CN208044239U - Electronic equipment - Google Patents
Electronic equipment Download PDFInfo
- Publication number
- CN208044239U CN208044239U CN201590001587.6U CN201590001587U CN208044239U CN 208044239 U CN208044239 U CN 208044239U CN 201590001587 U CN201590001587 U CN 201590001587U CN 208044239 U CN208044239 U CN 208044239U
- Authority
- CN
- China
- Prior art keywords
- retainer
- protrusion
- plate
- sidewall portion
- liquid crystal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
- 239000004973 liquid crystal related substance Substances 0.000 abstract description 165
- 238000009434 installation Methods 0.000 abstract description 11
- 210000000078 claw Anatomy 0.000 description 47
- 238000000034 method Methods 0.000 description 10
- 238000005452 bending Methods 0.000 description 8
- 238000004049 embossing Methods 0.000 description 4
- 238000010276 construction Methods 0.000 description 3
- 238000005520 cutting process Methods 0.000 description 3
- 239000002184 metal Substances 0.000 description 3
- 229910052751 metal Inorganic materials 0.000 description 3
- 230000009194 climbing Effects 0.000 description 2
- 238000002788 crimping Methods 0.000 description 2
- 239000013078 crystal Substances 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000007373 indentation Methods 0.000 description 2
- 239000007788 liquid Substances 0.000 description 2
- 238000003754 machining Methods 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000005253 cladding Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000005489 elastic deformation Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000001815 facial effect Effects 0.000 description 1
- 150000002739 metals Chemical class 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000011347 resin Substances 0.000 description 1
- 229920005989 resin Polymers 0.000 description 1
- 239000006058 strengthened glass Substances 0.000 description 1
Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
Abstract
The utility model is related to electronic equipments.The Liquid Crystal Module (1) that electronic equipment (100) is had the retainer (2) for the metallic plate for being formed as box-like and is housed in the back part state opposed with bottom surface sections (21) of retainer (2) in retainer (2).The slit that 1st side of sidewall portion (22a, 22b) of retainer (2) has length direction orthogonal with the plate thickness direction of Liquid Crystal Module (1) forms plate spring part (27a, 27b) using the position along slit adjoining of metallic plate.Plate spring part (27a, 27b) has the 1st protrusion (28a, 28b) to the inside protrusions of retainer (2), and the 1st protrusion (28a, 28b) is abutted with the side surface part of Liquid Crystal Module (1).The intensity of retainer is not reduced, has in addition not only realized space saving but also is easy to carry out installation of the thick plate-like member relative to retainer.
Description
Technical field
The utility model is related to electronic equipments, more particularly to the structure that the thick plate-like members such as Liquid Crystal Module are fixed
It makes.
Background technology
In the past, liquid crystal display is used in the display unit of electronic equipment.Liquid crystal display has liquid crystal display panel, leaded light
The component for the thick plate-like that plate and backlight etc. are laminated, i.e. so-called " Liquid Crystal Module ".
The display unit of electronic equipment has the component of the metallic plate kept to Liquid Crystal Module.For example, patent document 1
Electronic equipment have display unit can be configured to internal holding frame, which is made of metallic plate.Patent document 2
Electronic equipment have be formed to receiving display device metal plate component.
Patent document 1:Japanese Unexamined Patent Publication 2008-203829 bulletins
Patent document 2:Japanese Unexamined Patent Publication 2004-354731 bulletins
Component (hereinafter referred to as " retainer " for the metallic plate for keeping Liquid Crystal Module.) for, liquid crystal in order to prevent
Module falls off from the retainer, has the construction that Liquid Crystal Module is fixed.Hereinafter, to an example of previous fixture construction
Son illustrates.
Previous retainer be, for example, by mutually opposed multiple claws be vertically disposed at shape made of bottom surface sections or
Person is that mutually opposed claw and side of sidewall portion are vertically disposed at shape made of bottom surface sections.In the back part of Liquid Crystal Module
In the state of opposed with the bottom surface sections of retainer, the claw or side of sidewall portion of retainer are abutted with the side surface part of Liquid Crystal Module.That is,
Being abutted respectively in rectangular-shaped Liquid Crystal Module and in the corresponding side surface part of opposite side side surface part corresponding with both sides has claw, or
Person and the corresponding side surface part in one side abutting have claw and have side of sidewall portion in side surface part corresponding with another side abutting.
Interval between mutually opposed claw or between claw and side of sidewall portion is set to 1 than corresponding Liquid Crystal Module
The small value of the width on side.In addition, the claw of metallic plate have flexibility, claw in the state of flexible deformation with Liquid Crystal Module
Side surface part abuts.Liquid Crystal Module is crimped between claw or between claw and side of sidewall portion by the elastic force of claw, thus by liquid crystal
Module is fixed on retainer.
When Liquid Crystal Module is installed on retainer, makes the one end of Liquid Crystal Module first and be set to one end of retainer
The claw or side of sidewall portion in portion abut.Then, so that Liquid Crystal Module is rotated relative to retainer using the abutting part as axis, and make liquid crystal
The other end of module is abutted with the claw of the other end for being set to retainer or side of sidewall portion.Then, make Liquid Crystal Module
The other end is pressed into towards retainer and makes claw flexible deformation, to which Liquid Crystal Module enters between claw or claw and side wall
It is fixed between portion.
Here, by by claw a part bend, to be formed with from the root of claw towards terminal part and by
Gradually tend to the inclination face of edge part from the central portion of retainer.When Liquid Crystal Module is installed on retainer, inclination face
It is abutted with the edge part of Liquid Crystal Module, the function of so-called " guiding shape " is played, to prevent the edge part quilt of Liquid Crystal Module
The terminal part of claw hooks and becomes not installing.
For the metallic plate of retainer, high mechanical strength is suitable for Liquid Crystal Module to make it have
The elasticity of installation needs to keep wall thickness thinning or shape is made to become elongated.It is thinning in the metallic plate for making retainer and make claw
In the case of flexible, the strength reduction of retainer entirety and become easy flexure, to Liquid Crystal Module apply load.Separately
Outside, claw is made to attenuate and flexible, the intensity of claw is greatly reduced, therefore the pawl in the installation of Liquid Crystal Module
Portion can deform or be broken, to become that the installation of Liquid Crystal Module can not be carried out.In order to avoid these problems, preferably claw is made to become
It grows to make it have elasticity.In addition, the length of claw is the element most helpful in elasticity, from this viewpoint it is also preferred that making claw
It is elongated.
However, the miniaturization recently as electronic equipment and multifunction, the component of electronic equipment internal is highly dense
Degree ground configuration, it is difficult to ensure the space for making claw extend.As a result, can not make claw that there is adequately elasticity, liquid crystal
Module needs prodigious power to the installation of retainer, to there are problems that being difficult to install.
Here, it is also contemplated that by making the length direction of claw become the court orthogonal with the plate thickness direction of Liquid Crystal Module
To not only keep claw elongated but also the scheme of realization space saving.However, in this case, the other end of claw is with claw
One end be basic point along retainer bottom surface sections towards flexible deformation, it is difficult to by bend claw a part by formed
The guiding shape of Liquid Crystal Module.Therefore, when Liquid Crystal Module is installed on retainer, the edge part of Liquid Crystal Module is by the side of claw
End is hooked, to there are problems that not installing.
In addition, these problems are not limited to the retainer of Liquid Crystal Module, as long as thick plate-like member is fixed
Retainer will produce.
Utility model content
The utility model is completed to solve project as described above, and its purpose is to provide one kind not reducing guarantor
The intensity of frame is held, space saving had in addition not only been realized but also the easy thick plate-like member that carries out is set relative to the electronics of the installation of retainer
It is standby.
The electronic equipment of the utility model has the retainer for the metallic plate for being formed as box-like and with single side portion and guarantor
The opposed state of bottom surface sections for holding frame configures the thick plate-like member in retainer, and the 1st side of sidewall portion of retainer has length side
To the slit orthogonal with the plate thickness direction of retainer, plate spring part, leaf spring are formed using the position along slit adjoining of metallic plate
Portion has the 1st protrusion to the inside protrusions of retainer, and the 1st protrusion abuts with the side surface part of thick plate-like member, retainer with
2nd protrusion of the 2nd opposed side of sidewall portion of 1st side of sidewall portion with the inside protrusions to retainer, the 2nd protrusion and thick plate-like member
Side surface part abuts, and the 2nd protrusion is configured to the bottom surface sections closer to retainer than the 1st protrusion.
Preferably, the plate thickness direction of length direction with retainer of plate spring part is orthogonal, and the both ends of plate spring part and the 1st
Side of sidewall portion is continuous.
Preferably, to be set side by side with respective length direction in the 1st side of sidewall portion orthogonal with the plate thickness direction of thick plate-like member
The 1st slit and the 2nd slit, utilize metallic plate between the 1st slit and the 2nd slit to form plate spring part.
Preferably, thick plate-like member is positioned by being abutted with the 2nd protrusion relative to retainer.
Preferably, the 1st protrusion and the 2nd protrusion are semi-spherical shape.
Preferably, the interval between mutually opposed the 1st protrusion and the 2nd protrusion of retainer is set to compare thick plate-like member
The small value of width, thick plate-like member is fixed on the state for being crimped on the 1st protrusion and the 2nd protrusion in retainer.
Preferably, for retainer, the interior pleurapophysis of the position comprising the 2nd protrusion in the 2nd side of sidewall portion to retainer
Go out.
In addition, the electronic equipment of the utility model, has the retainer for the metallic plate for being formed as box-like and with single side
Portion's state opposed with the bottom surface sections of retainer is housed in the thick plate-like member in retainer, and the 1st side of sidewall portion of retainer has
The length direction slit orthogonal with the plate thickness direction of thick plate-like member forms plate using the position along slit adjoining of metallic plate
Spring portion, plate spring part have the 1st protrusion to the inside protrusions of retainer, and the 1st protrusion is abutted with the side surface part of thick plate-like member, right
For retainer, the position comprising the 1st protrusion in the 1st side of sidewall portion is prominent to the inside of retainer, also, the 1st side of sidewall portion
In from formed the position of plate spring part it is different positions it is prominent to the inside of retainer, in the 1st side of sidewall portion into retainer
Side position outstanding, gradually to tend to close to the opening portion with the end of the opening portion side of retainer the outside of retainer
Mode is bent.
Preferably, the plate thickness direction of length direction with retainer of plate spring part is orthogonal, and the both ends of plate spring part and the 1st
Side of sidewall portion is continuous.
Preferably, to be set side by side with respective length direction in the 1st side of sidewall portion orthogonal with the plate thickness direction of thick plate-like member
The 1st slit and the 2nd slit, utilize metallic plate between the 1st slit and the 2nd slit to form plate spring part.
The electronic equipment of the utility model is constituted as described above, therefore does not reduce the intensity of retainer, is in addition both realized
Space saving is easy to carry out installation of the thick plate-like member relative to retainer again.
Description of the drawings
Fig. 1 is the exploded perspective view for the major part for indicating the electronic equipment involved by the embodiment 1 of the utility model.
Fig. 2 is the stereogram for the major part for indicating the electronic equipment involved by the embodiment 1 of the utility model.
Fig. 3 is the front view for the major part for indicating the electronic equipment involved by the embodiment 1 of the utility model.
Fig. 4 is the sectional view along A-A ' lines shown in Fig. 3.
Fig. 5 is the enlarged drawing in the region that A-B-C-D lines as shown in Figure 4 surround.
Fig. 6 is the enlarged drawing in the region that E-F-G-H lines as shown in Figure 4 surround.
Fig. 7 is the state before the retainer receiving thick plate-like member indicated involved by the embodiment 1 of the utility model
Definition graph.
Fig. 8 is state when indicating the retainer receiving thick plate-like member involved by the embodiment 1 of the utility model
Definition graph.
Fig. 9 is the state after the retainer receiving thick plate-like member indicated involved by the embodiment 1 of the utility model
Definition graph.
Figure 10 is the front view for indicating the Liquid Crystal Module involved by the embodiment 2 of the utility model.
Figure 11 is the side view for indicating the Liquid Crystal Module involved by the embodiment 2 of the utility model.
Figure 12 is the stereogram for indicating the retainer involved by the embodiment 2 of the utility model.
Figure 13 is to indicate that the region comprising the 1st protrusion of retainer involved by the embodiment 2 of the utility model is put
Big figure.
Figure 14 is the sectional view along B-B ' lines shown in Figure 13.
Figure 15 is the sectional view for the major part for indicating the electronic equipment involved by the embodiment 2 of the utility model.
Specific implementation mode
Hereinafter, in order to give the account in greater detail to the utility model, according to the attached drawing of addition to being used to implement this reality
It is illustrated with novel mode.
Embodiment 1.
Fig. 1 is the exploded perspective view for the major part for indicating the electronic equipment involved by the embodiment 1 of the utility model.
Fig. 2 is the stereogram for the major part for indicating the electronic equipment involved by the embodiment 1 of the utility model.Fig. 3 is to indicate this
The front view of the major part of electronic equipment involved by the embodiment 1 of utility model.Fig. 4 is along A-A ' shown in Fig. 3
The sectional view of line.Fig. 5 is the enlarged drawing in the region that A-B-C-D lines as shown in Figure 4 surround.Fig. 6 is E- as shown in Figure 4
The enlarged drawing in the region that F-G-H lines surround.Referring to Fig.1~Fig. 6 illustrates the electronic equipment 100 of embodiment 1.
Liquid Crystal Module 1 is the component for the thick plate-like for being laminated liquid crystal display panel, light guide plate and backlight etc..Liquid crystal mould
The surface element of block 1 has the display surface 11 of liquid crystal display panel to expose, and back part and side surface part are by claddings such as metals.
Retainer 2 is by being processed the component produced to shape for the metallic plate of substantially rectangular shape.Metallic plate
Edge part be bent into 1 grade ladder-like by the way that so-called " Z-shaped bending " is processed, the main part of retainer 2 is formed as big
Cause box-like.That is, retainer 2 has the bottom surface sections 21 of substantially rectangular shape, is vertically disposed at the edge parts of bottom surface sections 21 and mutual
Opposed 1 couple the 1st side of sidewall portion 22a and the 2nd side of sidewall portion 23a and be vertically disposed at bottom surface sections 21 edge part and with the 1st side
1 couple the 1st side of sidewall portion 22b and the 2nd side of sidewall portion 23b substantially orthogonal wall portion 22a and the 2nd side of sidewall portion 23a.In retainer 2
Open end is formed with the flange part 24 substantially parallel with bottom surface sections 21.
It is equipped with the hole portion of slit-shaped in the 1st side of sidewall portion 22a of a side.In the example of Fig. 1~Fig. 6, it is set side by side with
Respective the length direction 1st slit 25a and 2nd slit 26a substantially orthogonal with the plate thickness direction of Liquid Crystal Module 1.Utilize
Metallic plate between 1 slit 25a and the 2nd slit 26a forms plate spring part 27a.That is, the length direction of plate spring part 27a and Liquid Crystal Module 1
Plate thickness direction it is substantially orthogonal, the both ends of plate spring part 27a and the 1st side of sidewall portion 22a are continuous.Plate spring part 27a has flexibility, and
And using, as basic point, central portion is in the direction (paper of Fig. 4~Fig. 6 along bottom surface sections 21 with the 1st continuous both ends side of sidewall portion 22a
Face upper and lower directions) on flexible deformation freely.In the central part of plate spring part 27a, by applying so-called " embossing is processed ", to shape
At the 1st protrusion 28a of the semi-spherical shape of the inside protrusions of oriented retainer 2.
In the 2nd side of sidewall portion 23a of a side, the 2nd protrusion 29a of the inside protrusions of oriented retainer 2 is formed.2nd protrusion 29a
It is processed and is formed by embossing identical with the 1st protrusion 28a, and be semi-spherical shape.2nd protrusion 29a is configured to more convex than the 1st
Portion 28a is closer to bottom surface sections 21.
In the 1st side of sidewall portion 22b of another party, it is provided with 1st slit 25b identical with the 1st side of sidewall portion 22a of a side, the 2nd
Slit 26b, plate spring part 27b and the 1st protrusion 28b.In the 2nd side of sidewall portion 23b of another party, it is provided with the 2nd side wall with a side
The identical 2nd protrusion 29b of portion 23a.
Here, the interval between the 1st side of sidewall portion 22a and the 2nd side of sidewall portion 23a of a mutually opposed side is set to, than long
Value big the width La of the short side of rectangular Liquid Crystal Module 1.The 1st side of sidewall portion 22b of mutually opposed another party and the 2nd side of sidewall portion
Interval between 23b is set to, the value bigger than the width Lb of the long side of Liquid Crystal Module 1.As shown in FIG. 2 and 3, Liquid Crystal Module
1 is housed in retainer 2.The back part of Liquid Crystal Module 1 is opposed with the bottom surface sections 21 of retainer 2, the display surface 11 of Liquid Crystal Module 1
Expose to outside.
In addition, as shown in Fig. 3~Fig. 6, the side surface part corresponding with long side of Liquid Crystal Module 1 is connected to the 1st protrusion 28a respectively
And the 2nd protrusion 29a, side surface part corresponding with short side are connected to the 1st protrusion 28b and the 2nd protrusion 29b respectively.Due to the 2nd convex
Portion 29a, 29b are connected to the side surface part of Liquid Crystal Module 1, to position Liquid Crystal Module 1 relative to retainer 2.At this point, such as Fig. 6
In chain-dotted line I shown in, the terminal part of the 2nd protrusion 29a becomes the benchmark position of the side surface part corresponding with long side of Liquid Crystal Module 1
It sets.Similarly, the terminal part of the 2nd protrusion 29b becomes the reference position of the side surface part corresponding with short side of Liquid Crystal Module 1.
In addition, the interval between the 1st protrusion 28a and the 2nd protrusion 29a of a mutually opposed side is set to, than liquid crystal mould
Value small the width La of the short side of block 1.Therefore, as shown in figure 5, with the 1st protrusion 28a of state of plate spring part 27a flexible deformations with
The side surface part of Liquid Crystal Module 1 abuts, by the elastic force of plate spring part 27a by Liquid Crystal Module 1 with the side surface part of Liquid Crystal Module 1 and the 1st
The state of both protrusion 28a and the 2nd protrusion 29a crimping is fixed.Similarly, the 1st of mutually opposed another party the is convex
Interval between portion 28b and the 2nd protrusion 29b is set to the value smaller than the width Lb of the long side of Liquid Crystal Module 1, by plate spring part
The elastic force of 27b crimps Liquid Crystal Module 1 with the side surface part of Liquid Crystal Module 1 with two sides of the 1st protrusion 28b and the 2nd protrusion 29b
State is fixed.Liquid Crystal Module 1 is fixed on retainer 2 as a result,.
Furthermore it is preferred that consider Liquid Crystal Module 1 and 2 respective component tolerance of retainer and set the 1st side of sidewall portion 22a with
Interval between 2nd side of sidewall portion 23a.That is, when the width La of the short side of Liquid Crystal Module 1 becomes the maximum value that can assume that, the 1st side
Interval between wall portion 22a and the 2nd side of sidewall portion 23a is set to, same value or the value bigger than width La with width La.Together
Sample, when the width Lb of the long side of Liquid Crystal Module 1 becomes the maximum value that can assume that, the 1st side of sidewall portion 22b and the 2nd side of sidewall portion
Interval between 23b is set to, same value or the value bigger than width Lb with width Lb.
Additionally, it is preferred that considering Liquid Crystal Module 1 and 2 respective component tolerance of retainer and setting the 1st protrusion 28a and the 2nd
Interval between the 29a of protrusion.Even if that is, when the width La of the short side of Liquid Crystal Module 1 becomes the minimum value that can assume that, the 1st is convex
Interval between portion 28a and the 2nd protrusion 29a is set to the value smaller than width La.Similarly, even if Liquid Crystal Module 1 length
When the width Lb on side becomes the minimum value that can assume that, the interval between the 1st protrusion 28b and the 2nd protrusion 29b is set to than wide
Spend the small values of Lb.
In the flange part 24 of retainer 2, it is bonded with the edge part of cover board (not shown).Cover board is by strengthened glass or transparent
Resin is constituted, and is protected to the display surface 11 of Liquid Crystal Module 1.In addition, the back side of the bottom surface sections 21 in retainer 2, Gu
Surely there is electronic circuit board (not shown).Electronic circuit board be equipped with Liquid Crystal Module 1 power supply with and control electricity
Road etc., and be electrically connected with Liquid Crystal Module 1 by pass through the wiring for the hole portion (not shown) for penetrating through bottom surface sections 21.In this way, structure
At the major part of electronic equipment 100.
Next, with reference to Fig. 7~Fig. 9, the assemble method of the major part of electronic equipment 100 is illustrated.
First, as shown in fig. 7, keeping the back part of Liquid Crystal Module 1 and the bottom surface sections 21 of retainer 2 opposed substantially in parallel.
As shown in arrow J in figure, the power of the direction by applying the plate thickness direction along Liquid Crystal Module 1, to by Liquid Crystal Module 1 from guarantor
It holds in the opening portion indentation retainer 2 of frame 2.At this point, since the 2nd protrusion 29a is configured to than the 1st protrusion 28a closer to bottom surface sections
21, so before the lower end of the back part of Liquid Crystal Module 1 is abutted with the 2nd protrusion 29a, upper end is first supported with the 1st protrusion 28a
It connects.
Then, it as shown in the arrow K of Fig. 8, is abutted from the upper end of the back part of Liquid Crystal Module 1 with the 1st protrusion 28a
State rises, and Liquid Crystal Module 1 is pressed further into.At this point, since the 1st protrusion 28a is semi-spherical shape, so becoming liquid crystal mould
The guiding shape of block 1.As a result, the upper end of the back part of Liquid Crystal Module 1 do not hooked by the 1st protrusion 28a but swimmingly
In climbing to the 1st protrusion 28a.As a result, as shown in arrow L in figure, Liquid Crystal Module 1 is with from the 1st side of sidewall portion 22a towards the 2nd side of sidewall portion
The direction (paper is downward) of 23a is mobile, to the state abutted with the 1st protrusion 28a as the side surface part of Liquid Crystal Module 1.
Next, from the state that the side surface part of Liquid Crystal Module 1 is abutted with the 1st protrusion 28a, Liquid Crystal Module 1 is further
Indentation.The lower end of the back part of Liquid Crystal Module 1 is abutted with the 2nd protrusion 29a as a result,.
Then, it as shown in the arrow M of Fig. 9, is abutted from the lower end of the back part of Liquid Crystal Module 1 with the 2nd protrusion 29a
State rises, and Liquid Crystal Module 1 is pressed further into.At this point, since the 2nd protrusion 29a is semi-spherical shape, so becoming liquid crystal mould
The guiding shape of block 1.As a result, the lower end of the back part of Liquid Crystal Module 1 do not hooked by the 2nd protrusion 29a but swimmingly
In climbing to the 2nd protrusion 29a.At this point, as shown in arrow N in figure, Liquid Crystal Module 1 is with from the 2nd side of sidewall portion 23a towards the 1st side of sidewall portion
The direction (paper is upward) of 22a is mobile.Due to the movement of Liquid Crystal Module 1, the 1st protrusion 28a is pressed and keeps plate spring part 27a elastic
Deformation.Finally, by the elastic force of plate spring part 27a, Liquid Crystal Module 1 is with the side surface part of Liquid Crystal Module 1 and the 1st protrusion 28a and the 2nd
The state of protrusion 29a crimping is fixed.
In addition, showing fixing means of the Liquid Crystal Module 1 between the 1st protrusion 28a and the 2nd protrusion 29a in fig. 7 to fig. 9
Example, but fixation of the Liquid Crystal Module 1 between the 1st protrusion 28b and the 2nd protrusion 29b is also same, thus illustration omitted with
And explanation.
Next, being illustrated to the effect of the electronic equipment 100 involved by embodiment 1.
By liquid crystal by the flexible deformation of the claw of bottom surface sections of the previous electronic equipment by being vertically disposed at retainer
Module is fixed.In order to make the claw of retainer that there is elasticity, needs to keep the metallic plate of retainer thinning or claw is made to become
It is elongated, but the strength reduction of retainer entirety can be made if keeping metallic plate thinning, if the intensity of claw can be made by so that claw is become detailed rules and regulations
It reduces, therefore not preferably, and is also difficult to ensure the space for keeping claw elongated in electronic equipment.Therefore, it is impossible to make pawl
Portion has adequately elasticity, there are problems that the installation for being difficult to carry out Liquid Crystal Module.
On the other hand, in the electronic equipment 100 of embodiment 1, retainer 2 the 1st side of sidewall portion 22a, 22b simultaneously
Respective length direction 1st slit 25a, 25b and 2nd slit substantially orthogonal with the plate thickness direction of Liquid Crystal Module 1 is arranged in row
26a, 26b form plate spring part 27a, 27b using the metallic plate between the 1st slit 25a, 25b and the 2nd slit 26a, 26b.By
This, by making the shape of plate spring part 27a, 27b become elongated, not making the wall thickness of the metallic plate of retainer 2 is thinning can make plate
Spring portion 27a, 27b have adequately elasticity.In addition, due to plate spring part 27a, 27b be along retainer 2 the 1st side of sidewall portion 22a,
The shape of 22b, therefore the dedicated space of plate spring part 27a, 27b need not be set in electronic equipment 100, it can realize save space
Change.Also, since the both ends of plate spring part 27a, 27b and the 1st side of sidewall portion 22a, 22b are continuous, plate spring part can either be made
27a, 27b have the intensity that elasticity can improve plate spring part 27a, 27b again, to prevent the breakage of plate spring part 27a, 27b, and energy
The direction etc. along the plate thickness direction of Liquid Crystal Module 1 is enough prevented to be not intended to the deformation of direction.
In addition, in previous electronic equipment, the guiding shape of Liquid Crystal Module is formed by bending a part for claw
Shape.Therefore, in the case where the length direction of claw to be arranged along to the direction of bottom surface sections of retainer, although can realize
Space saving, but be difficult to form guiding shape, when installing Liquid Crystal Module, the edge part of Liquid Crystal Module can be by the side end of claw
It hooks, to there are problems that not installed.
On the other hand, in the electronic equipment 100 of embodiment 1, semi-spherical shape is formed in plate spring part 27a, 27b
The 1st protrusion 28a, 28b, the function of guiding shape is played by the 1st protrusion 28a, 28b.1st protrusion 28a, 28b can pass through
Embossing processing is formed, so as to be readily formed guiding shape.
Also, in previous electronic equipment, in order to make the low claw deformation of elasticity and expand between claw or claw with
Between side of sidewall portion, the one end of Liquid Crystal Module is made to make liquid after being abutted with the claw for the one end for being set to retainer or side of sidewall portion
Crystal module rotates and is installed on retainer.Therefore, big space is needed in installation exercise, there is a problem of that operating efficiency is low.
It on the other hand, as shown in fig. 7~fig. 9, can be by Liquid Crystal Module 1 in the electronic equipment 100 of embodiment 1
It is installed with the state kept substantially in parallel relative to retainer 2.Therefore, it is possible to reduce the space needed for installation exercise,
And operating efficiency can be improved.
In addition, as long as retainer 2 has the position for the substantially box-like that can accommodate Liquid Crystal Module 1, it is not limited to
Fig. 1~shape shown in Fig. 9.For example, it is also possible to by by the one of the 1st side of sidewall portion 22a, 22b or the 2nd side of sidewall portion 23a, 23b
Part removes, and hole portion either is arranged in bottom surface sections 21 has the liquid of protrusion to be housed in side surface part or back part freely
Crystal module 1.Alternatively, the Z-shaped bending in metal-sheet edges portion can also be replaced, and by so-called " L-shaped bending " by metallic plate
Central portion cutting erects and forms the 1st side of sidewall portion 22a, 22b or the 2nd side of sidewall portion 23a, 23b, to make bottom surface sections 21 extend to
The mounting portion towards the other components such as rack or shell is consequently formed in the substantially outside at the position of box-like.Alternatively, by cover board
In the case of the adhering components other than the design retainers 2 such as panel, the Z-shaped bending in metal-sheet edges portion can also be replaced, and
It is formed by bending the 1st side of sidewall portion 22a, 22b and the 2nd side of sidewall portion 23a, 23b by L-shaped, without flange part 24.Alternatively,
It, can also be in bottom surface sections in the case of the construction for the back part for being formed as electronic circuit board screw being fixed on retainer 2
21 setting screw holes.The meaning of " box-like " this term recorded in following claims is not limited to accurate case
Shape also includes the shape of above-mentioned substantially box-like.
In addition, in Fig. 1~Fig. 9, show that the 1st side of sidewall portion 22a in a side forms 2 plate spring part 27a and another
The 1st side of sidewall portion 22b of one side forms the example of 2 plate spring part 27b, but plate spring part 27a in each 1st side of sidewall portion 22a, 22b,
The number of 27b is not limited to 2.As long as can ensure to can ensure that the length of the degree of the elasticity of plate spring part 27a, 27b, then
The number of plate spring part 27a, 27b can be arbitrary.
In addition, in Fig. 1~Fig. 9, show the central part in each plate spring part 27a, 27b formed 1 the 1st protrusion 28a,
The example of 28b, but numbers of the 1st protrusion 28a, the 28b in each plate spring part 27a, 27b is not limited to 1, and it is convex to form the 1st
The position of portion 28a, 28b are not limited to central part.Flexible position that can also be in plate spring part 27a, 27b exists
The both ends of plate spring part 27a, 27b and the central portion in the 1st continuous structure of side of sidewall portion 22a, 22b, are formed with any number
1st protrusion 28a, 28b.
In addition, in the example of Fig. 1~Fig. 9, both ends and the 1st side of sidewall portion 22a, 22b of plate spring part 27a, 27b are shown
The continuous and flexible example of central portion, but the only one end of plate spring part 27a, 27b and the 1st side of sidewall portion can also be configured to
22a, 22b are continuous, have flexibility with the other end cut the 1st side of sidewall portion 22a, 22b.In such a situation it is preferred that the 1st protrusion
28a, 28b are formed in the other end instead of the central portion of plate spring part 27a, 27b.
In addition, in the example of Fig. 1~Fig. 9, show the 1st side of sidewall portion 22a, 22b be set up in parallel the 1st slit 25a,
25b and the 2nd slit 26a, 26b, and the example of metallic plate formation plate spring part 27a, 27b between 2 slits is utilized, but slit
Item number is not limited to 2.For example, it is also possible to remove the 2nd slit 26a, 26b and only wear the 1st slit 25a, 25b, and utilize
Plate spring part 27a, 27b is formed along the metallic plate at the position of the 1st slit 25a, 25b adjoining.Alternatively, it is also possible in the 1st side wall
Portion 22a, 22b are set up in parallel 3 or more slits, and using between each slit metallic plate, i.e. along the position of each slit adjoining
Metallic plate and form a plurality of plate spring part 27a, 27b.In any of the above-described kind of structure, the both ends of plate spring part 27a, 27b all may be used
With continuous with the 1st side of sidewall portion 22a, 22b, or can also only one end and the 1st side of sidewall portion 22a, 22b be continuous and the other end with
1st side of sidewall portion 22a, 22b is cut.
In addition, in the example of Fig. 1~Fig. 9, the length of the 1st slit 25a, 25b and the 2nd slit 26a, 26b are shown
Direction is orthogonal with the plate thickness direction of Liquid Crystal Module 1, the length direction of plate spring part 27a, 27b also with the plate thickness direction of Liquid Crystal Module 1
Orthogonal example, but these components can not also be strictly orthogonal, can also be inclined to the length that can ensure plate spring part 27a, 27b
The degree of degree.The meaning of " orthogonal " this term recorded in following claims is not limited to strictly orthogonal
State also includes this substantially orthogonal state.
In addition, in the example of Fig. 1~Fig. 9, show the 2nd side of sidewall portion 23a in a side formed 2 the 2nd protrusion 29a,
And the example of 2 the 2nd protrusion 29b is formed in the 2nd side of sidewall portion 23b of another party, but the 2nd protrusion 29a, 29b is each 2nd
Number in side of sidewall portion 23a, 23b is not limited to 2, can be arbitrary.2nd protrusion 29a, 29b can be with it is the 1st convex
The identical number of portion 28a, 28b, can also be different number.
In addition, as long as the shape of the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b is played when installing Liquid Crystal Module 1
The function of shape is guided, and terminal part can be crimped to the side surface part for being fixed on Liquid Crystal Module 1, is not limited to accurate
Semi-spherical shape.The meaning of " semi-spherical shape " this term recorded in following claims, is not limited to essence
True semi-spherical shape, also comprising substantially semi-spherical shape.
In addition, the shape of the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b can be the shape different from semi-spherical shape
Shape.Half ellipsoid of revolution shape or the 1st protrusion 28a, 28b of truncated cone shape are formed by for example, it is also possible to be processed by being embossed
And the 2nd protrusion 29a, 29b.Alternatively, the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b of semi-cylindrical can also be formed,
The function of guiding shape is played by the circumference face of the cylinder.Alternatively, the metallic plate of plate spring part 27a, 27b can also will be constituted
Part cutting erect and tilt to form the 1st protrusion 28a, 28b relative to the plate thickness direction of Liquid Crystal Module 1, and by structure
At the 2nd side of sidewall portion 23a, 23b metallic plate a part cutting erect and relative to the plate thickness direction of Liquid Crystal Module 1 tilt to
Form the 2nd protrusion 29a, 29b.
In addition, Liquid Crystal Module 1 can also be configured to back part and side surface part is not wrapped by, and content (liquid crystal mould
Block, light guide plate and backlight etc.) expose and there are bumps.In addition, the shape of Liquid Crystal Module 1 is not limited to rectangle,
Can be square or multilateral shape.
In addition, in Fig. 1~Fig. 9, show the back part of Liquid Crystal Module 1 with opposed with the bottom surface sections 21 of retainer 2
The example that state is received, but the surface element of Liquid Crystal Module 1 can also be configured to the shape opposed with the bottom surface sections 21 of retainer 2
State is received, and the display surface 11 of Liquid Crystal Module 1 exposes from the hole portion for being set to bottom surface sections 21.That is, surface and the back of the body of Liquid Crystal Module 1
Any single side portion in face is opposed with the bottom surface sections 21 of retainer 2.
In addition, the purposes of retainer 2 is not limited to the fixation of Liquid Crystal Module 1.As long as 2 shape of retainer is substantially thick
The component of plate then can be applied to the fixation of arbitrary component.The component can be surface and the back side as Liquid Crystal Module 1
It is distinguished the component to come or can also be the component being not different." slab recorded in following claims
The meaning of this term of shape " is not limited to accurate thick plate-like, also includes the shape of substantially thick plate-like.
As described above, the electronic equipment 100 of embodiment 1 have the metallic plate for being formed as box-like retainer 2, with
And thick plate-like member (the Liquid Crystal Module in retainer 2 is housed in the single side portion state opposed with the bottom surface sections 21 of retainer 2
1).The 1st side of sidewall portion 22a, 22b of retainer 2 has the plate thickness direction of length direction and thick plate-like member (Liquid Crystal Module 1) just
The slit of friendship forms plate spring part 27a, 27b using the metallic plate at the position abutted along slit.Plate spring part 27a, 27b has
To the 1st protrusion 28a, 28b of the inside protrusions of retainer 2, the 1st protrusion 28a, 28b and thick plate-like member (Liquid Crystal Module 1)
Side surface part abuts.The intensity for not reducing retainer 2 as a result, additionally is able to realize space saving, and can easily be done thickness
Installation of the plate-shaped member (Liquid Crystal Module 1) relative to retainer 2.
In addition, 2nd side of sidewall portion 23a, 23b opposed with the 1st side of sidewall portion 22a, 22b of retainer 2 has to retainer 2
Inside protrusions the 2nd protrusion 29a, 29b, the side surface part of the 2nd protrusion 29a, 29b and thick plate-like member (Liquid Crystal Module 1) supports
It connects.Thereby, it is possible to position thick plate-like member (Liquid Crystal Module 1) relative to retainer 2.
In addition, the 2nd protrusion 29a, 29b is configured to the bottom surface sections 21 closer to retainer 2 than the 1st protrusion 28a, 28b.By
This, can be installed on retainer 2 according to Fig. 7~sequence shown in Fig. 9 by thick plate-like member (Liquid Crystal Module 1).
In addition, the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b is semi-spherical shape.As a result, by thick plate-like member
When (Liquid Crystal Module 1) is installed on retainer 2, the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b play the work(for guiding shape
Can, so as to prevent thick plate-like member (Liquid Crystal Module 1) from being hooked by plate spring part 27a, 27b.In addition, above-mentioned 1st protrusion 28a,
28b and the 2nd protrusion 29a, 29b can be processed by the embossing of metallic plate and is readily formed.
In addition, in retainer 2, the interval between the 1st mutually opposed protrusion 28a, 28b and the 2nd protrusion 29a, 29b, quilt
It is set as the value smaller than the width of thick plate-like member (Liquid Crystal Module 1).Thick plate-like member (Liquid Crystal Module 1) is convex to be crimped on the 1st
The state of portion 28a, 28b and the 2nd protrusion 29a, 29b are fixed in retainer 2.Thick plate-like member can either be absorbed as a result,
The component tolerance of (Liquid Crystal Module 1) and retainer 2, and thick plate-like member (Liquid Crystal Module 1) can be securely fixed and be received
It is dissolved in retainer 2.
Embodiment 2.
Figure 10 is the front view for indicating the Liquid Crystal Module involved by the embodiment 2 of the utility model.Figure 11 is to indicate this
The side view of Liquid Crystal Module involved by the embodiment 2 of utility model.Figure 12 is the embodiment 2 for indicating the utility model
The stereogram of involved retainer.Figure 13 is that indicate retainer involved by the embodiment 2 of the utility model includes the 1st
The enlarged drawing in the region including protrusion.Figure 14 is the sectional view along B-B ' lines shown in Figure 13.0~Figure 14 referring to Fig.1 is right
The electronic equipment 100 of embodiment 2 illustrates.In addition, for the electronic equipment with embodiment shown in Fig. 1~Fig. 91
100 identical component parts mark identical reference numeral and omit the description.
For the Liquid Crystal Module 1 of embodiment 2, it is assumed that have a case that protrusion 12 is such in side surface part.In Figure 10 and
In the example of Figure 11,2 protrusions 12 are respectively arranged in the short side of Liquid Crystal Module 1.The height of protrusion 12 is kept than being set to
The big value of the height of the 1st protrusion 28a, 28b and the 2nd protrusion 29a, 29b of the side of sidewall portion of frame 2.Therefore, for embodiment 2
Liquid Crystal Module 1 for, if to be fixed on the retainer 2 of Fig. 1~embodiment shown in Fig. 91, Liquid Crystal Module 1 it is convex
Portion 12 and the side of sidewall portion of retainer 2 will produce interference, to be contained in retainer 2.
The retainer 2 of embodiment 2 is shown in Figure 12~Figure 14.Retainer 2 has bottom same as embodiment 1
Face the 21, the 1st side of sidewall portion 22a, the 2nd side of sidewall portion 23a and flange part 24.1st side of sidewall portion 22b and the 2nd side of sidewall portion 23b be with
The different shape of embodiment 1.
For the 1st side of sidewall portion 22b, the position to being provided with the 1st protrusion 28b is applied with drawing process, and make its to
The inside of retainer 2 protrudes.The height of the protruding parts and the aggregate value of the height of the 1st protrusion 28b are set to than liquid crystal mould
The big value of the height of the protrusion 12 of block 1.For the protruding parts of the 1st side of sidewall portion 22b, pass through the opening portion to retainer 2
The end of side applies bending machining, to be formed with gradually tending to the 1st inclined surface in the outside of retainer 2 close to opening portion
Portion 30b.
In addition, for the 2nd side of sidewall portion 23b, the position to being provided with the 2nd protrusion 29b applies drawing process, and makes it
It is prominent to the inside of retainer 2.The height of the protruding parts and the aggregate value of the height of the 2nd protrusion 29b are set to compare liquid crystal
The big value of the height of the protrusion 12 of module 1.For the protruding parts of the 2nd side of sidewall portion 23b, pass through the opening to retainer 2
The end of portion side applies bending machining, to be formed with close to opening portion and the 2nd tilting of gradually tending to the outside of retainer 2
Facial 31b.In addition, the diagram of the 2nd inclination face 31b is omitted in Figure 12~Figure 14.
Interval between the 1st mutually opposed side of sidewall portion 22b and the 2nd side of sidewall portion 23b is set to longer than Liquid Crystal Module 1
The big value of the aggregate value of the height of the width Lb on side and 2 protrusions 12.As a result, Liquid Crystal Module 1 protrusion 12 not with the 1st side of sidewall portion
22b and the 2nd side of sidewall portion 23b generate interference and back part it is opposed with bottom surface sections 21 in the state of, be housed in retainer 2
It is interior.
In addition, the interval between the 1st mutually opposed protrusion 28b and the 2nd protrusion 29b, is set to longer than Liquid Crystal Module 1
Value small the width Lb on side.The side surface part corresponding with short side of Liquid Crystal Module is crimped on the 1st protrusion 28b and the 2nd protrusion as a result,
29b, to which Liquid Crystal Module 1 is fixed on retainer 2.In this way, constituting the main portion of the electronic equipment 100 involved by embodiment 2
Point.
The major part of electronic equipment 100 involved by embodiment 2 can in embodiment 1 with reference to Fig. 7~Fig. 9 into
Capable explanation is assembled in the same manner.That is, as shown in figure 15, in the bottom surface sections 21 of the back part and retainer 2 that make Liquid Crystal Module 1
In the state of opposed substantially in parallel, Liquid Crystal Module 1 is pressed into retainer 2 as shown in arrow O in figure, so as to electricity
The major part of sub- equipment 100 is assembled.
At this point, the interval between the 1st mutually opposed side of sidewall portion 22b and the 2nd side of sidewall portion 23b, is set to than Liquid Crystal Module 1
Long side width Lb and 2 protrusions 12 height the big value of aggregate value.As a result, the protrusion 12 of Liquid Crystal Module 1 not with holding
1st side of sidewall portion 22b of frame 2 and the 2nd side of sidewall portion 23b generate interference, and Liquid Crystal Module 1 can be housed in retainer 2.
In addition, the 1st protrusion 28a, 28b of semi-spherical shape and the 2nd protrusion 29a, 29b play the function of guiding shape,
In addition to this it is set to the 1st inclination face 30b of the protruding parts of the 1st side of sidewall portion 22b and is set to the 2nd side of sidewall portion 23b
Protruding parts the 2nd inclination face 31b also play guide shape function.It is therefore prevented that Liquid Crystal Module 1 is by plate spring part
The protruding parts of 27a, 27b and side of sidewall portion are hooked, and can Liquid Crystal Module 1 be swimmingly installed on retainer 2.
In addition, the position for being carried out drawing process of the 1st side of sidewall portion 22b is not limited to include the portion of the 1st protrusion 28b
Position.For example, it is also possible to which drawing process is implemented at the equal position different from the position of plate spring part 27b is formed between 2 plate spring part 27b
It to keep it prominent to the inside of retainer 2, and forms the 1st in the protruding parts and tilts face, thus additional guiding shape.
In addition, the position for being carried out drawing process of the 2nd side of sidewall portion 23b is not limited to include the portion of the 2nd protrusion 29b
Position.Can also pair position different from the position comprising the 2nd protrusion 29b implement drawing process to make it into retainer 2
Side protrudes, and forms the 2nd in the protruding parts and tilt face, thus additional guiding shape.
In addition, the 1st inclination face 30b and the 2nd, which tilts face 31b, can also replace crooked metal sheet end, but it is logical
It crosses so-called " expansion (the face-flattening) " processing that metallic plate end is flattened and is formed.In particular, in the 1st side of sidewall portion
It, being capable of application start processing in the case that the drawing degree of 22b and the 2nd side of sidewall portion 23b are shallow, protruding parts height are low.
In addition, in Figure 10~Figure 15, there are convex for the side surface part corresponding with the short side of two sides for showing in Liquid Crystal Module 1
Portion 12 implements both the 1st side of sidewall portion 22b and the 2nd side of sidewall portion 23b the example of drawing process, but can also be only in liquid crystal
There are protrusions 12 for the side surface part corresponding with the short side of either one of module 1, only to the 1st side of sidewall portion 22b and the 2nd side of sidewall portion 23b
Either one implement drawing process.
Alternatively, it is also possible to replace Liquid Crystal Module 1 side surface part corresponding with short side or on this basis with long side pair
There are protrusions 12 for the side surface part answered, instead of the 1st side of sidewall portion 22b and the 2nd side of sidewall portion 23b or on this basis to the 1st side wall
Portion 22a and the 2nd side of sidewall portion 23a implement identical drawing process.
As described above, in the electronic equipment 100 of embodiment 2, that in the 1st side of sidewall portion 22b includes the 1st protrusion 28b
Position it is prominent to the inside of retainer 2.In the side surface part of thick plate-like member (Liquid Crystal Module 1), there are the feelings of protrusion 12 as a result,
Under condition, it can prevent protrusion 12 and the 1st side of sidewall portion 22b from generating interference, to which thick plate-like member (Liquid Crystal Module 1) is housed in guarantor
It holds in frame 2.
In addition, in retainer 2, the position comprising the 2nd protrusion 29b in the 2nd side of sidewall portion 23b is to the inside of retainer 2
It is prominent.As a result, the side surface part of thick plate-like member (Liquid Crystal Module 1) there are in the case of protrusion 12, can prevent protrusion 12 with
2nd side of sidewall portion 23b generates interference, to which thick plate-like member (Liquid Crystal Module 1) to be housed in retainer 2.
In addition, the position outstanding of the inside to retainer 2 in the 1st side of sidewall portion 22b, with the opening portion of retainer 2
The mode that the end of side gradually tends to the outside of retainer 2 close to opening portion is bent.It is played by tilting face 30b by the 1st
The function of guiding shape can prevent thick plate-like member (Liquid Crystal Module 1) from being hooked and suitable by the protruding parts of the 1st side of sidewall portion 22b
Freely it is installed on retainer 2.
In addition, the position outstanding of the inside to retainer 2 in the 1st side of sidewall portion 22b, with the opening portion of retainer 2
The mode that the end of side gradually tends to the outside of retainer 2 close to opening portion is unfolded.In the drawing journey of the 1st side of sidewall portion 22b
It is inferior to spend shallow situation, the 1st inclination face 30b can be formed by being unfolded.
In addition, in retainer 2, positions different from the position of plate spring part 27b is formed in the 1st side of sidewall portion 22b are to guarantor
The inside for holding frame 2 protrudes.The position outstanding of the inside to retainer 2 in 1st side of sidewall portion 22b, with opening with retainer 2
The mode that the end of oral area side gradually tends to the outside of retainer 2 close to opening portion is bent.As long as in this way, the 1st tilts face
Play thick plate-like member (Liquid Crystal Module 1) guiding shape function, also can be formed in the 1st side of sidewall portion 22b with
Form the different position in the position of plate spring part 27b.
In addition, the application utility model in the range of its utility model, can carry out free group of each embodiment
The deformation of the arbitrary inscape of conjunction or each embodiment or the province of the arbitrary inscape in each embodiment
Slightly.
Industrial utilization possibility
The utility model can be applied to the electronic equipment with thick plate-like members such as Liquid Crystal Modules.
The explanation of reference numeral
1... Liquid Crystal Module;2... retainer;11... display surface;12... protrusion;21... bottom surface sections;22a, 22b...
1st side of sidewall portion;The 2nd side of sidewall portion of 23a, 23b...;24... flange part;The 1st slit of 25a, 25b...;26a, 26b... the 2nd is narrow
Seam;27a, 27b... plate spring part;The 1st protrusion 28a, 28b...;The 2nd protrusion 29a, 29b...;30b... the 1st tilts face;
31b... the 2nd tilts face;100... electronic equipment.
Claims (10)
1. a kind of electronic equipment, which is characterized in that
Has the retainer for the metallic plate for being formed as box-like and with the single side portion shape opposed with the bottom surface sections of the retainer
State is housed in the thick plate-like member in the retainer,
The slit that 1st side of sidewall portion of the retainer has length direction orthogonal with the plate thickness direction of the thick plate-like member, profit
Plate spring part is formed with the position along slit adjoining of metallic plate,
The plate spring part has the 1st protrusion to the inside protrusions of the retainer, the 1st protrusion and the thick plate-like member
Side surface part abut,
2nd side of sidewall portion opposed with the 1st side of sidewall portion of the retainer has the 2nd to the inside protrusions of the retainer
Protrusion, the 2nd protrusion are abutted with the side surface part of the thick plate-like member,
2nd protrusion is configured to the bottom surface sections closer to the retainer than the 1st protrusion.
2. electronic equipment according to claim 1, which is characterized in that
The length direction of the plate spring part is orthogonal with the plate thickness direction of the retainer, and the both ends of the plate spring part and institute
It is continuous to state the 1st side of sidewall portion.
3. electronic equipment according to claim 1, which is characterized in that
It is set side by side with orthogonal with the plate thickness direction of the thick plate-like member of respective length direction in the 1st side of sidewall portion
1 slit and the 2nd slit form the plate spring part using the metallic plate between the 1st slit and the 2nd slit.
4. electronic equipment according to claim 1, which is characterized in that
The thick plate-like member is positioned by being abutted with the 2nd protrusion relative to the retainer.
5. electronic equipment according to claim 1, which is characterized in that
1st protrusion and the 2nd protrusion are semi-spherical shape.
6. electronic equipment according to claim 1, which is characterized in that
Interval between mutually opposed the 1st protrusion of the retainer and the 2nd protrusion is set to than the slab
The small value of the width of shape component,
The thick plate-like member is fixed on the state for being crimped on the 1st protrusion and the 2nd protrusion in the retainer.
7. electronic equipment according to claim 1, which is characterized in that
For the retainer, the position comprising the 2nd protrusion in the 2nd side of sidewall portion is into the retainer
Side protrudes.
8. a kind of electronic equipment, which is characterized in that
Has the retainer for the metallic plate for being formed as box-like and with the single side portion shape opposed with the bottom surface sections of the retainer
State is housed in the thick plate-like member in the retainer,
The slit that 1st side of sidewall portion of the retainer has length direction orthogonal with the plate thickness direction of the thick plate-like member, profit
Plate spring part is formed with the position along slit adjoining of metallic plate,
The plate spring part has the 1st protrusion to the inside protrusions of the retainer, the 1st protrusion and the thick plate-like member
Side surface part abut,
For the retainer, the position comprising the 1st protrusion in the 1st side of sidewall portion is into the retainer
Side protrudes, also, the positions different from the position of plate spring part is formed in the 1st side of sidewall portion are into the retainer
Side protrudes,
The position outstanding of the inside to the retainer in 1st side of sidewall portion, with the opening portion side of the retainer
The end mode that gradually tends to the outside of the retainer close to the opening portion be bent.
9. electronic equipment according to claim 8, which is characterized in that
The length direction of the plate spring part is orthogonal with the plate thickness direction of the retainer, and the both ends of the plate spring part and institute
It is continuous to state the 1st side of sidewall portion.
10. electronic equipment according to claim 8, which is characterized in that
It is set side by side with orthogonal with the plate thickness direction of the thick plate-like member of respective length direction in the 1st side of sidewall portion
1 slit and the 2nd slit form the plate spring part using the metallic plate between the 1st slit and the 2nd slit.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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PCT/JP2015/079969 WO2017068715A1 (en) | 2015-10-23 | 2015-10-23 | Electronic device |
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CN208044239U true CN208044239U (en) | 2018-11-02 |
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CN201590001587.6U Expired - Fee Related CN208044239U (en) | 2015-10-23 | 2015-10-23 | Electronic equipment |
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JP (1) | JP6250248B2 (en) |
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WO (1) | WO2017068715A1 (en) |
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JP7116674B2 (en) * | 2018-12-04 | 2022-08-10 | ミネベアミツミ株式会社 | Planar lighting device |
JP7043430B2 (en) * | 2019-01-07 | 2022-03-29 | トライベイル テクノロジーズ, エルエルシー | Display device |
JP7442348B2 (en) | 2020-03-06 | 2024-03-04 | アイホン株式会社 | intercom equipment |
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TWI349132B (en) * | 2006-07-05 | 2011-09-21 | Chimei Innolux Corp | Fabricating methods for liquid crystal device and system for displaying image |
JP5304337B2 (en) * | 2009-03-10 | 2013-10-02 | カシオ計算機株式会社 | Display device |
WO2012036061A1 (en) * | 2010-09-15 | 2012-03-22 | シャープ株式会社 | Illumination device, display device, and television receiver |
CN102998816A (en) * | 2011-09-09 | 2013-03-27 | 鸿富锦精密工业(深圳)有限公司 | Liquid crystal module |
JP2013072958A (en) * | 2011-09-27 | 2013-04-22 | Seiko Instruments Inc | Liquid crystal display device |
-
2015
- 2015-10-23 CN CN201590001587.6U patent/CN208044239U/en not_active Expired - Fee Related
- 2015-10-23 WO PCT/JP2015/079969 patent/WO2017068715A1/en active Application Filing
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JP6250248B2 (en) | 2017-12-20 |
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