CN108989507A - In-out box and mobile device - Google Patents
In-out box and mobile device Download PDFInfo
- Publication number
- CN108989507A CN108989507A CN201810962820.7A CN201810962820A CN108989507A CN 108989507 A CN108989507 A CN 108989507A CN 201810962820 A CN201810962820 A CN 201810962820A CN 108989507 A CN108989507 A CN 108989507A
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- China
- Prior art keywords
- accommodating chamber
- camera
- hole
- mould group
- face
- 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.)
- Granted
Links
- 238000003384 imaging method Methods 0.000 claims abstract description 75
- 230000003287 optical effect Effects 0.000 claims description 85
- 239000000758 substrate Substances 0.000 claims description 40
- 238000009434 installation Methods 0.000 claims description 6
- 238000005452 bending Methods 0.000 claims description 3
- UQMRAFJOBWOFNS-UHFFFAOYSA-N butyl 2-(2,4-dichlorophenoxy)acetate Chemical compound CCCCOC(=O)COC1=CC=C(Cl)C=C1Cl UQMRAFJOBWOFNS-UHFFFAOYSA-N 0.000 description 18
- 239000000463 material Substances 0.000 description 5
- 230000005611 electricity Effects 0.000 description 3
- 239000003990 capacitor Substances 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 238000000465 moulding Methods 0.000 description 2
- 230000006641 stabilisation Effects 0.000 description 2
- 238000011105 stabilization Methods 0.000 description 2
- 238000004026 adhesive bonding Methods 0.000 description 1
- 239000000956 alloy Substances 0.000 description 1
- 229910045601 alloy Inorganic materials 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000004020 conductor Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 229920003023 plastic Polymers 0.000 description 1
- 239000004033 plastic Substances 0.000 description 1
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0264—Details of the structure or mounting of specific components for a camera module assembly
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
Landscapes
- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Studio Devices (AREA)
Abstract
Mobile device disclosed by the invention and in-out box include bracket and input and output mould group.Bracket is structure as a whole, and bracket includes opposite the first face and the second face, and the second face offers multiple accommodating chambers, and the first face offers multiple through-holes corresponding with multiple accommodating chambers.Input and output mould group includes imaging modules and flight time mould group, and imaging modules and flight time Mo Zu are fixedly mounted in multiple accommodating chambers respectively and are exposed by corresponding through-hole from the first face.Bracket in in-out box is structure as a whole, and when imaging modules and flight time mould group are mounted in accommodating chamber, the relative position of imaging modules and flight time mould group is not susceptible to change, to enable multiple input and output mould groups preferably cooperating.Specifically, the position of multiple accommodating chambers will not change, as long as input and output mould group is fixed in accommodating chamber, the relative position between input and output mould group will not change.
Description
Technical field
The present invention relates to consumer electronics technical fields, more specifically, are related to a kind of in-out box and movement is set
It is standby.
Background technique
Mobile phone can be configured with multiple functional module groups, and multiple functional module groups generally require the normal work of ability of working in coordination
Make, however, when mobile phone is hit in use, the relative position of multiple functional module groups be easy to happen change and cannot be well
Cooperating.
Summary of the invention
Embodiment of the present invention provides a kind of in-out box and mobile device.
The in-out box of embodiment of the present invention includes bracket and input and output mould group.The bracket is integrated knot
Structure, the bracket include opposite the first face and the second face, and second face offers multiple accommodating chambers, and first face opens up
There are multiple through-holes corresponding with multiple accommodating chambers.The input and output mould group includes imaging modules and flight time mould group,
The imaging modules and the flight time Mo Zu are fixedly mounted in multiple accommodating chambers respectively and by corresponding institutes
Through-hole is stated from first face exposure.
The mobile device of embodiment of the present invention includes in-out box described in shell and above embodiment, described
In-out box is installed on the housing.
The mobile device of embodiment of the present invention and the bracket in in-out box are structure as a whole, when imaging modules and
When flight time mould group is mounted in accommodating chamber, the relative position of imaging modules and flight time mould group is not susceptible to change, from
And enable multiple input and output mould groups preferably cooperating.Specifically, the position of multiple accommodating chambers will not change, only
Input and output mould group is fixed in accommodating chamber, the relative position between input and output mould group will not change.
The additional aspect and advantage of embodiments of the present invention will be set forth in part in the description, partially will be from following
Description in become obvious, or the practice of embodiment through the invention is recognized.
Detailed description of the invention
Above-mentioned and/or additional aspect and advantage of the invention is from combining in description of the following accompanying drawings to embodiment by change
It obtains obviously and is readily appreciated that, in which:
Fig. 1 is the schematic perspective view of the in-out box of embodiment of the present invention.
Fig. 2 and Fig. 3 is the perspective exploded view of the in-out box of embodiment of the present invention.
Fig. 4 is the floor map of the bracket in the in-out box of embodiment of the present invention.
Fig. 5 is the schematic perspective view of the bracket in the in-out box of embodiment of the present invention.
Fig. 6 is the schematic perspective view of the flight time mould group in the in-out box of embodiment of the present invention.
Fig. 7 is schematic cross-section of the flight time mould group shown in fig. 6 along VII-VII line.
Fig. 8 and Fig. 9 is the schematic perspective view of the electronic equipment of embodiment of the present invention.
Specific embodiment
Embodiments of the present invention are described further below in conjunction with attached drawing.Same or similar label is from beginning in attached drawing
To the same or similar element of expression or element with the same or similar functions eventually.
In addition, the embodiments of the present invention described with reference to the accompanying drawing are exemplary, for explaining only the invention
Embodiment, and be not considered as limiting the invention.
It please refers to Fig.1 to Fig.3, the in-out box 100 of embodiment of the present invention includes bracket 10 and input and output mould
Group 20.Bracket 10 is structure as a whole, and bracket 10 includes opposite the first face 111 and the second face 112, and the second face 112 offers more
A accommodating chamber 113, the first face 111 offer multiple through-holes 114 corresponding with multiple accommodating chambers 113.Input and output mould group 20 is wrapped
Imaging modules 21 and flight time mould group 22 are included, imaging modules 21 and flight time mould group 22 are respectively and fixedly installed to multiple receivings
It is exposed in chamber 113 and by corresponding through-hole 114 from the first face 111.
Wherein, bracket 10 can be integrally formed structure, be also possible to the one knot fitted together after seperated molding
Structure.Exposure refers to see input and output mould group 20 from the first face 111, for example, input and output mould group 20 can pass through the
For 111 through-hole 114 from the exposure of the first face 111, input and output mould group 20 can also not pass through through-hole 114, but pass through through-hole on one side
114 it can be seen that input and output mould group 20.
Bracket 10 in the in-out box 100 of embodiment of the present invention is structure as a whole, and when imaging modules 21 and flies
When row time mould group 22 is mounted in accommodating chamber 113, the relative position of imaging modules 21 and flight time mould group 22 is not susceptible to
Variation, to enable multiple input and output mould groups 20 preferably cooperating.Specifically, the position of multiple accommodating chambers 113 is not
It can change, as long as input and output mould group 20 is fixed in accommodating chamber 113, the relative position between input and output mould group 20
It will not change.
Referring to Fig. 1, the in-out box 100 of embodiment of the present invention include bracket 10, input and output mould group 20 and
Electric component group 30.
Incorporated by reference to Fig. 4, bracket 10 is structure as a whole and including side wall 11, stop collar 12, occlusion part 13 and flange 14.
Side wall 11 includes opposite the first face 111 and the second face 112.Second face 112 offers multiple spaced receipts
Cavity 113.First face 111 offers multiple through-holes 114 of connection corresponding with multiple accommodating chambers 113.The quantity of accommodating chamber 113 can
Think two, three, four or any number of, the quantity of through-hole 114 is identical as the quantity of accommodating chamber 113 and one-to-one correspondence is set
It sets.Incorporated by reference to Fig. 3, multiple accommodating chambers 113 include the imaging accommodating chamber 1130 for installing imaging modules 21, present embodiment
It includes the second accommodating chamber 1132 and third accommodating chamber 1133 that accommodating chamber 1130, which is imaged,.
The quantity of the accommodating chamber 113 of present embodiment is three, and three accommodating chambers 113 include successively spaced first
Accommodating chamber 1131, the second accommodating chamber 1132 and third accommodating chamber 1133, wherein the first accommodating chamber 1131 includes first to be connected
Sub- accommodating chamber 1134 and the second sub- accommodating chamber 1135.Through-hole 114 includes and the first accommodating chamber 1131, the second accommodating chamber 1132 and
The corresponding first through hole 1141 of three accommodating chamber 1133, the second through-hole 1142 and third through-hole 1143, wherein first through hole
114 include that first sub-through hole 1144 corresponding with the first sub- accommodating chamber 1134 and the second sub- accommodating chamber 1135 and the second son are logical
Hole 1145.The center of first sub-through hole 1144, the center of the second sub-through hole 1145, the center of the second through-hole 1142 and third through-hole
1143 center is located on same straight line L.
Incorporated by reference to Fig. 2 and Fig. 5, the second face 112 is also provided with multiple limiting slots 115 and mounting groove 116.Multiple limiting slots
115 run through side wall 11, and the connection corresponding with multiple accommodating chambers 113 of multiple limiting slots 115.The quantity and receipts of limiting slot 115
The quantity of cavity 113 is consistent and is located at the same side of straight line L, and multiple limiting slots 115 are limited including the first limiting slot 1151, second
Slot 1152 and third limiting slot 1153, the first limiting slot 1151 are connected to the first accommodating chamber 1131, the second limiting slot 1152 and
The connection of two accommodating chambers 1132, third limiting slot 1153 are connected to third accommodating chamber 1133.Multiple limiting slots 115 include for installing
The imaging limiting slot 1150 of imaging electronics board 202, the imaging limiting slot 1150 of present embodiment include 1152 He of the second limiting slot
Third limiting slot 1153.Mounting groove 116 is located at the side far from the second limiting slot 1152 of the second accommodating chamber 1132 and with second
Limiting slot 1152 is opposite.Mounting groove 115 is connected to through side wall 11 and with the second accommodating chamber 1132.
The opening size of through-hole 114 is less than the opening size of corresponding accommodating chamber 113 to form stop collar 12.Stop collar 12
For limiting the installation site for the input and output mould group 20 being mounted in accommodating chamber 113.
Occlusion part 13 is extended to form from side wall 11 towards far from 1132 side of the second accommodating chamber, and occlusion part 13 is located at and mounting groove
On 116 corresponding side walls 11.Occlusion part 13 is offered through the dispensing hole 131 of occlusion part 13.The quantity in dispensing hole 131 can be
One, two or any number of.
Flange 14 is extended to form from side wall 11 towards far from 113 side of accommodating chamber, and flange 14 is located at close the first of side wall 11
The one end in face 111 is simultaneously arranged around accommodating chamber 113.Bracket 10 can be threaded through the formation in mobile device 200 (as shown in Figure 8)
Have in the circuit board (not shown) of mounting hole, and flange 14 and circuit board are inconsistent.
It please refers to Fig.1 to Fig.3, input and output mould group 20 includes at least imaging modules 21 and flight time mould group 22.Imaging
Mould group 21 and flight time mould group 22 are mounted in multiple accommodating chambers 113 and are located on same straight line L.
Imaging modules 21 include imaging ontology 201 and imaging electronics board 202.It includes the first imaging ontology that ontology 201, which is imaged,
2111 and second are imaged at least one of ontology 2121.Imaging electronics board 202 is corresponding with imaging ontology 201 and including the first electricity
At least one of road plate 2112 and second circuit board 2122, specifically, when imaging ontology 201 includes the first imaging ontology 2111
When, imaging electronics board 202 includes first circuit board 2112;When it includes the second imaging ontology 2121 that ontology 201, which is imaged, imaging electricity
Road plate 202 includes second circuit board 2122.Imaging ontology 201 is mounted in accommodating chamber 113 (for example, second accommodating chamber 1132) simultaneously
It is exposed by through-hole 114 (for example, second through-hole 1142) from the first face 111.Imaging electronics board 202 is threaded through 115 (example of limiting slot
Such as, the second limiting slot 1152) in.Imaging modules 21 are taken the photograph including visible image capturing head, infrared camera, black and white camera, focal length
As any one in head and wide-angle camera.The quantity of imaging modules 21 can be one, two, three or any number of.
The imaging modules 21 of present embodiment include main camera 211 and secondary camera 212.
Main camera 211 is mounted in the second accommodating chamber 1132 and exposes by the second through-hole 1142 from the first face 111.Tool
Body, main camera 211 includes the first imaging ontology 2111 and first circuit board 2112.First imaging ontology 2111 is mounted on the
It is exposed in two accommodating chambers 1132 and from the second through-hole 1142.First circuit board 2112 is threaded through in the second limiting slot 1152 and installation
In slot 116.Main camera 211 can be wide-angle camera, colour imagery shot (i.e. RGB camera) or infrared camera.
Secondary camera 212 is mounted in third accommodating chamber 1133 and is exposed by third through-hole 1143 from the first face 111.It is secondary
Camera 212 includes the second imaging ontology 2121 and second circuit board 2122.Second imaging ontology 2121 is mounted on third receiving
It is exposed in chamber 1133 and from third through-hole 1143.Second circuit board 2122 is threaded through in third limiting slot 1153.Secondary camera 212
It can be focal length camera, black and white camera (i.e. Mono camera), colour imagery shot or infrared camera.
Specifically, when main camera 211 is wide-angle camera, secondary camera 212 can be focal length camera;When master takes the photograph
When picture head 211 is colour imagery shot, secondary camera 212 can be black and white camera;When main camera 211 be colour imagery shot,
Secondary camera 212 can be colour imagery shot;When main camera 211 is colour imagery shot, secondary camera 212 can be infrared
Camera;When main camera 211 is infrared camera, secondary camera 212 can be black and white camera.
It may be noted that being, in contrast " wide-angle " and " focal length " is.Wide-angle camera has relative to focal length camera
Bigger field angle, focal length camera is longer relative to wide-angle camera focal length, shooting distance is farther.Black and white camera relative to
Colour imagery shot is able to ascend half-light/night scene filming image quality.
Fig. 6 and Fig. 7 is please referred to, flight time mould group 22 includes first substrate component 223, cushion block 224, optical transmitting set 221
And optical receiver 222.Incorporated by reference to Fig. 3, flight time mould group 22 is fixedly mounted in the first accommodating chamber 1131 and logical by first
Hole 1141 is exposed from the first face 111, specifically, first substrate component 223, cushion block 224, optical transmitting set 221 and optical receiver 222
It is housed in the first accommodating chamber 1131, optical transmitting set 221 and optical receiver 222 pass through first through hole 1141 from the first face 111
Exposure.
First substrate component 223 is stretched out out of first limiting slot 1151.First substrate component 223 includes the interconnected
One substrate 2231 and flexible circuit board 2232.First substrate 2231 can be printed wiring board or flexible circuit board, first substrate
The control route etc. of flight time mould group 22 can be equipped on 2231.One end of flexible circuit board 2232 can connect first
On substrate 2231, the other end of flexible circuit board 2232 is connected on the circuit board 2211 of optical transmitting set 221.Flexible circuit board
2232 can occur the bending of certain angle, allow 2232 both ends of flexible circuit board connect device relative position have compared with
More options.
Cushion block 224 is arranged on first substrate 2231.In one example, cushion block 224 contacted with first substrate 2231 and
It is carried on first substrate 2231, specifically, cushion block 224 can be combined by modes such as gluings with first substrate 2231.Cushion block
224 material can be metal, plastics etc..In embodiments of the present invention, the face that cushion block 224 is combined with first substrate 2231 can be with
It is plane, the opposite face in face of the cushion block 224 in conjunction with this is also possible to plane, so that optical transmitting set 221 is arranged on cushion block 224
When have preferable stationarity.
Optical transmitting set 221 is mounted in the second sub- accommodating chamber 1135 and exposes from the second sub-through hole 1145.Optical transmitting set 221
It is arranged on cushion block 224.One end of the bending of flexible circuit board 2232 and flexible circuit board 2232 connects first substrate 2231, another
End connection optical transmitting set 221.Optical transmitting set 221 is for launching outward optical signal.
Optical receiver 222 is mounted in the first sub- accommodating chamber 1134 and exposes from the first sub-through hole 1144.Optical receiver 222
It is arranged on first substrate 2231, and the contact surface of optical receiver 222 and first substrate 2231 and cushion block 224 and first substrate
2231 contact surface is substantially flush setting (that is, the start of installation of the two is in the same plane).Specifically, optical receiver 222
Including shell 2221 and optical element 2222.Shell 2221 is arranged on first substrate 2231, and optical element 2222 is arranged outside
On shell 2221, shell 2221 can be the microscope base and lens barrel of optical receiver 222, and optical element 2222, which can be, to be arranged in shell
The elements such as the lens in 2221.Optical receiver 222 is used to receive the optical signal that the optical transmitting set 221 being reflected back toward emits.
Further, optical receiver 222 can also include sensitive chip (not shown), be believed by the light that measured target is reflected back
Number by optical element 2222 act on after be irradiated in sensitive chip, sensitive chip to the optical signal generate response.Flight time
Mould group 22 calculates the sending optical signal of optical transmitting set 221 and sensitive chip receives the time reflected between the optical signal through testee
Difference, and the depth information of testee is further obtained, which can be used for ranging, for generating depth image or use
In three-dimensional modeling etc..
In the embodiment of the present invention, shell 2221 links into an integrated entity with cushion block 224.Specifically, shell 2221 and cushion block 224 can
To be to be integrally formed, such as shell 2221 is identical as the material of cushion block 224 and is integrally formed by the modes such as being molded, cutting;Or
Person's shell 2221 is different from the material of cushion block 224, and the two the modes such as forms by double-shot moulding and is integrally formed.Shell 2221 and pad
Block 224 is also possible to be separately formed, and the two forms fit structure can be first by shell when assembling flight time mould group 22
2221 link into an integrated entity with cushion block 224, then are co-located on first substrate 2231;It can also be first by shell 2221 and cushion block
One in 224 is arranged on first substrate 2231, then another is arranged on first substrate 2231 and is linked into an integrated entity.
Incorporated by reference to Fig. 3, in present embodiment, the center of optical receiver 222, the center of optical transmitting set 221, main camera
211 center and the center of secondary camera 212 are located on same straight line L1.
The setting of electric component group 30 is on first circuit board 2112 and corresponding with occlusion part 13.Specifically, electric component group
30 are arranged in the side identical with the second face 112 of occlusion part 13.User can by dispensing hole 131 electric component group 30 with
Dispensing between occlusion part 13, electric component group 30 is fixed on occlusion part 13.Electric component group 30 can be capacitor, electricity
The elements such as sense, transistor, resistance, optical device (including light compensating lamp, eyeglass etc.), sensor (stabilization use).Electric component group 30
It can be with a part of imaging modules 21, for example, imaging modules 21 further include optical anti-vibration (Optical image
Stabilization, OIS) component when, electric component group 30 can be at least part electronics member in optical anti-vibration component
Part.In other embodiments, electric component group 30 can be used for that imaging modules 21 is cooperated to use, for example, electric component group 30
It can also be light compensating lamp, light compensating lamp is for giving imaging modules 21 light filling, at this point, occlusion part 13 offers light hole, electronic component
Group 30 can be exposed by light hole from the first face 111.
Bracket 10 in the in-out box 100 of embodiment of the present invention is structure as a whole, and when imaging modules 21 and flies
When row time mould group 22 is mounted in accommodating chamber 113, the relative position of imaging modules 21 and flight time mould group 22 is not susceptible to
Variation, to enable multiple input and output mould groups 20 preferably cooperating.Specifically, the position of multiple accommodating chambers 113 is not
It can change, as long as input and output mould group 20 is fixed in accommodating chamber 113, the relative position between input and output mould group 20
It will not change.
Further, in flight time mould group 22, since optical transmitting set 221 is arranged on cushion block 224, cushion block 224 can be with
The height of padded optical transmitting set 221, and then the height of the exit facet of optical transmitting set 221 is improved, the light letter that optical transmitting set 221 emits
It number is not easy to be blocked by optical receiver 222, optical signal is irradiated on testee completely;Bracket 10 is by forming limit
Ring 12, when input and output mould group 20 is mounted in accommodating chamber 113, input and output mould group 20 and stop collar 12 to conflict, thus
Convenient for the location and installation of input and output mould group 20;Bracket 10 is being blocked by setting occlusion part 13 and by the setting of electric component group 30
112 same side of portion 13 and the second face, to can be protected when that will install in-out box 100 and be installed in mobile device 200
Shield electric component group 30 will not be collided;Bracket 10 is by setting flange 14 consequently facilitating the location and installation of bracket 10.
In some embodiments, when the quantity of accommodating chamber 113 is two, two accommodating chambers 113 are respectively the first receipts
Cavity 1131 and the second accommodating chamber 1132, wherein the first accommodating chamber 1131 includes the first sub- accommodating chamber 1134 for being connected and the
Two sub- accommodating chambers 1135.At this point, through-hole 114 includes and the first accommodating chamber 1131 and the second accommodating chamber 1132 corresponding first
Through-hole 1141 and the second through-hole 1142, wherein first through hole 114 includes and the first sub- accommodating chamber 1134 and the second sub- accommodating chamber
1135 corresponding first sub-through holes 1144 and the second sub-through hole 1145.First sub-through hole 1144, the second sub-through hole 1145 and
The center of second through-hole 1142 is located along the same line.At this point, the quantity of imaging modules 21 is one, imaging modules 21 are visible
Any one in light video camera head, infrared camera, black and white camera, focal length camera and wide-angle camera.Optical receiver
222, optical transmitting set 221, imaging modules 21 are successively separately mounted to the first sub- accommodating chamber 1134, the second sub- accommodating chamber 1135 and
In two accommodating chambers 1132.At this point, the center of optical receiver 222, the center of optical transmitting set 221, the centre bit with imaging modules 21
In on same straight line.In other embodiments, imaging modules 21 are located at optical transmitting set 221 and the center of optical receiver 222 connects
On the middle line (perpendicular bisector) of line, specifically, the center of the first sub-through hole 1144 and the line at the center of the second sub-through hole 1145 are
First line segment, the line at the center at the center and first through hole 1141 of the second through-hole 1142 are second line segment, the first line segment and the
Two line segments are mutually perpendicular to, and second line segment is located on the perpendicular bisector of the first line segment.In this way, being mounted on the first sub- accommodating chamber 1134
The line at the center of interior optical receiver 222 and the center of optical transmitting set 221 being mounted in the second sub- accommodating chamber 1135 is the
Three line segments, imaging modules 21 are located on the middle line (perpendicular bisector) of third line segment.
In some embodiments, the quantity of accommodating chamber 113 is three, and three accommodating chambers 113 include successively interval setting
The first accommodating chamber 1131, the second accommodating chamber 1132 and third accommodating chamber 1133.Through-hole 114 include with the first accommodating chamber 1131,
Second accommodating chamber 1132 and the corresponding first through hole 1141 of third accommodating chamber 1133, the second through-hole 1142 and third through-hole
1143.At this point, the quantity of imaging modules 21 is two, it is respectively main camera 211 and secondary camera 212.Wherein, main camera
211 be wide-angle camera, and secondary camera 212 is focal length camera;Alternatively, main camera 211 is colour imagery shot, secondary camera
212 be black and white camera;Alternatively, main camera 211 is colour imagery shot, secondary camera 212 is colour imagery shot;Alternatively, main
Camera 211 is colour imagery shot, and secondary camera 212 is infrared camera;Alternatively, main camera 211 is infrared camera, it is secondary
Camera 212 is black and white camera.Wherein, the center of optical transmitting set 221, optical receiver 222 center, with main camera 211
And at least one of secondary camera 212 is located along the same line.For example, the center of optical transmitting set 221, optical receiver 222
Center and the center of main camera 211 are located along the same line, at this point, in the center of main camera 211 and secondary camera 212
The line of the heart can be vertical with the straight line;Alternatively, the center of optical transmitting set 221, the center of optical receiver 222 and secondary camera
212 center is located along the same line, at this point, the line at the center of main camera 211 and the center of secondary camera 212 is straight with this
Line can be vertical.
In other embodiments, flight time mould group 22 is located at the line of centres of main camera 211 and secondary camera 212
Middle line on, specifically, the line at the center of the center of main camera 211 and secondary camera 212 is perpendicular to optical transmitting set 221
The line at center and the center of optical receiver 222, also, optical transmitting set 221 and optical receiver 222 are located at main camera 211
On the middle line (perpendicular bisector) of the line at center and the center of secondary camera 212.
In other embodiments, the line at the center of main camera 211 and the center of secondary camera 212 is parallel to light hair
The line at the center at the center and optical receiver 222 of emitter 221.The center of main camera 211 and the middle line of optical transmitting set 221 connect
Line of the line perpendicular to the center of main camera 211 and the center of secondary camera 212;Alternatively, center and the light of main camera 211
Line of the middle line line of receiver 222 perpendicular to the center of main camera 211 and the center of secondary camera 212;Alternatively, pair is taken the photograph
As first 212 center and optical receiver 222 middle line line perpendicular in the center and secondary camera 212 of main camera 211
The line of the heart;The center and pair of the center of secondary camera 212 and the middle line line of optical transmitting set 221 perpendicular to main camera 211
The line at the center of camera 212.
Fig. 6 and Fig. 7 is please referred to, in some embodiments, the side that cushion block 224 is combined with first substrate 2231 offers
Accommodating cavity 2241.Flight time mould group 22 further includes the electronic component 227 being arranged on first substrate 2231, electronic component 227
It is housed in accommodating cavity 2241.Electronic component 227 can be the elements such as capacitor, inductance, transistor, resistance, and electronic component 227 can
To be electrically connected with the control route being laid on first substrate 2231, and for driving or controlling optical transmitting set 221 or light-receiving
Device 222 works.Electronic component 227 is housed in accommodating cavity 2241, and the space in cushion block 224 is reasonably utilized, and does not need to increase
Add the width of first substrate 2231 electronic component 227 is arranged, conducive to the overall dimensions for reducing flight time mould group 22.Accommodating cavity
2241 quantity can be one or more, multiple accommodating cavities 2241 can be apart from one another by, can when installing cushion block 224
To be arranged on first substrate 2231 by the position alignment of accommodating cavity 2241 and electronic component 227 and by cushion block 224.
Fig. 6 and Fig. 7 is please referred to, in some embodiments, cushion block 224 is offered to be connected to at least one accommodating cavity 2241
Evacuation perforation 225, at least one electronic component 227 protrude into evacuation perforation 225 in.It is appreciated that needing electronic component 227
When being housed in accommodating cavity 2241, it is desirable that the height of electronic component 227 is not higher than the height of accommodating cavity 2241.And for height height
In the electronic component 227 of accommodating cavity 2241, evacuation perforation 225 corresponding with accommodating cavity 2241 can be opened up, electronic component 227 can
To partially protrude into evacuation perforation 225, with the arranging electronic element 227 under the premise of not improving 224 height of cushion block.
Fig. 6 and Fig. 7 is please referred to, in some embodiments, first substrate component 223 further includes stiffening plate 2233, is reinforced
Plate 2233 is incorporated in the side opposite with cushion block 224 of first substrate 2231.Stiffening plate 2233 can cover first substrate 2231
A side, stiffening plate 2233 can be used for increasing the intensity of first substrate 2231, and avoiding first substrate 2231, deformation occurs.
In addition, stiffening plate 2233 can be made of conductive material, such as metal or alloy etc., when flight time mould group 22 is mounted on shifting
When in dynamic equipment 200 (shown in Fig. 8), stiffening plate 2233 can be electrically connected with shell 40 (shown in Fig. 8), so that stiffening plate 2233
Ground connection, and efficiently reduce interference of the electrostatic of outer member to flight time mould group 22.
Fig. 6 and Fig. 7 is please referred to, in other embodiments, flight time mould group 22 further includes connector 226, connector
226 are connected on first substrate component 223 and for being electrically connected with the electronic component outside flight time mould group 22.
Fig. 8 and Fig. 9 please be participate in, the mobile device 200 of embodiment of the present invention includes shell 40 and any of the above-described embodiment party
The in-out box 100 of formula, in-out box 100 are mounted on shell 40.
Specifically, mobile device 200 is including in mobile phone, tablet computer, laptop, Intelligent bracelet, intelligent helmet
Any one.
Shell 40 can provide the protection such as dust-proof, waterproof, shatter-resistant to in-out box 100, offer on shell 40 with
The corresponding hole of input and output mould group 20, the light that input and output mould group 20 (for example, optical transmitting set 221) issues can be pierced by from hole
Shell 40;Light outside shell 40 can penetrate shell 40 from hole and be transmitted to input and output mould group 20 (for example, light-receiving
Device 222, imaging modules 21).In other embodiments, referring to Fig. 9, in-out box 100 is housed in shell 40 simultaneously
It can be stretched out out of shell 40, at this point, not needing to open up on shell 40 corresponding with the disengaging light direction of in-out box 100
Hole, for example, shell 40 includes main body 41 and movable part 42, in-out box 100 is mounted on movable part 42, and movable part 42 exists
It can be moved relative to main body 41 under the driving of driving device, movable part 42 can be slided relative to main body 41, to slide into main body
41 inside (as shown in Figure 8) skid off (as shown in Figure 9) from main body 41.When needing using in-out box 100, movably
Portion 42 drives in-out box 100 to be reached outside shell 40 out of shell 40;When not needing using in-out box 100
When, movable part 42 drives in-out box 100 to accommodate outside shell 40 to shell 40.In yet another embodiment, please join
Fig. 8 is read, mobile device 200 further includes display screen 50, and in-out box 100 is housed in shell 40 and is located at display screen 50
Lower section, at this point, also not needing to open up hole corresponding with the disengaging light direction of in-out box 100 on shell 40.
Bracket 10 in the mobile device 200 of embodiment of the present invention is structure as a whole, when imaging modules 21 and flight
Between mould group 22 when being mounted in accommodating chamber 113, the relative position of imaging modules 21 and flight time mould group 22 is not susceptible to change,
To enable multiple input and output mould groups 20 preferably cooperating.Specifically, the position of multiple accommodating chambers 113 will not occur
Variation, as long as input and output mould group 20 is fixed in accommodating chamber 113, the relative position between input and output mould group 20 will not
It changes.
In the description of this specification, reference term " certain embodiments ", " embodiment ", " some embodiment party
The description of formula ", " exemplary embodiment ", " example ", " specific example " or " some examples " means in conjunction with the embodiment
Or example particular features, structures, materials, or characteristics described are contained at least one embodiment or example of the invention.
In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, description
Particular features, structures, materials, or characteristics can be in any one or more embodiments or example with suitable side
Formula combines.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include at least one described feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two,
Three, unless otherwise specifically defined.
Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example
Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned
Embodiment is changed, modifies, replacement and variant, and the scope of the present invention is defined by the claims and their equivalents.
Claims (15)
1. a kind of in-out box, which is characterized in that the in-out box includes:
Bracket, the bracket are structure as a whole, and the bracket includes opposite the first face and the second face, and second face offers
Multiple accommodating chambers, first face offer multiple through-holes corresponding with multiple accommodating chambers;And
Input and output mould group, the input and output mould group include imaging modules and flight time mould group, the imaging modules and institute
Flight time Mo Zu is stated to be fixedly mounted on respectively in multiple accommodating chambers and pass through the corresponding through-hole from described first
Face exposure.
2. in-out box according to claim 1, which is characterized in that multiple accommodating chambers include the first accommodating chamber
With the second accommodating chamber, multiple through-holes include first through hole corresponding with first accommodating chamber and with second accommodating chamber
Corresponding second through-hole, the flight time mould group be fixedly mounted in first accommodating chamber and by the first through hole from
The first face exposure, the imaging modules are mounted in second accommodating chamber and pass through second through-hole from described first
Face exposure.
3. in-out box according to claim 1, which is characterized in that the imaging modules include visible image capturing
Any one in head, infrared camera, black and white camera, focal length camera and wide-angle camera.
4. in-out box according to claim 3, which is characterized in that the flight time mould group includes optical transmitting set
And optical receiver, the center of the optical transmitting set, the center of the optical receiver, be located at the centers of the imaging modules it is same
On straight line;Or
The imaging modules are located on the middle line of the line of centres of the optical transmitting set and the optical receiver.
5. in-out box according to claim 1, which is characterized in that the imaging modules include main camera and pair
Camera, multiple accommodating chambers include the first accommodating chamber, the second accommodating chamber and third accommodating chamber, and multiple through-holes include
And it the corresponding first through hole of first accommodating chamber, the second through-hole corresponding with second accommodating chamber and is received with the third
The corresponding third through-hole of cavity, the flight time mould group are fixedly mounted in first accommodating chamber and logical by described first
From first face exposure, the main camera is mounted in second accommodating chamber and by second through-hole from described in hole
The exposure of first face, the pair camera are mounted in the third accommodating chamber and sudden and violent from first face by the third through-hole
Dew.
6. in-out box according to claim 5, which is characterized in that the flight time mould group includes optical transmitting set
And optical receiver, the center of the optical transmitting set, the center of the optical receiver and the main camera and the secondary camera
At least one of be located along the same line;Or
The flight time mould group is located on the middle line of the line of centres of the main camera and the secondary camera.
7. in-out box according to claim 5, which is characterized in that the main camera is wide-angle camera, institute
Stating secondary camera is focal length camera;Or
The main camera is colour imagery shot, and the pair camera is black and white camera;Or
The main camera is colour imagery shot, and the pair camera is colour imagery shot;Or
The main camera is colour imagery shot, and the pair camera is infrared camera;Or
The main camera is infrared camera, and the pair camera is black and white camera.
8. in-out box according to claim 1, which is characterized in that the bracket include connect first face and
The side wall in second face, the side wall surround multiple accommodating chambers, second face offer through the side wall and with
Multiple limiting slots of multiple corresponding connections of the accommodating chamber;The flight time mould group includes first substrate component, the imaging
Mould group includes imaging electronics board, and the first substrate component and the imaging electronics board are threaded through in the limiting slot.
9. in-out box according to claim 8, which is characterized in that multiple accommodating chambers include for installing
The imaging accommodating chamber of imaging modules is stated, multiple limiting slots include the imaging limiting slot for being connected to the imaging accommodating chamber, described
Second face be also provided with through the side wall and with the mounting groove that is connected to of imaging accommodating chamber, the mounting groove and the imaging
Limiting slot is located at the opposite two sides of the imaging accommodating chamber;The bracket further includes accommodating from the side wall towards far from the imaging
The occlusion part that chamber side extends, the sheltering part is on the side wall corresponding with the mounting groove;The imaging electronics board
It is threaded through in the mounting groove, the input and output mould group further includes electric component group, and the electric component group is arranged described
It is in imaging electronics board and corresponding with the occlusion part.
10. in-out box according to claim 1, which is characterized in that the opening size of the through-hole, which is less than, to be corresponded to
The accommodating chamber opening size to form stop collar, the accommodating chamber extends by the stop collar and around the stop collar
Inner wall formed.
11. in-out box according to claim 1, which is characterized in that the bracket includes side wall and flange, described
Side wall connects first face and second face and surrounds multiple accommodating chambers, and the flange is from the side wall towards far from institute
It states accommodating chamber side to extend to form, the flange is located at the one end in close first face of the side wall and around the receiving
Chamber setting.
12. in-out box according to claim 1, which is characterized in that the flight time mould group includes:
First substrate component, the first substrate component include the first substrate and flexible circuit board interconnected;
Cushion block, the cushion block setting is on the first substrate;
Optical transmitting set, the optical transmitting set are arranged on the cushion block, the flexible circuit board bending and the flexible circuit board
One end connect the first substrate, the other end connects the optical transmitting set;And
Optical receiver, on the first substrate, the optical receiver includes shell and is arranged in shell for the optical receiver setting
Optical element on body, the shell link into an integrated entity with the cushion block.
13. in-out box according to claim 12, which is characterized in that multiple accommodating chambers include the first receiving
Chamber, multiple through-holes include first through hole corresponding with first accommodating chamber, and the flight time mould group is fixedly mounted on
It is exposed in first accommodating chamber and by the first through hole from first face.
14. in-out box according to claim 13, which is characterized in that first accommodating chamber includes being connected
First sub- accommodating chamber and the second sub- accommodating chamber, the first through hole include the first sub-through hole and the second sub-through hole being connected, institute
It is corresponding with the described first sub- accommodating chamber to state the first sub-through hole, second sub-through hole is corresponding with the described second sub- accommodating chamber, described
Optical receiver is mounted in the described first sub- accommodating chamber and from first sub-through hole exposure, and the optical transmitting set is mounted on described
It is exposed in second sub- accommodating chamber and from second sub-through hole.
15. a kind of mobile device, which is characterized in that the mobile device includes:
Shell;With
In-out box described in claim 1-14 any one, the in-out box installation is on the housing.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810962820.7A CN108989507B (en) | 2018-08-22 | 2018-08-22 | Input/output assembly and mobile device |
PCT/CN2019/090014 WO2020038052A1 (en) | 2018-08-22 | 2019-06-04 | Input/output assembly and mobile device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810962820.7A CN108989507B (en) | 2018-08-22 | 2018-08-22 | Input/output assembly and mobile device |
Publications (2)
Publication Number | Publication Date |
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CN108989507A true CN108989507A (en) | 2018-12-11 |
CN108989507B CN108989507B (en) | 2020-12-04 |
Family
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CN201810962820.7A Expired - Fee Related CN108989507B (en) | 2018-08-22 | 2018-08-22 | Input/output assembly and mobile device |
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CN (1) | CN108989507B (en) |
WO (1) | WO2020038052A1 (en) |
Cited By (2)
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CN110290304A (en) * | 2019-07-29 | 2019-09-27 | Oppo广东移动通信有限公司 | Depth camera and terminal |
WO2020038052A1 (en) * | 2018-08-22 | 2020-02-27 | Oppo广东移动通信有限公司 | Input/output assembly and mobile device |
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Also Published As
Publication number | Publication date |
---|---|
CN108989507B (en) | 2020-12-04 |
WO2020038052A1 (en) | 2020-02-27 |
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