CN203359263U - Multi-layer steam heating exhaust container - Google Patents

Abstract

The utility model provides a multi-layer steam heating exhaust container. The multi-layer steam heating exhaust container is characterized by comprising multi-layer container units. Every container unit comprises a container heat preservation inner cavity, a container heat preservation outer layer, an air inlet pipe and an exhaust pipe. The multi-layer steam heating exhaust container is reasonable in structure, an object is heating by means of steam, heating effect of the heated object can be guaranteed well, and the steam can flow out of an exhaust passage after heating to be recycled.

Description

Multilayer steam thermal exhaust container

Technical field

The utility model relates to a kind of heating container, relates in particular to a kind of container that relies on steam to be heated.

Background technology

In current logistics field, there is depositing of a lot of article to need holding temperature or heating to preserve, but current equipment all can't realize that storing articles is carried out to actv. keeps temperature or heating, can only seal to realize passive insulation to container by warm material, but this mode limited duration, can not be incubated for a long time, more can not be heated storing articles, this is a problem of needing solution badly.

Summary of the invention

The utility model purpose: the utility model provides a kind of multilayer steam thermal exhaust container, its objective is the problem that solution mode in the past can't be incubated or heat the article of depositing.

Technical scheme: the utility model is achieved through the following technical solutions:

A kind of multilayer multilayer steam thermal exhaust container, it is characterized in that: this container comprises the laminated vessel unit, each container unit comprises vessel insulation inner chamber and vessel insulation skin, air inlet pipe and freeing pipe; Form the container exhaust duct between vessel insulation inner chamber and vessel insulation skin, be provided with inner bag (8) in the vessel insulation inner chamber, form the heating chamber of confession vapor flow between the inwall of inner bag and vessel insulation inner chamber, between heating chamber and inner bag, gas is communicated with; The heating chamber that is in the container unit on top between two adjacent container units is communicated with inner bag and the heating chamber of the container unit of bottom; The top of container unit topmost is provided with airtight closed container lid, and the heating chamber of the container unit of top is communicated with the cavity of closed container lid; Between the container exhaust duct of the container unit that each is adjacent, be interconnected, the container exhaust duct of container unit topmost is communicated with the cavity of closed container lid, and the container exhaust duct of container unit bottom is communicated with freeing pipe by exhausr port; Bottom at the vessel insulation inner chamber of container unit bottom is provided with admission port, and during use, admission port is communicated with air inlet pipe; Heating chamber is communicated with admission port.

Between the vessel insulation inner chamber of each container unit and vessel insulation skin, relatively be fixedly connected with fixing, be connected to form top integral body between a plurality of container units, air inlet pipe and freeing pipe form container bottom integral body, between container top integral body and container bottom integral body, are movable socket connection, the position be connected between air inlet pipe and admission port is provided with controls the air inlet spool that admission port opens and closes, the air inlet spool is arranged in air inlet pipe, the air inlet spool is withstood on the junction sealing that air inlet pipe is provisional of air inlet pipe and admission port by the air inlet spring, also be provided with at the admission port place while using and control the plug thimble that the air inlet valve core opens and closes, the plug thimble protrudes from admission port and makes container top whole during with the whole socket connection in container bottom, the plug thimble can withstand the air inlet spool and move down air inlet pipe is opened, thereby form the structure that air inlet pipe is communicated with heating chamber gas.

The plug thimble is fixed on the admission port place by dowel; Form free air diffuser between plug thimble and admission port; The position be connected with the exhausr port of container exhaust duct at freeing pipe is provided with the exhaust plug of controlling exhaust orifice open/close, exhaust plug is arranged in freeing pipe, the position that exhaust plug is withstood on freeing pipe and is connected with the container exhaust duct by exhaust spring, the provisional sealing by freeing pipe.

The external diameter of air inlet spool is less than the internal diameter of air inlet pipe, and the external diameter of exhaust plug is less than the internal diameter of freeing pipe, and the position be connected on air inlet pipe, with admission port is provided with the air inlet seal ring, and during the air inlet pipe sealing, the air inlet spool withstands the air inlet seal ring; The position be connected on freeing pipe, with exhausr port is provided with the exhaust sealing ring, and when freeing pipe is airtight, exhaust plug withstands the exhaust sealing ring.

Also be provided with the air inlet seal ring between air inlet seal ring and admission port, between exhaust sealing ring and exhausr port, be provided with exhausting seal ring; Be the interconnection system structure that can decompose between a plurality of container units, lock by snap close between two adjacent container units.

Air inlet pipe is connected to steam generator, and steam generator is connected to the pure water water tank, and the pure water water tank is connected to condenser, and condenser is connected to freeing pipe.

Steam generator comprises outer tube, intermediate casing and inner layer pipe; Outer tube is enclosed within outside intermediate casing, and intermediate casing is enclosed within outside inner layer pipe, outer tube and intermediate casing between form to supply water and the steam cavity of aqueous vapor circulation, in inner layer pipe, be also to supply water and the steam cavity of aqueous vapor circulation; Form coil bore between intermediate casing and inner layer pipe, induction coil is set in coil bore.

The inwall of coil bore is provided with insulating barrier.

Air inlet pipe and freeing pipe are the internal and external casing structure, and exhaust shroud, on air inlet pipe, forms the passage for exhaust between freeing pipe and air inlet pipe.

Between air inlet pipe and freeing pipe, by the cross casing support, connect.

Advantage and effect: the utility model provides a kind of multilayer steam thermal exhaust container, and this container comprises vessel insulation inner chamber and vessel insulation skin, air inlet pipe and freeing pipe; Form the container exhaust duct between vessel insulation inner chamber and vessel insulation skin, the container exhaust duct is communicated with freeing pipe by exhausr port; Bottom at the vessel insulation inner chamber is provided with admission port, and admission port is communicated with air inlet pipe; Be provided with inner bag in the vessel insulation inner chamber, form the heating chamber for vapor flow between the inwall of inner bag and vessel insulation inner chamber, heating chamber is communicated with admission port; Be provided with the closed container lid with cavity at the outer field top of vessel insulation; Heating chamber and container exhaust duct all are communicated with the cavity of closed container lid.

After container top is whole and container bottom integral body have been pegged graft, admission port is communicated with air inlet pipe, steam enters in the vessel insulation inner chamber from admission port, after steam carries out analgesic or insulation to article in the vessel insulation inner chamber, enter the cavity of closed container lid, enter exhaust duct from this cavity again, discharge through freeing pipe from exhaust duct, complete recycle.

The utility model is rational in infrastructure, utilizes steam to be heated article, can well guarantee to be heated the heating effect of article, and steam can flow out from exhaust duct after heating, carries out cycling and reutilization.In addition, container of the present utility model adopts the form of pegging graft, and utilizes the process of pegging graft to be opened, and reaches good energy-saving effect.The utility model has well solved in the past can't be to being deposited the problem that article are incubated or heat, and utilization is applied.

the accompanying drawing explanation:

The structure principle chart that Fig. 1 is intake and exhaust gas port of the present utility model;

The principle assumption diagram that Fig. 2 is the utility model intake and exhaust;

The spool schematic diagram that Fig. 3 is gas port of the present utility model;

Fig. 4 is vapour cycle structural representation of the present utility model;

The structural representation that Fig. 5 is steam generator of the present utility model;

The structural representation that Fig. 6 is bilayer sleeve of the present utility model;

The lateral plan that Fig. 7 is Fig. 6;

The structural representation that Fig. 8 is casing support.

the specific embodiment:below in conjunction with accompanying drawing, the utility model is described further:

As illustrated in fig. 1 and 2, the utility model provides a kind of multilayer steam thermal exhaust container, and this container comprises the laminated vessel unit, and each container unit comprises vessel insulation inner chamber 1 and vessel insulation skin 2, air inlet pipe 3 and freeing pipe 4; Form container exhaust duct 5 between vessel insulation inner chamber 1 and vessel insulation skin 2, be provided with inner bag 8 in vessel insulation inner chamber 1, form the heating chamber 9 of confession vapor flow between the inwall of inner bag 8 and vessel insulation inner chamber 1, between heating chamber 9 and inner bag 8, gas is communicated with; The heating chamber 9 that is in the container unit on top between two adjacent container units is communicated with inner bag 8 and the heating chamber 9 of the container unit of bottom; The top of container unit topmost is provided with airtight closed container lid 7, and the heating chamber 9 of the container unit of top is communicated with the cavity 10 of closed container lid 7; Between the container exhaust duct 5 of the container unit that each is adjacent, be interconnected, the container exhaust duct 5 of container unit topmost is communicated with the cavity 10 of closed container lid 7, and the container exhaust duct 5 of container unit bottom is communicated with freeing pipe 4 by exhausr port 111; Bottom at the vessel insulation inner chamber 1 of container unit bottom is provided with admission port 6, and during use, admission port 6 is communicated with air inlet pipe 3; Heating chamber 9 is communicated with admission port 6.

Between the vessel insulation inner chamber 1 of each container unit and vessel insulation skin 2, relatively be fixedly connected with fixing, be connected to form top integral body between a plurality of container units, air inlet pipe 3 and freeing pipe 4 form container bottom integral body, between container top integral body and container bottom integral body, are movable socket connection, the position be connected between air inlet pipe 3 and admission port 6 is provided with controls the air inlet spool 11 that admission port 6 opens and closes, air inlet spool 11 is arranged in air inlet pipe 3, air inlet spool 11 is withstood on air inlet pipe 3 sealing air inlet pipe 3 is provisional with the junction of admission port 6 by air inlet spring 16, also be provided with at admission port 6 places while using and control the plug thimble 17 that air inlet valve core 11 opens and closes, plug thimble 17 protrudes from admission port 6 and makes container top whole during with the whole socket connection in container bottom, plug thimble 17 can withstand air inlet spool 11 and move down air inlet pipe 3 is opened, thereby form the structure that air inlet pipe 3 is communicated with heating chamber 9 gases.

Plug thimble 17 is fixed on admission port 6 places by dowel; Form free air diffuser between plug thimble 17 and admission port 6; The position be connected with the exhausr port of container exhaust duct 5 at freeing pipe 4 is provided with the exhaust plug 12 of controlling exhaust orifice open/close, exhaust plug 12 is arranged in freeing pipe 4, the position that exhaust plug 12 is withstood on freeing pipe 4 and is connected with container exhaust duct 5 by exhaust spring, the provisional sealing by freeing pipe 4.

The external diameter of air inlet spool 11 is less than the internal diameter of air inlet pipe 3, and the external diameter of exhaust plug is less than the internal diameter of freeing pipe 4, and the position be connected on air inlet pipe 3, with admission port 6 is provided with air inlet seal ring 18, and during air inlet pipe 3 sealing, air inlet spool 11 withstands air inlet seal ring 18; The position be connected on freeing pipe 4, with exhausr port is provided with exhaust sealing ring 14, and when freeing pipe 4 is airtight, exhaust plug 12 withstands exhaust sealing ring 14.

Also be provided with air inlet seal ring 19 between air inlet seal ring 18 and admission port 6, be provided with exhausting seal ring 15 between exhaust sealing ring 14 and exhausr port; Be the interconnection system structure that can decompose between a plurality of container units, lock by snap close 666 between two adjacent container units.

Air inlet pipe 3 is connected to steam generator 20, and steam generator 20 is connected to pure water water tank 21, and pure water water tank 21 is connected to condenser 22, and condenser 22 is connected to freeing pipe 4.

Steam generator 20 comprises outer tube 23, intermediate casing 25 and inner layer pipe 26; Outer tube 23 is enclosed within outside intermediate casing 25, and intermediate casing 25 is enclosed within outside inner layer pipe 26, outer tube 23 and intermediate casing 25 between form to supply water and the steam cavity 24 of aqueous vapor circulation, in inner layer pipe 26, be also to supply water and the steam cavity 24 of aqueous vapor circulation; Form coil bore 31, the interior induction coil 28 that arranges of coil bore 31 between intermediate casing 25 and inner layer pipe 26.

The inwall of coil bore 31 is provided with insulating barrier.

Air inlet pipe 3 and freeing pipe 4 are the internal and external casing structure, and freeing pipe 4 is enclosed within on air inlet pipe 3, form the passage for exhaust between freeing pipe 4 and air inlet pipe 3.

Between air inlet pipe 3 and freeing pipe 4, by cross casing support 32, connect.

Closed container lid 7 is locked on vessel insulation skin 2 by the handle kayser, when needs are opened closed container lid 7, opens handle kayser 333 and gets final product.In Fig. 1 222 is jam nut; E in Fig. 2 is the inner bag induction opening, and F is deflation hole.

In Fig. 3 555 is the spool steady ring, and the spool steady ring is arranged in air inlet pipe 3, and air inlet spool 11 is withstood in the upper end of air inlet spring 16, and the spool steady ring is withstood in lower end, makes air inlet spool 11 move up and down on the spool steady ring.

As shown in Figure 4, air inlet pipe 3 is connected to steam generator 20, and steam generator 20 is connected to pure water water tank 21 by water pump, and pure water water tank 21 is connected to condenser 22, and condenser 22 is connected to freeing pipe 4.

As shown in Figure 5, steam generator 20 comprises outer tube 23, intermediate casing 25 and inner layer pipe 26; Outer tube 23 is enclosed within outside intermediate casing 25, intermediate casing 25 is enclosed within outside inner layer pipe 26, outer tube 23 and intermediate casing 25 between form to supply water and the steam cavity 24 of aqueous vapor circulation, it in inner layer pipe 26, is also the steam cavity 24 of water supply and aqueous vapor circulation, form coil bore 31, the interior induction coil 28 that arranges of coil bore 31 between intermediate casing 25 and inner layer pipe 26.Such structure is conducive to utilize more fully the energy of induction coil, because have water to flow through around induction coil 28, will utilize more fully like this induction coil to improve the efficiency that produces steam.

The inwall of coil bore 31 is provided with insulating barrier.

As shown in Fig. 6,7 and 8, air inlet pipe 3 and freeing pipe 4 are the internal and external casing structure, and freeing pipe 4 is enclosed within on air inlet pipe 3, form the passage for exhaust between freeing pipe 4 and air inlet pipe 3.

Between air inlet pipe 3 and freeing pipe 4, by cross casing support 32, connect.Such form, greatly saving space-efficient simultaneously, can be utilized material by actv., simultaneously, makes the standard and reasonable more that connects up

The utility model in use, the container bottom that the formed top of a plurality of container units of container integral body is plugged on to air inlet pipe 3 and freeing pipe 4 formation makes it to be temporarily fixed at the container bottom on the whole on the whole and by screwing container top integral body, at this moment, along with moving down of plug thimble 17, air inlet spool 11 is withstood to be moved down, thereby form the gap of supplied gas circulation around air inlet spool 11, heating chamber 9 is just realized being communicated with by admission port with air inlet pipe 3 like this, at this moment, steam heating controller issuing command, pump working; Pure water enters the steam cavity 24 of steam generator 20, due to the high frequency induction current of induction coil 28 heat very high with the quick generation in metal pipe-wall surface of inner layer pipe 26 at intermediate casing 25, it is steam that the water contacted with metal pipe-wall absorbs tube wall heat flash evapn.Steam is transported to air inlet spool 11 places by the air inlet pipe branch road that divides into groups, enter the heating container heating chamber through admission port again, in heating chamber, steam starts to be heated being saved article, simultaneously, steam enters to that the cavity 10 of closed container lid 7 is interior further to be heated depositing article, and the steam after heating enters to exhaust duct 5.When the steam pressure in exhaust duct 5 is greater than exhaust sealing pressure, exhaust plug 12 is opened, steam enters condenser 22 through freeing pipe 4 and carries out cycling and reutilization, so-called exhaust sealing pressure namely exhaust spring 13 withstands the power of exhaust plug 12, this power can be come fixed as the case may be, because the size of fixed this power belongs to known technology, here repeat no more.After use finishing, oppositely screw container top integral body, take off container top integral body, at this moment, because plug thimble 17 leaves air inlet spool 11, under the power effect of the top of air inlet spring 16, air inlet spool 11 is sealed air inlet pipe by jack-up again.

Steam in the process of discharging at gas in exhaust duct 5 has an insulation effect to insulation inner chamber 1, and because the form that air inlet pipe 3 and freeing pipe 4 are internal and external casing, the steam that what is called is in outside freeing pipe 4 also has the effect of an insulation to air inlet pipe 3.

After the steam of discharging enters condenser, the condensation pure water produces, and now condensate temperature is not less than 90 degree.High-temperature condensation water reclaims and enters the pure water water tank, at this moment the pure water in pure water water tank is heated as the high temperature pure water, and the high temperature pure water that temperature is raised is transported in steam heating pipe again, change steam into, and the water after current circulation has also been saved the energy to a certain extent greatly due to temperature.

The utility model can well complete water to steam, steam to the high temperature condensed water, and condensed water is to the cyclic process of steam, and the steam discharged in cyclic process has produced insulation effect to air inlet pipe, and steam heat is recovered and recycle simultaneously.

The structure that the utility model is multilayer, can well meet the requirement of simultaneously depositing various article, and when needs decompose each container unit, only need to open snap close 666 can decompose two adjacent container units.

Steam water of the present utility model adopts health rank pure water, and pure water, after removing calcium, magnesium ion, can not produce scale formation in the heat process of water.

Claims (10)

1. a multilayer steam thermal exhaust container, it is characterized in that: this container comprises the laminated vessel unit, each container unit comprises vessel insulation inner chamber (1) and vessel insulation outer (2), air inlet pipe (3) and freeing pipe (4); Vessel insulation inner chamber (1) and vessel insulation form container exhaust duct (5) between outer (2), be provided with inner bag (8) in vessel insulation inner chamber (1), form the heating chamber (9) for vapor flow between the inwall of inner bag (8) and vessel insulation inner chamber (1), between heating chamber (9) and inner bag (8), gas is communicated with; The heating chamber (9) that is in the container unit on top between two adjacent container units is communicated with inner bag (8) and the heating chamber (9) of the container unit of bottom; The top of container unit topmost is provided with airtight closed container lid (7), and the heating chamber of the container unit of top (9) is communicated with the cavity (10) of closed container lid (7); Between the container exhaust duct (5) of the container unit that each is adjacent, be interconnected, the container exhaust duct (5) of container unit topmost is communicated with the cavity (10) of closed container lid (7), and the container exhaust duct (5) of container unit bottom is communicated with freeing pipe (4) by exhausr port; Bottom at the vessel insulation inner chamber (1) of container unit bottom is provided with admission port (6), and admission port during use (6) is communicated with air inlet pipe (3); Heating chamber (9) is communicated with admission port (6).

2. multilayer steam thermal exhaust container according to claim 1, it is characterized in that: between the vessel insulation inner chamber (1) of each container unit and vessel insulation outer (2), relatively be fixedly connected with fixing, be connected to form top integral body between a plurality of container units, air inlet pipe (3) and freeing pipe (4) form container bottom integral body, between container top integral body and container bottom integral body, are movable socket connection, the position be connected between air inlet pipe (3) and admission port (6) is provided with controls the air inlet spool (11) that admission port (6) opens and closes, air inlet spool (11) is arranged in air inlet pipe (3), air inlet spool (11) is withstood on air inlet pipe (3) sealing air inlet pipe (3) is provisional with the junction of admission port (6) by air inlet spring (16), when locating also to be provided with use, admission port (6) controls the plug thimble (17) that air inlet valve core (11) opens and closes, plug thimble (17) protrudes from admission port (6) and makes container top whole during with the whole socket connection in container bottom, plug thimble (17) can withstand air inlet spool (11) and move down air inlet pipe (3) is opened, thereby form the structure that air inlet pipe (3) is communicated with heating chamber (9) gas.

3. multilayer steam thermal exhaust container according to claim 2, it is characterized in that: plug thimble (17) is fixed on admission port (6) by dowel and locates; Form free air diffuser between plug thimble (17) and admission port (6); The position be connected with the exhausr port of container exhaust duct (5) at freeing pipe (4) is provided with the exhaust plug (12) of controlling exhaust orifice open/close, exhaust plug (12) is arranged in freeing pipe (4), the position that exhaust plug (12) is withstood on freeing pipe (4) and is connected with container exhaust duct (5) by exhaust spring, by the provisional sealing of freeing pipe (4).

4. multilayer steam thermal exhaust container according to claim 3, it is characterized in that: the external diameter of air inlet spool (11) is less than the internal diameter of air inlet pipe (3), the external diameter of exhaust plug is less than the internal diameter of freeing pipe (4), position upper at air inlet pipe (3), that be connected with admission port (6) is provided with air inlet seal ring (18), and during air inlet pipe (3) sealing, air inlet spool (11) withstands air inlet seal ring (18); Position upper at freeing pipe (4), that be connected with exhausr port is provided with exhaust sealing ring (14), and when freeing pipe (4) is airtight, exhaust plug (12) withstands exhaust sealing ring (14).

5. multilayer steam thermal exhaust container according to claim 4, it is characterized in that: also be provided with air inlet seal ring (19) between air inlet seal ring (18) and admission port (6), be provided with exhausting seal ring (15) between exhaust sealing ring (14) and exhausr port; Be the interconnection system structure that can decompose between a plurality of container units, lock by snap close (666) between two adjacent container units.

6. according to the described multilayer steam of claim 1 or 3 thermal exhaust container, it is characterized in that: air inlet pipe (3) is connected to steam generator (20), steam generator (20) is connected to pure water water tank (21), pure water water tank (21) is connected to condenser (22), and condenser (22) is connected to freeing pipe (4).

7. multilayer steam thermal exhaust container according to claim 6, it is characterized in that: steam generator (20) comprises outer tube (23), intermediate casing (25) and inner layer pipe (26); Outer tube (23) is enclosed within outside intermediate casing (25), intermediate casing (25) is enclosed within outside inner layer pipe (26), outer tube (23) and intermediate casing (25) between form to supply water and the steam cavity (24) of aqueous vapor circulation, in inner layer pipe (26), be also to supply water and the steam cavity (24) of aqueous vapor circulation; Form coil bore (31) between intermediate casing (25) and inner layer pipe (26), induction coil (28) is set in coil bore (31).

8. multilayer steam thermal exhaust container according to claim 7, it is characterized in that: the inwall of coil bore (31) is provided with insulating barrier.

9. multilayer steam thermal exhaust container according to claim 1, it is characterized in that: air inlet pipe (3) and freeing pipe (4) are the internal and external casing structure, it is upper that freeing pipe (4) is enclosed within air inlet pipe (3), forms the passage for exhaust between freeing pipe (4) and air inlet pipe (3).

10. multilayer steam thermal exhaust container according to claim 9, is characterized in that: between air inlet pipe (3) and freeing pipe (4), by cross casing support (32), connect.

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