CN101209784A - Separating mechanism for paper - Google Patents

Abstract

The present invention provides a paper disengaging mechanism, capable of detecting distorted paper before being collected into a machine. Papers exported one by one from gate roll wheel hub (52) are holded by an elastic component of a conveying roller wheel hub (51) and a first conveying roller (10), and are transmitted to a second conveying roller (11), when the front of the paper is transmitted to the second conveying roller (11), to make the first conveying roller (10) contact to a horniness component of the conveying roller wheel hub to reduce the force for conveying paper and make the distorted paper pass through with inclined state.

Description

Separating mechanism for paper

Technical field

The present invention relates to a kind of separating mechanism for paper that paper classes such as bank note can be separated one by one and derived that is assembled in automatic cash deposit and withdrawal machine or the automatic ticket selling machine etc., particularly relate to a kind of separating mechanism for paper in the paper class that can be detected distortion such as wrinkle before takeing in the machine.

Background technology

According to Figure 10 and Figure 11 explanation separating mechanism for paper in the past, Figure 10 is an instruction diagram of representing the side of separating mechanism for paper formation in the past, and Figure 11 is an instruction diagram of representing the A-A cross section of separating mechanism for paper formation in the past.

In Figure 10, the 100th, separating mechanism for paper, it is assembled in the automatic cash deposit and withdrawal machine etc., is used for paper classes such as bank note, currency certificate, ticket being separated one by one and deriving, and delivers to the inside (hereinafter to be referred as " in the machine ") of automatic cash deposit and withdrawal machine etc.

The 101st, pressing plate, it constitutes and can move under the driving of not shown actuating device, is used to push the paper class P of incorporating section.

The 102nd, outlet roller, it is installed on the S. A. by not shown actuating device driven in rotation, and has: have in a part can derive, the high friction means 103 of the sufficient friction force of conveyance of sheets class.This outlet roller 102 utilizes high friction means 103 that the paper class P that is pushed by pressing plate 101 and contact is derived by the rotation of anticlockwise direction in figure.

The 104th, feed rolls, itself and outlet roller 102 are same, are installed on the S. A. by not shown actuating device driven in rotation, and have: have in a part can derive, the high friction means 105 of the sufficient friction force of conveyance of sheets class.

The 106th, a roller, it is with relative with feed rolls 104, and is connected to less thrust pressure that the mode of its outer peripheral face disposes.On the S. A. of this roller 106, be provided with not shown free-wheel clutch, constitute and in figure, to rotate by anticlockwise direction, and the friction force of 106 pairs of paper classes of door roller P is littler than the friction force of 105 pairs of paper classes of high friction means P.

Therefore, by making feed rolls 104 anticlockwise direction rotation in figure, can the paper class P that be derived by outlet roller 102 be utilized high friction means 105 to separate one by one, and send.

The 107th, paper class guiding parts is the parts that are used to guide the paper class P that is sent by feed rolls 104 grades, forms the paper class and carries the road.This paper class guiding parts 107 is used for the paper class P that sends is directed in the machine.At this, the incorporating section of having taken in paper class P is called " upstream ", calling " downstream " in the machine.

108 is the 1st conveying rollers, and it is with relative with feed rolls 104, and disposes with the mode of its outer peripheral face butt.The 1st conveying roller 108 rotatably is configured in the downstream of a roller 106, separates the paper class P that send by high friction means 105 with door roller 106 with feed rolls 104 clampings of rotation, and downstream transport.

109 is the 2nd conveying rollers, and it is with relative with feed rolls 104, and disposes with the mode of its outer peripheral face butt.The 2nd conveying roller 109 rotatably is configured in the downstream of the 1st conveying roller 108, with the paper class P that transports by feed rolls 104 and the 1st conveying roller 108 of feed rolls 104 clampings of rotation, and downstream transport.

110 is the 1st sensors, and near its paper classes that are set at the 1st conveying roller 108 are carried on the road, is the optical sensor that passes through etc. that is used to detect paper class P.

111 is the 2nd sensors, and its paper class that is set at the 1st sensor 110 downstreams is carried on the road, is the optical sensor that passes through etc. that is used to detect paper class P.

It is a pair of that the relative paper classes with the 2nd sensor 111 of the 1st sensor 110 carry the line of centers on roads respectively to dispose symmetrically, constitutes the diagonal state that can detect the paper class P that is transferred and the length of paper class P.

In Figure 11, the 120th, the feed rolls S. A., it constitutes and can rotate under the driving of not shown actuating device.

The 121st, the feeding wheel hub, it is the roller with the 1st conveying roller 108 and the 2nd conveying roller 109 butts.This feeding wheel hub 121 disposes 3 altogether, and 1 is configured in the paper class and carries on the approximate centre line on road, and 2 with this line of centers balanced configuration in addition.

The 122nd, the trolley hub is the roller with door roller 106 butts.These trolley hub 122 relative paper classes carry the line of centers on road to dispose 2 symmetrically.

Like this, feed rolls 104 is made of feed rolls S. A. 120, feeding wheel hub 121 and trolley hub 122.

The separating mechanism for paper 100 of Gou Chenging by outlet roller 102, feed rolls 104, door roller the 106, the 1st conveying roller the 108, the 2nd conveying roller 109 etc., separates the paper class P of incorporating section one by one, derives, and be transported in the machine like this.

At this moment, sensor at the walking states that monitors paper class P by the 1st sensor 110 and the 2nd sensor 111 etc. etc., detect that the paper class P that is transferred is that the length of diagonal, paper class P is unusual, when the situation of transversion malposition has taken place in the superimposed conveying of paper class P or paper class P, make feed rolls 104 contrarotations such as grade, P turns back to the incorporating section this paper class, to derive action (for example with reference to patent documentation 1) once more.

[patent documentation 1] Japanese kokai publication hei 5-278902 communique (paragraph " 0051 "-paragraph " 0069 ", Fig. 1, Fig. 6).

But, in above-mentioned conventional art, the paper class of the paper class of the folding paper class in end, end bent, the distortion such as paper class of serious wrinkle such as folding or two refoldings by quadruple, under the situation that its diagonal etc. is not detected, can be carried the road to send with bigger carrying capacity to the paper class by the 1st conveying roller, the 2nd conveying roller and feed rolls etc., and be transported in the machine.Therefore, also just there is such problem: in that side of device that receives this paper class, even the paper class that needs the paper class of setting distortion also can carry is carried the road and can be collected the collecting mechanism of this paper class.

In addition, also exist:, carry the easy paper class blocking problem that takes place in the road in the paper class owing to carry the paper class that has become shape.

Summary of the invention

Problem of the present invention is to solve such problem.

Therefore, the invention provides a kind of separating mechanism for paper, have: the paper class that is accommodated in advance in the paper class incorporating section is derived one by one by door running roller hub, carry the paper class of this paper class to carry the road, it is characterized in that, be provided with: the conveying roller wheel hub, it is made of outer peripheral face that forms with elastomeric element and discoideus hard part, this discoideus hard part has the lack part on the part of periphery, and forms periphery except this lack part along the shape of above-mentioned outer peripheral face; The 1st conveying roller, itself and the elastomeric element of above-mentioned conveying roller wheel hub and the hard part butt except the lack part are used for clamping and carry the paper class that is derived by door running roller hub; And the 2nd conveying roller, itself and the elastomeric element butt of above-mentioned conveying roller wheel hub are used for clamping and carry the paper class that is transported by above-mentioned the 1st conveying roller; Utilize the elastomeric element and above-mentioned the 1st conveying roller of above-mentioned conveying roller wheel hub, clamping is also carried the paper class that is derived one by one by door running roller hub, when the front end of this paper class is transported to above-mentioned the 2nd conveying roller, make the hard part butt of above-mentioned the 1st conveying roller and above-mentioned conveying roller wheel hub, weaken the power of conveyance of sheets class.

So the present invention who constitutes can utilize in the paper class and the paper class of distortion and carry the resistance that produces between the road, and make this paper class diagonal, and can utilize sensor to go out the paper class of diagonal, and it is returned paper class incorporating section.Therefore, in that side of device that receives the paper class, do not carry the road and can collect the collecting mechanism of this paper class even do not need to be provided with the paper class that the paper class of distortion also can carry, thereby can obtain to reduce the effect of manufacturing cost.

In addition, can also obtain to make the paper class to carry the obstruction that is not easy to take place the paper class in the road, improve the effect of the operation factor of device.

Description of drawings

Fig. 1 is the instruction diagram of the side of the separating mechanism for paper formation among the expression embodiment 1.

Fig. 2 is the instruction diagram in the B-B cross section of the separating mechanism for paper formation among the expression embodiment 1.

Fig. 3 is the instruction diagram of the structure of the feed rolls among the expression embodiment 1.

Fig. 4 is the feed rolls of expression among the embodiment 1 and the instruction diagram of the relation of the 1st conveying roller and the 2nd conveying roller.

Fig. 5 is the instruction diagram (side) of the conveying action of the paper class among the expression embodiment 1.

Fig. 6 is the instruction diagram (plane) of the conveying action of the paper class among the expression embodiment 1.

Fig. 7 is the instruction diagram of the structure of the feed rolls among the expression embodiment 2.

Fig. 8 is the instruction diagram that the conveying of the paper class of the distortion among the expression embodiment 2 is moved.

Fig. 9 is the instruction diagram that the conveying of the paper class of the diagonal among the expression embodiment 2 is moved.

Figure 10 is an instruction diagram of representing the side of separating mechanism for paper formation in the past.

Figure 11 is an instruction diagram of representing the A-A cross section of separating mechanism for paper formation in the past.

Nomenclature: 1-separating mechanism for paper; The 2-pressing plate; The 3-outlet roller; 4, the high friction means of 6-; The 5-feed rolls; 7-door roller; 8-paper class guiding parts; 9-paper class is carried the road; 10-the 1st conveying roller; 11-the 2nd conveying roller; 12-the 1st sensor; 13-the 2nd sensor; The 50-feed shaft; 51-conveying roller wheel hub; The 511-cylinder part; The 512-flange; The 513-lack part; The 514-elastomeric element; 52-trolley hub

The specific embodiment

Below, with reference to accompanying drawing, the embodiment of separating mechanism for paper of the present invention is described.

[embodiment]

At first, embodiment 1 is described.

Fig. 1 is the instruction diagram of the side of the separating mechanism for paper formation among the expression embodiment 1.

In Fig. 1, the 1st, separating mechanism for paper, it is assembled in automatic cash deposit and withdrawal machine, the automatic ticket selling machine etc., the paper classes such as bank note, currency certificate, ticket that are used for being incorporated in the incorporating section are separated one by one and are derived, and deliver to the inside (hereinafter to be referred as " in the machine ") of automatic cash deposit and withdrawal machine etc.

The 2nd, pressing plate is the plate-shaped member that is used for pushing the paper class P that is incorporated in paper class incorporating section.This pressing plate 2 constitutes and can move under the driving of not shown actuating device, pushes the paper class P of paper class incorporating section, and with outlet roller butt described later.

In addition, this paper class incorporating section for example is position automatic cash deposit and withdrawal machine etc., that accept and take in the paper class P that the user drops into, and is the position of taking in advance by staff's etc. operation to the paper class P of user's distribution.

In addition, in the present embodiment, the situation of taking in paper class P with upright state for bank note containing portion describes.

The 3rd, outlet roller, it is installed on the S. A. by not shown actuating device driven in rotation such as motor, and has: have in a part can derive, the high friction means 4 of the sufficient friction force of conveyance of sheets class.This outlet roller 3 can utilize high friction means 4 that the paper class P that is pushed and contacted by pressing plate 2 is derived by the rotation of anticlockwise direction in figure.

The 5th, feed rolls, itself and outlet roller 3 are same, are installed on the S. A. by not shown actuating device driven in rotation such as motor, and have: have in a part can derive, the high friction means 6 of the sufficient friction force of conveyance of sheets class.

The 7th, a roller, it is with relative with feed rolls 5, is connected to less thrust pressure that the mode of its outer peripheral face disposes.On the S. A. of this roller 7, be provided with not shown free-wheel clutch, constitute and in figure, to rotate by anticlockwise direction, and the friction force of 7 pairs of paper classes of door roller P is littler than the friction force of 6 pairs of paper classes of high friction means P.

Therefore, by making feed rolls 5 anticlockwise direction rotation in figure, can the paper class P that be derived by the high friction means 4 of outlet roller 3 be utilized the high friction means 6 of feed rolls 5 to separate one by one, and send.

In addition, the detailed structure about feed rolls 5 will be explained below.

The 8th, paper class guiding parts is the parts that are used to guide the paper class P that is sent by feed rolls 5 and door roller 7 grades, forms the paper class and carries road 9.The direction (in the machine) that this paper class guiding parts 8 is used for the paper class P that sends is represented to the figure arrow C guides.Like this, paper class P carries the upstream downstream transport on road 9 from the paper class.

10 is the 1st conveying rollers, and it is with relative with feed rolls 5, and disposes with the mode of its outer peripheral face butt.The 1st conveying roller 10 rotatably is configured in the downstream of a roller 7, separates the paper class P that sends with feed rolls 5 clampings of rotation one by one by the high friction means 6 of feed rolls 5 and a roller 7, and downstream transport.

11 is the 2nd conveying rollers, and itself and the 1st conveying roller 10 are same, are with relative with feed rolls 5, and disposes with the mode of its outer peripheral face butt.The 2nd conveying roller 11 rotatably is configured in the downstream of the 1st conveying roller 10, with the paper class P of feed rolls 5 clampings of rotating by feed rolls 5 and 10 conveyings of the 1st conveying roller, and downstream transport.

12 is the 1st sensors, is the optical pickocff that is made of luminous element and photo detector.The 1st sensor 12 is set at the paper class in the downstream of feed rolls 5 and the 1st conveying roller 10 and carries on the road 9, is the sensor that passes through that is used to detect the paper class P that is sent by feed rolls 5 and the 1st conveying roller 10.

13 is the 2nd sensors, is the optical pickocff that is made of luminous element and photo detector.The 2nd sensor 13 is set at the paper class in the downstream of the 1st sensor 12 and carries on the road 9, is the sensor that passes through that is used to detect the paper class P that is sent by feed rolls 5 and the 1st conveying roller 10.

The 1st sensor 12 carries the line of centers on road respectively to dispose a pair of symmetrically with the 2nd sensor 13 relative paper classes, constitute by not shown control part and measure the conducting of the 1st sensor 12 and the 2nd sensor 13 or the time that ends, with the diagonal state that detects the paper class P that is transferred and the length of paper class P.

Below, according to Fig. 2 and Fig. 3, feed rolls 5 being described, Fig. 2 is the instruction diagram in the B-B cross section of the separating mechanism for paper formation among the expression embodiment 1, Fig. 3 is the instruction diagram of the structure of the feed rolls among the expression embodiment 1.

In Fig. 2, the 50th, the feed rolls S. A., it constitutes and can rotate under the driving of not shown actuating devices such as motor.

The 51st, the conveying roller wheel hub, it is installed on the feed rolls S. A. 50, is the roller with the 1st conveying roller 10 and the 2nd conveying roller 11 butts.This conveying roller wheel hub 51 is configured with 3 altogether, and near the central authorities that 1 is configured in feed rolls S. A. 50, that is the paper class carries on the approximate centre line on road 9, and 2 with respect to this line of centers balanced configuration in addition.

The 52nd, the trolley hub, it is installed on the feed rolls S. A. 50, is the roller with door roller 7 butts.These trolley hub 52 relative paper classes carry the line of centers balanced configuration on road 9 to have 2.

Like this, feed rolls 5 is made of feed rolls S. A. 50, conveying roller wheel hub 51 and trolley hub 52.

In Fig. 3 (a), the 511st, cylinder part is the cylindric or columned parts that constitute the central part of feed rolls 5.

The 512nd, flange (hard part) is made of hard resin of the end that is located at cylinder part 511 etc.On this flange 512, and be provided with lack part 513 in the part of periphery.

The 514th, elastomeric element is the cylinder-like part that is made of elastic bodys such as rubber.This elastomeric element 514 by with the cylinder part 511 chimeric outer peripheral faces that form conveying roller wheel hub 51.

The periphery except lack part 513 of flange 512 forms the outer peripheral face that forms along by elastomeric element 514.

Shown in Fig. 3 (b), the outer peripheral face of the conveying roller wheel hub 51 after elastomeric element 514 and cylinder part 511 are chimeric constitutes the outer peripheral face butt with the 1st conveying roller 10 and the 2nd conveying roller 11.

At this, the length that is formed on the lack part 513 on flange 512 peripheries be set to following 2 interval about equally, its point one is meant the point of the 1st conveying roller 10 and conveying roller wheel hub 51 butts, and its point two is meant the point of the 2nd conveying roller 11 and conveying roller wheel hub 51 butts.

In addition, the diameter of flange 512 is set at identical with the diameter of elastomeric element 514, perhaps the diameter than elastomeric element 514 is big.

Fig. 4 is the feed rolls of expression among the embodiment 1 and the instruction diagram of the relation of the 1st conveying roller and the 2nd conveying roller, according to this figure, the position of conveying roller wheel hub 51 and the 1st conveying roller 10 and the 2nd conveying roller 11 butts is described.

Shown in Fig. 4 (a), the 1st conveying roller 10 is configured to flange 512 and elastomeric element 514 butts with conveying roller wheel hub 51, and, the 2nd conveying roller 11 be configured to only with elastomeric element 514 butts of conveying roller wheel hub 51.That is, the 2nd conveying roller 11 is configured to not flange 512 butts with conveying roller wheel hub 51.

The 1st conveying roller 10 constitutes, by with flange 512 butts of conveying roller wheel hub 51, make the power of pushing elastomeric element 514 weaken, thereby the power of clamping and conveyance of sheets class P died down.In this case, 11 of the 2nd conveying rollers constitute, only with elastomeric element 514 butts of conveying roller wheel hub 51, and clamping that the power of its clamping and conveyance of sheets class P is had greater than the 1st conveying roller 10 and the power of conveyance of sheets class P.

In addition, shown in Fig. 4 (b), in the time of near the lack part 513 of flange 512 is positioned at the 1st conveying roller 10, the 1st conveying roller 10 not with flange 512 butts, and only with elastomeric element 514 butts.

Like this, at the 1st conveying roller 10 owing to be located at the former of lack part 513 on the flange 512 thereby during only with elastomeric element 514 butts, 10 of the 1st conveying rollers constitute, because its brute force is pushed elastomeric element 514, so the power of the power of clamping and conveyance of sheets class P greater than the time, thereby constitute the clamping that had with the 2nd conveying roller 11 and the equal intensity of power of conveyance of sheets class P with flange 512 butts.

Therefore, at the 1st conveying roller 10 owing to be located at the former of lack part 513 on the flange 512 thereby only and conveying roller wheel hub 51 during elastomeric element 514 butts and the carrying capacity between the 1st conveying roller 10, and conveying roller wheel hub 51 when elastomeric element 514 butts of the 2nd conveying roller 11 and conveying roller wheel hub 51 and the carrying capacity between the 2nd conveying roller 11 are equal, and stronger than conveying roller wheel hub 51 and the carrying capacity between the 1st conveying roller 10 when flange 512 butts of the 1st conveying roller 10 and conveying roller wheel hub 51.

Separating mechanism for paper 1 is made of outlet roller 3, feed rolls 5, door roller the 7, the 1st conveying roller the 10, the 2nd conveying roller the 11, the 1st sensor the 12, the 2nd sensor 13 etc., can separate derivation to the paper class P of paper class incorporating section one by one, and be transported in the machine.

Below, the effect of above-mentioned formation is described.

Fig. 5 is the instruction diagram (side) of the conveying action of the paper class of expression among the embodiment 1, and Fig. 6 is the instruction diagram (plane) of the conveying action of the paper class among the expression embodiment 1, according to Fig. 5 and Fig. 6, the conveying action of paper class is described.

In addition, for the conveying action of the paper class among the embodiment 1 is described, Fig. 6 has schematically shown paper class incorporating section and the paper class is carried road 9 etc.

In addition, below illustrated action, be according to being stored in program (software) in the memory storages such as not shown memory device or disk, and control by not shown central process unit equal controller.

Under the state of paper class P that pushes by pressing plate 2 and outlet roller 3 butts, in case by not shown actuating device, driving outlet roller 3 shown in Fig. 5 (a) like that rotates to arrow D direction (anticlockwise direction), paper class P then by and high friction means 4 between friction force and derived, its front end be sandwiched in feed rolls 5 trolley hub 52 and the door roller 7 between (Fig. 6 (a)).

At this moment, feed rolls 5 is rotated in the mode that the rotation with outlet roller 3 matches, thereby the front end of paper class P is sandwiched in the leading section of the lack part 513 of the feed rolls 5 of the rotation of the direction shown in the arrow E in figure by not shown control setup.

Shown in Fig. 5 (b), outlet roller 3 is rotated to arrow D direction (anticlockwise direction), and make feed rolls 5 when arrow E direction (anticlockwise direction) is rotated, be sandwiched in the trolley hub 52 of feed rolls 5 and the paper class P of door between the roller 7 by and the high friction means 6 of feed rolls 5 between friction force and derived, its leading section is sandwiched in (Fig. 6 (b) between the conveying roller wheel hub 51 of feed rolls 5 and the 1st conveying roller 10.

At this moment, the front end of the leading section of the lack part 513 of feed rolls 5 and paper class P is in case one be located on the line that the S. A. with feed shaft 50 and the 1st conveying roller 10 links up, will strengthen the power that the 1st conveying roller 10 is pushed conveying roller wheel hub 51, thereby increase being sandwiched in the carrying capacity of the paper class P between the 1st conveying roller 10 and the conveying roller wheel hub 51.

Shown in Fig. 5 (c), further make feed rolls 5 when arrow E direction (anticlockwise direction) is rotated, the paper class P that is sandwiched between the 1st conveying roller 10 and the conveying roller wheel hub 51 carries in the road 9 in the paper class that forms along the circumference of feed rolls 5, crooked on one side, be transferred on one side, its front end is sandwiched between the conveying roller wheel hub 51 and the 2nd conveying roller 11 of feed rolls 5 (Fig. 6 (c)).

At this moment, when the front end of paper class P is sandwiched between the 2nd conveying roller 11 and the conveying roller wheel hub 51, the rearward end of the lack part 513 of feed rolls 5 is positioned on the line that the S. A. with feed shaft 50 and the 1st conveying roller 10 links up, the 1st conveying roller 10 and flange 512 butts, weakened the power of pushing conveying roller wheel hub 51, thereby reduced being sandwiched in the carrying capacity of the paper class P between the 1st conveying roller 10 and the conveying roller wheel hub 51.

Promptly, by the carrying capacity that between the 1st conveying roller 10 and conveying roller wheel hub 51, produces, in a single day the front end of paper class P is transported between the 2nd conveying roller 11 and the conveying roller wheel hub 51, and the 1st conveying roller 10 and conveying roller wheel hub 5 have also just been finished its effect, and reduces the carrying capacity to paper class P.

Shown in Fig. 5 (d), further make feed rolls 5 when arrow E direction (anticlockwise direction) is rotated, the paper class P that is sandwiched between the 2nd conveying roller 11 and the conveying roller wheel hub 51 is transferred (Fig. 6 (d)).

At this moment, because the rearward end of the lack part 513 of feed rolls 5 is left from the line that the S. A. with feed shaft 50 and the 1st conveying roller 10 links up, so the 1st conveying roller 10 and flange 512 butts, present the state that the power of pushing conveying roller wheel hub 51 has weakened, thereby present the state of sening as an envoy to and carrying the power that is sandwiched in paper class P between the 1st conveying roller 10 and the conveying roller wheel hub 51 to reduce.

In addition, carry under the situation that the crooked on one side paper class P that is transferred has on one side taken place to be out of shape in the road 9 in the paper class, the power that is subjected to from paper class guiding parts 8 becomes maximum when the front end of this paper class P is begun to be clipped between the 2nd conveying roller 11 and the conveying roller wheel hub 51, during the power of the conveyance of sheets class P that is produced greater than the 1st conveying roller 10 and conveying roller wheel hub 51 and the 2nd conveying roller 11 and conveying roller wheel hub 51 when the power that is subjected to from paper class guiding parts 8, shown in Fig. 6 (d), the power diagonal of paper class P because of being subjected to from paper class guiding parts 8.

Promptly, carry under the situation that the crooked on one side paper class P that is transferred has on one side taken place to be out of shape in the road 9 in the paper class, the front end of paper class P Once you begin is sandwiched between the 2nd conveying roller 11 and the conveying roller wheel hub 51, and this paper class P is then because of the easy diagonal of the power that is subjected to from paper class guiding parts 8.

By the 1st sensor 12 and/or the 2nd sensor 13, in case when detecting the paper class P of diagonal, then by control setup, the rotation of feed-disabling roller 5 grades, and make its counter-rotating, the paper class P that has become shape is turned back to paper class incorporating section.

As described above, embodiment 1 can obtain following effect, promptly, carry under the situation that the crooked on one side paper class P that is transferred has on one side taken place to be out of shape in the road 9 in the paper class, the power that is subjected to from paper class guiding parts 8 is greater than the 1st conveying roller 10 and conveying roller wheel hub 51, the power of the conveyance of sheets class P that the 2nd conveying roller 11 and conveying roller wheel hub 51 are produced, the power that is subjected to from paper class guiding parts 8 can make paper class P diagonal, can pass through the 1st sensor 12 and/or the 2nd sensor 13 like this, detect the paper class P of this diagonal, and paper class P is turned back to paper class incorporating section.

Therefore, can obtain following effect, that is, receive that side of device of this paper class, not carry the road and can collect the collecting mechanism of this paper class even do not need to be provided with the paper class that the paper class of distortion also can carry, thereby can reduce manufacturing cost.

In addition, can also obtain to carry the obstruction that is not easy to take place the paper class in the road, improve the effect of the operation factor of device in the paper class.

Below, embodiments of the invention 2 are described.

In the formation of embodiment 2, because the structure of feed rolls 5 and embodiment's 1 is different, so the instruction diagram in conjunction with the structure of the feed rolls among the expression embodiment 2 of Fig. 7 describes this different structure.

In addition, though the formation of embodiment 2 is identical with the formation of embodiment 1 shown in Figure 1, here, its whole outer periderm elastomeric element is covered, and do not have the conveying roller wheel hub 51 of this spline structure of flange to describe.

In addition, for the part identical with the above embodiments 1, the symbol that mark is identical, and omit its explanation.

In Fig. 7, the 70th, the feed rolls S. A., it constitutes under the driving of not shown actuating devices such as motor and can be rotated.

The 71st, the conveying roller wheel hub, it is installed on the feed rolls S. A. 70, is the roller with the 1st conveying roller 10 and the 2nd conveying roller 11 butts.This conveying roller wheel hub 71 is near the central authorities of feed rolls S. A. 70, and promptly near the paper class was carried the line of centers on road 9, its line of centers balanced configuration was 2 relatively.

The 72nd, the trolley hub, it is installed on the feed rolls S. A. 70, is the roller with door roller 7 butts.These trolley hub 72 relative paper classes are carried the line of centers symmetry on road 9, and 2 of the outside of conveying roller wheel hub 71 configurations.

In addition, in the present embodiment, although understand the example of 2 of the line of centers balanced configurations on conveying roller wheel hub 71 relative paper classes conveying roads 9, but be not limited to 2, carrying near the line of centers on road 9 so long as be configured in the paper class, also can be more than 3, can also be 1.

Like this, feed rolls 5 is made of feed rolls S. A. 70, conveying roller wheel hub 71 and trolley hub 72.

Below, the effect of above-mentioned formation is described.

Fig. 8 is the instruction diagram that the conveying of the paper class of the distortion among the expression embodiment 2 is moved.

Below, shown in Fig. 8 (a), like that, illustrate that for example the right part of the throughput direction of the paper class P shown in the arrow F has formed the situation that folding paper class P carries among the figure to the paper class P of distortion has taken place in a side.

Under the state of paper class P that pushes by pressing plate 2 and outlet roller 3 butts, in case drive outlet roller 3 rotations by not shown actuating device, paper class P then because of and high friction means 4 between friction force derived, its front end be sandwiched in feed rolls 5 trolley hub 52 and the door roller 7 between.

And, further make outlet roller 3 rotations, and when making feed rolls 5 rotation, be sandwiched in the trolley hub 52 of feed rolls 5 and the paper class P of door between the roller 7 because of and the high friction means 6 of feed rolls 5 between friction force derived, its leading section is sandwiched between the conveying roller wheel hub 51 and the 1st conveying roller 10 of feed rolls 5.

And, when further making feed rolls 5 rotations, shown in Fig. 8 (a), the paper class P that is sandwiched between the 1st conveying roller 10 and the conveying roller wheel hub 51 carries in the road 9 in the paper class that forms along the circumference of feed rolls 5, crooked on one side, be transferred on one side, its front end is sandwiched between the conveying roller wheel hub 51 and the 2nd conveying roller 11 of feed rolls 5.

For the paper class P of shape that carried in the road 9 the crooked change that is transferred on one side in the paper class on one side, the power that is subjected to from paper class guiding parts 8 becomes resistance, and feed rolls the 5, the 1st conveying roller 10 of clamping paper class P and the 2nd conveying roller 11 are to be configured in the paper class to carry near the central part on road 9, so the easy diagonal of paper class P.For example, paper class P like that, presents the diagonal state of going ahead of the rest in the left side of the throughput direction of carrying the paper class P shown in the arrow F shown in Fig. 8 (b).

By the 1st sensor 12 and/or the 2nd sensor 13, in case when detecting the paper class P of diagonal, then by control setup, the rotation of feed-disabling roller 5 grades, and make its counter-rotating, the paper class P that has become shape is turned back to paper class incorporating section.

Fig. 9 is the instruction diagram that the conveying of the paper class of the diagonal among the expression embodiment 2 is moved.

The situation that the paper class P that explanation is derived by diagonal such undeformable paper class P shown in Fig. 9 (a) carries.

Paper class P in be accommodated in paper class incorporating section by diagonal the plate 2 that is pressed is pushed, and with the state of outlet roller 3 butts under, driving by not shown actuating device, when making outlet roller 3 rotations, paper class P because of and high friction means 4 between friction force derived, its leading section be sandwiched in feed rolls 5 trolley hub 52 and the door roller 7 between.

Further make outlet roller 3 rotations, and when making feed rolls 5 rotation, be sandwiched in the trolley hub 52 of feed rolls 5 and the paper class P of door between the roller 7 because of and the high friction means 6 of feed rolls 5 between friction force derived, its front end is sandwiched between the conveying roller wheel hub 51 and the 1st conveying roller 10 of feed rolls 5.

At this moment, because being sandwiched in the conveying roller wheel hub 51 and the paper class P between the 1st conveying roller 10 of feed rolls 5 is configured in the paper class to carry near the central part on road 9, so the diagonal of the paper class P of diagonal is corrected because of the resistance of conveying roller wheel hub 51 and the 1st conveying roller 10.

For example, such shown in Fig. 9 (a), for the throughput direction of the paper class P shown in the arrow F, the left side becomes the paper class P of diagonal state in advance, its left side of going ahead of the rest elder generation and conveying roller wheel hub 51 and the 1st conveying roller 10 butts, right side and conveying roller wheel hub 51 and the 1st conveying roller 10 butts afterwards.Therefore, the left side of the paper class P of elder generation and conveying roller wheel hub 51 and the 1st conveying roller 10 butts is because of the resistance of conveying roller wheel hub 51 and the 1st conveying roller 10, and quilt has been corrected diagonal.

When further making feed rolls 5 rotations, the paper class P that is sandwiched between the 1st conveying roller 10 and the conveying roller wheel hub 51 carries in the road 9 in the paper class that forms along the circumference of feed rolls 5, crooked on one side, be transferred on one side, its front end is sandwiched between the conveying roller wheel hub 51 and the 2nd conveying roller 11 of feed rolls 5, thereby the paper class P that has been corrected diagonal is carried out conveying in paper class conveying road 9.

In addition, though the formation of embodiment 2 is identical with the formation of embodiment shown in Figure 11, here, its whole outer periderm elastomeric element is covered, and do not have the conveying roller wheel hub 51 of this spline structure of flange to be illustrated, but can adopt structure similarly to Example 1 yet with flange 512 and elastomeric element 514 etc.

As described above, embodiment 2 can obtain following effect, promptly, for the paper class P of shape that carried in the road 9 the crooked change that is transferred on one side in the paper class on one side, the power that is subjected to from paper class guiding parts 8 becomes resistance, and the feed rolls 5 of clamping paper class P, the 1st conveying roller 10 and the 2nd conveying roller 11 are to be configured in the paper class to carry near the central part on road 9, so the power (moment) that is subjected to from paper class guiding parts 8 can make it diagonal, can pass through the 1st sensor 12 and/or the 2nd sensor 13 like this, detect the paper class P of this diagonal, and paper class P is turned back to paper class incorporating section.

Therefore, can obtain following effect, that is, that side of device receiving this paper does not need Even the paper that the paper of setting distortion also can be carried is carried the road and can be collected this The collecting mechanism of paper, thus manufacturing cost can be reduced.

In addition, can also obtain to carry the obstruction that is not easy to take place paper in the road at paper, improve The effect of the running rate of device.

Claims (5)

1. separating mechanism for paper has: the paper class that is accommodated in advance in the paper class incorporating section derived one by one by door running roller hub, and carries the paper class of this paper class to carry the road, it is characterized in that,

Be provided with:

The conveying roller wheel hub, it is made of outer peripheral face that utilizes elastomeric element to form and discoideus hard part, and this discoideus hard part has the lack part on the part of periphery, and forms periphery except this lack part along the shape of above-mentioned outer peripheral face;

The 1st conveying roller, itself and the elastomeric element of above-mentioned conveying roller wheel hub and the hard part butt except the lack part are used for clamping and carry the paper class that is derived by door running roller hub; And

The 2nd conveying roller, itself and the elastomeric element butt of above-mentioned conveying roller wheel hub are used for clamping and carry the paper class that is transported by above-mentioned the 1st conveying roller;

Utilize the elastomeric element and above-mentioned the 1st conveying roller of above-mentioned conveying roller wheel hub, clamping is also carried the paper class that is derived one by one by door running roller hub, when the front end of this paper class is transported to above-mentioned the 2nd conveying roller, make the hard part butt of above-mentioned the 1st conveying roller and above-mentioned conveying roller wheel hub, weaken the power of conveyance of sheets class.

2. separating mechanism for paper has: the paper class that is accommodated in advance in the paper class incorporating section derived one by one by door running roller hub, and carries the paper class of this paper class to carry the road, it is characterized in that,

Be provided with:

The conveying roller wheel hub, it has the outer peripheral face that is formed by elastomeric element, and is configured near the line of centers on paper class conveying road;

The 1st conveying roller, itself and above-mentioned conveying roller wheel hub butt are used for clamping and carry the paper class that is derived by door running roller hub; And

The 2nd conveying roller, itself and above-mentioned conveying roller wheel hub butt are used for clamping and carry the paper class that is transported by above-mentioned the 1st conveying roller,

By above-mentioned conveying roller wheel hub, above-mentioned the 1st conveying roller and above-mentioned the 2nd conveying roller, the central portion of the paper class that clamping is derived one by one by door running roller hub is carried.

3. separating mechanism for paper according to claim 1 is characterized in that,

Above-mentioned conveying roller wheel hub is configured in the paper class and carries near the line of centers on road,

By above-mentioned conveying roller wheel hub, above-mentioned the 1st conveying roller and above-mentioned the 2nd conveying roller, the central portion of the paper class that clamping is derived one by one by door running roller hub is carried.

4. according to claim 1,2 or 3 described separating mechanism for paper, it is characterized in that,

Above-mentioned conveying roller wheel hub is installed on the S. A. of running roller hub.

5. according to claim 2,3 or 4 described separating mechanism for paper, it is characterized in that,

Above-mentioned conveying roller wheel hub is configured to the line of centers symmetry that relative paper class is carried the road.

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