CN201670485U - Tank-stored medium heating and heat insulating device - Google Patents
Tank-stored medium heating and heat insulating device Download PDFInfo
- Publication number
- CN201670485U CN201670485U CN2010201791318U CN201020179131U CN201670485U CN 201670485 U CN201670485 U CN 201670485U CN 2010201791318 U CN2010201791318 U CN 2010201791318U CN 201020179131 U CN201020179131 U CN 201020179131U CN 201670485 U CN201670485 U CN 201670485U
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- temperature booster
- tank
- storage tank
- coil pipe
- medium
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Abstract
A tank-stored medium heating and heat insulating device comprises a storage tank, a hot source generator, a heater, a valve, a circulating pump, a pump and a connecting pipeline. The hot source generator adopts a hot medium heater and is connected with the outside of the storage tank through the circulating pump and a circulating medium pipeline. Compared with the prior art, the tank-stored medium heating and heat insulating device has the following advantages that firstly, the heat source device is separated from the storage tank, so that the safety factor is improved; secondly, the design power of the heater is lower; thirdly, the temperature rising speed of a heated medium is quick; fourthly, the defects of large heat source power, large power consumption, easy surface coking of a heating cylinder body and the like are effectively overcome; and the purpose of finishing heating and heat insulation by adopting one machine is achieved.
Description
One, technical field
The utility model relates to a kind of heating arrangement, is specifically related to a kind of tank storage medium heating, attemperator.
Two, background technology
At present, media such as tank storage pitch, the dregs of fat, viscous crude heat, be incubated roping, mainly contain following several mode: 1, pot bottom is established the defeated steam of coil pipe, conduction oil heating method; 2, electric heater snead process.Though it is required that above-mentioned type of heating can solve production, it remains in following defective or deficiency: 1. coil pipe is failed the steam heating method, and steam is bigger to the corrosive property of coil pipe, easily causes coil pipe shortening in service life, has strengthened spending; 2. coil pipe transporting deep fat method because the effectiveness of regenerator of coil pipe is low, and causes energy-saving effect poor; 3. the easy coking in electric heater snead process cartridge heater surface, design horse power require greatly, cost of investment is high.Moreover, because the heated medium heat-radiating properties is poor,, and be difficult to external irradiation the over-cooled drawback of peripheral medium so above-mentioned type of heating all exists the thermal source environment temperature overheated.
Three, utility model content
The purpose of this utility model is exactly that the coil pipe that the tank storage medium adds, heat insulation work exists is perishable in order to solve, the easy coking in cartridge heater surface, power requirement is big and deficiency such as energy-saving effect difference, and a kind of tank storage medium heating, the attemperator that provide.
Its technical scheme is: comprise storage tank, heat source generator, temperature booster, valve, circulation pump, pump and connecting tube.Heat source generator is the thermal medium temperature booster, and it is by circulation pump and the circulating thermal medium plumbing connection outside at storage tank; Described temperature booster comprises coiling temperature booster, lower coil pipe temperature booster that is arranged on tank bottom and the cocycle temperature booster that is arranged on the storage tank middle and upper part, and it is outside and be connected in outer circulating tube between lower coil pipe temperature booster and the cocycle temperature booster to be arranged on storage tank, pipe added the outer tube channel structure in wherein lower coil pipe temperature booster and outer circulating tube adopted, a passage is as the thermal medium passage, and another passage is as the passage of storage tank heated medium; After being connected to lower coil pipe temperature booster, outer circulating tube and cocycle temperature booster successively from the delivery pipe of heat source generator, be connected, form the thermal medium circulation loop with the input pipe of heat source generator; The heated medium passage input end of lower coil pipe temperature booster and tank bottom connect, the other end connects pump after drawing storage tank, and is connected with the heated medium fairlead with the heated medium passage perforation of outer circulating tube respectively with second valve, the 3rd valve by threeway; Outer circulating tube is introduced the same and storage tank perforation of heated medium port of tank inside from tank top; Described coiling temperature booster is arranged on the heated medium passage input end periphery of lower coil pipe temperature booster, and its two ends connect respectively on the input pipe and delivery pipe with heat source generator.
Insert threeway between the thermal medium passage of lower coil pipe temperature booster and outer circulating tube, the pipeline of increase is directly connected on the input pipe of heat source generator, and connects first valve and the 4th valve on its pipeline respectively; Described lower coil pipe temperature booster is for single group or organize serial or parallel connection more, and described coiling temperature booster is single group or many group series connection; Described cocycle temperature booster is single group or many group series connection.Also be provided with temperature, pressure display unit and exhaust-valve on the storage tank.
The utility model has following advantage compared with prior art: 1, Heat source device separates with storage tank, has improved safety factor; 2, heater design power is lower; 3, the heated medium programming rate is fast; 4, deficiencies such as power of heat source is big, energy consumption big, the easy coking in cartridge heater surface have effectively been overcome; Realized heating, being incubated the purpose that a machine is finished.
Four, description of drawings
Fig. 1 is the structural representation of a kind of embodiment of the utility model;
Fig. 2 is the cross section structure figure of lower coil pipe temperature booster and cocycle temperature booster among Fig. 1.
Five, the specific embodiment
A kind of tank storage medium heating, attemperator comprise storage tank, heat source generator, temperature booster, valve, circulation pump, pump and connecting tube.As shown in Figure 1, heat source generator 1 is the thermal medium temperature booster, and it is by circulation pump 2 and the circulating thermal medium plumbing connection outside at storage tank 7; Described temperature booster comprises coiling temperature booster 6, lower coil pipe temperature booster 5 that is arranged on storage tank 7 bottoms and the cocycle temperature booster 8 that is arranged on the storage tank middle and upper part, and it is outside and be connected in outer circulating tube 9 between lower coil pipe temperature booster 5 and the cocycle temperature booster 8 to be arranged on storage tank 7; After being connected to lower coil pipe temperature booster 5, outer circulating tube 9 and cocycle temperature booster 8 successively from the delivery pipe 3 of heat source generator 1, be connected, form the thermal medium circulation loop with the input pipe 4 of heat source generator 1; The heated medium passage input end of lower coil pipe temperature booster 5 and storage tank 7 bottoms connect, the other end is drawn storage tank 7 backs and is connected pump 13, and is connected with the heated medium fairlead with the heated medium passage perforation of outer circulating tube 9 respectively with second valve 13, the 3rd valve 14 by threeway; Outer circulating tube 9 is introduced same and storage tank 7 perforations of storage tank 7 in-to-in heated medium ports from storage tank 7 tops; Described coiling temperature booster 6 is arranged on the heated medium passage input end periphery of lower coil pipe temperature booster 5, and its two ends connect respectively on the input pipe 4 and delivery pipe 3 with heat source generator 1.Insert threeway between the thermal medium passage of lower coil pipe temperature booster 5 and outer circulating tube 9, the pipeline of increase is directly connected on the input pipe of heat source generator 1, and connects first valve 12 and the 4th valve 15 on its pipeline respectively; Described lower coil pipe temperature booster 5 is for single group or organize serial or parallel connection more, and described coiling temperature booster is single group or many group series connection; Described cocycle temperature booster 8 is single group or many group series connection.Also be provided with temperature, pressure display unit 11 and exhaust-valve 10 on the storage tank 7.
As shown in Figure 2, pipe added the outer tube channel structure in described lower coil pipe temperature booster 5 and outer circulating tube 9 adopted, and a passage is as thermal medium passage 18, and another passage is as the passage 19 of storage tank heated medium.
In the utility model, coiling temperature booster 6 and cycle heat exchange device 8 can utilize the metal tube coiling to make.When using this device, at first close first to fourth valve, ON cycle pump 2, the heat medium of delivery pipe 3 outputs of heat source generator 1, by coiling the input pipe 4 that temperature booster 6 flows back to heat source generator 1, this circulation is at first heated near the heated medium the heated medium passage input end of lower coil pipe temperature booster 5; Open the 4th valve 15, the heat medium of the delivery pipe of heat source generator 13 outputs, the hot media channel of the lower coil pipe temperature booster 5 of can flowing through again flows back to the input pipe 4 of heat source generator 1, and this moment, the heated medium of storage tank bottom obtained heating.As close the 4th valve 15, open first valve 12, second valve 13 and pump 16, the heat medium of delivery pipe 3 outputs of heat source generator 1, then can the flow through hot media channel of lower coil pipe temperature booster 5, the hot media channel of outer circulating tube 9 and the input pipe 4 that cocycle temperature booster 8 flows back to heat source generator 1, simultaneously, heated medium in the storage tank 7 can be through the heated medium passage of lower coil pipe temperature booster 5, the heated medium passage of outer circulating tube 9, circulate up and down in storage tank 7 inside, heated medium evenly heats.
Use in the utility model process, can be according to the temperature on the storage tank 7, pressure display unit 11, and in conjunction with the production actual conditions, adjust the open and close of opening first valve 12, second valve 13, the 4th valve 15 and pump, or the size of opening degree can adjust the temperature of heated mediums in the storage tank 7, thereby realizes heating, being incubated the purpose that a machine is finished.Exhaust-valve 10 is used for a jar interior emptying; Opening the 3rd valve 14 can emit medium in the jar.
Storage tank described in this device also comprises semienclosed container, Ru Chi, the pool etc.
Claims (4)
1. tank storage medium heating, attemperator, comprise storage tank, heat source generator, temperature booster, valve, circulation pump, pump and connecting tube, it is characterized in that: heat source generator is the thermal medium temperature booster, and it is by circulation pump and the cycling hot medium plumbing connection outside at storage tank; Described temperature booster comprises coiling temperature booster, lower coil pipe temperature booster that is arranged on tank bottom and the cocycle temperature booster that is arranged on the storage tank middle and upper part, and it is outside and be connected in outer circulating tube between lower coil pipe temperature booster and the cocycle temperature booster to be arranged on storage tank, pipe added the outer tube channel structure in wherein lower coil pipe temperature booster and outer circulating tube adopted, a passage is as the thermal medium passage, and another passage is as the passage of storage tank heated medium; After being connected to lower coil pipe temperature booster, outer circulating tube and cocycle temperature booster successively from the delivery pipe of heat source generator, be connected, form the thermal medium circulation loop with the input pipe of heat source generator; The heated medium passage input end of lower coil pipe temperature booster and tank bottom connect, the other end connects pump after drawing storage tank, and is connected with the heated medium fairlead with the heated medium passage perforation of outer circulating tube respectively with second valve, the 3rd valve by threeway; Outer circulating tube is introduced the same and storage tank perforation of heated medium port of tank inside from tank top; Described coiling temperature booster is arranged on the heated medium passage input end periphery of lower coil pipe temperature booster, and its two ends connect respectively on the input pipe and delivery pipe with heat source generator.
2. tank storage medium heating according to claim 1, attemperator, it is characterized in that: between the thermal medium passage of lower coil pipe temperature booster and outer circulating tube, insert threeway, the pipeline that increases is directly connected on the input pipe of heat source generator, and connects first valve and the 4th valve on its pipeline respectively; Described lower coil pipe temperature booster is for single group or organize serial or parallel connection more, and described coiling temperature booster is single group or many group series connection; Described cocycle temperature booster is single group or many group series connection.
3. tank storage medium heating according to claim 1, attemperator is characterized in that: also be provided with temperature, pressure display unit and exhaust-valve on the storage tank.
4. tank storage medium heating according to claim 1, attemperator, it is characterized in that: described storage tank also comprises semienclosed container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201791318U CN201670485U (en) | 2010-04-27 | 2010-04-27 | Tank-stored medium heating and heat insulating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201791318U CN201670485U (en) | 2010-04-27 | 2010-04-27 | Tank-stored medium heating and heat insulating device |
Publications (1)
Publication Number | Publication Date |
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CN201670485U true CN201670485U (en) | 2010-12-15 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2010201791318U Expired - Fee Related CN201670485U (en) | 2010-04-27 | 2010-04-27 | Tank-stored medium heating and heat insulating device |
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CN (1) | CN201670485U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102730348A (en) * | 2012-07-04 | 2012-10-17 | 天津兆华物流有限公司 | Heatable storage system with an insulation combination and usage method |
RU2516182C2 (en) * | 2012-05-04 | 2014-05-20 | Сергей Александрович Москалев | Device for heating/discharge of tanks containing high-viscosity products |
-
2010
- 2010-04-27 CN CN2010201791318U patent/CN201670485U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
RU2516182C2 (en) * | 2012-05-04 | 2014-05-20 | Сергей Александрович Москалев | Device for heating/discharge of tanks containing high-viscosity products |
CN102730348A (en) * | 2012-07-04 | 2012-10-17 | 天津兆华物流有限公司 | Heatable storage system with an insulation combination and usage method |
CN102730348B (en) * | 2012-07-04 | 2014-06-25 | 天津兆华物流有限公司 | Heatable storage system with an insulation combination and usage method |
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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: 20101215 Termination date: 20130427 |