CN109890167B - Big data machine box frame for intelligent campus management and installation method thereof - Google Patents

Abstract

The invention discloses a big data machine box frame for intelligent campus management and an installation method thereof, the big data machine box frame comprises a frame body, the frame body comprises a first connecting rod and a second connecting rod, the frame body is provided with a placing plate, the placing plate is connected with the first connecting rod, the placing plate is provided with a connecting groove, a connecting mechanism and a connecting column are arranged in the connecting groove, fixing mechanisms are arranged at two sides of the connecting groove, positioning blocks are arranged at the end parts of the connecting column, the positioning blocks are connected with the placing plate, a positioning mechanism is arranged below the connecting mechanism, the fixing mechanism is connected with the positioning mechanism, the placing plate is provided with a connecting plate and a pushing mechanism, and the pushing mechanism is provided with a connecting frame. The installation method comprises the following steps: (1) installation of a pushing mechanism; (2) mounting a machine box frame; (3) mounting of the chassis. The intelligent campus management system solves the problem that the normal use is affected due to the fact that the wiring port is loosened due to the fact that the big data case used in the existing intelligent campus management is easy to move due to the fact that the position of the big data case is easy to be moved due to the fact that the external force is applied in the use process.

Description

Big data machine box frame for intelligent campus management and installation method thereof

Technical Field

The invention relates to the field of intelligent campus management, in particular to a big data machine box frame for intelligent campus management and an installation method thereof.

Background

At present, advanced, comprehensive, deep, stable and safe digital campus mobile platforms are built for better integration of original informationized hardware equipment resources, practical application of wireless terminals is enhanced, mobile application integration and perfection are carried out in various aspects of daily teaching, office management, communication interaction, resource sharing, remote education and the like, the sustainable development of school management application is met, school teaching quality is improved, and school core competitiveness is improved.

The intelligent campus management system is an efficient and real-time management system which is built for schools by combining mobile interconnection and big data analysis means. In the intelligent campus management system, a data terminal acquisition device is an essential component. The existing data terminal acquisition device is generally of a closed box-shaped structure, so that the surface heat dissipation performance of the data terminal acquisition device is poor. And the surface of the data terminal acquisition device is provided with a plurality of interfaces, and the big data case is easy to be subjected to external force in the use process to move in position so as to loosen the wiring port, thereby influencing the normal use.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a big data box frame for intelligent campus management and an installation method thereof.

In order to solve the technical problems, the invention adopts the following technical scheme:

big data machine box frame is used in management of wisdom campus, its characterized in that: including the support body, the support body includes head rod and second connecting rod, head rod and second connecting rod mutually perpendicular set up, the support body is equipped with places the board, place the board and be connected with the head rod, place the board and be connected with the second connecting rod, place the board and be equipped with the spread groove, be equipped with coupling mechanism and spliced pole in the spread groove, the both sides of spread groove all are equipped with fixed establishment, the spliced pole is connected with coupling mechanism, coupling mechanism evenly sets up, the tip of spliced pole is equipped with the locating piece, the locating piece is connected with the spread groove, the locating piece is connected with placing the board, coupling mechanism's below is equipped with positioning mechanism, positioning mechanism is pegged graft with coupling mechanism, fixed establishment is connected with positioning mechanism, be equipped with connecting plate and pushing mechanism on the board, pushing mechanism is equipped with the spread frame, the spread frame is connected with placing the board, the connecting plate is connected with pushing mechanism. The support body plays the effect of support, and the head rod is connected through the second connecting rod, places the board and installs in the top of second connecting rod, and the second connecting rod is used for fixed board of placing. The connecting grooves are used for installing the connecting columns and the connecting mechanisms, the connecting mechanisms are arranged at intervals through the uniform arrangement of the connecting mechanisms, the plugging of the positioning mechanisms can be provided, the heat dissipation of the case is facilitated, and hot air is discharged through gaps between the connecting mechanisms after passing through the heat dissipation grooves at the bottom of the case. The fixing mechanism plays a role of fixing the positioning mechanism. The connecting plate is fixed with placing the board, fixes pushing mechanism through the connecting plate, increases device structural strength, and the connecting frame is used for connecting the quick-witted case, is favorable to the fixed in position to the machine case, opens pushing mechanism and makes the machine case position fix, prevents that the machine case from sliding to make the wiring mouth not hard up.

Further, coupling mechanism includes first connecting block, second connecting block and joint piece, and first connecting block is connected with the joint piece, and the joint piece is connected with the second connecting block, and the joint piece is connected with the spliced pole, and first connecting block all is equipped with first inserted block with the second connecting block, and first inserted block and first connecting block are integrated into one piece structure, and first inserted block and second connecting block are integrated into one piece mechanism. The connecting block is used for connecting the connecting column, and the first connecting block is used for supporting the chassis. And a gap is reserved between the first connecting blocks and is used for facilitating the insertion of the second inserting blocks.

Further, positioning mechanism includes the locating plate, is equipped with first recess and second recess on the locating plate, and first recess and second groove connection are equipped with the second inserted block in the top of locating plate, and the both sides of locating plate all are equipped with axis of rotation and turning block, and the turning block rotates along the axis of rotation. The locating plate plays the effect of fixed second inserted block, and through locating plate and coupling mechanism grafting, first recess and second recess are favorable to the accuracy of grafting, and first recess and second connecting block, first inserted block phase-match. The second plug block is used for fixing the chassis.

Further, the locating plate is evenly provided with first elastic blocks, the positions of the first elastic blocks correspond to the positions of the connecting columns, and the first elastic blocks are of concave arc structures. The first elastic block plays a role in limiting and protecting, and the concave arc structure is arranged to facilitate installation, so that the first elastic block is propped against the connecting column, and the position is convenient to fix.

Further, fixed establishment includes fixed block and sliding block, and sliding block and fixed block sliding connection, and the fixed block is equipped with slot and first spacing groove, and the sliding block is equipped with the stopper, and the stopper slides along first spacing groove.

Further, the pushing mechanism comprises a pushing cylinder, a pushing block and a buffering mechanism, the pushing cylinder is connected with the connecting plate, the pushing block is in sliding connection with the pushing cylinder, the buffering mechanism is connected with the pushing block, and the buffering mechanism is connected with the connecting frame. The propelling cylinder plays a role in propelling, and the motion of the buffer mechanism is controlled through sliding connection with the propelling block, so that the position of the chassis is fixed.

Further, buffer gear includes first buffer board, buffer post, second buffer board, spacing post, second spacing groove and buffer spring, first buffer board and buffer post sliding connection, the other end and the second buffer board fixed connection of buffer post, second buffer board and spacing post are connected, and the second spacing groove sets up on first buffer board, and the spacing post slides in the second spacing groove, and second buffer board and buffer spring are connected, and buffer spring is connected with the connecting frame. The buffer mechanism is realized through setting up double-deck buffering, and the first layer is through buffer spring's buffering, and the second floor slides through the buffer post between first buffer board and the second buffer board, has increased the effect of buffering, prevents to the chassis force effect too big, and influences the chassis operation, plays the effect of fixed chassis.

Further, be equipped with the second elastic block on the second buffer board, the second elastic block sets up between first buffer board and second buffer board. The second elastic block plays a role in buffering and protecting, controls the movement of the first buffer plate and the second buffer plate, and plays a role in anti-collision.

Further, the placing plate is provided with a guide block, and the guide block is connected with the first connecting rod. The guide block is convenient for the installation of the case and plays a role in guiding the installation.

The installation method of the big data machine box frame for intelligent campus management is characterized by comprising the following steps of:

(1) Mounting of pushing mechanism

a. The pushing cylinder is fixedly connected with the pushing block through threads, the other surface of the pushing block is fixed with the first buffer plate, the buffer column, the limiting column, the second elastic block and the second buffer plate are fixedly connected, the buffer column is inserted into a preset mounting hole in the first buffer plate, the limiting column is mounted in a second limiting groove, a buffer spring is mounted on the back surface of the second buffer plate, the buffer spring is fixed with the connecting frame, and mounting is completed.

(2) Mounting of locomotive frame

a. The first connecting rod and the second connecting rod are connected in a threaded manner, the first connecting rods around the first connecting rod are fixed, the placing plate is placed along the first connecting rod to be installed from top to bottom, and the placing plate is installed on the second connecting rod and is fixedly connected in a threaded manner;

b. presetting insertion holes in the connecting grooves, sequentially and uniformly mounting the connecting mechanisms on the connecting columns, welding and fixing, inserting the end parts of the connecting columns into the insertion holes, inserting and fixing the other ends of the connecting columns by using positioning blocks, and fixing the positioning blocks and the placing plates through threads;

c. assembling the pushing mechanism in advance, inserting the pushing mechanism into a gap between the second connecting rod and the placing plate, installing the pushing mechanism on the connecting plate, and presetting an installation groove on the connecting plate, wherein the installation is carried out by taking the position of the pushing mechanism inserted into the installation groove as a reference.

d. The positioning mechanism is inserted from the bottom of the placement plate, the first groove, the second groove and the second connecting block are inserted from bottom to top, the first elastic block is installed from bottom to top until the first elastic block is propped against the connecting column, the rotating block is rotated to enable the rotating block to rotate to a position of a mounting groove preset by the fixed block, the sliding block is dragged, the limiting block is enabled to move to one end of the first limiting groove until the rotating block is propped against the fixed block, the sliding block is moved, the limiting block is moved to an original position, the sliding block is marked by the limiting block during movement, the end part moving to the second limiting groove is used for completing movement operation, and the rotating block is fixed between the fixed block and the sliding block;

e. the bottom of the guide block is placed on the placing plate, one side of the guide block is close to the first connecting rod, and the guide block is fixed through threaded connection;

(3) Mounting of chassis

a. Placing the chassis on a placing plate, wherein one side of the chassis is close to the guide block, so that the second plug block is inserted into a radiating groove in the chassis, adjusting according to the length of the chassis, and determining the primary installation position of the chassis;

b. the pushing cylinder is opened, the connecting frame is operated to the position of the chassis, the chassis is propped against, the buffer spring is contracted, the second elastic block props against the first buffer plate, the heat dissipation groove props against the second plug block, and the fixing of the position of the chassis is completed;

c. and connecting the wiring ports of the chassis with the data lines respectively to complete the integral installation.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

(1) The frame body plays a supporting role, the first connecting rods are connected through the second connecting rods, the placing plate is arranged above the second connecting rods, and the second connecting rods are used for fixing the placing plate. The connecting grooves are used for installing the connecting columns and the connecting mechanisms, the connecting mechanisms are arranged at intervals through the uniform arrangement of the connecting mechanisms, the plugging of the positioning mechanisms can be provided, the heat dissipation of the case is facilitated, and hot air is discharged through gaps between the connecting mechanisms after passing through the heat dissipation grooves at the bottom of the case. The fixing mechanism plays a role of fixing the positioning mechanism. The connecting plate is fixed with placing the board, fixes pushing mechanism through the connecting plate, increases device structural strength, and the connecting frame is used for connecting the quick-witted case, is favorable to the fixed in position to the machine case, opens pushing mechanism and makes the machine case position fix, prevents that the machine case from sliding to make the wiring mouth not hard up.

(2) The positioning plate plays a role in fixing the second plug block, the first groove and the second groove are in favor of accuracy of plug connection through plug connection of the positioning plate and the connecting mechanism, and the first groove is matched with the second groove, the second connecting block and the first plug block. The second plug block is used for fixing the chassis.

(3) According to the invention, the position of the chassis is fixed by arranging the double-layer buffer, the first layer is buffered by the buffer spring, the second layer slides by the buffer column between the first buffer plate and the second buffer plate and is buffered by the second elastic block, so that the buffer effect is improved, the chassis force is prevented from being excessively large, the heat dissipation groove is deformed, and the chassis is continuously subjected to fixed thrust.

(4) The guide block plays a role in guiding, is convenient for controlling the mounting position of the chassis, is hollow in the middle of the connecting frame, is convenient for wiring and mounting of the wiring port of the chassis, and also plays a role in preventing the position from being too close to the edge when the chassis is mounted, so that the connecting block props against the wiring port of the chassis, and wiring of the wiring port is affected.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a big data set rack for intelligent campus management according to the present invention;

FIG. 2 is a bottom view of FIG. 1;

FIG. 3 is a schematic view of a positioning mechanism according to the present invention;

FIG. 4 is a schematic diagram of a connection structure between a fixed block and a slider in the present invention;

FIG. 5 is a schematic diagram of a connection structure between a propulsion block and a buffer mechanism according to the present invention;

FIG. 6 is a schematic view of a connecting mechanism according to the present invention;

FIG. 7 is a schematic diagram of a chassis according to the present invention;

fig. 8 is an enlarged schematic view at a in fig. 1.

In the figure, 1-a first connecting rod; 2-a second connecting rod; 3-placing a plate; 4-connecting grooves; 5-a connection mechanism; 6-connecting columns; 7-a fixing mechanism; 8-positioning blocks; 9-a positioning mechanism; 10-a pushing mechanism; 11-connecting plates; 12-connecting frames; 13-a first connection block; 14-a second connection block; 15-a frame body; 16-a joint block; 17-a first plug; 18-positioning plates; 19-a first groove; 20-a second groove; 21-a second plug; 22-rotating shaft; 23-rotating the block; 24-a first elastic block; 25-fixing blocks; 26-sliding blocks; 27-a slot; 28-a first limit groove; 29-limiting blocks; 30-pushing an air cylinder; 31-pushing blocks; 32-a buffer mechanism; 33-a first buffer plate; 34-a buffer column; 35-a second limit groove; 36-a buffer spring; 37-a second elastic block; 38-a guide block; 39-wiring ports; 40-a heat dissipation groove; 41-a chassis; 42-a second limiting plate; 43-limit posts.

Detailed Description

As shown in fig. 1 to 8, the big data box rack for intelligent campus management according to the present invention comprises a rack body 15, wherein the rack body 15 comprises a first connecting rod 1 and a second connecting rod 2, the first connecting rod 1 and the second connecting rod 2 are mutually vertically arranged, the rack body 15 is provided with a placing plate 3, the placing plate 3 is connected with the first connecting rod 1, the placing plate 3 is connected with the second connecting rod 2, the placing plate 3 is provided with a connecting groove 4, a connecting mechanism 5 and a connecting column 6 are arranged in the connecting groove 4, both sides of the connecting groove 4 are respectively provided with a fixing mechanism 7, the connecting column 6 is connected with the connecting mechanism 5, the connecting mechanism 5 is uniformly arranged, the end part of the connecting column 6 is provided with a positioning block 8, the positioning block 8 is connected with the connecting groove 4, the positioning block 8 is connected with the placing plate 3, a positioning mechanism 9 is arranged below the connecting mechanism 5, the positioning mechanism 9 is spliced with the connecting mechanism 5, the fixing mechanism 7 is connected with the positioning mechanism 9, a connecting plate 11 and a pushing mechanism 10 are arranged on the placing plate 3, the pushing mechanism 10 is provided with a connecting frame 12, the connecting frame 12 is connected with the placing plate 3, and the connecting plate 11 is connected with the pushing mechanism 10.

The connecting mechanism 5 comprises a first connecting block 13, a second connecting block 14 and a connecting block 16, wherein the first connecting block 13 is connected with the connecting block 16, the connecting block 16 is connected with the second connecting block 14, the connecting block 16 is connected with the connecting column 6, the first connecting block 13 and the second connecting block 14 are respectively provided with a first inserting block 17, the first inserting block 17 and the first connecting block 13 are integrated into a whole structure, and the first inserting block 17 and the second connecting block 14 are integrated into a whole structure. The adapter blocks 16 are used to connect the connection posts 6 and the first connector blocks 13 are used to support the chassis 41. The first connecting blocks 13 are provided with gaps for facilitating the plugging of the second plug blocks 21.

The positioning mechanism 9 comprises a positioning plate 18, wherein a first groove 19 and a second groove 20 are formed in the positioning plate 18, the first groove 19 is connected with the second groove 20, a second inserting block 21 is arranged above the positioning plate 18, a rotating shaft 22 and a rotating block 23 are arranged on two sides of the positioning plate 18, and the rotating block 23 rotates along the rotating shaft 22. The positioning plate 18 is uniformly provided with first elastic blocks 24, the positions of the first elastic blocks 24 correspond to the positions of the connecting columns 6, and the first elastic blocks 24 are in a concave arc structure. The first elastic block 24 plays a role in limiting and protecting, and the concave arc structure is arranged to facilitate installation, so that the first elastic block 24 is propped against the connecting column 6, and the position is convenient to fix.

The fixing mechanism 7 comprises a fixing block 25 and a sliding block 26, wherein the sliding block 26 is in sliding connection with the fixing block 25, the fixing block 25 is provided with a slot 27 and a first limiting groove 28, the sliding block 26 is provided with a limiting block 29, and the limiting block 29 slides along the first limiting groove 28. The pushing mechanism 10 comprises a pushing cylinder 30, a pushing block 31 and a buffer mechanism 32, wherein the pushing cylinder 30 is connected with the connecting plate 11, the pushing block 31 is slidably connected with the pushing cylinder 30, the buffer mechanism 32 is connected with the pushing block 31, and the buffer mechanism 32 is connected with the connecting frame 12. The pushing cylinder 30 plays a role of pushing, and the movement of the buffer mechanism 32 is controlled through the sliding connection with the pushing block 31, so that the position of the chassis 41 is fixed.

The buffer mechanism 32 comprises a first buffer plate 33, a buffer column 34, a second buffer plate 42, a limit column 43, a second limit groove 35 and a buffer spring 36, wherein the first buffer plate 33 is in sliding connection with the buffer column 34, the other end of the buffer column 34 is fixedly connected with the second buffer plate 42, the second buffer plate 42 is connected with the limit column 43, the second limit groove 35 is arranged on the first buffer plate 33, the limit column 43 slides in the second limit groove 35, the second buffer plate 42 is connected with the buffer spring 36, and the buffer spring 36 is connected with the connecting frame 12. The second buffer plate 42 is provided with a second elastic block 37, and the second elastic block 37 is disposed between the first buffer plate 33 and the second buffer plate 42. The second elastic block 37 plays a role in buffering and protecting, controls the movement of the first buffer plate 33 and the second buffer plate 42, and plays a role in collision avoidance. The placing plate 3 is provided with a guide block 38, and the guide block 38 is connected with the first connecting rod 1. The guide block 38 facilitates the installation of the cabinet 41 and plays a role in guiding the installation.

The installation method of the big data box frame for intelligent campus management comprises the following steps:

(1) Mounting of the pushing mechanism 10

a. The propulsion cylinder 30 is fixedly connected with the propulsion block 31 in a threaded manner, the other surface of the propulsion block 31 is fixed with the first buffer plate 33, the buffer column 34, the limit column 43, the second elastic block 37 and the second buffer plate 42 are fixedly connected, the buffer column 34 is inserted into a preset mounting hole in the first buffer plate 33, the limit column 43 is mounted in the second limit groove 35, the buffer spring 36 is mounted on the back surface of the second buffer plate 42, and the buffer spring 36 is fixed with the connecting frame 12 to finish mounting.

(2) Mounting of locomotive frame

a. The method comprises the steps of firstly, connecting a first connecting rod 1 with a second connecting rod 2 in a threaded manner, fixing the first connecting rod 1 around, arranging a placing plate 3 along the first connecting rod 1 from top to bottom, and arranging the placing plate 3 on the second connecting rod 2 in a threaded manner;

b. jack holes are preset in the connecting grooves 4, the connecting mechanisms 5 are sequentially and uniformly arranged on the connecting columns 6, the connecting columns are welded and fixed, the end parts of the connecting columns 6 are inserted into the jack holes, the other ends of the connecting columns are fixedly inserted by the positioning blocks 8, and the positioning blocks 8 and the placing plates 3 are fixed through threads;

c. the pushing mechanism 10 is assembled in advance, the pushing mechanism 10 is inserted into a gap between the second connecting rod 2 and the placing plate 3, the pushing mechanism 10 is mounted on the connecting plate 11, a mounting groove is preset on the connecting plate 11, and the pushing mechanism 10 is mounted based on the position of the pushing mechanism inserted into the mounting groove.

d. The positioning mechanism 9 is inserted from the bottom of the placement plate 3, the first groove 19, the second groove 20 and the second connecting block 14 are inserted, the installation is carried out from bottom to top until the first elastic block 24 is propped against the connecting column 6, the rotating block 23 is rotated to the preset installation groove position of the fixed block 25, the sliding block 26 is dragged, the limiting block 29 is moved to one end of the first limiting groove 28 until the rotating block 23 is propped against the fixed block 25, the sliding block 26 is moved, the limiting block 29 is moved to the original position, the sliding block 26 is marked by the limiting block 29 during movement, and the moving operation is completed by taking the end part moving to the second limiting groove 35 as the end part, so that the rotating block 23 is fixed between the fixed block 25 and the sliding block 26;

e. the bottom of the guide block 38 is placed on the placing plate 3, one side of the guide block is close to the first connecting rod 1, and the guide block is fixed through threaded connection;

(3) Mounting of the chassis 41

a. Placing the chassis 41 on the placing plate 3, wherein one side of the chassis is close to the guide block, so that the second inserting block 21 is inserted into the heat dissipation groove 40 in the chassis 41, and the primary installation position of the chassis 41 is determined according to the length of the chassis 41;

b. the pushing cylinder 30 is opened, the connecting frame 12 is moved to the position of the case 41, the case 41 is propped up, the buffer spring 36 is contracted, the second elastic block 37 props up the first buffer plate 33, the heat dissipation groove 40 props up the second insertion block 21, and the fixing of the position of the case 41 is completed;

c. the connection ports 39 of the casing 41 are connected to the data lines, respectively, to complete the whole installation.

(1) The frame body 15 plays a supporting role, the first connecting rod 1 is connected through the second connecting rod 2, the placing plate 3 is arranged above the second connecting rod 2, and the second connecting rod 2 is used for fixing the placing plate 3. The connecting groove 4 is used for installing the connecting column 6 and the connecting mechanism 5, through the even arrangement of the connecting mechanism 5, the connecting mechanism 5 is arranged at intervals, so that the plugging of the positioning mechanism 9 can be provided, the heat dissipation of the case 41 is facilitated, and hot air is discharged through a gap between the connecting mechanisms 5 after passing through the heat dissipation groove 40 at the bottom of the case 41. The fixing mechanism 7 functions as a fixing and positioning mechanism 9. The connecting plate 11 is fixed with the placing plate 3, the pushing mechanism 10 is fixed through the connecting plate 11, the structural strength of the device is improved, the connecting frame 12 is used for connecting the case 41, the position of the case 41 is fixed, the pushing mechanism 10 is started to fix the position of the case 41, the case 41 is prevented from sliding, and therefore the wiring port 39 is loosened.

(2) The positioning plate 18 plays a role in fixing the second plug block 21, the first groove 19 and the second groove 20 are beneficial to the accuracy of plug connection by plugging the positioning plate 18 with the connecting mechanism 5, and the first groove 19 and the second groove 20 are matched with the second connecting block 14 and the first plug block 17. The second plug 21 is used for fixing the chassis 41.

(3) The invention realizes the position fixation of the chassis 41 by arranging the double-layer buffer, the first layer is buffered by the buffer spring 36, the second layer slides by the buffer column 34 between the first buffer plate and the second buffer plate and is buffered by the second elastic block 37, the buffer effect is increased, the chassis 41 is prevented from being excessively pushed, the heat dissipation groove 40 is deformed, and the chassis 41 is continuously subjected to fixed pushing force.

(4) The guide block 38 plays a role in guiding, so that the installation position of the case 41 is conveniently controlled, the middle of the connecting frame 12 is hollow, the wiring port 39 of the case 41 is conveniently connected and installed, the position of the guide block 38 is set, the situation that the position is too close to the edge when the case 41 is installed is prevented, and the connecting block is propped against the wiring port 39 of the case 41, so that the wiring of the wiring port 39 is affected.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications and the like made on the basis of the present invention to solve the substantially same technical problems and achieve the substantially same technical effects are included in the scope of the present invention.

Claims (6)

1. Big data machine box frame is used in management of wisdom campus, its characterized in that: the rack comprises a rack body, wherein the rack body comprises a first connecting rod and a second connecting rod, the first connecting rod and the second connecting rod are mutually perpendicular, the rack body is provided with a placement plate, the placement plate is connected with the first connecting rod, the placement plate is connected with the second connecting rod, the placement plate is provided with a connecting groove, a connecting mechanism and connecting columns are arranged in the connecting groove, fixing mechanisms are arranged on two sides of the connecting groove, the connecting columns are connected with the connecting mechanism, the connecting mechanisms are uniformly arranged, positioning blocks are arranged at the ends of the connecting columns, the positioning blocks are connected with the connecting groove, the positioning blocks are connected with the placement plate, a positioning mechanism is arranged below the connecting mechanism, the positioning mechanism is connected with the connecting mechanism in an inserting mode, the fixing mechanism is connected with the positioning mechanism, a connecting plate and a pushing mechanism are arranged on the placement plate, the pushing mechanism is provided with a connecting frame, the connecting frame is connected with the placement plate, and the connecting plate is connected with the pushing mechanism; the connecting mechanism comprises a first connecting block, a second connecting block and a connecting block, wherein the first connecting block is connected with the connecting block, the connecting block is connected with the second connecting block, the connecting block is connected with the connecting column, the first connecting block and the second connecting block are respectively provided with a first inserting block, the first inserting block and the first connecting block are of an integrated structure, and the first inserting block and the second connecting block are of an integrated structure; the positioning mechanism comprises a positioning plate, a first groove and a second groove are formed in the positioning plate, the first groove is connected with the second groove, a second inserting block is arranged above the positioning plate, a rotating shaft and rotating blocks are arranged on two sides of the positioning plate, and the rotating blocks rotate along the rotating shaft; the fixing mechanism comprises a fixing block and a sliding block, the sliding block is in sliding connection with the fixing block, the fixing block is provided with a slot and a first limit groove, the sliding block is provided with a limiting block, and the limiting block slides along the first limit groove; the pushing mechanism comprises a pushing cylinder, a pushing block and a buffer mechanism, wherein the pushing cylinder is connected with the connecting plate, the pushing block is in sliding connection with the pushing cylinder, the buffer mechanism is connected with the pushing block, and the buffer mechanism is connected with the connecting frame.

2. The big data set rack for intelligent campus management according to claim 1, wherein: the locating plate is uniformly provided with first elastic blocks, the positions of the first elastic blocks correspond to the positions of the connecting columns, and the first elastic blocks are of concave arc structures.

3. The big data set rack for intelligent campus management according to claim 1, wherein: the buffer mechanism comprises a first buffer plate, a buffer column, a second buffer plate, a limit column, a second limit groove and a buffer spring, wherein the first buffer plate is in sliding connection with the buffer column, the other end of the buffer column is fixedly connected with the second buffer plate, the second buffer plate is connected with the limit column, the second limit groove is formed in the first buffer plate, the limit column slides in the second limit groove, the second buffer plate is connected with the buffer spring, and the buffer spring is connected with the connecting frame.

4. A big data set rack for intelligent campus management according to claim 3, wherein: the second buffer plate is provided with a second elastic block, and the second elastic block is arranged between the first buffer plate and the second buffer plate.

5. The big data set rack for intelligent campus management according to claim 1, wherein: the placing plate is provided with a guide block, and the guide block is connected with the first connecting rod.

6. The installation method of the big data box rack for intelligent campus management as claimed in claim 1, which is characterized by comprising the following steps:

(1) Mounting of pushing mechanism

a. The method comprises the steps of fixing a propelling cylinder with a propelling block in a threaded connection manner, fixing the other surface of the propelling block with a first buffer plate, fixedly connecting a buffer column, a limit column, a second elastic block with a second buffer plate, inserting the buffer column into a preset mounting hole in the first buffer plate, mounting the limit column into a second limit groove, mounting a buffer spring on the back surface of the second buffer plate, and fixing the buffer spring with a connecting frame to finish mounting;

(2) Mounting of locomotive frame

a. The first connecting rod and the second connecting rod are connected in a threaded manner, the first connecting rods around the first connecting rod are fixed, the placing plate is placed along the first connecting rod to be installed from top to bottom, and the placing plate is installed on the second connecting rod and is fixedly connected in a threaded manner;

b. presetting insertion holes in the connecting grooves, sequentially and uniformly mounting the connecting mechanisms on the connecting columns, welding and fixing, inserting the end parts of the connecting columns into the insertion holes, inserting and fixing the other ends of the connecting columns by using positioning blocks, and fixing the positioning blocks and the placing plates through threads;

c. assembling the pushing mechanism in advance, inserting the pushing mechanism into a gap between the second connecting rod and the placing plate, installing the pushing mechanism on the connecting plate, and installing the pushing mechanism by taking the position of the pushing mechanism inserted into the installing groove as a reference on the connecting plate in advance;

d. the positioning mechanism is inserted from the bottom of the placement plate, the first groove, the second groove and the second connecting block are inserted from bottom to top, the first elastic block is installed from bottom to top until the first elastic block is propped against the connecting column, the rotating block is rotated to enable the rotating block to rotate to a position of a mounting groove preset by the fixed block, the sliding block is dragged, the limiting block is enabled to move to one end of the first limiting groove until the rotating block is propped against the fixed block, the sliding block is moved, the limiting block is moved to an original position, the sliding block is marked by the limiting block during movement, the end part moving to the second limiting groove is used for completing movement operation, and the rotating block is fixed between the fixed block and the sliding block;

e. the bottom of the guide block is placed on the placing plate, one side of the guide block is close to the first connecting rod, and the guide block is fixed through threaded connection;

(3) Mounting of chassis

a. Placing the chassis on a placing plate, wherein one side of the chassis is close to the guide block, so that the second plug block is inserted into a radiating groove in the chassis, adjusting according to the length of the chassis, and determining the primary installation position of the chassis;

b. the pushing cylinder is opened, the connecting frame is operated to the position of the chassis, the chassis is propped against, the buffer spring is contracted, the second elastic block props against the first buffer plate, the heat dissipation groove props against the second plug block, and the fixing of the position of the chassis is completed;

c. and connecting the wiring ports of the chassis with the data lines respectively to complete the integral installation.