JP2021089354A - Display unit - Google Patents

Abstract

To provide a display unit that does not require a user's grip operation and has a high degree of freedom in deformation of a display.SOLUTION: One end of a display 1 with flexibility is fixed by a fixing part 6 and the other end is held by a holding part 7, and the position of the holding part 7 is changed by a driving part, and thereby the shape of the display 1 can be changed to different shapes depending on the position of the holding part 7.SELECTED DRAWING: Figure 2

Description

The present invention relates to a display device including a flexible display unit and a drive unit that reversibly deforms the display unit into a predetermined shape.

In recent years, in the field of display devices, a display unit for displaying an image is a flexible display having flexibility, and the display unit can be reversibly deformed into a predetermined curved surface shape by a user. Has been proposed. Examples of this type of display device include those described in Patent Document 1.

The display device described in Patent Document 1 covers a flexible display panel, a first support attached so as to cover one end of the display panel, and the other end of the display panel on the opposite side. It includes a second support that is attached and arranged so that it does not abut on the first support. The display device is further arranged on the display panel and includes a connecting portion for connecting a pair of supports including a first support and a second support. This connection portion is composed of an elastic body having flexibility, and in this display device, the display panel is formed into a flat plate shape or a predetermined curved surface shape by the user rotating a pair of supports relatively. be able to.

JP-A-2019-70849

By the way, in recent years, it has been studied that this kind of display device is mounted on a vehicle such as an automobile. The display device described in Patent Document 1 has a configuration in which the display panel corresponding to the display unit can be reversibly changed in shape, but the user must hold the support portion with both hands and perform a bending operation. When this type of display device is applied to an in-vehicle application, it is preferable for safety that the display unit can be deformed regardless of the gripping operation of the user. Further, since this display device cannot bend the portion of the display panel to which the pair of supports is attached, the curved surface shape that can be taken is limited.

In view of the above points, the present invention provides a display device capable of deforming a flexible display into various curved surface shapes without a user's gripping operation and having a high degree of freedom in deformation. The purpose.

In order to achieve the above object, the display device according to claim 1 has a front surface (1a) and a back surface (1b) on which an image is displayed, and has a flexible display (1) and a display. It is connected to a fixed portion (6) that fixes the side of one end (11), a holding portion (7) that holds the other end (12) side opposite to one end of the display, and a part of the holding portion. A drive unit (9), which is a power source for changing the position of the holding unit, and a housing (8) for accommodating the display, the fixing unit, the holding unit, and the driving unit are provided, and the position of the holding unit is changed by the driving unit. By doing so, the shape of the display changes.

According to this, one end side of the display is fixed by the fixed portion, the other end side is held by the holding portion, and the position of the holding portion can be changed by the driving unit. Therefore, by driving the drive unit, the display can be shaped according to the position of the holding unit, and the user does not need to hold the display. Further, since the display can take a flat plate shape or various curved surface shapes having different curvatures depending on the position of the holding portion, the degree of freedom of deformation is high.

The display device according to claim 6 has a front surface (1a) and a back surface (1b) on which an image is displayed, and faces a flexible display (1) and a display having a front and back relationship. A holding case (2) having (2a) and another surface (2b) for accommodating the display, a fixing portion (6) for fixing one end (11) of the display, and the other surface of the holding case. A drive unit (9) having a support portion (93) connected to a portion located on the other end (12) side of the display, and a housing (8) for accommodating the display, the fixed portion, and the drive unit. , The support is in local contact with the other surface, and the support changes the shape of the display through the holding case by applying a pressing or pulling force to the flexible holding case. Let me.

According to this, with the display housed in the storage case, one end side of the display is fixed by a fixing portion, and the drive unit is connected to the other end side of the display in the storage case. This display device is a mechanism that deforms the display by applying a pressing or pulling force from the drive unit to the storage case, and when the display is deformed, the user does not need to hold the display. Further, since the display can take a flat plate shape or various curved surface shapes having different curvatures depending on the driving amount of the driving unit, the degree of freedom in the shape of the display is high.

The reference reference numerals in parentheses attached to each component or the like indicate an example of the correspondence between the component or the like and the specific component or the like described in the embodiment described later.

It is a perspective view which shows the display device of 1st Embodiment. It is a perspective view which shows a part of a display, a holding case, a drive circuit, wiring, a control part, a fixing part, a holding part, and a housing which constitute the display device of 1st Embodiment. It is a figure which shows the state when a display is made into a flat plate shape by a holding part. It is a figure which shows the state when a display is made into a curved shape by a holding part. It is sectional drawing which shows the cross section between VV of FIG. It is sectional drawing which shows the cross section between VI and VI of FIG. It is a figure which shows the structural example of the drive part which transmits the power to a holding part. It is a figure which shows the arrangement example of the 2nd drive part in the display device of 2nd Embodiment. It is a figure which shows the state when the display is deformed by the 2nd drive part of FIG. It is a figure which shows the connection of the drive part in the display device of 3rd Embodiment. It is a figure which shows the state when the display is deformed by the drive part of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each of the following embodiments, parts that are the same or equal to each other will be described with the same reference numerals.

(First Embodiment)
The display device D1 of the first embodiment will be described with reference to FIGS. 1 to 7. The display device of the present embodiment is suitable for being mounted on a moving body such as an automobile and being applied to present various images to the driver of the moving body, but of course, it is also used for other purposes. Can be done.

In FIG. 1, in order to make the configuration of the display device D1 easy to understand, a cross section is not shown, but the display 1 described later is hatched. In FIG. 2, it is easy to understand the connection relationship between the display 1, the holding case 2, the wiring 3, the drive circuit 4, the control unit 5, the fixing unit 6, the holding unit 7, and the housing 8, which are the components of the display device D1. Therefore, a part of the housing 8 is omitted. In FIGS. 3 and 4, for easy viewing, the wiring 3 connecting the display 1 and the drive circuit 4 in different cross sections is shown by a broken line.

As shown in FIG. 1, for example, the display device D1 includes a display 1 and a housing 8 having an opening 81 and a rail 82, and is a surface on the side of displaying the image of the display 1 through the opening 81. 1a is visible. As shown in FIG. 2, for example, the display device D1 further includes a holding case 2, a wiring 3, a drive circuit 4, a control unit 5, a fixing unit 6, and a holding unit 7, and these members and a display. 1 and 1 are housed in the housing 8. In the display device D1, a flexible display 1 is housed in a flexible holding case 2, and one end side of the display 1 is housed by a fixing portion 6 and the other end side of the display 1 is housed by a holding portion 7 together with the holding case 2. It is pinched. While one end side of the display 1 is fixed by the fixing portion 6, the display device D1 can move in a predetermined manner by transmitting the power of the driving portion 9 described later via the holding portion 7 to the opposite other end side. The display 1 can take various shapes.

The display 1 is any flexible display, for example an organic light emitting diode (OLED) display.

When the OLED display has a flexible configuration, for example, an OLED and a TFT (thin film transistor) for driving the OLED are formed on a resin material such as polyimide or an arbitrary flexible substrate such as flexible glass. , OLEDs are stacked in this order. The TFT includes a gate electrode, a gate insulating layer, a semiconductor layer, a source electrode, and a drain electrode, and is an element capable of controlling on / off of a current between the source / drain electrode by adjusting the voltage applied to the gate electrode. The TFT has, for example, a drain electrode connected to at least one of a pair of electrodes constituting the OLED, and is used for driving control of the OLED and the like. In an OLED, for example, a hole injection layer, a hole transport layer, a light emitting layer, an electron transport layer, an electron injection layer, and the like are sequentially laminated on a TFT between a pair of electrodes, and emit light when a voltage is applied. In an OLED display, a main pixel composed of OLEDs, for example, having three sub-pixels having different emission colors of red, green, and blue, is in one direction in a plan view and in an orthogonal direction orthogonal to the one direction. It is repeatedly arranged along. Since the configurations of OLEDs, TFTs, and OLED displays, their materials, and the like are known, detailed description thereof will be omitted in the present specification.

The display 1 is housed in a flexible holding case 2, for example, and a part of the display 1 is sandwiched by the fixing portion 6 and the holding portion 7 together with the holding case 2. The display 1 is fixed by being sandwiched by the fixing portion 6 on one end side, while the other end side on the opposite side is held via the holding portion 7. When the holding unit 7 is relatively moved by the driving unit 9 described later, the other end side of the display 1 is moved together with the holding case 2 in conjunction with the holding unit 7, and the position of the other end side is changed. As a result, the display 1 can be formed into a flat plate shape as shown in FIG. 3 or a curved curved surface shape as shown in FIG. Further, since the curvature of the curved surface shape of the display 1 changes depending on the position of the holding portion 7, the display 1 can take various curved surface shapes in addition to the flat plate shape.

The display 1 is connected to, for example, a drive circuit 4 in which a CPU, a ROM, a RAM, and the like are mounted on a circuit board (not shown) via wiring 3. In the display 1, for example, a terminal of a power feeding wiring (not shown) of an electrode such as a TFT is formed at one end on the 11 side, and a flexible wiring 3 such as an FPC is formed so as to connect the terminal (not shown) and the drive circuit 4. Is connected. The display 1 displays various images based on, for example, the output signal output by the drive circuit 4.

In the example of FIG. 2, the display 1 is connected to the drive circuit 4 by two wirings 3 on one end side of the display 1, but the present invention is not limited to this, and the number of wirings 3 to be connected, the connection location, and the like are not limited to this. Is optional.

Hereinafter, for convenience of explanation, as shown in FIG. 3, the surface 1a of the display 1 on which the image is displayed is referred to as the “back surface 1b”.

The holding case 2 is an accommodating member made of any flexible resin material and accommodating the display 1. The holding case 2 may have a configuration that can accommodate the display 1 and does not interfere with the image display of the display 1, but from the viewpoint of stress relaxation of the display 1 when the display 1 is deformed, the holding case 2 hits the entire back surface 1b of the display 1. It is preferable that the configuration is in contact with each other. For example, the holding case 2 may be configured such that a portion located above the image display area of the display 1 has an opening while being in contact with the entire back surface 1b of the display 1. In other words, in this case, the holding case 2 has one side surface 2a and another side surface 2b facing the display 1 which is in a front-to-back relationship, and the one side surface 2a is in contact with the entire back surface 1b of the display 1. Further, the holding case 2 is provided with an insertion portion into which the display 1 is inserted, and has a shape in which the display 1 is in contact with the entire front surface 1a and the back surface 1b, respectively, and is located at least above the image display area of the display 1. May be composed of a transparent resin material. As described above, the holding case 2 may have a structure in which the display 1 is housed and has flexibility, and the structure and shape thereof can be appropriately changed.

As shown in FIG. 2, for example, in the drive circuit 4, the control unit 5 is connected via the wiring 3, and when an electric signal is input from the control unit 5, the output signal corresponding to the electric signal is displayed on the display 1. Output to. As shown in FIG. 3, for example, the drive circuit 4 is arranged on the inner bottom surface of the housing 8, but it may be housed in the housing 8 and the arrangement is arbitrary.

The control unit 5 is, for example, an electronic control unit in which a CPU, ROM, RAM, etc. are mounted on a circuit board (not shown), and is referred to as an ECU (abbreviation of Electronic Control Unit). The control unit 5 is connected to, for example, another electronic device (not shown), and when various video signals are input, the control unit 5 outputs a signal corresponding to the video signal to the display 1. As shown in FIG. 3, for example, the control unit 5 is arranged on the bottom surface of the housing 8, but may be housed in the housing 8 and is arranged at an arbitrary location like the drive circuit 4. .. The control unit 5 is connected to, for example, a switch device (not shown) and is connected to the drive unit 9 via the wiring 3 as shown in FIG. When a signal is input from a switch device or the like (not shown), the control unit 5 outputs a drive signal to the drive unit 9 to operate the drive unit 9, and displays the display via the holding unit 7, for example, as shown in FIG. The shape of 1 can be controlled.

Examples of other electronic devices include, but are not limited to, navigation devices, car air conditioners, in-vehicle cameras, audio devices, and the like in the case of in-vehicle use.

The fixing portion 6 is a fixing member that fixes one end side of the display 1 and the holding case 2. For example, as shown in FIG. 2, a first fixing member 61, a second fixing member 62, and a connecting member that connects them. 63 is provided, and the display 1 and the holding case 2 are sandwiched and fixed. Specifically, as shown in FIG. 5, for example, the fixing portion 6 includes a first fixing member 61 arranged on the front surface 1a side of the display 1 and a second fixing member 62 arranged on the back surface 1b side of the display 1. And are connected and fixed by the connecting member 63.

The fixing members 61 and 62 have a rod-like shape having a longitudinal direction, and have a cylindrical shape, for example, as shown in FIGS. 2 and 5. The fixing members 61 and 62 are arranged so that one side of one end 11 side of the outer shell of the display 1 is the width direction, for example, the longitudinal direction is aligned with the width direction, that is, substantially parallel to the width direction. The fixing members 61 and 62 are arranged in line contact with the display 1 or the holding case 2, for example, in order to prevent a large pressure from being locally applied to the display 1. For example, the fixing members 61 and 62 are preferably made of any cushioning resin material such as urethane at a portion that comes into contact with the display 1 or the holding case 2 so that excessive pressure is not applied to the display 1. The fixing members 61 and 62 are connected by, for example, a connecting member 63 described later, and after sandwiching the display 1 and the holding case 2, as shown in FIG. 2, both ends in the extending direction are screwed or the like. Therefore, it is connected and fixed to the housing 8 so that it does not move.

The fixing members 61 and 62 may have not only a cylindrical shape but also another shape such as a semi-cylindrical shape, or may have a corner portion in the circumferential direction when the longitudinal direction is the axis. , The corners may be arranged so as not to come into contact with the display 1 or the holding case 2. Further, as shown in FIG. 2, the fixing members 61 and 62 have dimensions in the longitudinal direction larger than the dimensions in the width direction of the display 1, but are not limited thereto. As described above, the shapes and dimensions of the fixing members 61 and 62 can be changed as appropriate.

Further, the “line contact” here means a state in which the fixing members 61 and 62 come into contact with the display 1 or the holding case 2 along the longitudinal direction thereof. In other words, the line contact means a contact state in which the contact portions are linear when the load on the display 1 or the holding case 2 by the fixing members 61 and 62 is assumed to be zero. This also applies to the contact state between the holding members 71 and 72, which will be described later, and the display 1 or the holding case 2.

As shown in FIG. 5, for example, the connecting member 63 has a substantially U-shape, and has a first contact member 631 that contacts the first fixing member 61 and a second contact member 632 that contacts the second fixing member 62. And a screw 633 for connecting and fixing them. The first contact member 631 is, for example, a substantially plate-shaped member having a groove portion along the outer shape of the first fixing member 61 and a screw hole into which a screw 633 for connecting to the second contact member 632 is inserted. Will be done. The second contact member 632 has, for example, a substantially L-shape having a groove having a shape along the outer shape of the second fixing member 62 and a screw hole into which a screw 633 for connecting to the first contact member 631 is inserted. It is a shaped member. The connecting member 63 is fixed by being connected and fixed by screws 633 in a state where the first contact member 631 is in contact with the first fixing member 61 and the second contact member 632 is in contact with the second fixing member 62. It is attached to the members 61 and 62. The connecting member 63 serves to connect the fixing members 61 and 62 and to apply a force for fixing the display 1 and the holding case 2 to one end side by sandwiching the fixing members 61 and 62. As shown in FIG. 1, for example, the connecting member 63 is arranged at both ends and the center of the fixing members 61 and 62 in the longitudinal direction to connect the fixing members 61 and 62, but the arrangement thereof is appropriately changed. You may.

The holding portion 7 is a holding member that holds the other end side of the display 1 and the holding case 2. In the present embodiment, for example, as shown in FIG. 2, the first holding member 71, the second holding member 72, and the holding member 72 are used. A connecting portion 73 and a connecting member 74 are provided.

Since the basic configurations of the holding members 71 and 72 and the connecting member 74 are the same as those of the fixing members 61 and 62 and the connecting member 63, differences in arrangement and the like will be mainly described below.

The holding members 71 and 72 have a rod-like shape having a longitudinal direction, and have a cylindrical shape as shown in FIGS. 2 and 6, for example. The holding members 71 and 72 are arranged so that one is on the front surface 1a side of the display 1 and the other is on the back surface 1b side, and the longitudinal direction is substantially parallel to one side of the outer shell of the display 1 on the other end 12 side. To. That is, the holding members 71 and 72 are arranged so that the longitudinal directions are aligned with the width direction of the display 1 as in the fixing members 61 and 62. As shown in FIG. 6, for example, the holding members 71 and 72 are in line contact with the display 1 and the holding case 2 on the other end 12 side of the display 1 to sandwich them. As shown in FIG. 2, for example, both ends of the holding members 71 and 72 in the extending direction are inserted into recesses (not shown) of the connecting portion 73.

The connecting portion 73 has, for example, a recess into which the ends of the holding members 71 and 72 in the extending direction are inserted, and is connected to a swivel member 83 capable of circular motion along the rail 82 of the housing 8. .. As shown in FIG. 2, for example, the connecting portion 73 is connected to both ends of the holding members 71 and 72 in the extending direction, respectively. The connecting portion 73 is connected and fixed to only one of the holding members 71 and 72 in the recess, for example, and functions as caps at both ends in the extending direction. As a result, when the holding members 71 and 72 are connected by the connecting member 74, the holding member 7 moves in a state where the other of the holding members 71 and 72 moves and a predetermined pressure is applied to the display 1 and the holding case 2. It can be pinched.

As shown in FIG. 6, the connecting member 74 includes a first contact member 741 having a groove having a shape along the outer shape of the first holding member 71 and a second holding member 72 on the other end 12 side of the display 1, for example. A second contact member 742 having a groove having a shape along the outer shape of the screw 743 is connected to the screw 743. As shown in FIG. 2, the connecting member 74 is arranged at one place near the center of the holding members 71 and 72 in the extending direction and is connected to the drive unit 9. As shown in FIG. 6, for example, the connecting member 74 is a member that is supported by a part of the drive unit 9 and does not move when the drive unit 9 is not operating.

The housing 8 is a box body that houses the display 1, the holding case 2, the wiring 3, the drive circuit 4, the control unit 5, the fixing unit 6, the holding unit 7, and the driving unit 9, and is made of any material such as resin. Will be done. In addition to the opening 81 that exposes the surface 1a of the display 1, the housing 8 has a rail 82 for defining the moving direction of the holding portion 7, and a configuration capable of circular motion, for example, as shown in FIG. The swivel member 83 and the pin 84, which is the center of rotation of the swivel member 83, are provided. The housing 8 accommodates the pins 84 on the wall portions intersecting the extending directions of the fixing members 61 and 62, and the housing 8 accommodates the various components described above, and the image displayed on the display 1 can be visually recognized. However, the shape, dimensions, and the like can be changed as appropriate.

The rail 82 is, for example, an arc-shaped through groove, and a screw 832, which will be described later, is inserted in the swivel member 83. The rail 82 has, for example, a circular arc shape centered on the pin 84, which is the center of rotation of the swivel member 83, and plays a role of defining the drive range of the swivel member 83. The rail 82 is formed at a position separated by a predetermined distance from the portion of the housing 8 to which the fixing portion 6 is connected and fixed. The rail 82 is located on an extension line of the holding members 71 and 72 in the extending direction of the housing 8, and is formed on two wall portions sandwiching the holding members 71 and 72, respectively.

As shown in FIG. 2, for example, the swivel member 83 includes a rod 831 and a screw 832, and the rod 831 is configured to be capable of circular motion around a pin 84. For example, the swivel member 83 is arranged on each of the two wall portions of the housing 8 on which the rail 82 is formed, and is connected to both ends of the holding members 71 and 72 in the extending direction via the connecting portion 73. Rail. That is, like the rail 82, a total of two swivel members 83 are provided in the housing 8 and are connected so as to hold both the holding members 71 and 72 via the connecting portion 73.

The pin 84 is, for example, a columnar protrusion provided on the housing 8, and is arranged in the vicinity of a portion of the housing 8 to which the fixing portion 6 is connected and fixed.

The rod 831 is arranged so that one end is located on the fixed portion 6 side and the other end is located on the holding portion 7 side. For example, the rod 831 is provided with a circular through hole on one end side, and a pin 84 is inserted into the through hole, so that an arc motion around the pin 84 is possible. The rod 831 has a connecting portion 73 connected to the other end by a screw or the like (not shown), and a part of the screw 832 is connected to the rod 831.

The screw 832 is a member that plays a role of moving the rod 831 within the range of the rail 82. For example, the diameter of the screw portion is made smaller than the width of the rail 82, and the diameter of the head is made larger than the width of the rail 82. Will be done.

The swivel member 83 is, for example, a member that moves in an arc together with the holding portion 7. For example, when the drive unit 9 operates, the swivel member 83 transmits power through the connecting member 74, the first holding member 71, and the connecting unit 73 connected to the driving unit 9, and makes an arc motion together with the holding unit 7. When power is transmitted from the drive unit 9 to the holding unit 7, the swivel member 83 makes an arc motion along the rail 82 about the pin 84 as an axis.

The drive unit 9 is a power source that transmits power to the holding unit 7, and is used for shape control of the display 1. As shown in FIG. 7, the drive unit 9 meshes with the fixing ring 91 and the uneven portion 911 on the inner circumference of the fixing ring 91, and is rotatable both clockwise and counterclockwise. It is provided with a support portion 93 which is connected to and moves up and down. In the drive unit 9, for example, the support unit 93 is connected to the connecting member 74 of the holding unit 7, and power is transmitted to the holding unit 7 via the support unit 93. The drive unit 9 plays a role of changing the position of the holding unit 7, and thus the shape of the display 1, by controlling the rotation direction and the amount of rotation of the gear 92 based on, for example, the drive signal from the control unit 5.

The fixing ring 91 has a substantially ring shape, and an uneven portion 911 that meshes with the teeth of the gear 92 is formed on the inner peripheral side. The fixing ring 91 is a member that is fixed and does not move, and enables the gear 92 to make a circular motion along the uneven portion 911 of the fixing ring 91.

The gear 92 includes, for example, as shown in FIG. 7, a gear portion 921, a rotating portion 922, and a connecting portion 923.

The gear portion 921 is a member that rotates while meshing with the uneven portion 911 on the inner peripheral side of the fixing ring 91 by rotating the rotating portion 922, and also performs a circular motion along the inner peripheral circumference. The gear portion 921 has a protrusion (not shown) provided at one end of the rotating portion 922 attached to the center of rotation thereof, and rotates and makes a circular motion in conjunction with the rotation of the rotating portion 922. A support portion 93 is connected to the gear portion 921 via a connecting portion 923.

The rotating portion 922 has, for example, a shape including a substantially rectangular plate portion and two protrusions (not shown) extending in opposite directions at both ends of the plate portion in the longitudinal direction. The rotating portion 922 is a member that rotates about a protrusion located on the opposite side of the gear portion 921 by a motor or the like (not shown). In the rotating portion 922, one protrusion portion serving as a rotation axis is arranged at the center of the inner circumference of the fixing ring 91, the other protruding portion is arranged on the uneven portion 911 side of the fixing ring 91, and the gear portion is arranged on the protruding portion. It has a configuration in which 921 is attached. The rotating portion 922 plays a role of moving the gear portion 921 along the uneven portion 911 by performing a circular motion around a protrusion arranged at the center of the inner circumference of the fixing ring 91 by a motor or the like (not shown).

The connecting portion 923 is a member that connects the gear portion 921 and the supporting portion 93. The connecting portion 923 is provided with a columnar protrusion as shown by a broken line in FIG. 7, and is supported by an arbitrary mechanism such as the protrusion being inserted into a cylindrical recess (not shown) formed in the support portion 93. It is connected to the unit 93. The connecting portion 923 is fixed to the gear portion 921 and rotates together with the gear portion 921, but is not fixed to the support portion 93. That is, the connecting portion 923 is configured such that the supporting portion 93 can slide with respect to the connecting portion 923 while rotating together with the gear portion 921.

The support portion 93 is a substantially rectangular plate-shaped member, one end of which is connected to the connecting portion 923 and the other end of which is connected to the connecting member 74 of the holding portion 7. As shown in FIG. 6, for example, the other end of the support portion 93 is connected to a part of the connecting member 74 via the rotary connecting portion 931.

The rotary connection portion 931 has, for example, a shape in which two substantially disk-shaped members are connected to a rod-like body, and the two substantially disk-shaped members are interlocked with the vertical movement of the support portion 93 with the center of each circle as an axis. It is configured to be rotatable. As shown in FIG. 6, for example, the rotary connection portion 931 is connected to the second contact member 742 and the other to the support portion 93, respectively, among the two substantially disk-shaped members. The force of vertical movement is transmitted to the second contact member 742.

As shown in FIG. 7, for example, a part of the support portion 93 is inserted into a through hole of the support body 94 provided in the vicinity of the fixing ring 91. The through hole of the support body 94 has a shape along the outer shape of the support portion 93, and the support portion 93 is linked to the circular motion of the gear 92 in one direction and as shown by the white arrow in FIG. It makes it possible to perform linear motion along the opposite direction. The support portion 93 plays a role of supporting the connecting member 74 and a role of relatively moving the holding portion 7 by vertical movement to change the shape of the display 1.

The drive unit 9 may be accommodated in the housing 8 and may support the holding unit 7 while transmitting power to the holding unit 7, and is not limited to the above example, and is not limited to the above example. Power units can be used. Further, the connection configuration between the drive unit 9 and the holding unit 7 is not limited to the above example.

According to the present embodiment, one end 11 side of the display 1 is fixed by the fixing portion 6, and the holding portion 7 holding the other end 12 side on the opposite side is relatively moved by the driving unit 9, so that the user can perform the gripping operation. At least, it becomes a display device D1 that can change the display 1 into various shapes.

Further, since the display 1 is deformed by using the holding portion 7 that makes line contact with the other end side of the display 1 and the holding case 2, it is difficult to apply local pressure to the display 1, and the stress of the display 1 is relaxed. Is obtained. Further, when the holding portion 7 does not abut on the display 1 but abuts on the holding case 2 to deform the holding case 2, the display 1 does not receive direct pressure from the holding portion 7. , It will be deformed following the deformation of the holding case 2. In this case, the stress of the display 1 is further relaxed.

(Second Embodiment)
The display device D2 of the second embodiment will be described with reference to FIGS. 8 and 9.

In FIGS. 8 and 9, in order to make it easier to understand the connection relationship between the drive unit 10 and the holding case 2, which will be described later, the display 1, the holding case 2, the fixing unit 6, the holding unit 7, a part of the housing 8, and the driving unit Components other than 9 and 10 are omitted.

As shown in FIG. 8, for example, the display device D2 of the present embodiment further includes a drive unit 10 which is a second power source for deforming the display 1 in addition to the drive unit 9. Is different from. In this embodiment, this difference will be mainly described.

Hereinafter, in order to distinguish the drive units 9 and 10 for easy understanding, in the present embodiment, for convenience, the drive unit 9 that applies the first force to the display 1 is referred to as a "first drive unit 9", and the display 1 is second. The drive unit 10 to which the force of the above is applied is referred to as a "second drive unit 10".

In the present embodiment, for example, as shown in FIG. 8, the holding case 2 has a surface facing the back surface 1b of the display 1 as one surface 2a, and the other surface 2b, which is the opposite surface, is connected to the second drive unit 10. 21 is formed. The connecting portion 21 is arranged at an arbitrary position between, for example, a portion of the other surface 2b that abuts the fixing portion 6 and a portion that abuts the holding portion 7. In other words, the connecting portion 21 is a portion of the other surface 2b of the holding case 2 located between one end 11 and the other end 12 of the display 1, and is a portion with which the fixing portion 6 and the holding portion 7 abut. They are located in different parts. The connecting portion 21 may have a cylindrical shape, for example, when the abutting portion 101 of the second driving portion 10 that abuts on the holding case 2 is cylindrical, but the abutting portion 101 is separated from the holding case 2. It suffices if it can be held so as not to occur, and the shape and the like are arbitrary. The connecting portion 21 may be integrally molded with the portion of the holding case 2 that holds the display 1, or may be separated from the portion that holds the display 1 and attached by any method. Good.

The second drive unit 10 includes a contact portion 101 that abuts on a portion of the holding case 2 located between the fixing portion 6 and the holding portion 7, and is pressed or pulled to deform the display 1. It is a power unit that applies force. The second drive unit 10 has the same basic configuration as the first drive unit 9, and includes, for example, a contact portion 101, a support portion 102, and a gear, a fixing ring, and a motor (not shown).

The support portion 102, and the gear and the fixing ring (not shown) correspond to the support portion 93, the gear 92, and the fixing ring 91, respectively, and have the same configuration. Therefore, detailed description thereof will be omitted.

The second drive portion 10 is arranged so that the support portion 102 makes a linear motion along a direction different from that of the support portion 93 of the first drive portion 9, and the end portion of the support portion 102 on the holding case 2 side is arranged. It differs from the first drive unit 9 in that it is a contact portion 101. That is, the second driving unit 10 plays a role of applying a pressing or pulling force in a direction different from that of the first driving unit 9. As shown in FIG. 8, for example, the second drive unit 10 applies a pressing force to the holding case 2 by pushing the support unit 102 to the side opposite to the second drive unit 10. At this time, the display 1 has a curved surface shape with the surface 1a convex. Further, as shown in FIG. 9, for example, the second drive unit 10 applies a tensile force to the holding case 2 by retracting the support unit 102 toward the second drive unit 10. At this time, the display 1 may have a curved surface shape in which the back surface 1b is convex, and may have a more complicated curved surface shape having two or more curved portions such as an S shape in a cross-sectional view.

Like the holding members 71 and 72, the abutting portion 101 may have a cylindrical shape when it is desired to prevent a local force from being applied to the display 1 and the holding case 2. When the abutting portion 101 has, for example, a cylindrical shape, the extending direction of the holding members 71 and 72 of the display 1 is along the width direction of the display 1. Arranged like this.

According to this embodiment, the same effect as that of the first embodiment can be obtained. Further, by applying a second force from the second drive unit 10 in addition to the first drive unit 9, the display 1 can form a curved surface shape having the back surface 1b convex or a complicated curved surface shape having two or more curved portions. This makes it possible to obtain the effect of further improving the degree of freedom in the shape of the display 1.

(Third Embodiment)
The display device D3 of the third embodiment will be described with reference to FIGS. 10 and 11. 10 and 11 show the configuration of a cross section corresponding to the cross section shown in FIG. 3 in the first embodiment.

As shown in FIG. 10, for example, the display device D3 of the present embodiment does not have the holding unit 7, a part of the driving unit 9 comes into contact with the holding case 2, and the power of the driving unit 9 is held by the holding case 2. It is different from the first embodiment in that it is configured to change the shape of the display 1 by transmitting to the above. In this embodiment, this difference will be mainly described.

In the present embodiment, as shown in FIG. 10, the holding case 2 is provided with a connecting portion 22 at the other end 12 side of the display 1 on the other surface 2b, and the support portion 93 of the driving portion 9 is provided. The other end is connected via the connecting portion 22. That is, the holding case 2 has a configuration in which the drive unit 9 is directly connected and can be deformed by following the vertical movement of the support unit 93.

For example, as shown in FIG. 10, the holding case 2 may have a flat plate shape when pressed by the driving unit 9, and may have a curved surface shape when pulled as shown in FIG. The display 1 can take various shapes following such deformation of the holding case 2.

The connecting portion 22 may have a structure capable of holding the support portion 93, for example, and the shape of the connecting portion 22 may be appropriately changed according to the shape of the end portion of the support portion 93. Can have the same configuration as. Further, the connecting portion 22 may be integrated with the portion of the holding case 2 that holds the display 1, or may be separated and retrofitted by any method.

In the present embodiment, the drive unit 9 has the support unit 93 in local contact with the holding case 2. That is, in the drive unit 9, the holding case 2 and the holding unit 7 in the first and second embodiments are in line contact with each other, whereas the driving unit 9 is locally located at one point having an area equal to or less than the predetermined area with the holding case 2. It is said to be in a state of point contact, so to speak. The drive unit 9 is arranged so that, for example, the support unit 93 is an end portion of the holding case 2 located on the other end 12 side of the display 1 and is in point contact at a substantially central portion in the width direction. , Not limited to this arrangement.

The "point contact state" here means, for example, a contact state in which the contact area between the support portion 93 and the holding case 2 is equal to or less than the area of the end face in the extending direction of the support portion 93. ..

Further, since the housing 8 does not have the holding portion 7, the housing 8 does not include the rail 82, the swivel member 83, and the pin 84 in the present embodiment.

The same effect as that of the first embodiment can be obtained by this embodiment as well. Further, since the holding case 2 and a part of the drive unit 9 are in point contact with each other, the number of parts is reduced, and the manufacturing cost is reduced as compared with the first embodiment.

(Other embodiments)
Although the present invention has been described in accordance with Examples, it is understood that the present invention is not limited to the Examples and structures. The present invention also includes various modifications and modifications within a uniform range. In addition, various combinations and forms, as well as other combinations and forms including only one element thereof, more or less, are also within the scope and ideology of the present invention.

(1) For example, in the first embodiment described above, an example in which the display 1 is housed in the holding case 2 and deformed by the holding portion 7 via the holding case 2 has been described, but the display 1 does not have the holding case 2. May be configured to be directly deformed by the holding portion 7. In this case, the fixing portion 6 and the holding portion 7 do not have a configuration in which the display 1 is indirectly sandwiched via the holding case 2, but a configuration in which the display 1 is directly sandwiched.

(2) In each of the above embodiments, a configuration example in which a drive signal is input to the drive units 9 and 10 from a switch device or the like (not shown) via the control unit 5 has been described, but the present invention is not limited to this, and the drive unit 9, 10 may be configured to operate without going through the control unit 5. For example, the drive units 9 and 10 may directly input a drive signal from a switch device or the like (not shown).

(3) In the first embodiment, the example in which the display 1 is an OLED display has been described, but any other type such as a liquid crystal display may be adopted as long as it has a flexible configuration. This also applies to the second and third embodiments.

(4) In the first and second embodiments, an example in which the driving unit 9 transmits power for deforming the display 1 to the holding members 71 and 72 via the connecting member 74 has been described. The connection configuration between the unit 9 and the holding unit 7 is not limited to this.

For example, the drive unit 9 may be connected to the holding members 71 and 72 so as to transmit power, and may be directly connected to any one of the holding members 71 and 72. Further, the drive unit 9 may be connected to the swivel member 83 and transmit power to the holding unit 7 via the swivel member 83.

(5) In the first embodiment, the example in which the holding portion 7 has the connecting portion 73 and is connected to the swivel member 83 and the rail 82 via the connecting portion 73 has been described, but the holding portion 7 is the display 1. The configuration is not limited to this, as long as the configuration is such that the position can be changed. For example, the holding portion 7 may not have the connecting portion 73, and only the first holding member 71 may be connected to the swivel member 83 and the rail 82. In this case, the holding portion 7 is, for example, in a state where the display 1 and the holding case 2 are sandwiched between the first holding member 71 and the second holding member 72, and after connecting and fixing them with the connecting member 74, the first holding member 71 is connected and fixed to the swivel member 83 by the screw 832. Even with this configuration, the holding unit 7 can deform the display 1 by making an arc along the rail 82 while holding the display 1 and the holding case 2. This also applies to the second embodiment.

(6) In the third embodiment, an example in which one drive unit 9 is in point contact at the other end 12 side of the display 1 in the holding case 2 has been described, but a plurality of drive units 9 are provided. It may be configured to have and apply a force of two or more points to the holding case 2. Further, in the second embodiment, in addition to the drive units 9 and 10, another drive unit that applies a force for deformation to the display 1 may be provided.

(7) The display devices according to each of the above embodiments may be freely combined within a possible range. For example, the display device D3 of the third embodiment may be configured by further adding the second drive unit 10 of the second embodiment.

1 ... Display, 1a ... Front side, 1b ... Back side, 11 ... One end,
12 ... the other end, 2 ... holding case, 6 ... fixing part, 61 ... first fixing member,
62 ... 2nd fixing member, 63 ... connecting member, 7 ... holding part,
71 ... 1st holding member, 72 ... 2nd holding member, 74 ... connecting member, 8 ... housing,
9 ... (1st) drive unit, 10 ... 2nd drive unit

Claims (9)

A flexible display (1) having a front surface (1a) and a back surface (1b) on which an image is displayed,
A fixing portion (6) for fixing one end (11) of the display and
A holding portion (7) that holds the other end (12) side of the display opposite to the one end.
A drive unit (9) that is connected to a part of the holding unit and is a power source that changes the position of the holding unit.
A housing (8) for accommodating the display, the fixing portion, the holding portion, and the driving portion is provided.
A display device in which the shape of the display is changed by changing the position of the holding unit by the driving unit. It has one side (2a) and another side (2b) facing the display, which are in a front-to-back relationship, and further has a holding case (2) for accommodating the display.
The display device according to claim 1, wherein the display is fixed to the fixed portion and held by the holding portion together with the flexible holding case. The display device according to claim 2, wherein the holding case is in contact with the entire back surface of the display. The holding portion includes a first holding member (71), a second holding member (72), and a connecting member (74) that connects the first holding member and the second holding member.
Any one of claims 1 to 3, wherein the first holding member is arranged on the opposite side of the second holding member so as to sandwich the display, and holds the display together with the second holding member. The display device according to one. The direction along one end of the outer shell of the display on the surface is defined as the width direction of the display.
The first holding member and the second holding member are rod-shaped bodies having a longitudinal direction, and are arranged so that the longitudinal directions are aligned with the width direction of the display, and a line is formed on the front surface or the back surface of the display. The display device according to claim 4, which is in contact with the display device. A flexible display (1) having a front surface (1a) and a back surface (1b) on which an image is displayed,
A holding case (2) having one surface (2a) and another surface (2b) facing the display, which are in a front-to-back relationship, and accommodating the display.
A fixing portion (6) for fixing one end (11) of the display and
A drive unit (9) having a support portion (93) connected to a portion of the other surface of the holding case located on the other end (12) side of the display.
A housing (8) for accommodating the display, the fixing portion, and the driving portion is provided.
The support portion is in local contact with the other surface and is in contact with the other surface.
A display device that changes the shape of the display through the holding case by applying a pressing or pulling force to the holding case that is flexible by the support portion. The fixing portion includes a first fixing member (61), a second fixing member (62), and a connecting member (63) that connects the first fixing member and the second fixing member.
Any one of claims 1 to 6, wherein the first fixing member is arranged on the opposite side of the second fixing member so as to sandwich the display, and holds and fixes the display together with the second fixing member. The display device described in. The direction along one end of the outer shell of the display on the surface is defined as the width direction of the display.
The first fixing member and the second fixing member are rod-shaped bodies having a longitudinal direction, and are arranged so that the longitudinal directions are aligned with the width direction of the display, and a line is formed on the front surface or the back surface of the display. The display device according to claim 7, which is in contact with the display device. With the drive unit as the first drive unit
A second drive unit (10) that comes into contact with a portion of the other surface located between the one end and the other end of the display is further provided.
The portion of the second drive unit that comes into contact with the holding case is used as the contact portion (101), and the holding case is connected to the contact portion and has a connecting portion (21) that holds the contact portion. And
The display device according to any one of claims 2 to 8, wherein the second drive unit applies a pressing or pulling force to the holding case via the contact portion.

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