CN205485904U - Battery management system's handle lever auto -lock structure - Google Patents

Abstract

The utility model relates to a battery management system's handle lever auto -lock structure, battery management system can insert with deviating from and establish in the redundancy power supply module, is equipped with between battery management system and the redundancy power supply module to be used for the first auto -lock structure at plug orientation to male battery management system. Be equipped with the appearance chamber that supplies the battery management system plug in the redundancy power supply module, battery management system includes and holds the cell ontology that the chamber corresponds. First auto -lock structure includes at the first locking lever that holds the intracavity setting and through the rotatable first in command who installs on cell ontology of first pivot. It ends a complex maintain the body with first locking lever card to be equipped with the first fore shaft that keeps the first in command between the cell ontology and the first in command. The first in command and the unblock of redundancy power supply module before battery management system inserts, after battery management system insert the installation arrived the redundancy power supply module, the first in command ended the cooperation with first locking lever card, with the battery management system location, adoption thick stick rod -type structure, simple and practical.

Description

The handle lever self-locking structure of battery management system

Technical field

This utility model relates to battery management system, more particularly, it relates to the handle of a kind of battery management system Hands lever self-locking structure.

Background technology

Battery management system in correlation technique is generally independently arranged with redundant power module, and utilize locking part Use traditional locking mode to install respectively, reduce dismounting efficiency, be unfavorable for Fast-Maintenance.At clothes When business device or IT system generation power down, if can not safeguard in time, there is the risk of lost data.

Utility model content

The technical problems to be solved in the utility model is, it is provided that the handle of the battery management system of a kind of improvement Lever self-locking structure.

This utility model solves its technical problem and be the technical scheme is that structure one structure battery management The handle lever self-locking structure of system, described battery management system can be plugged in redundant power module with deviating from In, it is provided with between described battery management system and described redundant power module for the described cell tube inserted The first self-locking structure that reason system positions in plug orientation；

Described redundant power module is provided with the cavity volume for the plug of described battery management system, described battery management System includes the battery body corresponding with described cavity volume；

Described first self-locking structure is included in interior the first locking bar arranged of described cavity volume and by the first rotating shaft May be rotatably mounted at the first in command on described battery body, the described first in command is positioned at and the opening of described cavity volume The side that mouth position is corresponding；

The described first in command includes the first fore shaft and the first operating portion laying respectively at described first rotating shaft both sides； Described first fore shaft is driven around described first rotating shaft in primary importance and the second position by described first operating portion Between rotate, in described primary importance, described first fore shaft unclamps with described first locking bar and coordinates；

In the described second position, described first fore shaft coordinates with described first locking bar locking；

The described first in command of holding it is provided with at described second between described battery body and the described first in command The first maintaining body put.

Preferably, described first locking bar is arranged on the aperture position of described cavity volume.

Preferably, described first fore shaft takes the shape of the letter U or C-shaped or V-arrangement.

Preferably, described first maintaining body include bouncing back ground protruding be arranged on described battery body the One plays pin, and the described first in command is provided with and plays pin corresponding matching to be maintained at the of the second position with described first One lockhole；And/or,

Described first maintaining body includes protruding the second bullet pin being arranged on the described first in command in ground that can bounce back, The described first in command is provided with and plays pin corresponding matching to keep the described first in command described the with described second Second lockhole of two positions.

Preferably, described first operating portion is provided with and makes after play pin, the second bullet pin retraction by described first The handle hole that the described first in command can rotate to described primary importance.

Preferably, offer elastic force is provided between described battery body and the described first in command and keeps the described first Hands turns to the resetting means of described primary importance.

Preferably, described resetting means includes torsion spring.

Preferably, being provided with two first locking bars in described cavity volume, described battery management system includes being arranged on institute State two first in command on the side that battery body is corresponding with cavity volume opening, and two described first in command First fore shaft, first locking bar described with two is the most corresponding.

Preferably, two described first in command are symmetricly set on the side that described battery body is corresponding with cavity volume opening On face, two described first locking bars lay respectively at the opening two opposite sides of described cavity volume, two described first The rotation direction of hands is contrary.

Preferably, the inner of described battery body is provided with and limits turning to when described battery management unit inserts First fool proof groove；

Described first fool proof groove is stretched out along plug orientation by the inner end face edge of described battery body, institute The lobe being raised in medial surface with described first fool proof groove corresponding matching it is provided with in stating cavity volume.

Implement the handle lever self-locking structure of battery management system of the present utility model, there is following useful effect Really: the handle lever self-locking structure of battery management system of the present utility model can guarantee that and inserts at battery management system Ensure before entering that the first in command and redundant power module unlock, insert at battery management system and be installed to redundant power After module, the first in command is sealed with the first locking bar and is maintained at the second position, by the position of battery management system Location, uses lever-type structure, simple and practical.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the redundant power module and first of the integrated battery management system in this utility model embodiment Perspective view when handle is positioned at the second position, the second in command is positioned at four positions；

Fig. 2 is that the battery management system in Fig. 1 is positioned at first by redundant power module abjection and the first in command Position, decomposition texture schematic diagram time the second in command is positioned at three positions；

Enlarged diagram when Fig. 3 is that in Fig. 2, battery management system is deviate from by redundant power module；

Fig. 4 is close-up schematic view when being positioned at four positions of the second in command in Fig. 1；

Fig. 5 is close-up schematic view when being positioned at three positions of the second in command in Fig. 2.

Detailed description of the invention

In order to technical characteristic of the present utility model, purpose and effect are more clearly understood from, now compare attached Figure describes detailed description of the invention of the present utility model in detail.

As shown in Figure 1 and Figure 2, the redundant power module 10 in one preferred embodiment of this utility model collects Becoming to have battery management system 20, battery management system 20 can be plugged in redundant power module 10 with deviating from, Redundant power module 10 plugs in server or other IT system.Redundant power module 10 is provided with confession The cavity volume 11 of battery management system 20 plug, battery management system 20 includes and cavity volume 11 corresponding matching Battery body 21.Redundant power module 10 includes that power supply body 12, cavity volume 11 are formed at power supply body 12 On, and the opening of cavity volume 11 is positioned at the side adjacent with the inner, can after redundant power module 10 inserts Battery management system 20 is hidden in inside.In other embodiments, the opening of cavity volume 11 may be alternatively located at it His side.

Battery management system 20 includes the plug assembly 22 held that sets within it, and plug assembly 22 is arranged on On the inner of battery body 21.Redundant power module 10 uses pluggable mode to carry out installing, removing, redundancy Power module 10 includes being arranged on its connecting element 13 inserting end and being arranged on redundant power module 10 The interior plug socket with plug assembly 22 corresponding matching.Connecting element 13 includes the be electrically connected with plug socket One Plug Division 131 and second Plug Division 132 corresponding with redundant power module 10.

After battery management system 20 is inserted into redundant power module 10, plug assembly 22 and the first grafting Portion 131 grafting conducting.When redundant power module 10 is plugged into server or IT system, the first Plug Division 131, the second Plug Division 132 turns on server or IT system simultaneously, provides for server or IT system Stand-by power supply.

Server or other IT system are generally inserted with two or more redundant power modules 10, due to electricity Pond management system 20 has certain index of aging, needs often to be replaced, safeguard, uses the side of plug Formula achieves server or other IT system are exempted to shut down, exempt to dismantle and just can extract one of them redundant power mould Block 10 system carries out safeguarding, changing；Meanwhile, the stability of redundant power module 10, Ke Yigeng are also improved Ensure well the safety of data when voltage input instability or power down, when there is power down, battery management system System 20 can be with adapter system major function continuous service a period of time of Seamless linkage, it is ensured that data safety.

In certain embodiments, plug assembly 22 includes that plugboard, socket are usually slot, is arranged on appearance In chamber 11.After battery management system 20 is inserted into redundant power module 10, it is ensured that the stability of connection. Connecting element 13 includes the grafting mainboard of protruding setting, and mainboard is fixedly mounted on power supply body 12, First the 131, second Plug Division 132, Plug Division is formed on mainboard side by side, can make the first Plug Division 131, Second Plug Division 132 can synchronize to plug, it is ensured that stability.In other embodiments, connecting element 13 wraps Including pedestal, the 131, second Plug Division 132, the first Plug Division is independently arranged, and is outwards disposed side by side on pedestal Stretch out setting.

As shown in Figure 1, Figure 3, further, for location positioning after making battery management system 20 insert, It is provided with between battery management system 20 and redundant power module 10 for the battery management system 20 inserted At the first self-locking structure of plug orientation location, prevent plug assembly 22 bad with female contact.

The first locking bar 14 that first self-locking structure is arranged in being included in cavity volume 11 and can by the first rotating shaft The first in command 23 being rotatably installed on battery body 21, the first in command 23 is positioned at and the opening of cavity volume 11 The side that position is corresponding, it is ensured that the rotation space of the first in command 23, the most user-friendly.

The first in command 23 includes the first fore shaft 231 and the first operation laying respectively at described first rotating shaft both sides Portion；Described first fore shaft 231 is driven around described first rotating shaft in primary importance and the by described first operating portion Rotate between two positions.Before battery management system 20 inserts cavity volume 11, the first in command 23 in primary importance, First fore shaft 231 unclamps with the first locking bar 14 and coordinates, and can deviate from along the abjection direction of battery management system 20, Battery management system 20 can be made to extract out from cavity volume 11, meanwhile, first locking bar the 14, first fore shaft 231 Cooperation also for battery management system 20 insertion before position.

When battery management system 20 is inserted in cavity volume 11, the first in command 23 is around the first rotating shaft and the first lock Bar 14 turns to the second position, and the first fore shaft 231 coordinates, with the first locking bar with the first locking bar 14 locking 14 misplace on the abjection direction of battery management system 20, prevent battery management system 20 from deviating from.At electricity During pond management system 20 is inserted into cavity volume 11, the first in command 23 rotates, and the first fore shaft 231 with First locking bar 14 keeps engaging, makes the first in command 23 with the first locking bar 14 as fulcrum, works as cell tube After reason system 20 is fully-inserted, the first in command 23 turns to second position horizontally set, with the first locking bar 14 dislocation.

Further, in order to the battery management system 20 after inserting is positioned, battery body 21 and the first The first maintaining body keeping the first in command 23 in the second position it is provided with between hands 23, the first in command's 23 Position maintains, and the first fore shaft 231 and the first locking bar 14 just can allow battery in extraction direction dislocation The position of management system 20 is fixed, and prevents battery management system 20 from deviating from.

First locking bar 14 is arranged on the aperture position of cavity volume 11, it is simple to observe the first fore shaft 231 and the first lock The cooperation of bar 14.First fore shaft 231 takes the shape of the letter U, and both can guarantee that and the abjection of the first locking bar 14, first Handle 23 can make again the first fore shaft 231 and the first locking bar 14 misplace in the extraction direction after rotating, and prevents electricity Pond management system 20 is deviate from.In other embodiments, the first fore shaft 231 also can C-shaped or V-arrangement.

Being provided with two first locking bars 14 in cavity volume 11, battery management system 20 includes being arranged on battery body Two first in command 23 on 21 sides corresponding with cavity volume 11 opening, and the of two first in command 23 One fore shaft 231 is the most corresponding with two the first locking bars 14, and battery management system 20 position can be made more steady Fixed.Corresponding, each first in command 23 is equipped with the first maintaining body of correspondence.

For the ease of install and as far as possible reduction take up room, two first in command 23 are symmetricly set on battery On the side that body 21 is corresponding with cavity volume 11 opening, two first locking bars 14 lay respectively at opening of cavity volume 11 Mouth two opposite sides, the rotation direction of two first in command 23 is contrary.

The inner of battery body 21 is provided with the first fool proof groove turned to limited when battery management unit inserts 211, battery management system 20 can be allowed to turn to insertion by correct.First fool proof groove 211 is by battery body The inner end face edge of 21 stretches out along plug orientation, is provided with and is raised in medial surface and first in cavity volume 11 The lobe of fool proof groove 211 corresponding matching, when turning to incorrect, lobe is then blocked less than the first fool proof groove In 211, battery management system 20 is the most also inserted not in place.

First maintaining body includes protruding the first bullet pin 241 being arranged on battery body 21 in ground that can bounce back, The first in command 23 is provided with and plays pin 241 corresponding matching to be maintained at the first lockhole of the second position with first 232.During the first in command 23 turns to the second position, compress the first bullet pin 241 and bounce back, work as rotation During to the second position, the first bullet pin 241 stretches out and is engaged to the first lockhole 232 turning to the first in command 23 Location, prevents battery management system 20 from deviating from.

In other embodiments, the first maintaining body may also comprise the ground projection that can bounce back and is arranged at the first in command The second bullet pin on 23, the first in command 23 is provided with and plays pin corresponding matching to keep the first in command 23 with second The second lockhole in the second position.

Accordingly, the first operating portion is provided with and makes first after play pin the 241, second bullet pin retraction by first The handle hole 233 that handle 23 can rotate to primary importance, when battery management system 20 extracted out by needs, by Handle hole 233 makes the first bullet pin 241, second play the most rotatable first in command of pin retraction 23 after stretching into, drive Battery management system 20 is extracted out.Handle hole 233 usually hole, it is possible to for opening, it is simple to hands or instrument are stretched Press the first bullet pin 241, second after entering and play pin.

Being provided with offer elastic force between battery body 21 and the first in command 23 keeps the first in command 23 to turn to the The resetting means of one position, when first plays pin 241 retraction disengaging the first lockhole 232, resetting means provides Elastic force allows the first in command 23 auto-steering primary importance, drive battery management system 20 be deviate from by cavity volume 11. Preferably, resetting means includes torsion spring, and in other embodiments, resetting means is alternatively shell fragment etc..

After battery management system 20 is installed to redundant power module 10, can entirety be inserted into server or In other IT system.

As shown in Figure 1, Figure 4, Figure 5, install owing to redundant power module 10 is also adopted by pluggable mode, for It is easy to stationary positioned, is provided with between redundant power module 10 and its plug-in mounting position for the redundant electric inserted The second self-locking structure that source module 10 positions in plug orientation, the position after making redundant power module 10 install Fixing, it is ensured that the 131, second Plug Division, the first Plug Division 132 and server or the conducting of IT system.

Second self-locking structure include the second locking bar of being arranged in the plug-in mounting position of redundant power module 10 and Be may be rotatably mounted at the second in command 15 on power supply body 12 by the second rotating shaft, the second in command 15 is positioned at The side that the outer end of power supply body 12 is corresponding, after redundant power module 10 plug-in mounting, outside the second in command 15 Dew, facilitates user to handle.

The second in command 15 includes the second fore shaft 151 and the second operating portion laying respectively at the second rotating shaft both sides, Described second fore shaft 151 is driven around described second rotating shaft in the 3rd position and the by described second operating portion Four-position rotation moves.Before redundant power module 10 inserts its plug-in mounting position, the second in command 15 in the 3rd position, Two fore shafts 151 unclamp with the second locking bar and coordinate, redundant power module 10 can along the abjection of abjection direction with the Two locking bars coordinate, and redundant power module 10 can be made to extract out from plug-in mounting position, meanwhile, and the second locking bar, second The cooperation of fore shaft 151 also positions before insertion for redundant power module 10.

When redundant power module 10 is inserted into its plug-in mounting position, the second in command 15 turns around its rotating shaft and the second locking bar Moving to the 4th position, in the 4th position, the second fore shaft 151 coordinates, at redundant power with the second locking bar locking Misplace on the abjection direction of module 10, prevent redundant power module 10 from deviating from.At redundant power module 10 During being inserted into plug-in mounting position, the second in command 15 rotates, and the second fore shaft 151 and the second locking bar keep card Close, make the second in command 15 with the second locking bar as fulcrum, after redundant power module 10 is fully-inserted, The second in command 15 turns to the 4th position horizontally set, with the second locking bar dislocation.

Further, in order to the redundant power module 10 after inserting is positioned, power supply body 12 and second The holding second in command 15 second maintaining body in the 4th position it is provided with between hands 15.The second in command's 15 Position maintains, and the second fore shaft 151 and the second locking bar just can allow redundant power in extraction direction dislocation The position of module 10 is fixed, and prevents redundant power module 10 from deviating from.

Second locking bar is arranged on the aperture position of plug-in mounting position, it is simple to observe the second fore shaft 151 and the second locking bar Coordinate.Second fore shaft 151 takes the shape of the letter U, and both can guarantee that and the abjection of the second locking bar, the second in command 15 turns The second fore shaft 151 and the second locking bar can be made again after Dong to misplace in the extraction direction, prevent battery management system 20 abjections.In other embodiments, the second fore shaft 151 also can C-shaped or V-arrangement.

The inner of power supply body 12 is provided with for limiting turn to second when redundant power module 10 inserts anti- Slow-witted groove 16, it is ensured that redundant power module 10 is inserted into grafting position in the right direction.

Second maintaining body includes the Elastic buckle 17 being arranged on power supply body 12 and is located at second The holding section 1531 coordinated with Elastic buckle 17 on hands 15.When the second in command 15 turns to four positions, Elastic buckle 17 engages the location positioning realizing the second in command 15 with holding section 1531, and then makes the second lock Mouth 151 and the second locking bar misplace in extraction direction, make redundant power module 10 position.At redundant power mould In the insertion process of block 10, due to being rotatably assorted of the second fore shaft 151 and the second locking bar, the second in command 15 Can realize automatic swing, redundant power module 10 is installed after putting in place, Elastic buckle 17 and holding section 1531 Automatic fastening, need not artificially lock redundant power module 10.

What Elastic buckle 17 was removably disposed in power supply body 12 extracts on the end face that direction is corresponding, elastic Buckle 17 usually plastic cement material is formed, the most impaired, Elastic buckle 17 be used for multiple times impaired after, can By Elastic buckle 17 disassembling, assembling and replacing.

Being provided with clamp 152 on second operating portion, clamp 152 is relative with the rotation direction of the second in command 15, Holding section 1531 is formed on clamp 152, allows Elastic buckle 17 directly fasten with clamp 152.

When the second in command 15 is moved three positions by four-position rotation by needs, need artificially to allow elastic card Button 17 disengaging holding section 1531, causes Elastic buckle 17 to prevent Elastic buckle 17 deflection too big Losing efficacy, deformation position when clamp 152 being also formed with depart from Elastic buckle 17 holding section 1531 is carried out The blocking part 1532 limited.

Preferably, clamp 152 is formed for the hole clipping 153 that Elastic buckle 17 wears, hole clipping 153 Two opposite sides form holding section 1531 and blocking part 1532 respectively.Neither affect the intensity of clamp 152, again Reach engaging and spacing effect.

Preferably, power supply body 12 is provided with for keeping the when the second in command 15 turns to three positions Second chief 15 is at the 3rd maintaining body of the 3rd position.In certain embodiments, the 3rd maintaining body includes Can be bounced back on power supply body 12 protruding the 3rd bullet pin 18 arranged in ground, and the 3rd plays pin 18 is positioned at the second lock The swing of mouthfuls 151 is interval, and with the position pair of the second in command 15 second fore shaft 151 when three positions Should.After the second in command 15 turns to the 3rd position, position is the most stable, will not produce swing impact and extract out Again install, meanwhile, by redundant power module 10 again insertable into time, second need not be adjusted the most again The position of handle 15.

In certain embodiments, it is possible between power supply body 12 and the second in command 15, resetting means is set, Allow the second in command 15 automatically reset to the 3rd position, and rely on resetting means to make the second in command 15 be maintained at Three positions.

The first in command 23, the second in command 15 all use lever-type structure realize install after self-locking and remove after Unblock, simple in construction, easy to operate.

It is to be appreciated that above-mentioned each technical characteristic can be used in any combination and unrestricted.

The foregoing is only embodiment of the present utility model, not thereby limit patent model of the present utility model Enclose, every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion, Or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in patent of the present utility model and protects In the range of protecting.

Claims (10)

1. the handle lever self-locking structure of a battery management system, it is characterized in that, described battery management system (20) can be plugged in redundant power module (10) with deviating from, and is provided with the first self-locking structure for positioning the described battery management system (20) inserted in plug orientation between described battery management system (20) and described redundant power module (10)；

Described redundant power module (10) is provided with the cavity volume (11) plugged for described battery management system (20), and described battery management system (20) includes the battery body (21) corresponding with described cavity volume (11)；

Described first self-locking structure is included in interior the first locking bar (14) arranged of described cavity volume (11) and the first in command (23) that may be rotatably mounted on described battery body (21) by the first rotating shaft, and the described first in command (23) is positioned at the side corresponding with the aperture position of described cavity volume (11)；

The described first in command (23) includes the first fore shaft (231) and the first operating portion laying respectively at described first rotating shaft both sides；Described first fore shaft (231) is driven by described first operating portion and rotates between the first position and the second position around described first rotating shaft, and in described primary importance, described first fore shaft (231) is unclamped with described first locking bar (14) and coordinated；In the described second position, described first fore shaft (231) coordinates with the locking of described first locking bar (14)；

The first maintaining body keeping the described first in command (23) in the described second position it is provided with between described battery body (21) and the described first in command (23).

The handle lever self-locking structure of battery management system the most according to claim 1, it is characterised in that described first locking bar (14) is arranged on the aperture position of described cavity volume (11).

The handle lever self-locking structure of battery management system the most according to claim 1, it is characterised in that described first fore shaft (231) takes the shape of the letter U or C-shaped or V-arrangement.

The handle lever self-locking structure of battery management system the most according to claim 1, it is characterized in that, described first maintaining body include can bounce back ground projection be arranged on described battery body (21) first bullet pin (241), the described first in command (23) be provided with described first play pin (241) corresponding matching to be maintained at first lockhole (232) of the second position；And/or,

Described first maintaining body includes bouncing back the second bullet pin that ground projection is arranged on the described first in command (23), and the described first in command (23) is provided with and plays pin corresponding matching to keep the described first in command (23) at the second lockhole of the described second position with described second.

The handle lever self-locking structure of battery management system the most according to claim 4, it is characterized in that, described first operating portion is provided with the handle hole (233) making the described first in command (23) can rotate after play pin (241), the second bullet pin retraction by described first to described primary importance.

The handle lever self-locking structure of battery management system the most according to claim 1, it is characterized in that, be provided with between described battery body (21) and the described first in command (23) and provide elastic force to keep the described first in command (23) to turn to the resetting means of described primary importance.

The handle lever self-locking structure of battery management system the most according to claim 6, it is characterised in that described resetting means includes torsion spring.

8. according to the handle lever self-locking structure of the battery management system described in any one of claim 1 to 7, it is characterized in that, two first locking bars (14) it are provided with in described cavity volume (11), described battery management system (20) includes two first in command (23) being arranged on the side that described battery body (21) is corresponding with cavity volume (11) opening, and the first fore shaft (231) first locking bar (14) described with two of two described first in command (23) is the most corresponding.

The handle lever self-locking structure of battery management system the most according to claim 8, it is characterized in that, two described first in command (23) are symmetricly set on the side that described battery body (21) is corresponding with cavity volume (11) opening, two described first locking bars (14) lay respectively at the opening two opposite sides of described cavity volume (11), and the rotation direction of two described first in command (23) is contrary.

The handle lever self-locking structure of battery management system the most according to claim 9, it is characterised in that the inner of described battery body (21) is provided with the first fool proof groove (211) turned to limited when described battery management unit inserts；

Described first fool proof groove (211) is stretched out along plug orientation by the inner end face edge of described battery body (21), is provided with the lobe being raised in medial surface with described first fool proof groove (211) corresponding matching in described cavity volume (11).