CN213026768U - New forms of energy storage is with easy plug connector - Google Patents

Abstract

The utility model relates to a new forms of energy storage is with easy plug connector, its field that relates to the connector structure, its include socket mechanism and with the plug mechanism that socket mechanism connects, socket mechanism includes the socket interior casing, set up in first grafting unit in the socket interior casing, plug mechanism include with the socket interior casing can dismantle the plug interior casing of connection, be used for strengthening the plug interior casing with the clamping component of socket interior casing connection, set up in the plug interior casing and can with the second grafting unit of first grafting unit cooperation circular telegram, set up in the plug interior casing external and be used for locking clamping component's locking subassembly, clamping component set up in the plug interior casing. The present application has the effect of reducing the possibility of a connection position offset of the socket and the plug.

Description

New forms of energy storage is with easy plug connector

Technical Field

The application relates to the field of connector structures, in particular to an easy-to-plug connector for new energy storage.

Background

The new energy generally refers to renewable energy developed and utilized on the basis of new technology, including solar energy, biomass energy, wind energy, geothermal energy, wave energy, ocean current energy, tidal energy and the like, and with the continuous development of new energy industries such as new energy automobiles and the like, the energy storage requirement of the new energy is increased day by day.

The signal terminal of the connector on the market can adopt modes such as threaded connection, soldering connection and plug connection to realize the connection of plug and socket, and the plug connection mode is a connection form that has the multipurpose, and common plug is connected with two kinds of structures of ball or pin.

The above prior art solutions have the following drawbacks: although the socket and the plug can be connected in a plug-in connection manner, once the connection position of the socket and the plug is deviated, the plug and the socket are difficult to separate, and the socket and the plug are tightly connected through threaded connection and soldering connection, but the plug and the socket are difficult to separate, so that a user is inconvenient to perform power on and off treatment on the electrically-connectable plug-in unit in the connector.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility of the deviation of the connection position of the socket and the plug, the application provides an easy-plugging connector for new energy storage.

The application provides a new forms of energy storage adopts following technical scheme with easy plug connector:

the utility model provides a new forms of energy storage is with easy plug connector, including socket organization and with the plug mechanism that socket organization connects, socket organization includes the socket interior casing, set up in first grafting unit in the socket interior casing, plug mechanism include with the socket interior casing can dismantle the plug interior casing of connection, be used for strengthening the plug interior casing with the clamping component of socket interior casing connection, set up in the plug interior casing and can with the second grafting unit of first grafting unit cooperation circular telegram, set up in the plug interior casing external and be used for locking clamping component's locking component, clamping component set up in the plug interior casing.

Through adopting above-mentioned technical scheme, the user only need press from both sides tightly with the interior casing of plug and socket through clamping component, again through locking component with clamping component carry out the injecing of position to reduce the possibility of the hookup location skew of socket and plug, convenient to use person is connected socket mechanism and plug mechanism.

The utility model discloses further set up to: the socket inner shell is provided with a clamping groove along the circumferential direction of the inner wall of the socket inner shell, the clamping assembly comprises a first driving sleeve and a plurality of first clamping blocks, the first driving sleeve is connected with the first clamping blocks in the plug inner shell in a sliding mode, the first clamping blocks are driven by the first driving sleeve to be close to or far away from the clamping groove, the side walls of the first clamping blocks can abut against the side walls of the socket inner shell, and the first clamping blocks can be clamped in the clamping groove.

Through adopting above-mentioned technical scheme, first drive sleeve drive first clamp piece to being close to the removal of the interior shell direction of socket for thereby first clamp piece can joint make in pressing from both sides tight recess in the plug interior shell and the socket interior shell tentatively press from both sides tightly.

The utility model discloses further set up to: the clamping assembly comprises a track block body and a plurality of first connecting rods, wherein the track block body is fixedly installed in the plug inner shell and located between the first driving sleeve and the first clamping blocks, the first connecting rods penetrate through the track block body in a sliding mode, each first connecting rod is close to one end of the first driving sleeve and fixedly connected with the first driving sleeve, one end, far away from the first driving sleeve, of each first connecting rod is hinged to one driving rod, one end, far away from the first connecting rod, of each first driving rod is hinged to one first clamping block, and when the first driving sleeve abuts against the track block body, the first clamping blocks are clamped in the clamping grooves.

Through adopting above-mentioned technical scheme, the head rod slides and runs through the track block, thereby make the slip direction of the first tight piece of clamp carry out the injecing of position, when first drive sleeve slides to being close to track block direction, first drive sleeve drive head rod slides to being close to the interior shell direction of socket, the head rod drives the head rod syntropy and slides, it begins to follow the socket interior shell to press from both sides tight piece as first, the first tight piece of clamp of head rod drive slides along the interior shell radial direction of socket, when first drive sleeve supports and leans on in track block lateral wall, but first tight piece joint is in pressing from both sides tight recess.

The utility model discloses further set up to: the socket mechanism further comprises a socket outer shell arranged outside the socket inner shell, the plug mechanism further comprises a plug outer shell arranged outside the plug inner shell, the socket outer shell is close to one end of the plug outer shell, a connecting groove is formed in one end of the plug outer shell, the plug outer shell is fixedly connected with a connecting block which can be clamped in the connecting groove, and when the connecting block is clamped in the connecting groove, the socket outer shell is in butt joint with the outer wall of the plug outer shell.

Through adopting above-mentioned technical scheme, the casing body can be protected in casing and the plug in the socket respectively with the plug shell body, and the connecting block joint is in connecting groove to it is inseparabler to make the casing body be connected with the plug shell body.

The utility model discloses further set up to: locking Assembly includes two fixed connection in first locking block on the plug shell body, two first locking block is followed plug shell body axis direction sets gradually, fixedly connected with first sleeve driving block on the first driving sleeve, first sleeve driving block slides in proper order and runs through plug inner shell lateral wall with plug outer shell lateral wall, first sleeve driving block sets up in two between the first locking block body and can follow plug outer shell body axis direction slides, each first locking block body all can with first sleeve driving block can dismantle the connection, works as first sleeve driving block support and lean on in being close to socket inner shell body one side when on the first locking block, first driving sleeve support in track block lateral wall.

Through adopting above-mentioned technical scheme, follow as first sleeve drive piece when plug shell body axis direction slides until leaning on in the first locking block body that is close to socket inner shell body one side, the user fixes this first locking block body and first sleeve drive piece to locking first drive sleeve motion, first drive sleeve this moment supports and leans on the track block, and then with the first tight piece joint of clamp of a plurality of in pressing from both sides tight recess, strengthened socket mechanism and plug mechanism's joint strength.

The utility model discloses further set up to: the clamping assembly further comprises a second driving sleeve, a plurality of second clamping blocks and a plurality of first clamping blocks, wherein the second driving sleeve and the plurality of second clamping blocks are slidably connected in the plug inner shell and driven by the second driving sleeve to move along the direction close to or away from the second clamping blocks, the second clamping blocks can be connected in the clamping grooves, the second driving sleeve is sleeved with a sliding sleeve outside the first driving sleeve, the first sleeve driving blocks slide and penetrate through the second driving sleeve side wall, and when the second clamping blocks are connected in the clamping grooves, the second clamping blocks and the plurality of first clamping blocks are connected in a butt joint mode to form a circular ring.

Through adopting above-mentioned technical scheme, a plurality of second presss from both sides tight piece and the butt joint of a plurality of first clamp piece forms a ring joint in pressing from both sides tight recess, has further improved socket mechanism and plug mechanism's joint strength.

The utility model discloses further set up to: each first clamping block and each second clamping block are made of elastic materials.

By adopting the technical scheme, the first clamping block and the second clamping block are connected more tightly after being butted by adopting the elastic material, so that the influence of the external environment on the first inserting unit and the second inserting unit is reduced, and the socket mechanism is more tightly connected with the plug mechanism.

The utility model discloses further set up to: locking Assembly still include two fixed connection in second locking block, fixed connection in on the plug housing body the second drives second sleeve on the sleeve and drives the piece, two second locking block is followed plug housing body axis direction sets gradually, second sleeve drives the piece set up in two between the second locking block and can follow plug housing body axis direction slides, each second locking block all can with second sleeve drives the piece and can dismantle the connection, works as second sleeve drives the piece and supports to lean on in being close to shell one side in the socket during on the second locking block, the second drive sleeve support lean on in on the track block.

Through adopting above-mentioned technical scheme, when the second sleeve drives the piece and slides along plug outer casing body axis direction until leaning on when leaning on in the second locking block that is close to socket inner casing body one side, the user drives this second locking block and second sleeve and drives the piece and be connected to drive the sleeve motion to the second and lock, the second drives the sleeve this moment and supports and lean on in track block lateral wall, and then presss from both sides tight piece joint with a plurality of second in pressing from both sides tight recess, has strengthened socket mechanism and plug mechanism's joint strength.

The utility model discloses further set up to: the socket shell body outer wall fixed connection has the elasticity lug, plug shell body outer wall fixed connection has the fixed block, set up the lug recess of one on the fixed block, work as the elasticity lug is close to fixed block one end joint in when in the lug recess, first grafting unit with the grafting of second grafting unit.

Through adopting above-mentioned technical scheme, can be inseparabler with being connected between socket shell body and the outer shell of plug outer shell through elastic projection and lug recess.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the user only needs to clamp the plug inner shell and the socket inner shell through the clamping assembly, and then the clamping assembly is limited in position through the locking assembly, so that the user can conveniently connect the socket mechanism and the plug mechanism.

2. The first clamping block and the second clamping block are clamped in the clamping groove to form a complete ring, so that the plug inner shell and the socket inner shell are connected more tightly after being butted.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a sectional view taken along line a-a of fig. 1.

Fig. 3 is a partially enlarged view of a in fig. 1.

Fig. 4 is a partially enlarged view of B in fig. 2.

Fig. 5 is an exploded view of the plug mechanism in this embodiment.

Fig. 6 is a partially enlarged view of C in fig. 2.

Description of reference numerals: 1. a socket mechanism; 11. a socket inner housing; 111. clamping the groove; 12. a first plug-in unit; 121. a first signal terminal; 13. a socket outer housing; 131. a connecting groove; 132. an elastic bump; 2. a plug mechanism; 21. a plug inner housing; 22. a clamping assembly; 221. a first driving sleeve; 2211. a first drive rack; 2212. a first stopper; 222. a first connecting rod; 223. a first driving lever; 224. a first clamping block; 225. a track block; 226. a second driving sleeve; 2261. the second driving rack; 2262. a second limiting block; 227. a second connecting rod; 228. a second driving lever; 229. a second clamping block; 23. a second plug-in unit; 231. a second signal terminal; 24. a locking assembly; 241. a first locking block; 242. the first sleeve drives the block; 243. the second sleeve drives the block; 244. a second locking block; 25. a plug outer housing; 251. connecting blocks; 254. a fixed block; 2541. and the bump is recessed.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses new forms of energy storage is with easy plug connector. Referring to fig. 1 and 2, an easy-to-plug connector for new energy storage includes a socket mechanism 1 and a plug mechanism 2 connected with the socket mechanism 1, where the socket mechanism 1 includes a socket outer shell 13, a socket inner shell 11 fixedly installed in the socket outer shell 13 and a first plugging unit 12 fixedly installed in the socket inner shell 11, the plug mechanism 2 includes a plug outer shell 25 detachably connected with the socket outer shell 13, a plug inner shell 21 fixedly installed in the plug outer shell 25, a second plugging unit 23 arranged in the plug inner shell 21 and electrically connected with the first plugging unit 12, a clamping component 22 arranged inside the plug inner shell 21 and used for enhancing connection between the socket mechanism 1 and the plug mechanism 2, and a locking component 24 arranged on a side wall of the plug outer shell 25 and used for locking the clamping component 22.

Referring to fig. 3, socket shell body 13 has welded two elastic convex blocks 132 along its outer wall circumference in proper order, two elastic convex blocks 132 are formed by the processing of silica gel material, each elastic convex block 132 is kept away from socket shell body 13 one side and all is provided with a fixed block 254, two sets of fixed blocks 254 all weld on the outer wall of plug shell body 25, each fixed block 254 is close to plug shell body 25 one side and sets up the lug recess 2541 who communicates with it, but each elastic convex block 132 passes through the elastic deformation joint of its self in corresponding lug recess 2541, thereby make the connection of plug shell body 25 and socket shell body 13 inseparabler.

Referring to fig. 4, a connection groove 131 which is annular and is communicated with the outside is formed in one end, close to the plug outer shell 25, of the socket outer shell 13 along the circumferential direction of the plug outer shell 25, an annular connection block 251 is integrally formed in one end, close to the socket outer shell 13, of the plug outer shell 25, and the connection block 251 can be connected in the connection groove 131 in a clamping mode, so that the plug outer shell 25 and the socket outer shell 13 can be connected preliminarily.

Referring to fig. 5, the clamping assembly 22 includes a second driving sleeve 226 disposed inside the plug inner housing 21, a first driving sleeve 221 disposed inside the second driving sleeve 226 and slidably connected to the second driving sleeve 226, a plurality of first clamping blocks 224 driven by the first driving sleeve 221 to slide, and a plurality of second clamping blocks 229 driven by the second driving sleeve 226 to slide, two sets of first driving racks 2211 are sequentially welded to the first driving sleeve 221 along the outer wall circumference thereof, the length direction of each first driving rack 2211 is consistent with the axial direction of the first driving sleeve 221, two sets of second driving racks 2261 are welded to the second driving sleeve 226 along the inner wall circumference thereof, the length direction of each second driving rack 2261 is consistent with the axial direction of the second driving sleeve 226, each first driving rack 2211 can be respectively engaged with one second driving rack 2261 for transmission, so that the inertia of the first driving sleeve 221 and the second driving sleeve 226 when sliding relatively is smaller, the speed is easy to control.

Referring to fig. 5 and 6, the inner wall of the plug housing 25 is welded with a track block 225 in a pie shape, the track block 225 is disposed on one side of the second driving sleeve 226 close to the socket housing 13, the second driving sleeve 226 is fixedly sleeved with a second stopper 2262 on one side close to the track block 225, the second stopper 2262 and the second driving sleeve 226 are integrally formed, the first driving sleeve 221 is fixedly sleeved with a first stopper 2212 on one side close to the track block 225, and the first stopper 2212 and the first driving sleeve 221 are integrally formed. The second clamping blocks 229 and the first clamping blocks 224 are disposed outside the plug outer housing 25, a first driving rod 223 is hinged to one end of each first clamping block 224 close to the track block 225, a first connecting rod 222 is hinged to one end of each first driving rod 223 far away from the first clamping block 224, each first connecting rod 222 penetrates through the track block 225 in a sliding manner, one end of each first connecting rod 222 far away from the first driving rod 223 is welded to the first driving sleeve 221, the axial direction of each first connecting rod 222 is perpendicular to the plane of the track block 225, and the first connecting rods 222 are circumferentially disposed at equal intervals along the track block 225. One end of each second clamping block 229, which is close to the track block 225, is hinged to a second driving rod 228, one end of each second driving rod 228, which is far from the second clamping block 229, is hinged to a second connecting rod 227, each second connecting rod 227 slidably penetrates through the track block 225, one end of each second connecting rod 227, which is far from the second driving rod 228, is welded to the second driving sleeve 226, the axial direction of each second connecting rod 227 is perpendicular to the plane where the track block 225 is located, the plurality of second connecting rods 227 are circumferentially arranged at equal intervals along the track block 225, the plurality of second connecting rods 227 are staggered with the plurality of first connecting rods 222, that is, one first connecting rod 227 is arranged between every two adjacent second connecting rods 227, and the distance between every first connecting rod 227 and the two adjacent second connecting rods 227 is equal.

Referring to fig. 5 and 6, the locking assembly 24 includes a first locking block 241 and a second locking block 244 welded to the outer wall of the first plug outer housing 25, a first sleeve driving block 242 welded to the outer wall of the first driving sleeve 221, a second sleeve driving block 243 welded to the outer wall of the second driving sleeve 226, the second sleeve driving block 243 sequentially penetrates through the side walls of the plug inner housing 21 and the plug outer housing 25, the second sleeve driving block 243 relatively slides along the axial direction of the plug inner housing 21 and the plug outer housing 25, the first sleeve driving block 242 sequentially penetrates through the side walls of the second driving sleeve 226, the plug inner housing 21 and the plug outer housing 25, and the first sleeve driving block 242 relatively slides along the axial direction of the second driving sleeve 226, the plug inner housing 21 and the plug outer housing 25. First locking block body 241 and second locking block body 244 set up in plug outer shell 25 outer wall circumference symmetry, and first locking block body 241 and second locking block body 244 all are provided with two along the socket outer shell 25 axis direction, combine fig. 1, first sleeve drive piece 242 slides between two first locking block bodies 241, each first locking block body 241 all can drive piece 242 fixed connection through bolt and first sleeve, thereby realize the injecing of the position of first drive sleeve 221. The second sleeve driving block 243 slides between the two second locking block bodies 244, and each second locking block body 244 is fixedly connected with the second sleeve driving block 243 through a bolt, so that the position of the second driving sleeve 226 is limited.

Referring to fig. 5 and 6, the inner wall of the socket inner housing 11 is circumferentially provided with a clamping groove 111 in the form of a circular truncated cone, the diameter of one end of the circular truncated cone close to the plug inner housing 21 is smaller than the diameter of the other end of the circular truncated cone far from the plug inner housing 21, when the second driving sleeve 226 slides in the direction close to the track block 225, the second connecting rod 227 is driven to slide in the direction close to the socket inner housing 11, when a plurality of second clamping blocks 229 slide in the direction close to the clamping groove 111, the second driving rod 228 respectively drives the corresponding second clamping blocks 229 to move in the radial direction far from the center of the socket inner housing 11, and when the second limiting blocks 2262 abut against the side walls of the track block 225, the second clamping blocks 229 are clamped in the clamping groove 111, thereby achieving the initial connection between the plug inner housing.

Referring to fig. 5 and 6, the second plug-in unit 23 is fixedly mounted in the first driving sleeve 221, when the first driving sleeve 221 slides toward the track block 225, the first connecting rod 222 is driven to slide toward the socket inner housing 11, when the plurality of first clamping blocks 224 slide to be close to the clamping grooves 111, the first driving rods 223 respectively drive the corresponding first clamping blocks 224 to move along the radial direction of the socket inner housing 11 towards the direction away from the center thereof, the plurality of first clamping blocks 224 slide between the adjacent second clamping blocks 229, when the first stop block 2212 abuts against the side wall of the track block 225, the plurality of first clamping blocks 224 are clamped in the clamping groove 111, the plurality of first clamping blocks 224 and the second clamping blocks 229 are butted to form a complete circular ring, and at this time, the second signal terminal 231 in the second plug-in unit 23 is plugged and matched with the first signal terminal 121 of the first plug-in unit 12 for power on.

Referring to fig. 5 and 6, in order to make the connection between the first clamping block 224 and the second clamping block 229 more tight, each of the first clamping block 224 and the second clamping block 229 is made of a silicone material, so that the first clamping block 224 and the second clamping block 229 can be connected more tightly by elastic deformation when they are butted.

The implementation principle of the easy-to-plug connector for new energy storage in the embodiment of the application is as follows: before the socket mechanism 1 is connected with the plug mechanism 2, the first sleeve driving block 242 is fixedly connected with the first locking block 241 far away from one side of the socket outer shell 13 through a bolt, the second sleeve driving block 243 is fixedly connected with the second locking block 244 far away from one side of the socket outer shell 13 through a bolt, so that the relative fixation between the plug outer shell 25 and the first driving sleeve 221 and the second driving sleeve 226 is realized, when the socket mechanism 1 is connected with the plug mechanism 2, a user firstly clamps the connecting block 251 in the connecting groove 131 to realize the primary connection between the socket outer shell 13 and the plug outer shell 25, then clamps the elastic lug 132 in the lug groove 2541 to realize the further connection between the socket outer shell 13 and the plug outer shell 25, and then unloads the first sleeve driving block 242 and the bolt of the first locking block 241 far away from one side of the socket outer shell 13, the second sleeve driving block 243 slides along the axis of the plug outer shell 25 towards the direction close to the second locking block 244, when the second limit block 2262 abuts against the side wall of the track block 225, the second clamping block 229 is clamped in the clamping groove 111, so as to realize the primary connection between the plug inner shell 21 and the socket inner shell 11, the user then fixedly connects the second sleeve driving block 243 to the second locking block 244 close to one side of the socket outer shell 13 through the bolt, so as to realize that the second clamping block 229 is more stably arranged in the clamping groove 111, then the user unloads the first sleeve driving block 242 and the bolt of the first locking block 241 far away from one side of the socket outer shell 13, when the first limit block 2212 abuts against the side wall of the track block 225, the plurality of first clamping blocks 224 are clamped in the clamping groove 111, the plurality of first clamping blocks 224 are butted with the second clamping block 229 to form a complete ring, at this time, the second plug unit 23 is plugged and matched with the first plug unit 12 to be powered on, and then the user fixedly connects the first sleeve driving block 242 to the first locking block 241 near one side of the socket outer housing 13 through the bolt, so that the second plug unit 23 is connected with the first plug unit more stably. When the first plug unit 12 and the second plug unit 23 need to be powered off, the user can operate the two units in the opposite directions.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a new forms of energy storage is with easy plug connector which characterized in that: including socket mechanism (1) and with plug mechanism (2) that socket mechanism (1) is connected, socket mechanism (1) including socket interior casing (11), set up in first grafting unit (12) in socket interior casing (11), plug mechanism (2) include with socket interior casing (11) can dismantle the plug of connection in casing (21), be used for strengthening in the plug interior casing (21) with clamping component (22) that socket interior casing (11) are connected, set up in plug interior casing (21) and can with second grafting unit (23) that first grafting unit (12) cooperation circular telegram, set up in plug interior casing (21) outside and be used for locking component (24) of clamping component (22), clamping component (22) set up in plug interior casing (21).

2. The easy-to-plug connector for new energy storage according to claim 1, characterized in that: the socket inner casing (11) has been seted up one along its inner wall circumference and has been pressed from both sides tight recess (111), clamping unit (22) including sliding connection in first drive sleeve (221), a plurality of in plug inner casing (21) receive first drive sleeve (221) drive and to being close to or keeping away from press from both sides the gliding first tight piece (224) of clamp recess (111) direction, each it can support by in to press from both sides tight piece (224) lateral wall in socket inner casing (11), first tight piece (224) of clamp can joint in press from both sides tight recess (111).

3. The easy-to-plug connector for new energy storage according to claim 2, characterized in that: the clamping assembly (22) comprises a track block body (225) which is fixedly installed in the plug inner shell (21) and is positioned between the first driving sleeve (221) and the first clamping block (224), and a plurality of first connecting rods (222) which slidably penetrate through the track block body (225), one end, close to the first driving sleeve (221), of each first connecting rod (222) is fixedly connected with the first driving sleeve (221), one end, far away from the first driving sleeve (221), of each first connecting rod (222) is hinged with a first driving rod (223), one end, far away from the first connecting rod (222), of each first driving rod (223) is hinged with one first clamping block (224), when the first driving sleeve (221) abuts against the track block (225), the first clamping blocks (224) are clamped in the clamping grooves (111).

4. The easy-to-plug connector for new energy storage according to claim 3, wherein: socket mechanism (1) still including set up in the outer socket shell body (13) of casing (11) in the socket, plug mechanism (2) still including set up in the outer plug shell body (25) of casing (21) in the plug, socket shell body (13) are close to a connecting groove (131) have been seted up to plug shell body (25) one end, but fixedly connected with joint in connecting block (251) in connecting groove (131) are gone up in plug shell body (25), work as connecting block (251) joint in when connecting groove (131) are interior, socket shell body (13) with the butt joint of plug shell body (25) outer wall.

5. The easy-to-plug connector for new energy storage according to claim 4, wherein: the locking assembly (24) comprises two first locking block bodies (241) fixedly connected to the plug outer shell (25), the two first locking block bodies (241) are sequentially arranged along the axis direction of the plug outer shell (25), a first sleeve driving block (242) is fixedly connected to the first driving sleeve (221), the first sleeve driving block (242) sequentially penetrates through the side wall of the plug inner shell (21) and the side wall of the plug outer shell (25) in a sliding manner, the first sleeve driving block (242) is arranged between the two first locking block bodies (241) and can slide along the axis direction of the plug outer shell (25), each first locking block body (241) can be detachably connected with the first sleeve driving block (242), when the first sleeve driving block (242) abuts against the first locking block body (241) close to one side of the socket inner shell (11), the first driving sleeve (221) abuts against the side wall of the track block (225).

6. The easy-to-plug connector for new energy storage according to claim 5, wherein: the clamping assembly (22) further comprises a second driving sleeve (226) which is slidably connected into the plug inner shell (21), and a plurality of second clamping blocks (229) which are driven by the second driving sleeve (226) and move along the direction close to or far away from the socket inner shell (11), wherein the second clamping blocks (229) can be clamped into the clamping grooves (111), the second driving sleeve (226) is slidably sleeved outside the first driving sleeve (221), the first sleeve driving block (242) slidably penetrates through the side walls of the second driving sleeve (226), and when the second clamping blocks (229) are clamped into the clamping grooves (111), the second clamping blocks (229) are in butt joint with the first clamping blocks (224) to form a circular ring.

7. The easy-to-plug connector for new energy storage according to claim 6, wherein: each of the first clamping block (224) and the second clamping block (229) is an elastic material.

8. The easy-to-plug connector for new energy storage according to claim 7, wherein: the locking assembly (24) further comprises two second locking block bodies (244) fixedly connected to the plug outer shell (25) and a second sleeve driving block (243) fixedly connected to the second driving sleeve (226), the two second locking block bodies (244) are sequentially arranged along the axial direction of the plug outer shell (25), the second sleeve driving block (243) is arranged between the two second locking blocks (244) and can slide along the axial direction of the plug outer shell (25), each second locking block (244) can be detachably connected with the second sleeve driving block (243), when the second sleeve driving block (243) abuts against the second locking block (244) near one side of the socket inner housing (11), the second driving sleeve (226) abuts against the track block (225).

9. The easy-to-plug connector for new energy storage according to claim 8, wherein: socket shell body (13) outer wall fixed connection has elastic lug (132), plug shell body (25) outer wall fixed connection has fixed block (254), set up lug recess (2541) of one on fixed block (254), work as elastic lug (132) are close to fixed block (254) one end joint in when in lug recess (2541), first grafting unit (12) with second grafting unit (23) are pegged graft.

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