CN101424872A - Drying apparatus - Google Patents

Abstract

The present invention discloses a drying device. A roller type conveying mechanism (61) which comprises a steering part (65) is installed in a dryer group (60). The steering part (65) is composed of a central roller (67) and eleven conveying rollers (68) which are separated by photographic papers and are used for conveying between the circumferential surfaces of the central roller (67). In each conveying roller (68), a plurality of large-diameter parts and a plurality of small-diameter parts are alternately formed along the direction of rotation axis of each conveying roller (68). Furthermore the eleven conveying rollers (68) are configured that any position in the direction of rotation axis is configured with the large-diameter parts (68a) of the plurality of conveying rollers (68) in the conveying direction of photographic paper (2). An ejecting part (79) is used for ejecting hot air to the side which is contacted with each conveying roller (68) in the photographic paper (2) for drying the photographic paper (2). Therefore the nonuniform drying in the photographic paper (2) can be prevented.

Description

Drying device

Technical field

The present invention relates to a kind of one side and transport medium, Yi Bian make the drying device of this medium drying.

Background technology

Open in the 2007-183504 communique Japanese publication communique spy, someone discloses following photo drying device, that is: the printing paper of having implemented development treatment is temporarily transported back change carriage direction downwards, transport upward on one side, on one side to this printing paper ejection hot blast, thereby allow the photo drying device of this printing paper drying.The turning part of carriage direction of change printing paper in described photo drying device is made of a central roller and diameter many string of cash shape rollers less than the diameter of central roller.Many string of cash shape rollers are configured to: the turning axle of described many string of cash shape rollers and the rotating shaft parallel of central roller, the side face of described many string of cash shape rollers and the side face of central roller are in opposite directions.In the turning part, between central roller and many string of cash shape rollers, clip printing paper and transport.At this, string of cash shape roller has the bigger large-diameter portion of diameter and the diameter minor diameter less than the diameter of large-diameter portion.So, in string of cash shape roller along a plurality of contacts site that axially alternately being formed with of this string of cash shape roller contacts with printing paper and with the discontiguous a plurality of noncontacts of printing paper position.

In the photo drying device, many string of cash shape rollers as mentioned above described many string of cash shape rollers and and described many string of cash shape rollers face in opposite directions between clip under the situation that printing paper transports, on the position that hot blast only is sprayed onto in the printing paper not with string of cash shape roller contacts.Therefore, if exist and which all discontiguous zone of root string of cash shape roller in printing paper when printing paper is transported in described turning part, hot blast just always is sprayed onto this zone, causes the inhomogeneous of drying.Consequently, the strip vestige is formed on this zone.

Summary of the invention

The present invention, described problem researchs and develops out in order to solve just.Its purpose is: a kind of drying device that can prevent to form owing to the dry inhomogeneous vestige that forms is provided.

In order to reach described purpose, the present invention is made as following structure, on one side that is: drying device transports medium, Yi Bian make this medium drying; This drying device comprises conveyer and ejection portion, this conveyer has and is configured to turning axle many mip rolls parallel to each other (nip roller) and has one or more parts in opposite directions with the side face forward surface in opposite directions of described every mip rolls, and between the side face of described mip rolls and described forward surface, clip medium and transport the face ejection hot blast of the side that with described mip rolls contact of this ejection portion in the medium that transport by described conveyer; In described mip rolls, alternately be formed with a plurality of large-diameter portion and a plurality of minor diameter along the turning axle direction, the side face of described large-diameter portion contacts with medium; The diameter of described minor diameter is less than the diameter of described large-diameter portion; Adjacent described mip rolls is configured to: the described large-diameter portion of a described mip rolls is arranged in the adjacent zone that described large-diameter portion clipped of the described mip rolls of another root; Many described mip rolls are configured to: on any position on the turning axle direction, all the direction of transporting medium along described conveyer disposes the described large-diameter portion of many at least one mip rolls in the described mip rolls.

According to described structure, when conveyer transported medium, the whole face by the spray hot blast in the medium contacted once at least with any mip rolls in the many mip rolls.Therefore, the position of hot blast can be avoided in medium, occurring always being sprayed, thereby the inhomogeneous of drying can be prevented to cause.

In described drying device, described parts in opposite directions also can be central rollers, and this central roller has the turning axle with the rotating shaft parallel of described mip rolls, and the side face of this central roller is the side face described forward surface in opposite directions with described every mip rolls.

According to described structure, medium are turned to along the side face of central roller.Such turning part needs very big transport force.At this, as mentioned above, in conveyer of the present invention, adjacent mip rolls is configured to: the large-diameter portion of a mip rolls is arranged in the adjacent zone that large-diameter portion clipped of another root mip rolls.Therefore, the spacing of the contact site of mip rolls and medium on the medium carriage direction is shorter than the diameter of large-diameter portion.Therefore, in described conveyer, can apply bigger transport force to medium.Therefore, the structure that can be used for described turning part to the present invention that medium apply bigger transport force is of great use.

In described drying device, preferably such, described conveyer has the described mip rolls more than five; Count the position of described large-diameter portion on the turning axle direction of the described mip rolls of n root from the end of a side of described carriage direction, not overlapping with the position of described large-diameter portion on the turning axle direction of n+1 root and the described mip rolls of n+4 root, and respectively with the location overlap part of described large-diameter portion on the turning axle direction of n+2 root and the described mip rolls of n+3 root, and with the position consistency of described large-diameter portion on the turning axle direction of the described mip rolls of n+5 root, described n is a natural number.

According to described structure, can utilize five large-diameter portion in the mip rolls to constitute one of large-diameter portion configuration mode and take turns this simple structure of cycle, be implemented in this structure of large-diameter portion that all disposes at least one mip rolls in the many mip rolls on any position on the turning axle direction along the carriage direction of medium.

Description of drawings

Fig. 1 is the summary construction diagram that comprises the picture processing device of the related dryer group of embodiments of the invention (drying device).

Fig. 2 is the sectional view along the II-II line of Fig. 1.

Fig. 3 is the sectional view along the III-III line of Fig. 1.

Fig. 4 amplifies and represents the figure of the bottom of dryer group shown in Figure 1.

Fig. 5 is the figure that represents described many mip rolls in the mode that the face that contacts with the side face of many mip rolls shown in Figure 4 becomes the plane.

Fig. 6 is used for the figure that configuration mode to the large-diameter portion in the mip rolls shown in Figure 5 describes.

Embodiment

Below, with reference to a description of drawings suitable embodiment of the present invention once.Fig. 1 is the summary construction diagram that comprises the picture processing device 1 of the related dryer group of embodiments of the invention 60 (drying devices).

As shown in Figure 1, picture processing device 1 is to adopt the picture processing device that utilizes the digital scanning Exposure mode of laser beam and constitute, and mainly comprises image input part 20, printing unit 50 and dryer group 60.Remark additionally, as hereinafter described, in printing unit 50 and dryer group 60, the direction in an edge is transported printing paper 2, Yi Bian implement various processing such as exposure-processed, dried in succession.In the following description, upstream one side and downstream one side of the carriage direction in printing unit 50 and dryer group 60 of printing paper 2 is called " upstream one side " concisely and reaches " downstream one side ".

In image input part 20, carry out various processing, as: the processing that the image in each frame (frame) that is recorded in the film that has developed is read, the view data that is read is carried out the processing of digital conversion and processing that the Digital Image Data that is recorded in the image recording medium such as flash memory is read or the like.Afterwards, send the view data that is read to printing unit 50.In printing unit 50, according to the view data that receives from image input part 20, mainly printing paper (image formation medium) 2 is carried out processing such as exposure-processed, development treatment, blix processing, the printing paper 2 that will handle again is sent to dryer group 60.In dryer group 60, the printing paper 2 of discharging is carried out dried from printing unit 50.Dried printing paper 2 is discharged to the outside of device from escape hole 62 in dryer group 60, is that unit classify by the sorter (not shown) with many batches of subscription content transported the back by moving belt (conveyor) 56 again.

As shown in Figure 1, image input part 20 has display 21, keyboard 22, mouse 23, computer unit 30 and scanner 40.

Display 21 is by demonstrating the graphic user interface (GUI:Graphical User Interface) that is used for carrying out various controls or notifying the various information relevant with picture processing device 1 as the image of the object of handling to operating personnel.Keyboard 22 and mouse 23, being used for comparison film treating apparatus 1 carries out input operation.

Computer unit 30, link together with display 21, keyboard 22 and mouse 23, according to the action that is included in the various piece in scanner 40 and the printing unit 50 and the output of image being gone into to control by the instruction of operating personnel by 23 inputs of keyboard 22 and mouse.Computer unit 30 can read the view data that is stored in memory card (memory card) or the CD-R CD image recording medium such as (compact disc recordables) by media reader (media reader) (not shown).

In scanner 40, carry out processing that the image in each frame that is recorded in the film that has developed is read and the view data that is read is carried out the processing such as processing of digital conversion, send the view data that is read to computer unit 30 again.

As shown in Figure 1, printing unit 50 mainly comprises two paper magazines 51, cut paper portion (sheetcutter) 52, back up portion 53, print exposure portion 54, chuck (chuck) formula conveyer 58, handling part 55 and press section 59.

Two paper magazines 51 are arranged on the inside of printing unit 50, take in the printing paper 2 that a volume is web-like respectively.The printing paper 2 that is accommodated in the described paper magazine 51 is pulled out required amount according to necessity by transporting roller antithetical phrase 57.Cut paper portion 52 is configured in than the group that manys of pulling out printing paper 2 from paper magazine 51 and transports on the position of roller antithetical phrase 57 near downstream one side, and the printing paper 2 that will pull out from paper magazine 51 is cut to desirable printed dimensions.

Back up portion 53 is configured in than on the position of cut paper portion 52 near downstream one side, to printing treatment information such as the back side of the printing paper 2 that has been cut to desirable printed dimensions by cut paper portion 52 side printing color update information and frame numbers.

Print exposure portion 54 is configured in and is disposed at than on back up portion 53 locational chuck mode conveyer 58 position adjacent near downstreams one side, and surface one side of the printing paper 2 that is cut to desirable printed dimensions is carried out the exposure of image.Chuck mode conveyer 58, transport with the travelling speed corresponding to various processing the end that clips downstream one side (front end one side) in the printing paper 2 that is cut to desirable size.

Handling part 55, be configured in the locational group of Duoing that is disposed at than print exposure portion 54 close downstreams, one side and transport on roller antithetical phrase 57 position adjacent, have the colour development groove 55a that stores the colour development treating fluid, the blix groove 55b that stores the blix treating fluid and the stabilization processes groove 55c of stable storage treating fluid.Passing through these grooves successively by the printing paper 2 that has carried out exposure is that colour development groove 55a, blix groove 55b and stabilization processes groove 55c are transported, and desirable image is formed on the surface of printing paper 2.

Press section 59 is configured between handling part 55 and the dryer group 60, has functions that adhere to, printing paper 2 lip-deep moisture when removal is transported in handling part 55.

Dryer group 60, be configured in than on the position of handling part 55 near downstream one side, be provided with roll-type conveyer 61 in the inside of this dryer group 60, this roll-type conveyer 61 temporarily transports this printing paper 2 downwards under the state that clips the printing paper 2 that has passed through press section 59 with roller, transport this printing paper 2 then upward.The air that has heated by heating part 74 described later (with reference to Fig. 2 and Fig. 3) to the face ejection of a side of the printing paper 2 that transports upward by roll-type conveyer 61, thus carry out dried.Remark additionally, dried printing paper 2 is sent on the moving belt 56 by falling from escape hole 62 in dryer group 60, is sent to sorter again.

The structure of dryer group 60 then, is described in more detail with reference to Fig. 2 and Fig. 3.Fig. 2 is the sectional view along the II-II line of Fig. 1; Fig. 3 is the sectional view along the III-III line of Fig. 1.

As shown in Figure 2, in dryer group 60, except described roll-type conveyer 61, also be provided with heating part 74, fan blower 75 and heating chamber 76.Heating chamber 76 is set to: with the face of a side in the printing paper 2 that transports upward by roll-type conveyer 61 in opposite directions.As shown in Figure 3, with the face of a side of this printing paper 2 in opposite directions and delimit in the wall 77 of heating chamber 76, be formed with as a plurality of openings that the air that heated in the heating chamber 76 sprayed to the ejection portion 79 of printing paper 2 with rectangular.

Fan blower 75 and heating part 74 are configured in the part (end one side on the Width of the printing paper 2 that is transported by roll-type conveyer 61) of a side of dryer group 60.As shown in Figure 3, fan blower 75 vertically is configured along device, is configured to: hot blast is sent to the zone in the whole dryer group 60.Heating part 74 is configured in the upstream portion of attraction one side of fan blower 75, is configured to: with high-level efficiency the air that is attracted by fan blower 75 is heated, and this air that is attracted mostly flows through heating part 74.Heating part 74 is made as: the length of the length of this heating part 74 and fan blower 75 about equally, the air heat that this heating part 74 can be attracted major part by fan blower 75 and make this air become hot blast.

As shown in Figure 2, the side that disposes fan blower 75 and heating part 74 in heating chamber 76 partly is formed with each length air intake opening 78 about equally of length and fan blower 75 and heating part 74.Air intake opening 78 is positioned at the downstream part of discharge one side of fan blower 75.Therefore, fan blower 75 hot blast of being discharged flows in the heating chambers 76 from air intake opening 78.Remark additionally, heating chamber 76 forms: the area of section apart from fan blower 75 position far away more in this heating chamber 76 is more little.Like this, the blast in the heating chamber 76 just is made as evenly, can make the flow of the hot blast that flows through ejection portion 79 even.

Then, to Fig. 6, the structure of pair roller type conveyer 61 describes in more detail with reference to Fig. 4.Fig. 4 is to amplify and represent the figure of the bottom of dryer group shown in Figure 1 60.Fig. 5 is the figure that represents described many mip rolls 68 in the mode that the face that contacts with the side face of many mip rolls 68 shown in Figure 4 becomes the plane.Fig. 6 is to be used for the figure that configuration mode to the large-diameter portion 68a of mip rolls shown in Figure 5 68 describes.

As shown in Figure 4, roll-type conveyer 61 comprises the turning part 65 of the bottom that is configured in dryer group 60.Turning part 65 has conduct central roller 67 and many mip rolls 68 of parts in opposite directions, and the diameter of this central roller 67 is bigger; The diameter of described many mip rolls 68 is less than the diameter of central roller 67.Remark additionally, dispose ten mip rolls 68 in the present embodiment.Every mip rolls 68 is configured to respectively: the rotating shaft parallel of the turning axle of described every mip rolls 68 and central roller 67, the side face of the side face of described every mip rolls 68 and central roller 67 in opposite directions.In turning part 65, between the side face of the side face of central roller 67 and every mip rolls 68, clip printing paper 2 and transport.Thus, in turning part 65, can transport the carriage direction that printing paper 2 changes printing paper 2 by side face along central roller 67.

Add, roll-type conveyer 61 comprises also how group is transported roller antithetical phrase 63.The roller antithetical phrase 63 that transports that is positioned at the left side of Fig. 4 clips the printing paper 2 that transports downwards, above in turning part 65, the carriage direction of this printing paper 2 being changed to, clamp in succession by transporting roller antithetical phrase 63 on one side, Yi Bian be transported upward along vertically be configured many groups of device on the right side of Fig. 4.

As shown in Figure 5, in every mip rolls 68, alternately be formed with the bigger a plurality of large-diameter portion 68a of diameter and diameter a plurality of minor diameter 68b less than the diameter of large-diameter portion 68a along the turning axle direction.In other words, in turning part 65, printing paper 2 is clipped between the side face of the side face of large-diameter portion 68a of mip rolls 68 and central roller 67.Remark additionally, as shown in Figure 4, the face of the side that contacts with mip rolls 68 in the printing paper 2 is towards heating chamber 76, and the hot blast that sprays from ejection portion 79 sprays to this face.

Many mip rolls 68 are configured to: the large-diameter portion 68a of a mip rolls 68 in the adjacent mip rolls 68 is arranged in the adjacent zone that large-diameter portion 68a clipped of another root mip rolls 68.At this, for example do not have minor diameter 68b and have along the turning axle direction under the situation of uniform diameter at many mip rolls 68, the mutual spacing of adjacent mip rolls 68 is greater than the diameter of mip rolls 68.Yet, because in the mip rolls 68 of present embodiment, be formed with large-diameter portion 68a and minor diameter 68b as mentioned above, the large-diameter portion 68a of a mip rolls 68 in the adjacent mip rolls 68 is arranged in the adjacent zone that large-diameter portion 68a clipped of another root mip rolls 68, so the mutual spacing of adjacent mip rolls 68 is less than the diameter of large-diameter portion 68a, the gap ratio on printing paper 2 carriage directions at the position that mip rolls 68 contacts with printing paper 2 is less.Therefore, can apply bigger transport force to printing paper 2.

Illustrate in more detail that the large-diameter portion 68a of every mip rolls 68 forms mutual spacing and equates, and the width of the large-diameter portion 68a of described every mip rolls 68 (length on the turning axle direction) is less than the width of minor diameter 68b.Remark additionally, the width of the large-diameter portion 68a of any mip rolls 68 in the mip rolls 68 equates that all same, the width of the minor diameter 68b of any mip rolls 68 in the mip rolls 68 also all equates.

With ten mip rolls 68 from the upstream one side be assumed to be successively first roller, second roller ..., the 11 roller.As shown in Figure 5, in mip rolls 68, the configuration mode of the large-diameter portion 68a of per five mip rolls 68 on the turning axle direction is consistent mutually.In other words, being respectively formed at large-diameter portion 68a in first roller, the 6th roller and the 11 roller is positioned in the same zone of extending along the carriage direction of printing paper 2 (for example, the oblique hacures of the usefulness of Fig. 5 represent zone).Equally, second roller is consistent mutually with the position of large-diameter portion 68a on the turning axle direction in the tenth roller with the 7th roller, the 3rd roller and the 8th roller, the 4th roller and the 9th roller and the 5th roller.

At this,, the configuration mode of the large-diameter portion 68a in the lower nip roll 68 is described in more detail with reference to Fig. 6.Fig. 6, be only select in ten mip rolls 68 be configured on the position adjacent six mip rolls 68 promptly n roller, n+1 roller ... and the large-diameter portion 68a in the n+5 roller (n is a natural number) and the figure that represents.

As shown in Figure 6, the large-diameter portion 68a of n roller and n+5 roller all be positioned at represent with oblique hacures, along zone that the carriage direction of printing paper 2 extends.In other words, n roller and n+5 roller when with central roller 67 between clip printing paper 2 and contact with the same position of printing paper 2 when transporting.In other words, carried out the position that contacts with the n roller that is positioned at upstream one side in the printing paper 2, also contacted with the n+5 roller that is positioned at downstream one side thereafter.

As mentioned above, in mip rolls 68, the configuration mode of the large-diameter portion 68a of per five mip rolls 68 constitutes one and takes turns the cycle, and the position of large-diameter portion 68a on the turning axle direction in the adjacent mip rolls 68 is not overlapping.In other words, the position of the large-diameter portion 68a of n+1 roller and n+4 roller not with oblique hacures region overlapping that represent, that dispose the large-diameter portion 68a of n roller and n+5 roller.

On the other hand, the position of the large-diameter portion 68a of n+2 roller and n+3 roller all with a region overlapping part of representing with oblique hacures.In other words, the position of the large-diameter portion 68a of n roller on the turning axle direction is respectively with the location overlap part of large-diameter portion 68a on the turning axle direction of n+2 roller and n+3 roller.Illustrate in more detail that as shown in Figure 6, the right side part of the large-diameter portion 68a of n+2 roller is neighbouring overlapping with the left side edge part in the zone of representing with oblique hacures; The left part of the large-diameter portion 68a of n+3 roller is neighbouring overlapping with the right side edge part in the zone of representing with oblique hacures.

Equally, as shown in Figure 6, the left part among the large-diameter portion 68a of n+1 roller on the turning axle direction the position and the location overlap of right side part on the turning axle direction among the large-diameter portion 68a of n+3 roller; Right side part among the large-diameter portion 68a of n+1 roller on the turning axle direction the position and the location overlap of left part on the turning axle direction among the large-diameter portion 68a of n+4 roller.Say again, the left part among the large-diameter portion 68a of n+2 roller on the turning axle direction the position and the location overlap of right side part on the turning axle direction among the large-diameter portion 68a of n+4 roller; As mentioned above, the right side part among the large-diameter portion 68a of n+2 roller on the turning axle direction the position and the location overlap of left part on the turning axle direction among the large-diameter portion 68a of n+5 roller (n roller).

In other words, ten mip rolls 68 are configured to: on any position on the turning axle direction, all dispose the large-diameter portion 68a of any mip rolls 68 (in the present embodiment, being many mip rolls 68) along the carriage direction of printing paper 2.Large-diameter portion 68a in every mip rolls 68 is configured to constitute described pattern, makes through the printing paper 2 of turning part 65 whole contact with any mip rolls 68.

As mentioned above, be provided with roll-type conveyer 61 in the dryer group 60 in the picture processing device 1 of present embodiment, this roll-type conveyer 61 comprises and is configured to turning axle ten mip rolls 68 parallel to each other.In ten mip rolls 68, alternately be formed with the bigger a plurality of large-diameter portion 68a of diameter and diameter a plurality of minor diameter 68b less than the diameter of large-diameter portion 68a along the turning axle direction of described mip rolls 68.Ten mip rolls 68 are configured to: on any position on the turning axle direction, all dispose the large-diameter portion 68a of any mip rolls 68 (many mip rolls 68) along the carriage direction of printing paper 2.Printing paper 2 is transported under the state that the side face by the side face of many mip rolls 68 and central roller 67 clips.In dryer group 60, be provided with ejection portion 79, the face ejection hot blast of the side that with mip rolls 68 contact of this ejection portion 79 in printing paper 2.Therefore, when transporting printing paper 2 with roll-type conveyer 61, the whole face by the spray hot blast of printing paper 2 contacts once at least with any mip rolls 68 in ten mip rolls 68.Therefore, the position of hot blast can be avoided in printing paper 2, occurring always being sprayed, thereby the inhomogeneous of drying can be prevented to cause.

In addition, in the dryer group 60 in the picture processing device 1 of present embodiment, ten mip rolls 68 are configured to: the side face of these mip rolls 68 and diameter are greater than the side face of the central roller 67 of the diameter of mip rolls 68 in opposite directions.In other words, the turning part 65 of the carriage direction of central roller 67 and ten mip rolls 68 formation change printing paper 2.At this, in the present embodiment, the gap ratio of the contact site of mip rolls 68 and printing paper 2 on printing paper 2 carriage directions is less, can apply bigger transport force to printing paper 2.Therefore, can in the turning part 65 of the bigger transport force of needs, suitably transport printing paper 2.

And in the dryer group 60 in the picture processing device 1 of present embodiment, position and large-diameter portion 68a the position on turning axle direction in n+1 roller and n+4 roller of the large-diameter portion 68a in the n roller on the turning axle direction is not overlapping.In addition, the position of the large-diameter portion 68a in the n roller on the turning axle direction, respectively with n+2 roller and n+3 roller in the location overlap part of large-diameter portion 68a on the turning axle direction.Add the position of the large-diameter portion 68a in the n roller on the turning axle direction and the position consistency of large-diameter portion 68a on the turning axle direction in the n+5 roller.Therefore, can utilize five large-diameter portion 68a in the mip rolls 68 to constitute one of large-diameter portion 68a configuration mode and take turns this simple structure of cycle, be implemented in the structure that all disposes the large-diameter portion 68a of any mip rolls 68 in ten mip rolls 68 on any position on the turning axle direction along the carriage direction of printing paper 2.

A suitable embodiment of the present invention more than has been described.The present invention is not limited to described embodiment, can carry out the change in various, the design in the scope that claims are put down in writing.What for example, illustrate in described embodiment is the situation that is provided with ten mip rolls 68.But, as long as there are many (preferably having more than five) mip rolls 68 just passable.In addition, just passable as long as many mip rolls 68 are configured to following state, that is: all dispose the large-diameter portion 68a of at least one mip rolls 68 in the many mip rolls 68 on any position on the turning axle direction along carriage direction.

What illustrate in described embodiment is the situation that constitutes following turning part 65, that is: in this turning part 65, mip rolls 68 clips printing paper 2 and transports between the side face of described mip rolls 68 and the side face of diameter greater than the central roller 67 of the diameter of mip rolls 68, change the carriage direction of printing paper 2.The present invention is not limited to this situation.For example, also turning part 65 can be constituted following structure, that is: mip rolls 68 the side face of described mip rolls 68 and hang on two driven rollers and outer peripheral face at the moving belt of the no end shape that extends between described two driven rollers between clip printing paper 2 and transport.In addition, also turning part 65 can be constituted following structure, that is: be provided with every mip rolls 68 and be made into many right rollers, transport with many group roller antithetical phrases.

In addition, what illustrate in described embodiment is that the large-diameter portion 68a of five mip rolls 68 in the mip rolls 68 constitutes the situation that one of large-diameter portion 68a configuration mode is taken turns the cycle, but the present invention is not limited to this situation, and the large-diameter portion 68a of also can the six roots of sensation above mip rolls 68 constitutes one of large-diameter portion 68a configuration mode and takes turns the cycle.

Claims (3)

1, a kind of drying device, Yi Bian transport medium, Yi Bian make this medium drying; This drying device comprises conveyer and ejection portion, this conveyer has and is configured to turning axle many mip rolls parallel to each other and has one or more parts in opposite directions with the side face forward surface in opposite directions of described every mip rolls, and between the side face of described mip rolls and described forward surface, clip medium and transport the face ejection hot blast of the side that with described mip rolls contact of this ejection portion in the medium that transport by described conveyer; In described mip rolls, alternately be formed with a plurality of large-diameter portion and a plurality of minor diameter along the turning axle direction, the side face of described large-diameter portion contacts with medium; The diameter of described minor diameter is characterized in that less than the diameter of described large-diameter portion:

Adjacent described mip rolls is configured to: the described large-diameter portion of a described mip rolls is arranged in the adjacent zone that described large-diameter portion clipped of the described mip rolls of another root;

Many described mip rolls are configured to: on any position on the turning axle direction, all the direction of transporting medium along described conveyer disposes the described large-diameter portion of many at least one mip rolls in the described mip rolls.

2. drying device according to claim 1 is characterized in that:

Described parts in opposite directions are central rollers, and this central roller has the turning axle with the rotating shaft parallel of described mip rolls, and the side face of this central roller is the side face described forward surface in opposite directions with described every mip rolls.

3. drying device according to claim 1 and 2 is characterized in that:

Described conveyer has the described mip rolls more than five;

Count the position of described large-diameter portion on the turning axle direction of the described mip rolls of n root from the end of a side of described carriage direction, not overlapping with the position of described large-diameter portion on the turning axle direction of n+1 root and the described mip rolls of n+4 root, and respectively with the location overlap part of described large-diameter portion on the turning axle direction of n+2 root and the described mip rolls of n+3 root, and with the position consistency of described large-diameter portion on the turning axle direction of the described mip rolls of n+5 root, described n is a natural number.

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