CN207789290U - Heat preservation still kettle system for producing aerated bricks - Google Patents
Heat preservation still kettle system for producing aerated bricks Download PDFInfo
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- CN207789290U CN207789290U CN201820185504.9U CN201820185504U CN207789290U CN 207789290 U CN207789290 U CN 207789290U CN 201820185504 U CN201820185504 U CN 201820185504U CN 207789290 U CN207789290 U CN 207789290U
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Abstract
The utility model is related to aerated bricks manufacturing fields,More particularly to being a kind of for producing the heat preservation still kettle systems of aerated bricks,Including still kettle and cylinder,Still kettle is connected to by air inlet pipe with cylinder,Still kettle side is provided with kettle cover,Still kettle cavity is provided in still kettle,The air inlet of still kettle is connect with air inlet pipe,The gas outlet of still kettle is connect with escape pipe,Air inlet pipe and an air outlet pipe is connected to still kettle cavity,It further include heat preservation liquid storage tank,Incubation cavity is additionally provided in still kettle,Incubation cavity is set to still kettle cavity periphery,The inlet of incubation cavity is connect with inlet tube,The liquid outlet of incubation cavity is connect with outlet tube,Outlet tube is connected to heat preservation liquid storage tank inlet,It is mostly flange arrangement to solve existing still kettle internal cavity,Its heat insulation effect is bad,After opening kettle cover and replacing aerated bricks,Temperature decrease needs the long period to preheat in still kettle,Subsequently steam pressure needs to rekindle coal again,The problem of causing the wasting of resources.
Description
Technical field
The utility model is related to aerated bricks manufacturing fields, and in particular to be a kind of heat preservation still kettle for producing aerated bricks
System.
Background technology
Autoclave aerated concrete building block, also referred to as aerated bricks are with flyash, lime, cement, gypsum, and slag etc. is main
Appropriate foaming agent, conditioning agent is added in raw material, and bubble stabilizer is stirred through dispensing, cast, quiet to stop, the works such as cutting and high-pressure steaming and cultivating
Skill process and a kind of manufactured celluar concrete product.
Aerated bricks production when can use arrive still kettle, still kettle after completing building block steam pressure, in kettle air pressure generally keep
High-temperature vapour is generated by coal-fired in 1.0Mpa or so, kettle, since still kettle internal cavity is mostly flange arrangement, heat preservation
It is ineffective, frequently preheating is needed when beginning to use and interval use, while when opening both ends kettle cover taking-up aerated bricks, kettle
Interior temperature decrease improves production cost.
Therefore it needs a kind of simple in structure, prevents from opening temperature in the kettle rapid drawdown after kettle cover by the way that heat-insulated cavity is arranged, save
Resource reduces preheating time, improves a kind of heat preservation still kettle system for producing aerated bricks of working efficiency.
Utility model content
The utility model is mostly flange arrangement for existing still kettle internal cavity, and heat insulation effect is bad, is opening kettle
After lid replaces aerated bricks, the problem of temperature decrease needs the long period to preheat in still kettle, provides a kind of for producing aerated bricks
Heat preservation still kettle system.
The utility model solves above-mentioned technical problem, the technical solution adopted is that, the heat preservation steam pressure for producing aerated bricks
Kettle system includes still kettle and cylinder, and still kettle is connected to by air inlet pipe with cylinder, and still kettle side is provided with kettle cover, still kettle
It is inside provided with still kettle cavity, the air inlet of still kettle is connect with air inlet pipe, and the gas outlet of still kettle is connect with escape pipe, air inlet
Pipe and escape pipe are connected to still kettle cavity, further include heat preservation liquid storage tank, incubation cavity, incubation cavity are additionally provided in still kettle
Set on still kettle cavity periphery, the inlet of incubation cavity is connect with inlet tube, and the liquid outlet of incubation cavity is connect with outlet tube, goes out liquid
Pipe is connected to heat preservation liquid storage tank inlet.
The purpose designed in this way is, by the way that tubulose incubation cavity is arranged in still kettle cavity periphery, is filled in incubation cavity
Liquid is kept the temperature, specific heat capacity is far longer than air and metal, will not lead to steam pressure because of ventilative when opening kettle cover and taking out aerated bricks
Temperature in the kettle rapid drawdown, convenient second of steam pressurized brick, improves work efficiency, solving existing still kettle internal cavity is mostly
Flange arrangement, heat insulation effect is bad, and after opening kettle cover and replacing aerated bricks, temperature decrease needs the long period pre- in still kettle
The problem of heat.
Being kept in heat preservation liquid storage tank has heat preservation liquid, and user can incite somebody to action according to the liquid replacement port on heat preservation liquid storage tank
The heat preservation liquid export used for a long time, is passed through new heat preservation liquid, and setting liquid replacement port is existing skill on heat preservation liquid storage tank
Art.
Further, circular heating ring is provided in incubation cavity, heating ring set is connected on still kettle cavity periphery.
The purpose designed in this way is, heats ring by setting, can heat, make up to the heat preservation liquid in incubation cavity
Thermal loss caused by when opening kettle cover so that still kettle can continue to use, and substantially shorten preheating time.
It is also possible to the temperature in service hoisting still kettle cavity, is allowed to more be rapidly reached high temperature and high pressure environment, it is complete
At the steam pressure of aerated bricks.
Optionally, the spacing of adjacent heating ring is equal.
Optionally, still kettle cavity is frustum cone structure, and one end diameter close to kettle cover is less than one end diameter far from kettle cover,
And incubation cavity is more than one end cavity thickness far from kettle cover close to one end cavity thickness of kettle cover.
The purpose designed in this way is, by setting incubation cavity and still kettle cavity to the small structure in the big one end in one end,
And the two size is mutually adapted, and is convenient for the transmission of temperature, since the place close to kettle cover is more prone to contact with external environment, is dropped
Warm speed is fast, therefore incubation cavity thickness is thicker.
Optionally, air inlet pipe and still kettle cavity junction are located at still kettle cavity top, and far from kettle cover, escape pipe and
Still kettle cavity junction is located at still kettle cavity lower part, and close to kettle cover.
Further, the inlet of incubation cavity is located at incubation cavity bottom, and far from kettle cover, and the liquid outlet of incubation cavity, which is located at, to be protected
Warm top of chamber, and close to kettle cover.
The purpose designed in this way is, by the way that escape pipe, air inlet pipe, outlet tube and inlet tube position is arranged, is allowed to be formed
The transmission of heat is convenient in convection current, improves heat insulation effect.
The beneficial effects of the utility model include at least following one;
1, by the way that tubulose incubation cavity is arranged in still kettle cavity periphery, heat preservation liquid is filled in incubation cavity, specific heat capacity is remote
Much larger than air and metal, temperature decrease in still kettle will not be led to because of ventilative when opening kettle cover and taking out aerated bricks, conveniently
Second of steam pressurized brick, improves work efficiency, and it is mostly flange arrangement to solve existing still kettle internal cavity, heat preservation effect
Fruit is bad, after opening kettle cover and replacing aerated bricks, the problem of temperature decrease needs the long period to preheat in still kettle.
2, ring is heated by setting, the heat preservation liquid in incubation cavity can be heated, made up caused by when opening kettle cover
Thermal loss so that still kettle can continue to use, and substantially shorten preheating time.
3, the temperature that heating ring can also be in service hoisting still kettle cavity, is allowed to more be rapidly reached high temperature and pressure ring
The steam pressure of aerated bricks is completed in border.
4, by setting incubation cavity and still kettle cavity to the small structure in the big one end in one end, and the two size is mutually suitable
Match, be convenient for the transmission of temperature, since the place close to kettle cover is more prone to contact with external environment, cooling rate is fast, therefore protects
Warm chamber thickness is thicker.
5, it by the way that escape pipe, air inlet pipe, outlet tube and inlet tube position is arranged, is allowed to form convection current, is convenient for the biography of heat
It passs, improves heat insulation effect.
Description of the drawings
Fig. 1 is the heat preservation still kettle system structure diagram for producing aerated bricks;
Fig. 2 is still kettle structural schematic diagram;
In figure label for:1 it is still kettle, 2 be still kettle cavity, 3 be escape pipe, 4 be air inlet pipe, 5 be outlet tube, 6 is
Inlet tube, 7 be incubation cavity, 8 be kettle cover, 9 be heating ring, 10 be cylinder, 11 be heat preservation liquid storage tank.
Specific implementation mode
It is clear in order to enable the purpose of this utility model, technical solution and advantage to be more clear, below in conjunction with attached drawing and
The present invention will be further described in detail for embodiment.It should be appreciated that specific embodiment described herein is only used to
It explains the utility model, is not used to limit the utility model protection content.
Embodiment 1
As depicted in figs. 1 and 2, the heat preservation still kettle system for producing aerated bricks includes still kettle 1 and cylinder 10, steam pressure
Kettle 1 is connected to by air inlet pipe 4 with cylinder 10, and 1 side of still kettle is provided with kettle cover 8, and still kettle cavity 2 is provided in still kettle 1,
The air inlet of still kettle 1 is connect with air inlet pipe 4, and the gas outlet of still kettle 1 is connect with escape pipe 3, and air inlet pipe 4 and escape pipe 3 are equal
It is connected to still kettle cavity 2, further includes heat preservation liquid storage tank 11, incubation cavity 7 is additionally provided in still kettle 1, incubation cavity 7, which is set to, to be steamed
2 periphery of kettle cavity, the inlet of incubation cavity 7 is pressed to be connect with inlet tube 6, the liquid outlet of incubation cavity 7 is connect with outlet tube 5, goes out liquid
Pipe 5 is connected to heat preservation 11 inlet of liquid storage tank.
In use, tubulose incubation cavity is arranged in still kettle cavity periphery, heat preservation liquid is filled in incubation cavity, specific heat capacity is remote
Much larger than air and metal, temperature decrease in still kettle will not be led to because of ventilative when opening kettle cover and taking out aerated bricks, conveniently
Second of steam pressurized brick, improves work efficiency, and it is mostly flange arrangement to solve existing still kettle internal cavity, heat preservation effect
Fruit is bad, and after opening kettle cover and replacing aerated bricks, temperature decrease needs the long period to preheat in still kettle, and subsequently steam pressure needs again
The problem of rekindling coal, causing the wasting of resources.
Embodiment 2
Based on embodiment 1, circular heating ring 9 is provided in incubation cavity 7, heating ring 9 is socketed in outside still kettle cavity 2
It encloses.
In use, setting heating ring, can heat the heat preservation liquid in incubation cavity, make up caused by when opening kettle cover
Thermal loss so that still kettle can continue to use, and substantially shorten preheating time.Heating ring can also service hoisting still kettle chamber
Internal temperature is allowed to more be rapidly reached high temperature and high pressure environment, completes the steam pressure of aerated bricks.
Embodiment 3
Based on embodiment 2, the spacing of adjacent heating ring 9 is equal.
Embodiment 4
Based on embodiment 1, still kettle cavity 2 is frustum cone structure, and one end diameter close to kettle cover 8 is less than far from kettle cover 8
One end diameter, and incubation cavity 7 is more than one end cavity thickness far from kettle cover 8 close to one end cavity thickness of kettle cover 8.
In use, set incubation cavity and still kettle cavity to the small structure in the big one end in one end, and the two size is mutually suitable
Match, be convenient for the transmission of temperature, since the place close to kettle cover is more prone to contact with external environment, cooling rate is fast, therefore protects
Warm chamber thickness is thicker.
Embodiment 5
Based on embodiment 4, air inlet pipe 4 is located at 2 top of still kettle cavity with 2 junction of still kettle cavity, and far from kettle cover
8, escape pipe 3 is located at 2 lower part of still kettle cavity with 2 junction of still kettle cavity, and close to kettle cover 8.
Embodiment 6
Based on embodiment 5, the inlet of incubation cavity 7 is located at 7 bottom of incubation cavity, and far from kettle cover 8, incubation cavity 7 goes out liquid
Mouth is located at 7 top of incubation cavity, and close to kettle cover 8.
In use, setting escape pipe, air inlet pipe, outlet tube and inlet tube position, are allowed to form convection current, it is convenient for the biography of heat
It passs, improves heat insulation effect.
Claims (6)
1. the heat preservation still kettle system for producing aerated bricks, including still kettle(1)And cylinder(10), the still kettle(1)It is logical
Cross air inlet pipe(4)With cylinder(10)Connection, still kettle(1)Side is provided with kettle cover(8), still kettle(1)Inside it is provided with still kettle
Cavity(2), still kettle(1)Air inlet and air inlet pipe(4)Connection, still kettle(1)Gas outlet and escape pipe(3)Connection, institute
State air inlet pipe(4)And escape pipe(3)With still kettle cavity(2)Connection, it is characterised in that:It further include heat preservation liquid storage tank
(11), the still kettle(1)Inside it is additionally provided with incubation cavity(7), incubation cavity(7)Set on still kettle cavity(2)Periphery, incubation cavity
(7)Inlet and inlet tube(6)Connection, incubation cavity(7)Liquid outlet and outlet tube(5)Connection, the outlet tube(5)With guarantor
Warm liquid storage tank(11)Inlet is connected to.
2. the heat preservation still kettle system according to claim 1 for producing aerated bricks, it is characterised in that:The incubation cavity
(7)Inside it is provided with circular heating ring(9), the heating ring(9)It is socketed in still kettle cavity(2)Periphery.
3. the heat preservation still kettle system according to claim 2 for producing aerated bricks, it is characterised in that:Add described in adjacent
Hot ring(9)Spacing it is equal.
4. the heat preservation still kettle system according to claim 1 for producing aerated bricks, it is characterised in that:The still kettle
Cavity(2)For frustum cone structure, close kettle cover(8)One end diameter be less than far from kettle cover(8)One end diameter, and incubation cavity(7)
Close to kettle cover(8)One end cavity thickness be more than far from kettle cover(8)One end cavity thickness.
5. the heat preservation still kettle system according to claim 4 for producing aerated bricks, it is characterised in that:The air inlet pipe
(4)With still kettle cavity(2)Junction is located at still kettle cavity(2)Top, and far from kettle cover(8), escape pipe(3)With still kettle
Cavity(2)Junction is located at still kettle cavity(2)Lower part, and close to kettle cover(8).
6. the heat preservation still kettle system according to claim 5 for producing aerated bricks, it is characterised in that:The incubation cavity
(7)Inlet be located at incubation cavity(7)Bottom, and far from kettle cover(8), incubation cavity(7)Liquid outlet be located at incubation cavity(7)Top
Portion, and close to kettle cover(8).
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CN201820185504.9U CN207789290U (en) | 2018-02-02 | 2018-02-02 | Heat preservation still kettle system for producing aerated bricks |
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CN201820185504.9U CN207789290U (en) | 2018-02-02 | 2018-02-02 | Heat preservation still kettle system for producing aerated bricks |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114953140A (en) * | 2022-05-11 | 2022-08-30 | 都匀开发区茂源建材科技发展有限公司 | Evaporate and press air entrainment brick to evaporate cauldron quick steam discharging device that evaporates |
-
2018
- 2018-02-02 CN CN201820185504.9U patent/CN207789290U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114953140A (en) * | 2022-05-11 | 2022-08-30 | 都匀开发区茂源建材科技发展有限公司 | Evaporate and press air entrainment brick to evaporate cauldron quick steam discharging device that evaporates |
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