JP2021077789A - Input device - Google Patents

Abstract

To provide an input device capable of making an interval between terminals narrow.SOLUTION: An input device 10 comprises: a substrate 3; and a plurality of terminals 28, 29, and 30. The substrate 3 has a plurality of holes paralleled to a second direction orthogonal to a first direction as a thickness direction. Each of the plurality of terminals 28, 29, and 30 is inserted in to a plurality of holes of the substrate 3 by one-to-one, and is connected to the substrate 3. Each of the plurality of terminals 28, 29, and 30 has a base part and a cylindrical projection part. The base part is positioned at one surface of the first direction of the substrate 3 when each terminal is inserted into a hole correspondence one from a plurality of holes. The cylindrical projection part is projected toward a surface other than the one surface from the base part, and penetrates each hole. Each portion existed at the plurality of holes and a hole of the projection part has a shape having a wide part expander than the other end part in one end part of a third direction orthogonal to both the first direction and the second direction, and the wide part is arranged in the second direction so as to be a nest.SELECTED DRAWING: Figure 1

Description

The present disclosure relates generally to input devices, and more specifically to input devices having terminals.

Conventionally, a resistor substrate for a variable resistor and a variable resistor (input device) using the same are known (see Patent Document 1).

The variable resistor of Patent Document 1 has a circular through hole in the center, and a ring-shaped conductive portion concentrically in the circular through hole and a substantially C-shaped resistance element portion on the outside thereof are screen-printed on the upper surface. It has a resistance substrate made of an insulating resin formed of, etc. The lead-out portion extends outward from the end portions on both sides of the resistance element portion and the conductive portion toward the outside of the resistance substrate, and the terminals are crimped and fixed at the end portions of the resistance substrate to be electrically connected. It is connected to the.

JP-A-2007-103775

In recent years, in addition to the need for high reliability, the need for miniaturization and thinning of electronic devices has also increased. There is a similar need for input devices used in electronic components such as variable resistors. Also in Patent Document 1 described above, a crimped and fixed terminal is applied, which satisfies the needs for higher accuracy of the variable resistor. On the other hand, there is a problem of narrowing the pitch between terminals.

The present disclosure has been made in view of the above problems, and an object of the present disclosure is to provide an input device capable of narrowing the distance between terminals.

The input device according to one aspect of the present disclosure includes a substrate and a plurality of terminals. The substrate has a plurality of holes arranged in a second direction orthogonal to the first direction, which is the thickness direction. The plurality of terminals are inserted one-to-one into the plurality of holes of the substrate and connected to the substrate. Each of the plurality of terminals has a base portion and a tubular protrusion. The base is located on one of the two surfaces of the substrate in the first direction when the terminal is inserted into the corresponding hole of the plurality of holes. The tubular projecting portion projects from the base portion toward a surface different from the one surface of the two surfaces in the first direction of the substrate and penetrates the hole. The plurality of holes and the portion of the protruding portion existing in the hole are wide at one end in the third direction orthogonal to both the first direction and the second direction, as compared with the other end. The shape has a wide portion, and the wide portion is arranged so as to be nested in the second direction.

According to the present disclosure, the spacing between terminals can be reduced.

FIG. 1 is a diagram illustrating an input device according to an embodiment. FIG. 2 is a cross-sectional view (front-back direction) of X1-X1 of the input device of the same. FIG. 3 is a diagram for explaining the terminals and eyelets of the terminal member before the terminal division of the input device of the same. FIG. 4 is a diagram illustrating a state before the connection between the terminal portion of the terminal member and the substrate according to the embodiment. FIG. 5A is a diagram illustrating a state before the terminal portion and the substrate of the same are crimped and fixed. FIG. 5B is an enlarged plan view of the Z1 region of FIG. 5A. FIG. 6 is a cross-sectional view (front-back direction) of Y1-Y1 of FIG. 5A of the terminal connection portion before caulking and fixing the terminal portion and the substrate of the same. FIG. 7 is a diagram illustrating a state before the terminal portion and the substrate of the same are crimped and fixed and the terminals are divided.

Each embodiment and modification described below is merely an example of the present disclosure, and the present disclosure is not limited to each embodiment and modification. Other than these embodiments and modifications, various changes can be made according to the design and the like as long as they do not deviate from the technical idea of the present disclosure. Further, each figure described in the following embodiment is a schematic view, and the ratio of the size and the thickness of each component in the figure does not necessarily reflect the actual dimensional ratio. ..

In the following description, the direction perpendicular to (orthogonal) in the horizontal direction in the state where the terminal portion 6 and the substrate 3 are installed as shown in FIG. 1 will be described as the "vertical direction". Further, the direction when the substrate 3 is viewed from the terminal portion 6 and which is perpendicular to the "vertical direction" is defined as the "front-back direction". Further, the left-right direction which is perpendicular to the "vertical direction" and the "front-back direction" and when the "vertical direction" is viewed from the front direction will be described as the "left-right direction". The "vertical direction", "front-back direction", and "horizontal direction" in the figure are shown only for the sake of explanation and are not accompanied by substance. These directions are not intended to limit the state of the input device 10.

(Embodiment 1)
Hereinafter, the input device 10 according to the present embodiment will be described with reference to FIGS. 1 to 7.

(1) Outline The input device 10 will be described. The input device 10 is, for example, a resistor substrate with a terminal used for a variable resistor.

As shown in FIG. 1, the input device 10 includes an input / output unit 1 and a substrate 3. The input / output unit 1 has a terminal unit 6 and a caulking group 5. The input / output unit 1 inputs a signal or the like from an external device to the board 3, and receives a signal or the like from the board 3. The input / output unit 1 includes a plurality of (three in FIG. 1) terminals 28, 29, 30. In this embodiment, the terminal 28 corresponds to an input terminal, the terminal 29 corresponds to an output terminal, and the terminal 30 corresponds to a ground terminal. The caulking group 5 includes a plurality of caulking 25, 26, 27 having a one-to-one correspondence with the plurality of terminals 28, 29, 30. Here, the terminal 28 and the caulking 25 correspond to the terminal 29 and the caulking 26, and the terminal 30 and the caulking 27 correspond to each other.

In this embodiment, for example, a predetermined input voltage is applied between the terminal 28 and the terminal 30 from an external device. This input voltage is input to the substrate 3 from the terminals 28 and 30 via the caulking 25 and 27. Then, the voltage value at the position where the brush (not shown) rotating on the substrate 3 comes into contact is transmitted to the external device, for example, the output voltage between the terminals 28 and 29 obtained through the caulking 25 and the caulking 26. Be transmitted.

The substrate 3 has a plurality of (three in FIG. 4) terminal connection portions 31, 32, 33, a resistor 34, and a conductor 35. The substrate 3 is generally an insulator.

(2) Configuration The input / output unit 1 has a terminal unit 6 and a caulking group 5 as shown in FIG.

The caulking group 5 includes caulking 25, 26, 27 as shown in FIG. The caulking group 5 electrically connects the substrate 3 and the terminal portion 6. Specifically, the caulking 25 is connected to the tip of the terminal 28, the caulking 26 is connected to the tip of the terminal 29, and the caulking 27 is connected to the tip of the terminal 30. Since the caulking 25, 26, and 27 have the same configuration, the caulking 25 will be described. The caulking 25 includes a base 40, a tubular portion 41, and a caulking portion 42. The base 40 is coupled to the terminal 28. The tubular portion 41 has the shape of the eyelet portion 20, which will be described later. Specifically, it has a triangular shape or a shape in which the triangular corners are chamfered to give a circular curvature. The caulking portion 42 is caulked and fixed, and electrically connects the terminal 28 and the substrate 3. Here, in the present disclosure, the triangular shape includes not only the shape of the triangle itself but also the shape in which each corner of the triangle is chamfered to give the curvature of the circle.

The caulking 25 protrudes upward from the base 40 by the thickness of the substrate 3 to form the tubular portion 41, and is crimped onto the substrate 3 to form the caulking portion 42. By sandwiching the substrate 3 between the base portion 40 and the caulking portion 42, the terminal 28 and the substrate 3 are electrically connected to each other. Similarly, each of the terminal 29 and the terminal 30 is electrically connected to the substrate 3 by sandwiching the substrate 3 between the base portion 40 and the caulking portion 42.

Next, the substrate 3 will be described. The outline of the substrate 3 is shown in FIG. The substrate 3 has a plurality of (three in FIG. 4) terminal connection portions 31, 32, 33, a resistor 34, and a conductor 35.

The terminal connection unit 31 is connected to the terminal 30 of the input / output unit 1, the terminal connection unit 32 is connected to the terminal 29 of the input / output unit 1, and the terminal connection unit 33 is connected to the terminal 28 of the input / output unit 1.

The material of the substrate 3 is an insulator such as a glass epoxy resin.

The three terminal connection portions 31, 32, 33 have a plurality of (three in this case) triangular holes 43, 44, 45. Specifically, the terminal connection portion 31 is provided with a hole 43, the terminal connection portion 32 is provided with a hole 44, and the terminal connection portion 33 is provided with a hole 45.

The shape of each of the plurality of holes 43, 44, 45 is the same triangular shape. If each of the plurality of triangular holes 43, 44, 45 includes corners, damage to the substrate 3 due to stress concentration may occur. Therefore, the triangular corners are chamfered to form a circle. It may have a curved shape.

The holes 43, 44, 45 composed of the terminal connection portions 31, 32, 33 all have the same triangular shape, but the directions of the triangular shapes are different. That is, the terminal connection portions 31 and 33 have the same orientation, one side of the triangle (wide portion 50) is in the front direction of the substrate 3, and the apex of the triangle is in the rear direction in the front-rear direction of the substrate 3. ..

On the contrary, the terminal connection portion 32 has one side (wide portion 50) of a triangle in the rear direction of the substrate 3, and the apex of the triangle comes in the front direction of the substrate 3 in the front-rear direction of the substrate 3. Assuming that one side of the triangle in the left-right direction is the wide portion 50, the holes 43, 44, 45 corresponding to the terminal connection portions 31, 32, 33 are wider at one end in the front-rear direction than at the other end. It has a shape having a wide portion 50, and the wide portions 50 are arranged so as to be nested in the left-right direction. Here, the nested state is shown in FIG. 5B. FIG. 5B is an enlarged top view of the Z1 region of FIG. 5A, and outlines holes 43, 44, 45 and eyelets 21, 22, 23 inside the holes 43, 44, 45, which will be described later. As shown in FIG. 5B, the wide portions 50 of the holes 43 and 45 located at both ends in the left-right direction are on the front portion (terminal portion 6 side) of the substrate. On the other hand, the wide portion 50 of the hole 44 located at the center in the left-right direction is arranged at a position closer to the center of the substrate 3 in the front-rear direction than the position of the wide portion of the holes 43 and 45. The distance between the terminals can be reduced by arranging the holes 43, 44, 45 composed of the three triangular terminal connecting portions 31, 32, 33 so as to be nested. Therefore, the pitch between the terminals can be narrowed. Further, since the triangular holes 43, 44, 45 can shift the point where the stress is concentrated as compared with the conventionally used circular holes, the reliability of the parts can be improved. Further, by nesting the triangular holes 43, 44, 45 in the substrate 3, the region for keeping the distance between the adjacent holes 43 and the holes 44 and the distance between the holes 44 and the holes 45 constant can be increased. , Crack resistance is improved and strength can be increased.

The terminal connection portions 31, 32, 33 have conductivity. Like the conductor 35 described later, it is formed by, for example, printing and printing. The terminal connection portion 32 is connected to the conductor 35. The terminal connection portion 31 and the terminal connection portion 33 are connected to a resistor 34, which will be described later.

Further, the three terminal connection portions 31, 32, 33 are connected to the respective terminals 28, 29, 30 by caulking and fixing the eyelets 21, 22, 23 of the terminal portion 6, which will be described later.

The conductor 35 is formed on the substrate 3. Silver is used as the material, and the conductor 35 is formed by, for example, printing and printing. By integrally forming the conductor 35 and the terminal connecting portion 32 and forming the terminal connecting portions 31 and 33 at the same time, the manufacturing man-hours and the like can be suppressed.

The resistor 34 is formed on the substrate 3. A carbon film or the like is used as the material, and for example, the resistor 34 is formed by printing and baking. The resistor 34 is connected to the terminal connection portion 31 and the terminal connection portion 33.

(3) Formation of Element The formation of the input device 10 will be described. The input device 10 includes an input / output unit 1 and a substrate 3. In the process of forming the input device 10, the terminal member 24 having a configuration including the input / output unit 1 is prepared. Then, as will be described later, after the eyelet portions 20 of the plurality (three in this case) of the terminal member 24 are caulked and fixed, the connecting portion between the connecting portion 24A of the terminal member 24 and the input / output portion 1 is cut. The input device 10 is formed by molding the tips of the terminals 28, 29, and 30 of the input / output unit 1.

The terminal member 24 has terminals 28, 29, 30 and a connecting portion 24A. The connecting portion 24A of the terminal member 24 is made of a part of a flat plate-shaped hoop material, and the three terminals 28, 29, 30 are provided on the same surface with respect to the connecting portion 24A.

Eyelets 21, 22, 23 are formed at the ends of the three terminals 28, 29, 30. Specifically, eyelets 21 are formed on the terminal 28, eyelets 22 are formed on the terminals 29, and eyelets 23 are formed on the terminals 30. The eyelets 21, 22, and 23 have the shape of a triangular prism in which the tubular portion 41 projects upward. Eyelets 21, 22, and 23 have a triangular shape or a shape in which the corners of a triangle are chamfered to give a circular curvature. In the present embodiment, the triangular corners are chamfered to give a circular curvature.

The shapes of the eyelets 21, 22, and 23 are triangular and the same, but the eyelets 21 and 23 and the eyelets 22 are arranged in different directions. The eyelets 21, 22, and 23 are arranged so as to match the holes 43, 44, and 45 of the terminal connection portions 31, 32, and 33 of the substrate 3. Specifically, the eyelets 21 and 23 have one side of the triangle shape arranged in the front direction, whereas the eyelet 22 has one side of the triangle shape arranged in the rear direction. That is, the arrangement is such that the triangles are nested. The eyelets 21, 22, and 23 are inserted into the plurality of holes 43, 44, 45 of the terminal connection portions 31, 32, 33 of the substrate 3.

In the formation of eyelets 21, 22, 23, the material around the portion where eyelets 21, 22, 23 is formed is applied from the lower surface (back surface) of the terminals 28, 29, 30 on the same plane having a plate shape. Bring it closer and squeeze it deeper. Finally, eyelets 21, 22, 23 are formed by making a hole in the tip of the deeply squeezed portion. Therefore, as shown in FIG. 2, assuming that the thickness of the eyelet portion 20 is a and the thickness of the base portion 40 is b, the thickness a of the eyelet portion 20 is thinner than the thickness b of the base portion 40. The eyelets 21, 22, 23 and the terminal member 24 are made of the same material. For example, a cold-rolled steel sheet can be used as the material, and it is preferable to perform conductive plating after the outer shape is processed into the above shape.

Next, the formation of the input device 10 will be described. As shown in FIG. 4, the input device 10 is formed by connecting the terminal portion 6 and the substrate 3. The eyelets 21, 22, 23 of the terminal portion 6 have a triangular tubular shape, that is, a triangular columnar shape.

The eyelets 21, 22, and 23 are inserted through the terminal connection portions 31, 32, and 33 of the substrate 3. The terminal connection portions 31, 32, 33 have a triangular shape, and the terminal connection portions 31, 33 and the terminal connection portion 32 are nested, so that the eyelets 21, 22, and 23 are oriented when they are inserted. Specifically, the terminal connection portion 31 is inserted through the eyelet 23, the terminal connection portion 32 is inserted through the eyelet 22, and the terminal connection portion 33 is inserted through the eyelet 21. FIG. 5A shows a state in which each of the eyelet portions 20 is inserted through the terminal connection portions 31, 32, 33. FIG. 5B is an enlarged top view of the Z1 region of FIG. 5A. Holes 43, 44, 45 and eyelets 21, 22, 23 inserted therein are described. An eyelet 21 is inserted through the hole 43, an eyelet 22 is inserted through the hole 44, and an eyelet 21 is inserted through the hole 45.

Here, the eyelets 21, 22, and 23 have a wide portion 36, similar to the holes 43, 44, and 45. Further, the directions of the eyelets 21 and 22 and 23 are nested, the wide portion 36 of the eyelets 21 and 23 is located at the front portion (terminal portion 6 side) of the substrate 3, and the wide portion 36 of the eyelet 22 is the eyelet 21. , 23 is located closer to the center of the substrate 3 than the position of the wide portion 36. The size of the eyelets 21, 22, 23 is slightly smaller than the holes 45, 44, 43 so that they can be inserted. The wide portion 36 of the eyelets 21, 22, 23 faces the wide portion 50 of the corresponding holes 45, 44, 43, respectively. That is, in the top view, the eyelets 21, 22, 23 and the corresponding holes 45, 44, 43 are similar figures, respectively. If the error is within the permissible range, it shall be included in the similar figure.

FIG. 6 is a cross-sectional view taken along line Y1-Y1 of FIG. 5A showing a state of the eyelet portion 20 before being crimped and fixed. The eyelets 21, 22, and 23 include a protrusion 8 that protrudes from the base 40 arranged on the back surface of the substrate 3 through the terminal connection portions 31, 32, and 33. As shown in FIG. 6, the projecting portion 8 has a portion projecting upward from the surface of the substrate 3.

Once the eyelets 21, 22, 23 are inserted, the eyelets 21, 22, 23 are crimped using a curl caulking punch (not shown) and a caulking backup (not shown). FIG. 7 shows a state in which the eyelets 21, 22, and 23 are crimped and fixed. Further, FIG. 2 shows a cross-sectional view of the crimped and fixed state. Of the projecting portions 8, the portion projecting upward from the surface of the substrate 3 is caulked and fixed to form the caulking portion 42. Further, the portion of the protruding portion 8 that is inserted through the substrate 3 is not affected by caulking and fixing, and becomes a tubular portion 41. The tubular portion 41 has a triangular columnar shape of eyelets 21, 22, and 23.

The caulking 25, 26, 27 are formed by caulking the eyelets 21, 22, 23. The eyelets 21, 22, 23 that are crimped and fixed form the crimped portion 42 by opening the tip of the tubular portion 41 outward. That is, since the caulking portion 42 opens the eyelets 21, 22, 23 to the outside, the area of the caulking portion 42 is larger than the triangular area inside the eyelets 21, 22, 23 in the top view of the present embodiment. It's getting bigger. The substrate 3 is sandwiched between the caulking portion 42 and the base portion 40, and the caulking portion 42 and the base portion 40 ensure electrical connection with the terminal connecting portions 31, 32, 33 of the substrate 3, that is, conductivity.

Finally, the tip positions of the terminals 28, 29, and 30 are separated from the connecting portion 24A of the terminal member 24, so that the terminal 28 corresponding to the caulking 25, the terminal 29 corresponding to the caulking 26, and the terminal corresponding to the caulking 27 are finally separated. 30 are formed respectively, and the input device 10 is completed.

The sizes of the eyelets 21, 22, 23 and the holes 43, 44, 45 of the terminal connection portions 31, 32, 33 are sufficient as long as they have a dimensional relationship that does not rotate as a standard. Specifically, when the eyelets 21, 22, 23 are crimped and fixed, the eyelets 21, 22, 23 are placed around the holes 43, 44, 45 on the surface of the terminal connection portions 31, 32, 33 of the substrate 3. There are three points of contact. Since the holes 43, 44, 45 have a triangular shape, the terminal connecting portions 31, 32, 33 and the caulking 25, 26, 27 are in contact with each side forming the triangular shape. Therefore, even when a force in the left-right direction (second direction) is applied to the terminals 28, 29, 30, the rotation of the terminals 28, 29, 30 is suppressed. In the holes 43, 44, 45, the terminal connection portions 31, 32, 33 and the caulking 25, 26, 27 may be in contact with each other on two of the three sides forming the triangular shape.

(4) Advantages Of the plurality of holes 43, 44, 45 and the eyelets 21, 22, 23, the portion penetrating the plurality of holes 43, 44, 45 is located at one end in the front-rear direction as compared with the other end. The shape has wide portions 50 and 36 that are wide, and the wide portions 50 are arranged so as to be nested in the left-right direction. In the left-right direction, the distance between the terminals becomes smaller due to the nesting of the wide portion 50 as compared with the case where the wide portion 50 is not nested. Compared with the conventional cylindrical eyelet, the dimensions of the narrowest portions of the plurality of holes 43, 44, 45 of the substrate 3 can be increased, so that the strength of the substrate 3 can be improved. This is because if the distances of the plurality of holes 43, 44, and 45 can be separated from each other, the occurrence of stress concentration can be suppressed.

Since the plurality of holes 43, 44, 45 are triangular and the corresponding eyelets 21, 22, 23 are also triangular, the terminals 28, 29, 30 receive an external force as compared with the cylindrical eyelet. Also becomes difficult to loosen.

Further, when each corner of the plurality of triangular holes 43, 44, 45 is processed into a circular shape, it is easier to process each of the plurality of holes 43, 44, 45 than to have a triangular shape. Further, by increasing the curvature when processing into a circular shape, the distance between terminals becomes smaller. That is, the pitch can be narrowed.

(5) Modified Examples The modified examples are listed below. The modifications described below can be applied in combination with the above embodiments as appropriate.

(5-1) Modification 1
Each of the plurality of holes 43, 44, 45 of the substrate 3 is chamfered at the corners of a triangle to give a circular curvature, but is not limited to this shape. In addition to the shape in which the corners of the triangle are processed into a circle, the original figure may be a triangle, and each side constituting the triangle may also be processed into a curve. In this case, there is an advantage that the plurality of holes 43, 44, 45 of the substrate 3 can be easily machined. Further, by making the curve, it is possible to suppress the occurrence of stress concentration due to the complete formation of the corner. For example, a shape in which the corners of a Reuleaux triangle are chamfered to have a circular curvature can be mentioned. The Reuleaux triangle is formed by connecting arcs whose radius is one side of the equilateral triangle, centered on each vertex of the equilateral triangle. The apex may be chamfered to give a circular curvature.

(5-2) Modification 2
Each of the plurality of holes 43, 44, 45 of the substrate 3 has a triangular shape as a basic figure, but is not limited to this shape. For example, the shapes of the holes 43, 44, and 45 are not limited to triangles, but may be trapezoidal. That is, the shapes of the holes 43, 44, and 45 may be any shape having a wide portion at one end in the front-rear direction, which is wider than the other end. In this case, the holes 43, 44, and 45 may be arranged so that the wide portions are nested in the left-right direction.

At this time, since the holes 43, 44, 45 have a trapezoidal shape, the terminal connecting portions 31, 32, 33 and the caulking 25, 26, 27 come into contact with each of the four sides forming the trapezoidal shape. That is, depending on the shape of the holes 43, 44, 45, it is preferable that the terminal connection portions 31, 32, 33 and the caulking 25, 26, 27 come into contact with each other at three or more of the holes 43, 44, 45.

(5-3) Modification 3
Although the variable resistor has been described as the input device 10 having the input / output unit 1, the input device 10 is not limited to the variable resistor. The input device 10 may have a combination of the input / output unit 1 and the substrate 3. The input / output unit 1 can be applied to an encoder and a rotary switch instead of the variable resistor. Further, in the input device 10, the number of terminals is three, but the number is not limited to this number. The number of terminals may be two or four or more. Even when four or more terminals are lined up, the pitch can be narrowed by nesting four or more holes corresponding to one-to-one in these four or more terminals. Further, the stress concentration point can be shifted when the triangular hole is crimped and fixed as compared with the case where the circular hole is crimped and fixed.

(5-4) Modification 4
Although the input device 10 having the input / output unit 1 has a plurality of (three in this case) holes 43, 44, 45 having the same triangular shape, the present invention is not limited to this configuration. For example, the three holes may be two adjacent holes, nested triangular holes, and the other may be a hole having a trapezoidal shape. Also in this case, the pitch can be narrowed by nesting the triangular holes.

(Summary)
As described above, the input device (10) of the first aspect includes a substrate (3) and a plurality of terminals (28; 29; 30). The substrate (3) has a plurality of holes (43; 44; 45) arranged in a second direction orthogonal to the first direction, which is the thickness direction. The plurality of terminals (28; 29; 30) are inserted one-to-one into the plurality of holes (43; 44; 45) of the substrate (3) and connected to the substrate (3). Each of the plurality of terminals (28; 29; 30) has a base (40) and a tubular protrusion (8). The base (40) is of the substrate (3) when the terminal (28; 29; 30) is inserted into the corresponding hole (43; 44; 45) among the plurality of holes (43; 44; 45). It is located on one of the two faces in the first direction. The tubular protrusion (8) protrudes from the base (40) toward a surface different from one of the two surfaces of the substrate (3) in the first direction, and the holes (43; 44; 45). Penetrate. The plurality of holes (43; 44; 45) and the portion of the protrusion (8) existing in the holes (43; 44; 45) are in a third direction orthogonal to both the first direction and the second direction. One end of the shape has a wide portion (50, 36) that is wider than the other end, and the wide portion (50) is arranged so as to be nested in the second direction.

According to this configuration, the eyelets (21; 22; 23) of the terminals (28; 29; 30) are arranged so that the wide portions (50) are nested, so that the distance between the eyelets (20) is narrowed. can do. That is, it is possible to narrow the pitch. Further, the input device (10) can be miniaturized.

In the input device (10) of the second aspect, in the first aspect, at least two of the plurality of holes (43; 44; 45) are triangular.

According to this configuration, at least two of the plurality of holes (43; 44; 45) are triangular, so that the distance between the terminals (28; 29; 30) of the input device (10) is reduced. Can be done. Further, even if an external force in the left-right direction (second direction) is applied to the terminals (28; 29; 30), the connection between the terminals (28; 29; 30) and the substrate (3) is less likely to be loosened.

In the input device (10) of the third aspect, in the second aspect, the at least two holes have a shape in which the corners of the triangle are chamfered to give a circular curvature.

According to this configuration, when forming the plurality of holes (43; 44; 45) of the substrate (3), the plurality of holes (43; 44; 45) can be easily machined. Further, since stress concentration occurs when a triangular corner is formed, it is possible to suppress the stress concentration by chamfering the corner to give a shape having a curvature of a circle.

In the input device (10) of the fourth aspect, in the second or third aspect, the at least two holes have a curved shape around the holes.

According to this configuration, the distance between the terminals (28; 29; 30) of the input device (10) can be reduced. Further, even if an external force in the left-right direction (second direction) is applied to the terminals (28; 29; 30), the connection between the terminals (28; 29; 30) and the substrate (3) is less likely to be loosened.

In the input device (10) of the fifth aspect, in any one of the second to fourth aspects, at least two of the plurality of terminals (28; 29; 30) corresponding to the at least two holes. Each of the terminals has a triangular shape at a portion penetrating the hole (43; 44; 45) of the protrusion (8).

According to this configuration, the terminals (28; 29; 30) and the substrate (3) are crimped and fixed by having a shape similar to each of the plurality of holes (43; 44; 45) provided in the substrate (3). When this is done, the shape becomes difficult to rotate.

In the input device (10) of the sixth aspect, in any of the second to fifth aspects, each of the plurality of holes (43; 44; 45) is triangular.

According to this configuration, the distance between the terminals (28; 29; 30) of the input device (10) can be reduced. Further, even if an external force in the left-right direction (second direction) is applied to the terminals (28; 29; 30), the connection between the terminals (28; 29; 30) and the substrate (3) is less likely to be loosened.

In the input device (10) of the seventh aspect, in any one of the first to sixth aspects, each of the plurality of terminals (28; 29; 30) is crimped (42) at the tip of the protrusion (8). ). The caulked portion (42) contacts the substrate (3) at a plurality of locations around the holes (43; 44; 45) on another surface of the substrate (3).

According to this configuration, when the terminal (28; 29; 30) and the hole (43; 44; 45) are crimped and fixed, if they are in contact with each other at a plurality of triangular points, the terminal (28; 29; Even if a force in the left-right direction (second direction) is applied to 30), the caulking fixing between the terminal (28; 29; 30) and the substrate (3) is difficult to loosen.

In the input device (10) of the eighth aspect, in the seventh aspect, the plurality of locations is three or more.

According to this configuration, if the terminals are crimped and fixed at three or more points, even if a force in the left-right direction (second direction) is applied to the terminals (28; 29; 30), the terminals (28; 29; 30) The caulking fixing with the substrate (3) is difficult to loosen.

10 Input device 3 Board 8 Protruding part 21, 22, 23 Eyelet 28, 29, 30 Terminal 40 Base 42 Caulking part 43, 44, 45 Hole 36, 50 Wide part

Claims (8)

A substrate having a plurality of holes arranged in a second direction orthogonal to the first direction, which is the thickness direction,
It is provided with a plurality of terminals that are inserted one-to-one into the plurality of holes of the substrate and connected to the substrate.
Each of the plurality of terminals
A base located on one of the two surfaces of the substrate in the first direction when the terminal is inserted into the corresponding hole among the plurality of holes.
It has a tubular projecting portion that projects from the base portion toward a surface different from the one surface of the two surfaces of the substrate in the first direction and penetrates the hole.
The plurality of holes and the portion of the protruding portion existing in the hole
A shape having a wide portion at one end in a third direction orthogonal to both the first direction and the second direction, which is wider than the other end.
In the second direction, the wide portions are arranged so as to be nested.
Input device. At least two of the plurality of holes are triangular.
The input device according to claim 1. The at least two holes have a shape in which the corners of a triangle are chamfered to give a circular curvature.
The input device according to claim 2. The at least two holes have a curved shape around the holes.
The input device according to claim 2 or 3. Of the plurality of terminals, each of the at least two terminals corresponding to the at least two holes has a triangular shape in a portion of the protruding portion penetrating the hole.
The input device according to any one of claims 2 to 4. Each of the plurality of holes has the triangular shape.
The input device according to any one of claims 2 to 5. Each of the plurality of terminals
A caulking portion is further provided at the tip of the protruding portion.
The crimped portion comes into contact with the substrate at a plurality of points around the hole on the other surface of the substrate.
The input device according to any one of claims 1 to 6. The plurality of locations are three or more locations.
The input device according to claim 7.

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