CN217562955U - Connector and solid state disk - Google Patents

Abstract

The application provides a connector and a solid state disk. Foretell connector includes the splice holder, the joint subassembly, coupling assembling and joint retaining member, the joint subassembly includes first cover union piece and first joint spare, first cover union piece is connected in the splice holder, first joint spare is connected in first cover union piece, the splice holder protrusion is in the lateral surface of first cover union piece, first joint spare protrusion is in the lateral surface of first cover union piece, wherein first cover union piece is used for cup jointing the mainboard, and the splice holder is used for establishing respectively in the relative both sides of mainboard and is used for restricting the position of mainboard with first joint spare. The connecting assembly is connected to the connecting main body, the connecting main body protrudes out of the connecting assembly, and the connecting assembly is used for being sleeved with the solid state disk. Joint retaining member joint in coupling assembling, joint retaining member and connecting body locate the relative both sides of solid state hard disk respectively and are used for restricting the position of solid state hard disk. The solid state disk is not required to be mounted or dismounted by means of an auxiliary tool, and convenience of fixing the solid state disk by the connector is improved.

Description

Connector and solid state disk

Technical Field

The utility model relates to an electronic component mounting structure's technical field especially relates to a connector and solid state hard drives.

Background

The m.2 interface is used for connecting the solid state disk and the motherboard, and is gradually and widely applied to computers because the m.2 interface has higher transmission performance. When the solid state disk is installed for the solid state disk matched with the M.2 interface, firstly, the inserting end of the solid state disk is inserted into the M.2 interface, and then the other end of the solid state disk is fixed on the mainboard through a screw, so that the solid state disk is prevented from tilting; when the solid state disk is disassembled, firstly, the screws are screwed out of the mainboard, and then the solid state disk is pulled out of the M.2 interface. However, the screws need to be screwed by means of an auxiliary tool during installation and disassembly, so that the solid state disk is poor in disassembly and assembly convenience.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a make higher connector of solid state hard's dismouting convenience and solid state hard.

The purpose of the utility model is realized through the following technical scheme:

a connector, comprising:

a connecting body;

the clamping assembly comprises a first sleeving part and a first clamping part, the first sleeving part is connected to the connecting main body, the first clamping part is connected to the first sleeving part, the connecting main body protrudes out of the outer side face of the first sleeving part, and the first clamping part protrudes out of the outer side face of the first sleeving part; the first sleeving part is used for sleeving a mainboard, and the connecting main body and the first clamping part are respectively arranged on two opposite sides of the mainboard and used for limiting the position of the mainboard;

the connecting assembly is connected to the connecting main body, the connecting main body protrudes out of the connecting assembly, and the connecting assembly is used for being sleeved with the solid state disk; and

joint retaining member, the joint in coupling assembling, the joint retaining member with connecting body locates respectively the relative both sides of solid state hard disk are used for the restriction the position of solid state hard disk.

In one embodiment, the size of the first clamping piece protruding from the first sleeving piece is 0.25 cm.

In one embodiment, the connecting assembly comprises a second sleeving piece and a second clamping piece which are connected, the second sleeving piece is connected to the connecting body, and the second sleeving piece is used for sleeving the solid state disk; the joint retaining member joint in the second joint spare.

In one embodiment, the second clamping piece is provided with a clamping groove; the joint retaining member is formed with the connecting hole, protruding locking joint portion of establishing in the connecting hole, locking joint portion joint in the joint inslot.

In one embodiment, the side of the locking clip part facing away from the connecting body and the wall of the clip groove facing away from the connecting body are oppositely arranged, and the included angle between the side of the locking clip part facing away from the connecting body and the wall of the clip groove facing away from the connecting body is [30 degrees, 90 degrees ].

In one embodiment, the outer side of the clamping locking piece is provided with a protruding structure.

In one embodiment, a detaching groove is formed on the outer side of the clamping locking piece, and the detaching groove extends to the protruding structure.

In one embodiment, the distance between the connecting body and the snap lock is less than 5 mm.

In one embodiment, the connector further comprises anti-dropping connecting pieces, and the anti-dropping connecting pieces are respectively connected to the connecting main body and the clamping locking pieces.

A solid state disk comprises the connector in any one of the above embodiments.

Compared with the prior art, the utility model discloses at least, following advantage has:

foretell connector, after solid state hard drives pegs graft in the M.2 interface, the joint subassembly of connector inserts in the connect the via hole of mainboard to make first set of union piece be used for cup jointing with the mainboard, and first joint spare is located the relative both sides of mainboard with the connecting body respectively, with the position of restriction mainboard, and then has realized the joint of joint subassembly and mainboard. In addition, still cup joint the coupling assembling and the solid state hard drives of connector, then with joint retaining member joint in coupling assembling, so that joint retaining member and connection mainboard are located the relative both sides of solid state hard drives respectively, and then make joint retaining member and connecting subject be used for the position of restriction solid state hard drives jointly, and then make solid state hard drives fix on the mainboard, the position stability after the solid state hard drives are pegged graft to the M.2 interface has been avoided, stability when carrying out data transmission with the mainboard in order to ensure solid state hard drives. When dismantling solid state hard drives, extract the joint retaining member from coupling assembling, still extract the joint subassembly from the mainboard. So, after the connector installation solid state hard drives through this application, solid state hard drives's installation and dismantlement all need not with the help of appurtenance, have improved the convenience of the fixed solid state hard drives of connector, and then have improved solid state hard drives's installation effectiveness.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a connector according to an embodiment;

FIG. 2 is a state view of the connector shown in FIG. 1 in use;

fig. 3 is an enlarged schematic view of a connector shown in fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application provides a connector, the connector includes the splice body, the joint subassembly, coupling assembling and joint retaining member, wherein, the joint subassembly includes first set of union piece and first joint spare, first set of union piece is connected in the splice body, first joint spare is connected in first set of union piece, the splice body protrusion is in the lateral surface of first set of union piece, first joint spare protrusion is in the lateral surface of first set of union piece, wherein first set of union piece is used for cup jointing the mainboard, and the splice body is used for establishing respectively with first joint spare in the relative both sides of mainboard and is used for restricting the position of mainboard. The connecting assembly is connected to the connecting main body, the connecting main body protrudes out of the connecting assembly, and the connecting assembly is used for being sleeved with the solid state disk. Joint retaining member joint in coupling assembling, joint retaining member and connecting body locate the relative both sides of solid state hard disk respectively and are used for restricting solid state hard disk's position.

Foretell connector, after solid state hard drives pegs graft in the M.2 interface, the joint subassembly of connector inserts in the connect the via hole of mainboard to make first set of union piece be used for cup jointing with the mainboard, and first joint spare is located the relative both sides of mainboard with the connecting body respectively, with the position of restriction mainboard, and then has realized the joint of joint subassembly and mainboard. In addition, still cup joint the coupling assembling and the solid state hard disk of connector, then with joint retaining member joint in coupling assembling, so that the joint retaining member is located the both sides that solid state hard disk is relative respectively with connecting the mainboard, and then make joint retaining member and connecting subject be used for restricting solid state hard disk's position jointly, and then make solid state hard disk fix on the mainboard, the position stability after having avoided solid state hard disk to plug in the M.2 interface, stability when carrying out data transmission with the mainboard in order to ensure solid state hard disk. When dismantling solid state hard drives, extract the joint retaining member from coupling assembling, still extract the joint subassembly from the mainboard. So, after the solid state hard drives were installed to the connector through this application, the installation and the dismantlement of solid state hard drives all need not with the help of appurtenance, have improved the convenience of the fixed solid state hard drives of connector, and then have improved the installation effectiveness of solid state hard drives.

In order to better understand the technical scheme and the beneficial effects of the present application, the following detailed description is further provided in conjunction with specific embodiments:

as shown in fig. 1 and 2, one embodiment of connector 10 includes a connecting body 100, a latch assembly 200, a connecting assembly 300, and a latch lock 400. The clamping assembly 200 is used for clamping with the main board 20, specifically, the clamping assembly 200 includes a first sleeving piece 210 and a first clamping piece 220, the first sleeving piece 210 is connected to the connecting body 100, the first clamping piece 220 is connected to the first sleeving piece 210, the connecting body 100 protrudes out of the outer side surface of the first sleeving piece 210, and the first clamping piece 220 protrudes out of the outer side surface of the first sleeving piece 210; the first sleeve 210 is used to sleeve the motherboard 20, and the connecting body 100 and the first clip 220 are respectively used to be disposed on two opposite sides of the motherboard 20 and to limit the position of the motherboard 20, so that the motherboard 20 is clipped to the clip assembly 200. The connecting assembly 300 is connected to the connecting main body 100, the connecting main body 100 protrudes out of the connecting assembly 300, and the connecting assembly 300 is used for being sleeved with the solid state disk 30; clamping locking piece 400 is clamped in connecting assembly 300, so that clamping locking piece 400 and connecting body 100 are respectively arranged on two opposite sides of solid state disk 30, and clamping locking piece 400 and connecting body 100 are jointly used for limiting the position of solid state disk 30, so that connector 10 is connected with solid state disk 30, and solid state disk 30 is fixed on main board 20 after being inserted into an m.2 interface.

As shown in fig. 2, in the present embodiment, the clip assembly 200 includes a first sleeve 210 and a first clip 220, a first end of the first sleeve 210 is connected to a first end of the connecting body 100, and a first end of the first clip 220 is connected to a second end of the first sleeve 210. The first end of the coupling assembly 300 is coupled to the second end of the coupling body 100, and the snap lock 400 is snapped into the second end of the coupling assembly 300.

In the connector 10, after the solid state disk 30 is inserted into the m.2 interface, the clamping component 200 of the connector 10 is inserted into the connection through hole of the motherboard 20, so that the first sleeving part 210 is used for sleeving the motherboard 20, and the first clamping part 220 and the connecting main body 100 are respectively located at two opposite sides of the motherboard 20, so as to limit the position of the motherboard 20, thereby realizing the clamping of the clamping component 200 and the motherboard 20. In addition, still cup joint coupling assembling 300 and the solid state disk 30 of connector 10, then with joint retaining member 400 joint in coupling assembling 300, so that joint retaining member 400 is located the relative both sides of solid state disk 30 with connecting mainboard 20 respectively, and then make joint retaining member 400 and connecting main body 100 be used for restricting the position of solid state disk 30 jointly, and then make solid state disk 30 fix on mainboard 20, the positional stability after solid state disk 30 plug-in connects the M.2 interface has been avoided, stability when ensureing that solid state disk 30 and mainboard 20 carry out data transmission. When solid state disk 30 is removed, snap lock 400 is pulled out of connection assembly 300, and snap assembly 200 is also pulled out of motherboard 20. So, after the solid state hard disk 30 is installed through the connector 10 of this application, the installation and the dismantlement of solid state hard disk 30 all need not with the help of appurtenance, have improved the convenience of the fixed solid state hard disk 30 of connector 10, and then have improved the installation effectiveness of solid state hard disk 30.

As shown in fig. 2, in one embodiment, the size of the first clamping member 220 protruding from the first sleeving member 210 is 0.25 cm, that is, the maximum distance between the outer side surface of the first clamping member 220 and the outer side surface of the first sleeving member 210 is 0.25 cm, so that the first clamping member 220 blocks the movement of the main board 20 after the main board 20 is sleeved on the first sleeving member 210. In this embodiment, since the first clamping member 220 protrudes from the first sleeving member 210 by 0.25 cm, the first clamping member 220 has enough strength to block the movement of the main board 20, so that the limiting effect of the first clamping member 220 is improved, and the connection strength between the clamping assembly 200 and the main board 20 is further improved. In addition, since the size of the first clamping member 220 protruding from the first sleeving member 210 is 0.25 cm, the first clamping member 220 is prevented from shielding the element or the installation position on the motherboard 20, and the motherboard 20 can be ensured to normally work after the solid state disk 30 is installed.

As shown in fig. 2, in one embodiment, the connecting assembly 300 includes a second connecting member 310 and a second clamping member 320, the second connecting member 310 is connected to the connecting body 100, and the second connecting member 310 is used for being sleeved with the solid state disk 30; the latch locker 400 is latched to the second latch 320. In this embodiment, the first end of the second sleeve 310 is connected to the second end of the connecting body 100, and the first end of the second clamping member 320 is connected to the second end of the second sleeve 310. The second sleeving part 310 is used for sleeving with the solid state disk 30, and the clamping locking part 400 is clamped at the second end of the second clamping part 320, so that the clamping locking part 400 and the connecting body 100 are used together for limiting the movement of the solid state disk 30, that is, the connector 10 is connected with the solid state disk 30. Moreover, as the first sleeve 210 is sleeved with the solid state disk 30, the first sleeve 210 limits the solid state disk 30 to move along the radial direction of the first sleeve 210, and as the connecting body 100 and the clamping locking member 400 are respectively located at two opposite sides of the solid state disk 30, the connecting body 100 and the clamping locking member 400 jointly limit the solid state disk 30 to move along the axial direction of the first sleeve 210, so that the position stability of the solid state disk 30 is improved.

As shown in fig. 2, in one embodiment, the second latch 320 has a latch groove 321, the latch locking member 400 has a connecting hole 401, a latch locking portion 410 is protruded into the connecting hole 401, and the latch locking portion 410 is latched in the latch groove 321. In this embodiment, the locking clamping portion 410 of the clamping locking member 400 is located in the clamping groove 321 of the first clamping member 220, and the locking clamping portion 410 of the clamping locking member 400 abuts against the groove wall of the clamping groove 321, so that the clamping of the clamping locking member 400 and the first clamping member 220 is realized.

As shown in fig. 2 and 3, in one embodiment, a side surface of the locking latching portion 410 away from the connecting body 100 is opposite to a groove wall of the latching groove 321 away from the connecting body 100, and an included angle a between the side surface of the locking latching portion 410 away from the connecting body 100 and the groove wall of the latching groove 321 away from the connecting body 100 is [30 °,90 °), i.e., a is greater than or equal to 30 °, and a is smaller than 90 °. In this embodiment, the side that locking joint portion 410 deviates from connecting body 100 is first spacing face 411, the cell wall that joint groove 321 deviates from connecting body 100 is the spacing face 3211 of second, first spacing face 411 sets up with the spacing face 3211 of second relatively, and the angle more than or equal to 30 of first spacing face 411 and the spacing face 3211 of second, and the clamp of first spacing face 411 and the spacing face 3211 of second is tightly less than 90, make the resistance that joint retaining member 400 received when extracting in second joint spare 320 less, the degree of difficulty of extracting joint retaining member 400 has been reduced, and then the degree of difficulty of dismantling solid state hard disk 30 has been reduced. In one embodiment, the side of the locking latch 410 facing away from the connecting body 100 is at an angle of 45 ° to the wall of the latch slot 321 facing away from the connecting body 100.

As shown in fig. 2, in one embodiment, a protrusion 420 is disposed on an outer side of the snap-fit locking member 400, so as to grip the snap-fit locking member 400, prevent slipping when gripping the snap-fit locking member 400, improve convenience of assembling and disassembling the snap-fit locking member 400, and improve convenience of assembling and disassembling the solid state disk 30 with a tab.

In one embodiment, as shown in fig. 2, the outer side of snap lock 400 is formed with a removal notch, and the removal notch extends to protrusion 420. In this embodiment, the outside of joint retaining member 400 is formed with dismantlement recess, has increased the area of the surface of joint retaining member 400, has improved the area of contact of user with joint retaining member 400 for the user more easily grasps joint retaining member 400, and then has improved the convenience of dismouting solid state hard disk 30. Because the disassembly groove extends to the protruding structure 420, a user can stretch into the disassembly groove and contact with the protruding structure 420, so that the contact area between the user and the clamping locking piece 400 is larger, and the convenience for disassembling and assembling the clamping locking piece 400 is further improved.

As shown in FIG. 2, in one embodiment, the distance between connecting body 100 and snap lock 400 is less than 5 mm, i.e., the length of second ferrule 310 is less than 5 mm. In this embodiment, the connecting body 100 forms an installation space of the solid state disk 30 between the clamping locking members 400, the solid state disk 30 is located in the installation space and is sleeved with the second sleeving member 310, and since the distance between the connecting body 100 and the clamping locking members 400 is less than 5 mm, the installation space is adapted to the solid state disk 30, so as to ensure that the solid state disk 30 is stably located in the installation space and is sleeved with the second sleeving member 310, that is, to ensure that the clamping locking members 400 and the connecting body 100 can limit the solid state disk 30 in the installation space.

As shown in FIG. 2, in one embodiment, connector 10 further includes a drop-resistant connector 500, where drop-resistant connector 500 is connected to connecting body 100 and snap lock 400, respectively. Because the volume of joint retaining member 400 is less for joint retaining member 400 is lost more easily, consequently, in this embodiment, the both ends of preventing falling connecting piece 500 are connected with spacing connecting piece and joint retaining member 400 respectively, and after joint retaining member 400 was extracted in coupling assembling 300, joint retaining member 400 was connected with connecting body 100 through preventing falling connecting piece 500, has avoided the problem that joint retaining member 400 lost.

The present application further provides a solid state drive 30 comprising a connector 10 according to any of the above embodiments.

As shown in fig. 1 and 2, connector 10 further includes a connecting body 100, a latch assembly 200, a connecting assembly 300, and a latch lock 400. The clamping assembly 200 is used for clamping with the main board 20, specifically, the clamping assembly 200 includes a first sleeving member 210 and a first clamping member 220, the first sleeving member 210 is connected to the connecting main body 100, the first clamping member 220 is connected to the first sleeving member 210, the connecting main body 100 protrudes out of the outer side surface of the first sleeving member 210, and the first clamping member 220 protrudes out of the outer side surface of the first sleeving member 210; the first sleeve 210 is used to sleeve the motherboard 20, and the connecting body 100 and the first clip 220 are respectively used to be disposed on two opposite sides of the motherboard 20 and to limit the position of the motherboard 20, so that the motherboard 20 is clipped to the clip assembly 200. The connecting assembly 300 is connected to the connecting main body 100, the connecting main body 100 protrudes out of the connecting assembly 300, and the connecting assembly 300 is used for being sleeved with the solid state disk 30; the clamping locking member 400 is clamped to the connecting assembly 300, so that the clamping locking member 400 and the connecting main body 100 are respectively arranged on two opposite sides of the solid state disk 30, and the clamping locking member 400 and the connecting main body 100 are used for limiting the position of the solid state disk 30 together, so that the connector 10 is connected with the solid state disk 30, and the solid state disk 30 is further fixed on the main board 20 after being inserted into the m.2 interface.

As shown in fig. 2, in the present embodiment, the clip assembly 200 includes a first sleeve 210 and a first clip 220, a first end of the first sleeve 210 is connected to a first end of the connecting body 100, and a first end of the first clip 220 is connected to a second end of the first sleeve 210. The first end of the coupling assembly 300 is coupled to the second end of the coupling body 100, and the snap lock 400 is snapped into the second end of the coupling assembly 300.

In the connector 10, after the solid state disk 30 is inserted into the m.2 interface, the clamping component 200 of the connector 10 is inserted into the connection through hole of the motherboard 20, so that the first sleeving part 210 is used for sleeving the motherboard 20, and the first clamping part 220 and the connecting main body 100 are respectively located at two opposite sides of the motherboard 20, so as to limit the position of the motherboard 20, thereby realizing the clamping of the clamping component 200 and the motherboard 20. In addition, still cup joint coupling assembling 300 and the solid state disk 30 of connector 10, then with joint retaining member 400 joint in coupling assembling 300, so that joint retaining member 400 is located the relative both sides of solid state disk 30 respectively with connecting mainboard 20, and then make joint retaining member 400 and connecting main part 100 be used for restricting the position of solid state disk 30 jointly, and then make solid state disk 30 fix on mainboard 20, the positional stability after the solid state disk 30 plug-in connects the M.2 interface has been avoided, stability when ensureing that solid state disk 30 carries out data transmission with mainboard 20. When solid state disk 30 is removed, snap lock 400 is pulled out of connection assembly 300, and snap assembly 200 is also pulled out of motherboard 20. So, after the solid state hard disk 30 is installed through the connector 10 of this application, the installation and the dismantlement of solid state hard disk 30 all need not with the help of appurtenance, have improved the convenience of the fixed solid state hard disk 30 of connector 10, and then have improved the installation effectiveness of solid state hard disk 30.

Compared with the prior art, the utility model discloses at least, following advantage has:

in the connector 10, after the solid state disk 30 is inserted into the m.2 interface, the clamping component 200 of the connector 10 is inserted into the connection through hole of the motherboard 20, so that the first sleeving part 210 is used for sleeving the motherboard 20, and the first clamping part 220 and the connecting main body 100 are respectively located at two opposite sides of the motherboard 20, so as to limit the position of the motherboard 20, thereby realizing the clamping of the clamping component 200 and the motherboard 20. In addition, still cup joint coupling assembling 300 and the solid state disk 30 of connector 10, then with joint retaining member 400 joint in coupling assembling 300, so that joint retaining member 400 is located the relative both sides of solid state disk 30 respectively with connecting mainboard 20, and then make joint retaining member 400 and connecting main part 100 be used for restricting the position of solid state disk 30 jointly, and then make solid state disk 30 fix on mainboard 20, the positional stability after the solid state disk 30 plug-in connects the M.2 interface has been avoided, stability when ensureing that solid state disk 30 carries out data transmission with mainboard 20. When the solid state disk 30 is detached, the snap lock 400 is pulled out of the connection assembly 300, and the snap assembly 200 is also pulled out of the main board 20. So, after the solid state hard disk 30 is installed through the connector 10 of this application, the installation and the dismantlement of solid state hard disk 30 all need not with the help of appurtenance, have improved the convenience of the fixed solid state hard disk 30 of connector 10, and then have improved the installation effectiveness of solid state hard disk 30.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A connector, comprising:

a connecting body;

the clamping assembly comprises a first sleeving part and a first clamping part, the first sleeving part is connected to the connecting main body, the first clamping part is connected to the first sleeving part, the connecting main body protrudes out of the outer side face of the first sleeving part, and the first clamping part protrudes out of the outer side face of the first sleeving part; the first sleeving part is used for sleeving a mainboard, and the connecting main body and the first clamping part are respectively arranged on two opposite sides of the mainboard and used for limiting the position of the mainboard;

the connecting assembly is connected with the connecting main body, the connecting main body protrudes out of the connecting assembly, and the connecting assembly is used for being sleeved with the solid state disk; and

joint retaining member, the joint in coupling assembling, the joint retaining member with connecting body locates respectively the relative both sides of solid state hard drive are used for the restriction solid state hard drive's position.

2. The connector of claim 1, wherein the first snap member protrudes from the first mating member by a dimension of 0.25 cm.

3. The connector according to claim 1, wherein the connecting assembly comprises a second sleeving piece and a second clamping piece which are connected with each other, the second sleeving piece is connected to the connecting body, and the second sleeving piece is used for sleeving the solid state disk; the joint retaining member joint in the second joint spare.

4. The connector according to claim 3, wherein the second engaging member is provided with an engaging groove; the joint retaining member is formed with the connecting hole, protruding locking joint portion of establishing in the connecting hole, locking joint portion joint in the joint inslot.

5. The connector of claim 4, wherein a side of the locking clip portion facing away from the connecting body is opposite to a groove wall of the clip groove facing away from the connecting body, and an included angle between the side of the locking clip portion facing away from the connecting body and the groove wall of the clip groove facing away from the connecting body is [30 °,90 °).

6. The connector of claim 1, wherein the snap lock is provided with a projection on the outside.

7. The connector of claim 6, wherein a removal recess is formed in an outer side of the snap lock, and the removal recess extends to the protruding structure.

8. A connector according to claim 1, wherein the distance between the connecting body and the snap lock is less than 5 mm.

9. The connector of claim 1, further comprising anti-drop connectors connected to the connecting body and the snap locking member, respectively.

10. A solid state disk comprising a connector as claimed in any one of claims 1 to 9.

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