CN105104589A - Cylinder water-removing machine achieving cylinder heating and internal-blow hot air heating - Google Patents

Abstract

The invention relates to tea processing equipment. A cylinder water-removing machine achieving cylinder heating and internal-blow hot air heating comprises a rack, the rack is provided with a shell, a cylinder is arranged in the shell, and a heating mechanism used for heating the cylinder is arranged between the shell and the cylinder. The machine is characterized in that an air pipe heated through the heating mechanism and located between the cylinder and the shell is further included; the air pipe is provided with an inlet end and an outlet end, the inlet end is connected with an air blower, and the outlet end is communicated with inner space of the cylinder. By means of the cylinder water-removing machine achieving cylinder heating and internal-blow hot air heating, burnt edges and explosive points are not generated easily during water removing, and the utilization rate of energy is high, and the problems that when an existing water-removing machine is used for water removing, burnt edges and explosive points are generated on tea leaves or water is stuffy and energy consumption is high are solved.

Description

The roller fixation machine that cylindrical shell heating is heated with interior blowing hot-air

Technical field

The present invention relates to tea-processing equipment, particularly relate to the roller fixation machine that the heating of a kind of cylindrical shell is heated with interior blowing hot-air.

Background technology

In the process of tealeaves, need to complete, complete and to have been come by green-keeping machine.China Patent No. be 2014207744802, Authorization Notice No. is CN204335703U, name is called in the patent document of " a kind of movable tea green-keeping machine " and namely discloses a kind of existing cylinder type water-removing machine.The basic structure of cylinder tea water-removing machine is for comprising frame, described frame is provided with shell, cylinder is provided with in described shell, be provided with to the heating arrangements of cylinder heating between described shell and cylinder, during use, tealeaves is put in cylinder, realizes completing to cylinder outer wall heating by heating arrangement in the process of rollers roll.The energy that heated roller outer wall is taked has bavin, coal, electricity, combustion gas, electromagnetism etc., and carry out tea green-keeping to cylinder outer wall heating and easily there is the deficiency that tealeaves produces the quick-fried point in burnt limit or water sulks, affect tea leaf quality, and the thermal efficiency is low, energy consumption is high.

Summary of the invention

The invention provides a kind of make to complete not easily produce the quick-fried point in burnt limit and the roller fixation machine that heats with interior blowing hot-air of the high cylindrical shell heating of energy utilization rate, solve and tealeaves to be caused when existing green-keeping machine completes to produce the quick-fried point in burnt limit or water sulks and the high problem of energy consumption.

Above technical problem is solved by following technical proposal: the roller fixation machine that a kind of cylindrical shell heating is heated with interior blowing hot-air, comprise frame, described frame is provided with shell, cylinder is provided with in described shell, be provided with to the heating arrangements of cylinder heating between described shell and cylinder, it is characterized in that, also comprise the airduct heated by described heating arrangements between described cylinder and shell, described airduct is provided with entrance point and the port of export, and described entrance point is connected with air blast, the port of export is communicated with the inner space of described cylinder.In use procedure, heating arrangements is except also utilizing waste heat to heat to airduct to except cylinder outer wall heating, air blast is made to be hot blast through the wind that airduct blows in cylinder, tealeaves not only can be avoided to produce the quick-fried point in burnt limit or water sulks to blowing hot-air in cylinder, and can the efficiency that completes be improved, and the heat of this hot blast is the utilization rate utilizing the waste heat of heating arrangement, can reduce energy consumption successively, improve heat.

As preferably, described shell forms by surrounding along the radially-arranged two half-unit of cylinder, the junction of described two half-unit forms two boundary lines, and described airduct is provided with two sections correspondingly along the endotherm section preventing heat from leaking through the intersection of described two half-unit that described two boundary line bearing of trends extend.Shell is made up of the two half-unit be detachably connected, convenient when the parts being positioned at shell being assembled to shell and taking out.This design then may produce hot gas and leaks out through boundary line place and cause the problem of heat waste, in airduct, now design endotherm section, can effectively avoid heat to leak through boundary line place, just flow out boundary line after the heat of air then for leaking through boundary line place is first absorbed by endotherm section to go, make to be not easy to produce to leak, even if produce the heat that leaks out also less.

As preferably, one end of described two sections of endotherm sections is linked together by the linkage section extended along the circumference of cylinder, the other end of described two sections of endotherm sections is positioned at same one end of described cylinder, and the other end of described two sections of endotherm sections forms described entrance point and the port of export respectively.Compact conformation, layout are convenient, to the good absorbing effect of heat.

As preferably, one end of described cylinder is provided with charging aperture, and the described port of export is communicated with through the inner space of described charging aperture with described cylinder.The charging aperture using cylinder is as the port of export of airduct with the connector of cylinder, and what when not only connecting airduct, convenient and strength-saving but also airduct was blown into cylinder point can also play the effect improving charging smoothness.Tealeaves more effectively can be avoided to produce the discharge of quick-fried of burnt limit phenomenon and steam, the quality of tealeaves is further promoted.

As preferably, the described port of export links together with one end of described cylinder, and the other end of described cylinder is provided with blast pipe.Blast pipe is set, the steam in cylinder can be made more unobstructedly to discharge, thus more effectively avoid producing water sulks phenomenon.

As preferably, the outgassing direction of described blast pipe is away from described cylinder.Can avoid on the steam post liquefaction water clock to shell of discharge and cause Housing failure.

As preferably, the outer peripheral face of described cylinder is provided with the annular guided way that the circumference along cylinder extends, and described frame is provided with directive wheel, and the side face of described directive wheel is provided with the stopper slot that the circumference along directive wheel extends, and described stopper slot is set on described guided way.Can effectively avoid cylinder to produce to move axially.Good stability.

As preferably, described cylinder is provided with external toothing, and described frame is provided with the gear of the described cylinder of driving that same external toothing meshes together.It is convenient when head roll rolls.

As preferably, oil-filling mechanism is provided with in described external toothing, described oil-filling mechanism comprises oil-out, gas supplementing opening, seal head, seal head is driven to seal up the first spring of oil-out, cylinder body and slipper seal are connected to the piston of cylinder body, described cylinder body is divided into air cavity and oil pocket by described piston, described piston is provided with the check valve opened towards air cavity, described piston is linked together with described seal head by connecting rod, described oil-out is connected with described oil pocket by oil duct, described gas supplementing opening is connected with described air cavity by air flue, described oil-out is arranged at the tooth top of described external toothing, the distance that described seal head stretches out the tooth top of described external toothing is greater than the tooth top gap between described external toothing and gear.During use, lubricating oil is loaded onto in oil pocket, when external toothing turn to be provided with oil-out tooth with gears meshing together time, the teeth groove of external toothing drives in seal head indentation gear, is also moved towards oil pocket by connecting rod driven plunger and drive lubricating oil in oil pocket to flow to oil-out through oil duct and flow to fueling cavity thus realize the lubrication to gear when sealing strip inside contracts while making the first spring energy-storage; When seal head staggers with teeth groove, oil-out is sealed in nose heave Xinmi City of effect lower seal of the first spring, the proceduredriven piston of seal head movement moves towards air cavity, now because the pressure in the part outflow of the oil in oil pocket, event oil pocket is less than the pressure of air cavity, check valve is opened and to make in replenish air to oil pocket and to reclaim in oil suction chamber by unnecessary having in fueling cavity, make next time piston press oil pocket time lubricating oil can reliably flow out.Achieve the self-lubricate of gear.

As preferably, described cylinder is provided with some shock-damping structures along the distribution of cylinder circumference, the described shock-damping structure radial direction comprised along cylinder is connected to adjusting nut together, core retainer plate, small end successively towards the butterfly spring of core retainer plate and installing plate, described installing plate be connected with through after described butterfly spring and core retainer plate with the adjusting screw(rod) that described adjusting nut is threaded togather, described core retainer plate is externally connected with rubber ring, described rubber ring is externally connected with quality circles, and described rubber ring is provided with the taper type counterbore pushing down butterfly spring.Cylinder arranges shock-damping structure, the quality circles of shock-damping structure provide mass M for shock-damping structure, rubber ring provides rigidity and damping for shock-damping structure, by the rubber ring of shock-damping structure, the vibrational energy of cylinder is converted to frictional heat energy and consumes, thus reduces vibration & noise when cylinder rotates; Can be adjusted rigidity and the damping of shock-damping structure by the weight of adjustment mass circle and the hardness of rubber ring, the frequency when model frequency of shock-damping structure is resonated with cylinder is consistent; By the precompression of rotating adjusting nut adjustable elastic backing plate, the scope of adjustment shock-damping structure rigidity and damping can be expanded.

As preferably, in described core retainer plate, be provided with rubber bushing.The inner peripheral surface of core retainer plate and adjusting screw(rod) can be avoided to wipe touch to produce vibrating.Vibration damping can be promoted further.

As preferably, the outer peripheral face of described core retainer plate is provided with several and stretches into core retainer plate portion connecting ring in rubber ring, and the inner peripheral surface of described quality circles is provided with several and stretches into quality circles portion connecting ring in described rubber ring.The connection reliability of shock-damping structure can be improved.

As preferably, one in described two half-unit is provided with the first in-flanges, another is provided with the second in-flanges, described two half-unit links together by described first in-flanges together with the second in-flanges sealing clasp joint, described endotherm section is provided with rigid connecting fishplate bar and elastic connection plate, described rigid connecting fishplate bar and elastic connection plate link together with described two half-unit correspondingly, together with being connected under the effect that flicks at described elastic connection plate of described first in-flanges and the second in-flanges, described first in-flanges, second in-flanges, annular seal space is formed between rigid connecting fishplate bar and elastic connection plate.During use, endotherm section connects in the enclosure under the effect of rigid connecting fishplate bar, makes the first in-flanges and the sealing of the second in-flanges be connected to and come together to realize being tightly connected of two half-unit under the elastic force effect of elastic connection plate.The seal request of junction then can increase along with the increase of temperature, in order to also have high sealing effectiveness when seal request when meeting high temperature then must be designed to low temperature, sealing cost can be caused like this to increase.This technical scheme, air pressure then in annular seal space can increase along with the increase of temperature, then the extrapolate thrust of elastic connection plate of air pressure increase can increase, thrust increase then can increase the abutting power of the first in-flanges and the increase of the second in-flanges and sealing effectiveness is increased, and also namely the sealing effectiveness of this technical scheme can increase along with the increase of temperature automatically.

The present invention has following advantage: can make to complete not easily produces the quick-fried point in burnt limit, and color is good, and fragrance is high, and improves energy utilization rate and the output that completes, and reaches the energy-conservation effect improving again tea leaf quality.

Accompanying drawing explanation

Fig. 1 is the front elevational schematic of the embodiment of the present invention one.

Fig. 2 is that schematic diagram is looked on a left side for the embodiment of the present invention one.

Fig. 3 is the close-up schematic view at the C place of Fig. 1.

Fig. 4 is the annexation schematic diagram of shell in the embodiment of the present invention two and endotherm section.

Fig. 5 is the axial schematic diagram of the cylinder in the embodiment of the present invention three.

Fig. 6 is the structural representation of shock-damping structure.

Fig. 7 is the partial schematic diagram of the embodiment of the present invention four.

Fig. 8 is the close-up schematic view at the A place of Fig. 7.

Fig. 9 is the close-up schematic view at the B place of Fig. 7.

In figure: external toothing 1, frame 2, directive wheel 21, gear 22, stopper slot 23, shock-damping structure 3, installing plate 31, butterfly spring 32, core retainer plate 33, core retainer plate portion connecting ring 331, adjusting nut 34, locking nut 35, adjusting screw(rod) 36, rubber bushing 37, rubber ring 38, taper type counterbore 381, quality circles 39, quality circles portion connecting ring 391, shell 4, half portion 41, first in-flanges 42, second in-flanges 43, cylinder 5, guided way 51, charging aperture 52, blast pipe 53, airduct 6, endotherm section 61, segmental arc 62, entrance point 63, the port of export 64, tube connector 65, rigid connecting fishplate bar 66, elastic connection plate 67, air blast 7, oil-filling mechanism 8, oil-out 81, gas supplementing opening 82, seal head 83, first spring 84, cylinder body 85, air cavity 851, oil pocket 852, piston 86, check valve 861, connecting rod 862, oil duct 87, air flue 88, annular seal space 9, seal head stretches out the distance L1 of the tooth top of external toothing, external toothing and with the tooth top gap L2 between gear, boundary line L, the left side S of shell.

Detailed description of the invention

Below in conjunction with accompanying drawing and embodiment, the present invention is further illustrated.

Embodiment one, see Fig. 1, the roller fixation machine that a kind of cylindrical shell heating is heated with interior blowing hot-air, comprises frame 2.Frame 2 is provided with shell 4 and directive wheel 21.Shell 4 is surrounded by the two half-unit 41 distributed along the vertical direction and forms.Two half-unit 41 removable seal links together.The junction of two half-unit 41 forms two boundary line L.Article two, boundary line L distributes along the longitudinal direction.Boundary line L is straight line.Cylinder 5 is provided with in shell 4.The outer surface of cylinder 5 is provided with black table surface layer.The outer peripheral face of cylinder 5 is provided with the annular guided way 51 that the circumference along cylinder extends.The axis of cylinder 5 extends in left-right direction.The left end of cylinder 5 is provided with charging aperture 52.Charging aperture 52 is bucket shape structure.Charging aperture 52 is fixed together with shell 4.Charging aperture 52 is rotatably connected with cylinder 5.The right-hand member of cylinder 5 is connected with blast pipe 53.The outgassing direction of blast pipe 53 is the dead ahead to shell 4, and namely the outgassing direction of certain blast pipe 53 can produce a desired effect towards the left side of the left side S of shell the direction be also away from cylinder.Heating arrangements (heating arrangements is existing mechanism) and airduct 6 is provided with between shell 4 and cylinder 5.The outer surface of airduct 6 is provided with black table surface layer.Airduct 6 comprises two sections of endotherm sections 61 and segmental arc 62.Two sections of endotherm sections 61 extend along two boundary line L line bearing of trends correspondingly and are positioned at inside two boundary line L, and this position relationship can prevent heat from leaking through the intersection of two half-unit 41.Article two, the left end being positioned at the endotherm section in front in endotherm section 61 forms entrance point 63, is positioned at the left end formation port of export 64 of the endotherm section at rear.Entrance point 63 is connected with air blast 7.The port of export 64 is linked together with charging aperture 52 by tube connector 65 and is communicated with cylinder 5 inside, and dividing that airduct 5 flows out is blown towards cylinder 5 inside.Segmental arc 62 is positioned at the arc that the circumference along cylinder 5 extends.Article two, the right-hand member of endotherm section 61 is connected together by segmental arc 62.

See Fig. 2, frame 2 is also provided with gear 22.Gear 22 is driven by mair motor.The outer surface of the middle part of cylinder 5 is provided with external toothing 1.Gear 22 meshes together with external toothing 1.

See Fig. 3, the side face of directive wheel 21 is provided with stopper slot 23.Stopper slot 23 extends along the circumference of directive wheel 21.Stopper slot 23 is located on guided way 51.

See Fig. 1, the tealeaves that during use, bag completes is poured in cylinder 5 through charging aperture 52, and the air-flow that air blast 7 blows out flows through the inside blowing to cylinder 5 after the endotherm section, segmental arc 62, the endotherm section 61 that are arranged in front in endotherm section 61 are positioned at the endotherm section at rear and tube connector 65 through import mouth 52 successively.Rolling 5 produces and rotates under the driving of motor.Heating arrangements is to the heating of the outer surface of cylinder 5, and the heat that heating arrangements produces also heats airduct 6 to during direction radiation away from cylinder, and what make to be blown into cylinder 5 through airduct 6 is divided into hot blast, and the temperature of wind has more than 200 DEG C.The air-flow that namely steam produced flow through cylinder 5 flows out through escape pipe 53.

Embodiment two, the difference with embodiment one is:

See Fig. 4, one in two half-unit 41 is provided with the first in-flanges 42, another is provided with the second in-flanges 43.First in-flanges 42 seals together with clasp joint with the second in-flanges 43.Two half-unit 41 is linked together.Endotherm section 61 is provided with rigid connecting fishplate bar 66 and elastic connection plate 67.Rigid connecting fishplate bar 66 is connected together with the first in-flanges 42 sealed card.Elastic connection plate 67 is connected together with the second in-flanges 43 sealed card.Endotherm section 61 is stressed and be suspended in shell 4 by rigid connecting fishplate bar 66.The elastic force that elastic connection plate 67 produces 20 DEG C time make the first in-flanges 42 and the second in-flanges 43 produce split movement trend and together with being connected to.First in-flanges 42, second in-flanges 43, between rigid connecting fishplate bar 66 and elastic connection plate 67, form annular seal space 9.

In use procedure, when in temperature, height is, air pressure in sealing ring 9 rises, and the elastic force that air pressure rising makes elastic connection plate 67 produce and flicks increases, and elastic force increases the power then making the first in-flanges 42 and the second in-flanges 43 separate and increases thus make sealing effectiveness increase thereupon.

Embodiment three, the difference with embodiment two is:

See Fig. 5, the outer surface of cylinder 5 is provided with some shock-damping structures 3.Shock-damping structure 3 is along the distribution of cylinder 5 circumference.

See Fig. 6, shock-damping structure 3 comprises along rotary drum radial to the locking nut 35 be connected to successively together, adjusting nut 34, core retainer plate 33, small end be towards the butterfly spring 32 of core retainer plate and installing plate 31.Installing plate 31 is connected with adjusting screw(rod) 36.Adjusting screw(rod) 36 is threaded togather with adjusting nut 34 and locking nut 35 through after butterfly spring 32 and core retainer plate 33.Rubber bushing 37 is provided with in core retainer plate 33.Core retainer plate 33 is externally connected with rubber ring 38.The outer peripheral face of core retainer plate 33 is provided with several and stretches into core retainer plate portion connecting ring 331 in rubber ring 38.Rubber ring 38 is provided with the taper type counterbore 381 pushing down butterfly spring 32.Rubber ring 38 is externally connected with quality circles 39.Quality circles 39 are made for steel.The inner peripheral surface of quality circles 39 is provided with several and stretches into quality circles portion connecting ring 391 in rubber ring 38.Shock-damping structure links together with cylinder by being welded in connecting rod by installing plate 31.

Embodiment four, the difference with embodiment three is:

See Fig. 7, in external toothing 1, be provided with oil-filling mechanism 8.The number of oil-filling mechanism 8 is equal with the number of teeth of external toothing 1.

See Fig. 8, oil-filling mechanism 8 comprises oil-out 81, gas supplementing opening 82, seal head 83, first spring 84, cylinder body 85 and piston 86.The oil-out 81 of same oil-filling mechanism and gas supplementing opening 82 are arranged on the tooth top 11 of the same tooth of external toothing 1, the tooth top of same tooth only arranges oil-out and the gas supplementing opening of an oil-filling mechanism, and namely in the present embodiment, the tooth of oil-filling mechanism and external toothing 1 is arranged correspondingly.Seal head 83 and the first spring 84 are arranged in oil-out 81, stretch out tooth top 11 at the effect lower seal head 83 of the first spring 84 and seal up oil-out.The distance L1 that seal head stretches out the tooth top of external toothing be greater than external toothing and with the tooth top gap L2(between gear see Fig. 9).Cylinder body 85 is formed in external toothing 1 in the mode of integrative-structure, is the chamber in external toothing 1.Piston 86 slipper seal is connected to cylinder body 85.Cylinder body 85 is divided into air cavity 851 and oil pocket 852 by piston 86.Piston 86 is provided with the check valve 861 opened towards air cavity 851.Piston 86 is linked together with seal head 83 by connecting rod 862.Connecting rod 862 links together with slipper seal between external toothing 1, and oil-out 81 is disconnected with air cavity 851.Oil-out 81 is connected with oil pocket 852 by oil duct 87.Gas supplementing opening 82 is connected with air cavity 851 by air flue 88.Oil duct 87 and air flue 88 are all be formed in external toothing 1 in the mode of integrative-structure, are the hole in external toothing 1.

The process of the lubrication of the gear in the present invention is:

See Fig. 7, in the process that external toothing 1 rotates, with bottom surface crush seal 83 contraction in external toothing 1 of the teeth groove of gear 22, seal head 83 shrinks and oil-out 81 is opened and makes the first spring 84 energy storage.

See Fig. 9, also moved towards oil pocket 852 by connecting rod 862 driven plunger 86 when seal head 83 shrinks, the pressure increase in oil pocket 852 is closed by check valve 861 and lubricating oil in oil pocket 852 flows to oil-out 81 through oil duct 87 and flows out from oil-out 81 and realize lubrication.

When same gear loses the squeezing action to seal head 83, move outside the effect lower seal head 83 of the first spring 84 and oil-out 81 is sealed up, moved towards air cavity 851 by connecting rod 862 driven plunger 86 when seal head 83 stretches out, pressure drop in oil pocket 852 and pressure increase in air cavity 851, check valve 861 is opened, oil unnecessary in air and fueling cavity 56 is through gas supplementing opening 82, air flue 88 and check valve 861 and flow to oil pocket 852, the air pressure that pressure in oil pocket 852 can be maintained in same gear exterior is equal, so that lubricating oil can squeeze out by piston 86 when oil pocket 852 moves next time.

Claims (10)

1. a cylindrical shell heats the roller fixation machine heated with interior blowing hot-air, comprise frame, described frame is provided with shell, cylinder is provided with in described shell, be provided with between described shell and cylinder to the heating arrangements of cylinder heating, it is characterized in that, also comprise the airduct heated by described heating arrangements between described cylinder and shell, described airduct is provided with entrance point and the port of export, and described entrance point is connected with air blast, the port of export is communicated with the inner space of described cylinder.

2. cylindrical shell according to claim 1 heats the roller fixation machine heated with interior blowing hot-air, it is characterized in that, described shell forms by surrounding along the radially-arranged two half-unit of cylinder, the junction of described two half-unit forms two boundary lines, and described airduct is provided with two sections correspondingly along the endotherm section preventing heat from leaking through the intersection of described two half-unit that described two boundary line bearing of trends extend.

3. cylindrical shell according to claim 2 heats the roller fixation machine heated with interior blowing hot-air, it is characterized in that, one end of described two sections of endotherm sections is linked together by the linkage section extended along the circumference of cylinder, the other end of described two sections of endotherm sections is positioned at same one end of described cylinder, and the other end of described two sections of endotherm sections forms described entrance point and the port of export respectively.

4. cylindrical shell according to claim 3 heats the roller fixation machine heated with interior blowing hot-air, and it is characterized in that, one end of described cylinder is provided with charging aperture, and the described port of export is communicated with through the inner space of described charging aperture with described cylinder.

5. the roller fixation machine that the cylindrical shell heating according to claim 1 or 2 or 3 or 4 is heated with interior blowing hot-air, it is characterized in that, the described port of export links together with one end of described cylinder, and the other end of described cylinder is provided with blast pipe.

6. the roller fixation machine that the cylindrical shell heating according to claim 1 or 2 or 3 or 4 is heated with interior blowing hot-air, it is characterized in that, described cylinder is provided with external toothing, described frame is provided with the gear of the described cylinder of driving that same external toothing meshes together, oil-filling mechanism is provided with in described external toothing, described oil-filling mechanism comprises oil-out, gas supplementing opening, seal head, seal head is driven to seal up the first spring of oil-out, cylinder body and slipper seal are connected to the piston of cylinder body, described cylinder body is divided into air cavity and oil pocket by described piston, described piston is provided with the check valve opened towards air cavity, described piston is linked together with described seal head by connecting rod, described oil-out is connected with described oil pocket by oil duct, described gas supplementing opening is connected with described air cavity by air flue, described oil-out is arranged at the tooth top of described external toothing, the distance that described seal head stretches out the tooth top of described external toothing is greater than the tooth top gap between described external toothing and gear.

7. the roller fixation machine that the cylindrical shell heating according to claim 1 or 2 or 3 or 4 is heated with interior blowing hot-air, it is characterized in that, described cylinder is provided with at least two shock-damping structures along the distribution of cylinder circumference, the described shock-damping structure radial direction comprised along cylinder is connected to adjusting nut together successively, core retainer plate, small end is towards the butterfly spring of core retainer plate and installing plate, described installing plate be connected with through after described butterfly spring and core retainer plate with the adjusting screw(rod) that described adjusting nut is threaded togather, described core retainer plate is externally connected with rubber ring, described rubber ring is externally connected with quality circles, described rubber ring is provided with the taper type counterbore pushing down butterfly spring.

8. cylindrical shell according to claim 7 heats the roller fixation machine heated with interior blowing hot-air, it is characterized in that, is provided with rubber bushing in described core retainer plate.

9. cylindrical shell according to claim 7 heats the roller fixation machine heated with interior blowing hot-air, it is characterized in that, the outer peripheral face of described core retainer plate is provided with several and stretches into core retainer plate portion connecting ring in rubber ring, and the inner peripheral surface of described quality circles is provided with several and stretches into quality circles portion connecting ring in described rubber ring.

10. the roller fixation machine that the cylindrical shell heating according to Claims 2 or 3 or 4 is heated with interior blowing hot-air, it is characterized in that, one in described two half-unit is provided with the first in-flanges, another is provided with the second in-flanges, described two half-unit links together by described first in-flanges together with the second in-flanges sealing clasp joint, described endotherm section is provided with rigid connecting fishplate bar and elastic connection plate, described rigid connecting fishplate bar and elastic connection plate link together with described two half-unit correspondingly, together with being connected under the effect that flicks at described elastic connection plate of described first in-flanges and the second in-flanges, described first in-flanges, second in-flanges, annular seal space is formed between rigid connecting fishplate bar and elastic connection plate.