CN103562105B - The manufacture method of impeller, paper accumulation device and impeller - Google Patents

Abstract

In impeller (52), the inner face of each blade (56) or at least one side of outside are provided with protrusion (57).About circumferentially adjacent a pair blade (56) at matrix part (54), from the axis of matrix part (54), the protrusion (57) of a blade (56) overlaps with another blade (56), and the protrusion (57) of a blade (56) does not contact with another blade (56).

Description

The manufacture method of impeller, paper accumulation device and impeller

Technical field

The present invention relates to the manufacture method of impeller, the paper accumulation device with this impeller and this impeller used when accumulating the paper of bank note etc., especially, relate to the intensity of the original rigidity regardless of paper, can both by remaining on paper that between a pair blade, suppression the is caught manufacture method from the impeller, paper accumulation device and the impeller that fly out mistakenly between these a pair blade with suitable confining force.

Background technology

From in the past, be knownly accumulated in the paper accumulation device in body obtaining the paper to the bank note etc. of inside from the outside of body, the device of impeller was set near the accumulation portion of accumulation paper.Such impeller comprises the matrix part of drum and is arranged to extend from the outer peripheral face of matrix part towards foreign side and at the multiple blades circumferentially configured at equal intervals of matrix part, between a pair circumferentially adjacent blade of matrix part, catch paper.In addition, when the accumulation action carrying out paper, this impeller rotates all the time, catches, a pair interlobate paper afterwards in impeller discharge from this impeller and be accumulated in accumulation portion between a pair adjacent blade of the paper transmitted this accumulation portion from the outside in accumulation portion first impeller.By arranging such impeller, paper can be made to be accumulated in accumulation portion with ordered state.

In addition, from the impeller brought into use in the past, to there is after catching paper between a pair blade in this impeller this paper from before impeller release, paper is from situation about flying out mistakenly between a pair blade.In order to prevent the phenomenon that flies out of such paper, the leading section being used in each blade of impeller arranges the mechanism of the maintenance paper of leaf spring etc., kept the method (for example, referring to patent documentation 1,2) of this paper by the leaf spring of each blade etc. when catching paper between a pair blade in impeller.

But, keep in the method for this paper by the leaf spring of each blade etc. when catching paper between a pair blade in impeller, there is the intensity according to the rigidity of paper and reliably can not keep the situation of paper.That is, there is following situation: the paper too weak due to rigidity bends immediately, be defeated by the application force of the leaf spring arranged at the leading section of each blade, paper not to enter between blade thus can not keep paper.

Prior art document

Patent documentation

Patent documentation 1: No. 2574769th, patent

Patent documentation 2: open clear 52-100792 publication in fact

Summary of the invention

The problem that invention will solve

The present invention considers that such problem completes, its object is to, rigidity is given to this paper when providing one to catch paper between a pair blade, thus the intensity of original rigidity regardless of paper, can both by remaining on paper that between a pair blade, suppression the is caught manufacture method from the impeller, the paper accumulation device with this impeller and the impeller that fly out mistakenly between these a pair blade with suitable confining force.

For solving the means of problem

The feature of impeller of the present invention is, comprising: the matrix part of drum; And multiple blade, be arranged to extend from the outer peripheral face of described matrix part towards foreign side, circumferentially configuring at equal intervals of described matrix part, and paper is caught between a pair circumferentially adjacent blade of described matrix part, the inner face of described each blade or at least one side of outside are provided with protrusion, about a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the described protrusion of a blade overlaps with another blade and the described protrusion of a blade does not contact with another blade.

According to such impeller, the inner face of each blade or at least one side of outside are provided with protrusion, about a pair circumferentially adjacent blade at matrix part, from the axis of matrix part, the protrusion of a blade overlaps with another blade and the protrusion of a blade does not contact with another blade.Therefore, when the paper being sent to impeller is caught between a pair adjacent blade, this paper is bent by the protrusion arranged in inner face or the outside of each blade and is endowed rigidity.Thus, when the rigidity of the paper being sent to impeller is strong and when weak, this paper can both reliably keep between a pair blade, thus, regardless of the intensity of the original rigidity of paper, can both by remaining on paper that between a pair blade, suppression is caught with suitable confining force from situation about flying out mistakenly between these a pair blade.

In impeller of the present invention, also can become symmetrical shape at a pair circumferentially adjacent blade of described matrix part.

Or described each blade also can become same shape.

In impeller of the present invention, also peristome or notch can be provided with in described each blade, about a pair circumferentially adjacent blade at described matrix part, from the normal direction of described matrix part, the described protrusion of a blade is relative with the described peristome of another blade or notch.

Also can become in the impeller of same shape at described each blade, be configured in the position of axially mutually departing from of described matrix part at a pair circumferentially adjacent blade of described matrix part.

In impeller of the present invention, also can in described each blade, on the face of side that described protrusion is not set, the pit part that the described protrusion being provided with adjacent described blade enters.

Now, described protrusion also can be arranged on the inner face of described each blade and described pit part is arranged on the outside of described each blade.

In impeller of the present invention, described blade also can be formed as carrying out elastic deformation.

The feature of impeller of the present invention is, comprising: the matrix part of drum; And multiple blade, be arranged to extend from the outer peripheral face of described matrix part towards foreign side, circumferentially configuring at equal intervals of described matrix part, and paper is caught between a pair circumferentially adjacent blade of described matrix part, about a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the specific part in a blade overlaps with another blade, a described specific part for a blade does not contact with another blade.

According to such impeller, about a pair circumferentially adjacent blade at matrix part, from the axis of matrix part, the specific part in a blade overlaps with another blade, a described specific part for a blade does not contact with another blade.Therefore, when the paper being sent to impeller is caught between a pair adjacent blade, this paper is endowed rigidity by bending in a specific part for a blade.Thus, when the rigidity of the paper being sent to impeller is strong and when weak, this paper can both reliably keep between a pair blade, thus, regardless of the intensity of the original rigidity of paper, the paper caught between a pair blade can both be suppressed from situation about flying out mistakenly between these a pair blade.

In impeller of the present invention, described each blade also can become be integrated with described matrix part.

Or described each blade also detachably can be arranged on the outer peripheral face of described matrix part.

The feature of paper accumulation device of the present invention is, comprising: accumulation portion, accumulation paper; And the above-mentioned impeller arranged in described accumulation portion, from the paper that the outside in described accumulation portion is transmitted this accumulation portion, catch between a pair circumferentially adjacent blade of the described matrix part first in described impeller, a pair interlobate paper afterwards in described impeller discharge from this impeller and be accumulated in described accumulation portion.

The manufacture method of impeller of the present invention is the manufacture method of the impeller that described each blade becomes to be integrated with described matrix part, it is characterized in that, comprising: the step preparing a pair mould being provided with cavity in inside respectively; By making described a pair mould carry out form fit, to the step of the cavity ejection formation material in this pair mould; And by making described a pair mould be separated, obtain the step of the impeller generated by described formed material.

In the manufacture method of impeller of the present invention, also can in the step obtaining the impeller generated by described formed material, obtain following impeller: become symmetrical shape at a pair circumferentially adjacent blade of described matrix part, the inner face of described each blade or at least one side of outside are provided with protrusion, and notch is provided with in described each blade, about a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the described protrusion of a blade overlaps with another blade, and the described protrusion of a blade does not contact with another blade.

Invention effect

According to impeller of the present invention and the paper accumulation device with this impeller, regardless of the intensity of the original rigidity of paper, can both by remaining on paper that between a pair blade, suppression is caught with suitable confining force from situation about flying out mistakenly between these a pair blade.In addition, according to the manufacture method of impeller of the present invention, such impeller can be manufactured.

Accompanying drawing explanation

Fig. 1 is the block diagram of the outward appearance of the bank note treatment device representing one embodiment of the present invention.

Fig. 2 is the summary construction diagram of the structure schematically of the inside representing the bank note treatment device shown in Fig. 1.

Fig. 3 is the controlling party block diagram of the bank note treatment device shown in Fig. 1 and Fig. 2.

Fig. 4 is the integrally-built block diagram of the vane type accumulation mechanism represented in the bank note treatment device shown in Fig. 1 etc.

Fig. 5 is the block diagram of the structure of the impeller represented in the vane type accumulation mechanism shown in Fig. 4.

Fig. 6 (a) is the figure of the first blade arranged the impeller viewed from the normal direction of matrix part shown in Fig. 5 etc., and (b) is the figure of this first blade viewed from the axis of matrix part.

Fig. 7 (a) is the figure of the second blade arranged the impeller viewed from the normal direction of matrix part shown in Fig. 5 etc., and (b) is the figure of this second blade viewed from the axis of matrix part.

Fig. 8 is the figure of the impeller shown in Fig. 5 etc. viewed from the axis of matrix part.

Fig. 9 be represent in a pair impeller as shown in Figure 4 by transmit bank note time state, from the figure seeing impeller above.

Figure 10 is the block diagram of other structures representing the impeller arranged in the bank note treatment device of present embodiment.

Figure 11 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 10.

Figure 12 is the block diagram of other structures again representing the impeller arranged in the bank note treatment device of present embodiment.

Figure 13 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 12.

Figure 14 is the lateral plan of other structures again representing the impeller arranged in the bank note treatment device of present embodiment.

Figure 15 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 14.

Figure 16 is the section-drawing of other structures again representing the impeller arranged in the bank note treatment device of present embodiment.

Figure 17 is the section-drawing of the structure representing the blade arranged in the impeller shown in Figure 16.

Figure 18 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 16, block diagram when (a) is blade viewed from outside, block diagram when (b) is blade viewed from inner side.

Detailed description of the invention

Hereinafter, with reference to the accompanying drawings of one embodiment of the present invention.Fig. 1 to Fig. 9 represents the impeller of present embodiment and has the figure of bank note treatment device of this impeller.Wherein, Fig. 1 is the block diagram of the outward appearance of the bank note treatment device representing present embodiment, and Fig. 2 is the summary construction diagram of the structure schematically of the inside representing the bank note treatment device shown in Fig. 1.In addition, Fig. 3 is the controlling party block diagram of the bank note treatment device shown in Fig. 1 and Fig. 2.In addition, Fig. 4 to Fig. 9 is the figure of the structure representing the impeller arranged in the bank note treatment device shown in Fig. 1 etc.

As shown in Figure 1 and Figure 2, the placement section (holder) 14 that bank note treatment device 10 comprises framework 12, multiple bank note that should carry out counting are placed with lamination state, for the bank note being positioned at the bottom in the multiple bank note placed in placement section 14 is produced one by one the inside of framework 12 feeding unit 16, arrange and the trucking department 18 that the bank note producing the inside of framework 12 by feeding unit 16 is carried one by one in the inside of framework 12.In addition, in trucking department 18, be provided with for carrying out by feeding unit 16 and produce the identification of the bank note of the inside of framework 12 and the identification count section 20 of counting.

Feeding unit 16 has in the multiple bank note abutting to and place with lamination state in placement section 14 and is arranged in the propelling roller 16a on the surface of a bank note of the bottom and is configured at and advances the downstream of roller 16a and the feed roller 16b the produced bank note kicked out of by this propelling roller 16a being carried out to the inside to framework 12 in the direction of producing of bank note.In addition, opposed with feed roller 16b and be provided with reverse roll 16c(door roller), between feed roller 16b and reverse roll 16c, be formed with a portion G.By the trucking department 18 that the bank note advancing roller 16a to kick out of is produced in framework 12 one by one by door portion G.In addition, in the inside of framework 12, the feeding unit driver train 17(of the driving carrying out feeding unit 16 is provided with reference to Fig. 3).

Trucking department 18 is combined by the carry strap of being set up by multiple transport roller and multiple roller, carry out loopy moving, thus bank note is carried by carry strap under the state that clamps bank note between these carry strap and rollers along transport path.In addition, in the inside of framework 12, the trucking department driver train 19(of the driving carrying out trucking department 18 is provided with reference to Fig. 3).

In addition, as mentioned above, in trucking department 18, be provided with for carrying out by feeding unit 16 and produce the identification of the bank note of the inside of framework 12 and the identification count section 20 of counting.More specifically, identify count section 20 carry out the true and false of bank note, complete damage, cash kind etc. identification, whether there is abnormal etc. the identification of the carrying of bank note, and carry out the counting of bank note.

As shown in Figure 2, at the position of side more further downstream than identification count section 20, trucking department 18 branches into two transport path, and the end of downstream side of a transport path is connected to accumulation portion 30, and the end of downstream side of another transport path is connected to rejection portion 40.By identifying that the bank note that count section 20 has carried out identifying and counting optionally is sent to accumulation portion 30 or rejection portion 40.Before accumulation portion 30, (face in the left side in Fig. 2) is provided with opening, and operator can take out the bank note of accumulation in accumulation portion 30 via this opening.In addition, before rejection portion 40, be also provided with opening, operator can take out the bank note of accumulation in rejection portion 40 via this opening.

As shown in Figure 2, the position branching into two transport path in trucking department 18, be provided with the branch 22 be made up of branch components and its drive division (not shown), by this branch 22, the bank note transmitted from the upstream side of this branch 22 is optionally sent to any one transport path two transport path.

In accumulation portion 30, be provided with vane type accumulation mechanism 50 in the position (position on the right side in the accumulation portion 30 of Fig. 2) of the rear side of framework 12.This vane type accumulation mechanism 50 is made up of impeller 52 and its drive division (not shown), impeller 52 by the paper of relative Fig. 2 orthogonal, centered by the axle 51 that extends roughly in the horizontal direction, along anticlockwise direction (direction of arrow in Fig. 2) rotation in Fig. 2.Impeller 52 have drum matrix part 54 and from the outer peripheral face of this matrix part 54 towards multiple blades 56 that the foreign side of the hand of rotation reversing sense (clockwise direction Fig. 2) with impeller 52 extends.These blades 56 are arranged at equal intervals as shown in Figure 2 on the outer peripheral face of matrix part 54, and catch bank note between circumferentially adjacent a pair blade 56 of matrix part 54.

The impeller 52 of vane type accumulation mechanism 50 is in the action of bank note treatment device 10, and rotated towards the anticlockwise direction in Fig. 2 all the time by drive division, bank note is sent to this impeller 52 one by one from trucking department 18.Further, the bank note transmitted from trucking department 18 is caught and the bank note caught between this blade 56 is sent to accumulation portion 30 by impeller 52 between 2 blades 56.Thus, transmit bank note one by one to accumulation portion 30 from impeller 52, in this accumulation portion 30, multiple bank note is with the accumulation of the state of arrangement.

The details of the structure of the impeller 52 in vane type accumulation mechanism 50 describes later.

As shown in Figure 1 and Figure 2, in bank note treatment device 10, be provided with the switch circuit controller 34 for being closed in the opening arranged before accumulation portion 30, by this switch circuit controller 34, the opening before accumulation portion 30 is optionally closed.In addition, in the inside of framework 12, the shutter drive mechanism 35(of the driving carrying out switch circuit controller 34 is provided with reference to Fig. 3).Switch circuit controller 34, by shutter drive mechanism 35, opens keeping out of the way to the below in accumulation portion 30 between the aperture position (dotted line with reference in Fig. 2) of the opening in this accumulation portion 30 and the off position (solid line with reference in Fig. 2) of cutting out the opening before accumulation portion 30 and moves.That is, when switch circuit controller 34 is positioned at aperture position as shown with a dotted line in fig. 2, operator can be accessed in the bank note of accumulation in accumulation portion 30.On the other hand, when switch circuit controller 34 is positioned at the off position as shown in the solid line of Fig. 2, the opening before accumulation portion 30 is closed by switch circuit controller 34, and operator can not be accessed in the bank note of accumulation in accumulation portion 30.

On the other hand, in rejection portion 40, the switch circuit controller of the opening of cutting out before this rejection portion 40 is not set.As shown in Figure 1 and Figure 2, in rejection portion 40, be provided with the bank note arrangement part 42 of pair of right and left, each bank note arrangement part 42 manually can push away to the front of framework 12 (that is, the left in Fig. 2) from the position shown in Fig. 2 by operator.Therefore, the bank note being sent to rejection portion 40 from trucking department 18 is accumulated in rejection portion 40 with the state be arranged by each bank note arrangement part 42.In addition, by being pushed away before framework 12 by each bank note arrangement part 42, operator can take out bank note from rejection portion 40.

In addition, as shown in Figure 1, before framework 12, operation display part 62 is provided with.This operation display part 62 has the display part 62a and multiple operated key 62b that are such as made up of LCD etc.In display part 62a, the treatment situation of bank note of display bank note treatment device 10, more specifically, such as, by identifying the information of the number of each cash kind of the bank note that count section 20 counts or Amount in Total etc.In addition, can push key 62b and provide various instruction to control part 60 described later by operator.

As shown in Figure 2, in the inside of framework 12, be provided with the control part 60 of each structural element for controlling bank note treatment device 10.Use Fig. 3 that the details of the structure of such control part 60 is described.As shown in Figure 3, in control part 60, the feeding unit driver train 17 being connected to the driving carrying out feeding unit 16, carry out trucking department 18 driving trucking department driver train 19, identify the accumulation of count section 20, branch 22, vane type mechanism 50, the shutter drive mechanism 35 carrying out the driving of switch circuit controller 34, operation display part 62 etc.And, identify that recognition result or the count results of the bank note of count section 20 are sent to control part 60, and the move instruction signals such as the accumulation of control part 60 pairs of feeding unit driver trains 17, trucking department driver train 19, branch 22, vane type mechanism 50, shutter drive mechanism 35, operation display part 62 carry out the control of these structural elements.

In addition, as shown in Figure 3, in control part 60, storage part 64 is connected with.In this storage part 64, store the treatment situation of the bank note of such as bank note treatment device 10, more specifically, such as, by identifying the information of the number of each cash kind of the bank note that count section 20 counts or Amount in Total etc.

Then, illustrate by the basic action of the bank note treatment device 10 of such Structure composing.In addition, the action of bank note treatment device 10 shown below controls each structural element of bank note treatment device 10 by control part 60 and carries out.

At first, the bank note that operator should carry out counting is placed in placement section 14 with lamination state.Afterwards, if pass through the operated key 62b(of operator's push display part 62 specifically, " start/stop " key), the instruction of the beginning of the counting of bank note is supplied to control part 60, then the bank note placed with lamination state in placement section 14 produces the trucking department 18 of framework 12 successively one by one from the bank note being positioned at the bottom by feeding unit 16.The bank note being produced the trucking department 18 in framework 12 by feeding unit 16 is handled upside down by this trucking department 18.

Then, the bank note carried by trucking department 18, by identifying that count section 20 carries out identifying and counting, identifies that the recognition result of the bank note of count section 20 is sent to control part 60.In the recognition result of bank note being sent to control part 60, when this bank note is predetermined bank note, this bank note is carried further by trucking department 18 and is sent to accumulation portion 30 by branch 22.Now, bank note is sent to the impeller 52 of vane type accumulation mechanism 50 one by one from trucking department 18, and the bank note transmitted from trucking department 18 is caught and the bank note caught between this blade 56 is sent to accumulation portion 30 by this impeller 52 between 2 blades 56.Thereby, it is possible to bank note is accumulated in accumulation portion 30 with the state be arranged by vane type accumulation mechanism 50.On the other hand, in the recognition result of bank note being sent to control part 60, be not when should be accumulated in the bank note in accumulation portion 30 at this bank note, this bank note is carried further by trucking department 18 and is sent to rejection portion 40 by branch 22.

In addition, during the counting process of bank note carrying out bank note treatment device 10 as above, as shown in the solid line of Fig. 2, the opening before accumulation portion 30 is closed by switch circuit controller 34.And, if the bank note placed in placement section 14 is all sent to accumulation portion 30 or rejection portion 40, the counting process of the bank note of bank note treatment device 10 terminates, then as shown with a dotted line in fig. 2, switch circuit controller 34 moves to retreating position, and the opening before accumulation portion 30 is opened.Thus, operator can take out bank note from accumulation portion 30.In addition, because the opening before rejection portion 40 is always the state opened, so operator by being pushed away before framework 12 by each bank note arrangement part 42, thus can take out bank note from rejection portion 40.

Then, use Fig. 4 to Fig. 9 that the details of the structure of the impeller 52 in vane type accumulation mechanism 50 is described.Fig. 4 is the integrally-built block diagram of the vane type accumulation mechanism 50 represented in the bank note treatment device 10 of present embodiment, and Fig. 5 is the block diagram of the structure of the impeller 52 represented in the vane type accumulation mechanism 50 shown in Fig. 4.In addition, Fig. 6 (a) is the figure of the first blade 56a arranged the impeller 52 viewed from the normal direction of matrix part 54 shown in Fig. 5 etc., and Fig. 6 (b) is the figure of this first blade 56a viewed from the axis of matrix part 54.In addition, Fig. 7 (a) is the figure of the second blade 56b arranged the impeller 52 viewed from the normal direction of matrix part 54 shown in Fig. 5 etc., and Fig. 7 (b) is the figure of this second blade 56b viewed from the axis of matrix part 54.In addition, Fig. 8 to be the figure of the impeller 52 shown in Fig. 5 etc. viewed from the axis of matrix part 54, Fig. 9 be represent state when being transmitted bank note in a pair impeller as shown in Figure 4, from the figure seeing impeller 52 above.

As shown in Figure 4, vane type accumulation mechanism 50 has the impeller 52 of pair of right and left, and these impellers 52 are supported by axle 51 axle.Here, the impeller 52 of pair of right and left becomes same shape.Further, by drive division (not shown) S. A. 51 of vane type accumulation mechanism 50, the impeller 52 of pair of right and left synchronously rotates.

As shown in FIG. 4 and 5, each impeller 52 have drum matrix part 54 and from the outer peripheral face of this matrix part 54 towards the multiple blades 56 extended with the reciprocal foreign side of the hand of rotation of impeller 52.These blades 56 are arranged at equal intervals as shown in Figure 2 on the outer peripheral face of matrix part 54, between circumferentially adjacent a pair blade 56 of matrix part 54, catch bank note.In addition, the center of matrix part 54 is provided with bearing portion 53, by this bearing portion 53, axle 51 is stressed.

Here, as the blade 56 arranged in impeller 52, the first blade 56a as shown in Figure 6 and the second blade 56b as shown in Figure 7 is alternately arranged along the circumferencial direction of matrix part 54.That is, adjacent all the time at the circumferentially first blade 56a of matrix part 54 and the second blade 56b.Therefore, the bank note being sent to impeller 52 from trucking department 18 is caught between the first blade 56a and the second blade 56b, this is sent to accumulation portion 30 by the bank note caught.Here, the first blade 56a and the second blade 56b both can be integrated with matrix part 54 one-tenth, or the first blade 56a and the second blade 56b is detachably arranged on the outer peripheral face of matrix part 54 respectively.In addition, as shown in Fig. 6 (a) and Fig. 7 (a), the first blade 56a and the second blade 56b regards as symmetrical shape from the normal direction of matrix part 54.

In addition, the angle position arranged respectively impeller 52, first blade 56a and the second blade 56b of pair of right and left is as shown in Figure 4 identical.Namely, as shown in Figure 9, the the first blade 56a arranged in an impeller 52 in the impeller 52 of pair of right and left is relative with the first blade 56a arranged in another impeller 52, and the second blade 56b arranged in an impeller 52 is relative with the second blade 56b arranged in another impeller 52.

In addition, the impeller 52 of the pair of right and left in present embodiment is not limited to such mode.Such as, also can about the impeller 52 of pair of right and left, the angle position set by the first blade 56a in an impeller 52 is identical with the angle position set by the second blade 56b in another impeller 52, and the angle position set by the second blade 56b in an impeller 52 is identical with the angle position set by the first blade 56a in another impeller 52.Now, the the first blade 56a arranged in an impeller 52 in the impeller 52 of pair of right and left is relative with the second blade 56b arranged in another impeller 52, and the second blade 56b arranged in an impeller 52 is relative with the first blade 56a arranged in another impeller 52.

In addition, as shown in Fig. 6 and Fig. 7, protrusion 57 is respectively arranged with at the inner face of the first blade 56a and the second blade 56b.In addition, in the first blade 56a and the second blade 56b, notch 58 is respectively arranged with.Here, as shown in Fig. 5 or Fig. 8, about a pair circumferentially adjacent blade 56(at matrix part 54 namely, the first blade 56a and the second blade 56b), from the normal direction of matrix part 54, the protrusion 57 of a blade is relative with the notch 58 of another blade.Specifically, about the first adjacent blade 56a and the second blade 56b, the protrusion 57 of the first blade 56a extends to the notch 58 of the second blade 56b or this notch 58 through and extends, in addition, the protrusion 57 of the second blade 56b extends to the notch 58 of the first blade 56a or this notch 58 through and extends.Therefore, the protrusion 57 of the first blade 56a does not contact the second blade 56b, and in addition, the protrusion 57 of the second blade 56b does not contact the first blade 56a yet.

Thus, about the first adjacent blade 56a and the second blade 56b, as shown in Figure 8, from the axis of matrix part 54, the protrusion 57 of the first blade 56a overlaps with the second blade 56b and the protrusion 57 of the second blade 56b overlaps with the first blade 56a.In addition, about the first adjacent blade 56a and the second blade 56b, from the normal direction of matrix part 54, the protrusion 57 of the first blade 56a is positioned at the scope of the notch 58 of the second blade 56b, and the protrusion 57 of the second blade 56b is positioned at the scope of the notch 58 of the first blade 56a.Therefore, the protrusion 57 of the first blade 56a or the second blade 56b does not contact another blade.

In addition, in the impeller 52 of present embodiment, also can replace arranging protrusion 57 at the inner face of the first blade 56a and the second blade 56b, protrusion 57 is set in the outside of the first blade 56a and the second blade 56b.When protrusion 57 is arranged in the outside of the first blade 56a and the second blade 56b, protrusion 57 is contrary with the position relationship of notch 58, presses the order formation of protrusion 57, notch 58 from matrix part 54 side towards front end.Now, also about circumferentially adjacent a pair blade 56 at matrix part 54, from the normal direction of matrix part 54, the protrusion 57 of a blade is relative with the notch 58 of another blade.

In addition, in the impeller 52 of present embodiment, also can replace arranging notch 58 respectively in the first blade 56a and the second blade 56b, peristome is set.Now, also about the first adjacent blade 56a and the second blade 56b, the protrusion 57 of the first blade 56a extends to the peristome or this peristome through that are formed in the second blade 56b and extends, in addition, the protrusion 57 of the second blade 56b extends to the peristome or this peristome through that are formed in the first blade 56a and extends.

In addition, in the impeller 52 of present embodiment, the first blade 56a and the second blade 56b is formed as carrying out elastic deformation.Specifically, these the first blade 56a and the second blade 56b are formed by the material of the carried out elastic deformation of resin rubber etc., or the first blade 56a and the second blade 56b is arranged in matrix part 54 in the mode can carrying out elastic deformation.

Then, illustrate from trucking department 18 transmit bank note to by such Structure composing vane type accumulate mechanism 50 time action.

As mentioned above, the impeller 52 of vane type accumulation mechanism 50, in the action of bank note treatment device 10, is rotated to the anticlockwise direction in Fig. 2 all the time by drive division.Further, if from trucking department 18 by transmission bank note, then the part of the close end of the left and right of this bank note is caught respectively between the first blade 56a and the second blade 56b of the middle separately setting of the impeller 52 of pair of right and left.Now, about the first adjacent blade 56a and the second blade 56b, protrusion 57 due to the first blade 56a extends to the notch 58 of the second blade 56b or this notch 58 through and extends, in addition, the protrusion 57 of the second blade 56b extends to the notch 58 of the first blade 56a or this notch 58 through and extends, so as shown in Figure 9, the bank note P caught between the first blade 56a and the second blade 56b is bent by protrusion 57, is endowed rigidity.

More specifically illustrate, when the rigidity of the bank note being sent to impeller 52 from trucking department 18 is strong, when catching when between the first blade 56a of this bank note in impeller 52 and the second blade 56b, first blade 56a or the second blade 56b elastic deformation, thus this bank note is firmly held between the first blade 56a and the second blade 56b.Now, this bank note is slight curvature by protrusion 57, is endowed rigidity.

In addition, when the rigidity of the bank note being sent to impeller 52 from trucking department 18 is weak, when catching when between the first blade 56a of this bank note in impeller 52 and the second blade 56b, between these the first blade 56a and the second blade 56b, insert the depths between blade 56a, 56b.Now, this bank note remains between the first blade 56a and the second blade 56b frailly.In addition, now, this bank note is bent significantly by protrusion 57 and is endowed rigidity.

Thus, when the rigidity of the bank note being sent to impeller 52 from trucking department 18 is strong and when weak, this bank note all reliably remains between the first blade 56a and the second blade 56b.

Afterwards, pair of right and left impeller 52 respective in, the bank note caught between the first blade 56a and the second blade 56b abut to accumulation portion 30 bottom surface and from discharging between blade 56a, 56b and being sent to accumulation portion 30.Thus, transmit bank note one by one to accumulation portion 30 from impeller 52, in this accumulation portion 30, multiple bank note accumulates with the state be arranged.

As previously discussed, impeller 52 according to the present embodiment, the inner face of each blade 56 or at least one side of outside are provided with protrusion 57, about at a pair circumferentially adjacent blade 56(first blade 56a of matrix part 54 and the second blade 56b), from the axis of matrix part 54, a blade 56(such as, first blade 56a) protrusion 57 and another blade 56(such as, second blade 56b) overlap (with reference to Fig. 8), and a blade 56(such as, first blade 56a) protrusion 57 and another blade 56(such as, second blade 56b) do not contact (with reference to Fig. 5).Therefore, when being sent to the bank note of impeller 52 at a pair adjacent blade 56(first blade 56a and the second blade 56b) between when catching, this bank note is bending and be endowed rigidity (the bank note P with reference in Fig. 9) by the protrusion 57 that arranges in the inner face or outside of each blade 56.Thus, when the rigidity of the bank note being sent to impeller 52 from trucking department 18 is strong and when weak, this bank note all reliably remains between the first blade 56a and the second blade 56b, thus, regardless of the intensity of the original rigidity of bank note, the bank note caught between a pair blade 56 can both be suppressed from these a pair blade 56(first blade 56a and the second blade 56b) between situation about flying out mistakenly.

In addition, in the impeller 52 of present embodiment, as shown in Fig. 6 (a) and Fig. 7 (a), regard as symmetrical shape from the normal direction of matrix part 54 at circumferentially adjacent a pair blade 56, i.e. the first blade 56a and the second blade 56b of matrix part 54.In addition, now, be respectively arranged with notch 58 or peristome (not shown) in the first blade 56a and the second blade 56b, from the normal direction of matrix part 54, the protrusion 57 of a blade 56 is relative with the notch 58 of another blade 56 or peristome.Therefore, the protrusion 57 that the bank note being sent to impeller 52 extends by extending to notch 58 or peristome or pass-through cuts portion 58 or peristome is reliably bending and be endowed rigidity.

In addition, in the impeller 52 of present embodiment, the first blade 56a or the second blade 56b is formed as carrying out elastic deformation.Therefore, when the rigidity of the bank note being sent to impeller 52 is strong, carry out elastic deformation by the first blade 56a or the second blade 56b, also this bank note reliably can be remained between the first blade 56a and the second blade 56b.

In addition, as the structure of the impeller arranged in bank note treatment device 10, the mode as shown in Fig. 4 to Fig. 9 is not limited to.Below, use Figure 10 and Figure 11 that other modes of the impeller arranged in bank note treatment device 10 are described.Figure 10 is the block diagram of other structures representing the impeller arranged in the bank note treatment device of present embodiment, and Figure 11 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 10.

As shown in Figure 10, the impeller 72 of variation have drum matrix part 74 and from the outer peripheral face of this matrix part 74 towards the multiple blades 76 extended with the reciprocal foreign side of the hand of rotation of impeller 72.Further, between circumferentially adjacent a pair blade 76 of matrix part 74, bank note is caught.Here, the blade 76 arranged in impeller 72 all becomes identical shape, but is configured in the position of axially mutually departing from of matrix part 74 at circumferentially adjacent a pair blade 76 of matrix part 74.That is, time viewed from the normal direction from matrix part 74, adjacent a pair blade 76 does not overlap.In other words, time viewed from the normal direction from matrix part 74, in adjacent a pair blade 76, blade 76 is arranged on the right half area in matrix part 74, and another blade 76 is arranged on the left area in matrix part 74.In addition, the center of matrix part 74 is provided with bearing portion 73, by this bearing portion 73, axle (not shown) is stressed.Further, by drive division (not shown) S. A., impeller 72 also rotates together.

Each blade 76 in the impeller 72 of variation also can be integrated with matrix part 74 one-tenth, or each blade 76 also detachably can be arranged on the outer peripheral face of matrix part 74 respectively.

In addition, as shown in figs.10 and 11, protrusion 77 is respectively arranged with at the inner face of each blade 76.Further, about circumferentially adjacent a pair blade 76 at matrix part 74, from the axis of matrix part 74, the protrusion 77 of a blade 76 overlaps with another blade 76.In addition, about adjacent a pair blade 76, because these blades 76 are configured in the position of axially mutually departing from of matrix part 74, so the protrusion 77 of a blade 76 does not contact with another blade 76.

In addition, protrusion 77 also can be replaced to be arranged on the inner face of each blade 76, and protrusion 77 is arranged on the outside of each blade 76.Now, about circumferentially adjacent a pair blade 76 at matrix part 74, from the axis of matrix part 74, the protrusion 77 of a blade 76 overlaps with another blade 76.

In addition, in the impeller 72 of variation, each blade 76 is formed as carrying out elastic deformation.Specifically, each blade 76 is formed by the material of the carried out elastic deformation of resin rubber etc., or each blade 76 is arranged in matrix part 74 in the mode can carrying out elastic deformation.

If transmit the impeller 72 shown in bank note to Figure 10 and Figure 11 from trucking department 18, then this bank note is caught between adjacent a pair blade 76.Now, about adjacent a pair blade 76, from the axis of matrix part 74, because the protrusion 77 of a blade 76 overlaps with another blade 76, so the bank note caught between a pair blade 76 is bent by protrusion 77 and is endowed rigidity.

More specifically illustrate, when the rigidity of the bank note being sent to impeller 72 from trucking department 18 is strong, when catching when between a pair blade 76 of this bank note in impeller 72, carry out elastic deformation by blade 76, thus this bank note is firmly held between a pair blade 76.Now, this bank note is slight curvature by protrusion 77, is endowed rigidity.

In addition, when the rigidity of the bank note being sent to impeller 72 from trucking department 18 is weak, when catching when between a pair blade 76 of this bank note in impeller 72, between a pair blade 76, this bank note is inserted into deep.Now, this bank note remains between a pair blade 76 frailly.In addition, now, this bank note is significantly bent by protrusion 77 and is endowed rigidity.

Afterwards, the bank note caught between a pair blade 76 in impeller 72 is from discharging between these blades 76 and being sent to accumulation portion 30.Thus, transmit bank note one by one to accumulation portion 30 from impeller 72, in this accumulation portion 30, multiple bank note accumulates with the state be arranged.

As previously discussed, in impeller 72 as shown in figs.10 and 11, also identically with the impeller 52 shown in Fig. 4 to Fig. 9, the inner face of each blade 76 or at least one side of outside are provided with protrusion 77, about circumferentially adjacent a pair blade 76 at matrix part 74, from the axis of matrix part 74, the protrusion 77 of a blade 76 overlaps with another blade 76, and the protrusion 77 of a blade 76 does not contact with another blade 76.Therefore, when the bank note being sent to impeller 72 is caught between adjacent a pair blade 76, this bank note is bent by the protrusion 77 arranged in the inner face or outside of each blade 76 and is endowed rigidity.Thus, when the rigidity of the bank note being sent to impeller 72 from trucking department 18 is strong and when weak, this bank note all reliably remains between a pair blade 76, thus, regardless of the intensity of the original rigidity of bank note, the bank note caught between a pair blade 76 can both be suppressed from situation about flying out mistakenly between these a pair blades 76.

In addition, use Figure 12 and Figure 13 that other the mode again of the impeller arranged in bank note treatment device 10 is described.Figure 12 is the block diagram of other the structure again representing the impeller arranged in the bank note treatment device of present embodiment, and Figure 13 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 12.

As shown in figure 12, the impeller 82 of other variation have drum matrix part 84 and from the outer peripheral face of this matrix part 84 towards the multiple blades 86 extended with the reciprocal foreign side of the hand of rotation of impeller 82.Further, between circumferentially adjacent a pair blade 86 of matrix part 84, bank note is caught.Here, the blade 86 arranged in impeller 82 all becomes identical shape.In addition, the center of matrix part 84 is provided with bearing portion 83, by this bearing portion 83, axle (not shown) is stressed.Further, by drive division (not shown) S. A., impeller 82 also rotates together.

Each blade 86 in the impeller 82 of variation both can be integrated with matrix part 84 one-tenth, or each blade 86 also detachably can be arranged on the outer peripheral face of matrix part 84 respectively.

In addition, as shown in Figure 12 and Figure 13, the inner face of each blade 86 is provided with protrusion 87.In addition, in each blade 86, peristome 88 is provided with.Here, as shown in figure 12, about circumferentially adjacent a pair blade 86 at matrix part 84, from the normal direction of matrix part 84, the protrusion 87 of a blade 86 is relative with the peristome 88 of another blade 86.Specifically, extend to the peristome 88 of another blade 86 or this peristome 88 through about the protrusion 87 of adjacent a pair blade, 86, blade 86 and extend.Therefore, the protrusion 87 of a blade 86 does not contact with another blade 86.

Thus, about adjacent a pair blade 86, from the axis of matrix part 84, the protrusion 87 of a blade 86 overlaps with another blade 86.In addition, about adjacent a pair blade 86, from the normal direction of matrix part 84, the protrusion 87 of a blade 86 is positioned at the scope of the peristome 88 of another blade 86.Therefore, the protrusion 87 of a blade 86 does not contact with another blade 86.

In addition, in the impeller 82 of variation, protrusion 87 also can be replaced to be arranged on the inner face of blade 86, and protrusion 87 is arranged on the outside of blade 86.When protrusion 87 is arranged on the outside of blade 86, protrusion 87 is contrary with the position relationship of peristome 88, forms protrusion 87, peristome 88 from matrix part 84 side towards front end successively.Now, about circumferentially adjacent a pair blade 86 at matrix part 84, from the normal direction of matrix part 84, the protrusion 87 of a blade 86 is relative with the peristome 88 of another blade 86.

In addition, in the impeller 82 of variation, also can replace arranging peristome 88 in each blade 86, notch is set.Now, extend to about the protrusion 87 of adjacent a pair blade, 86, blade 86 notch or this notch through that are formed in another blade 86 and extend.

In addition, in the impeller 82 of variation, each blade 86 is formed as carrying out elastic deformation.Specifically, each blade 86 is formed by the material of the carried out elastic deformation of resin rubber etc., or each blade 86 is arranged in matrix part 84 in the mode can carrying out elastic deformation.

If transmit bank note to the impeller 82 such as shown in Figure 12 and Figure 13 from trucking department 18, then this bank note is caught between adjacent a pair blade 86.Now, about adjacent a pair blade 86, from the axis of matrix part 84, because the protrusion 87 of a blade 86 overlaps with another blade 86, so the bank note caught between a pair blade 86 is bent by protrusion 87 and is endowed rigidity.

More specifically illustrate, when the rigidity of the bank note being sent to impeller 82 from trucking department 18 is strong, when catching when between a pair blade 86 of this bank note in impeller 82, by blade 86 elastic deformation, thus this bank note is firmly held between a pair blade 86.Now, this bank note is endowed rigidity by protrusion 87 slight curvature.

In addition, when the rigidity of the bank note being sent to impeller 82 from trucking department 18 is weak, when catching when between a pair blade 86 of this bank note in impeller 82, between a pair blade 86, this bank note is inserted into deep.Now, this bank note remains between a pair blade 86 frailly.In addition, now, this bank note is significantly bent by protrusion 87 and is endowed rigidity.

Afterwards, the bank note caught between a pair blade 86 in impeller 82 is from discharging between these blades 86 and being sent to accumulation portion 30.Thus, transmit bank note one by one to accumulation portion 30 from impeller 82, in this accumulation portion 30, multiple bank note accumulates with the state be arranged.

As previously discussed, in the impeller 82 such as shown in Figure 12 and Figure 13, also identically with the impeller 52 shown in Fig. 4 to Fig. 9, the inner face of each blade 86 or at least one side of outside are provided with protrusion 87, about circumferentially adjacent a pair blade 86 at matrix part 84, from the axis of matrix part 84, the protrusion 87 of a blade 86 overlaps with another blade 86, and the protrusion 87 of a blade 86 does not contact with another blade 86.Therefore, when the bank note being sent to impeller 82 is caught between adjacent a pair blade 86, this bank note is bent by the protrusion 87 arranged in the inner face or outside of each blade 86 and is endowed rigidity.Thus, when the rigidity of the bank note being sent to impeller 82 from trucking department 18 is strong and when weak, this bank note all reliably remains between a pair blade 86, thus, regardless of the intensity of the original rigidity of bank note, the bank note caught between a pair blade 86 can both be suppressed from situation about flying out mistakenly between these a pair blades 86.

Then, the blade arranged in impeller all becomes other the variation again of identical shape to use Figure 14 and Figure 15 to illustrate.Figure 14 is the lateral plan of other the structure again representing the impeller arranged in the bank note treatment device of present embodiment, and Figure 15 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 14.

As shown in figure 14, then the impeller 92 of other variation have drum matrix part 94 and from the outer peripheral face of this matrix part 94 towards the multiple blades 96 extended with the reciprocal foreign side of the hand of rotation of impeller 92.Further, between circumferentially adjacent a pair blade 96 of matrix part 94, bank note is caught.As mentioned above, the blade 96 arranged in impeller 92 all becomes identical shape.In addition, the center of matrix part 94 is provided with bearing portion 93, by this bearing portion 93, axle (not shown) is stressed.Further, by drive division (not shown) S. A., impeller 92 also rotates together.

Each blade 96 in the impeller 92 of further variation both can be integrated with matrix part 94 one-tenth, or each blade 96 also detachably can be arranged on the outer peripheral face of matrix part 94 respectively.

In the impeller 92 of the further variation such as shown in Figure 14 and Figure 15, in each blade 96, protrusion is not set.But the position near the front end of each blade 96 bends towards the inner side of this blade 96 with V-shape or U-shaped.In Figure 14 and Figure 15, the part that the position near the front end of blade 96 bends towards inner side with V-shape or U-shaped is represented by reference marks 97.In addition, in each blade 96, peristome 98 is provided with.Further, relative with the peristome 98 of another blade 96 as the sweep 97 of the specific part in a blade 96.Specifically, extend to the peristome 98 of another blade 96 or this peristome 98 through about the sweep 97 in adjacent a pair blade, 96, blade 96 and extend.Therefore, the sweep 97 in a blade 96 does not contact with another blade 96.

Thus, about adjacent a pair blade 96, from the axis of matrix part 94, the sweep 97 in a blade 96 overlaps with another blade 96.In addition, about adjacent a pair blade 96, from the normal direction of matrix part 94, the sweep 97 in a blade 96 is positioned at the scope of the peristome 98 of another blade 96.Therefore, sweep 97 does not contact with another blade 96.

In addition, in the impeller 92 of further variation, also can replace arranging peristome 98 in each blade 96, and notch is set.Now, the peristome or this peristome through and extending that are formed in another blade 96 is also extended to about the sweep 97 in adjacent a pair blade, 96, blade 96.

In addition, in the impeller 92 of variation, each blade 96 is formed as carrying out elastic deformation.Specifically, each blade 96 is formed by the material of the carried out elastic deformation of resin rubber etc., or each blade 96 is arranged in matrix part 94 in the mode can carrying out elastic deformation.

If transmit bank note to the impeller 92 such as shown in Figure 14 and Figure 15 from trucking department 18, then this bank note is caught between adjacent a pair blade 96.Now, about adjacent a pair blade 96, from the axis of matrix part 94, because the sweep 97 in a blade 96 overlaps with another blade 96, so the bank note caught between a pair blade 96 is bent by the sweep 97 in a blade 96 and is endowed rigidity.

More specifically illustrate, when the rigidity of the bank note being sent to impeller 92 from trucking department 18 is strong, when catching when between a pair blade 96 of this bank note in impeller 92, by blade 96 elastic deformation, this bank note is firmly held between a pair blade 96.Now, this bank note is endowed rigidity by sweep 97 slight curvature in a blade 96.

In addition, when the rigidity of the bank note being sent to impeller 92 from trucking department 18 is weak, when catching when between a pair blade 96 of this bank note in impeller 92, between a pair blade 96, this bank note is inserted into deep.Now, this bank note remains between a pair blade 96 frailly.In addition, now, this bank note is significantly bent by the sweep 97 in a blade 96 and is endowed rigidity.

Afterwards, the bank note caught between a pair blade 96 in impeller 92 is from discharging between these blades 96 and being sent to accumulation portion 30.Thus, transmit bank note one by one to accumulation portion 30 from impeller 92, in this accumulation portion 30, multiple bank note accumulates with the state be arranged.

As previously discussed, in the impeller 92 such as shown in Figure 14 and Figure 15, also about circumferentially adjacent a pair blade 96 at matrix part 94, from the axis of matrix part 94, sweep 97 as the specific part in a blade 96 overlaps with another blade 96, and the described sweep 97 in a blade 96 does not contact with another blade 76.Therefore, when the bank note being sent to impeller 92 is caught between adjacent a pair blade 96, this bank note is bent by the sweep 97 in each blade 96 and is endowed rigidity.Thus, when the rigidity of the bank note being sent to impeller 92 from trucking department 18 is strong and when weak, this bank note all reliably remains between a pair blade 96, thus, regardless of the intensity of the original rigidity of bank note, the bank note caught between a pair blade 96 can both be suppressed from situation about flying out mistakenly between these a pair blades 96.

Then, use Figure 16 to Figure 18 that other the mode again of the impeller arranged in bank note treatment device 10 is described.Figure 16 is the section-drawing of other the structure again representing the impeller arranged in the bank note treatment device of present embodiment, Figure 17 is the section-drawing of the structure representing the blade arranged in the impeller shown in Figure 16, Figure 18 is the block diagram of the structure representing the blade arranged in the impeller shown in Figure 16, block diagram when () is blade viewed from outside a, block diagram when (b) is blade viewed from inner side.

As shown in figure 16, then the impeller 102 of other variation have drum matrix part 104 and from the outer peripheral face of this matrix part 104 towards the multiple blades 106 extended with the reciprocal foreign side of the hand of rotation of impeller 102.Further, between circumferentially adjacent a pair blade 106 of matrix part 104, bank note is caught.Here, the blade 106 arranged in impeller 102 all becomes identical shape.In addition, the center of matrix part 104 is provided with bearing portion 103, by this bearing portion 103, axle (not shown) is stressed.Further, by drive division (not shown) S. A., impeller 102 also rotates together.

Each blade 106 in the impeller 102 of further variation both can be integrated with matrix part 104 one-tenth, or each blade 106 also detachably can be arranged on the outer peripheral face of matrix part 104 respectively.

In addition, in the impeller 102 of further variation, as shown in Figure 17 or Figure 18 (b), the inner face of each blade 106 is provided with protrusion 107.In addition, as shown in Figure 17 or Figure 18 (a), the outside in the face of in each blade 106, not arrange protrusion 107 side, i.e. each blade 106, is provided with the enterable pit part 108 of protrusion 107 of adjacent blade 106.More specifically, as shown in figure 16, about circumferentially adjacent a pair blade 106 at matrix part 104, from the normal direction of matrix part 104, the protrusion 107 of a blade 106 is relative with the pit part 108 of another blade 106.Further, the protrusion 107 about adjacent a pair blade, 106, blade 106 enters in the pit part 108 of another blade 106.Therefore, the protrusion 107 of a blade 106 does not contact with another blade 106.

Thus, about adjacent a pair blade 106, entered the pit part 108 of another blade 106 by the protrusion 107 of a blade 106, thus from the axis of matrix part 104, the protrusion 107 of a blade 106 overlaps with another blade 106.In addition, the protrusion 107 of a blade 106 does not contact with another blade 106.

In addition, in the impeller 102 of variation, also can replace arranging protrusion 107 at the inner face of blade 106, protrusion 107 is set in the outside of blade 106.When protrusion 107 is arranged on the outside of blade 106, protrusion 107 is contrary with the position relationship of pit part 108, forms protrusion 107, pit part 108 from matrix part 104 side towards front end successively.Now, the pit part 108 of another blade 106 is also entered about the protrusion 107 of circumferentially adjacent a pair blade, 106, the blade 106 at matrix part 104.

In addition, in the impeller 102 of variation, each blade 106 is formed as carrying out elastic deformation.Specifically, each blade 106 is formed by the material of the carried out elastic deformation of resin rubber etc., or each blade 106 is arranged in matrix part 104 in the mode can carrying out elastic deformation.

If transmit bank note to the impeller 102 such as shown in Figure 16 to Figure 18 from trucking department 18, then this bank note is caught between adjacent a pair blade 106.Now, about adjacent a pair blade 106, from the axis of matrix part 104, because the protrusion 107 of a blade 106 overlaps with another blade 106, so the bank note caught between a pair blade 106 is bent by protrusion 107 and is endowed rigidity.

More specifically illustrate, when the rigidity of the bank note being sent to impeller 102 from trucking department 18 is strong, when catching when between a pair blade 106 of this bank note in impeller 102, carry out elastic deformation by blade 106, thus this bank note is firmly held between a pair blade 106.Now, this bank note is slight curvature by protrusion 107, is endowed rigidity.

In addition, when the rigidity of the bank note being sent to impeller 102 from trucking department 18 is weak, when catching when between a pair blade 106 of this bank note in impeller 102, between a pair blade 106, this bank note is inserted into deep.Now, this bank note remains between a pair blade 106 frailly.In addition, now, this bank note is significantly bent by protrusion 107 and is endowed rigidity.

Afterwards, the bank note caught between a pair blade 106 in impeller 102 is from discharging between these blades 106 and being sent to accumulation portion 30.Thus, transmit bank note one by one to accumulation portion 30 from impeller 102, in this accumulation portion 30, multiple bank note accumulates with the state be arranged.

As previously discussed, in the impeller 102 such as shown in Figure 16 to Figure 18, also identically with the impeller 52 shown in Fig. 4 to Fig. 9, the inner face of each blade 106 or at least one side of outside are provided with protrusion 107, about circumferentially adjacent a pair blade 106 at matrix part 104, from the axis of matrix part 104, the protrusion 107 of a blade 106 overlaps with another blade 106, and the protrusion 107 of a blade 106 does not contact with another blade 106.In addition, the face of the side in each blade 106, protrusion 107 is not set, the pit part 108 that the protrusion 107 being provided with adjacent blade 106 enters.Therefore, when the bank note being sent to impeller 102 is caught between adjacent a pair blade 106, this bank note is bent by the protrusion 107 arranged in the inner face or outside of each blade 106 and is endowed rigidity.Thus, when the rigidity of the bank note being sent to impeller 102 from trucking department 18 is strong and when weak, this bank note all reliably remains between a pair blade 106, thus, regardless of the intensity of the original rigidity of bank note, the bank note caught between a pair blade 106 can both be suppressed from situation about flying out mistakenly between these a pair blades 106.

Then, the manufacture method of the impeller of present embodiment is described.As an example of the manufacture method of the impeller of present embodiment, below illustrate in impeller 52 as shown in Figure 5, the manufacture method of the impeller 52 of the type that the first blade 56a and the second blade 56b is integrated with matrix part 54 one-tenth.

First, a pair mould that cavity is set in inside is respectively prepared.Here, the shape of the cavity formed in the inside of a pair mould becomes the shape corresponding with impeller 52 as shown in Figure 5.

Then, a pair mould is made to carry out form fit, to the cavity ejection formation material in this pair mould.As formed material, such as, use the material of the carried out elastic deformation of resin rubber etc.

After to the cavity ejection formation material in a pair mould, cool these moulds and make mold material cures.Afterwards, by making a pair mould be separated, the impeller 52 generated by the formed material that can carry out the material of elastic deformation etc. can be obtained.Specifically, the impeller 52 of such acquisition becomes a pair circumferentially adjacent blade 56a at matrix part 54, the symmetrical shape of 56b, at each blade 56a, the inner face of 56b or at least one side of outside are provided with protrusion 57, and at each blade 56a, notch 58 is provided with in 56b, about a pair circumferentially adjacent blade 56a at matrix part 54, 56b, from the axis of matrix part 54, a blade (such as, first blade 56a) protrusion 57 and another blade (such as, second blade 56b) overlap and a blade (such as, first blade 56a) protrusion 57 and another blade (such as, second blade 56b) do not contact.

In addition, preparing a pair mould that cavity is set in inside respectively, afterwards, a pair mould is made to carry out form fit, to the cavity ejection formation material in this pair mould, then, a pair mould is separated, obtaining in the manufacture method of the impeller of the impeller generated by formed material, except impeller 52 as shown in fig. 5 or the like, also can manufacturing the impeller 72 shown in the various impellers as illustrated in the present embodiment, specifically such as Figure 10 etc.

In addition, in impeller of the present invention and paper accumulation device, handling object is not limited to bank note.As handling object, the paper of other kinds of check etc. can be used.

Claims (14)

1. an impeller, is characterized in that, comprising:

The matrix part of drum; And

Multiple blade, is arranged to extend from the outer peripheral face of described matrix part towards foreign side, circumferentially configuring at equal intervals of described matrix part, and catches paper between a pair circumferentially adjacent blade of described matrix part,

The inner face of described each blade or at least one side of outside are provided with protrusion,

About a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the described protrusion of a blade overlaps with another blade and the described protrusion of a blade does not contact with another blade.

2. impeller as claimed in claim 1, is characterized in that,

Symmetrical shape is become at a pair circumferentially adjacent blade of described matrix part.

3. impeller as claimed in claim 1, is characterized in that,

Described each blade becomes same shape.

4. impeller as claimed in claim 1, is characterized in that,

Described blade-shaped becomes can carry out elastic deformation.

5. the impeller as described in any one of Claims 1-4, is characterized in that,

Peristome or notch is provided with in described each blade, about a pair circumferentially adjacent blade at described matrix part, from the normal direction of described matrix part, the described protrusion of a blade is relative with the described peristome of another blade or notch.

6. impeller as claimed in claim 3, is characterized in that,

The position of axially mutually departing from of described matrix part is configured at a pair circumferentially adjacent blade of described matrix part.

7. impeller as claimed in claim 1, is characterized in that,

On the face of the side in described each blade, described protrusion is not set, the pit part that the described protrusion being provided with adjacent described blade enters.

8. impeller as claimed in claim 7, is characterized in that,

Described protrusion is arranged on the inner face of described each blade and described pit part is arranged on the outside of described each blade.

9. an impeller, is characterized in that, comprising:

The matrix part of drum; And

Multiple blade, is arranged to extend from the outer peripheral face of described matrix part towards foreign side, circumferentially configuring at equal intervals of described matrix part, and catches paper between a pair circumferentially adjacent blade of described matrix part,

About a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the specific part in a blade overlaps with another blade, a described specific part for a blade does not contact with another blade.

10. impeller as claimed in claim 9, is characterized in that,

Described each blade becomes to be integrated with described matrix part.

11. impellers as claimed in claim 9, is characterized in that,

Described each blade is detachably arranged on the outer peripheral face of described matrix part.

12. 1 kinds of paper accumulation devices, is characterized in that, comprising:

Accumulation portion, accumulation paper; And

Impeller described in any one of the claim 1 to 11 arranged in described accumulation portion,

From the paper that the outside in described accumulation portion is transmitted this accumulation portion, catch between a pair circumferentially adjacent blade of the described matrix part first in described impeller, a pair interlobate paper afterwards in described impeller discharge from this impeller and be accumulated in described accumulation portion.

The manufacture method of 13. 1 kinds of impellers according to claim 10, is characterized in that, comprising:

Prepare the step of a pair mould being provided with cavity in inside respectively;

By making described a pair mould carry out form fit, to the step of the cavity ejection formation material in this pair mould; And

By making described a pair mould be separated, obtain the step of the impeller generated by described formed material.

The manufacture method of 14. impellers as claimed in claim 13, is characterized in that,

In the step obtaining the impeller generated by described formed material, obtain following impeller:

Symmetrical shape is become at a pair circumferentially adjacent blade of described matrix part, the inner face of described each blade or at least one side of outside are provided with protrusion, and notch is provided with in described each blade, about a pair circumferentially adjacent blade at described matrix part, from the axis of described matrix part, the described protrusion of a blade overlaps with another blade, and the described protrusion of a blade does not contact with another blade.