JP7072682B2 - In-vehicle equipment - Google Patents

Description

The present invention relates to an in-vehicle device mounted on a vehicle.

Some railroad vehicles are equipped with a vehicle display device near the door that displays information including stop stations, route maps, news, and the like. An example of this type of vehicle display device is disclosed in Patent Document 1.

Japanese Unexamined Patent Publication No. 2015-24740

The vehicle display device disclosed in Patent Document 1 receives power from a power supply device provided in a railway vehicle, and controls the display content according to a signal transmitted from a display control device mounted on the railway vehicle. .. A cable for supplying electric power, a cable for transmitting and receiving commands, and the like are connected to this vehicle display device. In a railroad vehicle, for example, the difference between the temperature inside the vehicle and the outside air temperature may cause dew condensation, and water droplets may adhere to a cable or the like connected to a vehicle display device. Water droplets adhering to the cable move vertically downward along the cable due to the influence of gravity. Water droplets moving along the cable in this way may reach the terminals of the vehicle display device to which the cable is connected. Contact of water droplets with the terminals may cause a failure of the vehicle display device, which is not preferable. This problem is not limited to the display device for vehicles, and the same applies to any in-vehicle device mounted on a railway vehicle.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an in-vehicle device that prevents water droplets adhering to the cable from reaching the connection portion between the display terminal constituting the in-vehicle device and the cable. And.

In order to achieve the above object, the in-vehicle device of the present invention is an in-vehicle device mounted on a vehicle, and includes a display terminal, a housing, and a guide. The housing houses the display terminal. The guide is arranged so that the cable having one end connected to the display terminal passes through a position lower than the vertical position of one end connected to the display terminal while the display terminal is in the reference posture during operation. Guide it to be pulled out of the body. The guide is composed of two openings located vertically spaced apart from each other on the horizontally intersecting surfaces of the housing with the display terminal in the reference position. The vertical position of one of the two openings is lower than the vertical position of one end connected to the display terminal, and the vertical position of the other of the two openings is the vertical position of one end connected to the display terminal. Higher than the position of. The other end of the cable is pulled out of the housing from an opening whose vertical position is lower than the vertical position of one end connected to the display terminal .

According to the present invention, the guide passes a cable having one end connected to the display terminal at a position lower than the vertical position of one end connected to the display terminal while the display terminal is in the reference posture during operation. Is arranged and guided to be pulled out to the outside of the housing. Therefore, it is possible to prevent water droplets adhering to the cable from reaching the connection portion between the display terminal and the cable along the cable.

The figure which shows the arrangement position of the display device for a vehicle which concerns on Embodiment 1 of this invention. Perspective view of the vehicle display device according to the first embodiment. Rear view of the vehicle display device according to the first embodiment. A perspective view showing the back surface of the vehicle display device according to the first embodiment. Rear view of the vehicle display device according to the first embodiment. Perspective view of the vehicle display device according to the first embodiment. Rear view of the vehicle display device according to the first embodiment. Perspective view of the vehicle display device according to the second embodiment of the present invention. Rear view of the vehicle display device according to the second embodiment A perspective view showing the back surface of the vehicle display device according to the second embodiment. Rear view of the vehicle display device according to the third embodiment of the present invention. A perspective view showing the back surface of the vehicle display device according to the third embodiment. Rear view of the first modification of the vehicle display device according to the embodiment. A perspective view of a second modification of the vehicle display device according to the embodiment. Rear view of the second modification of the vehicle display device according to the embodiment. Rear view of the second modification of the vehicle display device according to the embodiment. Rear view of a third modification of the vehicle display device according to the embodiment Rear view of the fourth modification of the vehicle display device according to the embodiment. A perspective view showing the back surface of a fourth modification of the vehicle display device according to the embodiment.

Hereinafter, the in-vehicle device according to the embodiment of the present invention will be described in detail with reference to the drawings. In the figure, the same or equivalent parts are designated by the same reference numerals.

(Embodiment 1)
As an example of in-vehicle equipment provided in a railway vehicle, there is a display device that displays information such as a stop station, a route map, and news. An in-vehicle device according to the first embodiment will be described by taking a display device provided on both sides of a door of a railway vehicle as an example. As shown in FIG. 1, the railroad vehicle 1 is composed of a plurality of vehicles 2. Further, each vehicle 2 is provided with a plurality of vehicle display devices 10 and 20. Specifically, the vehicle display device 10 is provided on the left side when viewed from the passengers of each door 3 provided in each vehicle 2, and the vehicle display device 20 is provided on the right side when viewed from the passengers on each door 3.

A cable 11 is connected to each of the vehicle display devices 10 and 20. The cable 11 includes a power supply line, a signal line, and the like, and performs power supply, signal transmission / reception, and the like. One end of each cable 11 is connected to an electronic device included in the vehicle display devices 10 and 20, specifically, a display terminal 13 described later. The other end of each cable 11 is connected to the control device 4 mounted on each vehicle 2. The control device 4 is composed of, for example, a display control device that controls the vehicle display devices 10 and 20. Further, the control device 4 mounted on each vehicle 2 is connected to each other by a signal line 5 drawn through a plurality of vehicles 2 of the railway vehicle 1. The control device 4 transmits and receives control information for controlling the vehicle display devices 10 and 20 mounted on each vehicle 2 to and from each other. In FIG. 1, the Z axis indicates the vertical direction, the Y axis indicates the traveling direction of the railway vehicle 1, and the X axis indicates the sleeper direction. The X-axis, Y-axis, and Z-axis are orthogonal to each other.

As shown in FIG. 2, the vehicle display device 10 includes a display terminal 13 having a screen for displaying an image, a housing 12 accommodating the display terminal 13, and a cable 11 having one end connected to the display terminal 13. It is provided with a guide that is arranged through a position lower than the vertical position of one end connected to the electronic device and is guided to the outside of the housing 12 while the electronic device is in the reference posture during operation. ..
The reference posture during operation means the posture in the standard operating state of the electronic device. In the case of the vehicle display device 10 provided with the display terminal 13 as an electronic device, the reference posture is a state in which the longitudinal direction or the lateral direction of the screen of the display terminal 13 is horizontal, in other words, the vehicle display device 10 is mounted. It means a state in which the railroad vehicle 1 is horizontally located.
The guide is composed of openings 122 and 123, which will be described later, formed on the side surface of the housing 12. FIG. 2 shows the front of the vehicle display device 10 located on the left side of the door 3 when viewed from the passenger in FIG. The image displayed on the screen is composed of still images, moving images, and the like.

As shown in FIGS. 3 and 4, the display terminal 13 has a terminal 13a to which one end of the cable 11 is connected. 3 and 4 are views showing the back surface of the vehicle display device 10 located on the left side of the door 3 when viewed from the passengers in FIG. 1. Further, FIG. 3 is a rear view of the vehicle display device 10 in a state where the railroad vehicle 1 is positioned horizontally. The display terminal 13 displays information on the screen according to the control signal sent from the control device 4 via the cable 11 connected to the terminal 13a. Further, in the present embodiment, the terminal 13a is arranged so that the insertion port for connecting one end of the cable 11 faces in the Y-axis direction in a state where the railway vehicle 1 is located horizontally.

As shown in FIG. 2, the housing 12 has an opening 121 on a main surface 12a orthogonal to the X-axis. Although not shown, the opening 121 is closed by, for example, transparent glass. Further, the housing 12 has openings 122 and 123 that serve as guides on the side surface 12b orthogonal to the Y axis. Further, as shown in FIGS. 3 and 4, the housing 12 has a space 14 for arranging the cable 11 inside.
As shown in FIG. 2, the housing 12 accommodates the display terminal 13 with the screen of the display terminal 13 facing the opening 121.

As shown in FIG. 3, the openings 122 and 123 have a cable 11 having one end connected to the display terminal 13 in a vertical direction at one end connected to the display terminal 13 with the railroad vehicle 1 horizontally positioned. It is arranged through a position lower than the position of and is guided to be pulled out to the outside of the housing 12. Specifically, the openings 122 and 123 are located vertically spaced apart from each other on the side surface 12b. The vertical position of the opening 122 is higher than the vertical position H1 at one end of the cable 11 connected to the display terminal 13 in the state where the railroad vehicle 1 is positioned horizontally. Further, the vertical position of the opening 123 is the vertical position H1 of one end of the cable 11 connected to the display terminal 13, that is, the vertical position of the terminal 13a when the railroad vehicle 1 is horizontally located. Lower.

One end of the cable 11 is connected to the terminal 13a, and the other end of the cable 11 is pulled out to the outside of the housing 12 through the opening 123 and connected to the control device 4. The vertical position of the opening 123 is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Therefore, the cable 11 is arranged in the space 14 through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is horizontally located.

Water droplets may adhere to the cable 11 of the vehicle display device 10 having the above configuration due to dew condensation or the like. Due to the influence of gravity, the water droplets move downward along the cable 11 in the vertical direction. Since the opening 123 is lower than the vertical position of one end of the cable 11, in other words, the terminal 13a is located above the opening 123 in the vertical direction, water droplets are prevented from reaching the terminal 13a through the cable 11. ..

As described above, according to the vehicle display device 10 having the above configuration, it is possible to prevent water droplets from reaching the terminal 13a through the cable 11 in a state where the railway vehicle 1 is positioned horizontally.

Next, the vehicle display device 20 located on the right side of the door 3 when viewed from the passenger in FIG. 1 will be described with reference to FIGS. 6 and 7. The basic configuration of the vehicle display device 20 shown in FIGS. 6 and 7 is the same as that of the vehicle display device 10 shown in FIGS. 2 to 5. The housing 12 included in the vehicle display device 20 is a housing 12 included in the vehicle display device 10 rotated by 180 ° around the X axis. Therefore, as shown in FIG. 7, the vertical position of the opening 123 is higher than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state where the railroad vehicle 1 is horizontally located. Further, the vertical position of the opening 122 is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state where the railroad vehicle 1 is horizontally located. The display terminal 13 has a function of rotating an image by 180 ° and displaying it on a screen when it is arranged in a state of being rotated by 180 °.

One end of the cable 11 included in the vehicle display device 20 is connected to the terminal 13a, and the other end of the cable 11 is drawn out to the outside of the housing 12 through the opening 122 and connected to the control device 4. Since the vertical position of the opening 122 is lower than the vertical position of one end of the cable 11 connected to the display terminal 13, the cable 11 is attached to the display terminal 13 in a state where the railway vehicle 1 is horizontally positioned. It is arranged in the space 14 through a position lower than the vertical position of one end of the connected cable 11.

Water droplets may adhere to the cable 11 of the housing 12 of the vehicle display device 20 having the above configuration due to dew condensation or the like. Due to the influence of gravity, the water droplets move downward along the cable 11 in the vertical direction. Since the opening 122 is lower than the vertical position of one end of the cable 11, in other words, the terminal 13a is located above the opening 122 in the vertical direction, water droplets are prevented from reaching the terminal 13a through the cable 11. ..

Further, it is preferable that the water droplets are prevented from reaching the terminal 13a through the cable 11 even when the railroad vehicle 1 is located on the slope. Specifically, the cable 11 is arranged so as to pass through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13 even when the railroad vehicle 1 is located on a slope. Is preferable.

In that case, as shown in FIG. 5, in a state where the railroad vehicle 1 is located on the slope where the inclination angle is maximum, the vertical position of the opening 123 is one end of the cable 11 connected to the display terminal 13. The position of the opening 123 may be determined so as to be lower than the position H1 in the vertical direction of. Specifically, as shown in FIG. 3, in a state where the railroad vehicle 1 is positioned horizontally, the straight line L1 connecting the opening 123 and the terminal 13a is vertical at one end of the cable 11 connected to the display terminal 13. It is preferable that the angle θ1 formed by the horizontal axis parallel to the Y axis passing through the position H1 in the direction is larger than the maximum value of the inclination angle on the line on which the railway vehicle 1 travels.

As a result, the vertical position of the opening 123 is set so that the outer surface of the side surface 12b faces forward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the uphill slope where the inclination angle is maximum. It is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Further, even in a state where the outer surface of the side surface 12b faces rearward in the traveling direction of the railway vehicle 1 and is located on the downward slope where the inclination angle is maximum, the vertical position of the opening 123 is connected to the display terminal 13. It is lower than the vertical position of one end of the cable 11. Therefore, even if the railroad vehicle 1 is located on the slope, water droplets are prevented from reaching the terminal 13a through the cable 11.

Similarly, when the railroad vehicle 1 is located on the slope where the inclination angle is maximum, the vertical position of the opening 122 is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. The position of the opening 122 may be determined so as to be. Specifically, as shown in FIG. 7, when the railroad vehicle 1 is positioned horizontally, the straight line L2 connecting the opening 122 and the terminal 13a is vertical at one end of the cable 11 connected to the display terminal 13. It is preferable that the angle θ2 formed by the horizontal axis parallel to the Y axis passing through the position H1 in the direction is larger than the maximum value of the inclination angle on the line on which the railway vehicle 1 travels.

As a result, in a state where the outer surface of the side surface 12b faces forward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the uphill slope where the inclination angle is maximum, the vertical position of the opening 122 is determined. It is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Further, in a state where the outer surface of the side surface 12b faces the rear in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the down slope where the inclination angle is maximum, the vertical position of the opening 122 is a display terminal. It is lower than the vertical position of one end of the cable 11 connected to 13.

As described above, according to the vehicle display devices 10 and 20 according to the first embodiment, the cable 11 is arranged through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Will be set up. This prevents water droplets adhering to the cable 11 from reaching the terminal 13a through the cable 11. As a result, it is possible to prevent the vehicle display devices 10 and 20 from failing due to water droplets adhering to the cable 11.

Further, the structure of the housing 12 of the vehicle display device 10 and the housing 12 of the vehicle display device 20 are the same. The display terminal 13 has a function of rotating an image by 180 ° and displaying it on the screen when it is arranged in a state of being rotated by 180 °. As a result, since the vehicle display device 20 can be configured by using the housing 12 of the vehicle display device 10 rotated by 180 ° around the X axis, the vehicle display device 20 is configured with the vehicle display devices 10 and 20. The members can be shared, and the manufacturing cost can be reduced.

Preferably, in a state where the railroad vehicle 1 is located on the slope where the inclination angle is maximum, the vertical position of the opening 123 of the vehicle display device 10 is at one end of the cable 11 connected to the display terminal 13. The position of the opening 123 may be determined so as to be lower than the position in the vertical direction. Further, preferably, the position of the opening 122 of the vehicle display device 20 in the vertical direction is one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is located on the slope where the inclination angle is maximum. The position of the opening 122 may be determined so as to be lower than the position in the vertical direction of. As a result, even if the railroad vehicle 1 is located on the slope, water droplets are prevented from reaching the terminal 13a through the cable 11.

When the vehicle display devices 10 and 20 are arranged next to the door 3, the space for wiring the cable 11 is limited, and the insertion port of the terminal 13a is vertically oriented to prevent water droplets from reaching the terminal 13a. You may not be able to turn it downwards. Even in such a case, according to the vehicle display devices 10 and 20 according to the first embodiment, it is possible to prevent water droplets adhering to the cable 11 from reaching the terminal 13a through the cable 11. In other words, when the direction of the insertion port of the terminal 13a or the space for wiring the cable 11 is limited, the vehicle display devices 10 and 20 according to the first embodiment have water droplets reaching the terminal 13a. It is possible to prevent this.

(Embodiment 2)
The cable 11 is arranged so as to be pulled out to the outside of the housing 12 while the railroad vehicle 1 is positioned horizontally and is arranged through a position lower than the vertical position of one end connected to the display terminal 13. The structure of the guide is not limited to the example of the first embodiment. As an example of the guide, a vehicle display device having a protrusion extending in the X-axis direction from the inner surface of the housing will be described in the second embodiment.

The basic configuration of the vehicle display device 30 according to the second embodiment shown in FIGS. 8 to 10 is the same as the basic configuration of the vehicle display device 10 according to the first embodiment. The difference from the vehicle display device 10 will be described.

The vehicle display device 30 includes a housing 31 instead of the housing 12. As shown in FIG. 8, the housing 31 has an opening 311 on the main surface 31a orthogonal to the X axis and an opening 312 on the side surface 31b orthogonal to the Y axis. Further, as shown in FIGS. 9 and 10, the housing 31 has a space 32 inside for arranging the cable 11. Further, the vehicle display device 30 has a protrusion 33 extending in the X-axis direction from the inner surface 31c of the housing 31.
As shown in FIG. 8, the housing 31 accommodates the display terminal 13 with the screen of the display terminal 13 facing the opening 311.
The opening 312 is located at a height equivalent to the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is positioned horizontally.

As shown in FIG. 9, the lower end of the protrusion 33 in the vertical direction is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state where the railroad vehicle 1 is positioned horizontally. Further, the upper end of the protrusion 33 in the vertical direction is higher than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is located horizontally. Note that FIG. 9 is a rear view of the vehicle display device 10 in a state where the railway vehicle 1 is positioned horizontally. In FIG. 9, the vertical position of one end of the cable 11 connected to the display terminal 13, that is, the vertical position of the terminal 13a is shown by a alternate long and short dash line.

One end of the cable 11 is connected to the terminal 13a, and the other end of the cable 11 is pulled out to the outside of the housing 31 through the opening 312 and connected to the control device 4. The cable 11 is arranged along the lower end of the protrusion 33 in the vertical direction. Since the lower end of the protrusion 33 in the vertical direction is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state where the railway vehicle 1 is horizontally located, the cable 11 has the railway vehicle 1 horizontally. It is arranged in the space 32 through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state of being located at.

Water droplets may adhere to the cable 11 arranged along the lower end in the vertical direction of the protrusion 33 of the vehicle display device 30 having the above configuration due to dew condensation or the like. The water droplets travel downward along the cable 11 in the vertical direction. Since the vertical lower end of the protrusion 33 is lower than the vertical position of one end of the cable 11, the terminal 13a is located above the vertical lower end of the protrusion 33 in the vertical direction. As a result, it is prevented that water droplets travel through the cable 11 and reach the terminal 13a.

As described above, according to the vehicle display device 30 having the above configuration, it is possible to prevent water droplets from reaching the terminal 13a through the cable 11 in a state where the railway vehicle 1 is positioned horizontally.

Further, in order to standardize the components of the vehicle display devices provided on the left and right sides when viewed from the passengers of the door 3, as shown in FIG. 9, the protrusion 33 is in a state where the railway vehicle 1 is horizontally positioned. The upper end of the cable 11 in the vertical direction may be higher than the position in the vertical direction of one end of the cable 11 connected to the display terminal 13. Specifically, when the railway vehicle 1 is positioned horizontally, the angle formed by the straight line connecting the vertical upper end of the protrusion 33 and the terminal 13a in the horizontal direction is the inclination angle on the line on which the railway vehicle 1 travels. Greater than the maximum value of. As a result, the housing 31 having the above configuration can be rotated by 180 ° around the X axis to form the vehicle display device 30 located on the right side of the door 3 when viewed from the passengers, and the railroad vehicle 1 is on the slope. Even if it is located, water droplets are prevented from reaching the terminal 13a through the cable 11.

Further, it is preferable that the water droplets are prevented from reaching the terminal 13a through the cable 11 even when the railroad vehicle 1 is located on the slope. Specifically, the cable 11 is arranged so as to pass through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13 even when the railroad vehicle 1 is located on a slope. Is preferable.

In that case, the lower end of the protrusion 33 in the vertical direction is on the display terminal 13 in a state where the railway vehicle 1 is located on the slope where the inclination is maximum based on the inclination angle of each point of the route on which the railway vehicle 1 travels. The position of the lower end of the protrusion 33 in the vertical direction may be determined so as to be lower than the position in the vertical direction of one end of the connected cable 11. Specifically, when the railroad vehicle 1 is positioned horizontally, the angle formed by the straight line connecting the vertical lower end of the protrusion 33 and the terminal 13a in the horizontal direction is the tilt angle on the line on which the railroad vehicle 1 travels. It is preferable to make it larger than the maximum value of.

As a result, in a state where the outer surface of the side surface 31b faces forward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the uphill slope where the inclination angle is maximum, the lower end of the protrusion 33 in the vertical direction is formed. It is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Further, in a state where the outer surface of the side surface 31b faces rearward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the downward slope where the inclination angle is maximum, the lower end of the protrusion 33 in the vertical direction is a display terminal. It is lower than the vertical position of one end of the cable 11 connected to 13. Therefore, even if the railroad vehicle 1 is located on the slope, water droplets are prevented from reaching the terminal 13a through the cable 11.

When the components of the vehicle display device 30 provided on the left and right sides of the door 3 are shared, the vertical upper end of the protrusion 33 and the terminal are provided while the railway vehicle 1 is horizontally positioned. It is preferable that the angle formed by the straight line connecting 13a in the horizontal direction is larger than the maximum value of the inclination angle on the line on which the railway vehicle 1 travels.

As described above, according to the vehicle display device 30 according to the second embodiment, the cable 11 is arranged along the lower end of the protrusion 33 in the vertical direction. This prevents water droplets adhering to the cable 11 from reaching the terminal 13a through the cable 11. As a result, it is possible to prevent the vehicle display device 30 from failing due to water droplets adhering to the cable 11.

Further, by rotating the housing 31 of the vehicle display device 30 by 180 ° around the X axis, it is possible to configure the vehicle display device 30 provided on the right side of the door 3 when viewed from the passengers. Therefore, the constituent members of the vehicle display device 30 provided on the left and right sides of the door 3 when viewed from the passengers can be shared, and the manufacturing cost can be reduced.

Preferably, the lower end of the protrusion 33 of the vehicle display device 30 is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in the state of being located on the slope where the inclination is maximum. As described above, the position of the lower end of the protrusion 33 in the vertical direction may be determined. As a result, even if the railroad vehicle 1 is located on the slope, water droplets are prevented from reaching the terminal 13a through the cable 11.

(Embodiment 3)
The vehicle display device abuts on the lower end of the cable 11 in the vertical direction at an arbitrary position of the cable 11 and prevents water droplets adhering to the cable 11 from moving from the position abutting on the cable 11 toward the display terminal 13. A movement prevention member may be further provided. The structure of the vehicle display device provided with the movement prevention member will be described in the third embodiment.

The basic configuration of the vehicle display device 40 according to the third embodiment shown in FIGS. 11 and 12 is the same as the basic configuration of the vehicle display device 30 according to the third embodiment. The difference from the vehicle display device 30 will be described.

The vehicle display device 40 includes a movement prevention member 34 that abuts on the lower end of the cable 11 in the vertical direction at an arbitrary position of the cable 11 instead of the protrusion 33 of the vehicle display device 30. The movement prevention member 34 is adjacent to the terminal 13a. Specifically, it is preferable that the movement prevention member 34 is arranged as close as possible to the terminal 13a in a state of being separated from the terminal 13a. The movement prevention member 34 is composed of an annular member whose inner peripheral surface abuts on the cable 11. Preferably, the movement prevention member 34 is made of a water-repellent member such as rubber or resin.

One end of the cable 11 is connected to the terminal 13a, and the other end of the cable 11 is pulled out to the outside of the housing 31 through the opening 312 and connected to the control device 4. The cable 11 is arranged so as to extend from the terminal 13a toward the opening 312.

Water droplets may adhere to the cable 11 of the vehicle display device 40 having the above configuration due to dew condensation or the like. The water droplets travel downward along the cable 11 in the vertical direction. Since the movement prevention member 34, which is composed of an annular member whose inner peripheral surface abuts on the cable 11, is fixed to the cable 11, water droplets are prevented from moving toward the terminal 13a.

As described above, since the vehicle display device 40 according to the third embodiment includes a movement prevention member 34 that abuts on the lower end of a part of the cable 11 in the vertical direction, water droplets adhering to the cable 11 are transmitted through the cable 11. It is prevented from moving and reaching the terminal 13a. As a result, it is possible to prevent the vehicle display device 40 from failing due to water droplets adhering to the cable 11.

Further, as described above, the movement prevention member 34 is composed of an annular member, and the opening 312 is vertical at one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is horizontally located. It is located at the same height as the position in the direction. Therefore, by rotating the housing 31 of the vehicle display device 40 by 180 ° around the X axis, it is possible to configure the vehicle display device provided on the right side of the door 3 when viewed from the passengers. As a result, the constituent members of the vehicle display device provided on the left and right sides of the door 3 when viewed from the passengers can be shared, and the manufacturing cost can be reduced.

Embodiments of the present invention are not limited to the above examples. As an example, the vehicle-mounted device to which the present invention is applied is not limited to the vehicle display devices 10, 20, 30, and 40, and is arbitrary as long as it is a vehicle-mounted device to which a cable is connected. An example of an in-vehicle device is a power supply device mounted under the floor of a railway vehicle 1. In this case, the reference posture when the electronic device is in operation means the posture of the electronic device included in the in-vehicle device fixed under the floor in a state where the railway vehicle 1 is positioned horizontally. Further, the in-vehicle device can be mounted on any vehicle such as a cable car and a trolley bus. As an example, when an in-vehicle device is mounted on a cable car, the reference posture when the electronic device is in operation is the attitude of the electronic device provided in the in-vehicle device fixed to the cable car while the cable car is stopped at the station. Means.

Further, among the above-described embodiments, a plurality of embodiments may be combined. The vehicle display devices 10, 20, and 30 may each further include a movement prevention member 34. When the vehicle display device 10 further includes a movement prevention member 34, the railroad vehicle 1 is located on a steep slope, and the vertical position of the opening 123 is the vertical direction of one end of the cable 11 connected to the display terminal 13. Even if it is higher than the position, the movement prevention member 34 prevents water droplets from reaching the terminal 13a.

Similarly, when the vehicle display device 20 further includes a movement prevention member 34, the railroad vehicle 1 is located on a steep slope, and the vertical position of the opening 122 is located at one end of the cable 11 connected to the display terminal 13. Even if the position is higher than the vertical position, the movement prevention member 34 prevents water droplets from reaching the terminal 13a.

Further, when the vehicle display device 30 is provided with the movement prevention member 34 at a position closer to the terminal 13a than the protrusion 33, the railway vehicle 1 is located on a steep slope, and the lower end of the protrusion 33 in the vertical direction is connected to the display terminal 13. Even if the position of one end of the cable 11 is higher than the vertical position, the movement prevention member 34 prevents water droplets from reaching the terminal 13a.

Further, the vehicle display devices 10 and 20 may each include a protrusion 33. By arranging the cable 11 along the lower end of the protrusion 33 in the vertical direction, the vibration of the railroad vehicle 1 prevents the cable 11 from moving upward in the vertical direction in the space 14.

The shapes and positions of the openings 122 and 123 of the vehicle display devices 10 and 20 are such that the cable 11 is arranged through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13. It is optional if it can be derived.
As an example, the housing 12 of the vehicle display device 10 shown in FIG. 13 has openings 124 and 125 on the side surface 12b. As shown in FIG. 13, the openings 124 and 125 have a cable 11 having one end connected to the display terminal 13 in a vertical direction at one end connected to the display terminal 13 with the railroad vehicle 1 horizontally positioned. It is arranged through a position lower than the position of and is guided to be pulled out to the outside of the housing 12. The opening 124 is formed at the same position as the opening 122, and the opening 125 is formed at the same position as the opening 123. The penetrating directions of the openings 124 and 125 intersect in the Y-axis direction. Specifically, in a state where the railroad vehicle 1 is positioned horizontally, the penetrating direction of the opening 124 from the inside to the outside of the housing 12 extends upward in the vertical direction. Further, in a state where the railroad vehicle 1 is positioned horizontally, the penetrating direction of the opening 125 from the inside to the outside of the housing 12 extends downward in the vertical direction. Therefore, the water droplets generated inside the housing 12 are quickly discharged to the outside through the opening 125.

Further, the vehicle display device 20 can be configured by using the housing 12 included in the vehicle display device 10 shown in FIG. 13 rotated by 180 ° around the X axis. In this case, the cable 11 is pulled out of the housing 12 through the opening 124. The water droplets generated inside the housing 12 are quickly discharged to the outside through the opening 124.

As another example, the housing 12 of the vehicle display device 10 shown in FIGS. 14 and 15 has an opening 126 on the side surface 12b and a groove 127 extending in the Z-axis direction. Further, the vehicle display device 10 is partially located in the groove 127 and is movable along the groove 127, and is located in the cover 15 that closes a part of the opening 126 and the groove 127 to fix the cover 15. Further provided with a fixing member 16. The fixing member 16 is located in the groove 127 on the lower side in the Z-axis direction of the cover 15 and is attached to the housing 12. Then, the fixing member 16 supports the cover 15 in the Z-axis direction, thereby limiting the movement of the cover 15 in the Z-axis direction. As a result, the lower portion of the opening 126 in the Z-axis direction is not blocked by the cover 15.
One end of the cable 11 is connected to the terminal 13a, and the other end of the cable 11 is pulled out of the housing 12 through the lower part of the opening 126 in the Z-axis direction which is not blocked by the cover 15, and the control device 4 Connected to.

Further, the vehicle display device 20 can be configured by using the housing 12 of the vehicle display device 10 shown in FIGS. 14 and 15 rotated by 180 ° around the X axis. Also in this case, as shown in FIG. 16, one end of the cable 11 is connected to the terminal 13a, and the other end of the cable 11 passes through the lower part of the opening 126 which is not blocked by the cover 15 in the Z-axis direction. It is pulled out of the body 12 and connected to the control device 4.

The shape and structure of the cover 15 are arbitrary as long as the position of the cover 15 on the side surface 12b is variable and the shape and structure can close a part of the opening 126. The shape and structure of the fixing member 16 are arbitrary as long as they have a shape and structure that restrict the movement of the cover 15. As an example, the cover 15 may be attached to the housing 12 and move along a rail extending in the Z-axis direction.

The guide structure of each of the vehicle display devices 10, 20, and 30 is such that the cable 11 is vertically positioned at one end of the cable 11 connected to the display terminal 13 with the railroad vehicle 1 positioned horizontally. Any structure can be used as long as it is a structure that guides the vehicle to be disposed through a position lower than the position. As an example, the cable 11 is connected to the display terminal 13 after passing through a position higher than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is located horizontally. A guide for guiding the cable 11 to be disposed through a position lower than the vertical position of one end of the cable 11 will be described. The vehicle display device 30 having this guide is shown in FIG. The vehicle display device 30 shown in FIG. 17 includes protrusions 35 and 36 extending in the X-axis direction from the inner surface 31c of the housing 31 in place of the protrusions 33. The protrusions 35 and 36 serve as guides. FIG. 17 is a rear view of a modified example of the vehicle display device 30 in a state where the railway vehicle 1 is positioned horizontally.

The lower end of the protrusion 35 in the vertical direction is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is located horizontally. Preferably, when the railway vehicle 1 is positioned horizontally, the angle formed by the straight line connecting the vertical lower end of the protrusion 35 and the terminal 13a in the horizontal direction is the inclination angle on the line on which the railway vehicle 1 travels. It may be larger than the maximum value. As a result, in a state where the outer surface of the side surface 31b faces forward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the uphill slope where the inclination angle is maximum, the lower end of the protrusion 35 in the vertical direction is formed. It is lower than the vertical position of one end of the cable 11 connected to the display terminal 13. Further, in a state where the outer surface of the side surface 31b faces rearward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the downward slope where the inclination angle is maximum, the lower end of the protrusion 35 in the vertical direction is the display terminal 13. It is lower than the vertical position of one end of the cable 11 connected to.

Further, the upper end of the protrusion 36 in the vertical direction is higher than the vertical position of the opening 312 in the state where the railroad vehicle 1 is located horizontally. Preferably, when the railway vehicle 1 is positioned horizontally, the angle formed by the straight line connecting the vertical upper end of the protrusion 36 and the terminal 13a in the horizontal direction is the inclination angle on the line on which the railway vehicle 1 travels. It may be larger than the maximum value. As a result, the upper end of the protrusion 36 in the vertical direction is displayed in a state where the outer surface of the side surface 31b faces forward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the uphill slope where the inclination angle is maximum. It is higher than the vertical position of one end of the cable 11 connected to the terminal 13. Further, in a state where the outer surface of the side surface 31b faces rearward in the traveling direction of the railway vehicle 1 and the railway vehicle 1 is located on the downward slope where the inclination angle is maximum, the upper end of the protrusion 36 in the vertical direction is a display terminal. It is higher than the vertical position of one end of the cable 11 connected to 13.
In FIG. 17, the vertical position of one end of the cable 11 connected to the display terminal 13, that is, the vertical position of the terminal 13a is shown by a alternate long and short dash line.

The cable 11 is arranged along the vertical lower end of the protrusion 35 and further along the vertical upper end of the protrusion 36. The lower end of the protrusion 35 in the vertical direction is lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is located horizontally. Therefore, the cable 11 is arranged in the space 32 through a position lower than the vertical position of one end of the cable 11 connected to the display terminal 13 in a state where the railroad vehicle 1 is horizontally located. As a result, the water droplets are prevented from reaching the terminal 13a through the cable 11 in the state where the railroad vehicle 1 is positioned horizontally.

Further, since the vertical upper end of the protrusion 36 is higher than the vertical position of the opening 312 in the state where the railroad vehicle 1 is located on the slope where the inclination is maximum, the cable 11 pulled out to the outside of the housing 31. Even if the water droplets adhering to the above move along the cable 11, they cannot reach the upper end of the protrusion 36 in the vertical direction. As a result, even if the railroad vehicle 1 is located on the slope, water droplets are prevented from reaching the terminal 13a through the cable 11.

The shape of the movement prevention member is arbitrary as long as it can prevent water droplets adhering to the cable 11 from moving from the position of contact with the cable 11 toward the display terminal 13. As an example, the movement prevention member may be composed of a rod-shaped member having both ends fixed to the inner surface of the housing 12 or the inner surface 31c of the housing 31 and having a U-shaped bent shape. A vehicle display device 40 provided with this movement prevention member is shown in FIGS. 18 and 19. Instead of the movement prevention member 34 shown in FIG. 11, the vehicle display device 40 has a movement prevention member 37 having both ends fixed to the inner surface 31c of the housing 31 and bent in a U shape, and a movement prevention member 37. A fastening member 38 for fixing the member 37 to the inner surface 31c is provided. The movement prevention member 37 abuts on the lower end of a part of the cable 11 in the vertical direction. Further, the movement prevention member 37 is adjacent to the terminal 13a. Specifically, it is preferable that the movement prevention member 37 is arranged as close as possible to the terminal 13a in a state of being separated from the terminal 13a. This prevents water droplets from traveling through the cable 11 and reaching the terminal 13a.
Further, as another example, the movement prevention member may be composed of a rod-shaped member whose one end is fixed to the inner surface of the housing 12 or the inner surface 31c of the housing 31, tape or cloth wound around the cable 11.

The direction in which the insertion port of the terminal 13a faces is not limited to the Y-axis direction. The terminal 13a can be arranged so that the insertion port is oriented in any direction except the negative direction of the Z axis.

The vehicle display devices 10, 20, 30, and 40 are not limited to the side of the door 3, and are useful when the cable 11 is installed in a place where the cable 11 needs to be pulled out horizontally due to the wiring restriction of the cable 11. .. The installation positions of the vehicle display devices 10, 20, 30, and 40 are arbitrary as long as the passengers can visually recognize the screen. As an example, the vehicle display devices 10, 20, 30, 40 may be installed on the door 3, on the window, or the like.

A plurality of cables 11 may be connected to each of the vehicle display devices 10, 20, 30, and 40. In this case, the guide guides each cable 11 so as to be arranged through a position lower than the vertical position of one end connected to the display terminal 13 in a state where the railroad vehicle 1 is positioned horizontally.

The number of rolling stock 2 constituting the railroad rolling stock 1 is arbitrary and may be singular. Further, the number of vehicle display devices 10, 20, 30, and 40 mounted on each vehicle 2 is arbitrary. Further, the number of control devices 4 mounted on the railway vehicle 1 is arbitrary.

The present invention allows for various embodiments and modifications without departing from the broad spirit and scope of the invention. Further, the above-described embodiments are for explaining the present invention, and do not limit the scope of the present invention. That is, the scope of the present invention is shown not by the embodiment but by the scope of claims. And, various modifications made within the scope of the claims and within the scope of the equivalent invention are considered to be within the scope of the present invention.

1 Railroad car, 2 cars, 3 doors, 4 control devices, 5 signal lines, 10, 20, 30, 40 vehicle display devices, 11 cables, 12, 31 housings, 12a, 31a main surface, 12b, 31b side surfaces, 13 Display terminal, 13a terminal, 14,32 space, 15 cover, 16 fixing member, 31c inner surface, 33,35,36 protrusion, 34,37 movement prevention member, 38 fastening member, 121,311 opening, 122,123, 124, 125, 126, 312 openings, 127 grooves, vertical position at one end of the H1 cable, L1, L2 straight lines, θ1, θ2 angles.

Claims (7)

It is an in-vehicle device mounted on a vehicle.
Display terminal and
A housing for accommodating the display terminal and
A cable having one end connected to the display terminal is arranged through a position lower than the vertical position of the one end connected to the display terminal in a state where the display terminal is in the reference posture during operation. It is provided with a guide that guides it to be pulled out to the outside of the housing.
The guide is composed of two openings vertically spaced apart from each other on the horizontally intersecting surfaces of the housing with the display terminal in the reference position.
The vertical position of one of the two openings is lower than the vertical position of one end connected to the display terminal, and the other vertical position of the two openings is connected to the display terminal. Higher than the vertical position of one end,
The other end of the cable is pulled out of the housing from the opening whose vertical position is lower than the vertical position of the one end connected to the display terminal.
In-vehicle device. The guide is disposed on the outside of the housing by disposing the cable through a position lower than the vertical position of the one end connected to the display terminal while the vehicle is horizontally positioned. Guide to be pulled out,
The in-vehicle device according to claim 1. In the guide, the cable is placed at a position lower than the vertical position of one end connected to the display terminal in a state where the display terminal is in the reference posture, and the display terminal is in the reference posture. In a state of being tilted from the above, the terminal is arranged through a position lower than the vertical position of the one end connected to the display terminal and guided to be pulled out to the outside of the housing.
The in-vehicle device according to claim 1 or 2. The guide has the cable at a position lower than the vertical position of the one end connected to the display terminal in a state where the vehicle is horizontally positioned, and the vehicle has a maximum inclination angle. In a state of being located on the slope, the terminal is arranged through a position lower than the vertical position of the one end connected to the display terminal and guided to be pulled out to the outside of the housing.
The in-vehicle device according to claim 3. Further provided with a movement prevention member that abuts on the lower end of a part of the cable in the vertical direction and prevents water droplets adhering to the cable from moving from a position that abuts on the part of the cable toward the display terminal.
The in-vehicle device according to any one of claims 1 to 4 . The movement prevention member is composed of an annular member whose inner peripheral surface abuts on the cable.
The in-vehicle device according to claim 5 . The movement prevention member is composed of a rod-shaped member having both ends fixed to the inner surface of the housing and having a U-shaped bent shape.
The in-vehicle device according to claim 5 .

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