CN204680009U - Memory storage and adopt the unmanned vehicle of this memory storage - Google Patents

Abstract

Embodiment of the present utility model discloses a kind of memory storage and adopts the unmanned vehicle of this memory storage.This memory storage comprises: solid state hard disc, for storing data; MSATA connector, is electrically connected with described solid state hard disc; Card extender, its one end is electrically connected with described mSATA connector; SATA connector, for being electrically connected with external device (ED), and described SATA connector is electrically connected with other one end of described card extender; Mounting box, for accommodating described solid state hard disc, described mSATA connector, described card extender and described SATA connector; Wherein, described mounting box is provided with an opening, and described SATA connector is arranged near the opening of described mounting box.Above-mentioned memory storage by solid state hard disc directly being stored the view data of unmanned vehicle shooting, and due to the capacity of solid state hard disc comparatively large, it can directly store original view data.

Description

Memory storage and adopt the unmanned vehicle of this memory storage

Technical field

The utility model relates to a kind of memory storage, particularly a kind of memory storage containing solid state hard disc and adopt the unmanned vehicle of this memory storage.

Background technology

Unmanned vehicle general at present, due to volume and load limit, adopts SD card to store the view data of the camera acquisition that unmanned vehicle carries usually.

But, due to the finite capacity of SD card, can only store compressed, editor after view data, the view data causing SD card to store is not raw data, and its later stage editorial is not strong.

Utility model content

Given this, the utility model is necessary to provide a kind of small volume, lighter in weight, and the memory storage that capacity is larger, to be applicable to unmanned vehicle.

A kind of memory storage, comprising:

Solid state hard disc, for storing data;

MSATA connector, is electrically connected with described solid state hard disc;

Card extender, its one end is electrically connected with described mSATA connector;

SATA connector, for being electrically connected with external device (ED), and described SATA connector is electrically connected with other one end of described card extender; And

Mounting box, for accommodating described solid state hard disc, described mSATA connector, described card extender and described SATA connector;

Wherein, described mounting box is provided with an opening, and described SATA connector is arranged near the opening of described mounting box.

Wherein in an embodiment, described solid state hard disc, described mSATA connector, described card extender, described SATA connector are sequentially arranged in same aspect.

Wherein in an embodiment, described mounting box comprises lower cover, and described solid state hard disc, described mSATA connector, described card extender, described SATA connector are all housed in described lower cover.

Wherein in an embodiment, described solid state hard disc comprises PCB substrate and is located at the chip in described PCB substrate, the bottom of described lower cover is provided with fixing lug boss, and described PCB substrate is fixed in described fixing lug boss, there is predetermined interval to make the bottom of described PCB substrate and described lower cover.

Wherein in an embodiment, described fixing lug boss is the elastic cylinder be made up of resilient material.

Wherein in an embodiment, described PCB substrate is provided with through hole, and threaded fastener passes the through hole of described PCB substrate and being fixedly connected with of described fixing lug boss, described PCB substrate to be fixed in described fixing lug boss.

Wherein in an embodiment, described through hole is located at one end of described PCB substrate, and described mSATA interface is located at other one end of described PCB substrate.

Wherein in an embodiment, described PCB substrate is pasted with thermal conductive silicon rubber cushion on the described chip of the bottom of described lower cover, and described thermal conductive silicon rubber cushion is positioned at described predetermined interval.

Wherein in an embodiment, the bottom of described lower cover is provided with installation base, and described card extender is arranged on described installation base.

Wherein in an embodiment, described installation base is the elastic cylinder be made up of resilient material;

And/or the side of described card extender is provided with draw-in groove, threaded fastener is fixedly connected with described installation base through the draw-in groove of described card extender, to be fixed on described installation base by described card extender.

Wherein in an embodiment, the bottom of described lower cover is provided with reference column, and described card extender is provided with the pilot hole passed for described reference column.

Wherein in an embodiment, described card extender comprises plate body and is located at many connecting lines on described plate body, and described many connecting lines are used for directly connecting described mSATA connector and described SATA connector.

Wherein in an embodiment, described many connecting lines are made up of the confession electrical wiring of one 3.3 volts, GND line, four signal wires, SATA connector directly provides the power supply of 3.3 volts to mSATA connector by described for electrical wiring, and described four signal wires are two pairs of difference transceiving data lines.

Wherein in an embodiment, described mSATA connector comprises first surface and the second surface relative with first surface, one end of described first surface is provided with first step portion, and one end that described card extender is connected with described mSATA connector is arranged in described first step portion.

Wherein in an embodiment, the bottom in described first step portion is provided with fixed leg, described card extender is provided with fixed orifice, and described fixed leg, through described fixed orifice, is positioned in described first step portion with the one end be connected with described mSATA connector by described card extender.

Wherein in an embodiment, one end that described card extender is connected with described mSATA connector is extended two and is connected lug, and described two connect the setting of lug relative spacing, and described mSATA connector inserts described two and connects between lugs.

Wherein in an embodiment, the two opposite side surfaces of described mSATA connector is respectively equipped with a connecting portion, and two described connecting portions are connected lug with described two respectively and are fixedly connected with, to be fixedly connected with described card extender by described mSATA connector.

Wherein in an embodiment, described second surface is provided with second step portion away from the one end in described first step portion, and one end of described solid state hard disc is arranged on described second step portion.

Wherein in an embodiment, the side in described second step portion is provided with projection, and one end of described solid state hard disc is provided with the draw-in groove fastened with described projection.

Wherein in an embodiment, one end of described SATA connector is provided with two positioning tabs, and described two positioning tab relative spacings are arranged, and one end that described card extender is connected with described SATA connector is inserted between described two positioning tabs.

Wherein in an embodiment, described two opposed facing sides of positioning tab are provided with gathering sill, and the relative dual-side of one end that described card extender is connected with described SATA connector inserts in the gathering sill of described two positioning tabs respectively.

Wherein in an embodiment, one end of described SATA connector is also provided with spacing lug, described spacing lug is located between described two positioning tabs, and described card extender is provided with stopper slot with the middle part of one end that described SATA connector is connected, and described spacing lug and described stopper slot fasten.

Wherein in an embodiment, the relative both sides of described spacing lug are respectively equipped with gathering sill, and the relative two edges of described stopper slot snap in the gathering sill of the relative both sides of described spacing lug respectively.

Wherein in an embodiment, putting in order of the signal pins of described SATA connector is consistent with putting in order of the corresponding signal pin of described mSATA connector;

And/or described solid state hard disc is provided with mSATA joint, one end of described mSATA connector is provided with the mSATA interface with the grafting of described mSATA joint;

And/or described mSATA connector is provided with right-hand rotation interface away from one end of described solid state hard disc, one end that described card extender is electrically connected with described mSATA connector is provided with for the left-hand rotation joint with the grafting of described right-hand rotation interface;

And/or one end of described SATA connector is provided with left-hand rotation interface, one end that described card extender is electrically connected with described SATA connector is provided with for the right-hand rotation joint with the grafting of described left-hand rotation interface;

And/or described SATA connector is provided with for the SATA interface with the grafting of outside SATA joint away from one end of described card extender.

A kind of unmanned vehicle, comprising:

Above-mentioned memory storage;

Image acquiring device, for catching image;

Processor, is electrically connected with described image acquiring device and described memory storage;

Wherein, described processor controls the view data that image acquiring device described in described storing device for storing catches.

Wherein in an embodiment, the raw image data that described memory storage obtains for storing described image acquiring device.

Above-mentioned memory storage at least has the following advantages:

(1) above-mentioned memory storage is by being connected solid state hard disc with mSATA connector, again mSATA connector is carried on a card extender, card extender opposite side carries a SATA connector, thus the view data of unmanned vehicle shooting directly can be stored by SATA connector, and because the capacity of solid state hard disc is comparatively large, it can directly store original view data.In addition, due to the small volume of the solid state hard disc with mSATA interface, make the small volume of memory storage, lighter in weight, be applicable to unmanned vehicle and carry.

(2) mSATA interface conversion is become SATA interface by above-mentioned memory storage, and user can transmit data with between computer etc. very easily by SATA interface, has outstanding read/write speed, plug and play, can be user and save the quality time.

Accompanying drawing explanation

Fig. 1 is the exploded view of the memory storage of embodiment of the present utility model;

Fig. 2 is the exploded view at another visual angle of the memory storage shown in Fig. 1;

Fig. 3 is the vertical view of the memory storage shown in Fig. 1;

Fig. 4 is the partial exploded view of the memory storage shown in Fig. 1;

Fig. 5 is the partial exploded view at another visual angle of the memory storage shown in Fig. 1;

Fig. 6 is the circuit diagram of the card extender of the memory storage shown in Fig. 1;

Fig. 7 is the schematic diagram of the unmanned vehicle adopting above-mentioned memory storage.

Main element symbol description

Memory storage	100
		Solid state hard disc	110
MSATA connecting portion	111
		PCB substrate	112
Through hole	112b
		Draw-in groove	112a、138
Chip	113
		MSATA connector	120
MSATA interface	121
		First surface	122
Second surface	123
		First step portion	124
Second step portion	125
		Projection	125a
Right-hand rotation interface	126
		First pin	127
Paster pin A	127a
		Straight cutting pin	127b
Extension	1271b
		Teat	1272b
Connecting portion	128
		Fixed leg	129
Card extender	130
		Left-hand rotation joint	131
Connect lug	132
		Sheet metal	132a
Plate body	133
		Fixed orifice	133a
Connecting line	134
		For electrical wiring	134a
GND line	134b
		Signal wire	134c
Right-hand rotation joint	135
		First golden finger	136a
Second golden finger	136b
		3rd golden finger	136c
Stopper slot	137
		Pilot hole	139
SATA connector	140
		Left-hand rotation interface	141
Positioning tab	142
		Gathering sill A	142a
Spacing lug	143
		Gathering sill B	143a
Paster pin B	144
		SATA interface	145
Lower cover	150
		Fixing lug boss	151
Installation base	153
		Reference column	155
Erection column	156
		Thermal conductive silicon rubber cushion	160
Upper cover	170
		Coordinate post	181
Mating holes	182
		Unmanned vehicle	10
Image acquiring device	200
		Processor	300

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that, when assembly is called as " being fixed on " another assembly, directly can there is assembly placed in the middle in it on another assembly or also.When an assembly is considered to " connection " another assembly, it can be directly connected to another assembly or may there is assembly placed in the middle simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in instructions of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Embodiment of the present utility model provides a kind of memory storage, it comprises solid state hard disc (SSD), mSATA(Mini Serial Advanced Technology Attachment, mini version Serial Advanced Technology Attachment) connector, card extender and SATA(Serial Advanced Technology Attachment, Serial Advanced Technology Attachment) connector.Card extender is electrically connected described mSATA connector and described SATA connector.Solid state hard disc is electrically connected with described mSATA, and is connected with external device (ED) communication by described SATA.

Wherein in some embodiments, described solid state hard disc and the grafting of described mSATA connector.And/or, one end grafting of described mSATA connector and described card extender.And/or, other one end of described card extender and the grafting of described SATA connector.

It should be noted that, " grafting " can be the grafting of " movable " ground, and such as, the grafting of plug and electric mortiser A seating, also can be the grafting of " fixing " ground, such as, the straight cutting pin on chip welds after inserting the welding hole of PCB.

Wherein in some embodiments, described solid state hard disc, described mSATA connector, described card extender, described SATA connector line spread successively, make described solid state hard disc, described mSATA connector, described card extender, described SATA connector be positioned in same aspect.

Wherein in some embodiments, described card extender is not containing any control circuit, control electronic component.

Wherein in some embodiments, described SATA connector directly supplies the power supply of 3.3 volts to described mSATA connector by described card extender.

Wherein in some embodiments, putting in order of the signal pins of described SATA connector is consistent with putting in order of the corresponding signal pin of described mSATA connector.

Such design, is conducive to card extender wiring on the one hand, reduces the area of card extender on the other hand, reduce the size of whole memory storage, use convenient during design.

Wherein in some embodiments, described solid state hard disc is provided with the mSATA interface with the grafting of described mSATA connector.

Wherein in some embodiments, described SATA connector is provided with for the SATA interface with the grafting of outside SATA joint.

Wherein in some embodiments, described mSATA connector is provided with right-hand rotation interface away from one end of described solid state hard disc, and one end that described card extender is electrically connected with described mSATA connector is provided with for the left-hand rotation joint with the grafting of described right-hand rotation interface.

Wherein in some embodiments, one end of described SATA connector is provided with left-hand rotation interface, and one end that described card extender is electrically connected with described SATA connector is provided with for the right-hand rotation joint with the grafting of described left-hand rotation interface.

Below in conjunction with accompanying drawing, embodiments more of the present utility model are elaborated.When not conflicting, the feature in following embodiment and embodiment can combine mutually.

Refer to Fig. 1 and Fig. 2, the memory storage 100 of embodiment of the present utility model, comprise solid state hard disc 110, mSATA connector 120, card extender 130 and SATA connector 140.

Solid state hard disc 110, for storing data.Described solid state hard disc 110 is provided with mSATA connecting portion 111.Specifically in the shown embodiment, described solid state hard disc 110 comprises PCB substrate 112 and is located at the chip 113 in described PCB substrate 112.Described mSATA connecting portion 111 is the mSATA joint being directly formed at PCB substrate 112 one end.Such as, one end of PCB substrate 112 is directly equipped with golden finger, to form mSATA joint.

MSATA connector 120 and described solid state hard disc 110 are electrically connected.Specifically in the illustrated embodiment in which, one end of described mSATA connector 120 is provided with the mSATA interface 121 with the described mSATA joint grafting of described solid state hard disc 110.

See also Fig. 4 and Fig. 5, the concrete structure of the mSATA interface 121 of mSATA connector 120 can design according to different demand.Such as, in the illustrated embodiment in which, described mSATA connector 120 comprises first surface 122 and the second surface 123 relative with first surface 122, and described second surface 123 is provided with second step portion 125, and one end of described solid state hard disc 110 is arranged on described second step portion 125.

Further, the bottom in second step portion 125 is provided with the second pin, and it contacts with the golden finger of the PCB substrate 112 of solid state hard disc 110, thus conducts.

Further, the side in described second step portion 125 is provided with projection 125a, and one end of described solid state hard disc 110 is provided with the draw-in groove 112a fastened with described projection 125a.The projection 125a in described second step the portion 125 and draw-in groove 112a of described solid state hard disc 110 aligns, and plays pre-aligned effect when assembling.

The concrete set-up mode of the draw-in groove 112a of described solid state hard disc 110 and the projection 125a of described mSATA connector 120 can design according to different demand, such as, specifically in the illustrated embodiment in which, described draw-in groove 112a is slit, and described slit extends in the middle part of the PCB substrate 112 of described solid state hard disc 110 from the edge of PCB substrate 112 one end of described solid state hard disc 110.The golden finger position of the PCB substrate 112 of solid state hard disc 110 is in the both sides of described draw-in groove 112a.Described projection 125a is erected at the bottom in described second step portion 125, and is connected with the side in described second step portion 125.

One end of card extender 130 is electrically connected with described mSATA connector 120.Specifically in the illustrated embodiment in which, described mSATA connector 120 is provided with right-hand rotation interface 126 away from one end of described solid state hard disc 110, and one end that described card extender 130 is electrically connected with described mSATA connector 120 is provided with for the left-hand rotation joint 131 with the grafting of described right-hand rotation interface 126.

The concrete structure of the left-hand rotation joint 131 of described card extender 130 and the right-hand rotation interface 126 of mSATA connector 120 can design according to different demand.Such as, specifically in the illustrated embodiment in which, described first surface 122 is provided with first step portion 124 away from the one end in described second step portion 125, and one end that described card extender 130 is connected with described mSATA connector 120 is arranged in described first step portion 124.The first pin 127 is provided with in first step portion 124.Card extender 130 is PCB card extender, and described left-hand rotation joint 131 is formed directly into one end of PCB card extender, and such as, one end of PCB card extender is directly formed with golden finger, to form described left-hand rotation joint 131.

Further, described first pin 127 comprises paster pin A 127a and straight cutting pin 127b.Paster pin A 127a extends out from the bottom in described first step portion 124.Straight cutting pin 127b comprises extension 1271b and teat 1272b, and described extension 1271b extends out from the side in first step portion 124, and the side in parallel first step portion 124 extends, and inserts the bottom in first step portion 124 afterwards.Described teat 1272b highlights from the bottom in first step portion 124.A wherein surface of described PCB card extender is provided with the first golden finger 136a abutted with described paster pin A 127a, and another apparent surface is provided with the second golden finger 136b.Paster pin A 127a contacts with the first golden finger 136a, and straight cutting pin 127b is through the second golden finger 136b.One end margin of PCB card extender abuts with the extension 1271b of straight cutting pin 127b.

Further, one end that described card extender 130 is connected with described mSATA connector 120 is extended two and is connected lug 132, and described two connect the setting of lug 132 relative spacing.Described mSATA connector 120 inserts described two and connects between lugs 132, thus positioning transfer plate 130 comparatively easily.

Further, the two opposite side surfaces of described mSATA connector 120 is respectively equipped with a connecting portion 128, two described connecting portions 128 are connected lug 132 with described two respectively and are fixedly connected with, to be fixedly connected with described card extender 130 by described mSATA connector 120.

The concrete structure of connecting portion 128 and connecting portion 128 can design according to different demand from the fixed form connecting lug 132.Such as, specifically in the illustrated embodiment in which, connecting portion 128 is the metallic bending portion extended out from the side of mSATA connector 120, and each connection lug 132 is provided with sheet metal 132a, and described metallic bending portion welds together with the described sheet metal 132a be connected on lug 132.

See also Fig. 6, the circuit structure of card extender 130 can design according to different demand, such as, in the illustrated embodiment in which, card extender 130 does not arrange any control circuit, described card extender 130 comprises plate body 133 and is located at the many connecting lines 134 on described plate body 133, and described many connecting lines 134 are for directly connecting described mSATA connector 120 and described SATA connector 140.

Particularly, described many connecting lines 134 are made up of the confession electrical wiring 134a of one 3.3 volts, GND line 134b, four signal wire 134c.The described electrical wiring 134a of confession is used for SATA connector 140 directly provides the power supply of 3.3V to mSATA connector 120.Described four signal wire 134c are two pairs of difference transceiving data lines.

SATA connector 140 is for being electrically connected with external device (ED), and described SATA connector 140 is electrically connected with other one end of described card extender 130.Specifically in the illustrated embodiment in which, one end of described SATA connector 140 is provided with left-hand rotation interface 141, and one end that described card extender 130 is electrically connected with described SATA connector 140 is provided with for the right-hand rotation joint 135 with the grafting of described left-hand rotation interface 141.

The concrete structure of described left-hand rotation interface 141 can design according to different demand, such as, in the illustrated embodiment in which, one end of described SATA connector 140 is provided with two positioning tabs 142, described two positioning tab 142 relative spacings are arranged, and one end that described card extender 130 is connected with described SATA connector 140 is inserted between described two positioning tabs 142.SATA connector 140 is provided with multiple paster pin B 144, and particularly, multiple paster pin B 144 is between described two positioning tabs 142.Other one end of card extender 130 is provided with multiple 3rd golden finger 136c, and multiple 3rd golden finger 136c contacts with multiple paster pin B 144 respectively, and conducts.

Further, described two opposed facing sides of positioning tab 142 are provided with gathering sill A 142a, described card extender 130 inserts in the gathering sill A 142a of described two positioning tabs 142 with the relative dual-side of one end that described SATA connector 140 is connected respectively, insert between two positioning tabs 142 to guide card extender 130, and be held in gathering sill A 142a, play positioning action.

Further, one end of described SATA connector 140 is also provided with spacing lug 143, described spacing lug 143 is located between described two positioning tabs 142, described card extender 130 is provided with stopper slot 137 with the middle part of one end that described SATA connector 140 is connected, described spacing lug 143 fastens with described stopper slot 137, so that further positioning transfer plate 130, play guide function in advance simultaneously.

Further, the relative both sides of described spacing lug 143 are respectively equipped with gathering sill B 143a, and the relative two edges of described stopper slot 137 snap in the gathering sill B 143a of the relative both sides of described spacing lug 143 respectively.

Further, described SATA connector 140 signal pins put in order consistent with putting in order of the corresponding signal pin of described mSATA connector 120.

Further, described SATA connector 140 is provided with for the SATA interface 145 with the grafting of outside SATA joint one end in addition.

The concrete mounting means of described solid state hard disc 110, described mSATA connector 120, described card extender 130, described SATA connector 140 can design according to different demand, specifically in the illustrated embodiment in which, described solid state hard disc 110, described mSATA connector 120, described card extender 130, described SATA connector 140 are sequentially arranged in same aspect.

Further, also comprise lower cover 150, described solid state hard disc 110, described mSATA connector 120, described card extender 130, described SATA connector 140 are all housed in described lower cover 150.

Further, the bottom of described lower cover 150 is provided with fixing lug boss 151, and described PCB substrate 112 is fixed in described fixing lug boss 151, there is predetermined interval to make described PCB substrate 112 with the bottom of described lower cover 150.

The mounting means of fixing lug boss 151 can design according to different demand, such as, in the illustrated embodiment in which, described fixing lug boss 151 is the elastic cylinder be made up of resilient material, so that play good cushioning effect to PCB substrate 112, and it is poor effectively can to eliminate erector.Described PCB substrate 112 is provided with through hole 112b, and threaded fastener is fixedly connected with described fixing lug boss 151 through the through hole 112b of described PCB substrate 112, described PCB substrate 112 to be fixed in described fixing lug boss 151.

The setting position of through hole 112b can design according to different demand.Such as, in the illustrated embodiment in which, described through hole 112b is located at one end of described PCB substrate 112, and described mSATA interface 121 is located at other one end of described PCB substrate 112.

Further, described PCB substrate 112 is pasted with thermal conductive silicon rubber cushion 160 on the described chip 113 of the bottom of described lower cover 150, and described thermal conductive silicon rubber cushion 160 is positioned at described predetermined interval.

Further, the bottom of described lower cover 150 is provided with installation base 153, and described card extender 130 is arranged on described installation base 153.

The mounting means of described installation base 153 can design according to different demands, and such as, in the illustrated embodiment in which, described installation base 153 is the elastic cylinder be made up of resilient material, so that carry out effective damping to card extender 130.The side of described card extender 130 is provided with draw-in groove, and threaded fastener passes the draw-in groove 138 of described card extender 130 and being fixedly connected with of described installation base 153, to be fixed on described installation base 153 by described card extender 130.

Further, the bottom of described lower cover 150 is provided with reference column 155, and described card extender 130 is provided with the pilot hole 139 passed for described reference column 155, is pre-positioned on lower cover 150 with just card extender 130, and then fixed transfer plate 130.

Further, described memory storage 100 also comprises upper cover 170, described upper cover 170 forms a mounting box jointly with described lower cover 150, and described solid state hard disc 110, described mSATA connector 120, card extender 130, described SATA connector 140 are all contained in this mounting box.

Specifically in the illustrated embodiment in which, wherein a part of threaded fastener is through the fixing lug boss 151 of described lower cover 150, with described upper cover 170 bolt after the through hole 112b of described solid state hard disc 110, a part of threaded fastener is through the installation base 153 of described lower cover 150 in addition, with described upper cover 170 bolt after the draw-in groove 138 of described card extender 130, thus while fixing solid state hard disc 110 and card extender 130, be fixedly connected with upper cover 170 and lower cover 150, effectively to reduce the quantity of threaded fastener, reduce cost, improve the convenience of the installation and removal storing assembling device.

It should be noted that, upper cover 170 also can be one-body molded with lower cover 150, forms mounting box.In addition, mounting box is provided with an opening, and SATA connector 140 is arranged near described opening.

Further, lower cover 150 is provided with the erection column 156 be connected with described threaded fastener, and the top of described erection column 156 is provided with the screw worn for threaded fastener.

Further, as shown in Figure 3, one of them of lower cover 150 and upper cover 170 is provided with and coordinates post 181, and another one is provided with the mating holes 182 coordinating post 181 to pass, to play the pre-aligned effect when lid of upper cover 170 and lower cover 150.

Further, the bottom in the described first step portion 124 of described mSATA connector 120 is provided with fixed leg 129, described card extender 130 is provided with fixed orifice 133a, described fixed leg 129, through described fixed orifice 133a, is positioned in described first step portion 124 with the one end be connected with described mSATA connector 120 by described card extender 130.

Above-mentioned memory storage at least has the following advantages:

(1) above-mentioned memory storage is by being connected solid state hard disc with mSATA connector, again mSATA connector is carried on a card extender, card extender opposite side carries a SATA connector, thus the view data of unmanned vehicle shooting directly can be stored by SATA connector, and because the capacity of solid state hard disc is comparatively large, it can directly store original view data.In addition, due to the small volume of the solid state hard disc with mSATA interface, make the small volume of memory storage, lighter in weight, be applicable to unmanned vehicle and carry.

(2) mSATA interface conversion is become SATA interface by above-mentioned memory storage, and user can transmit data with between computer etc. very easily by SATA interface, has outstanding read/write speed, plug and play, can be user and save the quality time.

Above-mentioned memory storage 100 may be used on different electronic equipments, and such as, above-mentioned memory storage 100 can be applied on unmanned vehicle, robot, computer etc. electronic equipment.Be described for unmanned vehicle below.

See also Fig. 7, the unmanned vehicle 10 of embodiment of the present utility model, comprise above-mentioned memory storage 100, image acquiring device 200 and processor 300.

Image acquiring device 200, for catching image.Image acquiring device 200 can moving camera, video camera, camera, mobile phone etc. with camera.

Processor 300, is electrically connected with described image acquiring device 200 and described memory storage 100.Wherein, described processor 300 controls the view data that described memory storage 100 stores the seizure of described image acquiring device 200.Particularly, the raw image data that described memory storage 100 obtains for storing described image acquiring device 200, so that later stage compilation is stronger.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (26)

1. a memory storage, is characterized in that, comprising:

Solid state hard disc, for storing data;

MSATA connector, is electrically connected with described solid state hard disc;

Card extender, its one end is electrically connected with described mSATA connector;

SATA connector, for being electrically connected with external device (ED), and described SATA connector is electrically connected with other one end of described card extender; And

Mounting box, for accommodating described solid state hard disc, described mSATA connector, described card extender and described SATA connector;

Wherein, described mounting box is provided with an opening, and described SATA connector is arranged near the opening of described mounting box.

2. memory storage according to claim 1, is characterized in that, described solid state hard disc, described mSATA connector, described card extender, described SATA connector are sequentially arranged in same aspect.

3. memory storage according to claim 2, is characterized in that, described mounting box comprises lower cover, and described solid state hard disc, described mSATA connector, described card extender, described SATA connector are all housed in described lower cover.

4. memory storage according to claim 3, it is characterized in that, described solid state hard disc comprises PCB substrate and is located at the chip in described PCB substrate, the bottom of described lower cover is provided with fixing lug boss, described PCB substrate is fixed in described fixing lug boss, there is predetermined interval to make the bottom of described PCB substrate and described lower cover.

5. memory storage according to claim 4, is characterized in that, described fixing lug boss is the elastic cylinder be made up of resilient material.

6. memory storage according to claim 4, it is characterized in that, described PCB substrate is provided with through hole, and threaded fastener passes the through hole of described PCB substrate and being fixedly connected with of described fixing lug boss, described PCB substrate to be fixed in described fixing lug boss.

7. memory storage according to claim 6, is characterized in that, described through hole is located at one end of described PCB substrate, and described mSATA interface is located at other one end of described PCB substrate.

8. memory storage according to claim 4, is characterized in that, described PCB substrate is pasted with thermal conductive silicon rubber cushion on the described chip of the bottom of described lower cover, and described thermal conductive silicon rubber cushion is positioned at described predetermined interval.

9. memory storage according to claim 3, is characterized in that, the bottom of described lower cover is provided with installation base, and described card extender is arranged on described installation base.

10. memory storage according to claim 9, is characterized in that, described installation base is the elastic cylinder be made up of resilient material;

And/or the side of described card extender is provided with draw-in groove, threaded fastener is fixedly connected with described installation base through the draw-in groove of described card extender, to be fixed on described installation base by described card extender.

11. memory storages according to claim 3, is characterized in that, the bottom of described lower cover is provided with reference column, and described card extender is provided with the pilot hole passed for described reference column.

12. memory storages according to claim 1, is characterized in that, described card extender comprises plate body and is located at many connecting lines on described plate body, and described many connecting lines are used for directly connecting described mSATA connector and described SATA connector.

13. memory storages according to claim 12, it is characterized in that, described many connecting lines are made up of the confession electrical wiring of one 3.3 volts, GND line, four signal wires, SATA connector directly provides the power supply of 3.3 volts to mSATA connector by described for electrical wiring, and described four signal wires are two pairs of difference transceiving data lines.

14. memory storages according to claim 1, it is characterized in that, described mSATA connector comprises first surface and the second surface relative with first surface, one end of described first surface is provided with first step portion, and one end that described card extender is connected with described mSATA connector is arranged in described first step portion.

15. memory storages according to claim 14, it is characterized in that, the bottom in described first step portion is provided with fixed leg, described card extender is provided with fixed orifice, described fixed leg, through described fixed orifice, is positioned in described first step portion with the one end be connected with described mSATA connector by described card extender.

16. memory storages according to claim 14, it is characterized in that, one end that described card extender is connected with described mSATA connector is extended two and is connected lug, and described two connect the setting of lug relative spacing, and described mSATA connector inserts described two and connects between lugs.

17. memory storages according to claim 16, it is characterized in that, the two opposite side surfaces of described mSATA connector is respectively equipped with a connecting portion, two described connecting portions are connected lug with described two respectively and are fixedly connected with, to be fixedly connected with described card extender by described mSATA connector.

18. memory storages according to claim 14, is characterized in that, described second surface is provided with second step portion away from the one end in described first step portion, and one end of described solid state hard disc is arranged on described second step portion.

19. memory storages according to claim 18, is characterized in that, the side in described second step portion is provided with projection, and one end of described solid state hard disc is provided with the draw-in groove fastened with described projection.

20. memory storages according to claim 1, it is characterized in that, one end of described SATA connector is provided with two positioning tabs, and described two positioning tab relative spacings are arranged, and one end that described card extender is connected with described SATA connector is inserted between described two positioning tabs.

21. memory storages according to claim 20, it is characterized in that, described two opposed facing sides of positioning tab are provided with gathering sill, and the relative dual-side of one end that described card extender is connected with described SATA connector inserts in the gathering sill of described two positioning tabs respectively.

22. memory storages according to claim 20, it is characterized in that, one end of described SATA connector is also provided with spacing lug, described spacing lug is located between described two positioning tabs, described card extender is provided with stopper slot with the middle part of one end that described SATA connector is connected, and described spacing lug and described stopper slot fasten.

23. memory storages according to claim 22, is characterized in that, the relative both sides of described spacing lug are respectively equipped with gathering sill, and the relative two edges of described stopper slot snap in the gathering sill of the relative both sides of described spacing lug respectively.

24. memory storages according to claim 1, is characterized in that, putting in order of the signal pins of described SATA connector is consistent with putting in order of the corresponding signal pin of described mSATA connector;

And/or described solid state hard disc is provided with mSATA joint, one end of described mSATA connector is provided with the mSATA interface with the grafting of described mSATA joint;

And/or described mSATA connector is provided with right-hand rotation interface away from one end of described solid state hard disc, one end that described card extender is electrically connected with described mSATA connector is provided with for the left-hand rotation joint with the grafting of described right-hand rotation interface;

And/or one end of described SATA connector is provided with left-hand rotation interface, one end that described card extender is electrically connected with described SATA connector is provided with for the right-hand rotation joint with the grafting of described left-hand rotation interface;

And/or described SATA connector is provided with for the SATA interface with the grafting of outside SATA joint away from one end of described card extender.

25. 1 kinds of unmanned vehicles, is characterized in that, comprising:

Memory storage described in claim 1 ~ 24 any one;

Image acquiring device, for catching image;

Processor, is electrically connected with described image acquiring device and described memory storage;

Wherein, described processor controls the view data that image acquiring device described in described storing device for storing catches.

26. unmanned vehicles according to claim 25, is characterized in that, the raw image data that described memory storage obtains for storing described image acquiring device.