JPS5948183A - Stamper - Google Patents

Abstract

PURPOSE:To miniaturize a stamper as well as save the consumption of energy by putting an object to be stamped in order and performing stamping operation by using a simplified construction in which a position regulating guide and a stamper are operated by only one drive source. CONSTITUTION:A motor 11 is driven, a drive disc 12 is turned in the direction of arrow D, and a guide roller 13 is separated from the end of a position-regulating drive lever 7B. As a result, a position-regulating guide 8 is turned in the direction of arrow C, and then slided sideways until the bundle of forms P on a horizontal delivery belt 3A is contacted with a side guide 9 by a side position regulator 8B. At the same time, a stamp drive arm 20 is turned downwards around a supporting pin 19. The stamp 16 comes near the bundle of forms P. When the drive disc 12 turns through nearly 180 deg., stamping is made on the strip B of the bundle P.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a quantity of stamps to be stamped after placing a stamp on a conveyed stamp object. 11. For example, one example of a stamping device is the one used in the Senko banknote inspection machine that inspects banks outside U Bank. Here, a predetermined number of banknotes of each denomination are conveyed by a conveyor belt, and along the way, the direction along the first stage feeding direction of the bank is determined, and the direction is Also perform the positioning in the IR1 angle direction and align the banknotes from 1 to 0. However, in this device, rJ:, positioning in the direction along the conveyance direction of banknotes, and positioning in the direction of Positioning in the internal angle direction was performed by a plurality of alignment members each having a different drive source.Furthermore, the stamp to be stamped on the aligned bank note was also created by a separate drive source. As a result, the number of drive sources used in the device increases, which leads to the device becoming more complex and larger, and is also contrary to energy conservation.

[Purpose of the invention]

The present invention was made in view of the above-mentioned circumstances, and it is possible to align the object to be affixed and affix the stamp in one step by using a tile and a cylinder (+7), which further reduces the size of the device and saves energy. 〇〇 [issue 811-41]
(ζda V) The present invention rJ: % 4s' is conveyed by a feeding member to a movable alignment guide, and the object is positioned by being aligned with this alignment guide. 〇 (Embodiment of the invention) Hereinafter, the stamping device of ``non-explosion ψ'' is characterized in that it is operated by a stamping member that stamps on one object and a single driving source. While theory jjl
Jjru.

It is a perspective view showing an example of 1st N-ma misfire.

The item to be stamped is, for example, a plurality of paper sheets K jiF-shaped material (for example, OiJ:
Paper g) rt is rolled up and the ends of the strips are glued and bundled (hereinafter also simply referred to as paper leaf group>PT;
c) Transport - Align with J, l) Bundle of 1 child 4""
%4 When k is detected °j, a stamp is stamped on the inclined band material [7 and 4;
! This is a device for ejecting water. In the figure, 1 is the first conveying means for conveying the group of paper sheets. This first! Injection means 1
V, 11, for example, the bottom double feed belt 1A and the side conveyor door -xn have a nexus angle of their paper feed surfaces of LT900 (11J is installed)7. (1'-? Both conveyor belts 1.a, 1n t, J:, i
p, 'l show 1.7, drive wheel and idle wheel l/Z, iA\.

The group of paper sheets 7'? rotates at the same speed in the direction of the first arrow A in the figure and is placed thereon. A means for folding down the group of paper sheets 1 which are conveyed by the first conveying means 1, such as the bottom conveying bell)
Is there an inclined surface almost the same as the 1 general feed surface on the other side of 1//? (
The tilted guide 2, which is fixedly disposed on a base (not shown), maintains the entire tilted state of the sheet group P pushed out by the first injection means 1, and ] When the sheet group P is pushed out to a certain extent, the sheet group P is tilted to the opposite side by the tilting guide 2 due to its own weight. A second conveying means for conveying the group of fallen sheets is provided adjacent to the first conveying means IK. Is the jυ transport means of this '1' t 2 transport? ? Material B, for example, a horizontal conveyor belt 3A is stretched between an idle boiler 6a and a drive wheel 3h, and a coupling 6B.
T via J! J('i) The drive wheel ro h connected to the feed motor 3C is driven to rotate in the direction of the first arrow B shown in the figure. , 4 is made of a material with a coefficient of friction small enough to allow it to slide onto the stack of paper sheets 41 on which it is placed.As described above,
from the first conveying means 1 to the second conveying means 6
When the sheet group P is transferred to , this sheet group Pt, i1 before L
Since the forward tilt 11 will be guided and knocked down, a certain amount of attack will be applied to the paper leaf 7i1j i'.

Then, the alignment section 4 that aligns the sheets (sheets thrown down on the injection belt 3A) CC and the stamp section 5 that stamps the strip B of the sheet group P are one It is configured to be operated by a drive source.Previous ii] Alignment section 4F, horizontal conveyance belt) Position in the traveling direction of filter paper 51η7ff P on 3/f (horizontal conveyance belt 3A in the longitudinal direction) V) and the position in the direction (horizontal (
9 position along the transverse direction of the feed belt 3A). For example, in this alignment, i';++ 4, F, t, alignment guide support shaft 6 is not attached to the base shown [7], and furthermore, this alignment guide shaft 6 has 1
, an auxiliary lever 7A and an alignment guide drive lever 7B are pivotably supported, and an alignment guide 8 for aligning the sheet group P is attached to the tips of both levers 7A and 7B. A sheet positioning guide 8&''1, a trailing positioning side part 8A that regulates the position of the paper sheet group P in the direction of travel, and a positioning part 8B that regulates the position of the sheet to be directly fired in that direction (I11 side positioning part 8B), The positioning guide drive lever 7 includes an inclined portion 8C that can obtain one inclined surface that is the same as the inclined surface of the inclined guide 2.
It is arranged so that it can swing in the transverse direction on the horizontal conveyance belt 3A by swinging of the belt B. A side guide 9 is held by a base (not shown) at the side end of the horizontal one-company conveyor belt 3/f at a position opposite to the side position regulating portion 8B of the alignment guide 8. So L7,
In order to move this J: positioning guide 8, first move the front i+1 positioning guide drive lever 7B>first arrow 1]I
1liII edition in the C direction! The positioning member 10 is the positioning guide J! K! It is attached to the middle part of the lil+ lever 7B. (1st position guide drive lever 7B)
near the side end of i;j IQ/, a power source such as the motor 11
is provided, and several t, I, and drive disks 12 are written on each motor shaft. A guide roller 13 that can be attached to the side end of the front NL'+Mf position guide drive lever 7B is rotatably supported on the back side of the drive disk 12, and this guide roller 13 is connected to the alignment guide drive lever 7B. Sen Δ1.1 part? r - 1 = when pushed down to the bottom
1. As shown in FIG.
The IC coincides with the +i, +i j1 planes of the inclined guide 2 (hereinafter also referred to as this f+7 standby position of the 11'ζ position guide). Front N+E stamp part 5t" 1, front HI
VM! The date of processing, the name of the handler, etc. are stamped on the 7i7-shaped material B of the paper sheet group P, which has been aligned at 10°C and 8111 on the surface of the guide 9. For example, this stamp part 5
, two stamp holder guide shafts 15 are attached to a base (not shown) below the lead n, and are located above the horizontal conveyance belt 15A. A stamp holder 17 to which a stamp 16, for example, a stamp 16, is attached is movably provided on the stamp holder guide shaft 15. A stamp holder bin 1B is protruded from the back side of the stunner holder 17 placed in front of the master.
A stamp drive bin 20 is provided, one end of which is pivoted on a support bin 19 in order to allow it to cool. 10 of the stamp holder bins 18 are listed in the top part 2OA, and the straight line of the stamp holder bin 18 is set in the stamp holder bin 18. A long hole 20B is provided in the middle of the stamp drive bottle 20, into which the 10ξ end of the stamp drive bin 21 is inserted. , the side end of the stamp drive bin 21 is attached to the front elevation 1 of the drive disk 12 (f=J).

The position of the stamp drive bin 21 with respect to the drive disk 12 is #? with respect to the grip position 11'f of the front HCL guide roller 16. IF, t￥1″1
B [, 100 intervals and 1, front H (: When the alignment guide 8 is slightly in the standby position shown in FIG. 1, the stamp holder 17 In this state, in order to output (4), insert the front i;
6 is installed, and this sensor play) 23'?
c detect #-! ft7. ``■The sensor 24 is provided on a base (not shown).

Further, as an arrival detection means for detecting that the paper sheet group P has been fed IQ by the second conveying means 6, for example, an arrival detection sozer 24A and an arrival detection register -/(-24
# and are arranged in the same manner with the horizontal conveyance belt 5Ayt in between. Note that the light emitted from this arrival detection soap-24// is designed to pass through the paper M at a level lower than the upper end surface.It is also conveyed by the front iLi horizontal conveyance belt 3A. For example, a bundle state detection saucer 25 is used as a bundle state detection means for detecting the loquat state of the paper sheets that have arrived.
A and bundle state detection receiver 25rJ are horizontal conveyance bells) 5A? 0 and 1 placed opposite each other in between
12 bundle state (-The light emitted from the output saucer 25A is forced so that it passes through the sheet slightly higher than the upper end surface of the sheet 71f:P, and the sheet 77f' P Th grip If the bundled strip material B peels off and curls up, it will be traced by that part.Although not shown,
Said two saws 24A.

25A and both receivers 247], 25/
Appropriate passage holes are provided in the alignment guide 8 and the like so that J can be received.

Next, the operation of the apparatus of the present invention will be explained with reference to FIGS. 2 and 3.

First, as shown in FIG. 1, a bundle of paper sheets P is conveyed in an oblique manner by the first conveyance means 1. As shown in FIG. At this time, the alignment guide 8 is in the waiting position, and the front tfj! stamp 16 is at the top of the stroke, and the sheet group P is at the bottom conveyor bell.
As the paper sheet 7iY is pushed out from the conveyor belt 1B, it is gradually guided to the inclined guide 2,
' The length along the longitudinal direction of p? When the upper half of the bevel is pushed out, it falls onto the water transport belt 3A by its own claws. As a result of being defeated in this way, a certain amount of magical force acts on the paper leaf group, and as a result of the bundle state detection means described later, V], paper-/1゛≦groupP
′! The VD state R that is stopped is 1-I'ii'' of this degree
This means that strict bundle condition detection is carried out in the sense of whether or not there is a bundling break that can withstand counterfeiting.

Part 1 - The fallen paper sheet group Pk, the horizontal conveyance belt 3
◎During the transportation, 4! from the arrival detection sensors 24, 4! B: The paper leaf 1'l' P is jl, so the arrival detection receiver 24
B outputs the column line 'r, tfii of paper 11°・-Iff P. Upon this detection, the drive of the feed motor 3C is stopped. Then, as shown in Fig. 2, the horizontal conveyor belt 3
When A completely stops l□-V directly fail, the tip of the paper leaf group P goes back 1 to the front hj] Alignment guide 8 is placed; M position f fortune telling J
1. The stop position R of the paper sheet t1e is regulated by contacting the control portion 8A.

Thereafter, the bundle state detection saucer 25A is driven. At this time, when the strip B of the sheet group P is peeled off and turned over, the light emitted from the thin bundle state detection saucer 25A is blocked, and as a result, the bundle state detection receiver 25
Through Bk, abnormalities in the bundled state will be detected. Further, at the same time as this detection, the motor 11 is driven, and the drive disk 12 is rotated in the direction indicated by the arrow fil'1. Then, the guide roller 16 provided on the drive disk 12 comes off from the end of the alignment drive lever (-7B) engaged with it. As a result, the biasing member 10 is attached 1j) Due to the tz force, the alignment guide 8 moves along with the alignment drive lever 71 in the direction shown by the second arrow C.
When the positioning guide 8 is rotated in the direction I (1
Side part 5 of the paper sheet group P where the neck regulating part 8B is stopped on the first side
As shown in FIG.
i ”j Beshi. This process is cool and paper Qi 71
'l'j r' It is to be aligned, and the paper leaf group P is to be stopped at a position +1 +- below the front ML stamp 16. Become. 11 When the motor 11 is driven, the stamp drive bin 21 also rotates together with the drive unit 12, so the stamp drive arm 20
rotates downward by 1.2 degrees around the support bin 19. As a result, the 200 rotational movement of the stamp drive arm is converted into a 1θ41)j downward movement of the stamp holder,
Stamp 1 with +Hy in stamp holder 17
6 gradually approaches paper press 0 group P. Then, when the front H[1 drive disk 12 rotates l','e 18 rJ0, the stamp is stamped on the .111-shaped material H of the sheet group l). When the front hI2 drive disk 12 is rotated in the direction indicated by the 6th [n1] arrow, the stamp holder 17 1 and the front 5
What is Ho: O that rises linearly to IIl, and part 3
The guide r+-:f13 attached to the drive disk 12 in the middle engages with the end of the alignment guide drive lever 7, H, and the alignment guide drive lever 713:front jfL biasing member 10 It resists the biasing force and helps the rotation. When the drive disk 120 rotates further and the alignment guide 8 returns to the standby position shown in FIG. Plate 2 Pregnancy detection 7
, As a result, the drive of the motor 11 is stopped. In this way, the alignment guide 8 and the stamp 16 are returned to the position shown in FIG. 1 again. Then, by driving the front NI2 conveyance motor 3C, one volume of paper sheets P is ejected from the horizontal conveyance belt 6A.

In addition, the 7ζ paper g4 group P, which is not shown in the figure or is removed, is
Based on the detection result by the bundle state detection means, the bundles are separated into good ones and bad ones.

As is clear from the above description, the apparatus of this embodiment can perform both the alignment and stamping of a group of paper sheets using a single drive source, and moreover, it is possible to carry out both the alignment and stamping of a group of paper sheets, and moreover, The stopping position of the sheet group along the direction and the stopping position n in the direction perpendicular to that direction can be carried out by a single positioning guide and a fixed guide, and furthermore, it is possible to control the stopping position of the sheet group. Since the paper leaves are moved one by one on the horizontal conveyance belt, it is possible to contribute to downsizing of the device and energy saving. 'Tun in a bundled state'
After the 4J1 paper sheets have been output from the apparatus of this embodiment, no other processing is required.As mentioned above, the 1,6I output is performed in a strictly bundled state. It is also possible to prevent the processing efficiency from being degraded due to band-like fraying.

Furthermore, the distance iJ between the fixed guide and the alignment guide at the standby position, and the distance 117. Since it is set larger than i, several types of paper sheets with different widths can be used. 7 for f can also be handled in the same way as described in the implementation flJ.

It goes without saying that it can be replaced with another part t( having 4 abilities. Also, in this example, ( zu,
Paper sheets ft'<bundle l-gamma alignment l~ and stamp ゛T.

Explain about the table and 7 tags 1. It is limited to (・), for example, sheet fill reno, packages, etc. 1 'I bundles and Q' 2 Unbundled items, etc. as all items to be stamped ;i, ;a m However, regarding the positioning guide, it is limited to the one in which the positioning is performed by pressing the stamp z1 on the 1llll 1-sided guide with the fixed arrangement Vi: as explained in this example. It is also possible to use a structure in which the patient can be aligned by simply pushing it to a predetermined position using an alignment guide.

〔Effect of the invention〕

As is clear from the above description, the stamping device of the present invention can perform 7 steps of aligning the stamp object and stamping with a simple configuration, thereby reducing the size of the Vi device and saving energy. Excellent effect of being able to move closer and closer 7
has 0

[Brief explanation of the drawing]

2P 1 diagram is from the book! ) is a perspective view showing an embodiment of the stamping device, and FIGS. 2 and 6 are! It is a perspective view for explaining an assistant work. 6... Conveyance member, 8... Alignment guide, 11
... Drive source, 16... Stamp member〇

Claims (2)

[Claims] (1) 31 (31) The conveying part that feeds the seal, and the movable part that controls the position of the stamped object placed on the conveying member (125). An alignment guide, a stamping part (1, i'jlFtj2'J'&, a positioning guide and a stamping part (1), which stamps the stamp object aligned by this alignment guide). Drive i1・X,
l! ： ``r: Seal 4 marked with 4'j sign to have 4
・l;tj, “book” 0 (2) The carrying member described in 11 has a surface on which the stamped object is placed. What can be done is 'r-/I', J' sign 114'π1 Claim 1 Item 1 lit7 Imprinting 4j7 only.
)] l (along the - feeding direction':) position and (h fi7: IfT to)), 'l 1ltll-
J Rocotoo'F&Character 4M *r; i Seishui'rXii IJj12+; 1, ri! li R
i: 4rp print f&.