CN114013265B - Special storage battery fixing device for business car - Google Patents

Abstract

The application discloses special battery fixing device of commercial car relates to the technical field of automobile parts, including the support body, the support body includes the base, and rectangular channel has been seted up to the base, and the base is provided with the connecting rod, is provided with first butt strip between two connecting rods far away, and the base is provided with the mount, and the mount includes the second butt strip; the base is provided with a plugging groove, two ends of the second abutting strip are fixedly provided with fixing rods, the fixing rods are fixedly provided with mounting blocks, two opposite inner walls of the plugging groove are provided with locking grooves, the locking strips slide in the mounting blocks, and pushing pieces are arranged in the mounting blocks; the fixed rod is provided with a chute, a reinforcing rod is arranged in the chute in a sliding way, and a sliding assembly is arranged on the reinforcing rod; the bottom of the rectangular groove is rotationally connected with a bidirectional screw rod, the bidirectional screw rod is connected with a moving rod in a sliding manner, the connecting rod comprises a first connecting rod and a second connecting rod, and a driving structure is arranged on the first connecting rod. This application can make the battery and can play better theftproof function after fixed with the support connection.

Description

Special storage battery fixing device for business car

Technical Field

The application relates to the technical field of automobile parts, in particular to a special storage battery fixing device for a commercial vehicle.

Background

With the development of living standard and the further development of traffic, more and more people have own automobiles, including business cars with more functions. The commercial vehicle uses fuel and needs to use a storage battery to supply power to the commercial vehicle, and a bracket for installing the storage battery is usually arranged in a cabin of the commercial vehicle.

In the related art, patent document with the bulletin number of CN202695581U discloses a fixing structure of an automobile storage battery, which comprises a storage battery pressing plate positioned on the upper surface of the storage battery and a tray positioned at the bottom of the storage battery, and further comprises a pair of storage battery pull rods, wherein the end parts of the storage battery pull rods are in a fishhook shape, two sides of the tray are vertically provided with a hanging lug, a hole is formed in the hanging lug, one end of each storage battery pull rod is hooked on the hole, and the other end of each storage battery pull rod is fixed on the storage battery pressing plate through a nut, so that the position of the storage battery is fixed.

In carrying out the present application, the inventors have found that at least the following problems exist in this technology: because the quantity of business car constantly increases, and the battery can be taken off and recycle, some lawless persons can steal the battery of business car, and foretell fixed knot constructs and the installation and the dismantlement of battery are comparatively simple and convenient for the battery of business car is stolen easily.

Disclosure of Invention

In order to enable the storage battery to have a better anti-theft function after being connected with the fixing support, the application provides a storage battery fixing device special for a commercial vehicle.

The application provides a special battery fixing device of commercial car adopts following technical scheme:

the utility model provides a special battery fixing device of commercial car, includes the support body, the support body includes the base, rectangular channel that supplies the battery to peg graft is seted up at the base middle part, the base is in the battery both sides are provided with vertical connecting rod, two can dismantle between the one end that the connecting rod kept away from the base be connected with be used for with the first butt strip of battery butt, can dismantle on the base and be connected with the mount, the mount includes the second butt strip of butt on the battery surface, first butt strip with second butt strip can dismantle and connect and mutually perpendicular;

the base is provided with a plugging groove at two opposite sides of the rectangular groove, two ends of the second abutting strip are fixedly connected with vertical fixing rods, one end of each fixing rod, which is far away from the second abutting strip, is fixedly connected with a mounting block for being plugged into the plugging groove, two opposite inner walls of the plugging groove are provided with locking grooves, locking strips plugged into the locking grooves are connected in the mounting block in a sliding manner, and pushing pieces for driving the locking strips to be plugged into the locking grooves are arranged in the mounting block;

the fixing rod is provided with a sliding groove at one end far away from the second abutting strip, the sliding groove is connected with a reinforcing rod in a sliding way, the reinforcing rod moves downwards to be inserted between the two locking strips, when the locking strips are abutted with the reinforcing rod, the locking strips are not separated from the locking grooves, and the reinforcing rod is provided with a sliding component for driving and locking the position of the reinforcing rod after moving;

the bottom of the rectangular groove is rotationally connected with a bidirectional screw, the bidirectional screw is oppositely or reversely connected with a moving rod for pushing different locking strips away from the locking groove in a sliding manner, the connecting rod comprises a first connecting rod and a second connecting rod, and a driving structure for driving the bidirectional screw to rotate is arranged on the first connecting rod.

By adopting the technical scheme, the storage battery is inserted into the rectangular groove, and the position of the storage battery is fixed through the first abutting strip and the second abutting strip; during installation, the locking bars are inserted into the insertion grooves through the installation blocks, the pushing pieces are used for inserting the locking bars into the locking grooves so as to fix the positions of the second abutting bars, the sliding assembly drives the reinforcing rods to be inserted between the two locking bars, the locking bars are limited to be separated from the locking grooves, and the positions of the locking bars are reinforced; the first abutting strip is connected with the connecting rod so as to lock the position of the first abutting strip;

when the connecting rod is required to be disassembled, the first abutting strip is required to be disassembled from the connecting rod, and then the sliding assembly is driven to enable the reinforcing rod to be separated from the locking strip;

the drive structure sets up on the head rod, is used for fixed first butt strip's purpose through the head rod so that the thief is difficult to discover other uses of head rod, and before promoting the locking strip through the drive structure and breaking away from the locking groove, need to slide the reinforcing rod off the locking strip through the slip subassembly earlier, and the operation process is divided into the multiple steps comparatively complicated, and the thief is difficult to dismantle the battery.

Optionally, offer on the installation piece and supply locking strip gliding movable groove, the impeller is including setting up two the spring between the locking strip, when the spring is in natural state, two the one end that the locking strip deviates from is followed the movable groove wears out, spout with the movable groove intercommunication, two the one end that the locking strip deviates from is provided with the guide surface, two the guide surface is vertical downward towards the direction slope that is close to mutually.

Through adopting above-mentioned technical scheme, when the installation piece was pegged graft to the jack groove, jack groove lateral wall promoted the guide surface for spring compression makes the locking strip remove along the movable groove through the release of spring elasticity when locking strip and locking groove position correspond, and the locking strip can peg graft to the lock inslot, and the installation mount is comparatively convenient.

Optionally, the inner wall of the chute is provided with a moving hole communicated with the outside of the fixing rod, the fixing rod comprises a magnetic strip with one end penetrating out of the moving hole and sliding in the moving hole, the fixing rod is positioned at two ends of the moving hole and is provided with a magnetic attraction edge for magnetic attraction of the magnetic strip, when the magnetic strip is attracted with the attraction edge far away from the second abutting strip, the fixing rod is abutted with the bottom wall of the inserting groove, and when the magnetic strip is attracted with the attraction edge near the second abutting strip, the reinforcing rod is separated from the movable groove.

Through adopting above-mentioned technical scheme, the stiffening rod can be followed and removed the spout and slide to the movable inslot or slide away the movable groove, through promoting the magnetic stripe and remove in the removal hole and realize, and the magnetic stripe can be through with the mode of different actuation along the actuation fix the position after the dead lever slides.

Optionally, an elongated slot for the bidirectional screw rod and the movable rod to move is formed in the bottom wall of the rectangular slot, the elongated slot is communicated with the locking slot, the end part of the movable rod is inserted into the locking slot, and rotating holes for the bidirectional screw rod to penetrate out are formed in the two ends of the elongated slot.

Through adopting above-mentioned technical scheme, two-way screw rod and carriage release lever are movable in the elongated slot and do not interfere with the battery, and the locking groove can play and carry out spacing effect to the carriage release lever, thereby two-way screw rod can rotate through pegging graft to rotatory downthehole, when driving two-way screw rod rotation, and the twin-wire screw rod can drive the carriage release lever and remove in opposite directions along the locking groove.

Optionally, one end of the bidirectional screw is fixedly connected with a first bevel gear, the driving structure comprises a second bevel gear fixedly connected with the first connecting rod, the first bevel gear is meshed with the second bevel gear, and the first connecting rod is rotatably connected with the base.

By adopting the technical scheme, the first connecting rod is rotated to drive the second bevel gear to rotate, and the second bevel gear is meshed with the first bevel gear, so that the bidirectional screw is driven to rotate.

Optionally, two grooves of stepping down have been seted up on the base, two ends of the bi-directional screw are located the difference respectively the inslot of stepping down, can dismantle on the base and be provided with parallel first installation along with the second installation along, first installation along with the second installation along cover the difference respectively the groove of stepping down.

Through adopting above-mentioned technical scheme, first bevel gear and second bevel gear can rotate in the groove of stepping down, and when stepping down the groove inner structure is difficult for finding to step down along the cover through setting up first installation along with the second installation, and set up first installation along protection first bevel gear and second bevel gear structure.

Optionally, the bearing is fixedly connected with on the first installation edge, the first connecting rod includes fixed connection the installation section of bearing inner race, the second bevel gear with the coaxial fixed connection of installation section, the second connecting rod with the second installation edge fixed connection.

Through adopting above-mentioned technical scheme, the installation section that the head rod passed through rotates to be connected on first installation along with the fixed mode of bearing inner race.

Optionally, the connecting rod include with the square pole section that the installation section links to each other and keep away from the screw rod section of base, offer the confession on the first butt strip square hole that square pole section adaptation passed, the screw rod section is close to the one end of square pole section is located square hole, threaded connection has the lock nut of butt to on the first butt strip on the screw rod section.

By adopting the technical scheme, when in installation, the square hole of the first abutting strip is spliced to the square rod section, and the screw rod section is partially positioned in the square hole, so that the rotary locking nut can abut against the first abutting strip to lock the position of the first abutting strip; because the second connecting rod and the second installation edge are fixedly connected, and the first abutting strip is limited by the square rod section and the square hole and is not easy to rotate, the first connecting rod is not easy to drive to rotate when the locking nut is rotated.

Optionally, one end of the square pole section near the screw rod section is fixedly connected with a positioning edge for the first abutting strip to abut, and when the first abutting strip is horizontal and abuts on the storage battery, the first abutting strip abuts on the positioning edge.

Through adopting above-mentioned technical scheme, first butt strip and battery, first butt strip and location along butt simultaneously can find more easily when not placing or the rectangular channel leaves some article if the battery is placed.

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

1. when the storage battery is dismounted, the first abutting strip is required to be dismounted from the connecting rod, and the locking strip which is separated from the reinforcing rod through the sliding structure is moved in opposite directions; through the drive structure of the first connecting rod drive, the bidirectional screw rod rotates to drive the movable rod to push the locking bar away from the locking groove, so that the mounting block can be taken out from the inserting groove, the storage battery is taken out after the first abutting bar and the second abutting bar are dismounted, the dismounting process needs to be operated in multiple steps, the operation position is hidden, and a good anti-theft function can be achieved;

2. the square hole is in plug-in fit with the square rod section, and the second connecting rod is fixed on the second connecting edge, so that the first connecting rod is not easy to drive to rotate when the locking nut is rotated.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of an overall explosive structure of an embodiment of the present application;

FIG. 3 is a schematic view of an overall exploded construction of a securing lever structure according to an embodiment of the present application;

FIG. 4 is an enlarged schematic view at A in FIG. 2;

FIG. 5 is a schematic cross-sectional view showing the structure of a fixing frame according to the embodiment of the present application;

fig. 6 is a schematic cross-sectional view showing a base structure according to an embodiment of the present application.

Reference numerals illustrate: 1. a storage battery; 2. a support body; 21. a bidirectional screw; 22. a first bevel gear; 23. a moving rod; 231. a first threaded hole; 3. a fixing frame; 31. a second abutment bar; 32. a fixed rod; 321. a chute; 322. a moving hole; 323. a suction edge; 33. a reinforcing rod; 331. a magnetic stripe; 34. a mounting block; 341. a movable groove; 342. a locking bar; 343. a guide surface; 344. a spring; 4. a first abutment bar; 41. an abutment groove; 42. square holes; 5. a connecting rod; 51. a first connecting rod; 511. a square pole segment; 512. a screw section; 513. a mounting section; 514. a second bevel gear; 515. a positioning edge; 52. a second connecting rod; 53. a lock nut; 6. a base; 61. rectangular grooves; 611. a long groove; 612. a rotation hole; 62. a plug-in groove; 63. a locking groove; 64. a first mounting edge; 641. a bearing; 65. a second mounting edge; 66. and (5) giving way.

Detailed Description

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

The embodiment of the application discloses a special battery fixing device of commercial car. Referring to fig. 1 and 2, the fixing device is fixedly installed in a cabin of a commercial vehicle, and comprises a support body 2 for accommodating and positioning a storage battery 1, and a fixing frame 3 and a first abutting strip 4 for fixing the position of the storage battery 1 are detachably installed on the support body 2. The support body 2 comprises a base 6 fixed in the cabin, a rectangular groove 61 for the insertion of the storage battery 1 is arranged on the base 6, and the rectangular groove 61 is surrounded into a rectangular frame shape matched with the storage battery 1 through a plurality of blocking edges. The mount 3 includes a second abutting bar 31, and the first abutting bar 4 and the second abutting bar 31 abut on a side of the battery 1 away from the rectangular groove 61 and lock the position, thereby locking the position of the battery 1.

Referring to fig. 2 and 3, two ends of the second abutting strip 31 are fixedly connected with fixing rods 32, and the two fixing rods 32 are parallel and perpendicular to the second abutting strip 31. The fixing rod 32 is far away from one end of the second abutting strip 31 and is fixedly connected with the mounting block 34, the base 6 is provided with inserting grooves 62 for the mounting block 34 to be inserted and connected in an adapting mode on two long side sides of the rectangular groove 61, two opposite side walls of the inserting grooves 62 are provided with locking grooves 63, two locking strips 342 for being inserted and connected into different locking grooves 63 are slid in the mounting block 34, and pushing pieces for driving the two locking strips 342 to deviate from or move in opposite directions are arranged in the mounting block 34. When the locking bar 342 is inserted into the locking groove 63, the fixing frame 3 is fixed in position and the storage battery 1 is not easy to separate from the rectangular groove 61.

Referring to fig. 2 and 3, the surface of the mounting block 34 facing the locking groove 63 is penetrated and provided with a movable groove 341 for the locking bar 342 to slide in an adapting way, the driving piece is specifically a spring 344 fixedly connected between the two locking bars 342, the two springs 344 are arranged in parallel, one end of the fixed rod 32 far away from the second abutting bar 31 is provided with a sliding groove 321 communicated with the movable groove 341, the sliding groove 321 is slidably connected with a reinforcing rod 33 for being inserted between the two springs 344, and the fixed rod 32 is provided with a sliding component for driving the reinforcing rod 33 to slide and locking the position of the reinforcing rod 33 after sliding. After the locking bars 342 are inserted into the locking grooves 63, the reinforcing bar 33 is inserted between the two locking bars 342, and the movement of the two locking bars 342 is restricted. When the lock bar 342 and the reinforcing bar 33 come into contact with each other, the lock bar 342 does not slide out of the lock groove 63, so that the mounting block 34 is not easily removed from the insertion groove 62 at this time, and the reinforcing bar 33 needs to be slid out of the movable groove 341 first when the battery 1 is to be removed.

Referring to fig. 3 and 4, the surfaces of the two locking bars 342 facing away from each other are provided as guide surfaces 343, and the two guide surfaces 343 are inclined downward in the approaching direction. When the mounting block 34 is not mounted, the locking bar 342 partially extends out of the movable groove 341 under the action of the spring 344, when the mounting block 34 is inserted into the inserting groove 62, the locking bar 342 can slide oppositely under the guiding action of the guiding surface 343 and compress the spring 344, when the positions of the locking bar 342 and the locking groove 63 correspond, the spring 344 releases the elastic force to enable the locking bar 342 to be inserted into the locking groove 63, and the mounting process of the fixing frame 3 is convenient.

Referring to fig. 4 and 5, a moving hole 322 is formed in the inner wall of the sliding chute 321 facing the storage battery 1, the sliding component comprises a magnetic strip 331 fixedly connected to the fixed rod 32 and penetrating out of the moving hole 322, two circles of coaxial engaging edges 323 are fixedly connected to the outer wall of the fixed rod 32, the engaging edges 323 are made of iron and can be engaged with the magnetic strip 331 for fixation, and when the sliding magnetic strip 331 and the engaging edges 323 with higher positions are engaged, the reinforcing strip is separated from the movable groove 341; the reinforcement bar 33 is inserted between the two locking bars 342 to restrict the movement of the locking bars 342 when the sliding magnetic stripe 331 and the lower engaging edge 323 are engaged. The magnetic stripe 331 faces the direction of the battery 1 and is located between the engaging edges 323, and can play a role of concealing the magnetic stripe 331 after the battery 1 is mounted.

Referring to fig. 2 and 6, a long groove 611 is formed at the bottom of the rectangular groove 61, a bidirectional screw 21 is rotatably connected to the long groove 611, two parallel moving rods 23 are screwed to the bidirectional screw 21, and first threaded holes 231 which are opposite in rotation direction and are screwed to different threaded sections of the bidirectional screw 21 are formed in the two moving rods 23. One side of the locking groove 63 near the rectangular groove 61 penetrates through the side wall of the rectangular groove 61, and the moving rod 23 slides in the locking groove 63 and abuts against the locking bar 342. The locking groove 63 plays a role in limiting the moving rod 23, and when the bidirectional screw 21 rotates, the moving rod 23 slides in the long groove 611 and the locking groove 63 and is not easy to rotate. When the bi-directional screw 21 is rotated so that the two moving rods 23 move toward each other, the two locking bars 342 are pushed to move toward each other and disengage from the locking groove 63, and the mounting block 34 can be taken out of the insertion groove 62.

Referring to fig. 5 and 6, the base 6 is provided with a relief groove 66 at both sides of the rectangular groove 61, and a rotation hole 612 through which the bi-directional screw 21 passes is provided on a side wall of the relief groove 66 facing the rectangular groove 61, so that the bi-directional screw 21 can rotate. Two vertical connecting rods 5 are arranged on the base 6 and are used for connecting the first abutting strips 4. The base 6 is respectively connected with a first installation edge 64 and a second installation edge 65 for closing the opening of the abdication groove 66 through bolts, the connecting rod 5 comprises a first connecting rod 51 arranged on the first installation edge 64 and a second connecting rod 52 arranged on the second installation edge 65, and a driving structure for driving the bidirectional screw 21 to rotate is arranged on the first connecting rod 51.

Referring to fig. 4 and 6, a bearing 641 is fixedly coupled to the first mounting edge 64, and an end of the first connecting rod 51 remote from the first abutment bar 4 includes a mounting section 513 fixedly coupled to an inner ring of the bearing 641 such that the first connecting rod 51 can rotate. The drive structure includes a second bevel gear 514 positioned within the relief groove 66 and coaxially and fixedly connected to the mounting section 513. The bi-directional screw 21 is fixedly connected at one end adjacent the first mounting edge 64 with a first bevel gear 22 which meshes with a second bevel gear 514. When the first connecting rod 51 is rotated, the first connecting rod 51 can drive the second bevel gear 514 to rotate and indirectly drive the bidirectional screw 21 to rotate.

Referring to fig. 4 and 6, one end of the connecting rod 5 far away from the yielding groove 66 comprises a square rod section 511 and a screw rod section 512, the screw rod section 512 is located at one end of the connecting rod 5 far away from the mounting groove, a square hole 42 for adapting and inserting the square rod section 511 is formed in the first mounting edge 64, a positioning edge 515 for enabling the first abutting strip 4 to abut is fixedly connected to the square rod section 511, and when the first abutting strip 4 abuts onto the surface of the storage battery 1, the first abutting strip 4 can abut against the positioning edge 515 and can be used for determining whether the storage battery 1 is placed rightly or not. The length of the screw section 512 to the positioning edge 515 is smaller than the hole depth of the square hole 42, and the screw section 512 is partially positioned in the square hole 42 when the first abutting strip 4 abuts against the positioning edge 515. A locking nut 53 for abutting against the first abutment bar 4 is screwed onto the screw section 512, whereby the position of the first abutment bar 4 can be locked by means of the locking nut 53. Because the second mounting edge 65 is fixed with the second connecting rod 52, when the square rod section 511 is inserted into the square hole 42, the locking nut 53 is not easy to rotate when the first connecting rod 51 is rotated.

Referring to fig. 2 and 3, the first abutting strip 4 and the second abutting strip 31 are abutted against the surface of the storage battery 1 away from the rectangular groove 61, so that the effect of stabilizing the storage battery 1 can be achieved, and the first abutting strip 4 is located at one side away from the storage battery 1 and is provided with an abutting groove 41 through which the second abutting strip 31 passes.

The implementation principle of the special storage battery fixing device for the commercial vehicle is as follows:

when the storage battery 1 is mounted, the storage battery 1 is inserted into the rectangular groove 61, the fixing frame 3 is covered on the storage battery 1, the mounting block 34 can be inserted into the insertion groove 62 in an adapting mode, the locking strips 342 on two sides of the mounting block 34 can move oppositely and compress the springs 344 when the guide surface 343 is contacted with the opening edge of the rectangular groove 61, when the rectangular groove 61 is inserted into the bottom of the insertion groove 62, the positions of the locking strips 342 and the locking grooves 63 correspond, and the springs 344 release elasticity to enable the locking strips 342 to be inserted into the locking grooves 63, so that the position of the fixing frame 3 is fixed; the first abutting strip 4 is abutted to the storage battery 1, and the first connecting rod 51 is properly adjusted, so that the square rod section 511 can be inserted into the square hole 42, and then the square rod section is connected with the screw rod section 512 through the locking nut 53 in a threaded manner until the locking nut 53 abuts against the first abutting strip 4; finally, the magnetic strip 331 is slid to enable the magnetic strip 331 to be attracted with the lower attracting edge 323, so that the reinforcing rod 33 is inserted into the position between the two locking strips 342 to play a reinforcing role.

When the locking nut 53 is disassembled, the locking nut 53 is firstly rotated to remove the locking nut 53, and the first abutting strip 4 is removed; pulling the magnetic stripe 331 to make the magnetic stripe 331 and the higher sucking edge 323 suck, at this time, the reinforcing rod 33 is retracted into the chute 321, and the locking bar 342 can move in opposite directions; rotating the first connecting rod 51 causes the second bevel gear 514 to rotate, the second bevel gear 514 drives the first bevel gear 22 to rotate and the bidirectional screw 21 to rotate, the two moving rods 23 move towards each other and push the locking bar 342 to be separated from the locking groove 63, so that the whole fixing frame 3 can be taken down, and the storage battery 1 can be taken down for replacement.

Because when dismantling mount 3, need slide reinforcement rod 33 and rotate head rod 51, connect through setting up first butt strip 4 and head rod 51 and make the thief be difficult for finding other uses of head rod 51, and head rod 51 need rotate the number of turns more, the magnetic stripe 331 position is comparatively hidden, the cabin can play better theftproof effect under other reasons combined action such as the other components of more of being arranged in support body 2 periphery.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (3)

1. The utility model provides a special battery fixing device of commercial car, includes support body (2), support body (2) include base (6), rectangular channel (61) that supply battery (1) to peg graft have been seted up at base (6) middle part, base (6) are in battery (1) both sides are provided with vertical connecting rod (5), two can dismantle between the one end that base (6) was kept away from to connecting rod (5) be connected with be used for with first butt strip (4) of battery (1) butt, its characterized in that: the base (6) is detachably connected with a fixing frame (3), the fixing frame (3) comprises a second abutting strip (31) abutted against the surface of the storage battery (1), and the first abutting strip (4) and the second abutting strip (31) are detachably connected and mutually perpendicular;

the base (6) is provided with inserting grooves (62) on two opposite sides of the rectangular groove (61), two ends of the second abutting strip (31) are fixedly connected with vertical fixing rods (32), one ends of the fixing rods (32) far away from the second abutting strip (31) are fixedly connected with mounting blocks (34) which are used for being inserted into the inserting grooves (62), locking grooves (63) are formed in two opposite inner walls of the inserting grooves (62), locking strips (342) which are inserted into the locking grooves (63) are connected in a sliding mode in the mounting blocks (34), and pushing pieces which are used for driving the locking strips (342) to be inserted into the locking grooves (63) are arranged in the mounting blocks (34);

a sliding groove (321) is formed in one end, far away from the second abutting strip (31), of the fixing rod (32), a reinforcing rod (33) is connected in a sliding mode in the sliding groove (321), the reinforcing rod (33) moves downwards and is used for being inserted between two locking strips (342), when the locking strips (342) are abutted with the reinforcing rod (33), the locking strips (342) are not separated from the locking grooves (63), and a sliding component which drives and locks the position of the reinforcing rod (33) after moving is arranged on the reinforcing rod (33);

the bottom of the rectangular groove (61) is rotationally connected with a bidirectional screw rod (21), the bidirectional screw rod (21) is oppositely or reversely connected with a moving rod (23) for pushing different locking strips (342) away from the locking groove (63) in a sliding manner, the connecting rod (5) comprises a first connecting rod (51) and a second connecting rod (52), and the first connecting rod (51) is provided with a driving structure for driving the bidirectional screw rod (21) to rotate;

the bottom wall of the rectangular groove (61) is provided with a long groove (611) for the bidirectional screw rod (21) and the movable rod (23) to move, the long groove (611) is communicated with the locking groove (63), the end part of the movable rod (23) is inserted into the locking groove (63), and two ends of the long groove (611) are provided with rotary holes (612) for the bidirectional screw rod (21) to penetrate out;

one end of the bidirectional screw rod (21) is fixedly connected with a first bevel gear (22), the driving structure comprises a second bevel gear (514) fixedly connected with the first connecting rod (51), the first bevel gear (22) is meshed with the second bevel gear (514), and the first connecting rod (51) is rotatably connected to the base (6);

two abdicating grooves (66) are formed in the base (6), two ends of the bidirectional screw rod (21) are respectively located in different abdicating grooves (66), a first installation edge (64) and a second installation edge (65) which are parallel are detachably arranged on the base (6), and the first installation edge (64) and the second installation edge (65) respectively cover different abdicating grooves (66);

the first mounting edge (64) is fixedly connected with a bearing (641), the first connecting rod (51) comprises a mounting section (513) fixedly connected with the inner ring of the bearing (641), the second bevel gear (514) is fixedly connected with the mounting section (513) coaxially, and the second connecting rod (52) is fixedly connected with the second mounting edge (65);

the connecting rod (5) comprises a square rod section (511) connected with the mounting section (513) and a screw rod section (512) far away from the base (6), a square hole (42) for the square rod section (511) to pass through is formed in the first abutting strip (4), one end, close to the square rod section (511), of the screw rod section (512) is located in the square hole (42), and a locking nut (53) abutted to the first abutting strip (4) is connected to the screw rod section (512) in a threaded mode;

one end of the square rod section (511) close to the screw rod section (512) is fixedly connected with a positioning edge (515) for the first abutting strip (4) to abut, and when the first abutting strip (4) is horizontal and abuts on the storage battery (1), the first abutting strip (4) abuts against the positioning edge (515).

2. The business vehicle specific battery fixing device according to claim 1, wherein: offer on installation piece (34) confession locking bar (342) gliding movable groove (341), the impeller is including setting up two spring (344) between locking bar (342), works as spring (344) are in when naturalness, two locking bar (342) deviating one end is followed movable groove (341) wears out, spout (321) with movable groove (341) intercommunication, two locking bar (342) deviating one end is provided with guide surface (343), two guide surface (343) are vertical downward towards the direction slope that is close to mutually.

3. The storage battery fixing device for a commercial vehicle according to claim 2, wherein: the utility model discloses a fixed slot (321) is characterized by comprising a fixed bar (32), a fixed slot (321) is formed in the inner wall of the fixed bar (32), a movable hole (322) is formed in the outer portion of the fixed bar, the fixed bar (32) comprises a magnetic strip (331) with one end penetrating out of the movable hole (322) and sliding in the movable hole (322), the fixed bar (32) is arranged at two ends of the movable hole (322) and is provided with an attracting edge (323) for magnetically attracting the magnetic strip (331), when the magnetic strip (331) and the attracting edge (323) which is far away from the second abutting strip (31) are attracted, the fixed bar (32) is abutted with the bottom wall of the inserting groove (62), and when the magnetic strip (331) and the attracting edge (323) which is close to the second abutting strip (31) are attracted, the reinforcing bar (33) is separated from the movable groove (341).