CN201819592U true CN201819592U (en) | 2011-05-04 |
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ID=43917542
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2010205700356U Expired - Fee Related CN201819592U (en) | 2010-10-21 | 2010-10-21 | Heat conduction facility for heating |
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CN (1) | CN201819592U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105953620A (en) * | 2016-06-23 | 2016-09-21 | 江阴中南重工有限公司 | Serial efficient floating heat exchanger |
-
2010
- 2010-10-21 CN CN2010205700356U patent/CN201819592U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105953620A (en) * | 2016-06-23 | 2016-09-21 | 江阴中南重工有限公司 | Serial efficient floating heat exchanger |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110504 Termination date: 20131021 |