CN117410901B - Multifunctional bridge for data center - Google Patents

Abstract

The invention relates to the technical field of bridges, in particular to a multifunctional bridge for a data center, which comprises a bridge body, a protective structure, a separation structure, a positioning structure, a fixing structure and a limiting structure, wherein the protective structure is convenient for quickly detaching two sliding plates and a cover plate from the bridge body, the limiting structure is convenient for fixing cams in the protective structure, the cams are prevented from autorotation, the positioning structure is convenient for initially positioning and fixing the two bridge bodies, so that the two frames are reinforced by the fixing structure later, the installation efficiency between the two frames is improved, the separation structure is convenient for separating cables, the wiring uniformity of the cables is improved, the cables can be separated, and the heat dissipation effect is improved.

Description

Multifunctional bridge for data center

Technical Field

The invention relates to the technical field of bridges, in particular to a multifunctional bridge for a data center.

Background

The data center is a specific equipment network in global collaboration, and is used for transmitting, accelerating, displaying, calculating and storing data information on a network infrastructure, and because of the large number of cables in the data center, in order to ensure that interference among the cables in the data center is reduced, stability and reliability of data transmission are improved, and a plurality of cables are usually laid in a bridge body.

However, traditional crane span structure body is in the use, install through bolt, nut and gasket between two adjacent crane span structure bodies generally, install through components such as bolt and lead to packaging efficiency low, the cable is comparatively messy in inside arranging of crane span structure body simultaneously, can lead to the winding displacement aesthetic property relatively poor, the cable is piled up together simultaneously and can lead to the fact the influence to the heat dissipation, simultaneously when needs overhauld inside cable, because install through adopting the mode of lock between apron and the crane span structure body, because apron length is longer, when leading to need dismantling the apron, operating flexibility is lower.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a multifunctional bridge for a data center.

The technical scheme adopted for solving the technical problems is as follows: a multifunctional bridge for a data center comprises a bridge body; the bridge body is provided with a protection structure, the protection structure comprises sliding plates, two sliding plates are clamped on the bridge body, a cover plate is arranged between the two sliding plates, the two sliding plates are in sliding connection with the cover plate, a first reset spring is fixedly connected between the sliding plates and the cover plate, a first connecting rod is fixedly connected to the sliding plates, the first connecting rod is in sliding connection with the cover plate, a roller is rotatably connected to the first connecting rod, the roller is in rolling fit with a cam, the cam is in rotary connection with the cover plate, the cam is fixedly connected with a rotating shaft, and the rotating shaft is in rotary connection with the cover plate;

the bridge body is provided with a separation structure; and the bridge body and the adjacent bridge body are positioned through the positioning structure.

Specifically, be equipped with limit structure on the apron, limit structure includes the stopper, the block has the stopper on the apron, fixedly connected with spliced pole on the stopper, sliding connection between spliced pole and the apron, fixedly connected with connecting block on the spliced pole, sliding connection between connecting block and the pivot.

Specifically, fixedly connected with presses the board on the spliced pole, fixedly connected with fifth reset spring between connecting block and the pivot.

Specifically, the separation structure comprises a frame, the frame is detachably connected with on the crane span structure body, be equipped with a plurality of recesses on the frame, sliding connection has the fixed block on the crane span structure body, the block between fixed block and the frame, the detachable baffle that is connected with on the frame, sliding connection has two gag lever posts on the baffle, block between gag lever post and the frame.

Specifically, fixedly connected with connecting axle on the fixed block, sliding connection between connecting axle and the crane span structure body, the epaxial sliding connection that rotates of connecting has the arm-tie, sliding connection between arm-tie and the crane span structure body, sliding connection has two connecting plates on the baffle, fixed connection between connecting plate and the two gag lever posts.

Specifically, a third reset spring is fixedly connected between the connecting plate and the baffle, and a second reset spring is fixedly connected between the fixed block and the bridge body.

Specifically, the location structure includes the locating frame, and two adjacent can dismantle between the crane span structure body and be connected with the locating frame, sliding connection has four second connecting rods on the locating frame, four equal fixedly connected with two locating pieces on the second connecting rod, sliding connection between locating piece and the locating frame, every four the block respectively with one of them crane span structure body between the block.

Specifically, four all rotate on the second connecting rod and be connected with the actuating post, rolling fit between the actuating groove on actuating post and the actuating plate, sliding connection between actuating plate and the locating frame, the actuating groove is the slope setting, fixedly connected with fourth reset spring between actuating plate and the locating frame.

Specifically, be equipped with fixed knot structure on the locating frame, fixed knot structure includes the rubber pad, sliding connection has two rubber pads on the locating frame, two contradict between rubber pad and the two crane span structure bodies, fixedly connected with slider on the rubber pad, sliding connection between slider and the locating frame.

Specifically, fixedly connected with slide bar on the slider, sliding connection between slide bar and the locating frame, it is connected with the lead screw to rotate on the locating frame, threaded connection between lead screw and the slide bar, the screw thread opposite direction in lead screw both ends.

The beneficial effects of the invention are as follows:

(1) According to the multifunctional bridge for the data center, the protective structure is arranged on the bridge body, the limiting structure is arranged on the cover plate, the protective structure is convenient for quickly detaching the two sliding plates and the cover plate from the bridge body, and the limiting structure is convenient for fixing the cam in the protective structure and preventing the cam from rotating.

(2) According to the multifunctional bridge for the data center, the bridge body and the adjacent bridge bodies are positioned through the positioning structure, the fixing structure is arranged on the positioning frame, the positioning structure is convenient for preliminary positioning and fixing between the two bridge bodies, so that the two frames can be reinforced through the fixing structure later, and the installation efficiency between the two frames is improved.

(3) According to the multifunctional bridge for the data center, the separation structure is arranged on the bridge body, so that the cables are conveniently separated, the wiring uniformity of the cables is improved, the cables can be separated, and the heat dissipation effect is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the whole structure of a multifunctional bridge for a data center according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is a schematic diagram of a connection structure of a skateboard and a deck according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of the portion C shown in FIG. 4;

FIG. 6 is an enlarged schematic view of the structure of the portion D shown in FIG. 4;

FIG. 7 is a schematic view of a connection structure between a frame and a bridge body according to the present invention;

FIG. 8 is an enlarged schematic view of the E-section structure shown in FIG. 7;

FIG. 9 is a schematic diagram of a connection structure between a positioning frame and a bridge body according to the present invention;

FIG. 10 is a schematic diagram of a connection structure between a slider and a bridge body according to the present invention;

fig. 11 is an enlarged schematic view of the F-section structure shown in fig. 10;

FIG. 12 is a schematic view of a connection structure between a cam and a shaft according to the present invention;

FIG. 13 is a schematic view of the connection structure of the connection block and the connection column of the present invention;

FIG. 14 is a schematic view of a stopper according to the present invention;

FIG. 15 is a schematic view of the connection structure of the first connecting rod and the cover plate of the present invention;

fig. 16 is an enlarged schematic view of the G portion structure shown in fig. 15;

fig. 17 is a schematic diagram of a connection structure between a rubber pad and a positioning frame according to the present invention.

In the figure: 1. a bridge body; 2. a protective structure; 201. a cover plate; 202. a slide plate; 203. a first return spring; 204. a first connecting rod; 205. a roller; 206. a cam; 207. a rotating shaft; 3. a partition structure; 301. a frame; 302. a fixed block; 303. a second return spring; 304. a connecting shaft; 305. pulling a plate; 306. a baffle; 307. a connecting plate; 308. a third return spring; 309. a limit rod; 4. a positioning structure; 401. a positioning frame; 402. a positioning block; 403. a second connecting rod; 404. a drive column; 405. a driving groove; 406. a driving plate; 407. a fourth return spring; 5. a fixed structure; 501. a rubber pad; 502. a slide block; 503. a slide bar; 504. a screw rod; 6. a limit structure; 601. a limiting block; 602. a connecting column; 603. a connecting block; 604. a fifth return spring; 605. pressing the plate.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 17, a multifunctional bridge for a data center according to the present invention includes a bridge body 1; the bridge body 1 is provided with a protective structure 2, the protective structure 2 comprises a sliding plate 202, two sliding plates 202 are clamped on the bridge body 1, a cover plate 201 is arranged between the two sliding plates 202, the two sliding plates 202 are in sliding connection with the cover plate 201, a first reset spring 203 is fixedly connected between the sliding plates 202 and the cover plate 201, a first connecting rod 204 is fixedly connected to the sliding plates 202, the first connecting rod 204 is in sliding connection with the cover plate 201, a roller 205 is rotatably connected to the first connecting rod 204, the roller 205 is in rolling fit with a cam 206, the cam 206 is rotatably connected with the cover plate 201, the cam 206 is fixedly connected with a rotating shaft 207, and the rotating shaft 207 is rotatably connected with the cover plate 201; the bridge frame body 1 is provided with a separation structure 3; and the positioning structure 4 is used for positioning the bridge body 1 and the adjacent bridge body 1 through the positioning structure 4.

Specifically, the cover 201 is provided with a limit structure 6, the limit structure 6 comprises a limit block 601, the cover 201 is clamped with a limit block 601, a connecting column 602 is fixedly connected to the limit block 601, the connecting column 602 is slidably connected with the cover 201, a connecting block 603 is fixedly connected to the connecting column 602, the connecting block 603 is slidably connected with a rotating shaft 207, a pressing plate 605 is fixedly connected to the connecting column 602, a fifth reset spring 604 is fixedly connected between the connecting block 603 and the rotating shaft 207, when the cable is required to be overhauled, the pressing plate 605 can be pressed downwards, the connecting column 602 can be driven to move downwards when the pressing plate 605 moves downwards, the connecting column 602 can be driven to slide downwards when the connecting block 603 slides downwards, the fifth reset spring 604 contracts when the connecting block 603 slides downwards, and the connecting column 602 can drive the limit block 601 to slide downwards, the limiting block 601 is not clamped with the cover plate 201 any more, at this time, the pressing plate 605 can be rotated, the connecting column 602 drives the rotating shaft 207 to rotate through the connecting block 603, the rotating shaft 207 drives the cam 206 to rotate when rotating, the two rollers 205 and the cam 206 can be in rolling fit when the cam 206 rotates, the first connecting rod 204 can drive the two sliding plates 202 to slide backwards through the rollers 205 when rotating, the first reset spring 203 is contracted when the two sliding plates 202 slide backwards, at this time, the two sliding plates 202 slide for a certain distance, the limiting block 601 can be clamped with the cover plate 201 under the action of the fifth reset spring 604, the rotating cam 206 is conveniently fixed through the setting of the limiting block 601, and meanwhile, the two sliding plates 202 and the cover plate 201 can be quickly taken down from the bridge body 1 through the sliding between the two sliding plates 202 and the cover plate 201.

Specifically, the separation structure 3 includes a frame 301, the bridge body 1 is detachably connected with the frame 301, a plurality of grooves are provided on the frame 301, a fixed block 302 is slidably connected on the bridge body 1, a third reset spring 308 is fixedly connected between the fixed block 307 and the frame 301, a baffle 306 is detachably connected on the frame 301, two limit rods 309 are slidably connected on the baffle 306, the limit rods 309 are engaged with the frame 301, a connecting shaft 304 is fixedly connected on the fixed block 302, the connecting shaft 304 is slidably connected with the bridge body 1, a pull plate 305 is rotatably connected on the connecting shaft 304, the pull plate 305 is slidably connected with the bridge body 1, two connecting plates 307 are slidably connected on the baffle 306, a second reset spring 303 is fixedly connected between the connecting plate 307 and the baffle 306, when cables of a data center are required to be arranged, each cable is positioned on the frame 306 and can be conveniently contracted to the frame 309, and can be contacted with the frame 301, and can be contacted with the two limit rods 309 on the frame 301, and the inclined surfaces of the frame 301 are mutually contacted with the two limit rods 309, and the two limit rods 309 are mutually contacted with the frame 301, when the two limit rods 301 are contacted with the frame 301, the wiring regularity of cables is improved, cables can be separated, the heat dissipation effect is improved, cables on the frame 301 are conveniently sealed through the arrangement of the baffle 306, the cables are prevented from sliding out of the frame 301, when the frames 301 need to be replaced according to cables with different diameters, the pull plate 305 can be pulled rightwards, the pull plate 305 can drive the fixing block 302 to slide through the connecting shaft 304 when sliding rightwards, the second reset spring 303 contracts when the fixing block 302 slides, meanwhile, the fixing block 302 is not clamped with the frames 301 any more, the frames 301 can slide out of the bridge body 1, and accordingly the frames 301 with grooves with different sizes can be replaced.

Specifically, the positioning structure 4 comprises a positioning frame 401, two adjacent bridge bodies 1 are detachably connected with the positioning frame 401, four second connecting rods 403 are connected to the positioning frame 401 in a sliding manner, two positioning blocks 402 are fixedly connected to the four second connecting rods 403, the positioning blocks 402 are connected with the positioning frame 401 in a sliding manner, each four positioning blocks 402 are respectively clamped with one bridge body 1, four second connecting rods 403 are respectively connected with a driving column 404 in a rotating manner, the driving columns 404 are in rolling fit with driving grooves 405 on a driving plate 406, the driving plates 406 are connected with the positioning frame 401 in a sliding manner, the driving grooves 405 are obliquely arranged, a fourth reset spring 407 is fixedly connected between the driving plate 406 and the positioning frame 401, a fixing structure 5 is arranged on the positioning frame 401, the fixing structure 5 comprises a rubber pad 501, the positioning frame 401 is slidably connected with two rubber pads 501, two rubber pads 501 are abutted against two bridge bodies 1, the rubber pads 501 are fixedly connected with a sliding block 502, the sliding block 502 is slidably connected with the positioning frame 401, the sliding block 502 is fixedly connected with a sliding rod 503, the sliding rod 503 is slidably connected with the positioning frame 401, the positioning frame 401 is rotatably connected with a screw rod 504, the screw rod 504 is in threaded connection with the sliding rod 503, the screw threads at two ends of the screw rod 504 are opposite, firstly, when the two bridge bodies 1 need to be butted by a data center, the two bridge bodies 1 are kept parallel, then the four risers on the positioning frame 401 are aligned with the holes on the two bridge bodies 1 (the overall structure of the positioning frame 401 is that the U-shaped frame is provided with four risers, two holes are respectively arranged at two ends of each bridge body 1), after alignment, the positioning frame 401 and the two bridge bodies 1 can be inserted, when eight positioning blocks 402 on the positioning frame 401 are in a trapezoid structure and are in interference with the edges of the bridge bodies 1, the positioning blocks 402 shrink into the positioning frame 401 when being in interference with the bridge bodies 1, the second connecting rods 403 are driven to slide when the positioning blocks 402 slide, the driving columns 404 are driven to be in rolling fit on the driving grooves 405 when the second connecting rods 403 slide, the driving plates 406 slide downwards due to the inclined arrangement of the driving grooves 405, the fourth return springs 407 shrink when the driving plates 406 slide downwards, and meanwhile, when the positioning blocks 402 slide to a certain position, each four positioning blocks 402 slide to be clamped with the two bridge bodies 1 under the action of the fourth return springs 407, at this time, the preliminary positioning of the two bridge bodies 1 is completed, the setting of the eight positioning blocks 402 is convenient for preliminary positioning and fixing of the two bridge bodies 1, at this time, the screw rod 504 on the positioning frame 401 is rotated in a accessible manner, when the screw rod 504 rotates, due to the opposite directions of threads at two ends of the screw rod 504, the screw rod 504 can simultaneously drive the two slide bars 503 to slide in opposite directions, when the slide bars 503 slide in opposite directions, the two slide blocks 502 can be driven to slide in opposite directions, and when the slide blocks 502 slide in opposite directions, the rubber pads 501 are driven to slide in opposite directions, at this time, further fixing of the two bridge bodies 1 is completed, the two rubber pads 501 are simultaneously driven to move through the screw rod 504, so that the two bridge bodies 1 are conveniently and rapidly fixed, and the assembly efficiency between the two bridge bodies 1 is improved.

When the invention is used, firstly, when the data center needs to butt-joint two bridge bodies 1, after the two bridge bodies 1 are kept parallel, the four vertical plates on the positioning frame 401 are aligned with the holes on the two bridge bodies 1 (the whole structure of the positioning frame 401 is a U-shaped frame, the four vertical plates are arranged on the U-shaped frame, two holes are respectively arranged at the two ends of each bridge body 1), when the two bridge bodies 1 are aligned, the positioning frame 401 can be spliced with the two bridge bodies 1, when eight positioning blocks 402 on the positioning frame 401 are in a trapezoid structure and are in interference with the edges of the bridge bodies 1, the positioning blocks 402 shrink into the positioning frame 401 when the positioning blocks 402 are in interference with the bridge bodies 1, the second connecting rod 403 is driven to slide when the positioning blocks 402 slide, the driving column 404 is driven to roll and match on the driving groove 405 because the driving groove 405 is in an inclined arrangement, therefore, the driving plate 406 can slide downwards, the fourth return spring 407 contracts when the driving plate 406 slides downwards, meanwhile, when the positioning block 402 slides to a certain position, each four positioning blocks 402 slide to be clamped with the two bridge frame bodies 1 under the action of the fourth return spring 407, the preliminary positioning of the two bridge frame bodies 1 is finished, the eight positioning blocks 402 are arranged so as to be convenient for preliminary positioning and fixing the two bridge frame bodies 1, at the moment, the lead screw 504 on the positioning frame 401 can be rotated, when the lead screw 504 rotates, due to the opposite thread directions of the two ends of the lead screw 504, the lead screw 504 simultaneously drives the two sliding rods 503 to slide oppositely, when the sliding rods 503 slide oppositely, the two sliding blocks 502 slide oppositely, the rubber pads 501 slide oppositely, at the moment, the further fixing of the two bridge frame bodies 1 is finished, the two rubber pads 501 are driven to move simultaneously through the screw rod 504, so that the two bridge bodies 1 can be fixed conveniently and rapidly, and the assembly efficiency between the two bridge bodies 1 is improved;

when cables of a data center are required to be arranged, each type of cable of the data center can be located in each groove on the frame 301, after each type of cable is located in each groove, the baffle 306 can be inserted between the upper side of the frame 301 and the frame 301, so that the inclined planes of the two limiting rods 309 are in contact with the frame 301, as the contact surfaces of the limiting rods 309 and the frame 301 are inclined planes, the two connecting plates 307 are driven to slide in opposite directions by the two limiting rods 309, the third return spring 308 is contracted when the connecting plates 307 slide in opposite directions, at the moment, when the baffle 306 moves to a certain position, the limiting rods 309 are clamped with the frame 301 under the action of the third return spring 308, therefore, the plurality of grooves on the frame 301 are used for conveniently separating cables, the wiring uniformity of the cables is improved, the cables can be separated, the heat dissipation effect is improved, the cables on the frame 301 are conveniently sealed through the arrangement of the baffle 306, the cables are prevented from sliding out of the frame 301, when the frame 301 needs to be replaced according to the cables with different diameters, the pull plate 305 can be pulled rightwards, the fixing block 302 is driven to slide through the connecting shaft 304 when the pull plate 305 slides rightwards, the second reset spring 303 is contracted when the fixing block 302 slides, meanwhile, the fixing block 302 is not clamped with the frame 301 any more, and the frame 301 can be slid out of the bridge body 1 so as to replace the frame 301 with the grooves with different sizes;

when the cable is required to be overhauled, the pressing plate 605 is pressed downwards, the connecting column 602 is driven to move downwards when the pressing plate 605 moves downwards, the connecting column 602 is driven to slide downwards when the connecting column 602 slides downwards, the connecting block 603 is driven to slide downwards, the fifth return spring 604 is contracted when the connecting column 602 slides downwards, the limiting block 601 is driven to slide downwards, the limiting block 601 is not clamped with the cover plate 201 any more, at the moment, the pressing plate 605 is rotated, the connecting column 602 drives the rotating shaft 207 to rotate through the connecting block 603, the rotating shaft 207 drives the cam 206 to rotate, when the cam 206 rotates, the two rollers 205 are in rolling fit with the cam 206, the first connecting rod 204 drives the two sliding plates 202 to slide backwards through the rollers 205 when the cam 206 rotates, the first return springs 203 are contracted when the two sliding plates 202 slide backwards, at the moment, the two sliding plates 202 slide for a certain distance, the limiting block 601 can be clamped with the cover plate 201 under the action of the fifth return springs 604, the rotating cam 206 after the rotation is convenient to fix through the setting of the limiting block 601, and simultaneously the two sliding plates 202 and the cover plate 201 are convenient to rapidly take the two sliding plates 202 and the cover plate 201 down from the upper side 1.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. A multi-purpose bridge for a data center, comprising:

a bridge body (1);

the bridge comprises a protection structure (2), wherein the protection structure (2) is arranged on a bridge body (1), the protection structure (2) comprises two sliding plates (202) which are clamped on the bridge body (1), a cover plate (201) is arranged between the two sliding plates (202), the two sliding plates (202) are in sliding connection with the cover plate (201), a first reset spring (203) is fixedly connected between the sliding plates (202) and the cover plate (201), a first connecting rod (204) is fixedly connected on the sliding plates (202), the first connecting rod (204) is in sliding connection with the cover plate (201), a roller (205) is rotationally connected on the first connecting rod (204), rolling fit is carried out between the roller (205) and a cam (206), the cam (206) is rotationally connected with the cover plate (201), the cam (206) is fixedly connected with a rotating shaft (207), and the rotating shaft (207) is rotationally connected with the cover plate (201). A limiting structure (6) is arranged on the cover plate (201); the bridge frame comprises a bridge frame body (1), a separation structure (3) and a support frame, wherein the bridge frame body (1) is provided with the separation structure (3); the positioning structure (4) is used for positioning the bridge body (1) and the adjacent bridge body (1) through the positioning structure (4);

the limiting structure (6) comprises a limiting block (601), the limiting block (601) is clamped on the cover plate (201), a connecting column (602) is fixedly connected to the limiting block (601), the connecting column (602) is in sliding connection with the cover plate (201), a connecting block (603) is fixedly connected to the connecting column (602), and the connecting block (603) is in sliding connection with the rotating shaft (207); the connecting column (602) is fixedly connected with a pressing plate (605), and a fifth reset spring (604) is fixedly connected between the connecting block (603) and the rotating shaft (207).

2. The multi-purpose bridge for a data center of claim 1, wherein: the separation structure (3) comprises a frame (301), the frame (301) is detachably connected to the bridge body (1), a plurality of grooves are formed in the frame (301), fixing blocks (302) are slidably connected to the bridge body (1), the fixing blocks (302) are clamped with the frame (301), a baffle (306) is detachably connected to the frame (301), two limiting rods (309) are slidably connected to the baffle (306), and the limiting rods (309) are clamped with the frame (301).

3. The multi-purpose bridge for a data center of claim 2, wherein: fixedly connected with connecting axle (304) on fixed block (302), sliding connection between connecting axle (304) and crane span structure body (1), rotationally be connected with arm-tie (305) on connecting axle (304), sliding connection between arm-tie (305) and crane span structure body (1), sliding connection has two connecting plates (307) on baffle (306), fixed connection between connecting plate (307) and two gag lever post (309).

4. A multi-purpose bridge for a data center as claimed in claim 3, wherein: a third reset spring (308) is fixedly connected between the connecting plate (307) and the baffle (306), and a second reset spring (303) is fixedly connected between the fixed block (302) and the bridge body (1).

5. The multi-purpose bridge for a data center of claim 1, wherein: the positioning structure (4) comprises a positioning frame (401), two adjacent bridge frame bodies (1) are detachably connected with the positioning frame (401), four second connecting rods (403) are connected to the positioning frame (401) in a sliding mode, two positioning blocks (402) are fixedly connected to the second connecting rods (403) respectively, the positioning blocks (402) are connected with the positioning frame (401) in a sliding mode, and each four positioning blocks (402) are clamped with one bridge frame body (1) respectively.

6. The multi-purpose bridge for a data center of claim 5, wherein: the four second connecting rods (403) are respectively and rotatably connected with a driving column (404), driving grooves (405) on the driving columns (404) and the driving plates (406) are in rolling fit, the driving plates (406) are in sliding connection with the positioning frames (401), the driving grooves (405) are obliquely arranged, and fourth reset springs (407) are fixedly connected between the driving plates (406) and the positioning frames (401).

7. The multi-purpose bridge for a data center of claim 6, wherein: be equipped with fixed knot structure (5) on locating frame (401), fixed knot structure (5) include rubber pad (501), sliding connection has two rubber pads (501) on locating frame (401), two contradict between rubber pad (501) and two crane span structure bodies (1), fixedly connected with slider (502) on rubber pad (501), sliding connection between slider (502) and locating frame (401).

8. The multi-purpose bridge for a data center of claim 7, wherein: the sliding block (502) is fixedly connected with a sliding rod (503), the sliding rod (503) is in sliding connection with the positioning frame (401), the positioning frame (401) is rotationally connected with a screw rod (504), the screw rod (504) is in threaded connection with the sliding rod (503), and the threads at two ends of the screw rod (504) are opposite in direction.