JP4310835B2 - Board connection structure and board connection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a board connection structure for electrically connecting each mechanism unit with an apparatus configured by mounting a plurality of mechanism units.
[0002]
[Prior art]
As an example of an apparatus configured by mounting a plurality of mechanism units, there is a passbook slip printer used in a financial institution or the like.
When the passbook slip printer is configured with a combination of multiple mechanism units, it can be used from an inserter unit that has the function of taking in passbooks and slips, a print unit that prints, and an auto turn page (ATP) unit that turns pages of the passbook. Constitute.
[0003]
Each unit is mounted with electrical components such as a motor and a sensor, and a substrate is mounted on each unit in order to control these electrical components.
In order to electrically connect the substrates of each unit, conventionally, after each mechanism unit is mounted, each mechanism unit is connected by a cable.
[0004]
[Problems to be solved by the invention]
However, in the conventional method of connecting each mechanism unit with a cable, when each mechanism unit is highly integrated, the number of cables to be connected increases, workability is reduced, and connection of cables is forgotten. As a result, there is a possibility that a failure such as the device not operating may occur.
[0005]
[Means for Solving the Problems]
In order to solve the above-described problem, the present invention provides a board connection structure in which a plurality of mechanism units each having a circuit board are mounted on a device, and the boards of each mechanism unit are electrically connected.
One mechanism unit is provided with a rail that supports the substrate so as to be horizontally movable, and an insertion / extraction lever that moves the substrate supported by the rail, and the insertion / extraction lever can rotate around a fulcrum and perform this rotational operation. A mechanism for converting the movement of the board in a horizontal direction is provided, and a connector is attached to the board in a direction that can be inserted and removed along the movement direction of the board by an insertion / removal lever. After fixing the connector at a position corresponding to the connector on the board, positioning one mechanism unit and the other mechanism unit, rotating the insertion / extraction lever to move the board on one mechanism side, the connector on the board After connecting the connector to the connector of the other mechanism unit, the positioning member brought into contact with the insertion / extraction lever at the position where the connectors are connected is connected to the other mechanism unit. When attaching one mechanism unit after the second time, the insertion / extraction lever is abutted against the positioning member by moving the one mechanism unit, The connector is connected by rotating the insertion / extraction lever by movement of one mechanism unit .
[0006]
Et al of the present invention, respectively mounted on the apparatus a plurality of the mechanism unit having a circuit board, the board connecting method for electrically connecting the substrates of each mechanism unit, on one of the mechanism unit, the horizontal movement of the substrate A supportable rail and an insertion / removal lever for moving the substrate supported by the rail, the insertion / removal lever being rotatable about a fulcrum, and converting the rotation to a horizontal movement of the substrate The connector is attached to the board in a direction that can be inserted and removed along the moving direction of the board by the insertion / extraction lever, and the connector is mounted on the other mechanism unit at a position corresponding to the connector of the board of the one mechanism unit. After fixing one mechanism unit and the other mechanism unit, rotate the insertion / extraction lever to move the board on one mechanism side, and After connecting the connector to the connector of the other mechanism unit, the positioning member brought into contact with the insertion / extraction lever at the position where the connectors are connected to the other mechanism unit or the base of the device to which the other mechanism unit is fixed. When mounting one mechanism unit for the second and subsequent times, the insertion / extraction lever is abutted against the positioning member by the movement of the one mechanism unit, and the insertion / extraction lever is rotated by the movement of the one mechanism unit. It is characterized by connecting each other.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an explanatory view showing a first embodiment of a substrate connection structure of the present invention. In this embodiment, an inserter unit constituting a passbook slip printer will be described as an example of a mechanism unit. FIG. 1A is a rear view of the inserter unit of the passbook slip printer, and FIG. It is a bottom view of an inserter unit.
[0008]
Reference numeral 1 denotes a frame of the inserter unit. A roller for conveying the medium, a motor for driving the roller, a sensor for detecting the position of the medium, and the like are attached to the frame 1.
Reference numeral 2 denotes a substrate on which a circuit for controlling a motor, a sensor, and the like is mounted.
A rail 3 is provided on the frame 1 and supports the substrate 2 so as to be horizontally movable. The rail 3 has a U-shaped cross-section, and supports the substrate 2 with U-shaped grooves, and is provided at both the left and right ends of the bottom of the frame 1 so that the left and right ends of the substrate 2 can be supported. .
[0009]
Reference numeral 4 denotes a connector attached to the substrate 2, which is attached in a direction that can be inserted and removed along the moving direction of the substrate 2 by the rail 3.
Reference numeral 5 denotes an insertion / extraction lever attached to the frame 1. The insertion / extraction lever 5 is rotatable about a shaft 5a orthogonal to the plane along the moving direction of the substrate 2 and one end portion 5b of the insertion / extraction lever 5 is formed in a notch 2a provided at a side end portion of the substrate 2. Entering and rotating the shaft 5a around the fulcrum by applying a force to the other end 5c, the rotational movement of the insertion / extraction lever 5 is converted into a horizontal linear movement of the board 2 so that the board 2 can be moved. It is said. The insertion / extraction lever 5 is attached to both the left and right sides of the frame 1 so that the substrate 2 can be moved by applying force from the left and right sides of the substrate 2.
[0010]
6 is a medium conveyance path of the inserter unit, and 7 is a stud provided on the back surface of the frame 1. The stud 7 positions a printing unit and an inserter unit which will be described later.
FIG. 2 is a front view of the printing unit connected to the inserter unit.
When the inserter unit and the printing unit are mounted on the passbook slip printer , the back surface of the inserter unit described in FIG. 1A and the front surface of the printing unit shown in FIG. 3 are connected.
[0011]
Reference numeral 8 denotes a frame of the printing unit, to which a roller for conveying the medium, a motor for driving the roller, a sensor for detecting the position of the medium, and the like are attached.
Reference numeral 9 denotes a board on which a circuit for controlling a motor, a sensor, and the like is mounted. The board 9 is fixed to the frame 8 with screws or the like.
[0012]
Reference numeral 10 denotes a connector attached to the substrate 9. When the inserter unit and the printing unit are mounted on the passbook slip printer, the connector 10 is fixed at a position where the connector 10 and the connector 4 on the inserter unit side are aligned.
11 is a medium conveying path of the printing unit, and 12 is a stud receiving hole provided in the front of the frame 8. When the stud 7 of the inserter unit enters the stud receiving hole 12, the medium conveying path 6 of the inserter unit and the medium of the printing unit The position of the conveyance path 11 is adapted.
[0013]
Next, an outline of the overall configuration of the passbook slip printer will be described. FIG. 3 is a schematic configuration diagram of the passbook slip printer.
An inserter unit 14 is mounted on the front side in the passbook slip printer. The inserter unit 14 has a function of receiving a set of a medium such as a passbook or a slip by an operator, taking in the set medium, or discharging a medium that has been processed, and the like. A conveying feed roller 15a for conveying, a conveying pressure roller 15b for pressing the medium against the conveying feed roller 15a, a width-adjusting feed roller 16a for conveying the medium against the reference surface, and a width for pressing the medium against the width-adjusting feed roller 16a The pressure roller 16b, the guide surface 6a constituting the medium conveyance path 6, the blade 17 for switching the medium conveyance path, a motor that drives a roller such as the conveyance feed roller 15a, not shown, a sensor for detecting the position of the medium, and magnetic It is configured by attaching a head or the like.
[0014]
The substrate 2 is provided in the inserter unit 14 so as to be movable to the back side of the bottom thereof.
Reference numeral 18 denotes a printing unit mounted on the rear side of the inserter unit 14 following the inserter unit 14. The printing unit 18 has functions such as printing on a medium, reading a page mark printed on a passbook, and reading a printed line for printing, and transports the medium to the frame 8 described above. Feed roller 19, guide surface 11 a constituting medium conveyance path 11, print head 20 a, page mark sensor 20 b, platen 21, although not shown, a motor that drives conveyance feed roller 19, a sensor that detects the position of the medium, and platen drive It is constructed by attaching a motor or the like for use.
[0015]
The substrate 9 is fixed to the bottom of the printing unit 18. And the board | substrate 2 of the inserter unit 14 and the board | substrate 9 of the printing unit 18 are electrically connected by the operation | movement mentioned later.
When the inserter unit 14 and the printing unit 18 are mounted on the passbook slip printer, the medium conveyance path 6 of the inserter unit 14 and the medium conveyance path 11 of the printing unit 18 are connected, and exchange of media is performed between the inserter unit 14 and the printing unit 18. Is called. A stud receiving hole provided in the stud 7 provided in the frame 1 of the inserter unit 14 and a stud 8 provided in the frame 8 of the printing unit 18 so that a failure such as a medium being caught at the connecting portion of the medium conveying path 6 and the medium conveying path 11 does not occur. 12, the inserter unit 14 and the printing unit 18 are positioned.
[0016]
Reference numeral 22 denotes an ATP unit mounted on the back side of the printing unit 18 following the printing unit 18. The ATP unit 22 has a function of turning pages of a passbook, and is a conveyance feed roller for conveying a medium. 23, a guide surface 23a constituting the medium conveyance path, a turning roller 24 for turning the page, a motor for driving a roller such as the conveyance feed roller 23, a sensor for detecting the position of the medium (not shown), and the like.
[0017]
FIG. 4 is an explanatory diagram showing the operation of the first embodiment, and the substrate connection operation will be described below. FIG. 4 is a view of the passbook slip printer as seen from the bottom side.
First, the printing unit 18 described with reference to FIG. 3 is fixed to a base cover (not shown) constituting the housing of the passbook slip printer with screws or the like. Since the printing unit 18 has the substrate 9 fixed to the frame 8 with screws or the like, the position of the connector 10 of the substrate 9 on the printing unit 18 side is thereby fixed.
[0018]
Next, the inserter unit 14 is attached to a base cover (not shown) constituting the housing of the passbook slip printer. At this time, the stud 7 provided in the frame of the inserter unit 14 is inserted into the stud receiving hole 12 provided in the frame 8 of the printing unit 18, and the inserter unit 14 is attached to a base cover (not shown) constituting the casing of the passbook slip printer. Secure with screws. In this way, by fixing the position of the stud 7 on the inserter unit 14 side in the stud receiving hole 12 on the printing unit 18 side, the medium conveyance path 6 of the inserter unit 14 and the medium conveyance of the printing unit 18 are fixed. The position of the road 11 is in a suitable state. In this state, as shown in FIG. 4A, the connector 4 of the substrate 2 of the inserter unit 14 is not connected to the connector 10 of the substrate 9 of the printing unit 18.
[0019]
Next, the left and right insertion / extraction levers 5 are rotated in the direction of arrow A with the shaft 5a as a fulcrum by applying a force to the other end 5c, so that the notch of the substrate 2 is cut out at one end 5b of the insertion / extraction lever 5 2a is pushed and the board | substrate 2 is moved to the arrow B direction. As a result, as shown in FIG. 4B, the connector 4 of the board 2 is fitted into the connector 10 of the board 9, the board 2 and the board 9 are electrically connected, and the inserter unit 14 and the printing unit 18 are synchronized. And can be controlled.
[0020]
As described above, the inserter unit 14 and the printing unit 18 are positioned by inserting the stud 7 into the stud receiving hole 12, but the medium conveyance path 6 of the inserter unit 14 and the medium conveyance path 11 of the printing unit 18. Therefore, the positioning accuracy by the stud 7 and the stud receiving hole 12 is high. On the other hand, when the connector 4 is attached to the substrate 2 and the connector 10 is attached to the substrate 9, the connector leads are attached by inserting them into the through-holes of the substrate and soldering. If the mounting position accuracy of the connector and the mounting position accuracy of the board relative to the frame are increased, the board 2 on the inserter unit 14 side can be fixed and the connectors can be connected in the process of inserting the stud 7 into the stud receiving hole 12. It becomes. However, in order to increase the mounting position accuracy of the connector with respect to the board and the mounting position accuracy of the board with respect to the frame, the manufacturing cost increases.
[0021]
For this reason, the mounting position accuracy of the connector with respect to the board and the mounting position accuracy of the board with respect to the frame cannot be so high. Therefore, if the board 2 of the inserter unit 14 is movable, the insertion / extraction lever 5 is provided, and the board 2 is moved by the insertion / extraction lever 5 to connect the connectors, the amount of rotation of the right / left insertion / extraction levers 5 is adjusted. By moving the substrate 2 while moving, the connectors can be connected while adjusting so that the position of the connector 4 matches the position of the connector 10, and the accuracy of the mounting position of the connector with respect to the substrate and the mounting position accuracy of the substrate with respect to the frame are improved. There is no need to increase the manufacturing cost, and the manufacturing cost can be reduced.
[0022]
To disconnect the connectors from the state shown in FIG. 4B, the left and right insertion / extraction levers 5 are rotated in the direction of arrow C about the shaft 5a as a fulcrum by applying force to the other end 5c. Thus, the connector 4 can be removed from the connector 10 by pressing the notch 2a of the substrate 2 with one end portion 5b of the insertion / extraction lever 5 and moving the substrate 2 in the direction of arrow D.
[0023]
FIG. 5 is an explanatory view showing a second embodiment of the substrate connection structure of the present invention.
The structures of the inserter unit 14 and the printing unit 18 are the same as those described with reference to FIGS.
Reference numeral 25 denotes a positioning fitting. The positioning bracket 25 is a bracket having an L-shaped cross-section, and a hole 25a is formed in the L-shaped bottom surface, and a screw is passed through the hole 25a and fixed to a base cover (not shown) that constitutes the case of the passbook slip printer. Is done. The L-shaped side surface is in contact with the other end 5c of the insertion / extraction lever 5 to determine the position of the insertion / extraction lever 5. The angle of the side surface is determined by the positioning bracket 25 rotating around the hole 25a. By doing so, it is variable.
[0024]
The operation of the second embodiment will be described below with reference to FIGS.
Until the mounting bracket 25 is attached, the operation is the same as that of the first embodiment.
First, the printing unit 18 described with reference to FIG. 3 is fixed to a base cover (not shown) constituting the housing of the passbook slip printer with screws or the like. Since the printing unit 18 has the substrate 9 fixed to the frame 8 with screws or the like, the position of the connector 10 of the substrate 9 on the printing unit 18 side is thereby fixed.
[0025]
Next, the inserter unit 14 is attached to a base cover (not shown) constituting the housing of the passbook slip printer. At this time, the stud 7 provided in the frame of the inserter unit 14 is inserted into the stud receiving hole 12 provided in the frame 8 of the printing unit 18, and the inserter unit 14 is attached to a base cover (not shown) constituting the casing of the passbook slip printer. Secure with screws. In this way, by fixing the position of the stud 7 on the inserter unit 14 side in the stud receiving hole 12 on the printing unit 18 side, the medium conveyance path 6 of the inserter unit 14 and the medium conveyance of the printing unit 18 are fixed. The position of the road 11 is in a suitable state. In this state, as shown in FIG. 4A, the connector 4 of the substrate 2 of the inserter unit 14 is not connected to the connector 10 of the substrate 9 of the printing unit 18.
[0026]
Next, the left and right insertion / extraction levers 5 are rotated in the direction of arrow A with the shaft 5a as a fulcrum by applying a force to the other end 5c, so that the notch of the substrate 2 is cut out at one end 5b of the insertion / extraction lever 5 2a is pushed and the board | substrate 2 is moved to the arrow B direction. As a result, as shown in FIG. 4B, the connector 4 of the board 2 is fitted into the connector 10 of the board 9, the board 2 and the board 9 are electrically connected, and the inserter unit 14 and the printing unit 18 are synchronized. And can be controlled.
[0027]
Next, with respect to the left and right insertion / extraction levers 5 in the state where the connectors are connected to each other, as shown in FIG. The angle is determined so that they come into contact with each other, and a screw (not shown) is passed through the hole 25a and fixed to a base cover (not shown) that constitutes the case of the passbook slip printer. In this state, since the insertion / extraction lever 5 cannot be rotated in the direction of arrow C shown in FIG. 4B, it is possible to prevent the connectors from being disconnected by operating the insertion / extraction lever 5 by mistake.
[0028]
In this state, when the inserter unit 14 is removed for maintenance or the like, the inserter unit 14 is not operated by operating the insertion / extraction lever 5, and screws or the like fixed to the base cover (not shown) constituting the casing of the passbook slip printer are used. After removal, the inserter unit 14 is pulled out in the direction in which the connectors are pulled out. Thereby, while the stud 7 comes out from the stud receiving hole 12, the connector 4 comes out from the connector 10, and the inserter unit 14 can be removed. At this time, the positioning bracket 25 remains on a base cover (not shown) constituting the housing of the passbook slip printer in accordance with the position of the insertion / extraction lever 5 when the connectors are connected to each other.
[0029]
When the removed inserter unit 14 is attached after maintenance or the like is completed, the inserter unit 14 is inserted in the insertion direction of the connectors. At this time, the stud 7 is inserted so that the position of the stud 7 matches the position of the stud receiving hole 12. Then, as shown in FIG. 5A, the other ends 5 c of the left and right insertion / extraction levers 5 abut against the side surfaces of the positioning fittings 25, respectively.
[0030]
From this state, when the inserter unit 14 is further inserted in the direction of the arrow E, the other end 5c of the left and right insertion / extraction lever 5 hits the side surface of the positioning bracket 25 and cannot move. The insertion / extraction lever 5 rotates in the direction of arrow A about the shaft 5a, and the substrate 2 moves in the direction of arrow B.
Then, by moving the inserter unit 14 in the direction of arrow E, the stud 7 enters the stud receiving hole 12, and when the inserter unit 14 is positioned with respect to the print unit 18, the insertion process of the inserter unit 12 up to that point is performed. As the substrate 2 moves in the direction of arrow B, the connector 4 is fitted into the connector 10 as shown in FIG. 5B, and finally the base unit (not shown) that constitutes the casing of the passbook slip printer. Secure to the cover with screws.
[0031]
As described in the first embodiment, the connector mounting position accuracy with respect to the board and the board mounting position accuracy with respect to the frame are not so high, but in the second embodiment, the first insertion of the inserter unit 14 is performed. At the time of attachment, after connecting the connectors while adjusting the position of the connector 4 to match the position of the connector 10 by moving the board 2 while adjusting the amount of rotation of the left and right insertion / extraction levers 5, If the positioning bracket 25 is fixed in accordance with the position of the insertion / extraction lever 5, the positional accuracy of the substrate 2 with respect to the substrate 10 can be obtained by the positioning bracket 25, so that the same inserter unit 14 is attached for the second and subsequent times. At times, the connectors can be connected by simply removing the inserter unit 14 without operating the insertion / extraction lever 5. To become.
[0032]
Conventionally, when connecting each mechanism unit with a cable, it is necessary to provide a space for accommodating the cable and the connector on the side and above the mechanism unit so that the connector can be easily connected and disconnected. On the other hand, in the first embodiment and the second embodiment described above, since the connector is not directly operated, the connector can be provided in the bottom space between the units, and the effective use of the mounting space. Can be achieved.
[0033]
In the first embodiment and the second embodiment, the inserter unit and the printing unit of the passbook slip printer have been described as examples of the mechanism unit, but the present invention can also be applied to a mechanism unit of another device.
[0034]
【The invention's effect】
As described above, according to the present invention, in a board connection structure in which a plurality of mechanism units each having a circuit board are mounted in an apparatus and the boards of each mechanism unit are electrically connected, a board is attached to one mechanism unit. A rail that is supported so as to be horizontally movable, and an insertion / removal lever that moves the board supported by the rail, and a connector is attached to the board in a direction in which the board can be inserted and removed along the moving direction of the board. Since the connector is fixed to the mechanism unit at the position corresponding to the connector of the board of the one mechanism unit, after positioning the one mechanism unit and the other mechanism unit, the connector can be Can be connected, so there is no need for a cable connection between the mechanism units, improving workability.
[0035]
In addition, by attaching a positioning member for fixing the position of the insertion / extraction lever to the other mechanism unit or the base of the apparatus to which the other mechanism unit is fixed, the insertion / extraction lever is erroneously operated to disconnect the connectors. Can be prevented.
Further, according to the present invention, in a board connection method in which a plurality of mechanism units each having a circuit board are mounted in an apparatus and the boards of each mechanism unit are electrically connected, the board can be moved horizontally to one mechanism unit. A support rail and an insertion / extraction lever for moving the substrate supported by the rail, the insertion / extraction lever being rotatable about a fulcrum, and a mechanism for converting this rotational movement into a horizontal movement of the substrate. The connector is attached to the board in such a direction that it can be inserted and removed along the moving direction of the board by the insertion / extraction lever, and the connector is fixed to the other mechanism unit at a position corresponding to the connector of the board of the one mechanism unit. Then, after positioning one mechanism unit and the other mechanism unit, the substrate on one mechanism side is moved by rotating the insertion / extraction lever to move the substrate. After connecting the connector to the connector of the other mechanism unit, the positioning member brought into contact with the insertion / extraction lever at the position where the connectors are connected to the other mechanism unit or the base of the device to which the other mechanism unit is fixed. When mounting one mechanism unit for the second and subsequent times, the insertion / extraction lever is abutted against the positioning member by the movement of the one mechanism unit, and the insertion / extraction lever is rotated by the movement of the one mechanism unit. When attaching one mechanism unit by connecting each other, since the second and subsequent times, the connectors can be connected by aligning the positions of the connectors without operating the insertion / extraction lever, the workability is further improved, It is possible to prevent forgetting to connect the connectors.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a first embodiment of a board connection structure according to the present invention. FIG. 2 is a front view of a printing unit. FIG. 3 is a schematic configuration diagram of a passbook slip printer. FIG. 5 is an explanatory diagram showing a second embodiment of the substrate connection structure of the present invention.
1 Frame 2 Board 3 Rail 4 Connector 5 Insertion / Extraction Lever

Claims (2)

In a board connection structure in which a plurality of mechanism units each having a circuit board are mounted on a device, and the boards of each mechanism unit are electrically connected,
On one mechanism unit, a rail that supports the substrate so that it can move horizontally,
An insertion / extraction lever for moving the substrate supported by the rail,
The insertion / extraction lever is rotatable around a fulcrum, and includes a mechanism for converting this rotational movement into horizontal movement of the substrate,
A connector is attached to the board in such a direction that it can be inserted and removed along the direction of movement of the board by the insertion / extraction lever, and the connector is fixed to the other mechanism unit at a position corresponding to the connector of the board of the one mechanism unit. ,
After positioning one mechanism unit and the other mechanism unit, rotate the insertion / extraction lever to move the board on one mechanism side, and connect the connector on the board to the connector on the other mechanism unit. When attaching the positioning member brought into contact with the insertion / extraction lever at a position where they are connected to each other to the other mechanism unit or the base of the device to which the other mechanism unit is fixed, when attaching one mechanism unit from the second time on, A board connection structure characterized in that an insertion / extraction lever is abutted against the positioning member by movement of the one mechanism unit, and the connector is connected by rotating the insertion / extraction lever by movement of one mechanism unit . In the board connection method of mounting a plurality of mechanism units each having a circuit board on the apparatus and electrically connecting the boards of each mechanism unit,
On one mechanism unit, a rail that supports the substrate so that it can move horizontally,
An insertion / extraction lever for moving the substrate supported by the rail,
The insertion / extraction lever is rotatable around a fulcrum, and includes a mechanism for converting this rotational movement into horizontal movement of the substrate,
A connector is attached to the board in a direction that can be inserted and removed along the direction of movement of the board by the insertion and removal lever.
A connector is fixed to the other mechanism unit at a position corresponding to the connector of the board of the one mechanism unit,
After positioning one mechanism unit and the other mechanism unit, rotate the insertion / extraction lever to move the board on one mechanism side, and connect the connector on the board to the connector on the other mechanism unit. When attaching the positioning member brought into contact with the insertion / extraction lever at a position where they are connected to each other to the other mechanism unit or the base of the device to which the other mechanism unit is fixed, when attaching one mechanism unit from the second time on, A board connecting method, wherein the insertion / extraction lever is abutted against the positioning member by the movement of the one mechanism unit, and the connector is connected by rotating the insertion / extraction lever by the movement of the one mechanism unit.

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