JPH05119727A - Continuously notifying device - Google Patents

Abstract

PURPOSE:To simplify the structure, to reduce the manufacturing cost and the fault generation rate and to simplify the control of the whole device. CONSTITUTION:Six holders 9 which hang sheet-form notice matter 4, a transport chain and a transport pawl which transport the front holder 9 to the rear via a holder transport path 74, a delivery drive roller 140 being conducted a rotary drive, and a delivery driven roller 148 which allows the holder 9 to pass through by separating from the delivery drive roller 140 by press of the holder 9 being going to be transported and also enables to deliver by being crimped the paper sheets notifying objects 4 following up by being pressed by a pressurized contact spring 150, are installed. Thus since both rollers 140, 148 are attached and detached by using the transport operation of the holder 9, an exclusively used driving power source can be omitted and also the control for the driving power source is not required.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous display device such as a poster circulation display device, which is installed in a vehicle such as a train or a bus, or in a building such as a bank or a station. The present invention relates to a sheet-shaped bulletin board in which a sheet-shaped bulletin board composed of a plurality of posters and a plurality of pieces of comics is sequentially displayed.

[0002]

2. Description of the Related Art As a conventional continuous notice device of this type,
For example, a poster circulation posting device described in JP-A-2-181184 can be cited.

FIG. 66 is a sectional view showing an installed state of this conventional poster circulation display device.

As shown in the figure, the housing 3 of the display device
01 is arranged on the ceiling 302 in the room, and is fixed to the existing steel material 303 provided on the back of the ceiling with a plurality of bolts 304 and nuts 305. An opening 301a is formed on the lower surface of the housing 301, and the opening 301a
On a pair of support rods 306 (only one of which is shown) detachably attached to the two ends of a large number of holders 307 are arranged in an aligned state. Poster 308 for each holder 307
The top of the poster is retained and each poster 308 is attached to the housing 30.
The posters 3 that are hung through the first opening 301a and are at the beginning (left side in the figure) and the last (right side in the figure)
08 is to be posted facing the room.

A pair of endless conveyor chains 309 are provided at the upper end positions of the holders 307, respectively.
It is stretched by 10 (only one of the chains is shown).
11 and the transmission belt 314, and are driven in synchronization with each other. Both transport chains 30
9 are provided with conveying claws 313, and these conveying claws 313 are located behind the leading holder 307. In addition, each holder 3 is placed between the two transport chains 309.
A holder conveyance path 320 connecting the first holder 307 and the last holder 307 via the upper side of 07 is formed.

Further, a feeding drive roller 315 is rotatably provided between the sprockets 310 on the rear sides of the two conveying chains 309 so as to have the same axis center, and the feeding drive roller 315 is provided with the conveying chain 309. Similarly, the motor 312 uses the gearbox 311 and the transmission belt 31.
It is designed to be rotated clockwise via 6. On the rear side of the feeding drive roller 315, a lever 317 that is tiltable about the lower end is provided.
At the center of 7, a feeding driven roller 318 is rotatably provided. A solenoid 319 is connected to the upper end of the lever 317, and the lever 317 tilts in response to the operation of the solenoid 319, and as a result, the feeding driven roller 318 comes into contact with or separates from the feeding driving roller 315.

When the transport chain 309 is driven by the motor 312 and travels in the clockwise direction, the transport pawl 31
3, both ends of the head holder 307 are supplemented, and the holder 307 is attached to each holder 30 along the transport chain 309.
It is transported to the end of 7. The poster 308 held by the holder 307 and following the poster 308 is the lever 31.
Due to the tilting of No. 7, the feeding driven roller 318 and the feeding driving roller 315 pinch the feeding driven roller 318, and the feeding driven roller 315 is fed to the rearmost position as the feeding driven roller 315 rotates. As a result, each holder 3
The arrangement order of 07 is changed, and the poster 308 displayed in the room is changed. After that, the transport chain 309 travels counterclockwise to return the transport claw 313 to the original position, that is, the rear side of the new leading holder 307, and repeats the above series of operations every predetermined time. Then, the posted posters 308 are sequentially changed.

[0008]

In the conventional poster circulating / posting apparatus, the solenoid 319 is used for the contact / separation operation of the feeding driven roller 318 with respect to the feeding driving roller 315 as described above.
Drive. Therefore, the poster 30
As a drive source for feeding out 8, the feeding drive roller 3
It is necessary to provide a solenoid 319 for this contacting / separating operation in addition to the rotational driving motor 312 of 15, which may complicate the structure of the display device and increase its manufacturing cost. There is a possibility that the failure rate may increase with the complexity.

Further, as described above, the feeding drive roller 315 is used.
Further, the feeding driven roller 318 needs to allow the holder 307 conveyed by the conveying claw 313 to pass therethrough, and clamp the poster 308 that follows the holder 307 for the feeding operation. motion,
That is, it is necessary to excite the solenoid 319 at an accurate timing. Therefore, for example, the holder 307 being conveyed is detected by a sensor, and the solenoid 319 is excited based on the detection. For example, the control of the feeding operation of the poster 308 is complicated, and thus the control of the entire display device is complicated. It was unavoidable to end up.

Therefore, an object of the present invention is to provide a continuous notice device which can simplify the structure, reduce the manufacturing cost and the failure occurrence rate, and simplify the control of the entire device. Is.

[0011]

According to a first aspect of the present invention, there is provided a continuous posting device, comprising: a plurality of holders for suspending a single-posted item; a holder carrying path connecting the first and last holders; and a holder carrying path. A transporting means for transporting the first holder to the rearmost via the feeding roller, a feeding driving roller that is rotationally driven in the holder feeding path, and a passage of the holder that is separated from the feeding driving roller by pressing the holder during transportation. , A feeding driven roller capable of being fed to the rearmost side is provided by sandwiching a single-sheet posted object that follows by the biasing of the biasing member.

The continuous bulletin board device according to the invention of claim 2 is
A plurality of holders for suspending single-sheet postings, a holder conveyance path connecting the top and bottom holders, a conveyance means for conveying the top holder to the end via the holder conveyance path, and rotation in the holder conveyance path In addition to allowing the feeding drive roller to be driven, the operation member to be pressed at the end of the holder being conveyed, and the passage of the holder away from the feeding drive roller in conjunction with the pressing operation of the operation member, The sheet feeding object which follows by the urging of the urging member is sandwiched, and a delivery driven roller which can be delivered to the rearmost side is provided.

The continuous bulletin board device according to the invention of claim 3 is
A plurality of holders for suspending single-sheet postings, a holder conveyance path connecting the top and bottom holders, a conveyance means for conveying the top holder to the end via the holder conveyance path, and rotation in the holder conveyance path While being driven by the driven drive roller, one side of the driven drive roller is stretched around the pulley and brought into contact with the driven drive roller, the holder is allowed to pass between the driven drive roller and the driven drive roller so that the holder is passed between the driven drive roller and the driven drive roller. The following single-sheet posted object is sandwiched, and a delivery driven belt that can be delivered is provided on the rearmost side.

[0014]

According to the present invention, the first holder is conveyed in the holder conveying path by the conveying means, presses the feeding driven roller to separate it from the feeding driving roller, and passes between both rollers to reach the last. After reaching, the sheet-shaped post following the holder is sandwiched between both rollers urged by the urging member, and is fed to the rearmost side with the rotation of the feeding drive roller. Since both rollers are brought into contact with and separated from each other by using the transport operation of the holder to pass through the holder and sandwich the single-posted object, a dedicated drive source can be omitted and control for the drive source is required. Not.

According to the second aspect of the present invention, the first holder is conveyed along the holder conveying path by the conveying means, presses the operating member to separate the feeding driven roller from the feeding driving roller, and passes between both rollers. To reach the end, and then
The sheet-shaped post following the holder is sandwiched between both rollers urged by the urging member, and is fed out to the rearmost side as the feeding drive roller rotates. By utilizing both rollers to contact and separate, and to pass through the holder and sandwich the single-posted object, it is possible to omit a dedicated drive source, and there is no need for control for the drive source.
In addition, since the holder itself does not press the feeding driven roller and only the operation member is pressed by the end portion thereof, noise due to contact between the holder and the feeding driven roller is prevented in advance.

According to the third aspect of the invention, the first holder is conveyed along the holder conveying path by the conveying means to extend the feeding driven belt, pass through between the belt and the feeding driven roller, and reach the end. The sheet-shaped post that reaches the holder and then follows the holder is sandwiched between the feeding driven belt and the feeding driving roller, and is fed to the rearmost side as the feeding driving roller rotates. Since the feeding driven belt is stretched by using the conveyance operation of (1) to pass through the holder and to sandwich the single-sided post, a dedicated drive source can be omitted and control for the drive source is required. do not do.

[0017]

【Example】

<< First Embodiment >> Hereinafter, a continuous notice device according to a first embodiment of the present invention will be described.

FIG. 1 is an explanatory view showing an installation state of the continuous display device according to the first embodiment of the present invention when it is suspended, and FIG. 2 is a state where the continuous display device according to the first embodiment of the present invention is embedded. It is explanatory drawing which shows an installation state. It should be noted that these figures show a partial cross-section of the train cut into round slices.

The posting device 1 of the present embodiment is installed on the ceilings 2a and 3a in the trains 2 and 3, and is for sequentially displaying the sheet-shaped posters 4 consisting of six posters or the like to the passengers. As for the existing train 2 in which the installation of the device 1 is not considered, as shown in FIG. 1, a hanging type installation structure for suspending the posting device 1 from the ceiling 2a is adopted, and the posting device 1 is installed in advance. As shown in FIG. 2, the considered new electric train 3 has an embedded type installation structure in which the posting device 1 is embedded in the ceiling 3a.

Here, the bulletin board system 1 of this embodiment, whether it is installed in a hanging type or an embedded type,
Since the operations and effects related to the gist of the present invention are exactly the same, only the case where the bulletin board device 1 is installed in a hanging manner will be described below, and the description when it is installed in an embedded manner will be omitted. In addition, the said sheet-shaped bulletin board 4 shall be printed on the front and back sides, and the surface of this printed sheet-shaped bulletin board 4 shall be made into the posting surface hereafter.

<Overall Structure> FIG. 3 is a perspective view showing the continuous posting apparatus according to the first embodiment of the present invention when it is suspended and installed. FIG. 4 is the suspension of the continuous posting apparatus according to the first embodiment of the present invention. It is an exploded perspective view showing the time of installation.

As shown in the figure, the main body 5 of the display device 1 has a box-like shape made of a metal plate, and a rectangular opening 5a is formed on the lower surface thereof. A metal decoration grille 6 is attached to the bottom surface of the main body 5 with screws (not shown),
The opening 6a formed in the grill 6 corresponds to the opening 5a of the main body 5. In addition, the main body 5 is provided on the lower surface of the grill 6.
A lower cover 7 made of a metal plate is detachably attached so as to cover the lower part from below, and an opening 7a formed in the lower cover 7 corresponds to the opening 6a of the grill 6. Further, a dustproof upper cover 8 made of a metal plate is attached to the upper surface of the main body 5 with screws (not shown).

Within the main body 5, six holders 9 are aligned so as to face outward from the openings 5a, and each holder 9 is arranged.
The above-mentioned six sheet-shaped signs 4 are suspended and supported by the grill 6 and the lower cover 7 through the openings 6a, 7a. The individual leaflets 4 are aligned at a slight distance from each other, and the front surface of the frontmost leaflet 4 and the rear surface of the rearmost leaflet 4 are: It is posted to the passengers on the train 2. Then, as will be described later, the leading single-wafer posting 4 is conveyed to the end of each single-wafer posting 4 according to the operation of the posting device 1, and by repeating this operation, the single-wafer posting posted to the passengers. Item 4 is to be sequentially replaced.

<Installation Structure> Next, the ceiling 2 of the display device 1
The installation structure for a will be described.

FIG. 5 is a partially cutaway front view of the continuous posting apparatus according to the first embodiment of the present invention, which is installed in a suspended state, and FIG. 6 is a suspended posting apparatus of the continuous posting apparatus according to the first embodiment of the present invention. FIG. 7 is a partial sectional side view showing a partially broken side view showing the installation structure of the continuous posting apparatus according to the first embodiment of the present invention when it is suspended and installed. FIG. 8 is a continuous posting according to the first embodiment of the present invention. 5 is a cross-sectional view taken along the line AA of FIG. 5 showing the installation structure when the device is suspended and installed, and FIG. 9 is an exploded perspective view showing the main body mounting bracket when the continuous posting device according to the first embodiment of the present invention is suspended and installed. Is.

As shown in FIGS. 4 to 9, laterally long mounting guide plates 10 are fixed to the entire front and rear surfaces of the main body 5, and the upper and lower edges of these mounting guide plates 10 are left and right. It is bent in the entire direction and is separated from the main body 5 by a predetermined dimension. A pair of main body mounting brackets 11 are arranged on the two mounting guide plates 10 at predetermined intervals in the left-right direction, and the upper hook member 12 of the main body mounting bracket 11 has a tip 12a bent downward. , Body 5 and mounting guide plate 1
0 is hooked in a state of being inserted from above from the upper edge, and similarly, the lower hooking member 13 of the main body mounting bracket 11 has the tip 13a bent upward, the main body 5 and the mounting guide. Board 10
It is hooked with the lower edge inserted from below. Further, the base ends 12b and 13b of the upper hooking member 12 and the lower hooking member 13 are bent and overlapped in a direction away from the mounting guide plate 10, and a square plate-shaped spacer 14 is superposed from below. , These hook members 1
Screw holes 12c, 13c, 14a are formed in the base ends 12b, 13b of the spacers 2, 13 and the spacer 14 so as to correspond to each other.

The upper retaining member 12 and the lower retaining member 1
The clamp member 15 of the main body mounting bracket 11 is provided at a position close to 3
Is provided, and a box-shaped accommodating portion 16 that opens to the mounting guide plate 10 side is provided above the clamp member 15. A base end 1 of the upper hook member 12 is provided in the accommodation portion 16.
2b, the base end 13b of the lower hook member 13, and the spacer 1
4 are inserted, and screw holes 12c, 13c, and
Larger-diameter screw holes 16a are formed on the upper surface and the lower surface of the housing 16 so as to correspond to 14a. In addition, a drop-out prevention piece 17 is provided below the clamp member 15.
Is integrally formed, and a mounting bolt 18 is inserted from below into an escape hole 17a formed in the fall prevention piece 17. A pressure contact flange 18a is integrally formed on the mounting bolt 18 between the accommodating portion 16 of the clamp member 15 and the fall prevention piece 17, and a ring groove 18b is formed below the pressure contact flange 18a to fit the E ring 19. It fits.

On the other hand, a cross section L is provided on the ceiling 2a inside the train 2.
Two steel materials 20 having a letter shape are arranged at predetermined intervals along the traveling direction of the train 2, and these steel materials 20 are
For example, it is an existing one provided for installation of an air conditioner. Threaded portion 18a at the tip of the mounting bolt 18
Are screw holes 21, 2 formed in the ceiling 2a and the steel material 20.
2 is inserted from inside the vehicle and is screwed into a nut 23 welded onto the steel material 20. Crimping collar 18 for mounting bolt 18
Since the outer diameter of a is set to be larger than the inner diameter of the screw hole 14a of the spacer 14 and smaller than the inner diameter of the screw hole 16a of the accommodating portion 16, the press-contact flange 18a at this time is formed on the lower surface of the accommodating portion 16. The lower surface of the spacer 14 is pressed against the lower surface of the spacer 14 via the screw hole 16a, and the base end 12b of the upper hooking member 12, the base end 13b of the lower hooking member 13, the spacer 14, and the accommodating portion 16 are connected to the ceiling 2a. The upper surface is clamped. Further, the clamping force of the mounting bolt 18 causes the tip 12a of the upper retaining member 12 and the tip 13a of the lower retaining member 13 to approach each other to firmly clamp the mounting guide plate 10 from above and below,
As a result, the main body 5 of the display device 1 is attached to each main body mounting bracket 11.
Is fixed to the ceiling 2a.

The left and right ends of the both mounting guide plates 10 are
The upper edge and the lower edge are deleted by a predetermined size, and this portion is set as the attachment / detachment position 24. Then, at the attachment / detachment position 24, the engagement of the upper engagement member 12 with respect to the upper edge and the engagement of the lower engagement member 13 with the lower edge are released, respectively, and as a result, the main body mounting member 11 is attached to the mounting guide. Board 10
It can be freely attached to and detached from.

FIG. 10 shows the installation structure of the continuous display device according to the first embodiment of the present invention when it is installed by suspension, as shown by B- in FIG.
FIG. 11 is a sectional view taken along the line B, and FIG. 11 is a C of FIG.
FIG. 12 is a cross-sectional view taken along the line C of FIG. 10, and FIG. 12 is a cross-sectional view taken along the line D-D of FIG.

As shown in FIGS. 5 and 10 to 12,
Cover mounting seats 25 are horizontally bent at the left and right ends of the both mounting guide plates 10 so as to be adjacent to the attaching / detaching positions 24, and the cover mounting seats 25 are bent in a U shape. The upper plate 26a of the cover mounting member 26 is attached with screws 27. In addition, the lower plate 26 of the cover mounting member 26
A through hole 28 is formed in the center of b, and a pair of pins 29 are provided upright on both sides of the through hole 28 on the lower plate 26b. A metal wire rod 30 is disposed above the through hole 28,
Both ends of the wire 30 are wound around the pins 29, respectively.

On the other hand, the lower cover 7 is arranged so as to cover the main body 5 from below, and the through holes 3 are provided at the four corners of the lower cover 7 so as to correspond to the through holes 28 of the cover mounting member 26.
1 is formed. An engagement pin 32 is inserted into each through hole 31 from below, and an operation portion 32a formed at a lower end of each engagement pin 32 is in contact with a lower surface of the lower cover 7. The upper end of the engagement pin 32 is projected onto the lower cover 7 through the through hole 31, a washer 33 is fitted, and an engagement cylinder 34 having a spiral groove 34a formed on the outer periphery is fixed.
Therefore, the engagement pin 32 includes the operation portion 32a and the engagement cylinder 3.
4 prevents the lower cover 7 from falling out of the through hole 31.

The engaging cylinder 34 projects upward through the through hole 28 of the cover mounting member 26, and the engaging cylinder 34
The wire rod 30 is fitted in the groove 34a of the
Is regulated to leave below. As a result, the lower cover 7 is fixed to the main body 5 while covering the main body 5 from below. An annular packing 35 is adhered to the upper surface of the lower cover 7 so as to surround the opening 7a, and contacts the lower surface of the grill 6 through the packing 35.

<Operation Unit> Next, the operation unit of the display device 1 including the power switch 39 and the like will be described.

FIG. 13 is a bottom view of the continuous posting apparatus according to the first embodiment of the present invention when the lower cover is attached, and FIG. 14 is a bottom view of the continuous posting apparatus according to the first embodiment of the present invention when the lower cover is removed. is there.

As shown in FIGS. 4, 13 and 14, a protrusion 36 is formed on the lower surface of the grill 6 around the opening 6a, and a wide operation is provided on one side of the protrusion 36. Surface 3
7 are formed. Opening 7a of the lower cover 7
Is located so as to surround the ridge 36 and the operating surface 37 of the grill 6, and as a result, the ridge 36 and the operating surface 37 are exposed downward through the opening 7a. The ridge 36 and the operation surface 37 are set substantially flush with the lower surface of the lower cover 7.

FIG. 15 is a partially enlarged bottom view of the continuous display device according to the first embodiment of the present invention when the lower cover is attached, and FIG. 16 shows an operating portion of the continuous display device according to the first embodiment of the present invention. 17 is a sectional view taken along the line EE of FIG. 15, and FIG. 17 is a sectional view taken along the line FF of FIG. 15 showing the operating portion of the continuous bulletin apparatus which is the first embodiment of the present invention.

As shown in the figure, the operating surface 3 of the grill 6 is shown.
On the back surface side (upper surface side) of 7, a main body 5 is formed with a hole 38, and a unit box 40 in which a power switch 39 of the bulletin apparatus 1 is installed is installed in the hole 38. The operation lever 4 is provided in the unit box 40
1 is rotatably attached by a pin 42, and as shown in FIG. 16, its operating lever 41 is always urged clockwise by its own weight to bring one side of the lower surface 41a into contact with the back surface of the grill 6. I am letting you. The operation surface 37 of the grill 6 is provided with an operation hole 37a so as to correspond to the operation lever 41, and the lower surface 41a of the operation lever 41 is exposed downward through the operation hole 37a. The power switch 39 is fixed to the left side of the unit box 40 with screws 43,
The operator 39a of the power switch 39 protruding rightward is in contact with the left surface 41b of the operation lever 41. In addition,
The power switch 39 can be alternately switched between on and off each time the operator 39a is pressed.

A dedicated operating rod 44 is prepared for the bulletin board device 1 of the present embodiment. As shown in FIG. 17, when the tip of the operating rod 44 is inserted into the operating hole 37a of the grill 6 from below, The lower surface 41a of the operation lever 41 is pushed up by the tip thereof, and the operation lever 41 rotates counterclockwise,
On the left surface 41b, the operator 39 of the power switch 39 is pressed and turned on or off. The inner diameter of the operation hole 37a of the grill 6 is set to be smaller than the fingertip of a person. Therefore, due to a passenger's mischief, the bulletin board 1 is displayed at the fingertip.
The power of the is prevented from being turned on and off.

A printed circuit board 45 is provided on the right side of the switch unit 40 on the rear surface of the operation surface 37 of the grill 6.
Is fixed with a pair of screws 46, and the printed circuit board 45
An operation indicator light 47 for indicating the operation of the bulletin board device 1 and an abnormality indicator light 48 for indicating the occurrence of an abnormality are soldered to. The operation indicator lamp 47 and the abnormality indicator lamp 48 are provided as a pair of indicator holes 37b, 3b formed on the operation surface 37 of the grill 6.
Each of them is exposed to the lower side through 7c so that the lighting state can be visually recognized from the inside of the vehicle.

On the other hand, at a position near the operation surface 37 of the grill 6, an assembling block 49 is provided on the bottom surface of the main body 5.
Are fixed by screws 50, and a circular accommodating hole 49a and an elongated accommodating hole 49b are formed through the assembly block 49. A printed circuit board 51 is fixed on the assembly block 49 with screws (not shown), and an interval setter 52 soldered to the lower surface of the printed circuit board 51 (see FIG. 16).
(Shown in FIG. 17) is in the circular accommodation hole 49a, and the breaker switch 53 (shown in FIG. 17) soldered to the lower surface of the printed circuit board 51 is the elongated accommodation hole 49b.
It is arranged inside each. Interval setter 52
The operation dial 52a that protrudes downwards is exposed downward through the operation hole 54 of the main body 5 and the operation hole 55 of the grill 6,
Similarly, the operating element 53 a protruding below the breaker switch 53 has an operating hole 56 in the main body 5 and an operating hole 57 in the grill 6.
It is exposed downward through. In the normal state when the lower cover 7 is fixed to the main body 5, the operation dial 52a and the operating element 53a are hidden by the lower cover 7.

The interval setter 52 sets the interval time Tm1 of the replacement operation of the single-sheet posted objects 4 performed by the posted device 1, and the operation dial 52a is rotated by a minus driver or the like. Thus, the interval time Tm1 of 10, 15, 30, 60, 90 seconds can be selectively set. Now, assume that 30 sec is set as the interval time Tm1. Further, the breaker switch 53 is for forcibly shutting off the power source when an abnormal current is generated, and after shutting off, the power source can be turned on again by pressing the operating element 53a with the operating rod 44 or the like. Becomes

<Frame> Next, the structure of the frame 58 installed in the main body 5 and supporting the transport mechanism and the feeding mechanism will be described.

FIG. 18 is a plan view showing a main body of a continuous posting device which is a first embodiment of the present invention, and FIG. 19 is a portion showing a gear train for a conveying mechanism of the continuous posting device which is a first embodiment of the present invention. FIG. 21 is a partial sectional plan view showing a gear train for a feeding mechanism of a continuous posting device according to a first embodiment of the present invention, FIG.
FIG. 21 is a sectional view taken along the line GG in FIG. 20, showing the structure of the frame of the continuous posting device which is the first embodiment of the present invention.

As shown in the figure, in the main body 5 of the display device 1, a frame 58 for supporting a carrying mechanism and a feeding mechanism, which will be described later, is installed above each holder 9. The frame 58 includes four bearing members 59 arranged side by side in the left-right direction, a connecting pipe 60 extending in the left-right direction and having a rectangular cross section, and a mid cover 61 attached to the lower surface of the bearing member 59. The bearing members 59 are connected by the connecting pipe 60 and the mid cover 61 at predetermined intervals. The bearing member 59 is made of a synthetic resin material having a low coefficient of friction, and its shape is an elongated rectangular parallelepiped having front and rear ends formed in an arc shape. The mid cover 61 is for hiding the transport mechanism and the feeding mechanism provided in the display device 1 from passengers in the vehicle.

A loose fitting hole 62 is formed in the front end portion of each bearing member 59 so as to extend in the left-right direction.
The driven shaft 63 is inserted therein. Both left and right ends of the driven shaft 63 project outward through loose fitting holes 64 formed on both side surfaces of the main body 5, and are restricted from moving in the axial direction by E-rings 65. The loose fitting hole 62 of the bearing member 59 and the loose fitting hole 64 of the main body 5 are elongated holes extending in the front-rear direction, and allow the driven shaft 63 to slightly move in the front-rear direction. Further, since the driven shaft 63 is simply inserted into the loose fitting holes 62 and 64 as described above, its rotation is restricted.

On the rear side of the connecting pipe 60, bearing holes 66 are formed in the respective bearing members 59 in the left-right direction, and a delivery shaft 67 is inserted into these bearing holes 66. Both left and right ends of the feeding shaft 67 are rotatably supported by bearings 68 provided on both side surfaces of the main body 5, and protrude outward and are restricted from moving in the axial direction by E rings 69. A bearing hole 70 is formed in the rear end of each bearing member 59 in the left-right direction.
A drive shaft 71 is inserted into these bearing holes 70. Both left and right ends of the drive shaft 71 are rotatably supported by bearings 72 provided on both side surfaces of the main body 5, and protrude outwardly and are restricted from axial movement by E-rings 73.

In this way, the frame 58 is supported above the holders 9 in the main body 5 by the driven shaft 63, the feeding shaft 67 and the drive shaft 71, and conversely, by the bearing members 59. It plays a role of rotatably supporting these shafts 63, 67, 71. Then, in the main body 5, a holder conveyance path 74 connecting the front holder 9 and the rearmost holder 9 via the frame 58 is formed, and the front holder 9 passes through the holder conveyance path 74 and each holder passes. You can move to the end of 9.

<Conveying Mechanism> Next, the structure of the conveying mechanism for conveying the holder 9 will be described.

FIG. 22 is a sectional view taken along line HH of FIG. 19 showing the gear train for the transport mechanism of the continuous posting device according to the first embodiment of the present invention.

As shown in FIGS. 19, 20 and 22,
A conveying motor 75 is installed at the left rear part in the main body 5, and a drive gear 76 fixed to an output shaft 75a of the motor 75 is located on the leftmost side in the main body 5. A support shaft 77 is disposed on the inner side surface of the main body 5 between the drive gear 76 and the drive shaft 71, and the support shaft 77 is fixed by screws 78 from the outer side surface of the main body 5. Support shaft 7
An intermediate gear 79 is rotatably supported by 7, and is prevented from being disengaged by an E ring 80. The intermediate gear 79 meshes with the drive gear 76. A driven gear 81 is fixed to the left end of the drive shaft 71 by a split pin 82, and the driven gear 81 meshes with the intermediate gear 79.

Drive sprockets 83 are fixed to the left and right ends of the drive shaft 71 by split pins 84, and the driven sprockets 8 are attached to the left and right ends of the driven shaft 63 so as to correspond to the drive sprockets 83.
5 is rotatably supported by the E-ring 86 while being restricted from moving in the axial direction. An endless transport chain 87 is stretched between the corresponding drive sprocket 83 and driven sprocket 85.

Therefore, when the drive gear 76 is rotationally driven by the carrying motor 75, the drive shaft 71 is rotated together with the driven gear 81 via the intermediate gear 79, and as a result, the left and right drive sprockets 83 are rotationally driven. As a result, the respective transport chains 87 run in a specific direction while idling the driven sprocket 85.

FIG. 23 is a plan sectional view showing the internal structure of the drive gear of the continuous bulletin apparatus according to the first embodiment of the present invention.

The internal structure of the drive gear 76 will be described with reference to the drawings. A cylindrical fixing member 88 constituting the drive gear 76 is fitted to the output shaft 75a of the conveying motor 75, and the fixing member 88 is The large diameter portion 88a on the base end side is fixed to the output shaft 75a by a set bolt 89. The driving gear 76 is attached to the small-diameter portion 88b on the tip side of the fixing member 88.
The cylindrical movable member 90 constituting the above is rotatably fitted, and the distal end of the fixed member 88 is prevented from coming off by the E ring 91. Washers 9 are provided on both sides of the movable member 90, respectively.
2 is provided to reduce the frictional resistance generated between the E-ring 91 and the fixed member 88 when the movable member 90 rotates.

A cylindrical accommodating recess 93 is formed on the inner periphery of the distal end of the movable member 90, and the buffer spring 9 is provided in the small diameter portion 88b of the fixing member 88 exposed in the accommodating recess 93.
4 is wound. The base end of the buffer spring 94 is inserted into a hooking hole 90a formed in the movable member 90, and the tip of the buffer spring 94 is inserted into a hooking groove 88c formed in the tip of the fixed member 88. ing. Therefore, the movable member 90 is positioned by the buffer spring 94 with respect to the fixed member 88 at a certain rotation angle, and can be rotated in a certain rotation range in both directions from its neutral angle against the biasing force of the buffer spring 94. It has become.

The driving force and the braking force generated by the conveying motor 75 at the time of starting and braking the conveying motor 75 are conveyed through the gear train after the buffer spring 94 is twisted in a specific direction. It is transmitted to the chain 87. Therefore, the driving force and the braking force are gently applied to the gear train and the transport chain 87 without suddenly acting on them, so that the mechanical load on the gear train and the transport chain 87 is reduced.
Further, due to the inertia of the gear train and the conveyance chain 87, the reaction force of the driving force and the braking force described above acts on the conveyance motor 75 at this time, and this reaction force twists the buffer spring 94. Since the work is spent, the mechanical load on the output shaft 75a and the like is also reduced.

FIG. 24 is a sectional view taken along the line I--I of FIG. 20 showing the gear train for the feeding mechanism of the continuous posting device according to the first embodiment of the present invention.

As shown in FIGS. 19, 20, 22, and 24, support shafts 95 are fixed to the left and right side surfaces of the main body 5 at positions close to the driven shaft 63, respectively.
A tension lever 96 is pivotally attached to these support shafts 95 so as to be vertically rotatable. The tip end of each tension lever 96 abuts on the outer periphery of the driven shaft 63, and the tip end thereof is formed in a substantially vertical oblique shape so as to be spaced apart from the driven shaft 63 as it goes downward. A tension spring 97 is wound around each of the support shafts 95, one end of the tension spring 97 is hooked on a hooking portion 96 a formed on the tension lever 96, and the other end is
It is hooked on hook shafts 98 fixed to the left and right side surfaces of the main body 5. The tension lever 96 is always urged downward by the tension spring 97, and the inclined end of the tension lever 96 causes the driven shaft 63 to rotate.
Is urged forward, that is, in a direction away from the drive shaft 71, to give tension to the transport chain 87.

FIG. 25 is a sectional view taken along the line JJ of FIG. 20 showing the periphery of the carrier chain of the continuous posting device which is the first embodiment of the present invention.

As shown in FIGS. 18 and 25, on the left and right sides of the main body 5, there are disposed guide guide plates 99 along the convey chain 87, and the front side of the convey guide plates 99 is It is fixed to the front side surface inside the main body 5, and the rear side is bent at a right angle and fixed to the left and right side surfaces inside the main body 5. The transport guide plate 99 is formed with elongated guide holes 99a so as to surround the outer periphery of the transport chain 87 at a predetermined interval, and as a result, the outer periphery of the transport chain 87 and the inner periphery of the guide hole 99 are formed. An annular claw moving path 100 extending in the front-rear direction is formed between the claw moving paths 1 and 2.
The straight line portion below 00 is the holder alignment position 100a.

FIG. 26 is a partially enlarged side view showing a state in which the conveying claw is located at the leading position in the continuous posting device according to the first embodiment of the present invention, and FIG. 27 is the continuous posting device according to the first embodiment of the present invention. 28 is a partially enlarged plan view showing a state in which the transport claw is located at the leading position, and FIG. 28 is a sectional view taken along the line KK of FIG. Is.

As shown in the figure, the left and right carrier chains 87
At a position corresponding to each other, a pair of brackets 101a and 101b made of a metal plate are arranged adjacent to each other (hereinafter,
Only the structure of the right transport chain 87 is shown, but the structure of the left transport chain 87 is exactly the same.)
It is bent to have a U-shaped cross-section that opens to the outer peripheral side of 0. Both brackets 101a and 101b are fixed through the transport chain 87 by two pins 102a and 102b, respectively. In the left bracket 101a,
The base end of the first conveying claw 103a is rotatably attached to the pin 102a on the left side, and similarly, the bracket 10 on the right side is attached.
In 1b, the base end of the second conveying claw 103b is rotatably attached to the pin 102b on the right side thereof. The transfer claws 103a and 103b are connected to the claw moving path 10
It is located inside 0 and its tip is directed to the outer peripheral side. In addition,
The first conveying claw 103a and the second conveying claw 103b have different names because they have different operational effects, but the same parts are arranged in opposite postures.

Further, the pins 102a and 102b to which both the transfer claws 103a and 103b are attached are attached to the opening springs 104a and 102a adjacent to the transfer claws 103a and 103b, respectively.
104b is wound, and one end of the opening springs 104a, 104b has inner surfaces 105a, 1 of the brackets 101a, 101b.
05b and the other end is in contact with the slopes 106a and 106b formed on the transfer claws 103a and 103b. The transfer pawls 103a and 103b are connected to each other by the release spring 104.
a and 104b are urged in a direction in which the distal ends are separated from each other, and normally, the contact portion 10 formed on the proximal end side thereof.
7a and 107b are brought into contact with one side of the brackets 101a and 101b (posture shown by the first transfer claw 103a in FIG. 26). Further, when an external force in the approaching direction is applied to both the transfer claws 103a and 103b, the front ends of the two transfer claws 103a and 103b approach each other against the urging force of the opening springs 104a and 104b (second in FIG. 26). The posture shown by the transport claw 103b). As is clear from the figure, the first transfer claw 103a and the second transfer claw 103b can be individually rotated.

In this embodiment, the transport chain 87, the first transport claw 103a and the second transport claw 103b constitute a transport means.

At the left and right holder alignment positions 100a,
The six holders 9 described above are suspended in an aligned state (see FIG. 2).
6, only three rollers are shown in FIG. 6), and the transport rollers 108 rotatably provided at both ends of each holder 9 are placed on the inner peripheral edge of the guide hole 99a of the guide plate 99. Then, each holder 9 is arranged on the inner peripheral edge of the guide hole 99a, and
The collar 1 that can move in the front-rear direction while rolling 08 and is integrally formed with the conveying roller 108.
08a is brought into contact with the guide plate 99 to restrict the movement in the left-right direction. In addition, each holder 9 is provided with a transport pin 109 projecting from the respective transport rollers 108 toward the front end side, and as shown in FIG. 26, the first transport claw 103a is located at the top of the holder 9, that is, at the frontmost position. The carrier pin 109 of the holder 9 is abutted from the front. In addition, the second transport claw 103b is the transport pin 1 of the second holder 9 from the top.
09 is abutted on the front side from the front, and is rotating in a slanting manner while holding the open spring 104b. Hereinafter, both the conveying claws 10 at this time
The positions of 3a and 103b are called the start position X.

FIG. 29 is a sectional view taken along the line LL in FIG. 27, showing the details of the position detecting dog and the head position detecting sensor of the continuous notice device which is the first embodiment of the present invention.

As shown in FIGS. 26, 27 and 29,
In the right transport chain 87, both brackets 1
On the top 110 adjacent to the left side of 01a and 101b, a dog 111 for position detection is bent and formed so as to project rightward. Further, a head position detecting sensor 112 is installed on the right side surface of the main body 5, and the detecting sensor 112 detects the position detecting dog 111 when both the conveying claws 103a and 103b are at the head position X. The position is adjusted.

FIG. 30 is a partially enlarged side view showing the details of the stopper lever of the continuous notice device which is the first embodiment of the present invention,
FIG. 31 is a partially enlarged plan view showing the details of the stopper lever of the continuous bulletin apparatus according to the first embodiment of the present invention.

As shown in the figure, both of the guide plates 9 for transporting
A lever shaft 113 is erected in the horizontal direction at the rear of each of the nine, and a stopper lever 114 is attached to the lever shaft 113.
Is rotatably attached to the shaft (only the structure of the right stopper lever 114 is shown below, but the structure of the left stopper lever 114 is exactly the same). The base end side of the stopper lever 114 is formed with a split groove 115 in the vertical direction to form a bifurcated shape, and the lever shaft 113 exposed in the split groove 115.
A stopper spring 116 is wound around. One end of the stopper spring 116 has an inclined surface 115a of the split groove 115.
And the other end is in contact with the stopper shaft 117 provided upright on the conveying guide plate 99 from below. As a result, the stopper lever 114 in the normal state is always urged to rotate clockwise, and its proximal end side is brought into contact with the stopper shaft 117 from above and is held in a substantially horizontal posture.

On the upper surface of the stopper lever 114, an escape recess 118 is formed on the conveying guide plate 99 side, and a sliding contact edge 119 is formed on the opposite side so as to be continuous in the longitudinal direction of the stopper lever 114. In addition, the stopper lever 11
A substantially horizontal smooth surface 120 is formed at the tip of the slide contact surface 4, and the sliding contact surface 11 is positioned so as to be located behind the smooth surface 120.
A fitting concave portion 121 is formed in 9. Then, in the fitting recess 121 of the stopper lever 114, the transport pin 109 of the rearmost holder 9 of the six holders 9 aligned is fitted from above.

FIG. 32 is a partially enlarged side view showing a state where the conveying claw of the continuous notice device according to the first embodiment of the present invention is located at the rear position.

When the transport motor 75 rotates in a specific direction and both transport chains 87 run clockwise in FIG. 26, both transport claws 103a, 10 at the leading position X are moved.
3b passes through the claw movement path 100 and reaches the position of the stopper lever 114. As shown in FIG. 32, at this time, the first transport claw 103a comes into contact with the smooth surface 120 of the stopper lever 114 from the rear side and rotates obliquely to move the second
The carrying claw 103b is a carrying pin 109 of the rearmost holder 9.
Abut from behind. In the following, both transport claws 103 at this time
The positions of a and 103b are referred to as the tail position Y with respect to the head position X described above. A rear position detection sensor 123 is installed on the right side surface of the main body 5, and the detection sensor 123 is positionally adjusted so as to detect the position detection dog 111 when both the transport claws 103a and 103b are at the rear position Y. Has been done.

When the transport motor 75 rotates in the opposite direction and both transport chains 87 travel counterclockwise, the two transport claws 103a and 103b at the rear position Y move to the upper part of the claw movement path 100. After passing, it returns to the above-mentioned start position X.

In the following description, the direction of rotation of the transport motor 75 when the transfer claws 103a and 103b are moved from the head position X to the tail position Y is forward rotation, and conversely, when the transfer claw 103a and 103b is moved from the tail position Y to the head position X. The rotation direction of the carrying motor 75 is reversed. Then, as will be described later, the transport motor 75 alternately repeats forward rotation and reverse rotation, so that both transport pawls 1
03a and 103b, and the start position X shown in FIG.
It is adapted to reciprocate between two positions, a rear position Y shown in FIG.

<Feeding Mechanism> Next, the structure of the feeding mechanism for feeding the single-wafer-posting object 4 conveyed with the holder 9 to the rear position Y will be described.

As shown in FIGS. 20 and 24, the feeding motor 12 as a driving means is provided at the right rear portion of the main body 5.
The drive gear 126 fixed to the output shaft 124a of the motor 124 with the set bolt 125 is located on the rightmost side in the main body 5. A support shaft 127 is provided on the inner side surface of the main body 5 between the drive gear 126 and the drive shaft 71, and the support shaft 127 is fixed by screws 128 from the outer side surface of the main body 5. Support shaft 127
The first intermediate gear 129 is rotatably supported by the first intermediate gear 129 and is prevented from being separated by the E ring 130.
Reference numeral 9 is in mesh with the drive gear 126. At the right end of the drive shaft 71, a second intermediate gear 131 is rotatably supported adjacent to the drive sprocket 83, and the second intermediate gear 131 is restricted from moving in the axial direction by an E ring 132. It meshes with the first intermediate gear 129.
The driven gear 133 is provided at the right end of the feeding shaft 67.
Is fixed by a split pin 134, and the driven gear 133 meshes with the second intermediate gear 131.

Therefore, when the drive gear 126 is rotationally driven by the feeding motor 124, the first intermediate gear 12
The feeding shaft 67 rotates together with the driven gear 133 via the gear 9 and the second intermediate gear 131. At this time, the second intermediate gear 131 is rotatably supported with respect to the drive shaft 71, in other words, the drive shaft 71 is only used to support the second intermediate gear 31. Therefore, the rotational force of the feeding motor 124 is not transmitted to the drive shaft 71, and as described above, the drive shaft 7
1 serves only to transmit the rotational force of the transportation motor 75 to the transportation chain 87.

As shown in FIGS. 20 and 21, a pair of drive pulleys 135 are fitted in the vicinity of the center of the delivery shaft 67 at a predetermined interval, and both drive pulleys 135 are attached to the delivery shaft 67 by a set bolt 136. Each is fixed. In addition, a pair of driven pulleys 137 are attached to the drive shaft 71 so as to correspond to both the drive pulleys 135.
Are rotatably fitted, and the driven pulleys 137 are restricted from moving in the axial direction by a pair of E rings 139, respectively. Corresponding drive pulley 135 and driven pulley 137
Are connected by a timing belt 138, and a feeding drive roller 140 made of an elastomer having elasticity is fitted around the driven pulley 137 so as to be adjacent to the timing belt 138.

Therefore, as described above, when the feeding shaft 67 is rotationally driven by the feeding motor 124, both drive pulleys 135 rotate integrally, and the timing belt 1
Feeding roller 1 together with driven pulley 137 via 38
40 rotates. At this time, the feeding drive roller 14
In Fig. 21, 0 is always driven to rotate clockwise.

FIG. 33 is a sectional view taken along the line MM in FIG. 21 showing the feeding lever of the continuous notice device which is the first embodiment of the present invention.

As shown in FIGS. 21 and 33, a pair of brackets 141 made of a metal plate are erected at a predetermined interval in the rear part of the main body 5, and are erected horizontally at the front edges of both brackets 141. A rear guide roller 143 is rotatably supported by the pair of support pins 142 provided. Further, the upper parts of both brackets 141 are located below the upper cover 8 and extend forward, and a lever shaft 144 is supported at the foremost part. This lever shaft 14
4, a base end of a feeding lever 145 made of a metal plate is rotatably supported, and the feeding lever 145 is provided with three support pins 146 and 147 in the horizontal direction. A feeding driven roller 148 made of an elastomer having elasticity is rotatably supported by a support pin 146 located at the extreme end of the feeding lever 145, and a pair of upper guides are provided on the other two supporting pins 147. The roller 149 is rotatably supported.

A pressure contact spring 150 as a biasing member is wound around the lever shaft 144, one end of the pressure contact spring 150 abuts on the lower surface of the bracket 141, and the other end abuts on the upper surface of the feeding lever 145. ing. As a result, the feeding lever 145 is always urged clockwise in FIG. 21,
The feeding driven roller 148 is brought into contact with the feeding driving roller 140. Further, a pair of brackets 151 made of a metal plate are installed at a predetermined interval in the front part of the main body 5, and the support pins 152 erected horizontally on both brackets 151 have front guide rollers. 153 is rotatably supported.

As shown in FIGS. 20 and 21, a tilting stand 154 is provided on the rear side of the right bracket 141 in the main body 5.
The first vibration sensor 155 is fixed on the tilt table 154 in a state in which the first vibration sensor 155 is tilted forward (direction of travel of the train) by a predetermined angle, and the second vibration sensor 156 is positioned backward (direction of the train motion). It is fixed in a state of being inclined at a predetermined angle in the traveling direction). As will be described later, these vibration sensor 15
Reference numerals 5 and 156 are for determining whether or not the trains 2 and 3 in which the bulletin device 1 is installed are in operation. The first vibration sensor 155 in the forward leaning posture is mainly used when the train is stopped. Acceleration
The second vibration sensor 156 in the rearwardly tilted posture mainly detects the acceleration at the time of departure.

A temperature sensor 157 is installed on the left side of the vibration sensors 155 and 156, and will be described later.
The temperature sensor 157 detects the temperature inside the posting device 1 in order to determine whether or not the posting device 1 that is operating is overheated. Further, a control box 158 is installed on the left side of the temperature sensor 157, and a control circuit for controlling the operation of the display device 1 is housed inside the control box 158.

<Holder> Next, the structure of the holder 9 will be described.

FIG. 34 is a front view showing a holder of a continuous notice device which is the first embodiment of the present invention, and FIG. 35 is a state in which a continuous notice device of the continuous notice device which is the first embodiment of the present invention is switched to a single-sheet notice holding state. FIG. 36 is a partially cutaway front view showing the holder, and FIG. 36 is a side view showing the holder of the continuous posting device according to the first embodiment of the present invention.

As shown in the figure, the suspension bar 16 of the holder 9 is
Small-diameter fitting portions 161a are integrally formed on both the left and right ends of 1, and a smaller-diameter transport pin 109 is integrally formed on the tip end side of the fitting portions 161a. The spacer members 122 are fitted into the fitting portions 161a from the left and right, and the hook members 162 whose lower ends are bent obliquely upward are fixed to the right spacer members 122. Further, the conveying rollers 108 are rotatably fitted into both the conveying pins 109 from the left and right, and the E-ring 163 prevents the conveying rollers 108 from falling off. Then, as described above, both the transport rollers 108
Is placed on the inner peripheral edge of the guide hole 99a at the holder alignment position 100a, and as a result, the suspension bar 161 is hung between both guide holes 99a.

FIG. 37 is a sectional view taken along the line N--N of FIG. 35, which shows the shaft mounting structure of the holder main body of the holder in the continuous posting apparatus which is the first embodiment of the present invention, and FIG. 38 is the first embodiment of the present invention. 35 is a partial perspective view showing a shaft mounting structure of a holder main body of a holder in a certain continuous posting device, FIG. 39 is an O- of FIG. 35 showing a mounting structure of a retaining plate of the holder in the continuous posting device which is the first embodiment of the present invention. It is O line sectional drawing.

As shown in the figure, a bearing pipe 164 is fitted in the suspension bar 161 so as to be movable in the axial direction, and a coil spring 165 is provided on the left side of the bearing pipe 164.
Is wound. The bearing pipe 164 is provided with a pair of bearing pieces 164a extending downward, and the bearing pieces 164a.
A left end of a holder body 166 having substantially the same length as the suspension bar 161 is rotatably attached to a support shaft 167. Further, at the right end of the holder body 166, the latch plate 16
8 is fixed from behind with screws 168b.
As shown in FIG. 35, the stepped portion 168 a formed on the holder 68 is rotated by the holder main body 166 so that the suspension bar 161 is lifted.
When they are overlapped with each other (hereinafter, simply referred to as a "sheet-posted object holding state"), they are hooked by the hooking claw 162 of the hanging bar 161. Note that, as shown in FIG. 35, in this single-wafer post holding state, substantially the entire holder main body 166 is housed in the main body 5.

FIG. 40 is a view showing a connecting structure of holder links in the continuous posting device according to the first embodiment of the present invention.
41 is a partially cutaway front view showing the holder of the continuous posting device according to the first embodiment of the present invention, which is switched to the single-wafer-posted item exchange state.

As shown in the figure, on the right side of the suspension bar 161, a concave bearing bracket 1 formed by bending a metal plate is formed.
69 is fitted and fixed from below, and the link 17 is inserted into the long hole 169a formed in the bearing bracket 169.
One end of 0 is rotatable by the support shaft 171, and the long hole 169
It is connected so as to be movable left and right within the range of a. Also,
The other end of the link 170 is rotatably connected to the right side of the holder body 166 by a support shaft 172.

In the single-wafer post holding state shown in FIG. 35, the support shaft 171 is located on the right side in the elongated hole 169a, and the bearing pipe 164 moves slightly to the left while compressing the coil spring 165. There is room to do it. Therefore, the holder main body 166 is allowed to move slightly to the left side together with the bearing pipe 164, and the hooking of the hooking plate 168 by the hooking pawl 162 is released along with the movement. .. As a result, the right side of the holder body 166 descends by its own weight while rotating the link 170 counterclockwise, and the left side of the holder body 166 is guided by the bearing pipe 164 to the right along the suspension bar 161. Move to. And, the bearing pipe 164 is the suspension bar 16
41, the stopper body 173 is welded to the upper part of the bearing 1, and its rightward movement is restricted. As a result, as shown in FIG. 41, the holder body 166 rotates downward about the support shaft 167 of the bearing pipe 164. And take a slanted posture (hereinafter, simply referred to as a "sheet-posted item exchange state"). As shown in FIG. 41, in the state in which the sheet-posted article is exchanged, almost the entire holder main body 166 projects downward from the inside of the body 5, and the sheet-posted article 4 can be attached and detached.

When the right side of the holder main body 166 is forcibly pushed up in the single-wafer-posting exchange state shown in FIG. 41, the link 170 accordingly rotates clockwise around the support shaft 171 to hold the holder. Contrary to the above, the left side of the main body 166 moves leftward along the suspension bar 161 while being guided by the bearing pipe 164. Then, the coil spring 165 is compressed by the bearing pipe 164, and the holder body 166 overlaps with the suspension bar 161 and is again hooked by the hook claw 162.

As shown in FIGS. 35, 37 and 38,
The holder body 1 is attached to the support shaft 167 of the bearing pipe 164.
A pair of outer plates 174 are pivotally mounted together with 66, and both outer plates 174 are joined by a spacer plate 175 on the left side of the support shaft 167. The left end of one outer plate 174 is bent at a right angle to form an operation surface 174a.
74a are opposed to the left end surface of the holder body 166 at a predetermined interval. Further, stopper claws 174b facing upward are integrally formed at the right ends of both outer plates 174, respectively.
Both stopper claws 174b are located on both sides of the lower portion of the suspension bar 161. The outer plate 174 and the spacer plate 175 form a regulating lever 176.

A regulating spring 177 is wound around the support shaft 167 exposed between the outer plates 174 of the regulating lever 176.
One end of the regulation spring 177 abuts a slope 175a formed on the right side of the spacer plate 175, and the other end of the regulation spring 177 has the other end.
It is in contact with the upper surface of 6. As a result, the regulation lever 176
Is always biased counterclockwise by the regulation spring 177, and in the single-wafer post exchange state shown in FIG.
Both stopper claws 174b are hooked on the stopper piece 173 on 61 to move the bearing pipe 164 to the left, that is,
The switching of the holder 9 to the single-wafer post holding state is restricted.

On the other hand, a latch holding groove 178 opening downward is formed in the entire left and right direction of the holder body 166. At the opening of the latch holding groove 178, a latching protrusion 178a protruding forward is formed in the entire left-right direction, and in the latching holding groove 178, slightly above the facing surface of the latching protrusion 178a. Is formed with a restriction protrusion 178b protruding rearward in the entire left-right direction. Furthermore, the latch holding groove 178
Both left and right sides of the are opened to the side from the holder main body 166. In addition, an insertion notch 179 is formed on the front surface of the right end of the holder body 166, and the latch holding groove 178 is formed.
The inner wall of is exposed to the front.

As shown in FIG. 35 and FIG. 39, the upper end of the single-sided post 4 is inserted into the retaining groove 178, and the upper end is folded back to the rear side over the entire left-right direction to form a folded portion 4a. is doing. In the latch holding groove 178, the lower end of the folded-back portion 4a of the single-sheet posted object 4 has the latch projection 178.
a, and the upper front surface of the single-sheet posted object 4 abuts on the regulating projection 178b, so that the hanging projection 178.
It prevents the hook from being released. And
The left end of the single-sheet posted object 4 pushes the operation surface 174a of the restriction lever 176 from the right side to rotate the restriction lever 176 clockwise against the biasing force of the restriction spring 177, and at the same time, to operate the operation surface. The leftward movement is restricted by 174a, and the right end of the single-sheet posted object 4 is restricted by the latching claw 162 from rightward movement. And holder 9
When is switched to the single-wafer post exchange state, the latch holding groove 178 is opened to the right so that the single-leaf post 4 can be inserted into or removed from the right in the latch holding groove 178. Is becoming

<Electrical Configuration> Next, the electrical configuration of the continuous notice device of this embodiment will be described.

FIG. 42 is a block diagram showing the electrical construction of the continuous notice board which is the first embodiment of the present invention.

As shown in the figure, the power switch 3 is provided on the input side of the central processing unit 181 (hereinafter, simply referred to as "CPU") housed in the control box 158.
9, interval setter 52, head position detection sensor 11
2, rear position detection sensor 123, first vibration sensor 15
5, the second vibration sensor 156 and the temperature sensor 157 are respectively connected, and on the output side, the operation indicator lamp 47, the abnormality indicator lamp 48, the conveying motor 75 and the feeding motor 12 are connected.
4 are connected via drive circuits 182-185, respectively.

Further, the CPU 181 has a read-only memory 186 (hereinafter simply referred to as "ROM") and a random access memory 187 (hereinafter simply referred to as "RAM").
Is connected to the ROM 186, and various programs for causing the posting device 1 to execute a series of posting operations are stored in the ROM 186.
The PU 181 operates according to these programs. The RAM 187 is adapted to temporarily store processing data executed by the CPU 181.

Further, the ROM 186 determines whether or not the operation abnormality determination time Tm2, which is a reference for determining whether or not the operation of the transport mechanism is normal, and whether or not the trains 2 and 3 are in operation. Vehicle operation determination time T that serves as a reference for
m3 and the overheat determination temperature Te, which serves as a reference for determining whether or not the display device 1 is overheated, are stored in advance at the time of factory shipment. This operation abnormality determination time Tm2
And the overheat determination temperature Te can be set to any time, and if the operation abnormality determination time Tm2 is 15 seconds,
It is assumed that 80 ° C. is set as the overheat determination temperature Te. The vehicle operation determination time Tm3 is 5,1.
It is possible to selectively set 0, 20, 30 seconds or infinity, and it is assumed that 10 min is set as the vehicle operation determination time Tm3.

<Operation> Next, the operation of the continuous bulletin board device of this embodiment having the above-described structure will be described.

FIG. 43 is an operation explanatory view showing a state where the conveying claw of the continuous posting device according to the first embodiment of the present invention is located at the leading position, and FIG. 44 shows the continuous posting device according to the first embodiment of the present invention. FIG. 45 is an operation explanatory view showing the start of the conveyance claw conveyance, FIG. 45 is an operation explanatory view showing the conveyance claw conveyance of the continuous notice device according to the first embodiment of the present invention, and FIG. 46 is the first embodiment of the present invention. 48 is an operation explanatory view showing a conveying claw of a certain continuous posting device when passing through a feeding driven roller, FIG. 47 is an operation explanatory diagram showing a conveying claw of the continuous posting device immediately before reaching the rear position of the conveying claw, FIG. FIG. 49 is a partially enlarged side view showing a position immediately before reaching the rear position of the conveying claw of the continuous posting apparatus which is the first embodiment of the present invention, and FIG. 49 is a rear reaching position of the conveying claw of the continuous posting apparatus which is the first embodiment of the present invention. FIG. 50 is an operation explanatory view showing time, and FIG. 50 is a continuous notice which is the first embodiment of the present invention. 51 is an operation explanatory view showing the delivery of the single-piece posted object of the table, FIG. 51 is an operation explanatory view showing the start of reversing the conveying claws of the continuous posting device according to the first embodiment of the present invention, and FIG. 52 is the first embodiment of the present invention It is an operation explanatory view showing immediately before the leading position of the conveying claw of the continuous notice device which is an example is reached.

26 and 43, the first conveying claw 10 is shown.
3a and the second conveying claw 103b are located at the leading position X, the first conveying claw 103a at this time comes into contact with the conveying pin 109 of the leading holder 9 from the front side and hits the base end side thereof. The contact portion 107a is held in an upright position with one side of the bracket 101a abutting, and the second conveying claw 103b has the conveying pin 10 of the second holder 9 from the top.
9 is abutted on the front side of the shaft 9 and is rotated in a slanting shape while allowing the opening spring 104b to slide. Then, the front surface of the single-sided sheet 4 held by the top holder 9 and the rear side of the single-sided sheet 4 held by the rearmost holder 9 are
It is posted to the passengers on the train 2.

Now, when the transport motor 75 starts forward rotation, as shown in FIG. 22, the drive gear 76 and the intermediate gear 7 are moved.
9, the drive shaft 71 rotates together with the driven gear 81,
The transport chain 87 travels clockwise, and as shown in FIG. 44, both transport claws 103a and 103b start to move forward (to the left in the figure) along the driven sprocket 85 in the claw movement path 100. As a result, the first conveying claw 103a is separated from the conveying pin 109 of the leading holder 9, and the second conveying claw 103b is rotated to the upright posture by the urging force of the opening spring 104b to move backward (to the right in the figure). By supplementing the transport pin 109, the leading holder 9 starts to be transported while rolling the transport roller 108 on the inner peripheral edge of the guide hole 99a.

After that, as shown in FIG.
03a and 103b move backward in the claw movement path 100,
The first holder 9 complemented by the second transport claw 103b
Moves rearward in the holder transport path 74 while slidingly contacting the upper surface of each bearing member 59. Also, during transportation,
The sheet-shaped display object 4 held by the top holder 9 is held by the holder 9.
Following this, the holder conveying path 74 is moved, and one side of the sheet-posted article 4 is guided by the front guide roller 153 in the main body 5. Then, the front single-wafer post 4 is the holder conveyance path 7
By being pulled into the inside of the sheet 4, the front side of the sheet surface of the single-sided sheet-posted article 4 that is second from the top is exposed and is posted to the passengers.

On the other hand, as shown in FIG. 46, the feeding lever 1
The leading holder 9 that has reached the position of 45 presses the feeding driven roller 148 and rotates the feeding lever 145 counterclockwise while temporarily separating the feeding driven roller 148 from the feeding driving roller 140, Both rollers 145, 14
Pass between 8. Thereafter, the feeding driven roller 148 is again moved by the urging force of the pressure contact spring 150.
The single-sheet posted object 4 that approaches 0 and follows the holder 9 is sandwiched.

As shown in FIGS. 47 and 48, the leading holder 9 further moves in the holder transport path 74, and when both the transport claws 103a and 103b reach immediately before the rear position Y, the transport pin of the holder 9 is moved. 109 is the stopper lever 11
The sliding contact edge 119 of No. 4 is in sliding contact. At this time, since the holder 9 is restricted from moving to the inner peripheral side, that is, to the upper side by the transport chain 87, the stopper pin 114 is pressed by the transport pin 109, and is slightly lowered about the lever shaft 113. Turn to. At the same time, the spacer member 122 of the first holder 9 presses the spacer member 122 of the rearmost holder 9 from the rear, and as a result, the holder alignment position 1
The other holders 00a move forward by one on the inner peripheral edge of the guide hole 99a while rolling the transport rollers 108.

Then, as shown in FIGS. 32 and 49,
When both the transport claws 103a and 103b reach the rear position Y, the transport pin 109 of the leading holder 9 has moved to above the fitting recess 121 of the stopper lever 114, and the stopper lever 114 is urged by the stopper spring 116. By rotating upward, the transport pin 109 is fitted into the fitting recess 121 to regulate the movement. In addition, the first conveying claw 1 at this time
03a is pushed upward by the smooth surface 120 of the stopper lever 114 to assume an oblique posture, and the second conveying pawl 10
3b contacts the transport pin 109 from the rear. Further, at this time, the rear position detection sensor 123 detects the position detection dog 1
It is turned on at 11, and the on signal is input to the CPU 181.

On the other hand, simultaneously with the forward rotation of the carrying motor 75, the feeding motor 124 starts to drive, and as a result, as shown in FIGS. 22 and 24, the driving gear 126, the first intermediate gear 129, and the first intermediate gear 129. 2 Intermediate gear 131 and driven gear 1
The feeding shaft 67 rotates via 33, and further, the drive pulley 135, the timing belt 138, the driven pulley 13
The feeding drive roller 140 rotates in the clockwise direction via 7. Therefore, as shown in FIG.
The single-sheet posted object 4 sandwiched between the feeding driven roller 148 and the feeding roller 148 is fed to the rear position Y, and as shown in FIG.
It is hung at the rear side of the rearmost leaflet 4. as a result,
Instead of the last sheet-shaped bulletin board 4, the rear side of the conveyed sheet-shaped bulletin board 4 is exposed and is displayed to the passengers.

Further, as described above, both the transfer claws 103
When a and 103b reach the tail position Y, the carrying motor 75 once stops and then starts reverse rotation. As a result,
As shown in FIG. 51, the transport chain 87 starts traveling counterclockwise. Therefore, both the transfer claws 103a and 103b start to move rearward (to the right in the figure) in the claw movement path 100 together with the transfer chain 87, and the second transfer claw 10 is moved.
3b is separated from the rearmost holder 9 located in the fitting recess 121 of the stopper lever 114, that is, the transport pin 109 of the holder 9 that has completed transportation, moves backward in the escape recess 118, and The 1-conveying pawl 103a slides on the smooth surface 120 of the stopper lever 114, moves over the conveying pin 109 and moves rearward without locking the conveying pin 109 in the fitting recess 121.

Then, as shown in FIG. 52, both conveying claws 1
Immediately before the heads 03a and 103b reach the leading position X, the transport pin 1 of the holder 9 having the leading second transport claw 103b at the leading end.
It abuts on the transport pin 109 from the front and rotates over in an oblique manner against the urging force of the opening spring 104b to get over the transport pin 109. As a result, as shown in FIG.
When the head position detection sensor 112 is turned on by the position detection dog 111, the ON signals are input to the CPU 181 and the conveyance motor 75 is stopped.

As described above, the forward rotation and the reverse rotation of the transport motor 75 transports the first holder 9 to the rearmost position, and this operation is repeated and repeated at predetermined intervals.
The single-sheet postings 4 posted to the passengers are sequentially replaced.

As described above, in the bulletin board system 1 of this embodiment,
When the holder 9 being conveyed reaches the position of the feeding lever 145, the feeding operation of the holder 9 is used to bring the feeding driven roller 148 into and out of contact with the feeding driving roller 140, and as a result, the holder 9 moves. The passage is permitted, and the following sheet-shaped post 4 is sandwiched and fed to the end. Moreover, since the feeding driven roller 148 is brought into contact with and separated from the holder 9 during conveyance, the timing of the contact and separation is as follows.
The movement of the holder 9 is always accurate, and the passage of the holder 9 and the sandwiching of the single-sided post 4 are always reliably performed.

Therefore, as described above, both rollers 1
It is possible to simplify the structure of the display device 1 by omitting a drive source dedicated for bringing the 40 and 148 into contact with and separated from each other, specifically, a drive source for rotating the feeding lever 145.
Further, since the drive source is omitted, the control for the drive source is not required. As a result, as the control for the feeding operation of the single-sheet posted object 4, the rotation control of the feeding drive roller 140 by the feeding motor 124 is performed. All you have to do is

<Control Content> Next, the control content of the CPU 181 of the continuous notice device of the present embodiment configured as described above will be described.

FIG. 53 is a flow chart showing the main routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention, and FIG. 54 is the initial stage which is executed by the CPU of the continuous posting device which is the first embodiment of the present invention. FIG. 55 is a flowchart showing a position adjustment routine, FIG. 55 is a flowchart showing an inversion routine executed by the CPU of the continuous posting apparatus according to the first embodiment of the present invention, and FIG. 56 is a CPU of the continuous posting apparatus according to the first embodiment of the present invention. FIG. 57 is a flow chart showing a conveyance / reversal routine executed by the CPU, FIG. 57 is a flow chart showing a vehicle running determination routine executed by the CPU of the continuous notice device which is the first embodiment of the present invention, and FIG. 58 is the first embodiment of the present invention. 3 is a flowchart showing a holder feeding routine executed by the CPU of the continuous posting device.

The main routine of FIG. 53 operates simultaneously with the power supply connection of the bulletin board 1.

As shown in the figure, the CPU 181 initializes in step S1, clears all the flags and the memory to be used, and the interval time Tm1 set by the interval setter 52 and the abnormal operation stored in the ROM 186. Judgment time Tm2, vehicle operation judgment time Tm
3 and the overheat determination temperature Te are read, and the operation waits until the power switch 39 is turned on in step S2. Then, as described above, when the power switch 39 is turned on by the operating rod 44, the operation indicator lamp 47 is turned on in step S3, and the initial position adjustment routine is executed in step S4.

When the initial position adjustment routine is called,
As shown in FIG. 54, the CPU 181 displays the display device 1 based on the detection value of the temperature sensor 157 in step S11.
The temperature inside is set to 80 as the overheat determination temperature Te.
Determine if it is below ℃. And, for example, the posting device 1
The temperature inside the display device 1 is 80
If the temperature exceeds ℃, wait until the temperature drops below 80 ℃. Therefore, the process after step S12 is not executed, the bulletin board device 1 is held in the stopped state, and the failure due to the operation in the overheated state is prevented in advance.

If the temperature inside the display device 1 is 80 ° C. or lower from the beginning, or if the temperature drops to 80 ° C. due to the above-mentioned standby, the process proceeds to step S12, and it is determined whether or not the leading position detection sensor 112 is in the ON state. When it is determined that the both feeding claws 10 are in the ON state, as shown in FIG.
Assuming that 3a and 103b are at the head position X, the processing of this initial position adjustment routine ends. When the leading position detection sensor 112 is in the off state, the process proceeds to step S13, and it is determined whether or not the rear position detection sensor 123 is in the on state. When the leading position detection sensor 112 is in the on state, both conveyances are performed as shown in FIG. Assuming that the claws 103a and 103b are at the rear position Y, after executing the inversion routine in step S14,
The initial position adjustment routine ends.

It should be noted that, in this way, the two conveying claws 103a, 103
When 3b is in the rear position Y, the holder 9 is moved to the rear position Y.
It is conceivable that the bulletin board device 1 may be stopped immediately after being conveyed up to, and as shown in FIG. 49, the single-wafer post 4 held by the holder 9 at this time remains in the holder conveyance path 74 and is fed out. It is in a state of being sandwiched between the driving roller 140 and the feeding driven roller 148.

When the reversing routine is called, as shown in FIG. 55, the CPU 181 starts the reverse rotation of the carrying motor 75 in step S21. As a result, as shown in FIG. 51, the transport chain 87 starts traveling counterclockwise, and the two transport claws 103a and 103b move toward the rearmost holder 9.
Is left at that position, the claw movement path 100 is moved to the head position X. Then, as shown in FIG.
The carrying claw 103b rides over the carrying pin 109 of the leading holder 9, and as shown in FIG.
03b returns to the head position X and moves to the position detecting dog 111.
The leading position detection sensor 112 is turned on at.

Also, the CPU 181 executes the step S21.
The driving of the feeding motor 124 is started at. As a result, the feeding drive roller 140 rotates, and as shown in FIG. 50, the single-wafer posting item 4 sandwiched between the feeding drive roller 140 and the feeding driven roller 148 is fed to the rear position Y. It is suspended in the same manner as the other sheet-shaped bulletin board 4, and the bulletin board on the rear side is displayed to the passengers.

Then, the CPU 181 sets 15 seconds as the operation abnormality determination time Tm2 in step S22.
If the leading position detection sensor 112 is turned on in step S23 before is passed, both transport claws 103a,
Assuming that 103b has normally returned to the head position X, the process proceeds to step S24. If the head position detection sensor 112 does not turn on even after 15 seconds have elapsed, the operation indicator lamp 47 is turned off and the abnormality indicator lamp 48 is turned on in step S25, and all processing is terminated. That is, for 15 seconds set as the operation abnormality determination time Tm2, the transport claws 103a and 103b move from the rear position Y to the head position X,
Alternatively, it is set to be sufficiently longer than the time required to move from the head position X to the tail position Y, and the conveyance claws 103a and 103b do not reach the head position X even if the determination time Tm2 has passed. It is presumed that normal operation cannot be expected after that due to the failure of the motor 75 or the obstruction of the operation of the transport mechanism due to foreign matter. Therefore, in this case, the operation of the posting device 1 is automatically terminated in the process of step S22.

When the carrying claws 103a and 103b have normally returned to the leading position X, the carrying motor 75 is stopped in step S24, and in step S26 it is determined whether the rear position detecting sensor 123 is in the on state in step S13. After that, it is determined whether 8 seconds have passed. When 8 seconds have elapsed in step S26, step S27
Then, the feeding motor 124 is stopped and the reversing routine is ended. As a result, when the inversion routine is executed, the transport claws 103a, 1a located at the rear position Y are detected.
03b will be returned to the head position X.

On the other hand, in the initial position adjustment routine shown in FIG. 54, the rear position detection sensor 123 is detected in step S13.
Is off, for example, as shown in FIG. 45, after the carrying / reversing routine is executed in step S15, it is assumed that both carrying pawls 103a and 103b are located between the leading position X and the trailing position Y. , The initial position adjustment routine ends. In addition, as described above,
When 03b is located in the middle of the head position X and the tail position Y, it is conceivable that the posting device 1 is stopped while the holder 9 is being conveyed to the tail position Y. Is in a state where its upper end has entered the holder transport path 74.

When the carrying / reversing routine is called, as shown in FIG. 56, the CPU 181 starts the forward rotation of the carrying motor 75 in step S31. As a result,
5, the transport chain 87 starts traveling clockwise, and the second transport claw 103b supplements the holder 9 and moves backward in the claw movement path 100. And the holder 9 is
As shown in FIG. 46, it passes between the feeding drive roller 140 and the feeding driven roller 148, and further, FIGS.
As shown in, while rotating the stopper lever 114 downward, the other holder 9 at the holder alignment position 100a is pressed to move one holder forward. Then, as shown in FIG. 49, when both the transfer claws 103a and 103b reach the rear position Y, the transfer pin 109 of the holder 9 is locked by the stopper lever 1.
The position detection dog 1 is fitted into the fitting recess 121 of
At 11, the rear position detection sensor 123 is turned on.

Further, the CPU 181 executes the above step S31.
The driving of the feeding motor 124 is started at. As a result, the feeding drive roller 140 rotates, and as shown in FIG. 50, the single-wafer posting item 4 sandwiched between the feeding drive roller 140 and the feeding driven roller 148 is fed to the rear position Y. It is suspended in the same manner as the other sheet-shaped bulletin board 4, and the bulletin board on the rear side is displayed to the passengers.

Then, the CPU 181 sets 15 seconds which is set as the operation abnormality determination time Tm2 in step S32.
When the rear position detection sensor 123 is turned on in step S33 before the passage of
If 103b normally reaches the rear position Y, the process proceeds to step S34, and if the rear position detection sensor 123 does not turn on after 15 seconds, it is considered that normal operation cannot be expected due to some abnormality. In S35, the operation indicator lamp 47 is turned off, the abnormality indicator lamp 48 is turned on, and all the processes are ended.

When the transport pawls 103a and 103b have normally reached the rear position Y, the transport motor 75 is stopped in step S34, the process waits for 1 second in step S36, and the reverse rotation of the transport motor 75 is started in step S37. Therefore, the same operation as the above-described reversal routine is performed, and as shown in FIG. 51, the transport chain 87 starts traveling counterclockwise, leaving the rearmost holder 9 held by the stopper lever 114 at that position. Both feeding claws 1 in the closed state
03a and 103b are moved to the start position X, and as shown in FIG. 43, both the transfer claws 103a and 103b are moved to the start position X.
Then, the head position detection sensor 112 is turned on by the position detection dog 11.

Then, the CPU 181 determines in step S38 and step S39 that the operation abnormality determination time Tm2 is 1
If the leading position detection sensor 112 is turned on before the lapse of 5 seconds, it is determined that the transport claws 103a and 103b have reached the leading position X normally, and the process proceeds to step S40.
If the head position detection sensor 112 does not turn on even after 15 seconds have passed, it is determined that some abnormality has occurred, the operation indicator lamp 47 is turned off and the abnormality indicator lamp 48 is turned on in step S35, and all the processing is ended. Further, the conveying motor 75 is stopped in step S40,
41, the rear position detection sensor 12 in step S33.
When 8 seconds have passed since the ON state of No. 3 was determined, the feeding motor 124 is stopped in step S42, and the carrying / reversing routine is ended. As a result, the leading position X and the trailing position Y are executed by executing the carrying / reversing routine.
The transporting claws 103a and 103b located in the middle of are transported back to the head position X after transporting the holder 9 to the rear position Y.

As described above, at the end of the initial position adjustment routine, both the transport claws 103a and 103b are always returned to the head position X regardless of the position when the power switch 39 is turned on. Then, the CPU 181 proceeds to step S5 of the main routine shown in FIG. 53 and executes the vehicle running determination routine.

When the vehicle running determination routine is called, the CPU 181 determines in step S5 as shown in FIG.
In 1 and step S52, whether the first vibration sensor 155 or the second vibration sensor 156 is operating, that is, whether the acceleration when the trains 2 and 3 are stopped or the acceleration when the train is leaving is detected. The vibration sensor 15
When the acceleration is detected by 5, 156, the vehicle running flag is set in step S53. In addition, in step S51 and step S52, the vibration sensor 15
No accelerations are detected in the reference numerals 5 and 156, and when 10 min set as the vehicle operation determination time Tm3 in step S54 has elapsed, the process proceeds to step S55 to clear the vehicle operation flag.

Here, since the stop time at each station of the ordinary trains 2 and 3 and the running time from the station to the station are both shorter than 10 min, as long as the trains 2 and 3 are operating,
Departure and stop are repeated in a cycle shorter than 10 min, and the vibration sensors 155 and 156 detect their accelerations, and as a result, the vehicle running flag is held in the set state. And, the train of that day is finished and train 2 and 3
When the vehicle is delivered to the garage, the vibration sensors 155 and 156 do not detect acceleration even after 10 minutes have passed, so the vehicle running flag is cleared, and when the vehicle is restarted the next day, The vehicle running flag will be set again.

Then, the CPU 181 proceeds to step S6 of the main routine shown in FIG. 53 to judge whether or not the vehicle running flag is set, and when it is not set, that is, as described above, When there is no need to post a single-sheet posted object, such as when 2 and 3 are delivered to the garage, the trains 2 and 3 wait until the running flag is set and the running trains are set, and the flag is set. When,
Then, the process proceeds to step S7 to execute the single-wafer post feeding routine. Therefore, in the bulletin board device 1 of the present embodiment, even if the power switch 39 is left in the ON state, the operation is automatically interrupted when the trains 2 and 3 are not running. ..

When the single-wafer post feed routine is called, as shown in FIG. 58, the CPU 181 executes step S6.
In step 1, similarly to step S11, it is determined whether or not the temperature inside the display device 1 is 80 ° C. or lower, which is the overheat determination temperature Te. Then, in this step S62, the system waits until 30 seconds set as the interval time Tm1 elapses, and when 30 seconds elapse, the carrying / reversing routine shown in FIG. 56 is executed in step S63, and then this holder feeding routine is executed. finish. Note that, as shown in FIG. 43, the transport claws 103a and 103b at this point have been moved to the head position X in advance by the initial position adjustment routine.

Since the carrying / reversing routine of step S63 has the same processing contents as the carrying / reversing routine of step S15 of the above-described initial position adjusting routine, a duplicate description will be omitted, but the carrying motor 75 is not described. By the forward rotation and the reverse rotation of No. 1, the leading holder 9 is conveyed to the end of each holder 9, and as a result, the second bulletin board 4 from the beginning is exposed at the front side and is conveyed to the end. The posterior surface of the poster sheet 4 at the top is exposed and is posted to the passengers.

When this carrying / reversing routine is completed, C
PU181 is step S of the main routine shown in FIG.
8, it is determined whether or not the power switch 39 is shut off. If the power switch 39 is not shut off, the process returns to step S6, and the processes after step S6 are executed again as in the case described above. When the shutoff operation is performed, the operation indicator lamp 47 is turned off in step S9, and all the processes are ended.

Thus, while the power switch 39 is turned on in step S8 of the main routine shown in FIG. 53, the holder feeding routine of step S7 is repeatedly executed, and as a result, in step S63 of FIG. Transport /
The reversing routine has an interval time Tm1 of 30 sec.
It is repeatedly executed every time. Therefore, every 30 seconds, the front holder 9 is sequentially conveyed to the rear end, and the single-wafer posted items 4 posted to passengers are automatically replaced.

As described above, the transport motor 75
In order to activate the bulletin board 1 that has stopped due to an abnormal operation time exceeding the operation abnormality determination time Tm2, the power switch 3
After 9 is shut off, it is turned on again. as a result,
The CPU 181 determines the turning-on operation of the power switch 39 in step S2 of the main routine shown in FIG. 53, and executes the processing from step S3. The transport claws 103a and 103b when this operation abnormality occurs are not always at the head position X.
Although not necessarily stopped at step S4, since it is moved to the stop position in advance by the initial position adjustment routine executed at step S4, after that, assuming that the transport claws 103a and 103b are at the initial position, step S7 is performed. The holder feed routine is executed without any problems.

As described above, in the continuous posting device of the above-mentioned first embodiment, the single-sheet posted objects 4 are hung and aligned.
It is formed so as to connect the six holders 9 for displaying the leading and trailing single-wafer postings 4 in the vehicle, and the leading holder 9 and the trailing holder 9 via the upper side of each holder 9. The holder conveying path 74 and the both ends of the leading holder 9 are supplemented, and sequentially conveyed to the end via the holder conveying path 74, and the conveying chain 87 and the conveying claws 103a for exchanging the posted single-sided articles 4 are transferred. 103b, a delivery drive roller 140 located in the holder transport path 74 and rotated by a delivery motor 124, and the delivery drive roller 1 urged by a pressure spring 150 in the holder transport path 74.
40 is separated from the feeding drive roller 140 by the pressing of the holder 9 during conveyance, and the passage of the holder 9 is permitted, and the single-sheet posted object 4 that follows the holder 9 is connected to the feeding drive roller 140. It is provided with a feeding driven roller 148 which is sandwiched between them and which can be fed to the rearmost side of each holder 9 as the feeding driving roller 140 rotates.

Therefore, the feeding operation of the holder 9 is used to bring the feeding driven roller 48 into contact with and separate from the feeding driving roller 140, so that the holder 9 is passed and the following single-sheet posted object 4 is sandwiched. Accordingly, the structure of the display device 1 can be simplified by omitting a drive source dedicated for the contact / separation operation.

Therefore, the manufacturing cost of the bulletin board device 1 can be reduced, and the failure rate can be greatly reduced due to the simplification of the structure.

Further, since the drive source is omitted, the control for the drive source is not required. As a result, as the control for the feeding operation of the single-sheet posted object 4, the feeding motor 12 is used.
4 need only control the rotation of the feeding drive roller 140.

Therefore, it is possible to simplify the control of the feeding operation of the single-sided billboard 4, and thus the control of the entire billboard device 1, and further reduce the manufacturing cost.

<< Second Embodiment >> Next, a continuous notice device according to a second embodiment of the present invention will be described.

The overall structure of the display device of the second embodiment is the same as that of the display device of the first embodiment described above, and the difference lies in the delivery mechanism for delivering the single-wafer post 4. is there. Therefore, especially in this embodiment, the difference will be mainly described.

FIG. 59 is a partial side sectional view showing the operating lever of the feeding mechanism of the continuous notice device according to the second embodiment of the present invention.
Reference numeral 0 is a partial side sectional view showing a feeding drive roller and a feeding driven roller of the feeding mechanism of the continuous notice device according to the second embodiment of the present invention,
FIG. 61 is an operation explanatory view showing the time when the feeding mechanism of the continuous posting device according to the second embodiment of the present invention passes through the holder, and FIG. 62 is a single-sheet posted object sandwiching of the feeding mechanism of the continuous posting device according to the second embodiment of the present invention. It is an operation explanatory view showing time.

As shown in FIG. 60, the feeding drive roller 14
A support shaft 201 is rotatably supported by a bracket (not shown) behind 0 (to the right in the drawing).
1, the base ends of a pair of feeding levers 202 (only one of which is shown) are connected so as to correspond to the feeding rollers 140. The feeding driven rollers 203 are rotatably supported at the tips of the feeding levers 202.
2 is urged to rotate counterclockwise by an urging spring 204 serving as an urging means to bring the feeding driven roller 203 at the leading end into contact with the corresponding feeding driving roller 140.

As shown in FIG. 59, the interlocking shaft 2 is provided above the feeding drive roller 140 with a bracket (not shown).
05 is rotatably supported, and the base end side of an operation lever 206 as an operation member is connected to the left end of the interlocking shaft 205. This operation lever 206 is used for the feeding drive roller 1
It forms an arc shape along the outer periphery of 40, and as shown by a virtual line,
Normally, it is rotated clockwise by its own weight so as to approach the feeding drive roller 140. Then, as described above, when the holder 9 supplemented by the first transfer claw 03a and the second transfer claw 103b is transferred in the holder transfer path 74, it is operated by the transfer roller 108 at the left end of the holder 9. The lever 206 is pressed to move the feeding drive roller 140.
Rotate counterclockwise so as to separate from.

As shown in FIG. 60, the base ends of a pair of interlocking levers 207 are connected to the interlocking shaft 205 so as to correspond to the feeding drive roller 140.
Is configured to rotate integrally with the operation lever 206 via the interlocking shaft 205. A long hole 207a is formed at the tip of each interlocking lever 207, and a pin 202a protruding from the center of each feeding lever 202 is fitted in each long hole 207a with play. Then, as described above, when the operation lever 206 is rotated counterclockwise by the transport pin 108 of the holder 9, the feeding lever 202 resists the urging force of the urging spring 204 via the interlocking lever 207. Rotate clockwise, and as a result,
The feeding driven roller 203 is separated from the feeding driving roller 140.

Next, the operation of the continuous notice device of the present embodiment constructed as described above will be described.

When the holder 9 is not yet conveyed, the operating lever 206 is rotated clockwise by its own weight as shown by the phantom line in FIG. 59, and the feeding lever 202 is attached as shown in FIG. The feeding driven roller 203 is brought into contact with the feeding driving roller 140 by being urged to rotate counterclockwise by the urging force of the urging spring 204.

Now, the holder 9 is moved to the position of the operation lever 206.
Is conveyed, as shown by the solid line in FIG. 59, the holder 9
61, the operation lever 206 is pressed, and the interlocking lever 207 is rotated counterclockwise together with the operation lever 206 as shown in FIG. As a result, the feeding lever 202 is rotated clockwise through the elongated hole 207a and the pin 202a, and the feeding driven roller 203 at the tip thereof is separated from the feeding driving roller 140.
Therefore, the holder 9 itself does not press the feeding driven roller 203 as in the above-described embodiment, and does not come into contact with the feeding driven roller 203.
It will pass between the three.

Then, after the holder 9 has passed, the pressing operation of the operation lever 206 by the conveying roller 108 is stopped, so that as shown in FIG. The feeding driven roller 203 rotates in the clockwise direction, and holds the sheet-shaped object 4 that follows the holder 9 between the feeding driven roller 203 and the feeding-driving roller 140. Roll 4 to the tail end.

Also in the feeding mechanism configured as described above, the feeding drive roller 140 and the feeding driven roller 203 are brought into contact with and separated from each other by using the feeding operation of the holder 9, so that the holder 9 is passed and the single-sided post 4 is moved. Since the sandwiching is performed, a dedicated drive source can be omitted and the structure of the display device 1 can be simplified. Further, by omitting the drive source, control for the drive source is not required.

In addition, as described above, since the feeding driven roller 203 is brought into contact with and separated from the feeding roller 203 of the holder 9 by pressing the operation lever 206, the holder 9 itself presses the feeding driven roller 203. Without doing so, generation of noise due to contact between both members is prevented. Although the transport roller 108 and the operation lever 206 come into contact with each other, the shape of the operation lever 206 is the shape of the transport roller 108.
Noise is hardly generated because it is designed to be pressed smoothly.

As described above, in the continuous notice device of the second embodiment, the single-sheet notices 4 are hung and aligned.
It is formed so as to connect the six holders 9 for displaying the leading and trailing single-wafer postings 4 in the vehicle, and the leading holder 9 and the trailing holder 9 via the upper side of each holder 9. The holder conveying path 74 and the both ends of the leading holder 9 are supplemented, and sequentially conveyed to the end via the holder conveying path 74, and the conveying chain 87 and the conveying claws 103a for exchanging the posted single-sided articles 4 are transferred. 103b, a delivery drive roller 140 located in the holder transport path 74 and driven to rotate by a delivery motor 124, and an operation lever 206 pressed by the transport roller 108 of the holder 9 being transported.
In the holder transport path 74, the feeding drive roller 140 is urged by the urging spring 204 to come into contact with the feeding drive roller 140, and is interlocked with the pressing operation of the operation lever 206.
Is separated from the holder 9 to allow the holder 9 to pass therethrough, and the sheet-posting object 4 that follows the holder 9 is fed out from the feeding drive roller 1
It is provided with a feeding driven roller 203 which is sandwiched between the feeding driving roller 140 and the feeding driving roller 140 and can be fed to the rearmost side of each holder 9 as the feeding driving roller 140 rotates.

Therefore, the feeding operation of the holder 9 is used to bring the feeding driven roller 203 into and out of contact with the feeding driving roller 140, so that the holder 9 is passed and the following single-sheet posted object 4 is nipped. Accordingly, the structure of the display device 1 can be simplified by omitting a drive source dedicated for the contact / separation operation.

Therefore, the manufacturing cost of the display device 1 can be reduced, and the failure occurrence rate can be greatly reduced due to the simplification of the structure.

Further, since the drive source is omitted, the control for the drive source is not required. As a result, as the control for the delivery operation of the single-sheet posted object 4, the delivery motor 12 is used.
4 need only control the rotation of the feeding drive roller 140. Therefore, it is possible to simplify the control of the feeding operation of the single-wafer posting item 4 and thus the control of the entire posting device 1, and further reduce the above-described manufacturing cost.

In addition, the holder 9 itself is the feeding driven roller 2
Since 03 is not pressed, it is possible to prevent the generation of noise due to the contact, and to realize the noise reduction of the display device 1.

<< Third Embodiment >> Next, a continuous notice device according to a third embodiment of the present invention will be described.

The overall construction of the display device of the third embodiment is the same as that of the display devices of the first and second embodiments described above, and the difference is that the single-sheet display object 4 is delivered. It is in the feeding mechanism for. In addition, especially, in this embodiment, the difference will be mainly described.

FIG. 63 is a partial side sectional view showing a feeding driven belt of a feeding mechanism of a continuous notice device according to a third embodiment of the present invention,
FIG. 64 is an operation explanatory view showing the time when the feeding mechanism of the continuous posting device according to the third embodiment of the present invention is passing through the holder, and FIG. 65 is a single-sheet posted object clamping of the feeding mechanism of the continuous posting device according to the third embodiment of the present invention. It is an operation explanatory view showing time.

As shown in the figure, the feeding drive roller 14 is
Three pulleys 251 are rotatably supported by a rotary shaft 252 on the rear side of 0 (to the left in the figure) so as to correspond to the respective feeding drive rollers 140, and these pulleys 251 have elasticity. Endless feeding belt 25 having
3 is stretched. One side of both feeding driven belts 253 is in contact with the corresponding feeding driving rollers 140, and the feeding driven belt 2 is rotated as the feeding driving rollers 140 rotate.
53 is running.

Next, the operation of the continuous notice device of this embodiment having the above-mentioned structure will be described.

Now, when the holder 9 is conveyed to the position of the feeding driven belt 253, as shown in FIG. 64, the feeding driven belt 253 is pressed and extended by the holder 9, and the holder 9 is moved to the feeding driven belt 253. It passes between the belt 253 and the feeding drive roller 140. Then, as shown in FIG. 65, after passing through the holder 9, the feeding driven belt 253 contracts due to the elasticity of itself, and the single-sheet posted object 4 that follows the holder 9 is nipped between the feeding driving roller 140. As the feeding drive roller 140 rotates, the feeding drive roller 140 is fed to the rearmost side.

Also, in the feeding mechanism configured as described above, the feeding operation of the holder 9 is used to extend and contract the feeding driven belt 253 to pass the holder 9 and pinch the single-sheet posted object 4. It becomes possible to simplify the structure of the display device 1 by omitting the drive source, and by omitting the drive source, control for the drive source becomes unnecessary.

As described above, in the continuous notice device of the third embodiment, the single sheet notices 4 are hung and aligned.
It is formed so as to connect the six holders 9 for displaying the leading and trailing single-wafer postings 4 in the vehicle, and the leading holder 9 and the trailing holder 9 via the upper side of each holder 9. The holder conveying path 74 and the both ends of the leading holder 9 are supplemented, and sequentially conveyed to the end via the holder conveying path 74, and the conveying chain 87 and the conveying claws 103a for exchanging the posted single-sided articles 4 are transferred. 103b, a feeding drive roller 140 located in the holder transporting path 74 and driven to rotate by a feeding motor 124, and stretched by three pulleys 251 in the holder transporting path 74 to extend to one side. Is brought into contact with the feeding drive roller 140, is stretched by pressing the holder 9 during the conveyance, allows the holder 9 to pass between the feeding drive roller 140, and follows the holder 9. 4 in front Feeding and nipped between the driving roller 140, feeding the holders 9 with the rotation of the driving roller 140
And a driven belt 253 that can be paid out.

Therefore, the feeding driven belt 253 is expanded and contracted by utilizing the conveying operation of the holder 9 so that the holder 9 is passed through and the following single-sheet posted object 4 is clamped, and a dedicated drive source is omitted. Thus, the structure of the display device 1 can be simplified. Therefore, the manufacturing cost of the display device 1 can be reduced, and the failure occurrence rate can be significantly reduced with the simplification of the structure.

Further, since the drive source is omitted, the control for the drive source is not required, and as a result, the control for the feeding operation of the single-sheet posted object 4 is performed by the feeding motor 12
4 need only control the rotation of the feeding drive roller 140. Therefore, it is possible to simplify the control of the feeding operation of the single-wafer posting item 4 and thus the control of the entire posting device 1, and further reduce the above-described manufacturing cost.

By the way, the above-mentioned first to third embodiments are embodied as the display device 1 installed on the ceilings 2a and 3a of the trains 2 and 3, but when the present invention is carried out, this is not the case. The installation place is not limited as long as it is a display device that sequentially displays a plurality of single-wafer posted items 4. Therefore, for example, it can be embodied as a display device installed on the ceiling in a building such as a bank or a station, or the ceiling 2
It is also possible to embody not only a and 3a but a notice device installed on the wall surface or the floor.

Further, the holders of the above-mentioned first to third embodiments are constructed as six holders 9 in which the upper part of the single-sheet posted object 4 is hooked in the hook holding groove 178. When carrying out the invention, the present invention is not limited to this.
Anything can be used as long as it can hold the upper part of the single-sheet posted item 4. Therefore, for example, it is possible to sandwich the upper end of the single-sheet posted object 4 or to change the number to 4 or 10.

Further, the carrying means of the above-mentioned first to third embodiments has a pair of carrying chains 87 that run synchronously, and a first carrying pawl that complements both ends of the holder 9 as the carrying chains 87 run. Although it is constituted as 103a and the 2nd conveyance nail 103b, when implementing the present invention, it is not limited to this, the alignment order of the holders 9 is changed, and the posted single-wafer post 4 is displayed. Anything can be changed. Therefore, for example, the first transport claw 103a is omitted, and the second transport claw 1 is moved by traveling of the transport chain 87.
It is also possible to transport the holder 9 only by 03b.

On the other hand, the driving means of the first to third embodiments is constructed as the electric feeding motor 124. However, when the present invention is carried out, the driving means is not limited to this. Instead, it is sufficient that the feeding drive roller 140 can be rotationally driven. Therefore, for example, the feeding drive roller 140 can be rotationally driven by a hydraulic motor.

Further, the feeding drive rollers of the first to third embodiments are constructed as a pair of feeding drive rollers 140 arranged at a predetermined interval. However, the present invention is not limited to this, and may be any as long as it can sandwich the single-sheet posted object 4 between the delivery driven rollers 148, 203 and the delivery driven belt 253 and deliver it along with its rotation. Therefore, for example, the number of the feeding drive rollers 140 can be changed, and the width and diameter thereof can be changed.

Further, the feeding driven rollers of the first and second embodiments are feeding driven rollers 148, 203 which come into contact with and separate from the feeding driving roller 140 in accordance with the rotation operation of the feeding levers 145, 202. However, when the present invention is carried out, the present invention is not limited to this, and allows the holder 9 to pass between the feeding drive roller 140 and the sheet-feeding poster 4 that follows. Anything can be used as long as it can hold. Therefore, for example, the feeding driven rollers 148 and 203 may be linearly guided by a guide member so as to come into contact with and separate from the feeding driving roller 140.

On the other hand, the operating member of the second embodiment is constructed as an operating lever 206 which is rotated by being pressed by the conveying roller 108 of the holder 9, but in the case of practicing the present invention, this is not the case. The holder 9 is not limited to this.
It suffices that the feeding driven roller 203 can be brought into contact with and separated from the feeding driving roller 140 in conjunction with the pressing operation of the end portion of the feeding roller. Therefore, for example, this operation lever 206
It is also possible to configure by changing the shape of.

The feeding driven belt of the third embodiment is constructed as a pair of feeding driven belts 253 stretched around three pulleys 251, respectively. However, the present invention is not limited to this, as long as it has elasticity and allows the holder 9 to pass through with the feeding drive roller 140, and is capable of holding the following single-sheet posted object 4. .. Therefore, for example, the number of the feeding driven belts 253 can be changed,
It is also possible to change the number of pulleys 251 around which 3 are stretched.

[0184]

As described above, in the continuous posting device according to the invention of claim 1, the plurality of holders for suspending the single-piece posted object, the holder conveying path connecting the first and last holders, and the holder conveying path. A transporting means for transporting the first holder to the rearmost via the feeding roller, a feeding driving roller that is rotationally driven in the holder feeding path, and a passage of the holder that is separated from the feeding driving roller by pressing the holder during transportation. , A feeding driven roller capable of being fed to the rearmost side by sandwiching the single-sheet posted object that follows by the biasing of the biasing member, so that both rollers are brought into contact with and separated from each other by using the transport operation of the holder. Since the holder is passed and the single-sheet posted object is sandwiched, a dedicated drive source is omitted, the structure of the posted device is simplified, and as a result, the manufacturing cost is reduced and the failure rate is significantly reduced. Can also be the drive source By substantially, no longer requiring control for the drive source, therefore, it is possible to simplify the control of the entire posting device, to further reduce the above-mentioned manufacturing costs.

In the continuous posting device according to the second aspect of the present invention, a plurality of holders for suspending the single-posted object, a holder conveying path connecting the first and last holders, and the first holder after the holder conveying path are placed at the end. A conveying means for conveying to the tail, a feeding drive roller that is rotationally driven in the holder conveying path, an operation member that is pressed at the end of the holder that is being conveyed, and a feeding operation that is linked to the pressing operation of the operation member. The holder is separated from the drive roller to allow passage of the holder, and also has a feeding driven roller capable of feeding to the rearmost side by sandwiching a single-sheet posted object which is followed by the urging of the urging member. Since both rollers are brought into contact with and separated from each other by using the conveying operation to pass through the holder and sandwich the single-sheet posting, a dedicated drive source is omitted and the structure of the posting device is simplified, resulting in manufacturing cost. And increase the failure rate. In addition, by omitting the drive source, control for the drive source is not required, and by extension, the control of the entire display device can be simplified to further reduce the manufacturing cost. It is possible and without pressing the feeding driven roller by the holder itself,
Since only the operation member is pressed by the end portion thereof, it is possible to prevent the generation of noise due to the contact between the holder and the feeding driven roller, and realize the noise reduction.

According to the third aspect of the present invention, in the continuous posting device, a plurality of holders for suspending a single-sided post, a holder conveying path connecting the leading and trailing holders, and a leading holder through the holder conveying path are placed at the end. Conveying means for conveying to the tail, feeding drive roller that is rotationally driven in the holder conveying path, and one side abutted against the feeding drive roller stretched by a pulley and extended by the pressing of the holder during conveyance and feeding. While allowing the passage of the holder between the drive roller and sandwiching the following single-sheet posting object, the feeding driven belt that can be fed to the rearmost side is provided,
The feeding driven belt is stretched by utilizing the transporting operation of the holder to pass through the holder and to sandwich the single-posted message, so that a dedicated drive source is omitted and the structure of the postal device is simplified. The manufacturing cost can be reduced and the failure rate can be significantly reduced. Also, by omitting the drive source,
The control for the drive source is not required, and the control of the entire display device can be simplified, and the manufacturing cost can be further reduced.

[Brief description of drawings]

FIG. 1 is an explanatory view showing an installation state of a continuous display device according to a first embodiment of the present invention when suspended.

FIG. 2 is an explanatory view showing an installation state of the continuous bulletin board device according to the first embodiment of the present invention when it is embedded.

FIG. 3 is a perspective view showing the continuous display device according to the first embodiment of the present invention when it is suspended and installed.

FIG. 4 is an exploded perspective view showing the continuous posting device according to the first embodiment of the present invention when it is installed in a suspended state.

FIG. 5 is a partially cutaway front view showing the continuous posting device according to the first embodiment of the present invention when it is installed in a suspended state.

FIG. 6 is a side view, partly broken, showing the continuous posting apparatus according to the first embodiment of the present invention when installed in a suspended state.

FIG. 7 is a partial cross-sectional view showing an installation structure of the continuous posting device according to the first embodiment of the present invention at the time of hanging installation.

FIG. 8 is a cross-sectional view taken along the line AA of FIG. 5 showing the installation structure of the continuous posting device according to the first embodiment of the present invention when it is installed in a suspended state.

FIG. 9 is an exploded perspective view showing a main body mounting bracket when the continuous posting device according to the first embodiment of the present invention is installed in a suspended state.

FIG. 10 is a BB of FIG. 5 showing an installation structure of the continuous posting device according to the first embodiment of the present invention when installed in a suspended state.
It is a line sectional view.

FIG. 11 is a C- of FIG. 10 showing the installation structure of the continuous posting device according to the first embodiment of the present invention when it is installed by suspension.
It is a C line sectional view.

FIG. 12 is a D- of FIG. 10 showing the installation structure of the continuous posting device according to the first embodiment of the present invention when it is installed by suspension.
It is a D line sectional view.

FIG. 13 is a bottom view of the continuous posting device according to the first embodiment of the present invention when the lower cover is attached.

FIG. 14 is a bottom view of the continuous posting device according to the first embodiment of the present invention when the lower cover is removed.

FIG. 15 is a partially enlarged bottom view of the continuous posting device according to the first embodiment of the present invention when the lower cover is attached.

FIG. 16 is a sectional view taken along line EE in FIG. 15 showing the operating portion of the continuous notice device which is the first embodiment of the present invention.

FIG. 17 is a sectional view taken along line F-F in FIG. 15 showing the operating portion of the continuous notice device which is the first embodiment of the present invention.

FIG. 18 is a plan view showing the main body of the continuous posting device which is the first embodiment of the present invention.

FIG. 19 is a partial plan cross-sectional view showing a gear train for a transport mechanism of the continuous posting device according to the first embodiment of the present invention.

FIG. 20 is a partial plan cross-sectional view showing a gear train for the feeding mechanism of the continuous posting device according to the first embodiment of the present invention.

FIG. 21 is a cross-sectional view taken along the line GG of FIG. 20, showing the structure of the frame of the continuous posting device which is the first embodiment of the present invention.

22 is a cross-sectional view taken along the line HH of FIG. 19 showing a gear train for the transport mechanism of the continuous posting device which is the first embodiment of the present invention.

FIG. 23 is a plan cross-sectional view showing the internal structure of the drive gear of the continuous notice device which is the first embodiment of the present invention.

FIG. 24 is a cross-sectional view taken along the line I-I of FIG. 20, showing a gear train for the feeding mechanism of the continuous posting device which is the first embodiment of the present invention.

FIG. 25 is a cross-sectional view taken along the line JJ of FIG. 20, showing the periphery of the carrier chain of the continuous posting device which is the first embodiment of the present invention.

FIG. 26 is a partially enlarged side view showing a state in which the conveying claw is located at the leading position in the continuous notice device which is the first embodiment of the present invention.

FIG. 27 is a partially enlarged plan view showing a state in which the conveying claw is located at the leading position in the continuous notice device which is the first embodiment of the present invention.

28 is a sectional view taken along the line KK of FIG. 27, which shows the details of the conveying claws and the holder of the continuous notice device which is the first embodiment of the present invention.

FIG. 29 is a sectional view taken along the line LL in FIG. 27, showing the details of the position detecting dog and the head position detecting sensor of the continuous notice device which is the first embodiment of the present invention.

FIG. 30 is a partially enlarged side view showing details of the stopper lever of the continuous notice device which is the first embodiment of the present invention.

FIG. 31 is a partially enlarged plan view showing details of a stopper lever of the continuous notice device which is the first embodiment of the present invention.

FIG. 32 is a partially enlarged side view showing a state in which the conveying claw of the continuous posting device according to the first embodiment of the present invention is located at the rear position.

FIG. 33 is a sectional view taken along the line MM of FIG. 21, showing the feeding lever of the continuous notice device which is the first embodiment of the present invention.

FIG. 34 is a front view showing a holder of the continuous posting device which is the first embodiment of the present invention.

FIG. 35 is a partially cutaway front view showing the holder of the continuous posting device according to the first embodiment of the present invention, which is switched to the single-wafer posted object holding state.

FIG. 36 is a side view showing a holder of the continuous posting device which is the first embodiment of the present invention.

FIG. 37 is a view showing the shaft mounting structure of the holder main body of the holder in the continuous posting device which is the first embodiment of the present invention.
5 is a sectional view taken along line NN of FIG.

FIG. 38 is a partial perspective view showing a shaft mounting structure of a holder main body of a holder in the continuous posting device which is the first embodiment of the present invention.

FIG. 39 is a sectional view taken along the line OO of FIG. 35, showing the attachment structure of the retaining plate of the holder in the continuous posting device which is the first embodiment of the present invention.

FIG. 40 is a sectional view taken along the line P-P in FIG. 35, showing the link structure of the holder links in the continuous posting device which is the first embodiment of the present invention.

FIG. 41 is a partially cutaway front view showing the holder of the continuous posting device according to the first embodiment of the present invention, which is switched to the single-wafer-posted item exchange state.

FIG. 42 is a block diagram showing an electrical configuration of a continuous notice device which is the first embodiment of the present invention.

FIG. 43 is an operation explanatory view showing a state in which the conveying claw of the continuous notice device according to the first embodiment of the present invention is located at the leading position.

FIG. 44 is an operation explanatory view showing the start of conveyance of the conveyance claws of the continuous notice device which is the first embodiment of the present invention.

FIG. 45 is an operation explanatory view showing the middle of conveyance of the conveyance claws of the continuous notice device which is the first embodiment of the present invention.

[FIG. 46] FIG. 46 is an operation explanatory view showing a state where the feeding claw of the continuous posting device which is the first embodiment of the present invention passes through the feeding driven roller.

FIG. 47 is an operation explanatory view showing a state immediately before the rear position of the conveying claw of the continuous posting device according to the first embodiment of the present invention is reached.

FIG. 48 is a partially enlarged side view showing a state immediately before the rear position of the conveying claw of the continuous notice device according to the first embodiment of the present invention is reached.

FIG. 49 is an operation explanatory view showing when the rear position of the conveying claw of the continuous posting device according to the first embodiment of the present invention is reached.

FIG. 50 is an operation explanatory view showing the single-sheet posted object feeding out of the continuous posting apparatus which is the first embodiment of the present invention.

FIG. 51 is an operation explanatory view showing the start of reversing the conveying pawls of the continuous posting device which is the first embodiment of the present invention.

FIG. 52 is an operation explanatory view showing a state immediately before the leading position of the conveying claw of the continuous posting device according to the first embodiment of the present invention is reached.

FIG. 53 is a flowchart showing a main routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 54 is a flowchart showing an initial position adjustment routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 55 is a flowchart showing an inversion routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 56 is a flowchart showing a carrying / reversing routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 57 is a flowchart showing a vehicle running determination routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 58 is a flowchart showing a holder feeding routine executed by the CPU of the continuous posting device which is the first embodiment of the present invention.

FIG. 59 is a partial side cross-sectional view showing an operating lever of a feeding mechanism of a continuous notice device according to a second embodiment of the present invention.

FIG. 60 is a partial side sectional view showing a feeding drive roller and a feeding driven roller of a feeding mechanism of a continuous notice device according to a second embodiment of the present invention.

FIG. 61 is an operation explanatory view showing a time when the feeding mechanism of the continuous notice device according to the second embodiment of the present invention passes through the holder.

[Fig. 62] Fig. 62 is an operation explanatory view showing a case where the single-sheet posted object is sandwiched by the feeding mechanism of the continuous posted device according to the second embodiment of the present invention.

FIG. 63 is a partial side cross-sectional view showing a feeding driven belt of a feeding mechanism of a continuous notice device according to a third embodiment of the present invention.

FIG. 64 is an operation explanatory view showing a time when the feeding mechanism of the continuous posting device according to the third embodiment of the present invention is passing through the holder.

[FIG. 65] FIG. 65 is an operation explanatory view showing a sheet-feeding object sandwiched by the feeding mechanism of the continuous posting apparatus according to the third embodiment of the present invention.

FIG. 66 is a cross-sectional view showing an installed state of a conventional poster circulation notice device.

[Explanation of symbols]

 4 sheet-posted matter 9 holder 74 holder transport path 87 transport chain (transport means) 103a first transport claw (transport means) 103b second transport claw (transport means) 124 feeding motor (driving means) 140 feeding drive roller 148 feeding Driven roller 150 Pressure contact spring (biasing member) 203 Feeding driven roller 204 Biasing spring (biasing member) 206 Operating lever (operating member) 251 Pulley 253 Feeding driven belt

Claims (3)

[Claims] 1. A plurality of holders that hang a single-sheet posted object and post the first and / or the last single-ended posted object, and are formed so as to connect between the first holder and the last holder. A holder transport path, and a transport means that complements the leading holder and sequentially transports the sheet through the holder transport path to the end, and transports the posted single-sheet postings, and a position in the holder transport path. Then, the feeding drive roller which is rotationally driven by the driving means and the feeding drive roller which is urged by the urging member in the holder conveying path to contact the feeding drive roller, and is separated from the feeding drive roller by the pressing of the holder during conveyance. Then, while allowing the holder to pass through, the sheet-shaped posted object that follows the holder can be sandwiched between the delivery drive roller and delivered to the rearmost side of each holder as the delivery drive roller rotates. It is provided with a feeding driven roller Continuous posting and wherein the door. 2. A plurality of holders that hang the single-sheet postings and post the leading and / or the last single-leaf postings, and the holder and the last holder are connected to each other. A holder transport path, and a transport means that complements the leading holder and sequentially transports the sheet through the holder transport path to the end, and transports the posted single-sheet postings, and a position in the holder transport path. Then, the feeding drive roller that is rotationally driven by the driving unit, the operation member that is pressed by the end of the holder that is being conveyed, and the feeding member that is urged by the urging member in the holder conveyance path. Between the feeding roller and the driving roller, abutting against the driving roller, separated from the feeding driving roller in association with the pressing operation of the operating member, and allowing the holder to pass therethrough, Pinch with, and rotate the feeding drive roller. Continuous bulletin apparatus characterized by comprising a feeding possible feeding driven roller at the end side of the holder with the. 3. A plurality of holders that hang the single-sheet postings and post the first and / or the last single-leaf postings, and the holder is formed so as to connect between the first holder and the last holder. A holder transport path, and a transport means that complements the leading holder and sequentially transports the sheet through the holder transport path to the end, and transports the posted single-sheet postings, and a position in the holder transport path. And a feeding drive roller that is rotationally driven by a driving unit, and a plurality of pulleys are stretched in the holder transporting path so that one side of the feeding drive roller is brought into contact with the feeding drive roller and the holder is being transported. The sheet is stretched by pressing and allows the holder to pass between it and the feeding drive roller, and also sandwiches the single-sheet posted object that follows the holder with the feeding drive roller to rotate the feeding drive roller. Along with the above, it is repeated on the rearmost side of each holder. Continuous posting and wherein the delivery to and a driven belt as possible.