CN100552318C - The heating and the feeding mechanism of used fluid in the light shading type light-shielding photosensitive material roll packing device - Google Patents

Abstract

A kind of packing device (10) has hot gas organization of supply (64), and it is being associated with thermal shrinkage type package (26) on being wrapped in rolling photosensitive material slice (20) and is arranging, in order to thermal shrinkage type package (26) localized ejection hot gas; And driving mechanism (66), it is used for rotating hot gas organization of supply (64) relatively along the excircle of rolling photosensitive material slice (20).

Description

The heating and the feeding mechanism of used fluid in the light shading type light-shielding photosensitive material roll packing device

The application be that August 27 calendar year 2001, application number are 01130941.5 the applying date, denomination of invention divides an application for the application for a patent for invention of " packing method of light-shielding photosensitive material roll and device and fluid heating and feeding mechanism ".

Technical field

The present invention relates to a kind of method and apparatus of packing the light shading type light-shielding photosensitive material roll, this material webs comprise anti-dazzling screen that shading piece on a rolling photosensitive material slice, a pair of respective opposite end that is installed in the rolling photosensitive material slice, one twine around the elongated photosensitive material slice of rolling and a pair of separately or monoblock type be installed in being used on the respective transversal opposite ends of anti-dazzling screen and concern the thermal shrinkage type package of pyrocondensation to the shading piece neighboring with what cover; The invention still further relates to and a kind ofly utilize calandria to add hot fluid and warmed-up fluid is fed to device on the heating object.

Background technology

Be used in the form of the film employing light shading type light-shielding photosensitive material roll in the plate-making field, it comprises an elongated photosensitive material slice of rolling around the mandrel winding, a pair of shading piece and anti-dazzling screen (shading leader tape) around the elongated photosensitive material slice winding of rolling that is installed in the respective opposite end of the elongated photosensitive material slice of rolling.

Up to now suggestion miscellaneous is being proposed aspect the light shading type light-shielding photosensitive material roll.For example, invention disclosed relates to the easy manufacturing issue of light shading type light-shielding photosensitive material roll among the Japanese Patent Application Publication document No.11-50946.

Concretely, shown in Figure 20 as in the accompanying drawing, disc shading piece 2 is attached on the respective opposite end of a light-shielding photosensitive material roll 1, and the elongated thermal shrinkage type shading leader tape 3 of a pyrocondensation longitudinally twines around light-shielding photosensitive material roll 1.The shading leader tape 3 that is twining passes through adhesive tape 4 fix in position in its outer end.Next, shrink shading leader tape 3 in order to utilize heat, light-shielding photosensitive material roll 1 is introduced in the contraction secret tunnel 5, and shrinks the heater starting in the secret tunnel 5, with heating shading leader tape 3.Shading leader tape 3 shrinks under the effect of heat, so that its opposite ends is forced to take to the intimate state of contact with disc shading piece 2, has so just finished light shading type light-shielding photosensitive material roll 6.

As mentioned above, shrink secret tunnel 5 and be used for pyrocondensation shading leader tape 3.Make large-sized light shading type light-shielding photosensitive material roll 6 if desired, the overall dimensions that then needs to shrink secret tunnel 5 strengthens.The contraction secret tunnel 5 that has strengthened needs bigger installing space, and causes shrinking heater in the secret tunnel 5 used and consume more energy.

In shading secret tunnel 5, shading leader tape 3 and whole light-shielding photosensitive material roll 1 are heated.If 1 pair of heat of light-shielding photosensitive material roll is very responsive, then the quality of light-shielding photosensitive material roll 1 is subjected to the negative effect of the heat that applies in order to shrink shading leader tape 3 easily.

Can use a kind of like this device to shading leader tape 3, it is used for heating such as fluids such as air, and the fluid after will heating is fed on the heating object.This fluid heats and feeding mechanism generally is to construct like this, promptly air can be carried and pass through a heater coil with generation hot gas, and hot gas is fed on the heating object.Usually, fluid heating and feeding mechanism can be drier or air heater.Yet these fluid heating and feeding mechanism are not to design to such an extent that be used for air is joined the high temperature that can cause deformation of body.

A kind of known to be used for air heat be waste gas purification apparatus to the device of high temperature, the particle of its combustible particle form that is used to burn, for example internal combustion engine or the analog carbon black pellet (seeing Japanese Patent Application Publication document No.11-264313) of discharging.

Shown in Figure 21 as in the accompanying drawing, waste gas purification apparatus comprises: the first tubular piece 2b, it has a gas access 1b who is connecting the exhaust outlet of internal combustion engine or analog; The second tubular piece 3b, it is arranged among the first tubular piece 2b; The 3rd tubular piece 4b, it is arranged among the second tubular piece 3b and has a gas vent 5b; And a filter 6b, it is arranged to the multilayer of being made by pottery or analog and is arranged among the 3rd tubular piece 4b.Heater coil 7b is wrapped between the first tubular piece 2b and the second tubular piece 3b, between the second tubular piece 3b and the 3rd tubular piece 4b and between each layer of filter 6b.

The waste gas G that flows into from gas access 1b flows through between the first tubular piece 2b and the second tubular piece 3b and between the second tubular piece 3b and the 3rd tubular piece 4b, and is heated coil 7b and heats.The heat that the particle that holds among the waste gas G is heated coil 7b burns.Waste gas G after the heating is filtered device 6b and filters and discharge from waste gas purification apparatus.

In waste gas purification apparatus, the waste gas G elongated passageway that forms by the first tubular piece 2b that nests together, the second tubular piece 3b and the 3rd tubular piece 4b of flowing through.Waste gas G is fully heated when flowing through elongated passageway.

Yet although the abundant heat exhaust gases G of waste gas purification apparatus, the heat that heater coil 7b produces is easy to leak out from waste gas purification apparatus by the first tubular piece 2b.Therefore, the application scenario that the waste gas heater can not be used in certain component of heating and don't near component is caused heat affecting, the fluid that for example is used for the heater circuit element heats and feeding mechanism.

Need under the environment of material of shading if waste gas purification apparatus is used in processing such as photosensitive material etc., then because heater coil 7b can come out by gas vent 5b, so photosensitive material may be exposed under the aura that heater coil 7b heating produced.Equally, after the temperature of waste gas purification apparatus raise, the first tubular piece 2b itself can be luminous, thereby produce the light that causes the photosensitive material exposure.

Summary of the invention

An overall purpose of the present invention provides a kind of economy and packs the method and apparatus of light shading type light-shielding photosensitive material roll efficiently, and it has simple and small-sized structure, and don't can cause negative effect to the photosensitive material slice of light shading type light-shielding photosensitive material roll.

A main purpose of the present invention provides heating of a kind of fluid and feeding mechanism, even it can not have a negative impact because of the heat that the produces mechanism to the periphery when heating yet.

Another main purpose of the present invention provides a kind of fluid heating and feeding mechanism, even it can not have a negative impact to the peripheral mechanism that is comprising heating object because of the aura that produces when heating yet.

Another main purpose of the present invention provides heating of a kind of fluid and feeding mechanism, and it can add hot fluid efficiently, and warmed-up fluid is fed on the heating object, with heating object effectively.

In order to achieve the above object, the present invention proposes a kind of method of packing the light shading type light-shielding photosensitive material roll, this material webs comprise anti-dazzling screen that shading piece on an elongated photosensitive material slice that is wound into the rolling photosensitive material slice, a pair of respective opposite end that is installed in the rolling photosensitive material slice, one twine around the rolling photosensitive material slice and a pair of separately or monoblock type be installed in being used on the respective transversal opposite ends of anti-dazzling screen and concern the thermal shrinkage type package of pyrocondensation to the neighboring of shading piece with what cover, this method may further comprise the steps:

Excircle along the rolling photosensitive material slice rotates the hot gas organization of supply that is associated with the thermal shrinkage type package relatively; And

To thermal shrinkage type package localized ejection hot gas, concern that with what cover pyrocondensation is to the neighboring of shading piece from above-mentioned hot gas organization of supply to cause the thermal shrinkage type package.

The invention allows for a kind of device of packing the light shading type light-shielding photosensitive material roll, this material webs comprise anti-dazzling screen that shading piece on an elongated photosensitive material slice that is wound into the rolling photosensitive material slice, a pair of respective opposite end that is installed in the rolling photosensitive material slice, one twine around the rolling photosensitive material slice and a pair of separately or monoblock type be installed in being used on the respective transversal opposite ends of anti-dazzling screen and concern the thermal shrinkage type package of pyrocondensation to the neighboring of shading piece with what cover, this device comprises:

The hot gas organization of supply, it is associated with the thermal shrinkage type package, in order to thermal shrinkage type package localized ejection hot gas; And

A driving mechanism, it is used for rotating above-mentioned hot gas organization of supply relatively along the excircle of rolling photosensitive material slice.

The invention allows for and a kind ofly utilize calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, it comprises:

A hollow shell, it has a fluid intake and a fluid passage of setting along the shell inner circumferential surface;

A hollow inner casing, it has a fluid issuing and is arranged in the above-mentioned hollow shell, and above-mentioned hollow inner casing portion within it has a hollow space that is communicated with above-mentioned fluid passage; And

A calandria, it is arranged in the above-mentioned inner casing, is used for heating the fluid that is fed to above-mentioned inner casing by above-mentioned fluid passage;

Structural configuration makes and to be flowed out above-mentioned fluid issuing by the warmed-up above-mentioned fluid of above-mentioned calandria and be fed on the above-mentioned heating object.

The invention allows for and a kind ofly utilize calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, it comprises:

A hollow shell, its have a fluid intake, fluid issuing and one be set in wherein the fluid passage;

A calandria, it is arranged in the above-mentioned hollow shell, is used for heating the fluid that is fed to above-mentioned fluid passage from above-mentioned fluid intake; And

A shading chamber, it has one and is set in labyrinth type fluid passage wherein and is arranged in the above-mentioned fluid issuing;

Structural configuration makes and is discharged from above-mentioned shading chamber and be fed on the above-mentioned heating object by the warmed-up above-mentioned fluid of above-mentioned calandria.

The invention allows for and a kind ofly utilize calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, it comprises:

A hollow shell, it has a fluid intake, a fluid issuing and a fluid passage that is set in wherein;

A hollow inner casing, its be arranged in the above-mentioned hollow shell and within it portion have a hollow space that is communicated with above-mentioned fluid passage;

A calandria, it is arranged in the above-mentioned shell, is used to heat the fluid from above-mentioned fluid intake supply; And

A shading chamber, it has one and is set in labyrinth type fluid passage wherein and is arranged in the above-mentioned fluid issuing;

Structural configuration makes fluid flow through above-mentioned inner casing, above-mentioned calandria and above-mentioned shading chamber, and is discharged from subsequently and is fed on the above-mentioned heating object.

By following description and in conjunction with the accompanying drawings, can make of the present invention above-mentionedly and other purposes, characteristics and advantage are clearer, the mode with way of illustrative example in the accompanying drawing has shown each preferred embodiment of the present invention.

Description of drawings

Fig. 1 is a kind of perspective schematic view that has adopted according to the packaging system of the light shading type light-shielding photosensitive material roll packing device of first embodiment of the invention;

Fig. 2 be one will be packaged the decomposition diagram of light shading type light-shielding photosensitive material roll of system's packing;

Fig. 3 is the partial sectional view of light shading type light-shielding photosensitive material roll;

Fig. 4 is the perspective view of the feed system of packaging system;

Fig. 5 is the vertical view of packing device;

Fig. 6 is the side view of feed system and shading leader tape supply;

Fig. 7 is the block diagram of fluid heating according to an embodiment of the invention and feeding mechanism;

Fig. 8 is the cutaway view of the unit heater of fluid heating and feeding mechanism;

Fig. 9 is the distance and the angle figure of the hot gas applicator of packing device;

Figure 10 is the shrinkage character curve map of the collapsible diaphragm of light shading type of light shading type light-shielding photosensitive material roll;

Figure 11 is the vary in diameter figure of the collapsible diaphragm of light shading type after being subjected to thermal contraction;

Figure 12 is a kind of perspective schematic view that has adopted according to the packaging system of the packing device of second embodiment of the invention;

Figure 13 is the decomposition diagram of the light shading type light-shielding photosensitive material roll that will be packed by packaging system shown in Figure 12;

Figure 14 is the partial sectional view of light shading type light-shielding photosensitive material roll shown in Figure 13;

Figure 15 is a kind of perspective schematic view that has adopted according to the packaging system of the packing device of third embodiment of the invention;

Figure 16 is the side view in partial cross-section of packing device shown in Figure 15;

Figure 17 is the cutaway view that is used in the shading chamber in fluid heating and the feeding mechanism in accordance with another embodiment of the present invention;

Figure 18 is the cutaway view that is used in the heating unit in fluid heating and the feeding mechanism in accordance with another embodiment of the present invention;

Figure 19 is the cutaway view that is used in the heating unit in fluid heating and the feeding mechanism in accordance with another embodiment of the present invention;

Figure 20 is a kind of perspective schematic view of manufacture process of traditional light shading type light-shielding photosensitive material roll;

Figure 21 is a kind of cutaway view of traditional waste gas purification apparatus.

Preferred embodiment is described

Schematically illustrate a kind of packaging system 12 that has adopted according to the light shading type light-shielding photosensitive material roll packing device 10 of first embodiment of the invention among Fig. 1.

As shown in Figure 1, light shading type light-shielding photosensitive material roll 14 comprises: an elongated photosensitive material slice 16, and it is wound on the mandrel 18, to provide a rolling photosensitive material slice 20; A pair of shading piece 22, they are installed on the respective opposite end of rolling photosensitive material slice 20; An anti-dazzling screen 24, it twines around the elongated photosensitive material slice 24 of rolling; And the collapsible diaphragm of a pair of light shading type (shrink-packaging's part) (heating object) 26, they are installed separately on the horizontal opposite ends of anti-dazzling screen 24, and concern that with what cover pyrocondensation is to the neighboring of shading piece 22.Anti-dazzling screen 24 and light shading type are collapsible, and diaphragm 26 combines shading leader tape 28 of formation.Perhaps, shading leader tape 28 also can be made of a collapsible diaphragm 26 of light shading type.

Shown in Fig. 2 and 3, shading piece 22 comprises the corresponding cover cap 30a on the opposite ends that is assemblied in mandrel 18 and is bonded in respective rings 30b on the respective flanges of cover cap 30a.The diameter of ring 30b basically with the equal diameters (see figure 3) of rolling photosensitive material slice 20.Ring 30b is made by plastics such as low density polyethylene (LDPE) (PE), high density polyethylene (HDPE), PP, PET, PS or PVC etc., and coating or laminated a layer binder such as EVA PUR, polyolefin polymer alloy or analog, with thereon with cover cap 30a and collapsible diaphragm 26 bondings of light shading type.

In first embodiment, each ring 30b comprises respectively: a thickness is the pet substrate of 100 μ m; A lip-deep thickness that is arranged in pet substrate is the black low density polyethylene layer of 40 μ m, and the thickness that superposeing between them is the PE lamella of 13 μ m; And a polyolefin polymer alloy bonding layer that contains 4% carbon, the thickness of this tack coat is 40 μ m and is arranged on another surface of pet substrate that the thickness that superposeing between them is the PE lamella of 13 μ m.The Vicat softening point of tack coat is in 45 ℃ to 60 ℃ scope.

The thickness of the anti-dazzling screen 24 of shading leader tape 28 is in the scope of 30 μ m to 300 μ m, and is perhaps preferred in the scope of 100 μ m to 250 μ m.In first embodiment, anti-dazzling screen 24 comprises that a thickness is on the respective opposite surface of the PET sheet material of 100 μ m and a pair of PET of being arranged in sheet material and thickness is respectively the black low density polyethylene sheet material of 40 μ m, and the thickness that superposeing respectively between them is the lamella of extruding of 15 μ m.The general thickness of anti-dazzling screen 24 is 210 μ m.

The thickness of each light shading type is collapsible diaphragm 26 is respectively in the scope of 40 μ m to 200 μ m, and is perhaps preferred in the scope of 50 μ m to 150 μ m.In first embodiment, on the collapsible PET sheet material of each light shading type is collapsible diaphragm 26 comprises a respectively thickness is 25 μ m and the respective opposite surface of a pair of PET of being arranged in sheet material and thickness be respectively the black low density polyethylene sheet material of 23 μ m, the thickness that superposeing respectively between them is the lamella of extruding of 13 μ m.The general thickness of light shading type is collapsible diaphragm 26 is 97 μ m.

Shading leader tape 28 and photosensitive material slice 16 are bonded to each other by a joint adhesive tape 32, and its medial end portions fixation adhesive tape 34a, 34b (see figure 2) are installed on the front end of shading leader tape 28.

As shown in Figure 1, packaging system 12 has a feed system of extending along the direction shown in the arrow A and comprises a shading piece inserter 42, volume end locator 44, joint adhesive tape applicator 46, pyrocondensation and pickup unit 48, a shading leader tape supply 50 and a heat-sealing bonding device 52.

Shown in Figure 4 and 5, feed system 40 has a pair of each other laterally across given distance and the feeding conveyer 54a, the 54b that extend parallel to each other and a carriage 56 that removably is arranged on feeding conveyer 54a, the 54b.Carriage 56 has the retainer 58 of a lip-deep roughly V-arrangement cross section disposed thereon, in order to rolling photosensitive material slice 20 is placed on it.Shown in Fig. 4 and 6, an elevator 60 is arranged in the below of pyrocondensation and pickup unit 48.Elevator 60 is placed between feeding conveyer 54a, the 54b, and has a carriage bearing 62, this carriage bearing can driven vertically by actuator and move, with carriage 56 is positioned at one the position on feeding conveyer 54a, the 54b and one between the position on pyrocondensation and the pickup unit 48.

Packing device 10 according to first embodiment of the invention is housed in pyrocondensation and the pickup unit 48.As shown in Figure 5, packing device 10 has: a pair of hot gas organization of supply (fluid heating and feeding mechanism) 64, they are being associated with the collapsible diaphragm 26 of light shading type at the opposition side of shading leader tape 28 respectively and are arranging, are used for the hot gas part is fed to the collapsible diaphragm 26 of light shading type; And a driving mechanism 66, it is used to rotate rolling photosensitive material slice 20, so that hot gas organization of supply 64 rotates relatively along the excircle of rolling photosensitive material slice 20.

Packing device 10 has a base 68 that extends along the represented direction of the arrow B of intersecting with direction of feed (representing with arrow A).Wide change motor 70 of volume is installed on the end of base 68 and has a power transmission shaft 70a, and this power transmission shaft can be connected an end of first ball-screw 74 with turning round with belt wheel utensil 72 by a belt.The other end of first ball-screw 74 is coaxial, and to connect the hand of spiral of second ball-screw, 76, the second ball-screws opposite with the screw thread of first ball-screw 74.

First and second ball- screws 74,76 are screwed in the respective nut 82,84 that is installed on corresponding first and second mobile base 78,80.Driving mechanism 66 comprises a pair of chuck 86,88 that picks up, and they are installed in respectively on first and second mobile base 78,80.Pick up chuck 86,88 and have corresponding cartridge unit 92a, 92b, they can driven toward each other by corresponding oil cylinder 90a, 90b or carry mobile mutually.Cartridge unit 92a, 92b have corresponding finger bar 94a, the 94b of the far-end that is installed in them, in order to insert in the mandrel 18.Refer to radially outward to launch when bar 94a, 94b are in inserting mandrel 18.At least pick up chuck 86 and a motor 96 combines, to drive cartridge unit 92a rotation.

Hot gas organization of supply 64 has corresponding diameter and changes motor 98a, 98b, and they are installed in respectively on first and second mobile base 78,80. Motor 98a, 98b have corresponding power transmission shaft 100a, 100b, their coaxial ball- screw 102a, 102b of connecting, and above-mentioned leading screw can be rotated to support on first and second mobile base 78,80 and is screwed among corresponding nut 104a, the 104b.Unit heater 106a, 106b are installed on corresponding nut 104a, the 104b swingably.

As described later, unit heater 106a, 106b are positioned to and can discharge continuous thermal current from a nozzle with constant speed and stationary temperature.Unit heater 106a, 106b can do angular movement between a position that is separated by facing to the position of the collapsible diaphragm 26 of the light shading type on the rolling photosensitive material slice 20 and and the collapsible diaphragm 26 of light shading type.On the position that is separated by with the collapsible diaphragm 26 of light shading type, arranging recovering mechanism 108a, 108b, in order to force to reclaim the hot gas that sprays among unit heater 106a, the 106b.Recovering mechanism 108a, 108b have corresponding conduit 110a, 110b, and they are connecting a unshowned suction source such as vacuum source.

As shown in Figs. 4-6, shading leader tape supply 50 has one and inhales platform 110, and it extends and have parallel slot 112a, a 112b that is set on its upper surface and extends along direction shown in the arrow B along the direction shown in the arrow B.Shading leader tape supply 50 also has chuck 114a, 114b, and they are arranged among groove 112a, the 112b, and can move forward and backward along groove 112a, 112b along direction shown in the arrow B.Chuck 114a, 114b can grasp the longitudinal edge of shading leader tape 28 on the position of the opposition side of the collapsible diaphragm 26 of light shading type.As shown in Figure 1, upstream that is used for being arranged in shading leader tape supply 50 along the applicator 116 that the direction shown in the arrow A is bonded in anti-dazzling screen 24 front ends with end fixation adhesive tape 34a, 34b.

Combination and maintaining body 120 are arranged in along the direction shown in the arrow A on the position on the tail end of inhaling platform 110, and photosensitive material slice 16 and shading leader tape 28 will combine togather on this position.Shown in Fig. 4 and 6, in conjunction with and maintaining body 120 have a swing arm 122, it is arranged in the outside (downside) of photosensitive material slice 16 and shading leader tape 28, and is being supported swingably by a unshowned actuator.A joint suction box 124 that extends along direction shown in the arrow B is installed in the far-end of swing arm 122.Joint suction box 124 is connecting a unshowned suction source.The inboard (upside) that can be arranged in photosensitive material slice 16 and shading leader tape 28 by the retainer 128 that oil cylinder 126 vertically moves.Retainer 128 is arranged in a position that is used for cooperating with joint suction box 124 and pushes the joint of rolling photosensitive material slice 20.

Heat-sealing bonding device 52 has a pair of ring heater (heating arrangements) 130a, 130b, and they are placed in the end opposite of light shading type light-shielding photosensitive material roll 14.

The block diagram that constitutes hot gas organization of supply 64 has been shown among Fig. 7.As shown in Figure 7, hot gas organization of supply 64 comprises: unit heater 106a, 106b; A heater power source 132 that is used to unit heater 106a, 106b energising; An air compressor 134 that is used for to unit heater 106a, 106b supply air; A flow rate sensor 136 that is used to survey the supply air rate; A heater coil temperature sensor 138 that is used for surveying the temperature of the heater coil that is arranged in unit heater 106a, 106b as described later; An exhaust gas temperature sensor 140 that is used to survey the air themperature that unit heater 106a, 106b discharge; And one based on from the signal of flow rate sensor 136, heater coil temperature sensor 138 and exhaust gas temperature sensor 140 and the control circuit 142 of control heater power supply 132 and air compressor 134.

The cutaway view of unit heater 106a, 106b has been shown among Fig. 8.As shown in Figure 8, each unit heater 106a, 106b comprise a cylinder blanket 144 respectively, are arranged in the first cylindrical inner casing 146 in the cylinder blanket 144 and are arranged in the second cylindrical inner casing 148 in the first cylindrical inner casing 146.Each unit heater 106a, 106b also have a heater coil (calandria) 150, and it is arranged to two spiral layers.Heater coil 150 is connecting a lead-in wire 152 that stretches out through an end of shell 144 and from unit heater 106a, 106b, and is being electrically connected heater power source 132.

Shell 144 has an air intake 154, and it is set in the outer circle wall adjacent with having stretched out 152 the end of going between, in order to from air compressor 134 supply air.Shell 144 also has a sensor jack 156, and it is set in the outer circle wall adjacent with opposite ends, is used for therefrom inserting heater coil temperature sensor 138.The heater coil temperature sensor 138 that inserts from sensor jack 156 has an end that radially passes second inner casing 148 and stretch to heater coil 150.The first passage 158 that is used to air is crossed along the longitudinal stream of shell 144 is set between the external peripheral surface of the inner circumferential surface of shell 144 and first inner casing 146.

First inner casing 146 has a plurality of along the circumferential direction apart holes 160, and they adjoin in the end that air intake 154 is formed on first inner casing.First inner casing 146 extends on the position of the sensor jack 156 that adjoins shell 144.The second channel 162 that is communicated with first passage 158 is set between the external peripheral surface of the inner circumferential surface of first inner casing 146 and second inner casing 148.

Second inner casing 148 is connecting the inner surface away from the other end of air intake 154 on the shell 144, and has the radially dividing plate 164 that an end at heater coil 150 adjoins heater coil temperature sensor 138.Dividing plate 164 has a centre bore 166 that is set in wherein.The third channel 168 that is communicated with second channel 162 is set between the external peripheral surface of the inner circumferential surface of second inner casing 148 and heater coil 150.Four-way 170 centerings that are communicated with centre bore 166 are set in the heater coil 150.

The first shading chamber 172 is set between the other end of the dividing plate 164 of second inner casing 164 and shell 144.Diameter is bigger but be arranged in the first shading chamber 172 than little shadow shield 174 centerings of internal diameter of second inner casing 148 than the diameter in hole 166, and is bearing in by rib 176 on the other end of shell 144.

The other end of shell 144 has a centre bore 178 that is formed on wherein and is communicated with the first shading chamber 172.The second shading chamber 180 is set on the outer surface of the other end of shell 144 and with hole 178 and is communicated with.The second shading chamber 180 has one and is combined in the shell 182 on the shell 144, an inner casing 184 and a nozzle 186 that is arranged in the inner casing 184 that is arranged in the shell 182.

Inner casing 184 adopts the form of the hollow circuit cylinder of band bottom, and has such bottom, and promptly Di Bu diameter is greater than the diameter in the hole 178 that is communicated with the first shading chamber 172.Be arranged in the form of the nozzle 186 employing hollow circuit cylinders in the inner casing 184.Shell 182 has a sensor jack 188 that is set in its circumferential wall, and exhaust gas temperature sensor 140 radially passes sensor jack 188 and have an inside end of passing inner casing 184 and nozzle 186 and stretching to the middle section of nozzle 186.

The operation of the packaging system 12 of structure like this is described below.

The rolling photosensitive material slice 20 that is made of the photosensitive material slice 16 that is wound on the mandrel 18 is placed on the carriage 56 of feed system 50.Feeding conveyer 54a, 54b move and rolling photosensitive material slice 20 are fed into shading piece inserter 42 along the direction shown in the arrow A.In shading piece inserter 42, as shown in Figure 1, shading piece 22 is applied on the respective opposite end of mandrel 18.Afterwards, carriage 56 is transferred to volume end locator 44, is placed in place in the end of this rolling photosensitive material slice 20.

Afterwards, the rolling photosensitive material slice 20 on the carriage 56 is sent to joint adhesive tape applicator 46, is applied on the end of photosensitive material slice 16 at this joint adhesive tape 32.Shown in Fig. 4 and 6, after the rolling photosensitive material slice 20 with the joint adhesive tape 32 that applies is positioned in pyrocondensation and pickup unit 48 belows, elevator 60 is activated, upgrading the carriage bearing 62 between feeding conveyer 54a, 54b, thereby the carriage 56 that will place rolling photosensitive material slice 20 raises and leaves feeding conveyer 54a, 54b.

End fixation adhesive tape 34a, 34b are applied on the front end of anti-dazzling screen 24 along the direction shown in the arrow A in applicator 116.Anti-dazzling screen 24 is grasped by chuck 114a, 114b and is transferred to binding site along the direction shown in the arrow B 1.The width of anti-dazzling screen 24 is substantially equal to the width of photosensitive material slice 16, and length is equal to or greater than the length of rolling photosensitive material slice 20 1 circles.The collapsible diaphragm 26 of light shading type that is applied to anti-dazzling screen 24 opposition sides from the opposition side of anti-dazzling screen 24 along extend laterally one in 3mm to 15mm scope, the preferred distance in 5mm to 10mm scope, and have the length of a circle length that is equal to or greater than rolling photosensitive material slice 20.

In pyrocondensation and pickup unit 48, an end of anti-dazzling screen 24 is positioned on the joint adhesive tape 32, and this joint adhesive tape is bonded on the end of photosensitive material slice 16.In conjunction with and maintaining body 120 be activated this moment, with joint suction box 124 upwards towards the end and 32 swings of joint film of rolling photosensitive material slice 20.When the end of rolling photosensitive material slice 20 and joint film 32 after being drawn under the suction of joint suction box 124, retainer 128 descends towards joint suction box 124.Joint suction box 124 and retainer 128 be work compound each other, is combined on the joint film 32 with the end with rolling photosensitive material slice 20.

After the end of rolling photosensitive material slice 20 was combined on the joint film 32 by joint adhesive tape 32, oil cylinder 90a, 90b were activated, and shifted to the other side each other so that pick up chuck 86,88, in cartridge unit 92a, 92b nip mandrel 18.As shown in Figure 5, refer to that bar 94a, 94b insert in the mandrel 18, and then radially outward launch,, be activated with rear motor 96 to clamp the inner circumferential surface of mandrel 18.In hot gas organization of supply 64, the opposite edge that unit heater 106a, 106b have moved to from the position facing to recovering mechanism 108a, 108b facing to rolling photosensitive material slice 20 is on the position of the collapsible diaphragm 26 of light shading type, as shown in Figure 7, control circuit 142 starts air compressors 134 supplying air to unit heater 106a, 106b, and causes heater coil 150 energisings of heater power source 132 to unit heater 106a, 106b.

, and flow into unit heater 106a, the 106b based on regulating flow rate from the controlled circuit 142 of air compressor 134 air supplied from the air intake 154 of shell 144 from the signal of flow rate sensor 136.As shown in Figure 8, the air first passage 158 between the external peripheral surface of the inner circumferential surface of shell 144 and first inner casing 146 of flowing through, through the second channel 162 between the external peripheral surface of the inner circumferential surface of first inner casing 146 and second inner casing 148, flow into afterwards in the third channel 168 and four-way 170 in second inner casing 148 again.Directly be fed in third channel 168 and the four-way 170 by being set in the hole 160 first inner casing 146 from the part of air intake 154 air supplied.

Being fed to air in second inner casing 148 is heated the heat heating that coil 150 produces in flow through third channel 168 and four-way 170 time and becomes and add hot-air.

At this moment, air by the radiations heat energy preheating of second inner casing, 148 supplies, is efficiently heated in the time of subsequently in flow through third channel 168 and four-way 170 when flowing through second channel 162.Be positioned to two spiral layers owing to be used to add the heater coil 150 of hot-air, so it can supply the heat of q.s to air.Like this, unit heater 106a, 106b do not need undue lengthening, but can size reduction.

First passage 158 is set in the radial outside of the second channel 162 that is used for preheated air.Therefore, can the be flowed through air of first passage 158 of the heat that heater coil 150 produces stops fully, thereby prevents that heat from spreading out of from unit heater 106a, 106b.Like this, the heat radiation that does not have from shell 144 causes negative effect to rolling photosensitive material slice 20 and other parts or the zone that are positioned at unit heater 106a, the 106b outside.Unit heater 106a, 106b do not need to adopt any special heat-barrier material.Shell 144 can be made by stainless steel, pottery or similar material.

Warmed-up air like this is supplied in the first shading chamber 172 by the hole in the dividing plate 164 166.Be fed to air in the first shading chamber 172 subsequently because of shadow shield 174 changes about 90 ° direction, and then flow, and be supplied in the second shading chamber 180 by hole 178 around shadow shield 174.In the second shading chamber 180, air changes about 90 ° direction because of the bottom of inner casing 184, thereby flows in the inner casing 184, discharges by nozzle 186 again.

When picking up chuck 86,88 and being rotated, shading leader tape 28 is wrapped on the rolling photosensitive material slice 20, and hot gas (adding hot-air) by localized ejection to the collapsible diaphragm 26 of the light shading type of shading leader tape 28.In the time of in being exposed to hot gas, light shading type is collapsible, and diaphragm 26 concerns that with what cover pyrocondensation is to the neighboring of shading piece 22.

Be applied to and add the first and second shading chambers 172 and 180 and from unit heater 106a, 106b discharge of hot-air by providing the labyrinth type air duct on the collapsible diaphragm 26 of light shading type.Therefore, even heater coil 150 is luminous when heating, aura can not penetrate from nozzle 186 yet.Consequently, the darkroom that is used to make rolling photosensitive material slice 20 can be resisted entering of harmful light well.

The shape of nozzle 186 can be regulated, and only is fed on the collapsible diaphragm 26 of light shading type will add hot-air.Therefore, can prevent the heat heating and the hotness light of the emulsion heated air on the photosensitive material slice 16.

The inner wall surface of the first and second shading chambers 172,180 can apply a smooth skin of paint of thermal resistance black, for example titanium ceramic resin or ceramic coating, perhaps utilize shot-peening or corase grind and process roughened surface, from nozzle 186, leak out so that more effectively prevent the aura of heater coil 150.

The exhaust gas temperature sensor 140 that the temperature that adds hot-air of discharging from nozzle 186 is arranged in end the nozzle 186 detects, and controlled again circuit 142 feeds back to heater power source 132, thereby heter temperature is set to precise dose.Because the flow rate that adds hot-air of discharging is all being monitored by flow rate sensor 136 at all constantly, therefore can not cause adding the temperature fluctuation of hot-air because of flow rate variation.Consequently, unit heater 106a, 106b are produced with stationary temperature and add hot-air.

Adjoin the surface temperature that heater coil temperature sensor 138 that heater coil 150 settling is monitoring heater coil 150 with end.After heater coil temperature sensor 138 detects heater coil 150 and is in superheat state, control circuit 142 will cut off from the electric current of heater power source 132 supplies, thereby prevent that air or unit heater 106a, 106b are overheated.

Unit heater 106a, 106b should preferably just change the position before the front end of the collapsible diaphragm 26 of light shading type is wrapped on the rolling photosensitive material slice 20.

Just after the tail end of the collapsible diaphragm 26 of light shading type was wrapped on the rolling photosensitive material slice 20, unit heater 106a, 106b were moved to the preparation wrapping position, promptly on the position facing to recovering mechanism 108a, 108b.After the tail end of shading leader tape 28 is wrapped on the rolling photosensitive material slice 20, the tail end end fixation adhesive tape 34a of shading leader tape 28,34b fix in position, and motor 96 is closed.

As shown in Figure 9, temperature and the flow rate that comprises the hot gas that is used for the collapsible diaphragm 26 of pyrocondensation light shading type changes along with following parameter at interior state: promptly the nozzle-end of unit heater 106a, 106b is to the distance H of rolling photosensitive material slice 20; The angle θ of hot gas supply; And the rotary speed of rolling photosensitive material slice 20, promptly shading leader tape 28 is around the speed of rolling photosensitive material slice 20 windings.

Distance H from unit heater 106a, 106b to rolling photosensitive material slice 20 is preferred to be selected like this, the nozzle-end that is unit heater 106a, 106b approaches rolling photosensitive material slice 20 and the collapsible diaphragm 26 of light shading type as far as possible, but keeps again not contacting with the collapsible diaphragm 26 of rolling photosensitive material slice 20 and light shading type.Shown in following table 1, distance H is set to the value less than 15mm.Hot phase is selected from for the supply angle θ of the side of rolling photosensitive material slice 20 in 0 ° to 90 ° the scope, is preferably selected from 0 ° to 30 ° the scope, shown in following table 2.

Table 1

Distance H (mm)	Shrink the result
		3	○
5	○
		10	○
15	△
		20	×

Table 2

Angle θ (°)	Shrink the result
		0	○

15	◎
		30	○
45	△
		60	△
90	▲

Light shading type is collapsible, and diaphragm 26 has shrinkage character shown in Figure 10.When the collapsible diaphragm 26 of light shading type during by heater unit 106a, 106b pyrocondensation, the required calorie value that applies, the i.e. application time of the flow rate of the temperature of hot gas, hot gas, hot gas and change according to the percent thermal shrinkage that the collapsible diaphragm 26 of light shading type should obtain under packaged form to the distance of nozzle-end.Specifically, as shown in figure 10, if the overall diameter D of rolling photosensitive material slice 20 is D=120mm, the diameter d of the light shading type after the pyrocondensation is collapsible diaphragm 26 is d=105mm, and then percent thermal shrinkage can followingly be obtained:

(120-105)/120×100＝12.5％

As can be seen from Figure 10, need apply 95 ℃ * 20 seconds calorie value.

If the nozzle-end of unit heater 106a, 106b to the distance H of rolling photosensitive material slice 20 is H=10mm, the angle θ of hot gas supply is θ=25 °, the speed of wrap of shading leader tape 28 is 12m/min, the speed of the hot gas of discharging from unit heater 106a, 106b is about 200l/min, and the temperature of hot gas is about 280 ℃, the then collapsible diaphragm 26 of light shading type pyrocondensation and pack rolling photosensitive material slice 20 aptly.

In first embodiment, as shown in Figure 5, unit heater 106a, the 106b of hot gas organization of supply 64 is being associated with the collapsible diaphragm 26 of light shading type of shading leader tape 28 on being wrapped in rolling photosensitive material slice 20 and settling.In the rotation of rolling photosensitive material slice 20 driven-mechanisms 66, hot gas can spray from unit heater 106a, 106b, with localized ejection to the collapsible diaphragm 26 of light shading type, thereby the reliable and collapsible diaphragm 26 of pyrocondensation light shading type efficiently.

The size of packing device 10 is much smaller than traditional contraction secret tunnel, thereby can pack the light shading type light-shielding photosensitive material roll in less space.The heater power of unit heater 106a, 106b is lower than the heater power that tradition is shunk secret tunnel.Specifically, the heater that tradition is shunk secret tunnel will consume more than the 6kW, and unit heater 106a, 106b only consume 2.4kW.Therefore, shrink secret tunnel with tradition and compare, the required electric energy of unit heater 106a, 106b can reduce effectively.Because a hot gas localized ejection of unit heater 106a, 106b ejection to the collapsible diaphragm 26 of light shading type, therefore can prevent rolling photosensitive material slice 20 and itself degenerate, even it is to very responsive to heat.

When unit heater 106a, 106b were not used in the collapsible diaphragm 26 of pyrocondensation light shading type, unit heater 106a, 106b settled facing to recovering mechanism 108a, 108b.Unit heater 106a, 106b running is heated air supplied to utilize heater coil, and hot gas is supplied out from nozzle-end with stationary temperature and constant speed.When unit heater 106a, 106b are not used in the collapsible diaphragm 26 of pyrocondensation light shading type, conduit 110a, 110b that the hot gas that sprays from unit heater 106a, 106b is recovered the 108a of mechanism, 108b force to reclaim, thereby prevent that effectively ambient temperature from excessively raising, and prevent that hot gas is applied on the rolling photosensitive material slice 20.

Packing device according to first embodiment can easily make different in width and the diameter that himself is adapted to rolling photosensitive material slice 20.Specifically, when rolling photosensitive material slice 20 had different width, as shown in Figure 5, electric 70 started, first ball-screw 74 so that rotation links to each other with power transmission shaft 70a with belt wheel utensil 72 by belt rotates thereby drive coaxial second ball-screw 76 that is connecting first ball-screw 74.

Because first and second ball- screws 74,76 have rightabout screw thread, the nut 82,84 that therefore is screwed on first and second ball- screws 74,76 will be carried mobile toward each other or mutually.First and second mobile base 78,80 that are fixed on the nut 82,84 will change the position of unit heater 106a, 106b along the direction shown in the arrow B, so that they are adapted to the different in width of rolling photosensitive material slice 20.

If rolling photosensitive material slice 20 has different diameters, then motor 98a, the 98b of hot gas organization of supply 64 start, with swing roller leading screw 102a, 102b, thereby cause nut 104a, 104b to move forward and backward unit heater 106a, 106b along ball-screw 102a, 102b.Therefore, unit heater 106a, 106b can regulate, so that they are adapted to the different-diameter of rolling photosensitive material slice 20.

Shading leader tape 28 by pyrocondensation and pickup unit 48 is wrapped on the rolling photosensitive material slice 20 and the end of shading leader tape 28 by end fixation adhesive tape 34a, 34b fixing after, the chuck 86,88 of picking up of driving mechanism 66 is being driven away from each other by oil cylinder 90a, 90b, so that cartridge unit 92a, 92b remove from mandrel 18.Afterwards, the carriage bearing 62 of elevator 60 descends, so that the carriage on the carriage bearing 62 56 is reduced on feeding conveyer 54a, the 54b.

Afterwards, carriage 56 is fed conveyer 54a, 54b and is transported to heat-sealing bonding device 52, is bonded on the shading piece 22 and the collapsible diaphragm 26 of light shading type is heat-sealed ring heater 130a, the 130b of paster 52.Light shading type is collapsible, and diaphragm 26 bonds under the heat-sealing state, and the heat-sealing state changes according to the thickness and the material of the collapsible diaphragm 26 of light shading type.For example, diaphragm 26 has the thickness in 100 μ m to 150 mu m ranges if light shading type is collapsible, and be by extrusion on the opposed surface of pet substrate laminated low density polyethylene (LDPE) make, then ring heater 130a, 130b are heated to 130 ℃ temperature, so as in the period in 3 seconds to 5 seconds scopes the collapsible diaphragm 26 of heat-sealing light shading type.

Schematically illustrate a kind of packaging system 12a that has adopted according to the packing device 240 of second embodiment of the invention among Figure 12.Parts identical among among the packaging system 12a those and first embodiment are represented with identical reference character, and are not described in detail.

Shown in Figure 13 and 14, the light shading type light-shielding photosensitive material roll 142 of packaged system 12a packing has a pair of cover cap shape shading piece 244 that is installed in the opposite ends of mandrel 18.Each cover cap shape shading piece 244 comprises that respectively a projection 246 that is used for inserting mandrel 18 and one and projection 246 form the flange 248 of one.Flange 248 has than big diameter D1 of the diameter d 1 of rolling photosensitive material slice 20 and relatively large thickness, so that flange 248 can not be out of shape, even after having covered the collapsible diaphragm 26 of light shading type.

After the outward flange of the flange 248 of shading piece 244 had been capped the collapsible diaphragm 26 of light shading type, light shading type light-shielding photosensitive material roll 142 can be kept apart with light fully.Light shading type is collapsible, and diaphragm 26 does not need to be bonded on the flange 248.

Therefore, packing device 240 is without any need for the heat-sealing bonding device, but comprise that with the opposite edge of rolling photosensitive material slice 20 be unit heater 106a, the 106b that the collapsible diaphragm 26 of light shading type is being associated and is settling, be used for only supplying hot gas to the collapsible diaphragm of light shading type 26 parts, thus packing rolling photosensitive material slice 20.

In second embodiment, size is less and simple in structure comparatively speaking generally for packing device 240.Packing device 240 can also obtain with first embodiment in identical advantage, promptly heater power reduces, thereby needs the electric energy that consumes still less.

Schematically illustrate a kind of packaging system 12b that has adopted according to the packing device 260 of third embodiment of the invention among Figure 15.Parts identical among among the packaging system 12b those and first embodiment are represented with identical reference character, and are not described in detail.

As shown in figure 15, packaging system 12b has volume end locator 44, joint adhesive tape applicator 46, shading leader tape pickup unit 262, shading leader tape supply 50 and a pyrocondensation unit 264.In shading leader tape pickup unit 262, be bonded on the end of rolling photosensitive material slice 20 by joint adhesive tape 34 at shading leader tape 28 after, rolling photosensitive material slice 20 is rotated, and with coiling shading leader tape 28, and the end of shading leader tape 28 is by end fixation adhesive tape 34a, 34b fix in position.In pyrocondensation unit 264, hot gas by localized ejection to the collapsible diaphragm 26 of light shading type that is wrapped on the rolling photosensitive material slice 20, with the collapsible diaphragm 26 of pyrocondensation light shading type.

As shown in figure 16, being combined in packing device 260 in the pyrocondensation unit 264 has a pair of hot gas organization of supply 266 and one and is used to drive the driving mechanism 268 of hot gas organization of supply 266 along the excircle rotation of rolling photosensitive material slice 20.Pyrocondensation unit 264 has a pair of central chuck 270, and in order to supporting mandrel 18, wherein shading leader tape 28 is wrapped on the rolling photosensitive material slice 20.Driving mechanism 268 has the motor 272 that a pair of and central chuck 270 coaxial arrangement.

Turning arm (turning arm spare) 274 is fixed on the power transmission shaft 272a of motor 272, and be can be rotated to support on the central chuck 270 by corresponding bearing 276.Hot gas organization of supply 266 has unit heater 278a, 278b, and they are installed in respectively on the end of turning arm 274, and is bearing on the central chuck 270 by cam follower 280a, 280b.

After shading leader tape 28 was wrapped on the rolling photosensitive material slice 20 by shading leader tape pickup unit 262, rolling photosensitive material slice 20 was transported to pyrocondensation unit 264.In pyrocondensation unit 264, central chuck 270 has been mounted in the respective end of mandrel 18.The motor 272 of driving mechanism 268 is activated, and rotates to drive the turning arm 274 that is fixed on the power transmission shaft 272a by bearing 276.At this moment, be installed in unit heater 278a, the 278b localized ejection hot gas on the collapsible diaphragm 26 of light shading type on the turning arm 274, diaphragm pyrocondensation that light shading type is collapsible on the outward flange of shading piece 22, thereby rolling photosensitive material slice 20 is wired up.

In the 3rd embodiment, after the collapsible diaphragm 26 of light shading type is wrapped on the rolling photosensitive material slice 20, unit heater 278a, 278b driven-mechanism 268 are driving the outward flange rotation along rolling photosensitive material slice 20, meanwhile, unit heater 278a, 278b spray hot gas on the collapsible diaphragm 26 of light shading type.Therefore, have only the collapsible diaphragm 26 of light shading type to be heated reliably.Packing device 260 size comparatively speaking is less and simple in structure, and required electric energy reduced, and this is with identical according to the packing device of first and second embodiment.

The second shading chamber 290 of (the 4th embodiment) according to another embodiment of the invention has been shown among Figure 17, and it can be used in the end of unit heater 106a, the 106b shown in Fig. 8.The shadow shield 296 that the second shading chamber 290 comprises that the shell 292 of an end that is installed in shell 144 and centering are installed in the shell 292 and supported by rib 294.Exhaust gas temperature sensor 140 passes a sensor jack 298 and centering is inserted in the shell 292.

Applying a thermal resistance shading painting layer on the inner wall surface of the second shading chamber 290, perhaps be processed to exasperate, to obtain sufficient shaded effect.

The cutaway view of the unit heater 300 of (the 5th embodiment) according to another embodiment of the invention has been shown among Figure 18.As shown in figure 18, unit heater 300 has the Wound wire 304 that a Wound wire 302 that is arranged in the four-way 170 that is arranged in heater coil 150 and root are being arranged around heater coil 150.

Wound wire 302 comprises a minor diameter wind spring of being made by SUS or analog, and this spring further is deformed into the coil form and is placed in the four-way 170.Be introduced into air in the four-way 170 and be subjected to stopping of Wound wire 302 and underspeed, at this moment, the heat that heater coil 150 produces can directly or by Wound wire 302 be applied on the air effectively.Consequently, air is heated with very high rate of heat exchange.

The Wound wire 304 identical with Wound wire 302 arranged around heater coil 150.Because the excircle of heater coil 150 is covered by Wound wire 304, therefore can keep not contacting with second inner casing 148, overheated to prevent the latter.Have the gap in the Wound wire 304, can therefrom pass through so that introduce part of air.The air in these gaps is heated coil 150 heating owing to flow through, therefore the efficiency of heating surface that can reach reinforced effect of heat insulation and improve by Wound wire 304.

The cutaway view of the unit heater 400 of (the 6th embodiment) according to another embodiment of the invention has been shown among Figure 19.Unit heater 400 comprises a cylinder blanket 402, and it has the air intake that is set in the one end 404, one and is set in being used in its substantial middle wall and inserts sensor jack 406 and a sensor jack 408 that is used to insert exhaust gas temperature sensor 140 that is set in its other end of heater coil temperature sensor 138.A dividing plate 412 that is provided with centre bore 410 is arranged in the shell 402, and is installed on the shell inner peripheral wall between sensor jack 406,408.

Be formed on space between the end of dividing plate 412 and shell 402 as heating clamber 414.A heater coil (calandria) 418 is arranged between the inner circumferential surface of the external peripheral surface of inner casing 416 and shell 402.

Be formed on space between the other end of dividing plate 412 and shell 402 as shading chamber 420.The cylindrical inner casing 422 of band bottom passes hole 410 and is connecting the bottom of inner casing 416.A nozzle 424 is arranged in the inner casing 422.

Be fed to air in the heating clamber 414 of shell 402 by air intake 404 and introduced in the inner casing 416 temporarily and be preheated at this, and then flow through between inner casing 416 and the shell 402, in this process, air is heated coil 418 and is heated to predetermined temperature.Warmed-up air is introduced in the shading chamber 420 by hole 410, and air is from discharging from unit heater 400 by being set in the labyrinth passage between next door 412 and the nozzle 424 here.

Air is fully heated when flowing through inner casing 416 and the passage between inner casing 416 and shell 402, and is fed on the collapsible diaphragm 26 of light shading type by shading chamber 420.Therefore, light shading type is collapsible, and diaphragm 26 can be heated efficiently by air, and can not be subjected to the negative effect of the aura of heater coil 418.In the 6th embodiment, shell 402 can be made by the low material of thermal conductivity such as pottery or similar material, to reduce the thermal-radiating effect from shell 402.

Utilization is according to light shading type light-shielding photosensitive material roll packing method of the present invention and device, although the hot gas organization of supply arranged of being associated with the thermal shrinkage type package along the excircle rotation of rolling photosensitive material, a hot gas localized ejection is to the thermal shrinkage type package.The power of calandria can reduce, thereby reduces required electric energy effectively, and device is done as a wholely can reduce size and simplified structure.Because a hot gas localized ejection to the thermal shrinkage type package, therefore can prevent effectively that the quality of rolling photosensitive material is subjected to the negative effect of hot-air.

In addition, owing to there is a passage in the outer circumferential area of calandria, be used to make fluid before being heated, to flow through, so the heat that calandria spreads out of can reduce.So, have very high heat-insulating capability according to fluid heating of the present invention and feeding mechanism.Can prevent that the object of arranging around device except the object that needs heated object heating is subjected to the negative effect of the heat of auto levelizer.Can arrange wire around calandria, with keep calandria not with inner casing or housing contacts, thereby obtain higher heat-insulating capability.

The labyrinth structure shading chamber that the adjacent fluids outlet is being arranged can prevent effectively that the aura of calandria from leaking on the heating object.Therefore, even object is photosensitive, object also can heat by heated object, and can not be subjected to the negative effect of aura.Because the passage in outer circumferential area that is set in fluid heating and feeding mechanism is used to make fluid to flow through before being heated, therefore the outer circumferential area of device can be not luminous because of the heat from calandria, thereby can not cause negative effect to the sensitization object.

Flow through when being set in the passage between shell and the inner casing and being supplied on the calandria when fluid, fluid can efficiently be heated, and device can reduce size.

If wire is disposed in the calandria that is wound in loop construction, then can cause the fluid that flows into to contact really and therefore be heated with calandria, perhaps can utilize the warmed-up wire of heated object and heated more expeditiously.

Although the preferred embodiments of the present invention are shown in detail and describe, should be appreciated that and to make variations and modifications under the prerequisite of the scope in not exceeding the appended claims book.

Claims (19)

1. one kind is utilized calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, and it comprises:

A hollow shell (144), it has a fluid intake (154) and a fluid passage (158) of setting along the shell inner circumferential surface;

A hollow inner casing (148), it has a fluid issuing, and above-mentioned hollow inner casing is arranged in the above-mentioned hollow shell (144), and above-mentioned hollow inner casing (148) portion within it has a hollow space that is communicated with above-mentioned fluid passage (158);

A calandria (150), it is arranged in the above-mentioned inner casing (148), is used for heating is fed to above-mentioned inner casing (148) by above-mentioned fluid passage (158) fluid; And

A shading chamber (172,180), it has a labyrinth type fluid passage that is set in wherein, and described shading chamber is arranged in the above-mentioned fluid issuing,

Structural configuration makes and to be flowed out above-mentioned fluid issuing by the warmed-up above-mentioned fluid of above-mentioned calandria (150) and be fed on the above-mentioned heating object (26).

2. device according to claim 1 also comprises:

Another inner casing (146), it is built between above-mentioned hollow shell (144) and the above-mentioned hollow inner casing (148), determine a plurality of passages (158 between above-mentioned hollow shell (144), above-mentioned hollow inner casing (148) and above-mentioned another inner casing (146), 162,168), these passages are by vertically keeping in the mode that communicates with each other along these shells.

3. device according to claim 1 is characterized in that, above-mentioned shading chamber comprises: the first shading chamber (172), and it has above-mentioned labyrinth type fluid passage, and the described first shading chamber is arranged in the above-mentioned fluid issuing; And the second shading chamber (180), it has above-mentioned labyrinth type fluid passage, and the described second shading chamber connecting the above-mentioned first shading chamber (172), is used to discharge above-mentioned fluid.

4. device according to claim 1 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is applying a thermal resistance shading painting layer.

5. device according to claim 1 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is processed to exasperate.

6. device according to claim 1 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and a wire (302) that is arranged in the heater coil.

7. device according to claim 1 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and the wire (304) around the heater coil layout.

8. one kind is utilized calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, and it comprises:

A hollow shell (144), its have a fluid intake (154), fluid issuing and one be set in wherein the fluid passage;

A calandria (150), it is arranged in the above-mentioned hollow shell (144), is used for heating is fed to above-mentioned fluid passage from above-mentioned fluid intake (154) fluid; And

A shading chamber (172,180), it has a labyrinth type fluid passage that is set in wherein, and described shading chamber is arranged in the above-mentioned fluid issuing;

Structural configuration makes to be discharged and is fed on the above-mentioned heating object (26) in from above-mentioned shading chamber (172,180) by the warmed-up above-mentioned fluid of above-mentioned calandria (150).

9. device according to claim 8 is characterized in that, above-mentioned shading chamber comprises: the first shading chamber (172), and it has above-mentioned labyrinth type fluid passage, and the first shading chamber is arranged in the above-mentioned fluid issuing; And the second shading chamber (180), it has above-mentioned labyrinth type fluid passage, and the second shading chamber connecting the above-mentioned first shading chamber (172), is used to discharge above-mentioned fluid.

10. device according to claim 8 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is applying a thermal resistance shading painting layer.

11. device according to claim 8 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is processed to exasperate.

12. device according to claim 8 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and a wire (302) that is arranged in the heater coil.

13. device according to claim 8 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and the wire (304) around the heater coil layout.

14. one kind is utilized calandria to add hot fluid and warmed-up fluid is fed to device on the heating object, it comprises:

A hollow shell (144), it has a fluid intake (154), a fluid issuing and a fluid passage that is set in wherein;

A hollow inner casing (148), its be arranged in the above-mentioned hollow shell (144) and within it portion have a hollow space that is communicated with above-mentioned fluid passage;

A calandria (150), it is arranged in the above-mentioned shell (144), is used for the fluid of heating from above-mentioned fluid intake (154) supply; And

A shading chamber (172,180), it has a labyrinth type fluid passage that is set in wherein, and described shading chamber is arranged in the above-mentioned fluid issuing;

Structural configuration makes fluid flow through above-mentioned inner casing (148), above-mentioned calandria (150) and above-mentioned shading chamber (172,180), and is discharged from subsequently and is fed on the above-mentioned heating object (26).

15. device according to claim 14 is characterized in that, above-mentioned shading chamber comprises: the first shading chamber (172), and it has above-mentioned labyrinth type fluid passage, and the first shading chamber is arranged in the above-mentioned fluid issuing; And the second shading chamber (180), it has above-mentioned labyrinth type fluid passage, and the second shading chamber connecting the above-mentioned first shading chamber (172), is used to discharge above-mentioned fluid.

16. device according to claim 14 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is applying a thermal resistance shading painting layer.

17. device according to claim 14 is characterized in that, above-mentioned shading chamber (172,180) has the inner wall surface that is processed to exasperate.

18. device according to claim 14 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and a wire (302) that is arranged in the heater coil.

19. device according to claim 14 is characterized in that, above-mentioned calandria comprises that one is wound up as circular heater coil (150) and the wire (304) around the heater coil layout.

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