JP6917850B2 - Photoelectric switch and sensor unit - Google Patents

Description

The present invention relates to a photoelectric switch and a sensor unit.

The product (work) produced in the factory is conveyed by a conveying device such as a belt combiner, and it is detected by a photoelectric switch that it has arrived at a predetermined place. Generally, a photoelectric switch projects light toward a work or the like, receives reflected light from the work, and displays a numerical value indicating the amount of received light and a threshold value to be compared with this numerical value on a 7-segment display (Patent Document 1). ). When the photoelectric switch detects the work based on the received light amount and the threshold value, it outputs an ON signal indicating the detection.

Japanese Unexamined Patent Publication No. 2003-141961

As described above, the photoelectric switch is a relatively simple sensor that outputs a detection signal indicating whether or not the workpiece is detected. Therefore, a 7-segment display has been adopted as a display for many years. Photoelectric switches that do not have a display that displays numerical values still exist. However, in recent years, with the sophistication of photoelectric switches, it has become impossible to provide sufficient information to users with a 7-segment display. Therefore, the inventor of the present application has considered adopting a dot matrix display such as an OLED (organic light emitting diode). When the dot matrix display is arranged inside the housing of the photoelectric switch, the distance from the outer edge of the housing to the display surface of the dot matrix display becomes long, giving the user the impression that the display surface is deep. In addition, the information displayed on the dot matrix display becomes difficult for the user to see. Therefore, the inventor of the present application thought that if the dot matrix display was fixed to the outer surface of the housing, the displayed information would be easier for the user to see.

On the other hand, the dot matrix display has a large number of wires (gate line, signal line, power supply line, and ground line), and displays information by turning on / off the semiconductor switches arranged at the intersections of these wires. Many wires are connected to the controller via FPC cables. Since such a signal cable is required, it is difficult to fix the dot matrix display on the outer surface of the housing.

Therefore, an object of the present invention is to make the display in the photoelectric switch easy for the user to see.

The present invention is, for example,
Approximately rectangular parallelepiped housing and
A display unit that is the outer surface of the housing and is attached to the first surface,
A light emitting unit and a light receiving unit provided on the second surface located next to the first surface,
A reception unit provided on the first surface or the display unit and accepting operations,
A display control unit that displays on the display unit a threshold value adjusted through the reception unit and a signal value indicating the amount of light received by the light receiving unit.
A first substrate housed inside the housing and to which the display control unit is connected,
It has a signal cable for connecting the first board and the display unit, and has a signal cable.
The first surface has a hole-shaped or notched opening for passing the signal cable from the outside to the inside of the housing, and the signal cable is connected to the first substrate through the opening. Provided is a photoelectric switch characterized by being

According to the present invention, it is possible to make the display in the photoelectric switch easy for the user to see.

Perspective view showing a photoelectric switch Perspective view showing a plurality of connected photoelectric switches Explosion diagram showing photoelectric switch Perspective view showing a photoelectric switch Perspective view showing the positional relationship between the cover member, the display and the shield member. Diagram explaining the upper case etc. Diagram illustrating the relationship between the display and the signal cable The figure explaining the position of the slit The figure explaining the position of the slit The figure which shows the integrated signal cable and the shield member. Diagram illustrating the relationship between the display and the signal cable Sectional view of photoelectric switch Enlarged view of the cross section of the photoelectric switch

An embodiment of the present invention is shown below. The individual embodiments described below will help to understand various concepts such as superordinate, intermediate and subordinate concepts of the present invention. Further, the technical scope of the present invention is determined by the scope of claims, and is not limited by the following individual embodiments.

FIG. 1 is a perspective view showing a photoelectric switch. The photoelectric switch 1 has a substantially rectangular housing. Here, the z-axis corresponds to the longitudinal direction. The x-axis corresponds to the lateral direction. The y-axis corresponds to the height direction. The housing has approximately six outer surfaces. The six outer surfaces include the top surface, bottom surface, front surface, back surface, left side surface and right side surface. In FIG. 1, the upper surface, the front surface, and the right side surface are visible. The housing has a lower case 2 and an upper case 3. By fitting the lower case 2 and the upper case 3, an internal space for accommodating a control board or the like is formed. A part of the upper case 3 forms an upper surface. A display 5, a mode button 7, an active receiver button 8, an adjustment button 9, a slide switch 10, a set button 11, an indicator light 24, a clamp module 14, and the like are provided on the upper surface. The display 5 is a dot matrix display such as an OLED, and displays a threshold value, a light receiving amount, and the like. The display 5 is sandwiched and fixed by the outer surface of the upper case 3 and the cover member 4. The display 5 is provided so as to be offset to the front side from the center of the upper surface. The adjustment button 9 is a button for raising or lowering the threshold value or operating a menu. The menu is a menu displayed on the display 5 and having various setting items for setting the operation of the photoelectric switch 1. The mode button 7 is a button for switching an operation mode related to the amount of light projected or the like. The active receiver button 8 is a special button for projecting light from the photoelectric switch 1 to the outside through a light receiving fiber. When the photoelectric switch 1 detects that the active receiver button 8 is pressed down, the photoelectric switch 1 also serves as a light receiving fiber and emits light toward the outside while receiving light incident from the outside. This light is not a light for detecting a work, but a light for assisting the user in adjusting the optical axis. The light emitting element that outputs the assist light may be arranged in the center of the light receiving element, for example. In this case, the light receiving surface of the light receiving element is larger than the light emitting surface of the light emitting element. The slide switch 10 is a switch for selecting a set of a plurality of setting parameters. The set button 11 is a button for starting the automatic setting of the threshold value. When the photoelectric switch 1 detects that the set button 11 is pressed, the photoelectric switch 1 determines the threshold value according to the amount of received light. The indicator light 24 turns on or off when a work is detected, for example. The clamp module 14 is a module that clamps and holds the light projecting fiber and the light receiving fiber. A tubular hole 12 into which the light projecting fiber is inserted and a tubular hole 13 into which the light receiving fiber is inserted are provided on the front surface of the housing. An output cable is attached to the back of the housing. The cable bush 15 is a bush for holding the output cable.

A connector 16a and connecting portions 17a and 17b are provided on the right side surface of the housing. FIG. 2A shows that the plurality of photoelectric switches 1 are connected to each other by the connectors 16a and the connecting portions 17a and 17b, respectively, and fixed to the DIN rail 18. DIN is an abbreviation for German Standards Association. The incident end of the light projecting fiber 22 is inserted into the hole 12, and the exit end of the light receiving fiber 23 is inserted into the hole 13. In FIG. 2A, an openable and closable upper cover 19 that covers the upper surface of the housing is also shown. As shown in FIG. 2B, when the upper cover 19 has translucency, the upper surface of the upper cover 19 may not have a hole. This is because if the upper cover 19 has translucency, the user can check the display content of the display 5 even when the upper cover 19 is closed. When the upper cover 19 does not have translucency, a hole or a window may be provided on the upper surface of the upper cover 19 as shown in FIG. 2 (A). The upper cover 19 functions as a dust cover. As shown in FIGS. 2A and 2B, since the plurality of photoelectric switches 1 can be connected side by side, they are also called continuous sensors.

FIG. 3 is an explosion view of the photoelectric switch 1. A decorative member 20 may be provided on the rear end side of the upper cover 19. A rotating pin 19a is provided on the rear end side of the upper cover 19. The rotating pin 19a fits into the holding hole 19b provided on the rear end side of the upper case 3. As a result, the upper cover 19 is rotatably connected to the upper case 3. The upper cover 19 may be formed of a transparent member so that the user can check the information displayed on the display 5 even when the upper cover 19 is closed. A spine member 36 for supporting the display 5 is provided near the center of the upper case 3. Four fringes 47 are provided on the left and right sides of the spine member 36. The four fringes 47 are protrusions protruding upward from the upper case 3, and position the display 5 in the lateral direction (x direction). The four fringes 47 fit into the recesses of the cover member 4. Further, two claw portions 48 are provided on the left and right sides of the spine member 36. The claw portion 48 is fitted with a recess provided inside the central leg of the cover member, and the cover member 4 is fixed to the upper case 3. The recess may be a groove or a through hole. An opening 25 is provided on the rear end side of the display mounting portion centered on the spine member 36. The opening 25 is a through hole or a notch for passing the signal cable from the outer surface to the inner surface side of the upper case 3. The signal cable includes a power supply line for supplying electric power to the display 5 and a control line for supplying a control signal. The signal cable is connected to the control board 30. Here, the control board 30 may be a single board. If two substrates are provided in the x-axis direction, the length of the photoelectric switch 1 in the x-axis direction becomes long. Therefore, in this embodiment, only one control board 30 is provided in the x-axis direction. A controller 6 such as a CPU (Central Processing Unit) is mounted on the control board 30. The controller 6 displays the threshold value and the amount of received light on the display 5. On the control board 30, switches corresponding to the adjustment button 9, the mode button 7, the active receiver button 8, the slide switch 10, and the set button 11 are mounted. These buttons may be made of a resin such as POM (polyacetal). The upper cover 19, the cover member 4, and the housing may be basically made of polycarbonate. Further, an LED (light emitting diode) that supplies light to the light diffusing member of the indicator lamp 24 is also mounted on the control board 30. The control board 30 is provided with a connector 16a for communicating with another adjacent photoelectric switch 1 and receiving electric power. An element holder 26 is provided on the front surface side of the control board 30, and the light emitting element 32 and the light receiving element 33 are attached. The element holder 26 has a hole for the light projecting fiber 22 inserted from the hole 12 and a hole for the light receiving fiber 23 inserted from the hole 13. A clamp module 14 is arranged on the front surface side of the element holder 26 to hold the light projecting fiber 22 and the light receiving fiber 23. A fixture 28 for fixing to the DIN rail 18 and a metal cover 29 are attached to the bottom surface of the lower case 2. The metal cover 29 may serve as a heat radiator and an electromagnetic shield.

FIG. 4A is a perspective view of the photoelectric switch 1 in a state where the cover member 4 is fixed to the upper case 3. FIG. 4B is a perspective view of the photoelectric switch 1 in a state where the cover member 4 is not fixed to the upper case 3. Here, various buttons and indicators 5 are fixed to the upper case 3, and a control board 30 is also fixed to the upper case 3. The signal cable 51 that electrically connects the display 5 and the control board 30 passes through the opening 25, enters the inside of the housing, and is connected to the connector of the control board 30. A connector 16b is provided on the left side surface of the control board 30. The connector 16b of the photoelectric switch 1 is a female connector, and is fitted with a male connector 16a of another photoelectric switch 1 located to the left of the photoelectric switch 1 to be electrically connected.

As can be seen from FIG. 4A and the like, the height of the active receiver button 8 is lower than the height of the mode button 7 and the adjustment button 9. This is to prevent erroneous operation of the active receiver button 8.

FIG. 5 is a perspective view for explaining the cover member 4 in detail. The cover member 4 has two front legs 42, two central legs 43, and two rear legs 44. A window portion 40 is provided on the upper surface of the cover member 4. The user can see the display surface of the display 5 through the window 40. The window portion 40 is surrounded by four frames. The left frame 41a and the right frame 41b are thinner than the front frame 41d and the rear frame 41c. This is to secure the display area of the photoelectric switch 1 in the lateral direction. The rear frame 41c has a larger area than the other frames. This is because the rear frame 41c protects the IC or the like that controls the display 5. Character information or the like may be printed on the rear frame 41c. Further, since the rear frame 41c has a certain area, even if the user presses the adjustment button 9 with a finger, the display information of the display 5 is not easily hidden by the finger. That is, the rear frame 41 can sufficiently separate the display 5 from the button. Since the area of the front frame 41 is small, the indicator lamp 24 and the indicator 5 can be brought close to each other. As a result, the information transmission mechanism attracting attention from the user can be integrated in one place. A total of four notches 46 are provided on the right side surface and the left side surface of the cover member 4. The four notches 46 are fitted into the four fringes 47 provided in the upper case 3, and the cover member 4 is positioned and fixed with respect to the upper case 3. Recesses 45 are provided on the inner surface sides of the two central legs 43, respectively. The recess 45 fits into the claws 48 provided on the right side surface and the left side surface of the upper case 3, respectively. A shield member 50 may be adopted to protect the front surface, the bottom surface, the left side surface, and the right side surface of the display 5. The shield member 50 protects the front wall 50d that protects the front surface of the display 5, the bottom 50a that protects the bottom surface of the display 5, the right wall 50b that protects the right side of the display 5, and the left side of the display 5. It has a left wall 50c. The display 5 is sandwiched between the spine member 36 and the cover member 4 in a state of being covered with the shield member 50. The shield member 50 may be formed of an FPC (flexible printed circuit board).

FIG. 6A is a plan view showing the upper surface of the photoelectric switch 1. As shown in FIG. 6A, no switch or button is provided in the lateral direction of the display 5. Therefore, the dimension of the display 5 in the lateral direction can be sufficiently increased. The rear frame of the cover member 4 has an area on which characters and the like can be printed.

FIG. 6B shows the left side surface of the upper case 3. FIG. 6C shows the left side surface of the upper case 3 to which the control board 30 is attached. The terminal 52 of the signal cable 51 extending from the display 5 is connected to and fixed to the connector 16c mounted on the control board 30. Since the signal cable 51 enters the inside from the outside of the housing and is connected to the control board 30, it is formed of a thin and flexible FPC cable or the like.

FIG. 6D shows the photoelectric switch 1 with the lower case 2 attached. Fixing holes 63a and 63b are provided on the left side surface of the lower case 2. The connecting portions 17a and 17b of another photoelectric switch 1 located on the left side are inserted into the fixing holes 63a and 63b of the photoelectric switch 1, respectively. A hole is provided on the left side surface of the lower case 2 to expose the connector 16b, but in FIG. 6D, the lid 64 protects the hole.

<Arrangement of signal cable with respect to display>
FIG. 7A shows the right side surface of the display 5. The display 5 is formed by laminating a transparent member 70, an OLED layer 71, and a transparent base material 72 in the height direction. The material of the transparent member 70 and the transparent base material 72 is a transparent substrate (second substrate) containing glass, resin, or the like. The transparent electrode extending from the long side of the OLED layer 71 and the transparent electrode extending from the short side are formed on the bottom surface of the transparent member 70 and are electrically connected to the drive IC 54. The drive IC 54 is an integrated circuit that drives the display 5. The drive IC 54 is fixed to the bottom surface of the transparent member 70 by an adhesive 73. A signal cable 51 extending from the control board 30 is electrically connected to the terminal of the drive IC 54. In this way, the signal cable 51 is connected to the end portion of the display 5 in the longitudinal direction, that is, the terminal (connection portion 70a) provided on the short side side of the display 5. This makes it easy to secure the display area of the display 5 in the lateral direction. At the work manufacturing / inspection site, a plurality of photoelectric switches 1 are connected and used. Therefore, the length of the photoelectric switch 1 in the lateral direction is, for example, 5 mm or more and 14 mm or less. If the drive IC 54 and the signal cable 51 are attached in the lateral direction of the display 5, the display area of the display 5 becomes narrow. That is, the characters displayed on the display 5 become difficult to read. Therefore, it is preferable that the drive IC 54 and the signal cable 51 are not attached to the end portion (long side side) of the display 5 in the lateral direction.

FIG. 7B shows that the drive IC 54 is provided in the middle of the signal cable 51. This will help reduce the longitudinal length of the transparent member 70. The transparent electrode extending from the long side of the OLED layer 71 is connected to the signal cable 51 as a terminal (connection portion 70a) provided on the short side side of the display 5.

FIG. 7C shows that the spine member 36 of the upper case 3 is used as the base material instead of the transparent base material 72. This helps to make the display 5 thinner. That is, it is useful for lowering the height of the display 5. The spine member 36 is provided with an opening 25, and the signal cable 51 passes through the opening 25 and enters the inside of the housing. The drive IC 54 is arranged so as to be located in the middle of the signal cable 51 and inside the housing. The transparent electrode extending from the long side of the OLED layer 71 and provided on the transparent member 70 is connected to the signal cable 51 as a terminal (connection portion 70a) provided on the short side of the display 5.

As described above, the display 5 has an OLED layer 71 that functions as a display layer and a transparent member 70. The transparent electrode functions as a signal line from the OLED layer 71 to the signal cable 51. The transparent electrode is provided near the interface between the OLED layer 71 and the transparent member 70. The cover member 4 covers the side surface near the interface between the OLED layer 71 and the transparent member 70. Since the vicinity of the interface is easily damaged, the cover member 4 protects the vicinity of the interface.

<Arrangement of cable passages>
FIG. 8A shows a schematic cross-sectional view of the upper case 3. 8 (B) to 8 (E) show perspective views of the display mounting portion. In the upper case 3, the first upper surface 38 on which the set button 11 is arranged, the second upper surface (front wall 37), the third upper surface (spine member 36), the fourth upper surface (rear wall 35), the adjustment button 9, and the like are arranged. The sixth upper surface 34 and the like are included. The first upper surface 38 and the sixth upper surface 34 may be referred to as an upper stage, and the spine member 36 may be referred to as a lower stage. As described above, the upper surface of the upper case 3 may have a step. The spine member 36 may be referred to as a mounting portion. The mounting portion may be solid from the viewpoint of improving the rigidity. As shown in FIG. 8A, the second upper surface (front wall 37), the third upper surface (spine member 36), and the fourth upper surface (rear wall 35) form recesses in a cross section along the longitudinal direction of the housing. is doing. The display 5 is pressed against the wall surface (front wall 37) on the side closer to the second surface of the two wall surfaces forming the recess. According to FIGS. 8A and 8B, the opening 25 is a slit-shaped hole provided on the rear end side of the spine member 36. This suggests that the opening 25 may be provided on the anterior end side of the spine member 36. According to FIG. 8C, the opening 25 is provided below the rear wall 35. This suggests that the opening 25 may be provided below the front wall 37. An opening 25 may be provided at the connecting portion between the spine member 36 and the posterior wall 35 (anterior wall 37). That is, a slit may be formed across the spine member 36 and the posterior wall 35 (anterior wall 37). FIG. 8D shows that the opening 25 is provided in the center of the spine member 36. Here, the area of the opening 25 is basically smaller than the bottom area of the display 5. This is because the bottom surface of the display 5 is supported by the spine member 36. However, it is sufficient that the bottom surface of the display 5 is supported by either two long frames extending in the longitudinal direction of the spine member 36 or two short frames extending in the lateral direction of the spine member 36. Is. FIG. 8E shows that a notch-shaped opening 25 is provided on the right side of the spine member 36. This suggests that a notch-shaped opening 25 may be provided on the left side of the spine member 36. If the signal cable 51 is a flexible and bendable cable such as an FPC cable, the degree of freedom in arranging the opening 25 will increase. The case of FIG. 8 (E) will be a case in which the signal cable 51 is mainly connected to the long side of the display 5. However, if the signal cable 51 is an FPC cable, the signal cable 51 extending from the short side of the display 5 is bent so as to pass through the notch-shaped opening 25 shown in FIG. 8 (E). It would be possible.

FIG. 9A shows an opening 25 provided at the rear end of the spine member 36. As shown in FIG. 9A, the housing of the photoelectric switch 1 is elongated. Further, focusing on the spine member 36, it can be seen that the display mounting portion exists up to the edge of the housing. This is useful for expanding the display area of the display device 5. Further, the fact that the opening 25 is provided on the rear end side of the spine member 36 also helps to expand the display area of the display device 5. FIG. 9B shows a signal cable 51 that is bent to pass through the opening 25. As described above, the signal cable 51 extends from the outside to the inside of the upper case 3 through the opening 25.

<Integration of signal cable shield>
FIG. 10 shows a signal cable 51 configured by the FPC 60. Here, a display module including the display 5 and the drive IC 54 is also shown together with the signal cable 51. The signal cable 51 is integrated with the shield member 50 by the FPC 60. The shield member 50 has a metal layer such as copper and a base film layer. By folding the FPC 60 at a right angle at the crease 56c, the right wall 50b is formed. By folding the FPC 60 at a right angle at the crease 56d, the left wall 50c is formed. The front wall 50d is formed by folding the FPC 60 at a right angle at the crease 56e. In order to make the FPC 60 easier to fold, the metal layer may be provided with a plurality of holes 55 along the creases 56c, 56d, 56e. The metal layer is connected to the ground wire of the signal cable 51. As a result, the shield member 50 can protect the OLED (display 5) from electrical noise.

Further, by folding the FPC 60 in a valley along the crease 56a, the shield member 50 covers the bottom surface of the display 5. The U-shaped portion of the signal cable 51 shown in FIG. 9B is formed by overlapping the signal wiring portion 53a and the shield wiring portion 53b of the FPC 60. That is, the signal wiring portion 53a and the shield wiring portion 53b overlap by folding the FPC 60 in a valley along the crease 56a. Further, when the signal wiring portion 53a and the shield wiring portion 53b overlap each other, the portion where the signal wiring portion 53a and the shield wiring portion 53b overlap is bent into a U shape when the signal wiring portion 53a and the shield wiring portion 53b overlap each other. Further, by bending the FPC 60 at a right angle at the crease 56b, the mounting surface of the terminal 52 becomes parallel to the control board 30.

11 (A) to 11 (E) show the positional relationship between the display 5 and the signal cable 51. FIG. 11A is a plan view of the display 5 to which the signal cable 51 is connected. FIG. 11B is a diagram showing the left side surface of the display 5. The signal cable 51 extending from the rear end side of the display 5 is bent in a U shape by an overlapping portion 53 formed by overlapping the signal wiring portion 53a and the shield wiring portion 53b. Further, by bending the signal cable 51 at a right angle at the crease 56b, the mounting surface of the terminal 52 becomes parallel to the control board 30. 11 (C) to 11 (E) are perspective views of the display 5. The mounting surface of the terminal 52 is parallel to the control board 30, but is orthogonal to the bottom surface of the display 5.

The terminal 52 may be composed of, for example, eight pins. The VCS pin is a pin that supplies electric power to the drive IC 54. The VSS pin is a pin connected to ground (providing a ground potential). The RES pin is a pin that supplies a reset signal for starting or restarting the drive IC 54 to the drive IC 54. The SCLK pin is a pin that supplies a clock for serial communication. The SDA pin is a pin for transmitting data for serial communication. The IREF pin is a pin for adjusting the current flowing through the OLED layer 71. The VCOMH pin is a pin for connecting an external capacitor and the drive IC 54 in order to stabilize the internal power supply of the drive IC 54. The VDD pin is a pin that supplies a voltage for logic operation of the drive IC 54.

The shield member 50 may be a shield sheet made of a member different from the signal cable 51.

<Shield>
12 (A) is a cross-sectional view taken along the line AA obtained by cutting the photoelectric switch 1 along the AA cutting line of FIG. 6 (D). 12 (B) is a cross-sectional view taken along the line BB of FIG. 6 (D) obtained by cutting the photoelectric switch 1. FIG. 13 is an enlarged view showing a part of FIG. 12 (A) in an enlarged manner. As shown in FIGS. 12A and 13, the claws 48 of the upper case 3 are fitted into the recesses 45 provided in the left and right central legs 43 of the cover member 4. As shown in FIGS. 12A, 12B and 13, the height of the right wall 50b and the height of the left wall 50c of the shield member 50 are the OLED layer 71 of the display 5 and the transparent group, respectively. The height is such that it covers the material 72 and at least a part of the transparent member 70. The transparent member 70 and the transparent base material 72 are glass and the like. Glass is more fragile than resin. Therefore, the shield member 50 protects the transparent member 70 and the transparent base material 72 from impact and the like. Further, the OLED layer 71 is further protected from electrical noise by the shield member 50. The bottom surface of the display 5 is covered with the bottom portion 50a of the shield member 50. The spine member 36 makes it difficult to transfer the heat generated from the control board 30 to the display 5.

As shown in FIG. 12B, the tip portions of the left and right front legs 42 of the cover member 4 are sandwiched between the lower case 2 and the upper case 3. As a result, the cover member 4 is firmly fixed to the housing.

<Summary>
As described with reference to FIG. 1 and the like, the photoelectric switch 1 has a substantially rectangular parallelepiped housing. That is, the housing is elongated. The display 5 is an example of a display unit which is an outer surface of the housing and is attached to the first surface. In the past, since the display was housed inside the photoelectric switch housing, there was a distance from the outer surface of the housing to the display, making it difficult to see the display information. In this embodiment, since the display 5 is attached to the outer surface of the housing, the distance from the outer edge of the photoelectric switch 1 to the display 5 is shortened, and the display information of the display 5 is easy to see. The light emitting element 32, the hole 12, and the like are examples of a light projecting unit provided near the second surface located next to the first surface. The light receiving element 33 and the hole 13 are examples of a light receiving portion provided near the second surface located next to the first surface. The adjustment button 9 and the like are provided on the front surface or the display unit, and are an example of a reception unit that accepts user operations. The controller 6 is an example of a display control unit that displays a threshold value adjusted through the reception unit and a signal value indicating the amount of light received by the light receiving unit on the display unit. The control board 30 is an example of a control board (first board) that is housed inside a housing and to which a display control unit is mounted or connected. The signal cable 51 is an example of a signal cable that connects the control board 30 and the display 5. As shown in FIGS. 6 (A) to 6 (C), the display 5 has a connection portion connected to the signal cable 51. The connection portion of the display 5 is arranged between the display area and the signal cable 51 in the longitudinal direction of the housing. As shown in FIGS. 7 (A) to 7 (C) and FIG. 10, the display 5 has two short sides and two long sides, and one of the two short sides is the short side. The signal cable 51 may be connected to the side of. This provides a connection structure for the signal cable 51 that can secure a sufficient display area for the display 5 in the photoelectric switch 1.

The display unit may have a dot matrix display and a drive circuit for driving the dot matrix display. The display 5 is an example of a dot matrix display. The drive IC 54 is an example of a drive circuit. As shown in FIG. 7A and the like, the drive IC 54 is provided at the end of the display 5 in the longitudinal direction, and the signal cable 51 is connected to the drive IC 54. That is, the drive IC 54 may be provided between the display 5 and the connection portion in the longitudinal direction of the housing. The display 5 and the drive IC 54 may be arranged on the same member. According to FIG. 7A, the OLED layer 71 of the display 5 and the drive IC 54 are arranged on the transparent member 70.

As shown in FIGS. 11B and 11C, the signal cable 51 has a first portion for connecting the display 5 and the drive IC 54 and a second portion for connecting the drive IC 54 and the control board 30. You may have. As shown in FIG. 10, the signal cable 51 may be an FPC cable. This makes it easier to connect the display 5 arranged outside the housing and the control board 30 arranged inside the housing.

The housing may have an upper case 3 and a lower case 2. In this case, the first surface is the upper surface of the upper case 3.

According to the present invention, the opening 25 is provided on the outer surface of the housing, particularly on the upper surface. The opening 25 makes it possible to arrange the signal cable 51 from the inside to the outside of the housing, and makes it possible to attach the display 5 to the outer surface of the housing. That is, the signal cable 51 is connected to the control board 30 via the opening 25. Since the display 5 is provided on the outer surface of the housing, it is difficult to give the user the impression that the display 5 is arranged in the back. Therefore, the display 5 is easy for the user to see. The side of the short side of the display 5 to which the signal cable 51 is connected may be the side of the short side of the two short sides of the display 5 that is farther from the second side (front surface of the display 5). good. In this case, the opening 25 may be provided on the rear end side of the spine member 36 or the like. The side of the short side of the display 5 to which the signal cable 51 is connected may be the side of the short side of the two short sides of the display 5 that is closer to the second surface (front surface). In this case, the opening 25 may be provided on the front end side of the spine member 36 or the like. The spine member 36 of the upper case 3 is supported by the control board 30. This helps to improve the rigidity of the housing. Further, by making the thickness of the spine member 36 thicker than the thickness of other parts of the upper case 3, the configuration of the upper case 3 itself is improved. In particular, by increasing the rigidity of the spine member 36, it becomes easy to protect the display 5.

As described with reference to FIGS. 8A to 8E, the first surface (upper surface) of the upper case 3 has an opening 25. The opening 25 functions as a hole-shaped or notched-shaped passing portion for passing the signal cable 51 from the outside to the inside of the housing. As shown in FIG. 8B and the like, the opening 25 may be a slit provided along the lateral direction (x-axis direction) of the first surface. As shown in FIG. 8E and the like, the opening 25 may be a slit provided along the longitudinal direction (z-axis direction) of the first surface. As shown in FIG. 7C, the drive IC 54 may be housed inside the housing. This reduces the dimensions of the mounting portion of the display 5. As shown in FIG. 1 and the like, the longitudinal direction of the display 5 and the longitudinal direction of the first surface are parallel.

As shown in FIG. 5 and the like, the cover member 4 is adopted as a holding member for holding the display 5 provided on the outer surface of the housing. As a result, the display 5 can be arranged on the outer surface of the housing, and the information displayed on the display 5 can be easily seen by the user. By arranging the cover member 4 on the outside of the housing in this way, the display area of the display 5 can be increased. However, if the display 5 is provided on the outer surface of the housing, the display 5 is susceptible to an impact from the outside. Therefore, the cover member 4 has a role of protecting the display 5. Further, as shown in FIGS. 5 and 10, the shield member 50 is an example of a shield member provided on at least a part of the side surface of the display 5. As shown in FIG. 13 and the like, the cover member 4 is an example of a cover member that sandwiches the shield member 50 with the side surface of the display 5 and covers at least a part of the side surface of the display 5. In this way, the shield member 50 also has a role of protecting the display 5 from impact.

As shown in FIG. 5, the cover member 4 may have a window portion 40 that exposes the display area of the display device 5. The cover member 4 may be configured to cover the non-display area of the display 5. The non-display area is a portion of the upper surface of the display 5 that does not display information.

Of the four frames located around the window portion 40 in the cover member 4, the thickness of one frame (eg, right frame 41b, left frame 41a) located at the longitudinal end of the window portion 40 is the window portion. It is thicker than the thickness of two frames (eg, front frame 41d and rear frame 41c) located at both ends in the lateral direction of 40. This makes it easy to secure the display area of the display 5 in the lateral direction. The cover member 4 may be configured to engage with a protrusion protruding from the first surface. For example, a protruding portion (fringe 47) protruding from the upper surface of the upper case 3 may engage with the notch 46 of the cover member 4.

The shield member 50 may be electrically connected to the ground wire of the signal cable 51. As a result, the shield member 50 reduces the influence of electrical noise on the display 5.

As shown in FIG. 13, the length of the short side of the first surface of the upper case 3 is the length of the short side of the display 5 and the side surfaces (center leg 43) located at both ends of the cover member 4 in the lateral direction. It is approximately equal to the sum of the thickness and the thickness of the shield member 50 (right wall 50b, left wall 50c). This makes it possible to bring the length of the display 5 in the lateral direction closer to the length of the upper surface of the photoelectric switch 1 in the lateral direction while protecting the display 5 with the shield member 50. That is, it becomes easy to increase the size of the characters that can be displayed on the display device 5.

As shown in FIG. 10, the signal cable 51 and the shield member 50 may be an integrated FPC cable. This makes it possible to reduce the number of parts. Further, the ground wire to the shield member 50 can be easily integrated with the signal cable 51.

As shown in FIGS. 10 and 11B, the FPC cable may be bent at at least one place. Further, a part of the shield member 50 and a part of the signal cable 51 may be folded.

The shield member 50 protects the first region (bottom 50a) that covers the bottom surface of the display 5, the second region (right wall 50b) that protects the first side surface of the display 5, and the second side surface of the display 5. It may have a third region (left wall 50c) and a fourth region (front wall 50d) that protects the third side surface of the display 5. As shown in FIG. 10, the second region, the third region, and the fourth region may be connected to the first region.

The upper cover 19 is an example of an openable / closable lid that covers the reception portion and the display 5 covered by the cover member 4. As a result, oil droplets generated at the factory are less likely to adhere to the adjustment button 9 and the display 5. In addition, the adjustment button 9 and the display 5 are less likely to be damaged. The cover member 4 is a cover that covers a part of the display 5, and is provided on the outside of the first surface of the housing. As shown in FIGS. 6 (B) and 9 (B), the height of the upper surface of the cover member 4 and the height of the first surface on which the receiving portion is provided are substantially the same in the height direction of the housing. It may be.

As shown in FIG. 1 and the like, the opening 25 may be covered by the cover member 4 or the display 5. This makes it difficult for foreign matter to enter the inside of the housing through the opening 25.

Characters may be written on the surface of one frame (eg, rear frame 41c) located at the end in the longitudinal direction of the window portion 40. For example, when a transmissive fiber is used, the indicator light 24 turns on when a work is detected, D-ON (dark on), and the indicator light 24 turns off when a work is detected, L-ON (light). There is an operation mode such as (on). In this case, the display 5 may display a mark (eg, an arrow mark or the like) printed on the rear frame 41c that indicates either “L-ON” or “D-ON”. Since the rear end of the display 5 and the rear frame 41c are adjacent to each other, the display 5 may display the display information linked with the information displayed on the rear frame 41c.

As shown in FIG. 7A, the display 5 includes a transparent member (transparent member 70), an OLED (OLED layer 71) provided on the lower surface side of the transparent member, and a base provided on the lower surface side of the OLED. It may have a material (transparent base material 72, spine member 36). The cover member 4 is provided so as to protect at least the OLED layer 71. As a result, damage to the OLED layer 71 and the influence of electrical noise are reduced.

As shown in FIG. 13, the thickness of the cover member 4 is thinner than the thickness of the housing (upper case 3 and lower case 2). This makes it possible to make the length of the display 5 in the lateral direction as long as possible. In addition, the display area of the display 5 can be increased, and the size of the displayed characters can be increased.

In the above embodiment, the photoelectric switch 1 is adopted as an example of the sensor unit. However, the sensor unit may be a sensor unit that detects another physical quantity such as a pressure sensor. Although the light receiving element 33 is an example of a detection unit, it may be a detection element that detects a physical quantity (eg, a light receiving amount or pressure) detected from a detection target and outputs a detection signal according to the physical quantity. The display 5 is an example of a display unit that displays a physical quantity detected by the detection unit. The indicator light 24, an output cable to the outside, and the like are examples of an output unit that outputs a comparison result between the physical quantity detected by the detection unit and the threshold value. The adjustment button 9 is an example of a reception unit or an operation unit that accepts a threshold value adjustment operation. The adjustment button 9 is an example of a threshold value adjusting unit that adjusts the threshold value. The controller 6 is an example of a display control unit that displays a threshold value adjusted through the reception unit and a signal value indicating a physical quantity detected by the detection unit in the display area of the display unit. The connection portion of the display 5 is arranged between the adjustment button 9 and the display area (OLED layer) of the display 5.

As shown in FIG. 3, the lower case 2 is a lower case having an open cross section and a concave cross section. The upper case 3 is an upper case configured to cover the upper surface of the lower case 2. The housing of the photoelectric switch 1 is formed by the upper case 3 and the lower case 2. The control board 30 is an example of the first board, and is housed in the lower case 2 so as to face the first surface and the third surface located next to the second surface. Here, the first surface is the upper surface of the upper case 3. The third surface is, for example, connecting portions 17a and 17b. More precisely, the third surface is one of the inner surfaces forming the lower case 2.

Claims (16)

Approximately rectangular parallelepiped housing and
A display unit that is the outer surface of the housing and is attached to the first surface,
A light emitting unit and a light receiving unit provided on the second surface located next to the first surface,
A reception unit provided on the first surface or the display unit and accepting operations,
A display control unit that displays on the display unit a threshold value adjusted through the reception unit and a signal value indicating the amount of light received by the light receiving unit.
A first substrate housed inside the housing and to which the display control unit is connected,
It has a signal cable for connecting the first board and the display unit, and has a signal cable.
The first surface has a hole-shaped or notched opening for passing the signal cable from the outside to the inside of the housing, and the signal cable is connected to the first substrate through the opening. A photoelectric switch characterized by being used. The photoelectric switch according to claim 1, wherein the opening is a slit provided along the lateral direction of the first surface. The display unit includes a dot matrix display and a drive circuit for driving the dot matrix display. The drive circuit is provided at an end portion of the display unit in the longitudinal direction, and the signal cable is connected to the display unit. The photoelectric switch according to claim 1 or 2. The photoelectric switch according to claim 1, wherein the opening is a slit provided along the longitudinal direction of the first surface. The display unit includes a dot matrix display and a drive circuit for driving the dot matrix display. The drive circuit is provided at the end of the display unit in the lateral direction, and the signal cable is connected to the display unit. The photoelectric switch according to claim 1, wherein the photoelectric switch is provided. The display unit has a dot matrix display.
The signal cable has a first portion for connecting the dot matrix display and a drive circuit for driving the dot matrix display, and a second portion for connecting the drive circuit and the first substrate. The photoelectric switch according to claim 2. The photoelectric switch according to claim 6, wherein the drive circuit is housed inside the housing. The photoelectric switch according to any one of claims 1 to 7, wherein the signal cable is an FPC cable. The photoelectric switch according to any one of claims 1 to 8, wherein the longitudinal direction of the display unit and the longitudinal direction of the first surface are parallel to each other. The first surface has an upper stage and a lower stage.
The opening is provided in the lower stage.
The photoelectric switch according to any one of claims 1 to 9, wherein the reception unit is provided in the upper stage. The photoelectric switch according to claim 10, wherein the display unit is provided in the lower stage. The first surface has a mounting portion on which the display unit is mounted.
The above-mentioned placing portion has a recess in a cross section along the longitudinal direction of the housing.
The display unit according to any one of claims 1 to 9, wherein the display unit is pressed against a wall surface on the side closer to the second surface of the two wall surfaces forming the recess. Photoelectric switch. The first surface has a mounting portion on which the display unit is mounted.
The photoelectric switch according to any one of claims 1 to 12, wherein the above-described mounting portion is solid. The photoelectric switch according to any one of claims 1 to 13, wherein a cover member that covers a part of the display unit is attached to the outside of the first surface of the housing. The photoelectric switch according to claim 14, wherein the height of the upper surface of the cover member and the height of the surface on which the receiving portion is provided are substantially the same in the height direction of the housing. Approximately rectangular parallelepiped housing and
A display unit that is the outer surface of the housing and is attached to the first surface,
A detection unit provided on the second surface located next to the first surface and outputting a detection signal according to the physical quantity detected from the detection target.
A reception unit provided on the first surface and accepting operations,
A display control unit that displays a threshold value adjusted through the reception unit and a signal value indicating a physical quantity detected by the detection unit on the display unit.
A control board housed inside the housing and on which the display control unit is mounted,
It has a signal cable for connecting the control board and the display unit, and has a signal cable.
The first surface has a hole-shaped or notched opening for passing the signal cable from the outside to the inside of the housing, and the signal cable is connected to the control board through the opening. A sensor unit characterized by being

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