CN114489275B - Edge computer data acquisition server and installation method thereof - Google Patents

Abstract

The invention relates to an edge computer data acquisition server and an installation method thereof, belonging to the field of server equipment. The technical scheme includes that the edge computer data acquisition server comprises a server main body, wherein two bottom plates and linkage gears are arranged on the bottom surface of the server main body, the two bottom plates are symmetrically arranged in a central mode through rotating shafts of the linkage gears, racks are arranged on the bottom plates, the two racks are meshed with the linkage gears, a positioning mechanism is arranged on the linkage gears, a guiding mechanism is arranged between the bottom plates and the server main body, the two bottom plates can stretch towards two sides of the server main body, and installation portions are arranged on the two bottom plates. The invention has the beneficial effects that the total length of the bottom plates is adjusted in a sliding way, so that the server can be adapted to cabinets with different sizes and can be stably arranged in the cabinet, the bottom plates at the two sides are mutually matched through the linkage gears, the telescopic distances to the two sides are kept equal, the server is prevented from shaking, and the management and protection of the server are facilitated.

Description

Edge computer data acquisition server and installation method thereof

Technical Field

The invention belongs to the field of server equipment, and particularly relates to an edge computer data acquisition server and an installation method of the edge computer data acquisition server.

Background

The computer data acquisition is to convert various parameters of the measured object into electric quantity from non-electric quantity after the sensor is properly converted, and then input the electric quantity into a computer for processing or storing and recording through the steps of signal conditioning, sampling, quantization, encoding, transmission and the like.

The edge computer data acquisition server is a bridge between the field device and the edge computer master station, a plurality of groups of edge computer data acquisition servers are generally placed in the cabinet, centralized management and placement are further carried out on the data acquisition servers, protection of the data acquisition servers can be achieved, the phenomenon of messy accumulation between the edge computer data acquisition servers and connecting lines is avoided, signal interference is avoided, at present, most of the installation boards installed on the bottom surfaces of the servers are of an integral fixed connection structure, but due to the fact that the space in which the cabinet can be placed is limited, when the overall length of the installation boards and the servers is larger than the length of the space in which the cabinet is placed, the servers cannot be placed in the cabinet, or when the cabinet is replaced, the installation size is not adapted, and therefore management and protection of the servers are easily affected.

Disclosure of Invention

The invention provides an edge computer data acquisition server with an adjustable installation size, aiming at the problem that the installation size of the existing edge computer data acquisition server is not matched with a cabinet.

In order to solve the problems, the technical scheme includes that the edge computer data acquisition server comprises a server main body, wherein two bottom plates and linkage gears are arranged on the bottom surface of the server main body, the linkage gears are positioned in the center of the bottom surface of the server main body, the two bottom plates are symmetrically arranged by taking a rotating shaft of the linkage gears as a center, racks are arranged on the bottom plates, the two racks are meshed with the linkage gears, a positioning mechanism is arranged on the linkage gears, a guide mechanism is arranged between the bottom plates and the server main body, the two bottom plates can stretch and retract to two sides of the server main body for a certain distance respectively, and mounting parts are arranged on the sides, away from each other, of the two bottom plates respectively. Through the bottom surface installation at edge computer data acquisition server can slide flexible bottom plate to both sides, the total length of bottom plate can carry out sliding adjustment, thereby make when installing the server inside the rack, can adjust the distance between bottom plate both ends and the server side according to rack internally mounted size, and then make the total length between bottom plate and the server of server both sides and rack internally mounted size looks adaptation, make the rack of server adaptation not unidimensional, and can install inside the rack steadily, the both sides bottom plate mutually support through the linkage gear, the flexible distance to both sides keeps equality, make the server keep the fixed position at the middle part in the rack, do not take place sideslip and rock, be favorable to the management protection of edge computer data acquisition server.

Preferably, the guiding mechanism comprises two guiding strips arranged on the bottom surface of the server main body, the two guiding strips are respectively located at a group of bottom edges of the server main body, which are parallel to the extending direction of the bottom plate, and the length of the two guiding strips is identical to that of the bottom edges, the two bottom plates are located between the two guiding strips, the mutually opposite surfaces of the guiding strips are respectively provided with a guiding groove, the side edges of the bottom plates, which are close to the guiding strips, are provided with sliding blocks, and the sliding blocks are located in the guiding grooves and can slide along the guiding grooves. The guide mechanism is long along the side edge of the bottom plate of the server main body, the guide distance is long, gaps between the bottom plate and the server main body can be shielded, the integral integrity of the edge computer data acquisition server is improved, the durability is improved, and the entry of dust is reduced.

Preferably, the positioning mechanism comprises a threaded column, the upper end of the threaded column is rotationally connected with the server main body, the rotation axis of the threaded column is perpendicular to the bottom surface of the server main body, an internal thread ring is arranged on the threaded column through threads, a through hole is formed in the center of the linkage gear, the diameter of the through hole is matched with the large diameter of the threaded column, and the linkage gear is rotationally arranged on the threaded column and located between the bottom surface of the server main body and the internal thread ring. Through manual rotation screw thread post, make the internal thread ring reciprocate, the internal thread ring can cooperate the bottom surface of server main part to press from both sides the linkage gear tightly, and then the locking rack, fixes the total length of two bottom plates, eliminates the part clearance after the installation of edge computer data acquisition server, reduces the vibration, improves the durability of installation stability and equipment.

Preferably, a positioning block is arranged on one surface of the internal thread ring, which is close to the linkage gear, a positioning hole matched with the shape of the positioning block is arranged on one surface of the linkage gear, which is close to the internal thread ring, and the radial position of the positioning hole is matched with that of the positioning block by taking the rotation axis of the thread column as a reference. The rigidity positioning is adopted, the friction force positioning matched with clamping is adopted to further improve the positioning effect and the stability.

Preferably, the bottom of screw thread post is equipped with the end hole, installs in the end hole and rotates the handle, rotates the handle and be the arc, rotates the straight line distance between handle both ends and the diameter looks adaptation of end hole, rotates the both ends of handle and articulates with the inner wall of end hole respectively, when rotating the handle and overturn horizontal position along the articulated shaft, rotates the handle and is located inside the end hole. The screw thread post is rotated through the rotation handle, so that the operation is convenient, and meanwhile, the rotation handle can be stored into the screw thread post, so that the position interference in the cabinet is reduced.

Preferably, the bottom surface of the server main body is provided with an annular groove, the annular groove takes the rotation axis of the threaded column as the center, the diameter of the outer groove wall of the annular groove is smaller than the diameter of the tooth top circle of the linkage gear, one surface of the linkage gear facing the server main body is provided with a limiting ring, the diameter of the limiting ring is matched with the annular groove, the limiting ring is installed in the annular groove, and the height of the limiting ring is larger than the depth of the annular groove. Realize the circumference location of linkage gear, can suitably increase the diameter of linkage gear center through-hole, make pore wall and threaded rod break away from the contact, avoid friction drive threaded rod when linkage gear rotates, improve linkage gear pivoted smoothness nature.

Preferably, in the telescoping direction of the bottom plate, the side of the bottom plate located outside is aligned with the corresponding bottom edge of the server main body in a retracted state, the mounting part is a certain number of mounting holes arranged on the bottom plate, the mounting holes are close to the outer side edge of the bottom plate, the mounting holes are arranged in a straight line, the straight line of the mounting holes is parallel to the outer side edge of the bottom plate, a pull plate is arranged on the outer side edge of the bottom plate, and the pull plate protrudes out of the side surface of the server main body. The storage and the pulling-out of the bottom plate are facilitated, and the integral integrity of the edge computer data acquisition server is improved.

Preferably, the bottom plate is L-shaped, the length of the side of the bottom plate positioned at the outer side of the telescopic direction is matched with the length of the corresponding side of the bottom surface of the server main body, and the rack is arranged on one side of the bottom plate positioned at the inner side of the L-shaped. Make the limit length of bottom plate and the long looks adaptation of standard limit of server main part, its upper mounting portion can adapt traditional rack mounting structure, improves the commonality, and firm in connection.

Preferably, the top surface and/or at least two side surfaces of the server main body are provided with heat dissipation fins, and one side surface of the server main body is provided with a port.

On the other hand, the invention also provides an installation method of the edge computer data acquisition server, which comprises the following steps:

s1, loosening the positioning mechanism to enable the linkage gear to rotate freely;

s2, pulling out the bottom plates for a certain length, and matching the linkage gears with the two racks, wherein the extension lengths of the bottom plates at the two sides are the same, so that the total length of the two bottom plates is matched with the installation length of the installed cabinet;

s3, connecting a bottom plate with the side wall of one side of the cabinet through the mounting part;

s4, finely adjusting the extension length of the bottom plate, and connecting the other bottom plate with the side wall of the other side of the cabinet;

s5, locking the positioning mechanism;

repeating the steps S1-S5, and installing the required number of edge computer data acquisition servers in the cabinet.

The installation method is convenient to operate, the telescopic lengths of the bottom plates at the two sides are synchronously adjusted, the edge computer data acquisition servers can be installed in cabinets with different sizes, movable parts of the servers are locked after installation, vibration is avoided, the installation is firmer, and the management and protection of the edge computer data acquisition servers are facilitated.

Preferably, step S1 includes: the threaded column arranged in the center of the linkage gear is rotated, an internal threaded ring arranged on the threaded column is moved downwards through threaded fit, and a positioning block on the upper surface of the internal threaded ring is separated from a positioning hole on the bottom surface of the linkage gear, so that the linkage gear can freely rotate; the step S5 comprises the following steps: the threaded column is reversely rotated, the internal thread ring is enabled to move upwards through threaded matching, the positioning block is enabled to be aligned with the positioning hole, the positioning block is inserted into the positioning hole along with the upward movement of the internal thread ring, the internal thread ring continues to move upwards, and the linkage gear is clamped by matching with the bottom surface of the server main body, so that the linkage gear cannot rotate freely. The locking structure is convenient to operate and good in fixing effect.

According to the technical scheme, the bottom surface of the edge computer data acquisition server is provided with the bottom plates which can slide and stretch towards two sides, the total length of the bottom plates is adjusted in a sliding mode, the bottom plates at two sides are matched with each other through the linkage gears, the stretching distances towards two sides are kept equal, the server is kept at a fixed position in the middle of the cabinet, and therefore when the server is installed in the cabinet, the distance between two ends of the bottom plates and the side surfaces of the server can be adjusted according to the internal installation size of the cabinet, and the total length between the bottom plates at two sides of the server and the server is matched with the internal installation size of the cabinet, so that the server can be matched with cabinets with different sizes; the positioning mechanism is arranged, the internal thread ring moves up and down through rotating the thread column, the internal thread ring can be matched with the bottom surface of the server main body to clamp the linkage gear, meanwhile, the positioning hole is matched with the positioning block to realize rigid positioning, the linkage gear is locked, the rack is further locked, the total length of the two bottom plates is fixed, the gap between parts of the edge computer data acquisition server after being installed is eliminated, vibration is reduced, the installation stability and the durability of equipment are improved, friction is avoided between the linkage gear and the thread column when the linkage gear rotates freely, no rotation resistance exists between the linkage gear and the thread column, the thread column is provided with a storable rotation handle, the operation is convenient, and the position interference in the cabinet is reduced after the linkage gear is stored; the guide structure and the bottom plate are reasonable in shape design, and the edge computer data acquisition server is strong in integration; meanwhile, the method for installing the edge computer data acquisition server is convenient to operate, the telescopic lengths of the bottom plates at the two sides can be synchronously adjusted, the edge computer data acquisition server can be installed in cabinets with different sizes, the locking structure is convenient to operate, the fixing effect is good, movable parts of the server are locked after installation, vibration is avoided, the installation is firmer, and the management and protection of the edge computer data acquisition server are facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of an embodiment of the invention.

Fig. 2 is a schematic bottom view of an embodiment of the present invention.

Fig. 3 is an exploded view of an embodiment of the invention.

Fig. 4 is a schematic structural view of a linkage gear according to an embodiment of the present invention.

Fig. 5 is an exploded view of a positioning mechanism in an embodiment of the invention.

In the figure: 1. the server comprises a server body, heat dissipation fins, ports, guide strips, bottom plates, racks, pull plates, mounting holes, sliding blocks, guide grooves, positioning mechanisms, linkage gears, screw columns, internal screw rings, positioning blocks, rotary handles, positioning holes, limiting rings and annular grooves.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

As shown in fig. 1 to 5, an edge computer data acquisition server comprises a server main body 1, two bottom plates 5 and a linkage gear 111 are installed on the bottom surface of the server main body 1, the linkage gear 111 is positioned at the center of the bottom surface of the server main body 1, the two bottom plates 5 are symmetrically arranged with the rotating shaft of the linkage gear 111 as a center, two racks 6 are parallel to each other and are meshed with the linkage gear 111, the two bottom plates 5 can synchronously stretch to both sides of the server main body for a certain distance through the meshing of the racks 6 and the linkage gear 111, the side edges of the two bottom plates 5 away from each other are set as outer side edges (namely, the side edges positioned at the outer side in the stretching direction of the bottom plates 5), the bottom plates 5 are in an L shape, the length of the outer side edges of the bottom plates 5 is matched with the length of the corresponding side of the bottom surface of the server main body 1, the racks 6 are arranged on one side of the bottom plates 5 positioned at the inner side of the L shape, the linkage gear 111 is provided with a positioning mechanism 11, a guide mechanism is arranged between the bottom plate 5 and the server main body 1, the guide mechanism comprises two guide strips 4 arranged on the bottom surface of the server main body 1, the two guide strips 4 are respectively positioned at a group of bottom edges of the server main body 1 parallel to the extending direction of the bottom plate, the length of the guide strips is the same as that of the bottom edges, the two bottom plates 5 are positioned between the two guide strips 4, the surfaces of the two guide strips 4 opposite to each other are respectively provided with a guide groove 10, the side edges of the bottom plates 5 close to the guide strips 4 are provided with a sliding block 9, the sliding block 9 is positioned in the guide grooves 10 and can slide along the guide grooves 10, the horizontal position of the bottom surface of the bottom plate 5 is not lower than the horizontal position of the bottom surface of the guide strips 4, the outer side edges of the bottom plate 5 are aligned with the corresponding bottom edges of the server main body 1 in the retracted state, the outer side edges of the bottom plate 5 are provided with a pull plate 7, the pull plate 7 protrudes out of the side surface of the server main body 1, the top surface of the server main body 1 and two side surfaces corresponding to the outer side edge of the bottom plate are provided with radiating fins 2, and one side surface of the server main body 1 corresponding to the guide strip is provided with a port 3;

the positioning mechanism 11 comprises a threaded column 112, the upper end of the threaded column 112 is connected with the server main body 1, the rotation axis of the threaded column 112 is perpendicular to the bottom surface of the server main body 1, an inner threaded ring 113 is arranged on the threaded column 112 through threads, a through hole is formed in the center of a linkage gear 111, the linkage gear 111 is rotatably arranged on the threaded column 112 through the through hole and is positioned between the bottom surface of the server main body 1 and the inner threaded ring 113, the diameter of the through hole is slightly larger than the large diameter of the threaded column 112, the two can relatively rotate without friction interference, in order to realize circumferential positioning of the linkage gear 111, an annular groove 15 is formed in the bottom surface of the server main body 1, the annular groove 15 takes the rotation axis of the threaded column 112 as the center, the diameter of the outer side wall of the annular groove 15 is smaller than the tooth tip circle diameter of the linkage gear 111, a limiting ring 14 is arranged on the side of the linkage gear facing the server main body 1, the diameter of the limiting ring 14 is matched with the annular groove 15, the limiting ring 14 is arranged in the annular groove 15, and the height of the limiting ring 14 is larger than the depth of the annular groove 15; the positioning block 114 is arranged on one surface of the internal thread ring 113, which is close to the linkage gear 111, the positioning hole 13 matched with the shape of the positioning block 114 is arranged on one surface of the linkage gear 111, which is close to the internal thread ring 113, the radial position of the positioning hole 13 and the positioning block 114 is matched with each other by taking the rotation axis of the thread column 112 as a reference, the thread column 112 is rotated, the internal thread ring 113 can move up and down through threaded matching, when the internal thread ring 113 moves up, the positioning block 114 is aligned with the positioning hole 13, the positioning block 114 is inserted into the positioning hole 13, the linkage gear 111 is clamped by the internal thread ring 113 matched with the bottom surface of the server main body 1, the fixation of the linkage gear 111 is realized, and the reverse rotation of the thread column 112 can loosen the linkage gear 111 to enable the linkage gear 111 to rotate freely;

in order to facilitate the rotation of the threaded column, the bottom end of the threaded column is provided with a rotation handle, specifically, the bottom end of the threaded column 112 is provided with an end hole, the rotation handle 12 is installed in the end hole, the rotation handle 12 is arc-shaped, the straight line distance between the two ends of the rotation handle 12 is matched with the diameter of the end hole, the two ends of the rotation handle 12 are respectively hinged with the inner wall of the end hole, when the rotation handle 12 is positioned inside the end hole when being overturned to a horizontal position along a hinge shaft, the rotation handle 12 is downwards overturned out when the threaded column is required to be rotated, the rotation handle 12 is vertical to the lower end face of the threaded column, and the force application is facilitated.

The outer sides of the two bottom plates 5 are respectively provided with a mounting part for connecting the cabinet, in the embodiment, the mounting parts are a certain number of mounting holes 8, the mounting holes 8 are arranged in a straight line, the mounting holes 8 are close to the outer sides of the bottom plates 5, and the straight line where the mounting holes 8 are positioned is parallel to the outer sides of the bottom plates 5; in addition, the mounting portion may be provided with mounting structures such as mounting grooves and quick-screw bolts.

The use process of the server is as follows:

firstly, installing servers in a cabinet, then, intensively managing and using a plurality of groups of servers, wherein in the idle or transportation process of the servers, the bottom plate 5 is in a storage state, the outer side edge of the bottom plate 5 is aligned up and down with the corresponding bottom edge line of the server main body 1, and the pull plate 7 protrudes out of the side surface of the server main body;

during installation, the rotary handle 12 is turned out of the bottom end hole of the threaded column, the rotary handle 12 is manually screwed to enable the threaded column 112 to rotate, the inner threaded ring 113 is moved downwards through threaded fit, and the positioning block 114 on the upper surface of the inner threaded ring 113 is separated from the positioning hole 13 on the bottom surface of the linkage gear 111, so that the linkage gear 111 can rotate freely; then the corresponding bottom plate 5 is pulled out by pulling the pulling plate 7 on one side to a certain length relative to the server main body 1, the bottom plate 5 on the other side stretches synchronously to the other side by the meshing action of the racks 6 and the linkage gear 111, at the moment, the bottom plate 5 can be moved according to the installation length of the inside of the cabinet, after the installation distance of the bottom plate 5 is adjusted, the threaded column 112 can be reversely rotated, so that the threaded column 112 drives the internal threaded ring 113 of the threaded column to move upwards, the positioning block 114 is reinserted in the positioning hole 13, meanwhile, the internal threaded ring 113 is matched with the bottom surface of the server main body to clamp the linkage gear 111, the linkage gear 111 is in a fixed state, two groups of racks 6 meshed with the linkage gear 111 are in a fixed state, finally, the aim of fixing the total length of two ends of the two bottom plates 5 is achieved, and then the rotating handle 12 is turned upwards and is accommodated in the bottom end hole of the threaded column;

finally, the server main body 1 is installed in the cabinet through the installation hole 8, and the installation of the edge computer data acquisition server is completed; the outer side edges of the two bottom plates can be fixed first, and the positioning mechanism is locked.

Based on the structure and principle, the invention also provides an installation method of the edge computer data acquisition server, which comprises the following steps:

s1, loosening the positioning mechanism 11 to enable the linkage gear 111 to rotate freely;

s2, pulling out the bottom plates 5 for a certain length, and matching the linkage gears 111 with the two racks 6, wherein the extension lengths of the bottom plates 5 at the two sides are the same, so that the total length of the two bottom plates 5 is matched with the installation length of the installed cabinet;

s3, connecting a bottom plate 5 with the side wall of one side of the cabinet through the mounting part;

s4, finely adjusting the extension length of the bottom plate 5, and connecting the other bottom plate 5 with the side wall of the other side of the cabinet;

s5, locking the positioning mechanism 11;

repeating the steps S1-S5, and installing the required number of edge computer data acquisition servers in the cabinet.

Wherein, step S1 includes: rotating the threaded column 112, and enabling the internal thread ring 113 to move downwards through threaded fit, wherein a positioning block 114 on the upper surface of the internal thread ring 113 is separated from a positioning hole 13 on the bottom surface of the linkage gear 111, so that the linkage gear 111 can rotate freely; the step S5 comprises the following steps: the threaded column 112 is reversely rotated, the internal thread ring 113 is upwards moved through threaded matching, the positioning block 114 is aligned with the positioning hole 13, the positioning block 114 is inserted into the positioning hole 13 along with the upwards movement of the internal thread ring 113, the internal thread ring 113 continues to upwards move, and the linkage gear 111 is clamped by matching with the bottom surface of the server main body 1, so that the linkage gear 111 cannot freely rotate.

According to the embodiment, the bottom surface of the edge computer data acquisition server is provided with the bottom plates which can slide and stretch towards two sides, the total length of the bottom plates is adjusted in a sliding mode, the bottom plates at two sides are matched with each other through the linkage gears, the stretching distances towards two sides are kept equal, the server is kept at a fixed position in the middle of the cabinet, and therefore when the server is installed in the cabinet, the distance between two ends of the bottom plates and the side surfaces of the server can be adjusted according to the internal installation size of the cabinet, and the total length between the bottom plates at two sides of the server and the server is matched with the internal installation size of the cabinet, so that the server can be matched with cabinets with different sizes; the positioning mechanism is arranged, the internal thread ring moves up and down through manual rotation of the thread column, the internal thread ring can be matched with the bottom surface of the server main body to clamp the linkage gear, meanwhile, the positioning hole is matched with the positioning block to realize rigid positioning, the linkage gear is locked, the rack is further locked, the total length of the two bottom plates is fixed, the gap between parts of the edge computer data acquisition server after installation is eliminated, vibration is reduced, the installation stability and the durability of equipment are improved, friction is avoided between the linkage gear and the thread column when the linkage gear rotates freely, rotation resistance does not exist mutually, the thread column is provided with a storable rotation handle, the operation is convenient, and the position interference in the cabinet is reduced after the linkage gear is stored; the guide structure and the bottom plate are reasonable in shape design, and the edge computer data acquisition server is strong in integration; meanwhile, the method for installing the edge computer data acquisition server is convenient to operate, the telescopic lengths of the bottom plates at the two sides can be synchronously adjusted, the edge computer data acquisition server can be installed in cabinets with different sizes, the locking structure is convenient to operate, the fixing effect is good, movable parts of the server are locked after installation, vibration is avoided, the installation is firmer, and the management and protection of the edge computer data acquisition server are facilitated.

Although the present invention has been described in detail by way of preferred embodiments with reference to the accompanying drawings, the present invention is not limited thereto. Various equivalent modifications and substitutions may be made in the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and it is intended that all such modifications and substitutions be within the scope of the present invention/be within the scope of the present invention as defined by the appended claims. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (9)

1. The edge computer data acquisition server is characterized by comprising a server main body (1), wherein two bottom plates (5) and a linkage gear (111) are arranged on the bottom surface of the server main body (1), the linkage gear (111) is positioned in the center of the bottom surface of the server main body (1), the two bottom plates (5) are symmetrically arranged by taking a rotating shaft of the linkage gear (111) as a center, racks (6) are arranged on the bottom plates (5), the two racks (6) are meshed with the linkage gear (111), a positioning mechanism (11) is arranged on the linkage gear (111), a guide mechanism is arranged between the bottom plates (5) and the server main body (1), the two bottom plates (5) can stretch to two sides of the server main body for a certain distance respectively, and mounting parts are respectively arranged on the sides, far away from each other, of the two bottom plates (5);

the positioning mechanism (11) comprises a threaded column (112), the upper end of the threaded column (112) is rotationally connected with the server main body (1), the rotation axis of the threaded column (112) is perpendicular to the bottom surface of the server main body (1), an inner threaded ring (113) is installed on the threaded column (112) through threads, a through hole is formed in the center of the linkage gear (111), the diameter of the through hole is matched with the major diameter of the threaded column (112), the linkage gear (111) is rotationally installed on the threaded column (112), and the linkage gear (111) is located between the bottom surface of the server main body (1) and the inner threaded ring (113).

2. The edge computer data acquisition server according to claim 1, wherein the guide mechanism comprises two guide strips (4) arranged on the bottom surface of the server main body (1), the two guide strips (4) are respectively positioned at a group of bottom edges of the server main body (1) along the expansion and contraction direction of a bottom plate, and the lengths of the guide strips (4) are the same as those of the bottom edges; the two bottom plates (5) are positioned between the two guide strips (4), guide grooves (10) are respectively arranged on the opposite surfaces of the guide strips (4), sliding blocks (9) are arranged on the side edges, close to the guide strips (4), of the bottom plates (5), and the sliding blocks (9) are positioned in the guide grooves (10) and can slide along the guide grooves (10).

3. The edge computer data acquisition server according to claim 1, wherein a positioning block (114) is arranged on one surface of the internal thread ring (113) close to the linkage gear (111), a positioning hole (13) matched with the positioning block (114) in shape is arranged on one surface of the linkage gear (111) close to the internal thread ring (113), and the radial position of the positioning hole (13) is matched with that of the positioning block (114) by taking the rotation axis of the thread column (112) as a reference.

4. The edge computer data acquisition server according to claim 1, wherein an end hole is formed in the bottom end of the threaded column (112), a rotary handle (12) is installed in the end hole, the rotary handle (12) is arc-shaped, the straight line distance between the two ends of the rotary handle (12) is matched with the diameter of the end hole, the two ends of the rotary handle (12) are hinged with the inner wall of the end hole respectively, and when the rotary handle (12) is turned to a horizontal position along a hinge shaft, the rotary handle (12) is located inside the end hole.

5. The edge computer data acquisition server according to claim 1, wherein an annular groove (15) is formed in the bottom surface of the server main body (1), the annular groove (15) is centered on the rotation axis of the threaded column (112), the outer groove wall diameter of the annular groove (15) is smaller than the tooth top circle diameter of the linkage gear (111), a limiting ring (14) is arranged on one surface of the linkage gear, facing the server main body (1), of the linkage gear, the diameter of the limiting ring (14) is matched with the diameter of the annular groove (15), the limiting ring (14) is installed in the annular groove (15), and the height of the limiting ring (14) is larger than the depth of the annular groove (15).

6. A marginal computer data acquisition server according to any one of claims 1-3, wherein in the telescoping direction of the base plate (5), the outer side of the base plate (5) is aligned with the corresponding bottom side of the server body (1) in the retracted state, the mounting portion is a certain number of mounting holes (8) provided on the base plate (5), the mounting holes (8) are close to the outer side of the base plate (5), the mounting holes (8) are arranged in a straight line, the straight line of the mounting holes (8) is parallel to the outer side of the base plate (5), a pull plate (7) is provided on the outer side of the base plate (5), and the pull plate (7) protrudes out of the side surface of the server body (1).

7. An edge computer data acquisition server according to any one of claims 1-3, wherein the bottom plate (5) is L-shaped, the length of the side of the bottom plate (5) located at the outer side in the extending direction is adapted to the length of the corresponding side of the bottom surface of the server main body (1), and the rack (6) is disposed on one side of the bottom plate (5) located at the inner side of the L-shape.

8. A method of installing an edge computer data acquisition server according to any one of claims 1 to 7, comprising the steps of:

s1, loosening the positioning mechanism (11) to enable the linkage gear (111) to freely rotate;

s2, pulling out the bottom plates (5) for a certain length, and matching the two racks (6) through the linkage gear (111), wherein the extension lengths of the bottom plates (5) at the two sides are the same, so that the total length of the two bottom plates (5) is matched with the installation length of the installed cabinet;

s3, connecting a bottom plate (5) with the side wall of one side of the cabinet through the mounting part;

s4, finely adjusting the extension length of the bottom plate (5), and connecting the other bottom plate (5) with the side wall of the other side of the cabinet;

s5, locking the positioning mechanism (11);

repeating the steps S1-S5, and installing the required number of edge computer data acquisition servers in the cabinet.

9. The mounting method according to claim 8, wherein:

the step S1 includes: a threaded column (112) arranged in the center of the linkage gear (111) is rotated, an internal threaded ring (113) arranged on the threaded column (112) is moved downwards through threaded fit, a positioning block (114) on the upper surface of the internal threaded ring (113) is separated from a positioning hole (13) on the bottom surface of the linkage gear (111), and the linkage gear (111) can freely rotate;

the step S5 includes: the threaded column (112) is reversely rotated, the internal thread ring (113) is upwards moved through threaded matching, the positioning block (114) is aligned to the positioning hole (13), along with the upwards movement of the internal thread ring (113), the positioning block (114) is inserted into the positioning hole (13), the internal thread ring (113) continues to upwards move, the linkage gear (111) is clamped by matching with the bottom surface of the server main body (1), and the linkage gear (111) cannot freely rotate.