CN208014065U - A kind of force-note component, ballot box and paper discriminating apparatus - Google Patents

Abstract

The utility model is related to financial document processing technology fields, disclose a kind of force-note component, ballot box and paper discriminating apparatus, force-note component includes the first ticket-pressing plate, shaft, detection lug, drive link, sensor and rack, and the first ticket-pressing plate has the first position of readiness, the first force-note position and the second force-note position；Detection lug is equipped with successively along the circumferential first direction of shaft, and and the first position of readiness corresponding first waits for machine testing in the first detection corresponding with the first force-note position and corresponding with the second force-note position second detects side；Shaft rotation drives drive link to be swung around the shaft along first direction, so that the second end of drive link drives the first ticket-pressing plate to be moved to the first force-note position or the second force-note position by the first position of readiness；When drive link drives the first ticket-pressing plate to be moved to the second force-note position by the first position of readiness, first wait for machine testing in, the first detection, the second detection side coordinate successively with sensor, ensure that ticket intracavitary is deposited in the indentation of various sizes of bill.

Description

A kind of force-note component, ballot box and paper discriminating apparatus

Technical field

The utility model is related to a kind of financial document processing technology field more particularly to force-note component, ballot box and bill mirror Other device.

Background technology

Bill (such as the financial documents such as check, draft) needs to discern the false from the genuine in the process of circulation.Ticket in the related technology Include identification mechanism and ballot box according to identification device, wherein identification mechanism is for obtaining billing information, for judging the true of bill It is pseudo-；Ballot box includes defeated ticket channel, deposits ticket chamber and force-note component, wherein deposits ticket chamber and force-note component is located at defeated ticket channel Both sides, deposit ticket chamber for stack store bill, force-note component for will through differentiate be genuine bill be pressed into deposit ticket intracavitary.

When force-note component carries out force-note operation, the ticket-pressing plate of force-note component, which compresses bill and deforms to enter, deposits ticket chamber In, due to bill size difference (such as：Bill it is of different size) cause ticket-pressing plate to compress bill and enter to deposit in ticket chamber Stroke is different.Bill size is smaller, need ticket-pressing plate extend into deposit ticket chamber stroke it is shorter；Bill size is bigger, needs force-note Plate extend into deposit ticket chamber stroke it is longer.And in currently available technology, the force-note stroke of ticket-pressing plate is fixed, when ticket-pressing plate compresses not With size bill when, effectively the bill of various sizes can not be pressed into and deposited in ticket chamber.

Utility model content

The purpose of this utility model is that propose a kind of force-note component, ballot box and paper discriminating apparatus, it can be by different rulers Very little bill, which is effectively pressed into, to be deposited in ticket chamber, simple in structure, efficient.

For this purpose, the utility model uses following technical scheme：

A kind of force-note component, including：

First ticket-pressing plate has the first position of readiness, the first force-note position and the second force-note position；

Rack, in the rack rotation be provided with shaft, detection lug is provided in the shaft, the detection lug is described in The circumferential first direction of shaft waits for machine testing side and described first equipped with corresponding with first position of readiness first successively Corresponding first detection in force-note position is while second force-note position corresponding second is detected；

Drive link, the first end of the drive link are connect with the shaft, shaft rotation drive the drive link around The shaft is swung along first direction, so that the second end of the drive link drives first ticket-pressing plate standby by described first Position is moved to first force-note position or second force-note position；And

Sensor, the sensor are arranged in the rack, when the drive link drives first ticket-pressing plate by institute When stating the first position of readiness and being moved to the second force-note position, described first wait for machine testing in, first detection, it is described Second detection side coordinates with the sensor successively.

First ticket-pressing plate of the force-note component has the first position of readiness, the first force-note position and the second force-note position, passes Lever is connect with shaft, shaft drive drive link around the shaft along first direction swing so that drive link drive the first ticket-pressing plate by First position of readiness is moved to the first force-note position or the second force-note position, and the first ticket-pressing plate is moved to by the first position of readiness When two force-note positions, first wait for machine testing in, the first detection, the second detection side coordinate successively with sensor, in turn, by the Once waiting for that the cooperation on machine testing side and sensor can easily identify that the first ticket-pressing plate is in the first position of readiness, pass through detection Sensor and first detection while, second detection while engagement process can conveniently identify that the first ticket-pressing plate is in the first force-note Position or the second force-note position ensure that ticket intracavitary is deposited in various sizes of bill indentation.

Further include the second ticket-pressing plate as a kind of preferred embodiment of above-mentioned force-note component, second ticket-pressing plate with it is described First ticket-pressing plate is arranged in the both sides of the rack, second ticket-pressing plate have the second position of readiness, third force-note position and 4th force-note position, the detection lug are equipped with and second position of readiness pair successively along the circumferential second direction of the shaft Second answered waits for that machine testing is corresponding in the detection of, third corresponding with third force-note position and with the 4th force-note position The 4th detection side, wherein described second waits for that machine testing side waits for that machine testing edge first direction is disposed adjacent with described first；Institute Drive link is stated to be swung in a second direction around the shaft to drive second ticket-pressing plate to be moved to by second position of readiness When the 4th force-note position, described second wait for machine testing in the detection of the, third, the 4th detection side successively with it is described Sensor coordinates.

As a kind of preferred embodiment of above-mentioned force-note component, first ticket-pressing plate is moved to by first position of readiness The first stroke when the first force-note position is less than first ticket-pressing plate and is moved to described the by first position of readiness The second stroke when two force-note positions.

As a kind of preferred embodiment of above-mentioned force-note component, the detection lug is sector structure, the side of the sector structure Edge is arranged turnup structure, described first wait for machine testing in, first detection, it is second detection side, described second standby Detection may be contained with the 4th detection side on the turnup structure in the detection of the, third.

As a kind of preferred embodiment of above-mentioned force-note component, standby detection mouth and the first detection are set on the detection lug Mouthful, the standby detection mouth forms described first along the second side of the first direction and waits for machine testing side, first detection Two sides of first direction described in opening's edge be respectively formed it is described first detection while, it is described second detection while.

As a kind of preferred embodiment of above-mentioned force-note component, standby detection mouth, the first detection mouth are set on the detection lug With the second detection mouth, second detection mouth and first detection mouth are symmetrical arranged about the standby detection mouth, described to wait for Two sides of machine testing opening's edge second direction be respectively formed described first wait for machine testing while and described second while machine testing；Institute State the first detection mouth along two sides of first direction be respectively formed it is described first detection while, it is described second detection while；Described Two sides of two detection mouths in a second direction are respectively formed third detection in, the 4th detection.

Further include link assembly as a kind of preferred embodiment of above-mentioned force-note component, the link assembly and described first Ticket-pressing plate is flexibly connected, and the shaft rotation drives the drive link to be swung along the first direction, and the drive link drives institute Stating link assembly drives first ticket-pressing plate to be moved to first force-note position by first position of readiness, or by institute It states the first position of readiness and is moved to second force-note position.

Further include elastic component as a kind of preferred embodiment of above-mentioned force-note component, described elastic component one end and the rack It is connected, the other end is connect with the link assembly or first ticket-pressing plate, and the elastic component is configured to make first force-note Plate has the trend moved to first position of readiness always.

A kind of ballot box, including above-mentioned force-note component.

A kind of paper discriminating apparatus, including above-mentioned ballot box.

The beneficial effects of the utility model：

The utility model proposes force-note component, the first ticket-pressing plate has the first position of readiness, the first force-note position and the Two force-note positions, drive link are connect with shaft, and shaft drives drive link to be swung around the shaft along first direction, so that drive link drives First ticket-pressing plate is moved to the first force-note position by the first position of readiness or the second force-note position, the first ticket-pressing plate are standby by first When position is moved to the second force-note position, first wait for machine testing while, first detection while, second detection side match successively with sensor It closes, in turn, waits for that the cooperation of machine testing side and sensor can easily identify that the first ticket-pressing plate is waited in first by first Seat in the plane is set, by detection sensor with first detection while, second detection while engagement process can conveniently identify the first pressure Ticket plate is in the first force-note position or the second force-note position, ensures that ticket intracavitary is deposited in various sizes of bill indentation.

The utility model proposes ballot box, including above-mentioned force-note component.The ballot box structure can identify and detect first Ticket-pressing plate is moved to the first force-note position by the first position of readiness, or is moved to the second force-note position by the first position of readiness, And then ensure that various sizes of bill is pressed into ballot box.

The utility model proposes paper discriminating apparatus, including above-mentioned ballot box.The paper discriminating apparatus can pass through pressure The multiple force-note positions of ticket component recognition, the normal work of backed bill identification device improve work efficiency.

Description of the drawings

Fig. 1 is the structural schematic diagram of force-note component provided by the utility model；

Fig. 2 is the front view of force-note component provided by the utility model；

Fig. 3 is structural schematic diagram when force-note component provided by the utility model is in position of readiness；

Fig. 4 is front view when force-note component provided by the utility model is in position of readiness；

Fig. 5 is the structural schematic diagram of detection lug provided by the utility model；

Fig. 6 is the structural schematic diagram of detection lug and sensor provided by the utility model；

Fig. 7 is another structural schematic diagram of detection lug provided by the utility model；

Fig. 8 is another structural schematic diagram of detection lug provided by the utility model；

Fig. 9 is the structural schematic diagram of ballot box provided by the utility model；

Figure 10 is the dimensional structure diagram of paper discriminating apparatus provided by the utility model；

Figure 11 is the internal structure schematic diagram of paper discriminating apparatus provided by the utility model；

Figure 12 is the vertical view of paper discriminating apparatus provided by the utility model.

In figure：

1, force-note component；111, the first ticket-pressing plate；112, the second ticket-pressing plate；12, shaft；13, detection lug；131, it first waits for Machine testing side；132, the first detection side；133, the second detection side；134, second machine testing side is waited for；135, third detects side；136, 4th detection side；130, standby detection mouth；137, the first detection mouth；138, the second detection mouth；139, third detection mouth；140, Four detection mouths；14, drive link；15, sensor；16, rack；17, link assembly；18, elastic component；19, motor；2, ticket group is held in the palm Part；

10, ballot box；20, bill passage；30, sweep mechanism；40, printing mechanism；50, deviation correction mechanism；60, radio frequency mechanism； 201, bill entrance.

Specific implementation mode

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

Present embodiment provides a kind of force-note component, and Fig. 1 is the structural schematic diagram of force-note component provided by the utility model； Fig. 2 is the front view of force-note component provided by the utility model；Fig. 3 is that force-note component provided by the utility model is in standby position Structural schematic diagram when setting；Fig. 4 is front view when force-note component provided by the utility model is in position of readiness.

As shown in Figures 1 to 4, force-note component 1 includes the first ticket-pressing plate 111, shaft 12, detection lug 13, drive link 14, passes Sensor 15 and rack 16, wherein the first ticket-pressing plate 111 has the first position of readiness, the first force-note position and the second force-note position； Rotation is provided with shaft 12 in rack 16, and detection lug 13 is provided in shaft 12.

Fig. 5 is the structural schematic diagram of detection lug provided by the utility model；As shown in figure 5, detection lug 13 is along shaft 12 Circumferential first direction waits for machine testing side 131 and the first force-note position pair equipped with corresponding with the first position of readiness first successively The first detection answered is at 132 and the second detection corresponding with the second force-note position 133.In Fig. 5, arrow A pointing directions are the One direction.

As depicted in figs. 1 and 2, the first end with shaft 12 of drive link 14 is connect, and shaft 12 is rotated in a first direction, and is driven Drive link 14 around the shaft 12 axis along first direction swing so that drive link 14 second end drive the first ticket-pressing plate 111 by First position of readiness is moved to the first force-note position or the second force-note position.As shown in Figure 1, sensor 15 is arranged in rack 16 On, when drive link 14 drives the first ticket-pressing plate 111 to be moved to the second force-note position by the first position of readiness, first waits for machine testing When 131, first detects, the 132, second detection side 133 coordinates with sensor 15 successively.In turn, machine testing side is waited for by first 131 can easily identify that the first ticket-pressing plate 111 be in the first position of readiness with the cooperation of sensor 15, pass through detection sensing 133 engagement process when 132 or second are detected can conveniently identify that the first ticket-pressing plate 111 is in device 15 with the first detection First force-note position or the second force-note position ensure that various sizes of bill can be pressed into and deposit ticket intracavitary.

It is rotated as shown in Figure 1, shaft 12 is driven by motor 19, specifically, transmission gear, motor 19 is arranged in shaft 12 Output end fixing sleeve be equipped with gear, which engages with transmission gear, and then the rotation of drive shaft 12.Preferably, it is driven Gear is 45 ° of helical gears, the structure size for reducing force-note component 1 is arranged such so that force-note component 1 can adapt to narrow Installation space.

As shown in Figure 1, Figure 2 and shown in Fig. 5, force-note component 1 further includes the second ticket-pressing plate 112, the second ticket-pressing plate 112 and first pressure Ticket plate 111 is arranged in the both sides of rack 16, and the second ticket-pressing plate 112 has the second position of readiness, third force-note position and the 4th pressure Ticket position, detection lug 13 wait for machine examination equipped with corresponding with the second position of readiness second successively along the circumferential second direction of shaft 12 It surveys when 134 detect with the corresponding third in third force-note position 135 and the corresponding with the 4th force-note position the 4th detects side 136, Wherein, second wait for that machine testing 131 is disposed adjacent while machine testing while 134 with first along first direction；Drive link 14 around the shaft 12 It is swung in a second direction to drive the second ticket-pressing plate 112 to be moved to the 4th force-note position by the second position of readiness, so that second waits for Machine testing the 135, the 4th detection side 136 when 134, third detects coordinates with sensor 15 successively.In Fig. 5, arrow B pointing directions For second direction, second direction is opposite with first direction.

Specifically, the first stroke when the first ticket-pressing plate 111 is moved to the first force-note position by the first position of readiness is less than First ticket-pressing plate 111 is moved to the second stroke when the second force-note position by the first position of readiness；Second ticket-pressing plate 112 is by second Third trip when position of readiness is moved to third force-note position is less than the second ticket-pressing plate 112 and is moved to the by the second position of readiness The fourth line journey of four force-note positions.Preferably, the first stroke and third trip are equal, and the second stroke and fourth line journey are equal.

Specifically, when handling the first bill, when the width dimensions of the bill are the first width, shaft 12 is along first direction Rotation, drive drive link 14 around the shaft 12 axis along first direction swing so that drive link 14 drive the first ticket-pressing plate 111 move It moves to the first force-note position, in the process, the first ticket-pressing plate 111 compresses bill, and ticket is deposited in bill indentation first Intracavitary, the stroke of the first ticket-pressing plate 111 are the first stroke, first wait for machine testing when 131, first detects 132 successively with sensing Device 15 coordinates, and is returned to after compressing such as the first position of readiness in Fig. 3 and Fig. 4；When handling second of bill, the bill Width dimensions be the second width when, shaft 12 is rotated in a first direction, drive drive link 14 around the shaft 12 axis along first party To swing, so that drive link 14 drives the first ticket-pressing plate 111 to be moved to the second force-note position by the first position of readiness, in this process In, the first ticket-pressing plate 111 compresses bill, and ticket intracavitary is deposited in bill indentation first, and the stroke of the first ticket-pressing plate 111 is Second stroke, first wait for machine testing while 131, first detect while 132, second wait for machine testing side 134 successively with sensor 15 coordinate, It is returned to after compressing such as the first position of readiness in Fig. 3 and Fig. 4.Wherein, the first width is less than the second width, the first stroke Less than the second stroke.

When handling the third bill, when the width of the bill is third size, shaft 12 is rotated in a second direction, and is driven and is passed Lever 14 around the shaft 12 axis swing in a second direction so that the second end of drive link 14 drives the second ticket-pressing plate 112 by the Two position of readiness are moved to third force-note position, and in the process, the second ticket-pressing plate 112 compresses bill, by the bill Ticket intracavitary is deposited in indentation second, and the stroke of the second ticket-pressing plate 112 is third trip, and second waits for machine testing when 134, third detects 135 coordinate with sensor 15 successively, are returned to after compressing such as the second position of readiness in Fig. 3 and Fig. 4；When the 4th kind of processing Bill, when the width of the bill is four size, shaft 12 is rotated in a second direction, and rotation drives drive link 14 around the shaft 12 Axis is swung in a second direction, so that drive link 14 drives the second ticket-pressing plate 112 to be moved to the 4th force-note by the second position of readiness Position, in the process, the second ticket-pressing plate 112 compress the bill, and ticket intracavitary, the second pressure are deposited in bill indentation second The stroke of ticket plate 112 be fourth line journey, second wait for machine testing when 134, third detect the 135, the 4th detect side 136 successively with biography Sensor 15 coordinates, and is returned to after compressing such as the second position of readiness in Fig. 3 and Fig. 4.

It should be noted that above-mentioned first stroke can be equal to third trip, the second stroke can be equal to fourth line journey.The A kind of bill, second of bill can be stored in first and deposit ticket intracavitary, the third bill, the 4th kind of bill can be stored in second Deposit ticket intracavitary.

Further, as shown in figure 5, detection lug 13 is sector structure, the edge setting turnup structure of sector structure, first Wait for machine testing when 131, first detects the 132, second detection while 133, second while machine testing 134, third detection side 135 and the Four detection sides 136 may be contained on turnup structure.Detection lug 13 can also be round, rectangular or irregular shape etc..

When force-note component 1 only includes the first ticket-pressing plate 111, the inspection of standby detection mouth 130 and first is set on detection lug 13 Mouth 137 is surveyed, standby detection mouth 130 forms first along the second side of first direction and waits for machine testing side 131, the first detection mouth 137 The first detection is respectively formed when 132, second detects 133 along two sides of first direction.

As shown in figure 5, force-note component 1 includes the first ticket-pressing plate 111 and the second ticket-pressing plate 112, it is arranged on detection lug 13 and waits for Machine testing mouth 130, the first detection mouth 137 and the second detection mouth 138, the second detection mouth 138 and the first detection mouth 137 are about standby Detection mouth 130 is symmetrical arranged, and two sides of standby detection mouth 130 in a second direction are respectively formed first and wait for machine testing side 131 Machine testing side 134 is waited for second；First detection mouth 137 is respectively formed the first detection side 132, along two sides of first direction Two detection sides 133；Two sides of second detection mouth 138 in a second direction are respectively formed third detection when the 135, the 4th detects 136。

Fig. 6 is the structural schematic diagram of detection lug and sensor provided by the utility model, when detection lug 13 rotates, sensing When device 15 coordinates with detection lug 13, sensor 15 exports the first signal, such as high level；Sensor 15 and standby detection mouth 130, the When one detection mouth 137, the cooperation of the second detection mouth 138, sensor 15 exports second signal, such as low level.

When the position relationship of detection lug 13 and sensor 15 is from " sensor 15 and standby detection mouth 130, the first detection mouth 137, the second detection mouth 138 coordinates " it changes to " sensor 15 coordinates with detection lug 13 ", the output of sensor 15 first detection letter Number, first detection signal is the combination signal that second signal becomes the first signal；When the position of detection lug 13 and sensor 15 is closed System changes to " sensor 15 and standby detection mouth 130, the first detection mouth 137, second from " sensor 15 coordinates with detection lug 13 " Detection mouth 138 coordinates " output of sensor 15 second detection signal, first detection signal is the group that second signal becomes the first signal Close signal.

When detection lug 13 turn to first wait for machine testing while 131, second while machine testing the 134, second detection side 133, the When four detection sides 136, sensor 15 exports first detection signal；When detection lug 13 turns to the first detection side 132, third detection When side 135, the output of sensor 15 second detection signal.The change procedure that signal is detected by recording sensor 15 judges the first pressure The position of ticket plate 111 or the second ticket-pressing plate 112.

Specifically, when the first ticket-pressing plate 111, the second ticket-pressing plate 112 compress various sizes of bill, such as：Pressure first When kind bill (size is smaller)：

The rotation of shaft 12 drives drive link 14 to be swung around first direction, so that drive link 14 drives the first ticket-pressing plate 111 to move It is dynamic, when sensor 15 detects successively：When first detection signal, second detect the changing rule of signal, sensor 15 and first Detection side 132 matches, and the first ticket-pressing plate 111 is located at the first force-note position.

The rotation of shaft 12 drives drive link 14 to be swung around second direction, so that drive link 14 drives the second ticket-pressing plate 112 to move It is dynamic, when sensor 15 detects successively：When first detection signal, second detect the changing rule of signal, sensor 15 and third Detection side 135 matches, and the second ticket-pressing plate 112 is located at third force-note position；

When ticket-pressing plate compresses second of bill size (size is larger)：

The rotation of shaft 12 drives drive link 14 to be swung around first direction, so that drive link 14 drives the first ticket-pressing plate 111 to move It is dynamic, when sensor 15 detects successively：First detection signal, second detection signal, first detection signal changing rule when, pass Sensor 15 is matched with the second detection side 133, and the first ticket-pressing plate 111 is located at the second force-note position.

The rotation of shaft 12 drives drive link 14 to be swung around second direction, so that drive link 14 drives the second ticket-pressing plate 112 to move It is dynamic, when sensor 15 detects successively：First detection signal, second detection signal, first detection signal changing rule when, pass Sensor 15 is matched with the 4th detection side 136, and the second ticket-pressing plate 112 is located at the 4th force-note position.

Fig. 7 is another structural schematic diagram of detection lug provided by the utility model, as shown in fig. 7, the on detection lug 13 Two detection sides 133 are provided in detection lug 13 along the edge of first direction not in the first detection mouth 137；4th inspection It surveys side 136 and is not disposed in the second detection mouth 138, and be provided in the edge of detection lug 13 in a second direction.Detect side Position change, the signal rule that detection lug 13 detects will accordingly change.

Fig. 8 is another structural schematic diagram of detection lug provided by the utility model, as shown in figure 8, detection lug 13 is along first Direction sets gradually the first detection mouth 137, third detection mouth 139 by standby detection mouth 130, and the first detection side 132, second is detected Side 133 does not limit and is respectively positioned in the first detection mouth 137, and the first detection side 132 includes along the first circumferential detection mouth of shaft 12 137 two sides, the second detection side 133 include along two sides of the circumferential third detection mouth 139 of shaft 12.Detection lug 13 The second detection mouth 138, the 4th detection mouth 140, the third on detection lug 13 are set gradually by standby detection mouth 130 in a second direction It includes along shaft 12 to detect when 135 include along two sides of the second circumferential detection mouth 138 of shaft 12, the 4th detection 136 Two sides of the 4th circumferential detection mouth 140.The structure of detection lug 13 is different, and the signal rule that sensor 15 detects will It accordingly changes, as long as can judge the first ticket-pressing plate 111 by the changing rule of the detection signal of detection sensor 15 Or second ticket-pressing plate 112 position.

As shown in Figures 1 to 4, force-note component 1 further includes two groups of link assemblies 17, and two groups of link assemblies 17 are arranged in rack 16 both sides, two groups of link assemblies 17 are pivotally connected by drive-connecting shaft and rack 16.One of which link assembly 17 is movably connected in Between one ticket-pressing plate 111 and rack 16, shaft 12 is rotated in a first direction, and drive link 14 is driven to be swung along first direction, to drive Moving the link assembly 17 drives the first ticket-pressing plate 111 to be moved to the first force-note position by the first position of readiness, or is waited for by first Seat in the plane, which is set, is moved to the second force-note position；Another group of link assembly 17 is movably connected between the second ticket-pressing plate 112 and rack 16, Shaft 12 is rotated in a second direction, and drive link 14 is driven to swing in a second direction, to drive the link assembly 17 to drive the second pressure Ticket plate 112 is moved to third force-note position by the second position of readiness, or is moved to the 4th force-note position by the second position of readiness.

As shown in Figure 1, support ticket component 2 further includes two elastic components 18,18 one end of one of elastic component and 16 phase of rack Even, the other end is connected with corresponding link assembly 17 or the first ticket-pressing plate 111, which is configured to make the first ticket-pressing plate 111 have the trend moved to the first position of readiness always；Another 18 one end of elastic component is connected with rack 16, the other end and phase The link assembly 17 or the second ticket-pressing plate 112 answered are connected, which is configured to make the second ticket-pressing plate 112 always to have to the The trend of two position of readiness movement.In the present embodiment, elastic component 18 is tension spring, elastic component 18 and 17 phase of corresponding link assembly Even.

Present embodiment provides a kind of ballot box, and Fig. 9 is the structural schematic diagram of ballot box provided by the utility model, such as Fig. 9 institutes Show, ballot box 10 includes above-mentioned force-note component 1.Specifically, ballot box 10 includes defeated ticket channel, deposits ticket chamber and above-mentioned force-note component 1, it deposits ticket intracavitary and is provided with support ticket component 2, force-note component 1 and deposit the both sides that ticket chamber is located at defeated ticket channel.When the first force-note When plate 111 is moved to the first force-note position or the second force-note position by the first position of readiness, the first ticket-pressing plate 111 passes through defeated ticket Channel, which enters, deposits ticket intracavitary, and is pressed on support ticket component 2, since stroke is not between the first force-note position and the second force-note position Together, the first ticket-pressing plate 111 enters the depth difference for depositing ticket chamber, and then can ensure that the various sizes of bill in defeated ticket channel is equal It can be pressed into and deposit ticket intracavitary.

In the present embodiment, there are two defeated ticket channels and two to deposit ticket chamber for the tool of ballot box 10, and two defeated ticket channel parallel intervals are set It sets, two are deposited the outside that ticket chamber is separately positioned on two defeated ticket channels, and force-note component 1 is located between two defeated ticket channels, and first There are one defeated ticket channels and one to deposit ticket chamber for ticket-pressing plate 111 and the second ticket-pressing plate 112 correspondence.First ticket-pressing plate 111 or the second Ticket-pressing plate 112 can easily deposit the bill indentation in corresponding defeated ticket channel in ticket chamber accordingly, while 1 energy of force-note component The enough identification and detection for quickly and easily completing the position to the first ticket-pressing plate 111 or the second ticket-pressing plate 112.

The present embodiment provides a kind of paper discriminating apparatus, Figure 10 is the solid of paper discriminating apparatus provided by the utility model Structural schematic diagram；Figure 11 is the internal structure schematic diagram of paper discriminating apparatus provided by the utility model；Figure 12 is that this practicality is new The vertical view for the paper discriminating apparatus that type provides, as shown in Figure 10, Figure 11 and Figure 12, paper discriminating apparatus includes above-mentioned ballot box 10。

Specifically, paper discriminating apparatus further includes bill passage 20, sweep mechanism 30, printing mechanism 40, along bill in ticket According to the bill conveying direction in channel 20, sweep mechanism 30, printing mechanism 40 and ballot box 10 are set gradually.Paper discriminating apparatus is also It include the deviation correction mechanism 50 of the deflection for correcting the bill being located in bill passage 20.Paper discriminating apparatus further includes inductothermy apparatus Structure 60, for reading the radio-frequency information on bill, radio frequency mechanism 60 is arranged in deviation correction mechanism 50 and sweep mechanism in the present embodiment Between 30.

Specifically, bill entrance is arranged for conveying bill, the one end of bill passage 20 far from ballot box 10 in bill passage 20 201；Sweep mechanism 30 is used to scan the surface information of the bill in bill passage 20；Printing mechanism 40 is used for positioned at ticket According to printing endorsement information on the surface of the bill in channel 20.

Bill is after identification, and into the defeated ticket channel of ballot box 10, the true bill after discriminating is sent into corresponding by force-note component 1 Ballot box 10 in, paper discriminating apparatus can identify multiple force-note positions by force-note component 1, and backed bill identification device is just Often work, improves work efficiency.

Note that above are only the preferred embodiment of the utility model.It will be appreciated by those skilled in the art that the utility model is not It is limited to specific embodiment described here, various apparent variations can be carried out for a person skilled in the art, readjusted With replacement without departing from the scope of protection of the utility model.Therefore, although being carried out to the utility model by above example It is described in further detail, but the utility model is not limited only to above example, is not departing from the utility model design In the case of, can also include other more equivalent embodiments, and the scope of the utility model is determined by scope of the appended claims It is fixed.

Claims (10)

1. a kind of force-note component, which is characterized in that including：

First ticket-pressing plate (111) has the first position of readiness, the first force-note position and the second force-note position；

Rack (16), on the rack (16) rotation be provided with shaft (12), be provided with detection lug (13) on the shaft (12), The detection lug (13) is equipped with corresponding with first position of readiness successively along the circumferential first direction of the shaft (12) First wait for machine testing while (131), it is corresponding with first force-note position first detection while (132) and with second force-note position Set corresponding second detection side (133)；

The first end of drive link (14), the drive link (14) is connect with the shaft (12), and shaft (12) rotation drives The drive link (14) swings around the shaft (12) along first direction, so that described in the second end driving of the drive link (14) First ticket-pressing plate (111) is moved to first force-note position or second force-note position by first position of readiness；And

Sensor (15), the sensor (15) are arranged in the rack (16), when the drive link (14) driving described the When one ticket-pressing plate (111) is moved to the second force-note position by first position of readiness, described first waits for machine testing side (131), first detection (133) in (132), second detection coordinates with the sensor (15) successively.

2. force-note component according to claim 1, which is characterized in that further include the second ticket-pressing plate (112), second pressure Ticket plate (112) is arranged with first ticket-pressing plate (111) in the both sides of the rack (16), the second ticket-pressing plate (112) tool There are the second position of readiness, third force-note position and the 4th force-note position, circumferential direction of the detection lug (13) along the shaft (12) Second direction successively equipped with corresponding with second position of readiness second wait for machine testing side (134), with the third force-note The corresponding third detection in position is at (135) and the 4th detection corresponding with the 4th force-note position (136), wherein described Second wait for machine testing while (134) with described first while machine testing (131) be disposed adjacent along first direction；The drive link (14) It is swung in a second direction around the shaft (12) to drive second ticket-pressing plate (112) to be moved to by second position of readiness When the 4th force-note position, described second waits for machine testing (135), the 4th detection side in (134), third detection (136) coordinate successively with the sensor (15).

3. force-note component according to claim 1, which is characterized in that first ticket-pressing plate (111) is waited for by described first It is standby by described first less than first ticket-pressing plate (111) that the first stroke when being moved to the first force-note position is set in seat in the plane Position is moved to the second stroke when the second force-note position.

4. force-note component according to claim 2, which is characterized in that the detection lug (13) is sector structure, the fan Turnup structure is arranged in the edge of shape structure, and described first waits for machine testing (132), described second in (131), first detection Detection is when (134), third detection are in (135) and the 4th detection while machine testing for (133), described second (136) It may be contained on the turnup structure.

5. force-note component according to claim 1, which is characterized in that standby detection mouth is arranged on the detection lug (13) (130) it forms described first with the first detection mouth (137), the standby detection mouth (130) along the second side of first direction and waits for Machine testing side (131), first detection mouth (137) are respectively formed first detection along two sides of the first direction In (132), second detection (133).

6. force-note component according to claim 2, which is characterized in that standby detection mouth is arranged on the detection lug (13) (130), the first detection mouth (137) and the second detection mouth (138), second detection mouth (138) and first detection mouth (137) it is symmetrical arranged about the standby detection mouth (130), two sides of the standby detection mouth (130) in a second direction Being respectively formed described first waits for machine testing in (131) and described second while machine testing (134)；First detection mouth (137) First detection is respectively formed in (132), second detection (133) along two sides of first direction；Described second Two sides of detection mouth (138) in a second direction are respectively formed the third detection in (135), the 4th detection (136)。

7. force-note component according to claim 1, which is characterized in that further include link assembly (17), the link assembly (17) it is flexibly connected with first ticket-pressing plate (111), the shaft (12) rotation drives the drive link (14) along described the One direction is swung, and the drive link (14) drives the link assembly (17) to drive first ticket-pressing plate (111) by described the One position of readiness is moved to first force-note position, or is moved to second force-note position by first position of readiness It sets.

8. force-note component according to claim 7, which is characterized in that further include elastic component (18), the elastic component (18) One end is connected with the rack (16), and the other end is connect with the link assembly (17) or first ticket-pressing plate (111), described Elastic component (18) is configured to that first ticket-pressing plate (111) is made to have the trend moved to first position of readiness always.

9. a kind of ballot box, which is characterized in that including the force-note component described in any one of claim 1-8.

10. a kind of paper discriminating apparatus, which is characterized in that including the ballot box described in claim 9.