CN203967325U - Connector and the storage device of applying it - Google Patents

Abstract

The utility model provides a kind of connector and applies its storage device, and connector is applicable to storage device.Storage device has memory module.Connector comprises body, multiple terminal and housing.Terminal arrangement in body and the first end of each terminal protrude from body and be electrically connected memory module.Housing is coated body, and housing has recess and shielding portion.The first end of terminal is positioned at recess, and shielding part shields recess also makes first end between shielding portion and memory module.

Description

Connector and the storage device of applying it

Technical field

The utility model relates to a kind of connector and applies its storage device.

Background technology

Along with the development of multimedia technology, it is more and more large that the digital document of made becomes.Although traditional 1.44MB floppy disk is easy to carry, its capacity cannot meet current demand.In addition, though the hard disk of traditional magnetic disk structural formula can provide jumbo memory space, because its volume is compared with causing user to carry inconvenience greatly.In recent years, along with USB (Universal Serial Bus, be called for short USB) price reduction of the universal and flash memory (Flash Memory) of interface, therefore have the portable disk that capacity is large, compatibility is good, be convenient for carrying (USB Flash Disk) concurrently and be widely used in the transfer of data between different computer and storage device.

The characteristic that portable disk has possessed that capacity is large, plug and play, volume are light and handy and be convenient for carrying, therefore portable disk can replace floppy disk.Because portable disk is that its memory module for example, is electrically connected with host computer and storage device by connecting a connection piece (USB plug or IEEE1394 plug) on it.

But, need be under the plug repeating and long-term use in response to portable disk, can be constantly because the effect of plug strength produce damage between memory module and connector, even peel off and the anxiety that has generation electrically to open circuit, and cause transmitting jitter.Accordingly, how to improve the structural strength between memory module and connector, just become the required problem facing of related personnel.

Utility model content

The utility model provides a kind of connector and applies its storage device, and its shielding portion by housing improves the intensity of syndeton between memory module.

Connector of the present utility model, is applicable to storage device.Storage device has memory module.Connector comprises body, multiple terminal and the first housing.Terminal arrangement is in body.The first end of each terminal protrudes from body and is electrically connected memory module.The first housing is coated on body.The first housing has the first recess and shielding portion.The first end of described terminal is positioned at the first recess, and shielding part shields the first recess, and makes the first end of terminal between shielding portion and memory module.

Storage device of the present utility model, comprises memory module and connector.Memory module has the first connecting interface.Connector comprises body, multiple terminal and the first housing.Terminal arrangement is in body.The first end of each terminal protrudes from body and is electrically connected memory module.The first housing is coated on body.The first housing has the first recess and shielding portion.The first end of described terminal is positioned at the first recess, and shielding part shields the first recess, and makes the first end of terminal between shielding portion and memory module.

In an exemplary embodiment of the present utility model, the first above-mentioned housing also has a pair of alar part, deviates from the first recess extend from the relative both sides of shielding portion.Connector is assembled to memory module by this to alar part.

In an exemplary embodiment of the present utility model, above-mentioned body has the first protuberance, is positioned at the first recess.The first protuberance is connected between shielding portion and memory module.The first protuberance has the second recess corresponding to the first recess, and the first end of terminal is positioned at the second recess.

In an exemplary embodiment of the present utility model, the first above-mentioned housing also has shell fragment, and storage device also comprises the second housing.The part of memory module and connector is placed in the second housing, and shell fragment is connected to the second housing.

In an exemplary embodiment of the present utility model, above-mentioned body also has the second protuberance, deviates from shielding portion and extends and be connected to the side of memory module.

In an exemplary embodiment of the present utility model, above-mentioned the first housing and the second housing are respectively conducting metal shell.

In an exemplary embodiment of the present utility model, above-mentioned body comprises first component and second component.Contiguous the first recess of first component.Terminal is arranged in first component.The local sleeve of first component is connected in second component.The second end of each terminal passes and is exposed to second component.

In an exemplary embodiment of the present utility model, above-mentioned first component has the 3rd protuberance extending away from first end, with the second clamping part being arranged on the 3rd protuberance.Second component has hollow bulb, multiple fluting and is positioned at the first clamping part of the relative both sides of hollow bulb.The 3rd protuberance is assembled to hollow bulb and the first clamping part and the mutual buckle of the second clamping part, and with in conjunction with first component and second component, and the second end of each terminal is through hollow bulb and expose second component from each fluting of correspondence.

In an exemplary embodiment of the present utility model, the part of the second end of above-mentioned terminal and the part of second component, the first housing forms the second connecting interface.

In an exemplary embodiment of the present utility model, above-mentioned the second connecting interface meets micro-USB specification of (micro universal serial bus is called for short Micro-USB).

In an exemplary embodiment of the present utility model, above-mentioned the first connecting interface meets USB 2.0(USB2.0) specification.

In an exemplary embodiment of the present utility model, above-mentioned the first connecting interface meets USB 3.0(USB3.0) specification.

Based on above-mentioned, in above-mentioned exemplary embodiment of the present utility model, connector is by its first recess and shielding portion, thereby allows the first end that is arranged on intrinsic terminal in being electrically connected memory module, also can be because being positioned at the first indent covering of portion that be masked.In other words, by the first shielding portion that housing provides and first notch configuration of connector, and effectively protect the terminal in it, avoid because this place's structure shakiness is easily in use because being damaged by external force.

For above-mentioned feature and advantage of the present utility model can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.

Brief description of the drawings

Fig. 1 is the schematic diagram of the storage device of the utility model one exemplary embodiment;

Fig. 2 illustrates the partial component schematic diagram of Fig. 1 storage device with another visual angle;

Fig. 3 illustrates the schematic diagram of the storage device of another exemplary embodiment of the utility model;

Fig. 4 and Fig. 5 illustrate respectively memory module and the connector schematic diagram of Fig. 1 storage device with different visual angles;

Fig. 6 to Fig. 8 illustrates that respectively connector is at decomposing schematic representation in various degree.

Description of reference numerals:

100: storage device;

110: memory module;

112: connection pad;

120: connector;

122: body;

122a: the first protuberance;

122b: the second protuberance;

122c: first component;

122d: second component;

122e: fluting;

122f: the first clamping part;

122g: the second clamping part;

122k, 124e: hollow bulb;

122h: the 3rd protuberance;

124: the first housings;

124a: the first recess;

124b: shielding portion;

124c: alar part;

124d: shell fragment;

126: terminal;

130: the second housings;

A1: the second recess;

E1: first end;

E2: the second end;

S1: surface;

S2: side;

T1, T1A: the first connecting interface;

T2: the second connecting interface.

Embodiment

Fig. 1 is the schematic diagram of the storage device of the utility model one exemplary embodiment.Fig. 2 illustrates the partial component schematic diagram of Fig. 1 storage device with another visual angle.Please also refer to Fig. 1 and Fig. 2, in this exemplary embodiment, storage device 100 is for example portable disk, it comprises memory module 110 connected to one another and connector 120, wherein memory module 110 is for example associated electronic components (all not shown at this) to be packaged together with adhesive body by system in package (System In Package is called for short SIP) technology.Connector 120 comprises that body 122, the first housing 124 and the multiple terminal 126(that are arranged in body 122 only indicate one as representative at this), one side is electrically connected memory module 110 by terminal 126, and makes its opposite side be able to the connecting interface as memory module 110 and other electronic installations are electrically connected and signal transmits.In the present embodiment, memory module 110 has the first connecting interface T1, and it is formed by multiple terminals that expose, and meets USB 2.0(USB2.0) specification.Separately, the connector 120 of the present embodiment forms the second connecting interface T2, and meet micro-USB (micro universal serial bus, be called for short Micro-USB) specification, via the interlock circuit of memory module and element and be electrically connected to the first connecting interface T1, but the utility model is not as limit.

Fig. 3 illustrates the schematic diagram of the storage device of another exemplary embodiment of the utility model.Please refer to Fig. 3, different from above-mentioned exemplary embodiment, the first connecting interface T1A that memory module 110 has meets USB 3.0(USB3.0) specification.Based on above-mentioned, designer can be arranged on different connecting interfaces on storage device 100 of the present utility model according to user demand.

Fig. 4 and Fig. 5 illustrate respectively memory module and the connector schematic diagram of Fig. 1 storage device with different visual angles.Please also refer to Fig. 1, Fig. 2 and Fig. 4, Fig. 5, in this exemplary embodiment, the material of body 122 is for example plastics, and described terminal 126 is configured in body 122, and the first end E1 of each terminal 126 protrudes from body 122 and is electrically connected to memory module 110.Moreover the material of the first housing 124 is for example metal, it is coated on outside body 122.It should be noted that, the first housing 124 has the first recess 124a(region as shown in broken lines in FIG.) and shielding portion 124b, the first end E1 of wherein said terminal 126 is all positioned at the first recess 124a place, thereby in Fig. 1, shielding portion 124b covers the first recess 124a and makes the first end E1 of terminal 126 between shielding portion 124b and memory module 110.

In other words, can obviously learn from the contrast of Fig. 1, Fig. 2 and Fig. 4, Fig. 5, in the storage device 100 of this exemplary embodiment, the first housing 124 of connector 120 is by the architectural feature of its first recess 124a, and body 122 there is extend to the first protuberance 122a at the first recess 124a place, and be present in the second recess A1 in the first protuberance 122a, wherein the first protuberance 122a is positioned at the first recess 124a place, and is connected on the surperficial S1 of memory module 110.Relatively, the first protuberance 122a is configured on the first protuberance 122a with the shielding portion 124b of the first housing 124 at the opposite side away from memory module 110, thereby the first protuberance 122a is abutted against in fact between shielding portion 124b and the surperficial S1 of memory module 110.Moreover the second recess A1 is corresponding to above-mentioned the first recess 124a, and allow the first end E1 of each terminal 126 can be arranged in the second recess A1 and the connection pad 112(that is electrically connected accordingly the surperficial S1 that is positioned at memory module 110 only indicates one as representative at this).

In addition, the first housing 124 also has a pair of alar part 124c, and its relative both sides from shielding portion 124b deviate from the first recess 124a extends (deviating from equally the second recess A1 extends).When body 122 be socketed on the first housing 124 interior after, connector 120 is able to by this, alar part 124c is assembled on the surperficial S1 of memory module 110.Do not limit above-mentioned assembling mode at this, be that described alar part 124c can lock, stickup or welding manner and connector 120 is fixed in memory module 110 yet.

Based on above-mentioned, the first recess 124a feature producing by the first housing 124, and allow the first protuberance 122a of body 122 be positioned at the first recess 124a place and as connector 120 structure with memory module 110 mutual butts.Be assembled to memory module 110 once connector 120 with the alar part 124c of the first housing 124, just can form memory module 110, the first protuberance 122a and shielding portion 124b three sandwich, therefore the structural strength can effectively improve connector 120 and be bonded to memory module 110 time.Moreover shielding portion 124b can cover the second recess A1 that is firmly arranged in the first protuberance 122a simultaneously, and is arranged in the first end E1 of the terminal 126 of the second recess A1, therefore also can provide the effect of the first end E1 of protection terminal 126.

Refer again to Fig. 1, storage device 100 also comprises the second housing 130, and the first housing 124 of connector 120 also has shell fragment 124d, at this by shown in broken lines the second housing 130 and be convenient to the corresponding relation between identification itself and connector 120.In this exemplary embodiment, the material of the second housing 130 and the first housing 124 is metal or has conductivity, the first housing and the second housing are respectively conducting metal shell, above-mentioned shell fragment 124d is along deviating from body 122(towards the second housing 130) direction extend, so in the time that memory module 110 and connector 120 1 enter the second housing 130 on the same group, the inner surface that shell fragment 124d just can butt to the second housing 130.Accordingly, decapacitation is by shell fragment 124d structurally outside the use as fixed memory module 110, connector 120 and the second housing 130, the more important thing is between the first housing 124 and the second housing 130 and can electrically conduct by shell fragment 124d butt, and reach according to this static discharge (electrostatic discharge, be called for short ESD) effect, may occur because static cause the situation of damaging with other electronic installations of effectively avoiding the electronic component in memory module 110 or dock with storage device 100.

Refer again to Fig. 2 and Fig. 4, in this exemplary embodiment, the body 122 of connector 120 also has the second protuberance 122b, and it deviates from shielding portion 124b extension, and the second protuberance 122b is in fact perpendicular to the first protuberance 122a.As shown in Figure 2, in the time that connector 120 is connected to the surperficial S1 of memory module 110 with the first protuberance 122a of body 122, body 122 also can be connected to its second protuberance 122b the side S2 of memory module 110, reach three-dimensional integrated structure by the first protuberance 122a and the second protuberance 122b, improve combination and the constant intensity between memory module 110 and make connector 120 be able to different directions (as shown in two heavy line arrows in Fig. 2).

Fig. 6 to Fig. 8 illustrates that respectively connector is at decomposing schematic representation in various degree.Please also refer to Fig. 6 to Fig. 8, in this exemplary embodiment, the first housing 124 can be regarded as having the Coupling of hollow bulb 124e, so that body 122 can be socketed in the hollow bulb 124e of the first housing 124.Moreover, body 122 can also be divided into first component 122c and second component 122d further, wherein terminal 126 is to be for example arranged in first component 122c with shoot mode in mould, to allow the first end E1 of terminal 126 be positioned at the second recess A1 place of the first protuberance 122a.

Moreover second component 122d has the first clamping part 122f, hollow bulb 122k and multiple fluting 122e, and first component 122c has the second clamping part 122g, is arranged on the 3rd protuberance 122h away from the first protuberance 122a.Accordingly, be embedded in hollow bulb 122k to reach the object in conjunction with first component 122c and second component 122d by the 3rd protuberance 122h, and be for example hole clipping with the first clamping part 122f() with the second clamping part 122g(be for example trip) mutual fastening and successfully first component 122c and second component 122d are fixed together.Thus, the second end E2 of terminal 126 just can expose second component 122d(as shown in Figure 7 from corresponding fluting 122e through hollow bulb 122k) so that the part of the second end E2 of terminal 126 and the part of second component 122d, the first housing 124 forms the second above-mentioned connecting interface T2.Therefore, in follow-up assembling process, just can by the first component 122c after combination and second component 122d group enters the first housing 124 within, and allow first component 122c be adjacent to the first recess 124a place of the first housing 124.

In sum; in above-described embodiment of the present utility model; the first recess and the shielding portion feature of the first housing by connector; can be positioned at the protection of covering of the first indent the portion that is masked when allowing the first end of terminal be electrically connected to memory module; the first protuberance of body also can be connected between shielding portion and memory module, is to be in fact resisted against in memory module with body construction and make connector.In the time that the alar part of the first housing is bonded in memory module, the first protuberance just can be clamped between shielding portion and memory module, and sandwich can effectively improve the structural strength between connector and memory module by this.Moreover, the first housing and second housing of storage device all have conductivity, thereby enter after the second housing when memory module and connector group, the inwall that the shell fragment on the first housing can butt to the second housing, thereby allow the first housing and the second housing electrically conduct, to reach the effect of static discharge.

Finally it should be noted that: above each embodiment, only in order to the technical solution of the utility model to be described, is not intended to limit; Although the utility model is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of the each embodiment technical scheme of the utility model.

Claims (20)

1. a connector, is applicable to a storage device, it is characterized in that, this storage device has a memory module, and this connector comprises:

One body;

Multiple terminals, are configured in this body, and respectively a first end of this terminal protrudes from this body and is electrically connected this memory module; And

One first housing, be coated on this body, this first housing has one first recess and a shielding portion, and the first end of those terminals is positioned at this first recess, and this first recess of this shielding part shields make the first end of those terminals between this shielding portion and this memory module.

2. connector according to claim 1, is characterized in that, this first housing also has a pair of alar part, deviates from this first recess extend from the relative both sides of this shielding portion, and this connector is assembled to this memory module by this to alar part.

3. connector according to claim 1, it is characterized in that, this body has one first protuberance, be positioned at this first recess, this first protuberance is connected between this shielding portion and this memory module, this first protuberance has one second recess to should the first recess, and the first end of those terminals is positioned at this second recess.

4. connector according to claim 1, it is characterized in that, this first housing also has a shell fragment, and this storage device also comprises one second housing, the part of this memory module and this connector is placed in this second housing, and this shell fragment is connected to this second housing.

5. connector according to claim 1, is characterized in that, this body also has one second protuberance, deviates from this shielding portion and extend and be connected to a side of this memory module.

6. connector according to claim 4, is characterized in that, this first housing and this second housing are respectively conducting metal shell.

7. connector according to claim 1, is characterized in that, this body comprises:

One first component, contiguous this first recess, those terminals are arranged in this first component; And

One second component, the local sleeve of this first component is connected in this second component, and respectively one second end of this terminal passes this second component and exposes from this second component.

8. connector according to claim 7, it is characterized in that, this first component has one the 3rd protuberance extending away from the first end of those terminals, with one second clamping part being arranged on the 3rd protuberance, and this second component has a hollow bulb, multiple flutings and the first clamping part that is positioned at these relative both sides of hollow bulb, the 3rd protuberance is assembled to this hollow bulb and this first clamping part and the mutual buckle of this second clamping part, with in conjunction with this first component and this second component, and respectively this second end of this terminal exposes this second component through this hollow bulb from respectively this fluting of correspondence.

9. a storage device, is characterized in that, comprising:

One memory module, has one first connecting interface;

A connector, comprising:

One body;

Multiple terminals, are configured in this body, and respectively a first end of this terminal protrudes from this body and is electrically connected this memory module; And

One first housing, be coated on this body, this first housing has one first recess and a shielding portion, and the first end of those terminals is positioned at this first recess, and this first recess of this shielding part shields make the first end of those terminals between this shielding portion and this memory module.

10. storage device according to claim 9, is characterized in that, this first housing also has a pair of alar part, deviates from this first recess extend from the relative both sides of this shielding portion, and this connector is assembled to this memory module by this to alar part.

11. storage devices according to claim 9, it is characterized in that, this body has one first protuberance, be positioned at this first recess, this first protuberance is connected between this shielding portion and this memory module, this first protuberance has one second recess to should the first recess, and the first end of those terminals is positioned at this second recess.

12. storage devices according to claim 9, it is characterized in that, this first housing also has a shell fragment, and this storage device also comprises one second housing, the part of this memory module and this connector is placed in this second housing, and this shell fragment is connected to this second housing.

13. storage devices according to claim 9, is characterized in that, this body also has one second protuberance, deviate from this shielding portion and extend and be connected to a side of this memory module.

14. storage devices according to claim 12, is characterized in that, this first housing and this second housing are respectively conducting metal shell.

15. storage devices according to claim 9, is characterized in that, this body comprises:

One first component, contiguous this first recess, those terminals are arranged in this first component; And

One second component, the local sleeve of this first component is connected in this second component, and respectively one second end of this terminal passes this second component and exposes from this second component.

16. storage devices according to claim 15, it is characterized in that, this first component has one the 3rd protuberance extending away from the first end of those terminals, with one second clamping part being arranged on the 3rd protuberance, and this second component has a hollow bulb, multiple flutings and the first clamping part that is positioned at these relative both sides of hollow bulb, the 3rd protuberance is assembled to this hollow bulb and this first clamping part and the mutual buckle of this second clamping part, with in conjunction with this first component and this second component, and respectively this second end of this terminal exposes this second component through this hollow bulb from respectively this fluting of correspondence.

17. storage devices according to claim 15, is characterized in that, the part of the second end of those terminals and the part of this second component, this first housing forms one second connecting interface.

18. storage devices according to claim 17, is characterized in that, this second connecting interface meets the specification of micro-USB.

19. storage devices according to claim 9, is characterized in that, this first connecting interface meets the specification of USB 2.0.

20. storage devices according to claim 9, is characterized in that, this first connecting interface meets the specification of USB 3.0.