CN202982709U - Vaporizing device for container sterilization - Google Patents

Abstract

The utility model discloses a vaporizing device for container sterilization. The vaporizing device for the container sterilization comprises a vaporizing chamber, an atomization part, heating components and an air outlet. The atomization part is arranged at one end of the vaporizing chamber, and the air outlet is arranged at the other end of the vaporizing chamber. The heating components are arranged on the vaporizing chamber and comprises a first heating component and a second heating component, the first heating component is arranged in the vaporizing chamber and is arranged in the ejection direction of the atomization part, the first heating component is further arranged on the air channel between the atomization part and the air outlet, and the second heating component is arranged on the bottom portion of the vaporizing chamber. The vaporizing device for the container sterilization is further provided with an air inlet which is communicated with the vaporizing chamber, and the air inlet is arranged at one end, connected with the atomization part, of the vaporizing chamber. The vaporizing device for the container sterilization can provide a complete vaporizing function for sterilization media, can carry out oxygenolysis to generate materials enhancing sterilization performance in a vaporizing process, and has the advantages of being high in sterilization efficiency.

Description

A kind of sterilizing containers gasification installation

Technical field

This utility model relates to a kind of gasification installation of sterilizing containers medium of liquid state.

Background technology

On the container filling streamline, container must be through sterilization treatment before fill.Need to be sprayed at bottleneck around with the granule state sterile medium in the sterilization treatment process and container inner wall on, operation not only can be saved the sterile medium consumption like this, reach the purpose that obtains best sterilization effect with minimum amount, and help to reduce the residual quantity of the sterile medium of container inner wall.In prior art, sterile medium reaches the granule state with the atomizing means usually.Therefore be droplet because the suspension of atomizing gained is skyborne, be covered in after inner surface of container can the one by one little liquid pearl 1 of formation for the sterile medium after the atomizing, and liquid pearl 1 struts on container 2 inner surfacies under self tension force effect.Container 2 inner surfacies are non-shiny surface, and various small bowl configurations are arranged.Liquid pearl 1 can strut the small pit at container 2 inner surfacies on container 2 inner surfacies the time, and the pit position of container 2 inner surfacies and liquid pearl 1 break away from like this, as shown in Figure 1.

In sum, the sterile medium volume of processing the spray pattern that obtains after sterile medium by atomization method is excessive, sterile medium atomizing is carried out the sterilization operation Shortcomings to inner surface of container, and kill bacteria fully especially is positioned at the antibacterial of the small pit of inner surface of container.

The utility model content

The technical problems to be solved in the utility model is to provide a kind of sterilizing containers gasification installation, and it can not only the gasification of liquid sterile medium, and can strengthen the sterilization ability of sterile medium in gasification.

Another technical problem to be solved in the utility model is to provide a kind of can pass through to inject and dilute atomizing shape sterile medium, the sterilizing containers gasification installation that it is very gasified under the effect of rationally distributed heater block.

for solving the problems of the technologies described above, this utility model adopts following technical scheme: this sterilizing containers is provided with vaporizer with gasification installation, atomizing section, heater block, the gas outlet, described atomizing section is positioned at an end of vaporizer, described gas outlet is positioned at the other end of vaporizer, described heater block is arranged on vaporizer, described heater block comprises the first heating component, the second heating component, described the first heating component is positioned at vaporizer inside and is positioned on the injection direction of atomizing section, described the first heating component is also on the air flue between atomizing section and gas outlet, described the second heating component is positioned at the bottom position of vaporizer, described sterilizing containers is with also being provided with air inlet on gasification installation, described air inlet is communicated with vaporizer, described air inlet is positioned at this end that vaporizer connects atomizing section.

The effect of atomizing section is to adopt physical method liquid to be converted into the parts of fine drop shape material, and it can be converted into aqueous water atomizing shape water smoke, also the sterile medium of liquid state can be converted into atomizing shape sterile medium.

Atomizing shape sterile medium from atomizing section in vaporizer is the divergent shape ejection, and at first by the high temperature compressed heated sterile air heating from air inlet, temperature raises, and concentration is diluted simultaneously.Along gas flow, the atomizing shape sterile medium of the dilution of being heated fully contacts with the first heating component, and the shape sterile medium that atomizes this moment is heated and the generation gaseous medium that gasifies.Because the first heating component has enough heating efficiencies, can also provide heat with part gaseous medium oxidation Decomposition when satisfying gasification operation needs, generate the catabolite that has more the sterilization ability.Gaseous medium discharges in the gas outlet along gas flow, and the second heating component can carry out heating and gasifying and process and produce the gas oxidation decomposition course the sterile medium of not gasification in this process, so the gasification efficiency of this gasification installation is at one of percentage hundred.The effect in addition of the second heating component is to keep the temperature of gaseous medium, makes it be difficult for cooling condensing too early.

Significantly, the atomizing shape sterile medium of the dilution of being heated more is conducive to gasification and carries out smoothly, can obtain equally diluting the purpose of atomizing shape sterile medium when passing into the filtrated air of room temperature at air inlet, can guarantee that also gasification carries out smoothly.

In the use procedure that does not pass into high temperature compressed heated sterile air, because the heat that the first heating component, the second heating component can provide is abundant, still can be to the operation that is gasified totally of atomizing shape sterile medium.If the position that the atomizing shape drop that the bottom position that have atomizing shape sterile medium that few part does not gasify to fall into vaporizer this moment is its inside is easy to gather, and be provided with on the second heating component at this position, gasification residue atomizing shape sterile medium just has been partial in the effect that such the second assembly plays in gasification.Equally, still can there be the process of gas oxidation Decomposition on the first heating component and the second heating component, therefore still can improves sterilization ability for sterile medium under such behaviour in service.

As of the present utility model preferred, described vaporizer is provided with relief area between air inlet and the first heating component.In relief area, atomizing shape sterile medium and high temperature compressed heated sterile air are mixed, and be ready for the further gasification of the atomizing shape sterile medium of the dilution of being heated, and more is conducive to gasification and carries out smoothly.

As of the present utility model preferred, described heater block also comprises the 3rd heating component, and described the 3rd heating component is wrapped in the relief area outside.The effect of the 3rd heating component is also for gasification provides enough heats, guarantees that fully the liquid medium in vaporizer can be heated, and has waste heat can produce the process of gas oxidation Decomposition.

As of the present utility model preferred, described sterilizing containers also is provided with isolation room with gasification installation in the vaporizer outside, and described the 3rd heating component is positioned at isolation room.The effect of isolation room is to protect vaporizer, also plays isolated vaporizer and extraneous contacting directly, and reduces the vaporizer thermal loss.

As of the present utility model preferred, described vaporizer outside is provided with temperature sensor.This temperature sensor in order to the vaporizer temperature is realized feedback control, maintains in set point the vaporizer temperature for detection of the temperature of vaporizer.

As of the present utility model preferred, described the first heating component is provided with the taper heating surface in this side towards atomizing section, and described the first heating component is provided with the gap of being convenient to gas communication of running through the first heating component.Atomizing section is the divergent shape ejection medium in certain angle, cause concentration of medium heterogeneity at grade.If adopting heating surface is the heating component of planar structure, certainly will cause this structure heating component local location to receive multimedium and the release heat excessive velocities, to such an extent as to can not in time evaporate liquid medium; Simultaneously, receive a small amount of medium and release heat is excessively slow at the local location of heating component, produce the phenomenon of hoarding heat, cause this position temperature drift, obvious aging sign occurs.The first heating component by adopting taper heating surface technology can be in the face of the position of atomizing section release heat comparatively uniformly, avoid the problems referred to above, realize keeping self long service life when providing heat for gasification.

As of the present utility model preferred, described taper heating surface is concave shape.This structure can make atomizing shape sterile medium contact with the first heating component equably better, thereby obtains desirable gasification.Concave shape has extended atomizing shape sterile medium the be heated path of dilution, and the shape sterile medium that therefore the atomizes dilution time that is heated extends, and has further optimized gasification.

This utility model adopts technique scheme: sterilizing containers can provide the function that is gasified totally for sterile medium with gasification installation, and can decompose to produce strengthen in the simultaneous oxidation of gasification the material of sterilization ability, for the use of this device brings the high advantage of sterilizing efficiency.

Gasification gained sterile medium is in the state of gaseous state, compares on the sterile medium volume of liquid state of atomizing gained obviously little.Thereby the sterile medium of gasification can cover inner surface of container small pit position, to the inner surface of container operation of sterilizing thoroughly comprehensively.

The inner surface of container area that the atomizing shape sterile medium of equal volume and the sterile medium of gasification can cover is different.Significantly, the sterile medium of the gasification area that can the cover area that can cover greater than atomizing shape sterile medium.Therefore when covering container inner surface same area is sterilized operation, compare and use atomizing shape sterile medium, use the sterile medium kill bacteria of gasification can reach the few technique effect of sterile medium consumption, and can reach better sterilization effect.

To be far smaller than atomizing shape sterile medium at the adhesive force of inner surface of container due to the sterile medium that gasifies at the adhesive force of inner surface of container, thereby making gasification gained sterile medium can volatilize fast after sterilizing for inner surface of container, this controls in the residual quantity of inner surface of container sterile medium has great effect.Can avoid the side-effect problem that caused by residual quantity when making this sterilizing containers use with gasification installation.

In sum, this sterilizing containers has the gasification function of one of percentage hundred with gasification installation, strengthens the function of the sterilization ability of sterile medium; Have advantages of that when use can be the inner surface of container operation of sterilizing thoroughly, the advantage that the sterile medium consumption is few, and the advantage that has no side effect.

Description of drawings

The utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Fig. 1 is the structural representation that the atomizing shape sterile medium of atomising device generation in prior art covers inner surface of container;

Fig. 2 is the structural representation that a kind of sterilizing containers of this utility model is used gasification installation;

Fig. 3 is the use schematic diagram that a kind of sterilizing containers of this utility model is used gasification installation;

Fig. 4 is a kind of sterilizing containers of this utility model with gasification installation atomizing shape sterile medium concentration change schematic diagram;

Fig. 5 is that a kind of sterilizing containers of this utility model covers the structural representation of inner surface of container with the gasification sterile medium of gasification installation generation.

The specific embodiment

As shown in Figure 2, sterilizing containers is comprised of evaporator shell 3, vaporizer inner bag 4, heater block with gasification installation.Vaporizer inner bag 4 is fixed in evaporator shell 3.Evaporator shell 3 is tubular structure, and its top is provided with opening, and vaporizer inner bag 4 is fixed on the opening part of evaporator shell 3.Vaporizer inner bag 4 tops are with outside the opening of evaporator shell 3 is fixedly connected with, remainder with evaporator shell 3 without directly contacting.Thus, forming dummy section between evaporator shell 3 and vaporizer inner bag 4 is isolation room 5, and this dummy section is with vaporizer inner bag 4 and evaporator shell 3 space outerpace isolation.Vaporizer inner bag 4 is tubular structure, and the inner space is vaporizer 6, and heater block is fixed on vaporizer inner bag 4.Vaporizer inner bag 4 tops are provided with the i.e. atomizing of atomizing mouth 7 section, and atomizing mouth 7 can with liquid moment atomizing, form 0.5---the liquid pearl of 5um.Be provided with air inlet pipe 8 and escape pipe 9 on the sidewall of vaporizer inner bag 4.Air inlet pipe 8 one ends pass evaporator shell 3, protrude in its outside and as air inlet 10, and the other end is connected to this end at atomizing mouth 7 places on vaporizer inner bag 4.Air inlet pipe 8 is provided with inlet channel, and can make evaporator shell 3 outside by air inlet pipe 8 is that vaporizer 6 is communicated with vaporizer inner bag 4 inner spaces.Escape pipe 9 one ends also pass evaporator shell 3, protrude in its outside and as gas outlet 11, and the other end is connected to the position of close bottom on vaporizer inner bag 4.Escape pipe 9 is provided with outlet passageway, and can make evaporator shell 3 outside by escape pipe 9 is that vaporizer 6 spaces are communicated with vaporizer inner bag 4 inside.

Heater block comprises the first heating component, the second heating component, the 3rd heating component.The heater block function is to provide heat to vaporizer inner bag 4, and it can be the electric heating element that electric energy is converted into heat energy, can be also the heater block by heat Transfer Medium conduction heat, also can be based on the heater block of Electromagnetic Heating principle.In the present embodiment, the first heating component adopts spiral coil heater 12, the second heating component to adopt cast aluminum heaters 13, the 3rd heating component to adopt Muscovitum heating collar 14.Spiral coil heater 12, cast aluminum heaters 13, Muscovitum heating collar 14 are all the electric heating elements that electric energy is converted into heat energy, and energising just can the evolution of heat.Spiral coil heater 12 is positioned at the medium position of vaporizer inner bag 4, and the junction point of itself and vaporizer inner bag 4 is outer without direct contact portion, therefore the heating main body of spiral coil heater 12 is suspended on the inner room of vaporizer inner bag 4.The junction point of spiral coil heater 12 and vaporizer inner bag 4 is positioned at the position near vaporizer inner bag 4 bottoms, and this junction point position also overlaps with the bearing of trend of escape pipe 9.Spiral coil heater 12 tops are away from air inlet pipe 8 link position with vaporizer inner bag 4, and making vaporizer inner bag 4 is that dummy section is relief area 15 at atomizing mouth 7 with spiral coil heater 12 tops.Spiral coil heater 12 be shaped as up big and down small structure, namely air-flow circle diameter on the direction that air inlet pipe 8 flows towards escape pipe 9 reduces successively, is positioned at the circle diameter of air inlet pipe 8 these ends greater than the circle diameter that is positioned at escape pipe 9 these ends.Therefore, the tapered structure of spiral coil heater 12, the inside and outside heating surface that can form taper, inner taper heating surface is towards atomizing mouth 7; Gas communication is convenient in space between each annulus, makes the heat of spiral coil heater 12 to be distributed at its each position, and being unlikely to only provides heat at certain position.The structure of heating surface is subject to the impact in the space between annulus, makes heating surface present discontinuous structure, has increased so on the contrary the contact area that is used for sterile medium.Cast aluminum heaters 13 is fixed on the bottom of vaporizer inner bag 4, and is positioned at the bottom of escape pipe 9 and vaporizer inner bag 4 junctions, therefore there is dummy section in cast aluminum heaters 13 tops between escape pipe 9.The shape size of cast aluminum heaters 13 is identical with the shape size of vaporizer inner bag 4 bottoms, so cast aluminum heaters 13 covers the bottom of whole vaporizer inner bag 4, provides heat from the bottom position of vaporizer 6 for vaporizer 6.The outside that Muscovitum heating collar 14 is wrapped in vaporizer inner bag 4 namely is positioned at isolation room 5, and the position between air inlet pipe 8 and escape pipe 9.Have between 14, two Muscovitum heating collars 14 of two Muscovitum heating collars in the outer wrap of vaporizer inner bag 4 and separate.Near the Muscovitum heating collar 14 of air inlet pipe 8 just the dummy section between atomizing mouth 7 and spiral coil heater 12 tops be the periphery of relief area 15.Just be positioned at the periphery of spiral coil heater 12 near the Muscovitum heating collar 14 of escape pipe 9.The position of vaporizer inner bag 4 between two Muscovitum heating collars 14 is equipped with temperature sensor 16.

During use, spiral coil heater 12, cast aluminum heaters 13, Muscovitum heating collar 14 are connected with temperature sensor and all are connected with the control circuit of outside; As shown in Figure 3, atomizing mouth 7 connects supply air line I 17 and liquid feeding pipeline 18; Air inlet pipe 8 connects the supply air line II 19 that high temperature compressed heated sterile air can be provided; Escape pipe 9 connects with air pipe 20.Supply air line I 17 comprises air accumulator and corresponding pipeline, prestores aseptic compression sky in air accumulator, and air accumulator is communicated with by the inlet end of pipeline with atomizing mouth 7.Liquid feeding pipeline 18 comprises fluid reservoir, dosing pump and corresponding pipeline, and sterile medium is housed in fluid reservoir, and as hydrogen peroxide, it is by the water-soluble gained of hydrogen peroxide, and fluid reservoir is connected with dosing pump by pipeline, and dosing pump is communicated with by the liquid feeding end of pipeline with atomizing mouth 7.Supply air line II 19 comprises air accumulator, electric airheater and corresponding pipeline, prestores equally aseptic compression sky in air accumulator, and air accumulator is communicated with electric airheater by pipeline, and electric airheater is communicated with air inlet pipe 8 by pipeline; Air forms high temperature compressed heated sterile air through the electric airheater post-heating.Comprise jet thrust and corresponding pipeline with air pipe 20, jet thrust is hollow tubular structure, and it is communicated with escape pipe 9 by pipeline.

During startup, spiral coil heater 12, cast aluminum heaters 13, Muscovitum heating collar 14 and temperature sensor 16 are enabled in first energising.Three heat generating components begin electric heating and transform the evolution of heat, temperature sensor 16 detects in real time the temperature of vaporizer inner bag 4 and feeds back to external control circuit, so that external control circuit is implemented to control to spiral coil heater 12, cast aluminum heaters 13, Muscovitum heating collar 14, realize the thermostatic control of vaporizer inner bag 4 temperature.Temperature after thermostatic control in evaporation inner bag 4 is controlled at 150 degrees centigrade of left and right.Then, supply air line II 19, supply air line I 17 and liquid feeding pipeline 18 provide respectively high temperature compressed heated sterile air, compressed air and hydrogen peroxide to sterilizing containers with gasification installation.On atomizing mouth 7, after compressed air and hydrogen peroxide mix, ejection forms diameter 0.5---the liquid pearl of 5um.Atomizing shape hydrogen peroxide moves towards spiral coil heater 12, be subject to the impact from the high temperature compressed heated sterile air at air inlet pipe 8 places in this process, make atomizing shape hydrogen peroxide be diluted and heat by high temperature compressed heated sterile air, obtained thus the atomizing shape hydrogen peroxide that is heated and dilutes.

The process of this dilution refer to high temperature compressed heated sterile air pour vaporizer inner bag 4 inner near near the space atomizing mouths 7 in, cause the concentration reduction of the atomizing shape hydrogen peroxide in this space.As shown in Figure 4, coordinate axes P1 is the atomizing shape hydrogen peroxide concentration situation of change in vaporizer inner bag 4 when not passing into high temperature compressed heated sterile air, wherein X-axis represents that optional position, vaporizer inside is to the vertical dimension of atomizing mouth 7, Y-axis indicated concentration, L represent that air inlet pipe 8 centrages are to the vertical dimension of atomizing mouth 7; Be C1 near the atomizing shape hydrogen peroxide concentration that is positioned at air inlet pipe 8 this moment, and C1 is 8mg/L.Atomizing shape hydrogen peroxide concentration situation of change when passing into high temperature compressed heated sterile air in vaporizer inner bag 4 is as shown in coordinate axes P2, and be C2 near the atomizing shape hydrogen peroxide concentration that is positioned at air inlet pipe 8 this moment, and C2 is 5mg/L.Concentration C 1 is obviously greater than concentration C 2, and this explanation atomizing shape hydrogen peroxide is in the situation that be diluted by high temperature compressed heated sterile air concentration.

Vaporizer inner bag 4 is that dummy section is relief area 15 at atomizing mouth 7 with spiral coil heater 12 tops, the atomizing shape hydrogen peroxide of dilution of being heated continues to move to spiral coil heater 12 this relief area 15 is interior, and the concentration of atomizing shape hydrogen peroxide is further diluted in this process.As shown in Figure 4, Lt represents spiral coil heater 12 tops to the vertical dimension of atomizing mouth 7 in coordinate system P2, is C3 in the concentration of the atomizing shape hydrogen peroxide at this place, and C3 is 1.8mg/L.Concentration C 3 obviously is less than concentration C 2.Can learn thus, the dummy section between atomizing mouth 7 and spiral coil heater 12 tops is playing facilitation aspect dilution atomizing shape hydrogen peroxide, and it has extended the incorporation time of atomizing shape hydrogen peroxide and high temperature compressed heated sterile air.

Just be positioned at the periphery of relief area 15 at the Muscovitum heating collar 14 of vaporizer inner bag 4 outer wrap, the atomizing shape hydrogen peroxide of the dilution of therefore being heated has begun the intensification of being heated in relief area 15, even has gasification to produce.Vaporizer inner bag 4 is at the outside parcel Muscovitum heating collar 14 of spiral coil heater 12 positions, and temperature will be far above the temperature in relief area 15 in this zone.So obtain enough heats after the mixed airflow of the hydrogen peroxide of atomizing shape hydrogen peroxide and gasification enters spiral coil heater 12 positions, beginning gasification fully generates diameter less than the hydrogen peroxide of the gasification of 1nm.The diameter of the hydrogen peroxide of gasification is less than the diameter of atomizing shape hydrogen peroxide.When gasification occured, to accept heat more due to the part hydrogen peroxide, the process of oxidation Decomposition occurs, obtains comprising the oxidation Decomposition product of the free groups such as hydroxyl, active oxygen.

Cast aluminum heaters 13 is positioned at the bottom of vaporizer inner bag 4, this position just in time be positioned on atomizing mouth 7 injection directions and 4 li of vaporizer inner bags apart from spray nozzle position farthest.Cast aluminum heaters 13 positions are positions that the atomizing shape hydrogen peroxide that do not gasify is easy to gather, therefore, cast aluminum heaters 13 effect is set in this position is for the gasification efficiency that guarantees gasification installation at one of percentage hundred, the atomizing shape hydrogen peroxide of not gasification is carried out gasification operation.The hydrogen peroxide of the gasification that cast aluminum heaters 13 can also be passed through for section from it provides heat, and the temperature of the material that produces with the hydrogen peroxide of keeping gasification and oxidation Decomposition makes it be difficult for cooling condensing too early.

The atomizing shape hydrogen peroxide of atomizing mouth 7 ejections is divergent shape in certain angle, thereby causes concentration of medium heterogeneity at grade.The taper heating surface structure of spiral coil heater 12 can receive atomizing shape hydrogen peroxide at differing heights, and the shape hydrogen peroxide that atomizes like this can comparatively be evenly distributed on heating surface.Spiral coil heater 12 sends enough heats, not only allow the hydrogen peroxide of atomizing shape gasify, and oxidation Decomposition produces the free groups such as hydroxyl and active oxygen.The hydrogen peroxide of gasification by the heating region at spiral coil heater 12 places after from escape pipe 9 to carrying with air pipe 20.Jet thrust blows to inner surface of container with the sterile medium of gasification, carries out disinfecting action.

As shown in Figure 5, the material 21 that the hydrogen peroxide of gasification and oxidation Decomposition produce is attached on container 2 inner surfacies, at Nano grade, therefore can be attached to the small pit of inner surface of container, is the container operation of comprehensively sterilizing due to their diameter.During sterilization, hydrogen peroxide strong oxidizing property and oxidation product thereof can direct oxidation antibacterial layer structures, and the cell permeability barrier is destroyed.Process has although it is so produced mortality destruction to antibacterial, but the free groups such as the hydroxyl that oxidation Decomposition produces, active oxygen can also be directly and albumen and the nucleic acid of microorganism react, make the hereditary material of antibacterial lose biological activity, thereby strengthen sterilization ability.

Claims (7)

1. sterilizing containers gasification installation, it is characterized in that: this sterilizing containers is provided with vaporizer (6) with gasification installation, atomizing section, heater block, gas outlet (11), described atomizing section is positioned at an end of vaporizer (6), described gas outlet (11) is positioned at the other end of vaporizer (6), described heater block is arranged on vaporizer (6), described heater block comprises the first heating component, the second heating component, described the first heating component is positioned at vaporizer (6) inside and is positioned on the injection direction of atomizing section, described the first heating component also is positioned on air flue between atomizing section and gas outlet (11), described the second heating component is positioned at the bottom position of vaporizer (6), described sterilizing containers is with also being provided with air inlet (10) on gasification installation, described air inlet (10) is communicated with vaporizer (6), described air inlet (10) is positioned at this end that vaporizer (6) connects atomizing section.

2. sterilizing containers gasification installation according to claim 1, it is characterized in that: described vaporizer (6) is provided with relief area (15) between air inlet (10) and the first heating component.

3. sterilizing containers gasification installation according to claim 1, it is characterized in that: described heater block also comprises the 3rd heating component, described the 3rd heating component is wrapped in relief area (15) outside.

4. sterilizing containers gasification installation according to claim 3 is characterized in that: described sterilizing containers also is provided with isolation room (5) with gasification installation in vaporizer (6) outside, and described the 3rd heating component is positioned at isolation room (5).

5. sterilizing containers gasification installation according to claim 4 is characterized in that: described vaporizer (6) outside is provided with temperature sensor (16).

6. sterilizing containers gasification installation according to claim 1 is characterized in that: described the first heating component is provided with the taper heating surface in this side towards atomizing section, and described the first heating component is provided with the gap of being convenient to gas communication of running through the first heating component.

7. sterilizing containers gasification installation according to claim 6, it is characterized in that: described taper heating surface is concave shape.

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