CN210534893U - Medium transmission adjusting device and self-service financial equipment - Google Patents

Abstract

The utility model discloses a medium transmission adjusting device and self-service financial equipment. The medium transmission adjusting device comprises a transmission channel, and further comprises an offset detection assembly and an adjusting wheel set, wherein the offset detection assembly is configured to detect whether the medium is offset along a first direction in a transmission plane, and the first direction is perpendicular to the conveying direction of the transmission channel; the adjusting wheel set comprises two adjusting wheels which are oppositely arranged, a transmission channel is formed between the two adjusting wheels, the axis of each adjusting wheel extends along the transmission direction of the transmission channel, and the adjusting wheel set is configured to adjust the position of the medium along the first direction according to the detection result. Among this medium transmission adjusting device, whether there is the skew through skew detecting element detection medium along the first direction, if there is the skew then through the rotation of adjustment wheel, the drive medium removes along the first direction, in time adjusts the position of medium in transmission path, avoids the card paper money, is favorable to improving self-service financial equipment's availability factor.

Description

Medium transmission adjusting device and self-service financial equipment

Technical Field

The utility model relates to a self-service financial equipment technical field especially relates to a medium transmission adjusting device and self-service financial equipment.

Background

With the development of science and technology, the application of financial equipment is more and more popularized, and a user can conveniently conduct financial business by self. An automatic teller machine is a common financial device at present, and a storage box for temporarily storing paper money is arranged inside the automatic teller machine so as to meet the requirements of automatic deposit and withdrawal of money of a user.

The transport of banknotes in automated teller machines is generally achieved by the cooperation of belts and drive wheels. The belt inevitably moves left and right in the transmission process, so that paper money moves left and right in the transmission process, and the paper money interferes with the structures on the left and right sides of the transmission channel, so that the problem of paper money clamping occurs, the automatic teller machine needs to be stopped for maintenance after the paper money clamping, and the service efficiency of the automatic teller machine is seriously influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a medium transmission adjusting device can adjust the position about paper currency, avoids blocking the paper money.

To achieve the purpose, the utility model adopts the following technical proposal:

a media transport conditioning device comprising a transport channel, the media transport device further comprising:

a deviation detecting assembly configured to detect whether the medium is deviated in a first direction within a transport plane, the first direction being perpendicular to a transport direction of the transport path; and

the adjusting wheel set comprises two adjusting wheels which are oppositely arranged, the conveying channel is formed between the two adjusting wheels, the axis of each adjusting wheel extends along the conveying direction of the conveying channel, and the adjusting wheel set is configured to adjust the position of the medium along the first direction according to a detection result.

Wherein the deviation detecting assembly includes two first sensors arranged along the first direction, and a distance between the two first sensors is not greater than a dimension of the medium along the first direction.

Wherein the first sensor is a correlation sensor.

Wherein the distance between the two first sensors is adjustable.

Wherein the medium transmission adjusting device further includes:

the first sensor is connected to the rack in a sliding mode along the first direction and is fixed to the rack through a fastener.

The transmission channel comprises a medium incoming area, a regulating area and a medium outgoing area which are sequentially connected, and the detection assembly and the adjusting wheel set are arranged in the regulating area.

Wherein the medium transmission adjusting device further includes:

an in-position detection component configured to detect whether the media enters the conditioning zone.

Wherein the in-position detection assembly is located at a junction of the conditioning zone and the media exit zone.

Wherein the medium transmission adjusting device further includes:

a first transport wheel set disposed at the media infeed area, the first transport wheel set configured to transport the media to the conditioning area; and

a second set of transfer wheels disposed at a junction of the conditioning zone and the media exit zone, the second set of transfer wheels configured to transport the media to the media exit zone.

Another object of the utility model is to provide a self-service financial equipment can adjust the position about paper currency, avoids the card paper money.

To achieve the purpose, the utility model adopts the following technical proposal:

financial self-service equipment comprises the medium transmission adjusting device.

Has the advantages that: the utility model provides a medium transmission adjusting device and self-service financial equipment. Among this medium transmission adjusting device, whether there is the offset along the first direction in transmission path through skew detection component detection medium, if there is the skew then through the rotation of adjustment wheel, the drive medium removes along the first direction, and the position of timely adjustment medium in transmission path avoids the card paper money, is favorable to improving financial self-service equipment's availability factor.

Drawings

FIG. 1 is a schematic structural diagram of a financial self-service device provided by the present invention;

fig. 2 is a top view of the media transport conditioner provided by the present invention;

FIG. 3 is a front view of the structure in the conditioning region of the media transport conditioning apparatus provided by the present invention;

FIG. 4 is a front view of the media transport conditioner of the present invention with the banknotes in the conditioning area shifted to the right;

fig. 5 is a left side view of the medium conveying and adjusting device provided by the present invention.

Wherein:

100. paper currency; 200. a medium introduction area; 300. a regulatory region; 400. a media exit zone;

111. a first upper wheel; 112. a first lower wheel; 121. a second upper wheel; 122. a second lower wheel;

21. a left offset sensor; 211. a left side receiving end; 212. a left side transmitting end; 22. a right offset sensor; 221. a right receiving end; 222. a right side transmitting end;

3. adjusting the wheel set; 31. an upper adjusting wheel; 32. a lower regulating wheel;

41. a left in-place sensor; 411. a receiving end is in place; 412. a transmitting end is in place; 42. a right in-place sensor;

8. an upper machine core; 81. a customer receiving section; 82. a first conveying section; 83. an identification unit; 84. a transmission O part; 85. a temporary storage section; 9. a lower machine core; 91. a second conveying section; 92. a circulating money box; 93. a waste paper money box; 94. a reversing blade.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "secured" are to be construed broadly and encompass, for example, both fixed and removable connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may include the first feature being in direct contact with the second feature, or may include the first feature being in direct contact with the second feature but being in contact with the second feature by another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides a financial self-service device, which includes an upper movement 8 and a lower movement 9. The upper deck 8 includes a customer receiving section 81, a first conveying section 82, an identifying section 83, a transfer O section 84, a buffer section 85, and the like. An upper transmission channel for transmitting media is arranged in the upper core 8, and all parts in the upper core 8 are communicated with each other. The customer receiving section 81 is directly facing the user, and is used for handling transactions such as depositing and withdrawing, and can separate stacked bills 100 into individual bills and convey them to an upper conveyance path or reverse the bills. The recognition unit 83 recognizes the authenticity and type of the bill 100. The temporary storage section 85 temporarily stores the banknotes 100. The first conveying section 82 is used to communicate the customer service section 81, the identification section 83, and the lower deck 9, and the transfer O section 84 is used to communicate the identification section 83, the buffer section 85, and the customer service section 81.

The lower core 9 includes a second conveying portion 91, a circulating money box 92, a waste money box 93, and the like, and a lower transmission channel for transmitting media is provided in the lower core 9 to communicate each component in the lower core 9. The recycle cassette 92 and the waste cassette 93 store banknotes 100 that can be circulated and banknotes 100 that are not suitable for circulation, respectively. The top of the second conveying part 91 is communicated with the first conveying part 82 in the upper machine core 8 through a banknote guide, and the bottom is communicated with a corresponding circulating banknote box 92 or a waste banknote box 93 through each conveying port.

In each of the transfer channels in the upper deck 8 and the lower deck 9, a position where a plurality of channels meet each other is reversed using a reversing blade 94.

The paper money 100 is conveyed between the mechanisms in the upper machine core 8 and the lower machine core 9 through the belt and the transmission wheel, the paper money 100 is easily interfered with the structures on the left side and the right side of the transmission channel due to the left-and-right movement of the belt during conveying, so that the paper money is blocked, the automatic teller machine needs to be stopped for maintenance after the paper money is blocked, and the service efficiency of the automatic teller machine is seriously influenced.

In order to solve the problems, the financial self-service equipment can be provided with a medium transmission adjusting device in the transmission path of the paper money 100, so that the position of the paper money 100 in the transmission channel can be adjusted in time, and the problem of paper money jamming is avoided.

As shown in fig. 2, the media transport adjusting device includes a transport channel, and an offset detecting component and an adjusting wheel set 3 disposed in the transport channel. The offset detection assembly is capable of detecting an offset of the media in a first direction within the transport plane, the first direction being perpendicular to the transport direction of the transport path. Taking the orientation shown in fig. 2 as an example, the banknote 100 is transported from back to front, and correspondingly, the first orientation is a left-right orientation. The adjusting wheel set 3 can adjust the position of the medium along the left and right directions according to the detected offset, so that the paper money is prevented from being jammed.

Specifically, the medium transport adjusting device includes a transport channel, which may include a medium entrance zone 200, an adjusting zone 300, and a medium exit zone 400 connected in sequence along a transport direction. The media infeed area 200 communicates with the inlet of the media transport conditioner and the media outfeed area 400 communicates with the outlet of the media transport conditioner. The paper money 100 enters the adjusting area 300 through the medium introducing area 200, and the deviation detecting component and the adjusting wheel set 3 are arranged in the adjusting area 300. After the left and right positions of the paper money 100 are adjusted in the adjusting area 300 to ensure that the paper money 100 is at the middle position of the transmission channel, the paper money 100 is transmitted into the medium transmitting area 400 and is transmitted out of the medium transmission adjusting device through an outlet communicated with the medium transmitting area 400.

As shown in fig. 3, the deviation detecting assembly includes two first sensors arranged in a first direction, and a distance between the two first sensors is equal to a size of the bill 100 in the first direction. For convenience of description, the first sensor located at the left side of the bill 100 is a left-side offset sensor 21, and the first sensor located at the right side of the bill 100 is a right-side offset sensor 22. When the position of the paper money 100 in the transmission channel is accurate and does not deviate left and right, both left and right ends of the paper money 100 can be detected by the corresponding first sensors. If the bill 100 is shifted in the right and left directions in the conveyance path, as shown in fig. 4, the bill 100 is shifted in the right direction, and the left-side shift sensor 21 located on the left side cannot detect the bill 100. Through setting up two first sensors along first direction range, can detect whether skew about the paper currency 100 appears, also can detect paper currency 100 specifically to which direction skew, conveniently adjust wheelset 3 and adjust the paper currency 100 position.

Optionally, the first sensor is a correlation sensor. The first sensor includes an emitting end and a receiving end, which are disposed opposite to each other, and the paper money 100 can be transferred between the receiving end and the emitting end. As shown in fig. 3, the left end of the banknote 100 blocks the signal transmission between the left emitting end 212 and the left receiving end 211, the right end of the banknote 100 blocks the signal transmission between the right emitting end 222 and the right receiving end 221, and the receiving ends of the two first sensors cannot receive the signal of the corresponding emitting end, so that the deviation detecting assembly determines that the banknote 100 is not deviated.

As shown in fig. 4, the left emitting end 212 on the left side of the banknote 100 is not blocked, and the corresponding left receiving end 211 can receive signals; the right end of the banknote 100 blocks the signal transmission between the right emitting end 222 and the right receiving end 221, and the right receiving end 221 cannot receive the signal of the corresponding right emitting end 222, so that the deviation detecting assembly determines that the banknote 100 deviates to the right side, and the wheel set 3 needs to be adjusted to adjust the position of the banknote 100.

In order to adjust the left and right positions of the paper money 100, the adjusting wheel set 3 comprises two adjusting wheels which are oppositely arranged, a transmission channel is formed between the two adjusting wheels, and the paper money 100 can be transmitted between the two adjusting wheels. The axis of the regulating wheel extends in the transport direction of the transport channel, i.e. the axis of the regulating wheel extends in the front-rear direction. When the adjustment wheel rotates, the bottom end of the adjustment wheel contacts with the paper money 100, and the paper money 100 is driven to move to the left side or the right side by friction force.

For convenience of description, taking the case shown in fig. 4 as an example, the upper adjustment wheel is referred to as an upper adjustment wheel 31, and the lower adjustment wheel is referred to as a lower adjustment wheel 32. When the deviation detecting assembly detects that the banknote 100 deviates to the right, the upper adjustment wheel 31 rotates clockwise, and correspondingly, the lower adjustment wheel 32 rotates counterclockwise, so as to drive the banknote 100 to move to the left. When the left end of the paper money 100 blocks the signal transmission of the left offset sensor 21, the adjusting wheel set 3 stops rotating, and the left and right position adjustment of the paper money 100 is completed. If the banknote 100 needs to be adjusted to the right, the upper adjustment wheel 31 and the lower adjustment wheel 32 rotate in opposite directions, the upper adjustment wheel 31 rotates in a counterclockwise direction, and correspondingly, the lower adjustment wheel 32 rotates in a clockwise direction, so as to drive the banknote 100 to move to the right.

In other embodiments, the upper and lower regulating wheels 31 and 32 may control the paper money 100 to be transferred in a side direction, respectively. For example, when the bill 100 needs to be moved to the left, the upper regulating wheel 31 rotates clockwise in fig. 4, and the lower regulating wheel 32 does not rotate or rotates adaptively following the bill 100. When the bill 100 needs to move to the right, the lower regulating wheel 32 rotates counterclockwise, and the upper regulating wheel 31 does not rotate or rotates adaptively along with the bill 100.

To accommodate different sized notes 100, the distance between the two first sensors is optionally adjustable. When the size of the banknote 100 in the left-right direction is large, the accuracy of the left-right deviation detection result of the banknote 100 can be ensured by adjusting the distance between the two first sensors.

The adjustable distance between the first sensors also adjusts the maximum offset allowed for normal transport of the banknote 100. For example, if the size of the bill 100 in the left-right direction is L1, the distance between the two first sensors is L2, where L2 is smaller than L1 by a difference of h. Ideally, the center line of the bill 100 in the left-right direction coincides with the center line of the transport path in the left-right direction, and the bill 100 is located at the center of the transport path. When the bill 100 is deviated to the left or right, the left deviation sensor 21 and the right deviation sensor 22 can detect the bill 100 if the deviation amount is less than h/2. By adjusting the distance between the two first sensors, the value of h can be adjusted, thereby adjusting the maximum offset h/2 allowed when the banknote 100 is transported normally.

In order to realize the distance adjustment between the two first sensors, the medium transmission adjusting device can further comprise a frame, and the first sensors are connected to the frame in a sliding mode along the first direction and fixed with the frame through fasteners. Specifically, a sliding groove extending in the first direction may be provided on the frame, and the first sensor may be slidably connected to the sliding groove so as to adjust a position of the first sensor. After the position is adjusted, the first sensor is fixed with the rack through fasteners such as screws.

In other embodiments, the first sensor may be adjusted in other ways, for example, connected to the housing of the media transport adjustment device via a telescopic rod or a cylinder, which is telescopic in the first direction.

As shown in fig. 5, the medium transferring and conditioning device further includes a first transferring wheel set and a second transferring wheel set, the first transferring wheel set is disposed in the medium introducing region 200, and the first transferring wheel set is used for transferring the medium to the conditioning region 300; a second set of transport wheels is arranged between the two second sensors, the second set of transport wheels being adapted to transport the medium to the medium exit area 400. The transmission of medium is realized through setting up first transmission wheelset and second transmission wheelset, and the transmission is stable, simple structure.

Specifically, the first transmission wheel set includes a first upper wheel 111 and a first lower wheel 112 which are oppositely arranged, and a medium is transmitted between the first upper wheel 111 and the first lower wheel 112. The second transmission wheel group comprises a second upper wheel 121 and a second lower wheel 122 which are oppositely arranged, and a medium is transmitted between the second upper wheel 121 and the second lower wheel 122.

Optionally, the medium conveying and adjusting device may further include an in-place detection component, and the in-place detection component can detect whether the medium enters the adjusting area 300, so as to ensure the adjusting effect.

Optionally, after the medium enters the adjusting area 300, the first transporting wheel set and the second transporting wheel set stop working, and after the offset of the banknote 100 is detected, the adjusting wheel set adjusts the position of the banknote 100. When the position of the bill 100 is adjusted, the second transporting wheel group operates to transport the bill 100, and the first transporting wheel group operates to transport a new bill 100 into the conditioning region 300. Through setting up the detection subassembly that targets in place, can guarantee that paper currency 100 can not be transported from beginning to end when controlling position adjustment, guarantee the accuracy of position adjustment.

Alternatively, the in-position detection assembly may be located at the junction of the conditioning zone 300 and the media exit zone 400. When the end of the banknote 100 near the media exit area 400 is located at the junction of the conditioning area 300 and the media exit area 400, the banknote 100 is fully inserted into the conditioning area 300, and the left and right positions of the conditioned banknote 100 are preferably adjusted.

Alternatively, the in-place detection assembly may be a correlation sensor, which includes an in-place transmitting end 412 and an in-place receiving end 411, and detects the position of the banknote 100 by detecting whether the in-place receiving end 411 can receive the signal sent by the in-place transmitting end 412. The in-position detecting unit may be a proximity sensor, and may detect whether the bill 100 reaches the regulating region 300.

Optionally, the in-place detection assembly may include two second sensors disposed oppositely, the two second sensors are disposed on two sides of the banknote 100 along the first direction, and a distance between the two second sensors is not greater than a size of the banknote 100 along the first direction, which is beneficial to improving accuracy of position detection of the banknote 100.

Alternatively, the area enclosed by the two second sensors and the two first sensors may be adapted to the size of the banknote 100, e.g. equal to or slightly smaller than the size of the banknote 100, and may further detect the position of the banknote 100. For convenience of description, as shown in fig. 2, the second sensor on the left side is a left-side in-position sensor 41, and the second sensor on the right side is a right-side in-position sensor 42. When one of the left and right in-position sensors 41 and 42 detects the bill 100, it is judged that the bill 100 completely enters the conditioning area 300, and the left and right positions of the bill 100 can be detected and adjusted. After the adjustment of the adjusting wheel set is completed, whether the two second sensors and the two first sensors are shielded or not is detected again, if not, a certain deflection angle of the paper money 100 in the adjusting area 300 is shown, and the deflection angle of the paper money 100 can be offset through the cooperation of the second transmission wheel set and the adjusting wheel set.

Taking the example that only the right-side deviation sensor 22 is not blocked, it is described that the banknote 100 is deflected by a certain angle in the counterclockwise direction shown in fig. 2 in the adjustment area 300, the second transmission wheel set works, and the adjustment wheel set works to rotate the banknote 100 to the right side, and under the cooperation of the second transmission wheel set and the adjustment wheel set, the banknote 100 can be deflected in the clockwise direction shown in fig. 2 to offset the deflection angle of the banknote 100.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (8)

1. A media transport conditioning device comprising a transport channel, the media transport conditioning device further comprising:

a deviation detecting assembly configured to detect whether the medium is deviated in a first direction within a transport plane, the first direction being perpendicular to a transport direction of the transport path; and

an adjusting wheel set (3), wherein the adjusting wheel set (3) comprises two adjusting wheels which are oppositely arranged, the conveying channel is formed between the two adjusting wheels, the axes of the adjusting wheels extend along the conveying direction of the conveying channel, and the adjusting wheel set (3) is configured to adjust the position of the medium along the first direction according to the detection result;

the offset detection assembly comprises two first sensors arranged along the first direction, and the distance between the two first sensors is not larger than the size of the medium along the first direction;

the distance between the two first sensors is adjustable.

2. The media transport conditioning device of claim 1, wherein the first sensor is a correlation sensor.

3. The media transport conditioning device of claim 1, further comprising:

the first sensor is connected to the rack in a sliding mode along the first direction and is fixed to the rack through a fastener.

4. A medium transport conditioning device according to any of claims 1 to 3, characterized in that said transport channel comprises a medium in-feed zone (200), a conditioning zone (300) and a medium out-feed zone (400) connected in sequence, said detection assembly and said adjustment wheel group (3) being both arranged in said conditioning zone (300).

5. The media transport conditioning device of claim 4, further comprising:

an in-position detection component configured to detect whether the media enters the conditioning zone (300).

6. The media transport conditioning device of claim 5, wherein the in-place detection component is located at a junction of the conditioning zone (300) and the media exit zone (400).

7. The media transport conditioning device of claim 6, further comprising:

a first transport wheel set disposed at the medium introduction zone (200), the first transport wheel set configured to transport the medium to the conditioning zone (300); and

a second set of transfer wheels provided at the junction of the conditioning zone (300) and the medium exit zone (400), the second set of transfer wheels being configured to transport the medium to the medium exit zone (400).

8. Financial self-service device, comprising a medium transport conditioning arrangement according to any of claims 1-7.

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