This application is the national phase of International Application No. PCT/CN2014/076205, titled “PAPER CURRENCY RECEIVING DEVICE AND HOT WHEEL FLOATING CONTROL DEVICE THEREOF”, filed on Apr. 25, 2014, which claims the benefit of priority to Chinese Patent Application No. 201310292039.0 titled “BANKNOTE RECEIVING DEVICE AND BLADE WHEEL FLOATING CONTROL DEVICE THEREOF”, filed with the Chinese State Intellectual Property Office on Jul. 11, 2013, each of which applications is incorporated herein by reference to the maximum extent allowable by law.
The present application relates to financial equipment, especially to a device using a blade wheel to stack banknotes, and particularly to a banknote receiving device having a blade wheel structure.
A banknote stacking device usually employs a blade wheel structure, in this structure, the blade wheel usually is rotatable around a fixed support shaft, and the rolled banknotes are stacked on a banknote support plate. If the banknote support plate is fixed, the number of the banknotes stacked by the device is limited, that is because, the space cannot be large due to the requirement of implementing an orderly stacking, otherwise, the banknotes will be stacked in disorder. If the banknote support plate is flexibly movable, the number of stacked banknotes may be increased, however the banknote stacking space provided by the flexible structure is still limited. Therefore, it is very necessary to provide a banknote receiving device with a blade wheel structure which has a large banknote stacking space.
For solving the problem that the banknote receiving device with a blade wheel structure has a limited banknote stacking space, a banknote receiving device is provided according to the present application, which can not only stack banknotes orderly, but also maximize the banknote receiving space.
A blade wheel floating control device is further provided according to the present application.
The banknote receiving device includes a supporting frame, configured to mount subsequent components; a pair of roller wheels, located at an inlet of the banknote receiving device and configured to bring in banknotes by clamping; a blade wheel, mounted on the supporting frame via a rotating shaft, the blade wheel being joined with the pair of roller wheels and configured to convey the banknotes delivered from the pair of roller wheels in a way of carrying the banknotes and rotating at a high speed; and a support plate, located below the blade wheel, configured to carry the banknotes delivered from the blade wheel, the support plate being movable up and down under the action of a transmission mechanism to adjust a size of a banknote receiving space. The banknote receiving device further includes a blade wheel floating control device configured to control an upward and downward floating of the blade wheel and to further control the support plate to move downward according to an upward floating degree of the blade wheel to increase the banknote receiving space.
Preferably, the supporting frame includes two lateral plates having the same structure, each of the lateral plates is provided with a waist-shaped hole, and two ends of the rotating shaft are respectively mounted in the waist-shaped holes of the two lateral plates via respective bearings.
Specifically, the blade wheel floating control device includes a coded disc, which is fixed on the rotating shaft, is rotatable synchronously with the blade wheel and floatable up and down with the blade wheel; a sensor, fixed above the coded disc; and a pair of tension springs arranged symmetrically. The coded disc is configured to optionally block a light-transmittable point of the sensor when the coded disc floats up and down with the blade wheel, to allow the sensor to sense the upward floating degree of the blade wheel. Each of the tension springs has an upper end fixed on the respective bearing of the rotating shaft and a lower end fixed on the respective lateral plate of the supporting frame.
Preferably, each of the bearings includes an inner bearing and an outer bearing, the inner bearing is sleeved on the rotating shaft and arranged in the respective waist-shaped hole of the supporting frame, the outer bearing is sleeved on the inner bearing and assembled on the rotating shaft, and is not assembled in the waist-shaped hole of the supporting frame, and the outer bearing is fixed to a small supporting piece, and the small supporting piece is provided with a small hole for hanging the tension spring.
Preferably, an initial position of the coded disc is located at a position 0.7 mm below the light-transmittable point of the sensor.
Preferably, a diameter of a circular arc of the waist-shaped hole is 12 mm, and a distance between the centers of circle at two ends of the waist-shaped hole is 3 mm.
The banknote receiving device further includes a controller configured to receive a signal of the sensor being blocked and control the support plate to move downward by a predetermined distance.
The blade wheel floating control device includes a supporting frame, having two lateral plates having the same structure, each of the lateral plates being provided with a waist-shaped hole; a rotating shaft, two ends of which are respectively mounted in the waist-shaped holes of the two lateral plates of the supporting frame, wherein the rotating shaft is floatable up and down in the waist-shaped holes, and the blade wheel is mounted on the rotating shaft and is rotatable around the rotating shaft at a high speed; a coded disc, which is fixed on the rotating shaft, is rotatable synchronously with the blade wheel and floatable up and down with the rotating shaft; a sensor, fixed above the coded disc, wherein the coded disc is configured to optionally block a light-transmittable point of the sensor when the coded disc floats up and down with the rotating shaft, to allow the sensor to sense an upward floating degree of the blade wheel; and a pair of tension springs arranged symmetrically, each of the tension springs having an upper end fixed on a respective bearing of the rotating shaft and a lower end fixed on the respective lateral plate of the supporting frame.
Preferably, an initial position of the coded disc is located at a position 0.7 mm below the light-transmittable point of the sensor.
Preferably, a diameter of a circular arc of the waist-shaped hole is slightly greater than an outer diameter of an inner bearing, to allow the inner bearing to freely move up and down in the waist-shaped hole; and a distance between the centers of circle at two ends of the waist-shaped hole is 3 mm.
Since the rotating shaft of the blade wheel employed by the present application is assembled in the waist-shaped hole of the supporting frame, the rotating shaft is movable up and down in the waist-shaped hole, therefore the whole blade wheel assembly may be pushed up by the banknotes to float upward during the banknote stacking process, meanwhile due to the tension springs, the blade wheel assembly may reset when not being pushed by the banknotes, therefore a flexible floating of the blade wheel assembly is realized. And under the cooperation control of the sensor, when the blade wheel assembly is pushed up by a certain degree (that is, an edge of the coded disc completely blocks the light-transmittable point of the sensor to make the sensor in a blocked state), the controllable support plate moves downward according to a signal of the sensor being blocked, thereby continuously increasing the banknote stacking space. The distance of the support plate moving downward each time may be controlled, therefore the banknotes can be stacked in order and compactly.
For further illustrating the banknote receiving device according to the present application, the banknote receiving device is further described in conjunction with figures of preferred embodiments of the present application hereinafter.
Reference is made to
Preferably, the supporting frame 9 includes two lateral plates which have the same structure, a waist-shaped hole 91 is provided in each lateral plate, and two ends of the rotating shaft 12 are respectively mounted in the waist-shaped holes 91 of the two lateral plates via a respective bearing 10. In this embodiment, the waist-shaped hole 91 is a shaped hole defining by two overlapping circles, the diameter of each of the two overlapping circles is 12 mm, a distance between centers of the two overlapping circles is 3 mm, that is, the upward and downward movement distance of the rotating shaft 12 in the waist-shaped hole 91 of the supporting frame 9 is 3 mm, and of course, the upward and downward movement distance may be adjusted according to design requirements by those skilled in the art.
Specifically, the blade wheel floating control device includes a coded disc 3, which is fixed on the rotating shaft 12, and can rotate synchronously with the blade wheel 1 and float up and down with the blade wheel 1; a sensor 2 fixed above the coded disc 3; and a pair of tension springs 11 arranged symmetrically. When floating up and down with the blade wheel 1, the coded disc 3 optionally blocks the light-transmittable point of the sensor 2, to allow the sensor 2 to sense the upward floating degree of the blade wheel 1. An upper end of each tension spring 11 is fixed on a small supporting piece of an outer bearing of the rotating shaft 12, and a lower end of each tension spring 11 is fixed on the lateral plate of the supporting frame 9. Besides, the banknote receiving device further includes a controller configured to receive a signal of the sensor 2 being blocked and control the support plate 5 to move downward by a predetermined distance. When the banknotes are stacked, the banknotes will push the blade wheel 1 upward, and the blade wheel 1 may float upward, that is because the rotating shaft 12 is allowed to move upward and downward since the rotating shaft of the blade wheel is mounted in the waist-shaped hole 91. When the blade wheel 1 moves upward, the coded disc arranged on the same shaft with the blade wheel also moves upward; and when the coded disc 3 completely blocks the light-transmittable point of the sensor 2 to make the sensor 2 in a blocked state, the sensor 2 senses that the blade wheel has been pushed up by a certain degree, the controller controls the support plate 5 to move downward by a predetermined distance, and at this time the banknotes 7 moves downward with the support plate 5. Without the pushing of the banknotes 7, the blade wheel 1 returns to a original position under the action of the tension springs 11, thereby realizing the control of the upward and downward floating of the blade wheel 1 and the downward movement of the support plate 5.
Preferably, the bearings include an inner bearing 14 and an outer bearing 10. The inner bearing 14 is sleeved on the rotating shaft 12 and arranged inside the waist-shaped hole 91 of the supporting frame 9. The outer bearing 10 is sleeved on the inner bearing 14 and assembled on the rotating shaft 12, and is fixed to the respective small supporting pieces 15, 16. The outer bearing 10 is not assembled in the waist-shaped hole 91 of the supporting frame 9.
The operation process and principle of the banknote receiving device are described in detail hereinafter. Referring to
The principle of the upward and downward floating of the blade wheel is introduced hereinafter. Referring to
Some key points for realizing the above process is described in detail hereinafter.
Referring to
Referring to
A whole set of blade wheel floating control device is mainly composed of a flexibly floating blade wheel, a sensor 2 for detecting the state of the blade wheel, a coded disc 3, a banknote blocking plate 4 for blocking the banknotes, a support plate 5 which may be controlled to move, other basic components, and some transmission mechanisms which are used for moving the support plate. Since the rotating shaft 12 of the blade wheel 1 employed by the present embodiment is assembled in the waist-shaped hole 91 of the supporting frame 9, the rotating shaft 12 is movable up and down in the waist-shaped hole 91, therefore the whole blade wheel assembly may be pushed up by the banknotes to float upward during the banknote stacking process, meanwhile due to the tension springs 11, the blade wheel assembly may reset when not being pushed by the banknotes, therefore a flexible floating of the blade wheel assembly is realized. And under the cooperation control of the sensor 2, when the blade wheel is pushed up by a certain degree, the coded disc 3 assembled at the same shaft with the blade wheel 1 is also pushed up by a certain degree to move upward to a position blocking the sensor 2, and at this moment, the support plate 5 is controlled by the program to move downward, thereby continuously increasing the banknote stacking space. The distance of the support plate 5 moving downward each time may be controlled, therefore the banknotes can be stacked in order and compactly.
The embodiments described hereinabove are only preferred embodiments of the present application, it should be noted that, the above preferred embodiments should not be interpreted as limitation to the present application, and the scope of the present application should be defined by the claims. For the person skilled in the art, a few of improvements and modifications may be made to the present application without departing from the spirit and scope of the present application, and these improvements and modifications are also deemed to fall into the scope of the present application.
Number | Date | Country | Kind |
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2013 1 0292039 | Jul 2013 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2014/076205 | 4/25/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/003519 | 1/15/2015 | WO | A |
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Entry |
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Written Opinion of the International Searching Authority, dated Aug. 5, 2014, from corresponding International Application No. PCT/CN2014/076205. |
International search report, dated Aug. 5, 2014, from corresponding International Application No. PCT/CN2014/076205. |
Number | Date | Country | |
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20160052742 A1 | Feb 2016 | US |