Transporting device and image recording apparatus

Abstract

A photographic printer includes a transporting device body being stationary. A transporting roller sets transport a recording sheet along a transporting path disposed with the transporting device body. A lid is secured to the transporting device body, and movable between first and second positions. The lid, when in the first position, defines the transporting path in cooperation with the transporting device body, and when in the second position, is away from the transporting device body to form a space upstream along the transporting path. Furthermore, two rotational support arms secure a downstream edge of the lid to the transporting device body in a rotatable manner. The lid is openable upon a pivotal movement of its upstream edge. Each of the plural transporting roller sets includes a first roller secured to the lid. A nip roller is secured to the transporting device body.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a transporting device and image recording apparatus. More particularly, the present invention relates to a transporting device for transporting a recording sheet and being capable of readily resolving problems of jamming of the recording sheet, and image recording apparatus having the transporting device.

2. Description Related to the Prior Art

A photographic printer as image recording apparatus is used in a photo laboratory for producing photographic prints. Long photographic paper as photosensitive material is unwound from a roll in a paper magazine, and cut to obtain a photographic paper sheet having a regular printing size. The photographic paper sheet is transported toward an exposure unit. It is likely in the printer that jamming occurs when an end or edge of the photographic paper incidentally abuts on an edge of transporting rollers transporting the photographic paper.

JP-A 2001-261189 discloses a known structure of a transporting device as a unit in the photographic printer. A plurality of sets of transporting rollers are incorporated in the transporting device, which is contained in the printer with a slide rail and the like, which keep the transporting device movable in a direction perpendicular to the transport of the photographic paper. If a jammed state of the photographic paper occurs, the transporting device is pulled away. So the residual part of the photographic paper is eliminated from a transporting path in the printer.

However, in the known transporting device, failure is likely to occur due to blocking of the photographic paper typically when the residual sheets extend between two adjacent transporting devices. Small broken pieces of the photographic paper will remain in the transporting path, because of the breakage in the course of pulling the photographic paper. Furthermore, the support of photosensitive material may be crystal paper, or polyethylene terephthalate (PET) film having very high strength and resistance to breakage. Mechanical elements of the transporting device may be damaged upon jamming of the photographic paper with this strength.

Even after removing the photographic paper having caused the jammed state, remaining sheets of the photographic paper being unused in the upstream position and succeeding to the jammed sheet must be totally eliminated before the jammed state will be treated. An operator must draw away or disassemble all of the transporting devices from the photographic printer.

SUMMARY OF THE INVENTION

In view of the foregoing problems, an object of the present invention is to provide a transporting device for transporting a recording sheet and being capable of readily resolving problems of jamming of the recording sheet, and image recording apparatus having the transporting device.

In order to achieve the above and other objects and advantages of this invention, a transporting device for transporting and delivering a recording sheet along a transporting path is provided. There is a transporting device body being stationary. A lid is secured to the transporting device body, movable between first and second positions, wherein the lid, when in the first position, closes an upstream side of the transporting path, and when in the second position, opens the upstream side of the transporting path, the lid allowing transport of the recording sheet when in the first position.

Furthermore, a rotational support mechanism secures a downstream edge of the lid to the transporting device body in a rotatable manner. The lid is openable upon a pivotal movement of an upstream edge thereof.

Furthermore, a plurality of transporting roller sets nip and transport the recording sheet between the transporting device body and the lid along the transporting path.

Each of the plural transporting roller sets includes a first roller secured to the lid. A nip roller is secured to the transporting device body.

Furthermore, a delay mechanism decreases a moving speed of the lid toward the second position for delay.

The delay mechanism is secured between the lid and the transporting device body, and biases the lid toward the first position.

The rotational support mechanism includes first and second lid arms for protruding from ends of the downstream edge of the lid. First and second support arms protrude from ends of a downstream edge of the transporting device body, the first and second support arms being secured to the first and second lid arms in a rotatable manner.

The plural transporting roller sets are arranged in plural rows in a direction of the transporting path, and in plural rows in a crosswise direction crosswise to the transporting path.

The delay mechanism includes a tension biasing element, extensible resiliently in response to application of tension, having first and second biasing ends, the first biasing end being retained on the lid. A line-shaped connector has first and second connecting ends, the first connecting end being retained on the transporting device body, the second connecting end being connected with the second biasing end, for suspending the lid coming down to the second position.

The delay mechanism is disposed along the upstream edge of the lid, and the tension biasing element extends in a crosswise direction crosswise to the transporting path.

The lid is disposed lower than the transporting device body, and the second position is lower than the first position.

The transporting path has an upstream portion extending substantially horizontally, and a downstream portion succeeding to the upstream portion and extending downwards in a tilted or curved manner.

In accordance with one aspect of the invention, an image recording apparatus includes a transporting device body being stationary. A transporting mechanism transports a recording sheet along a transporting path disposed with the transporting device body. A lid is secured to the transporting device body, movable between first and second positions, and when in the first position, defining the transporting path in cooperation with the transporting device body, and when in the second position, being away from the transporting device body to form a space upstream along the transporting path.

Furthermore, a residual sheet receiving unit is actuated upon occurrence of jamming of the recording sheet, for collectively receiving remaining recording sheets from the transporting path. A position detector detects in which of the first and second positions the lid is set. A controller is responsive to an output of the position detector, for driving the residual sheet receiving unit if the lid is set in the second position.

The residual sheet receiving unit includes a cover, openable relative to an outer surface of the lid, for being open away from the lid when the lid is in the second position, for collective receiving, and for being closed when the lid is in the first position, to cover the outer surface of the lid.

Specifically, at least one transporting unit is disposed upstream from the transporting device body, having a transporting roller, for transporting the recording sheet. A controller causes the transporting roller in the transporting unit to rotate after removal of a jammed recording sheet with the lid set in the second position, wherein the transporting roller transports the recording sheet remaining in the transporting unit, to exit the recording sheet through a space between the transporting device body and the lid. A residual sheet receiving unit receives the recording sheet exited through the space.

Furthermore, a position detector detects in which of the first and second positions the lid is set, to output a position signal, the position signal being transmitted to the controller.

Furthermore, a cover rotational support mechanism supports a downstream edge of the cover in a rotatable manner. The cover is openable upon a pivotal movement of an upstream edge thereof.

The recording sheet is photosensitive. Furthermore, there is an exposure unit for image printing by exposure of the photosensitive sheet. A leader receiving unit is disposed downstream from the exposure unit, having the transporting device body incorporated therein, for guiding a leading end of the photosensitive sheet being exposed.

The recording sheet is photosensitive. There is an exposure unit for image printing by exposure of the photosensitive sheet. A processor is disposed downstream from the exposure unit, for photographically processing the photosensitive sheet. The transporting device body is positioned between the exposure unit and the processor.

BRIEF DESCRIPTION OF THE DRAWINGS

The above objects and advantages of the present invention will become more apparent from the following detailed description when read in connection with the accompanying drawings, in which:

FIG. 1 is an explanatory view illustrating a printer-processor composite machine;

FIG. 2 is a perspective view illustrating a leader receiving unit and its relevant elements;

FIG. 3 is a perspective view illustrating a state of the leader receiving unit in which a cover is open;

FIG. 4 is a perspective view illustrating a transporting device;

FIG. 5 is a perspective view illustrating a state of the transporting device in which a lid is open;

FIG. 6 is a perspective view, partially cutaway, illustrating a delay mechanism.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S) OF THE PRESENT INVENTION

In FIG. 1, a printer-processor composite machine 2 is constituted by a photographic printer 10 and a paper processor 11. The printer 10 includes a paper delivery unit 12, a back imprinting unit 13, a registering unit 14, an image forming exposure unit 15, a leader receiving unit 16 for a sub-scan direction, a residual sheet receptacle 17, a sheet distributor 18, and a sheet dispenser 19. Any of those elements is controlled by a controller 20 or system controller in the printer-processor composite machine 2.

Two paper magazines 22a and 22b are loaded in the paper delivery unit 12. A roll of long photographic paper 21 to form a paper sheet as a recording sheet is contained in each of the paper magazines 22a and 22b. The photographic paper 21 is different between the paper magazines 22a and 22b in the condition of various items which are the paper web width, surface type, and other specifics. Note that the photographic paper 21 may be the same between the paper magazines 22a and 22b.

A set of two advancing rollers 24a and 24b are disposed on the paper magazines 22a and 22b, and transport the photographic paper 21 along a transporting path 23 indicated by the phantom line. The advancing rollers 24a and 24b unwind and advance the photographic paper 21 from the paper magazines 22a and 22b at a predetermined amount according to a printing size. In the unwound state, the advancing rollers 24a and 24b stop the advance in a provisionary manner.

The back imprinting unit 13 includes a paper cutter 25 and an imprinting head 26. The paper cutter 25 cuts the photographic paper 21 according to a printing size after unwinding from the paper magazines 22a and 22b by operation of the advancing rollers 24a and 24b. A photographic paper sheet 21a is obtained. The imprinting head 26 imprints information to a back surface of the photographic paper sheet 21a, the information including a frame number, correction data, and the like.

The registering unit 14 deskews the position of the photographic paper sheet 21a, adjusts the position of the photographic paper sheet 21a in the path width direction, and operates for other adjustment. In the image forming exposure unit 15, a photo film scanner (not shown) reads image from photo film to obtain image data. Instead of this, image data may be read from a storage medium such as a memory card (not shown). Printing light is modulated for the intensity according to the image data, so as to print an image on the photographic paper sheet 21a by exposing its photosensitive surface.

The leader receiving unit 16 has a number of transporting roller sets, each of which includes a first roller 40 and a nip roller 41. The first roller 40 is positioned lower, and supports a leader of the photographic paper sheet 21a protruding from the image forming exposure unit 15 in the course of printing. See FIG. 5. The nip roller 41 is positioned higher, and is shiftable between first and second positions, and when in the first position, nips the photographic paper sheet 21a with the first roller 40, and when in the second position, comes away from the first roller 40 to release nipping of the photographic paper sheet 21a. The sets of the first roller 40 and the nip roller 41 in the leader receiving unit 16 are incorporated in a transporting device 30, as depicted in FIGS. 2-5.

The residual sheet receptacle 17 is used upon occurrence of jamming of the photographic paper sheet 21a in a section upstream from the image forming exposure unit 15, and collects and stacks the remainder of the photographic paper sheet 21a from the transporting path 23 in the upstream section. A number of passage detecting sensors (not shown) are disposed in the transporting path 23 for detecting the passage of the photographic paper sheet 21a. It is determined in the printer-processor composite machine 2 that jamming has occurred if no defecting signal is generated from each detecting sensor within a predetermined period of time. Upon occurrence of the jammed state, the photographic paper sheet 21a stops being transported. An alarm signal is generated to warn an operator.

The sheet distributor 18 handles the photographic paper sheet 21a having been transported in one line past the upstream elements including the leader receiving unit 16, and distributes the photographic paper sheet 21a in a two-row form in the path width direction. The sheet dispenser 19 dispenses the photographic paper sheet 21a distributed by the sheet distributor 18, and supplies the paper processor 11 with the photographic paper sheet 21a. The sheet distributor 18 has a structure for example as disclosed in U.S. Pat. No. 6,144,441 (corresponding to JP-A 11-038584).

The paper processor 11 is supplied by the sheet dispenser 19 with the photographic paper sheet 21a, subjects the photographic paper sheet 21a to the color development, bleach/fixing, water washing and drying, and sorts and dispenses the photographic paper sheet 21a per customer orders for printing.

In FIGS. 2-5, the transporting device 30 constitutes the leader receiving unit 16 and is a unit including the sets of the first roller 40 and the nip roller 41. The transporting device 30 includes a transporting device body 30a and a lower lid 30b. The transporting device body 30a is stationary on the photographic printer 10, and has the nip roller 41. The transporting device body 30a has the first roller 40, and is rotationally shiftable between closed and open positions, and when in the closed position of FIG. 4, allows the photographic paper sheet 21a to move along the transporting path 23, and when in the open position of FIG. 5, opens an upstream space along the transporting path 23.

There is a lower cover 31 for covering the downside of the leader receiving unit 16, the sheet distributor 18 and a portion of the sheet dispenser 19, the lower cover 31 being included in the residual sheet receptacle 17. The lower cover 31 is shiftable between closed and open positions, and when in the closed position, covers the downside of the leader receiving unit 16 in FIG. 2, and when in the open position, uncovers the downside of the leader receiving unit 16 in FIG. 3. A cover grip 32 protrudes from the lower cover 31, and manually handled for opening and closing the lower cover 31. A retention wire 33 is connected for retaining the lower cover 31 in the open position.

In FIG. 4, a rotational support mechanism includes two support arms 42a, which are formed to project from a downstream end of the transporting device body 30a. Two lid arms 42b are formed to project from a downstream end of the lower lid 30b. A through hole is formed in any of the support arms 42a and the lid arms 42b. A support shaft 43 is inserted in the through holes. In FIG. 5, there is a lid grip 44 on the lower lid 30b. When the lower lid 30b is pulled down by holding the lid grip 44 rotationally about the support shaft 43, then the transporting path 23 appears externally. An upstream portion of the transporting path 23 nearer to the image forming exposure unit 15 is uncovered.

In FIG. 5, retention hooks 45 protrude from lateral faces of the lower lid 30b. Retention holes 46 are formed in the transporting device body 30a on one side of the transporting path 23. The retention hooks 45 are fitted in the retention holes 46, to retain the lower lid 30b in the closed position. When the lower lid 30b is pulled down by grasping the lid grip 44, the retention hooks 45 are disengaged from the retention holes 46.

A position detecting sensor or limit switch 47 as a position detector is incorporated in the portion of one of the retention holes 46, and detects in which of the closed and open positions the lower lid 30b is set. The position detecting limit switch 47 turns on when the lower lid 30b is closed to enter the retention hooks 45 in the retention holes 46, and turns off when the lower lid 30b is open to disengage the retention hooks 45 from the retention holes 46. A detection signal generated by the limit switch 47 is transmitted to the controller 20.

The controller 20 receives a detection signal from the position detecting limit switch 47, and judges requirement of the stacking operation of the remainder of the photographic paper sheets 21a. If the lower lid 30b is open, upstream ones of the transport rollers disposed upstream from the point of jamming are actuated, to collect and stack the photographic paper sheet 21a from the upstream section of the transporting path 23 into the residual sheet receptacle 17. If the lower lid 30b is closed, no transport rollers are actuated. No stacking of the remainder is made.

In FIG. 6, a delay mechanism 50 is incorporated in the transporting device 30, for braking of the lower lid 30b, namely reducing a speed of the lower lid 30b in movement toward the open position being lower. The delay mechanism 50 includes a connector of wire 51 as a line-shaped connector, a tension coil spring 52a as a tension biasing element, and a tension coil spring 52b as a tension biasing element with a biasing and connecting end. The connector of wire 51 connects the lower lid 30b to the transporting device body 30a. The tension coil springs 52a and 52b in cooperation bias the lower lid 30b in a direction toward the closed position being upper, and can extend elastically in response to the movement of the lower lid 30b.

An end retention hook 53 protrudes for retaining one biasing end of the tension coil spring 52a of the lower lid 30b. A second biasing end of the tension coil spring 52a is firmly connected with the connector of wire 51. A pulley 54 is disposed, and has the periphery which the connector of wire 51 is extended to contact. One end of the tension coil spring 52b is connected with the connector of wire 51.

A connector of wire 61 as a line-shaped connector is connected with a second end of the tension coil spring 52b. There are through holes 55a and 55b formed respectively in the transporting device body 30a and the lower lid 30b. The connector of wire 61 is inserted through the through holes 55a and 55b. An end retention hook 56 protrudes from the transporting device body 30a, and is connected with a connecting end of the connector of wire 61.

The operation of the printer-processor composite machine 2 is hereinafter described. At first, a command signal of command for printing is generated. In response, the photographic paper 21 is advanced from one of the paper magazines 22a and 22b in the paper delivery unit 12 by the advancing roller 24a or 24b. The paper cutter 25 in the back imprinting unit 13 cuts the photographic paper 21 to obtain the photographic paper sheet 21a.

The photographic paper sheet 21a obtained by cutting for the printing size moves to the imprinting head 26, which imprints the information to the photographic paper sheet 21a for the frame number, correction data, and the like. The registering unit 14 adjusts orientation of the photographic paper sheet 21a for deskewing and correcting the position in the path width direction. Then the photographic paper sheet 21a is transported toward the image forming exposure unit 15.

The image forming exposure unit 15 prints an image according to the image data on a photosensitive surface of the photographic paper sheet 21a. The photographic paper sheet 21a being exposed is transported through the leader receiving unit 16 to the sheet distributor 18.

The sheet distributor 18 is supplied with the photographic paper sheet 21a transported in the leader receiving unit 16 in one row, and distributes the photographic paper sheet 21a into two rows according to the path width direction. The photographic paper sheet 21a distributed by the sheet distributor 18 is transported to the paper processor 11 by the sheet dispenser 19. The photographic paper sheet 21a being exposed is subjected in the paper processor 11 to the color development, bleach/fixing, water washing and drying, and are sorted per customer orders for printing, and dispensed collectively.

If jamming of the photographic paper sheet 21a is created in a section upstream from the image forming exposure unit 15, then the lower cover 31 is opened by manually pulling the cover grip 32. The lower lid 30b is opened by pulling the lid grip 44. The remaining ones of the photographic paper sheet 21a are removed from the upstream section in the transporting path 23 upstream from the point of the jammed state.

If the position detecting limit switch 47 detects an open state of the lower lid 30b, then the controller 20 rotates at least one of the transporting rollers upstream from a point where jamming has occurred except for the advancing rollers 24a and 24b. The remainder of the photographic paper sheet 21a existing upstream from the jammed point in the transporting path 23 is collectively stacked in the residual sheet receptacle 17. In contrast, if the limit switch 47 detects a closed state of the lower lid 30b, the transporting rollers are turned off without rotation. The collecting and stacking operation is not made.

In the known structure in which the transporting device is in a drawer type, failure is likely to occur in drawing the transporting device due to blocking of photosensitive material typically when the residual sheets extend between two adjacent transporting devices. In the invention, however, no small broken pieces of the photographic paper will remain in the transporting path, because breakage can be prevented in the course of pulling the photographic paper. Furthermore, the support of the photosensitive material may be crystal paper, polyethylene terephthalate (PET) film, or other film or sheet material having very high strength and resistance to breakage. Unlike the prior art in which mechanical elements may be damaged upon jamming of the photosensitive material with this strength, it is possible to keep the transporting device safe and free from damage in the use of the photosensitive material with the strength. When the lower lid 30b becomes open, the speed of the lower lid 30b in movement to the open position is reduced by braking of the delay mechanism 50. Thus, the lower lid 30b is prevented from abruptly falling, and prevented from injure an operator physically. Also, the lower lid 30b can be kept coupled with the transporting device body 30a without disengagement.

There may be some skilled operator who, if jamming occurs, can readily remove the photographic paper sheet 21a remaining wastefully in the transporting path 23. He or she does not need to open the lower lid 30b. However, the feature of the invention enables even unskilled users to handle the photographic paper sheet 21a without difficulty, for the purpose of solving the problem of the jammed sheet. Consequently, the necessary or unnecessary condition of setting the stacking/collecting state can be determined according to intentions or conditions of the operator.

In the above embodiment, the delay mechanism 50 is constituted by the connectors of wire 51 and 61 and the tension coil springs 52a and 52b. However, other structures may be used as a delay mechanism, such as a damper to apply pressure in a direction to open the lower lid 30b.

In the above embodiment, the transporting device of the invention is applied in the leader receiving unit 16. However, other elements or units in an image recording apparatus can have a transporting device according to the invention. In the embodiment, the printer-processor composite machine 2 is a combination of the photographic printer 10 and the paper processor 11. However, an image recording apparatus according to the invention may be the printer 10 in a separate structure without the paper processor 11.

In the above embodiment, the printer-processor composite machine 2 operates for recording an image. However, an image recording apparatus of the invention can be any of known types, such as inkjet printer, thermal printer, thermal transfer printer, apparatus of an electrophotographic structure or a laser printer, and other various image forming apparatuses.

Although the present invention has been fully described by way of the preferred embodiments thereof with reference to the accompanying drawings, various changes and modifications will be apparent to those having skill in this field. Therefore, unless otherwise these changes and modifications depart from the scope of the present invention, they should be construed as included therein.

Claims

1. A transporting device for transporting and delivering a recording sheet along a transporting path, comprising:

a transporting device body being stationary; and

a lid, secured to said transporting device body, movable between first and second positions, wherein said lid, when in said first position, closes an upstream side of said transporting path, and when in said second position, opens said upstream side of said transporting path, said lid allowing transport of said recording sheet when in said first position.

2. A transporting device as defined in claim 1, further comprising a rotational support mechanism for securing a downstream edge of said lid to said transporting device body in a rotatable manner, wherein an upstream edge of said lid pivotally moves.

3. A transporting device as defined in claim 2, further comprising a plurality of transporting roller sets for nipping and transporting said recording sheet between said transporting device body and said lid along said transporting path.

4. A transporting device as defined in claim 3, wherein each of said plural transporting roller sets includes:

a roller secured to said lid; and

a nip roller secured to said transporting device body.

5. A transporting device as defined in claim 2, further comprising a delay mechanism for decreasing a moving speed of said lid toward said second position for delay.

6. A transporting device as defined in claim 5, wherein said rotational support mechanism includes:

first and second lid arms for protruding from ends of said downstream edge of said lid; and

first and second support arms for protruding from ends of a downstream edge of said transporting device body, said first and second support arms being secured to said first and second lid arms in a rotatable manner.

7. A transporting device as defined in claim 5, wherein said plural transporting roller sets are arranged in plural rows extending in a direction of said transporting path.

8. A transporting device as defined in claim 5, wherein said delay mechanism includes:

a tension biasing element having first and second biasing ends, said first biasing end being retained on said lid;

a connector of wire, having first and second connecting ends, said first connecting end being retained on said transporting device body, said second connecting end being connected with said second biasing end.

9. A transporting device as defined in claim 8, wherein said delay mechanism is disposed along said upstream edge of said lid, and said tension biasing element extends in a crosswise direction crosswise to said transporting path.

10. A transporting device as defined in claim 1, wherein said lid is openable down from said transporting device body.

11. A transporting device as defined in claim 1, wherein said transporting path has an upstream portion extending substantially horizontally, and a downstream portion succeeding to said upstream portion and extending downwards in an L-shape.

12. An image recording apparatus for image recording to a recording sheet, comprising:

a transporting device body being stationary;

a lid, secured to said transporting device body, movable between first and second positions, wherein said lid, when in said first position, forms a transporting path in cooperation with said transporting device body for passage of said recording sheet, and when in said second position, opens a space by coming away from said transporting device body; and

a transporting mechanism for transporting said recording sheet through said transporting path.

13. An image recording apparatus as defined in claim 12, further comprising a rotational support mechanism for securing a downstream edge of said lid to said transporting device body in a rotatable manner, wherein an upstream edge of said lid pivotally moves.

14. An image recording apparatus as defined in claim 13, wherein said transporting mechanism further includes a plurality of transporting roller sets for nipping and transporting said recording sheet between said transporting device body and said lid along said transporting path.

15. An image recording apparatus as defined in claim 14, wherein each of said plural transporting roller sets includes:

a roller secured to said lid; and

a nip roller secured to said transporting device body.

16. An image recording apparatus as defined in claim 15, further comprising:

at least one transporting unit, disposed upstream from said transporting device body, having a transporting roller, for transporting said recording sheet;

a controller for causing said transporting roller in said transporting unit to rotate after removal of a jammed recording sheet with said lid set in said second position, wherein said transporting roller transports said recording sheet remaining in said transporting unit, to exit said recording sheet through a space between said transporting device body and said lid; and

a residual sheet receiving unit for receiving said recording sheet exited through said space.

17. An image recording apparatus as defined in claim 16, further comprising a position detector for detecting in which of said first and second positions said lid is set, to output a position signal, said position signal being transmitted to said controller.

18. An image recording apparatus as defined in claim 13, wherein said recording sheet is photosensitive;

further comprising:

an exposure unit, disposed upstream from said transporting device body, for image printing by exposure of said photosensitive sheet; and

a processor, disposed downstream from said transporting device body, for photographically processing said photosensitive sheet.

19. An image recording apparatus as defined in claim 13, further comprising a delay mechanism for decreasing a moving speed of said lid toward said second position for delay.

20. An image recording apparatus as defined in claim 19, wherein said delay mechanism includes:

a tension biasing element having first and second biasing ends, said first biasing end being retained on said lid;

a connector of wire, having first and second connecting ends, said first connecting end being retained on said transporting device body, said second connecting end being connected with said second biasing end.

21. An image recording apparatus as defined in claim 13, wherein said lid is openable down from said transporting device body.