JPH03238491A - Display device - Google Patents

Abstract

PURPOSE:To reduce the overall size and weight of the equipment by bending electric conductor leads to which an IC chip is connected near by the side end part of a display panel at right angles and connecting the end parts of the respective electric conductor leads to scanning electrode terminal or signal electrode terminals of the display panel. CONSTITUTION:The electric conductor leads 31 to which the IC chip 32 is connected are formed on an insulating film 30 and bent at right angles nearby the side end part of the display panel 11, and the end parts of the respective electric conductor leads 31 are connected to the scanning electrode terminals 22 or signal electrode terminals 23 of the display panel 11. Consequently, the insulating film 30 where the IC chip 32 is mounted is arranged in the length direction of a device main body between the device main body and display panel 11. Consequently, electronic parts such as the IC chip 32 can be arranged without disturbing the optical paths of a magnifying lens, the display panel 11, and light source body, and the display panel 11 only has the scanning electrode terminals 22 and signal electrode terminals 23 arrayed at the side end part, so the outer periphery of the display panel can be formed small. Consequently, the display device can be reduced in size and weight on the whole.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to display devices such as viewfinders and projectors.

[Prior Art] Conventionally, the viewfinder of a video camera is a CCD (
It displays images captured based on video signals sent from a video camera body containing a built-in solid-state image sensor) or a video tape, and a CRT display was used as the display means. However, viewfinders using CRT displays have problems in that they are heavy and the entire device is large, making it inconvenient to carry the video camera.

Therefore, recently, a lightweight and compact liquid crystal display panel has been considered as a display means for a viewfinder. This liquid crystal display panel has transparent signal electrodes and scanning electrodes facing each other in a matrix on the opposing surfaces of a pair of transparent glass substrates, with a liquid crystal material sealed between them, and the signal electrodes and scanning electrodes are connected to a driver IC. Driven by a chip, it has a structure that displays images captured based on video signals from the video camera body. Note that a contact 11 is provided in front of the liquid crystal display panel for enlarging and viewing the displayed image, and a puncture light for illuminating the back side of the liquid crystal display panel is provided in the rear.

Therefore, the cross-sectional area of the viewfinder inevitably becomes thicker, resulting in a problem that the entire device becomes larger. Such problems also occur in projectors using liquid crystal display panels.

An object of the present invention is to provide a display device in which electronic components such as IC chips do not obstruct the optical path, the outer periphery of the display panel can be reduced, and the entire device can be made smaller and lighter.

[Problems to be Solved by the Invention] However, in a view finder using a liquid crystal display panel, the electric components of the driver IC chip T are arranged on the optical path of the eyepiece, the liquid crystal display panel, and/or the head light. Can not do it. Therefore, each liquid crystal display panel is made so that the outer periphery of the panel is thicker than the display area.
A so-called chip-on-glass method is adopted in which a wiring pattern for connection is formed around the outer periphery of the display area, and a driver IC chip is bonded to the wiring pattern. However, in this method, the outer circumference of the liquid crystal display panel is large.[Means for Solving the Problem] In order to achieve the above-mentioned object, the present invention provides a cylindrical device main body having a transparent part at the end. In a display device in which a lens, a display panel, and a light source are arranged, the display panel, in which a scanning electrode end F and a signal electrode terminal are provided on adjacent sides, is arranged in a direction perpendicular to the longitudinal direction of the device body, and each IC An insulating film on which a chip is mounted is interposed between the device main body and a side edge of the display panel along the longitudinal direction of the device main body, and the insulating film is covered with blue to connect the IC chip. The wire leads are bent at right angles near the side edges of the display panel, and the ends of each wire lead are connected to the scan electrode terminal or the signal electrode terminal of the display panel, respectively.

[Effect] The operation of this invention is as follows.

A wiring lead to which an IC chip is connected is formed on an insulating film, and the wiring lead is bent at right angles near the side edge of the display panel, so that the end of each wiring lead is attached to the side of the display panel. The insulating film on which the IC chip is mounted is connected between the main body of the device and the side edge of the display panel, and! 1.It is placed in the direction of the length of the main body.Therefore, electronic components such as IC chips can be placed without interfering with the optical path of the magnifying lens, display panel, and light source. Since it is only necessary to arrange the scanning electrode terminals and the signal electrode terminals at the side edges of the display panel, the outer periphery of the display panel can be made small, thereby making it possible to reduce the size and weight of the entire display device.

[Embodiment] Hereinafter, an embodiment in which the present invention is applied to a viewfinder of a video camera will be described with reference to FIGS. 1 to 4.

FIG. 1 shows the overall structure of the view finder.

In the figure, 1 is the finder body. The finder body 1 is formed into a cylindrical shape, and has an opening 2 at its left end.

A lens barrel 3 is provided in this opening 2 so as to protrude from the inside of the finder main body 1 to the outside. A magnifying lens 4 is provided within the lens barrel 3, and an eyepiece portion (light-transmitting portion) 5 is provided at its outer end. Furthermore, a display component 6 and a backlight 7 are provided inside the finder main body l. The display component 6, backlight 7, and magnifying lens 4 are arranged on the optical axis. Note that the backlight 7 includes a light source 9 such as a fluorescent tube in a light case 8,
In addition, a diffusion plate 10 is provided on the side of the display component 6, and the light from the light source 9 is diffused by the diffusion plate 1O and irradiated onto the liquid crystal display panel 11 of the display component 6.

2 and 3 show the structure of the display component 6. The display component 6 includes a liquid crystal display panel 11, a liquid crystal cell 12, a cylindrical holder 13, a circuit board 14, and so on. IC unit for scanning electrode) 15, IC unit for signal electrode) 16.17, and 1st. It is composed of second connection wiring boards 18 and 191.

The liquid crystal display panel 11 displays the information of the image T in a color table 71:
Transparent scanning electrodes and transparent electrodes 11 (No. 1) are provided facing each other in a matrix on opposing surfaces of a pair of glass substrates 20.21 facing each other. TN in which a liquid crystal material is sealed in between and the helix angle of this liquid crystal material is widened to about 150 to 270 degrees.
It has a type structure. In this liquid crystal display panel 11, the intersection of scanning electrode and signal electrode pair 1111 becomes a pixel, and facing each pixel are red, string, ? Color filters of t elements are arranged. In this case, the upper glass plate 2
0 has one end protruding in any direction from the lower glass substrate 21, and scanning electrode terminals 22 are arranged in this protruding portion. In addition, the lower glass substrate 21 is the upper glass substrate 2.
0 protrudes from the upper glass substrate 20, and signal electrode terminals 23 and 23 are arranged at each of the protruding side ends. Note that the liquid crystal cell 12 is for compensating for the phase difference (color) of light caused by the wavelength dependence due to birefringence of the liquid crystal material of the liquid crystal display panel 11, and the structure is similar to that of the liquid crystal display panel 11 except that the transparent electrodes and color filters are removed. It has the same structure as the liquid crystal display panel 11.

The cylindrical holder 13 holds the liquid crystal display panel 11 and the liquid crystal cell 1.
2, and is formed into a rectangular cylindrical shape, with an opening 1 corresponding to the display area of the liquid crystal display panel 11.
3a is formed. A frame-shaped support portion 24 is provided at the upper end of the cylindrical halter 13 to support the liquid crystal display panel ll and the liquid crystal cells 12 in 81 layers. Moreover, engagement hooks 25 are provided at each of the four corners of one outer surface of the cylindrical holder 13 in a protruding manner.

] The 111-way thumb board 14 is a hard substrate made of epoxy resin or the like, and has a wiring pattern (not shown) formed on its surface, is mounted with an IC chip 26 for control, and has connection terminal portions 27 . A solder resist is coated on the entire surface of one circuit board 14 except for the connecting terminals 27 and 28 provided in the lower two rows. Further, locking grooves 29 are provided on both side edges of the circuit board 14, and the locking grooves 29 are provided on both sides of the circuit board 14.
An engagement hook 25 of the cylindrical holder 13 is removably engaged with the cylindrical holder 9 to attach the cylindrical holder 13. Note that the circuit board 14 is connected to a video camera by a lead wire (not shown), and a video signal is received from the video camera.

IC units 115 to 17 drive the liquid crystal display panel 1.1, the scan electrode IC unit 15 is connected to the scan electrode terminal 22 of the liquid crystal display panel 11, and the signal electrode IC unit 16. 17 is the liquid crystal display panel 11
The four signal electrode terminals 23 and 23 are connected to each other by suitable bonding means such as adhesive or soldering.

Here, the conductive adhesive is a hot-melt insulating adhesive in which conductive particles or fine particles whose outer surfaces are covered with an insulating film are dispersed, and J5.
Say something that brings about communication. Each IC unit 15-1
7 is of the TAB method, and each insulating film 3
It has a structure in which wiring leads 31 are patterned on 0 and a plurality of driving IC chips 32 are mounted (two in the figure, but it may be one or three or more).

In this case, each wiring lead 31 is provided to protrude from the upper and lower ends of the insulating film 30, and the upper outer end 33a is connected to each electrode terminal 22, 23 of the liquid crystal display panel 11.
The lower outer end portion 33b is a connection wiring board 18.19 which will be described later.
It is connected to the. Further, the insulating film 30 of each IC unit 15 to 17 is provided with a slit 30a at one end on the side connected to the liquid crystal display panel 11 to facilitate bending of a wiring lead 31, which will be described later. What is important here is that when connecting the upper outer end 33a of the wiring lead '31 to each electrode terminal 22, 23 of the liquid crystal display panel 11, the wiring lead 31 is connected in the vicinity of the side end of the liquid crystal display panel 11 in a right angle direction. Bend the IC units 15 to 17 into the cylindrical holder 13.
It is connected while being placed on the outer surface of the. This means that each IC unit 15 to 17 will
1 and the inner surface of the finder body l, and along the length-p direction of the finder body l. Therefore, each of the IC units 15 to 17 equipped with the IC chip 32 is arranged without interfering with the optical path of the magnifying lens 4, the display component 6, and the light 7, as shown in FIG. .

The connection wiring board 18.1.9 connects each IC unit 15 to 1.
7 to the circuit board 14, and each first connection wiring board 18 is for connecting the IC unit 1 for scan-a pole.
5 to the circuit board 14, and the second connection wiring (board 19 connects (7"-'J'+) to the IC unit 16.1 for the terminal.
7 is connected to the IOJ path J (board 14).In other words, each connection wiring board 18, 19 is formed by covering the wiring pattern 35 with solder resist on the surface of a substantially strip-shaped flexible insulating film 34, and connecting it to the IOJ path J (board 14). board side terminal 36
It has a structure in which unit side terminals 37, 38, and 39 are provided. In this case, the first connection wiring board 18 is provided with a unit terminal 37 at the lower part of one end, protrudes downward from the other end, and has a board terminal 36 provided at the lower part of the protrusion. This first connection wiring board 18 is bent into a "U" shape, and one end is connected to the cylindrical holder 13 and the IC.
unit) 15, and the unit side terminal 37 is connected to T.
C unit) 15 is connected to the lower outer end 33b of the wiring lead 31 by soldering, etc., and the middle part is connected to the cylindrical holder 13 and I
C unit) 16, and the other end side is a cylinder η! A board-side terminal 36 is disposed between the holder 13 and the circuit board 14 and is connected to a connecting terminal portion 28 on the lower side of the circuit board 14 by soldering or the like. Further, the second connection wiring board 19 is provided with unit/ ) side terminals 38 and 39 at the bottom of both ends, the middle part protrudes upward, and the board side terminal 36 is provided in one part of this protrusion. . This second connection wiring board 19 is also bent into a U-shape, and both ends thereof are placed between the cylindrical holder 13 and the IC unit 16.17, and the unit side terminals 38.39 are connected to the IC unit. The soldering is connected to the lower outer end 33b of the wiring lead 31 of No. 17, and the intermediate portion is placed between the cylindrical holder 13 and the circuit board 14, and the board side terminal 36 is connected to the L side of the circuit board 14. It is connected to the terminal portion 27 by soldering or the like. Although not shown, a plurality of chip components are mounted on the connection wiring boards 18 and 19. In this way, according to the above-mentioned ViewFiPida, the first
, the circuit board 1 by the second connection wiring board 18.19.
When connecting the IC units 15 to 17 connected to 4 to each electrode terminal 22 and 23 of the liquid crystal display panel 11 held in the cylindrical holder 13,
The outer ends 33a of the 17 wiring leads 31 were bent at right angles, and the IC units 15 to 17 were placed on the outer surface of the cylindrical holder 13 and connected.
When placed inside the finder body, each IC unit)
15 to 17 are arranged between the outer end of the liquid crystal display panel 11 and the finder main body l. Therefore, the magnifying lens 4, the liquid crystal display panel 11, and the backlight 7
The electronic components of the driving IC chip 324 can be placed without interfering with the optical path of the drive IC chip 324. Moreover, the liquid crystal display panel 1
1 only needs to provide the scanning electrode terminal 22 or the signal electrode terminal 23 on the outer circumferential side of the display area, so the liquid crystal display panel 1
1 can be made smaller, thereby making it possible to reduce the size and weight of the entire viewfinder.

Note that this invention is not limited to the embodiments described above. For example, the number of connection wiring boards 40 is not necessarily two, and may be three, or may be one as shown in FIG. Unit-side terminals 42 for scanning electrodes are provided at predetermined locations on the lower side in the longitudinal direction of a strip-shaped flexible insulating film 41, and unit-side terminals 4 for signal electrodes are provided on both sides of the unit-side terminals 42 for scanning electrodes.
3.43 is provided, and this unit side terminal 43.43 -.
The board side terminals 44 are arranged on the opposite side (the left side in the figure) in a two-digit structure. When connecting each IC unit 15 to 17 to a circuit board using this connection wiring board 40, for example, the unit side end /-42 for scanning electrode is connected to the IC for scanning electrode.
Connect to the lower outer end 33b of the wiring lead 31 of unit 15, bend both sides at right angles at the points indicated by two-dot chain lines A and A, and connect each unit side terminal 43.
is connected to the F exception end 33b of the wiring lee 131 of each IC unit 16, 17 for the nail tJ electrode, and further, one end is bent at a right angle at the point indicated by the two-dot chain line B, and the X plate side end F44 is It may be connected to the connection terminal portion of the circuit board.

Insulating film 30 of each IC unit 7 15 to 17
A slit 30a is formed in the slit 7 to facilitate bending of the wiring lead 31.
is not necessarily necessary.

In addition, for large and small LCD panels, the twist angle of the liquid crystal material is 150 to 2
It does not necessarily have to be a 70 degree type, but may be a 90 degree TN type.Also, what compensates for the phase difference (color) of the liquid crystal display panel is not limited to the liquid crystal cell 12, but may also include a phase plate (wavelength plate), etc. However, the twist angle of the liquid crystal material of the liquid crystal display panel is 90 degrees.
It is not necessarily necessary to provide this in the case of TNfi.

Furthermore, the present invention is not limited to the above-mentioned viewfinder, but can also be applied to a display device such as a liquid crystal projector, and in this case, an enlarged projection lens is disposed in the eyepiece 5.

[Effects of the Invention] As explained in detail above, according to the present invention, a wiring REIT in which an IC chip is connected to an insulating film is formed,
This wiring lead is bent at a right angle near the side edge of the display panel, and the end of each wiring lead is connected to the scanning electrode terminal or the signal electrode terminal of the display panel, respectively.
The insulating film on which the IC chip is mounted is placed between the device body and the side edge of the display panel and along the longitudinal direction of the device body, so it does not obstruct the optical path of the magnifying lens, display panel, and light source. To.

Electronic components such as IC chips can be arranged. Moreover, it is only necessary to arrange the scanning electrode terminals and the signal electrode terminals at the side edges of the display panel.

The outer periphery of the front/b panel can be made small, thereby making it possible to reduce the size and weight of the entire display device.

C chip, 33a...outer end.

Claims (1)

[Claims] A display device in which a magnifying lens, a display panel, and a light source are arranged in a cylindrical device body having a light-transmitting part at one end, wherein a scanning electrode terminal and a signal electrode terminal are arranged on adjacent sides. The provided display panels are arranged in a direction perpendicular to the longitudinal direction of the apparatus main body, and an insulating film on which an IC chip is mounted is placed between the apparatus main body and the side edge of the display panel in the longitudinal direction of the apparatus main body. The wiring leads arranged along the direction, covered with the insulating film, and connected to the IC chip are bent in a right angle direction near the side edges of the display panel, and the ends of each wiring lead are bent. A display device characterized in that each of the electrode terminals is connected to a scanning electrode terminal or a signal electrode terminal of the display panel.