CN112095987B - Anti-static floor mounting bracket - Google Patents

Abstract

The invention relates to the technical field of anti-static floor mounting frames, in particular to an anti-static floor mounting bracket, which comprises a supporting mechanism, an adjusting mechanism, a sliding mechanism, a fixing mechanism and a mounting mechanism, wherein the supporting mechanism is arranged on the supporting mechanism; the adjusting mechanism is arranged on the inner side of the supporting mechanism for laying the anti-static floor, and after the bottom of the supporting mechanism is fixed, the adjusting mechanism is rotated clockwise or anticlockwise, so that the distance between the supporting mechanism and the ground can be quickly adjusted, and the anti-static floor with different heights can be conveniently installed; the bottom of the supporting mechanism is connected with a sliding mechanism in a sliding mode, the surface of the sliding mechanism is connected with an installation mechanism used for installing a socket in a sliding mode, the sliding mechanism on the sliding supporting mechanism achieves adjustment of the position of the installation mechanism in the Y-axis direction, the installation mechanism located on the sliding mechanism in a sliding mode achieves adjustment of the position of the installation mechanism, and therefore the socket can be installed at any position of the bottom of the anti-static floor; the fixing mechanisms at the two ends of the sliding mechanism realize the limit of the pair of sliding mechanisms.

Description

Anti-static floor mounting bracket

Technical Field

The invention relates to the technical field of anti-static floor mounting frames, in particular to an anti-static floor mounting bracket.

Background

The antistatic floor is also called as a dissipative static floor, and is a floor, when the floor is grounded or connected to any point with lower potential, charges can be dissipated, the floor is characterized in that the resistance is between 5 th power of 10 and 9 th power of 10 ohms, the antistatic elevated floor is mainly applied to computer rooms, data processing centers, laboratories, microwave communication station rooms, program-controlled telephone exchange rooms, mobile communication rooms, satellite ground station rooms, radio station control rooms, television transmitting station control rooms, broadcast control rooms, monitoring rooms, central control rooms and the like, a mounting bracket of the antistatic floor is usually composed of a base and a support rod, and the floor is mounted on the support rod during mounting.

Present anti-static floor mount frame is in the installation when preventing the static floor, it will prevent the static floor and lay the support after fixed to ground with the support usually, do not install the mechanism of fixing electrical equipment socket on the present anti-static floor support, direct place the socket on the surface on preventing the static floor when electrical apparatus is more in a little computer lab, pass the power cord floor and be connected with the socket, on the one hand caused the floor mixed and disorderly, on the other hand, if directly with the hole of seting up on the floor of socket block, be difficult to will prevent the fine fixing of static floor and electrical apparatus socket, be difficult to install the socket wantonly on preventing the static floor, cause the socket to drop in the hole on preventing the static floor surface easily when using electrical apparatus.

Disclosure of Invention

In view of the problems in the prior art, the present invention provides an antistatic floor mounting bracket.

The technical scheme adopted by the invention for solving the technical problems is as follows: prevent static floor installing support, including supporting mechanism, adjustment mechanism, slide mechanism, fixed establishment and installation mechanism for the realization is supported preventing that static floor supports the inboard of supporting mechanism is installed and is used for adjusting whole height adjustment mechanism, support mechanism's bottom sliding connection has the cross-section to be "U" font structure slide mechanism, slide mechanism's surperficial sliding connection has and is used for installing electrical apparatus socket installation mechanism, installation mechanism's top is higher than support mechanism's top, slide mechanism's both sides install with the supporting mechanism lock fixed establishment, two are used for right slide mechanism carries on spacingly fixed establishment's side is "U" font structure.

The supporting mechanism comprises a bottom plate, four supporting columns, a top plate, a supporting rod, a sliding plate and an ejector rod, four corners of the adjusting mechanism are connected with four side walls of the supporting columns in a cylindrical structure and a side wall groove in four directions, the bottom of each supporting column is welded with the bottom plate of a cuboid structure, the four corners of the adjusting mechanism are connected with the ejector rod of a hexagonal prism structure in an equal sliding mode, the four side walls of the ejector rod are welded with the sliding plate relatively, the sliding plate is connected with the supporting columns in a sliding mode, the four top of the ejector rod is welded with the top plate of a rectangular structure and the bottom plate of the ejector rod is parallel to the top plate, the two adjacent top plates are connected with the top plate through screws in a hollow cuboid structure, and the bottom of each top plate is arranged in a groove.

Specifically, adjustment mechanism includes roof-rack, top circle, lead screw, base, rubber pad and carousel, four the equal sliding connection of lateral wall of support column with the slide is contradicted the top circle, transversal personally submit "X" shape structure the four ends of roof-rack respectively with four weld between the top circle, the center department threaded connection of roof-rack with the support column is parallel the lead screw, the top welding of lead screw has the carousel, the bottom of lead screw is rotated and is connected with the base, the bottom of base bonds and has the rubber pad.

Specifically, slide mechanism includes balladeur train, connecting plate and ball, wherein two the bottom relatively sliding connection of branch has two cross-sections to be "L" shape structure the balladeur train, two the welding has the connecting plate that is the cuboid structure between the balladeur train, two the top of balladeur train install with roll connection between the branch the ball, two the balladeur train reaches be "U" font structure between the connecting plate, the connecting plate is located the top of roof-rack.

Specifically, fixed establishment is including pushing away frame, card hole, mounting panel and pressure spring, two the side of balladeur train all welds the mounting panel, is located two on the balladeur train the equal sliding connection in surface of mounting panel has the side to be "U" font structure push away the frame, two push away the frame with all the centre gripping has two between the mounting panel the pressure spring is located two on the balladeur train the bottom equidistance of branch has seted up a plurality of the card hole, two sets of push away the frame block respectively and connect in two sets of the inside in card hole.

Specifically, installation mechanism includes mounting box, dwang, pole setting, clamshell, shell, card post, spring and recess, the sliding surface of connecting plate is connected with the clamshell, the top welding of clamshell has the pole setting, the internal thread of pole setting has the dwang, the top of dwang is rotated and is connected with the mounting box, the surperficial four corners department of clamshell all welds the shell, four the inside of shell all be equipped with sliding connection between the clamshell card post, four bottoms are the arc structure the card post with the centre gripping has between the shell the spring, two sets of have been seted up to the surface equidistance of connecting plate the recess, card post block is connected in two sets of the inside of recess.

The invention has the beneficial effects that:

(1) according to the anti-static floor mounting bracket, the adjusting mechanism is mounted on the inner side of the supporting mechanism for paving the anti-static floor, and after the bottom of the supporting mechanism is fixed, the adjusting mechanism is rotated clockwise or anticlockwise, so that the distance between the supporting mechanism and the ground can be quickly adjusted, and the anti-static floor mounting bracket is beneficial to mounting anti-static floors at different heights; namely: when the anti-static floor is installed, the four support columns are connected to the indoor ground through the four bottom plates and the screws in a threaded mode, the distance between the two support columns is smaller than the length of each support column, the four support columns are fixed to top plates at the tops of the four support columns in a rectangular array mode through the screws, the anti-static floor is directly placed on the tops of the four support columns when installed, one half of the surface of each support column is erected on the four sides of one anti-static floor, more support columns are fixed to the indoor ground according to the method, installation and fixation of more anti-static floors are achieved, the ejector rods at the tops of the four support columns can slide in the support columns, and adjustment of the installation height of the anti-static floor is achieved; confirm the mounting height on antistatic floor after the support column is fixed, when adjusting the mounting height on antistatic floor, clockwise or anticlockwise rotation is located the lead screw of overhead gage center department, because threaded connection between lead screw and the overhead gage, rotate between lead screw and the base and be connected, realized that the overhead gage goes up and down on the lead screw, further in-process promotion that the overhead gage goes up and down or drive the ejector pin and go up and down inside the support column, thereby realized increasing, shorten the overall length of ejector pin and support column, thereby realized will prevent that the antistatic floor installs the not co-altitude on indoor ground.

(2) According to the anti-static floor mounting bracket, the bottom of the supporting mechanism is connected with the sliding mechanism in a sliding manner, the surface of the sliding mechanism is connected with the mounting mechanism for mounting the socket in a sliding manner, the sliding mechanism on the sliding supporting mechanism realizes the adjustment of the position of the mounting mechanism in the Y-axis direction, the mounting mechanism on the sliding mechanism is slid, the adjustment of the position of the mounting mechanism is realized, and therefore the socket is mounted at any position of the bottom of the anti-static floor; namely: if the anti-static floor is installed in places with more sockets such as a microcomputer room, the anti-static floor needing to install the sockets is determined, holes are formed in the installation positions of the sockets on the anti-static floor, it is noted that the area of the holes formed in the anti-static floor is equal to the area of the top of the installation mechanism, the fixing mechanisms on the side walls of the two sliding frames are further pulled, separation between the fixing mechanisms and the supporting rods is achieved, the connecting plate is further pushed and pulled along the side direction of the two supporting rods, sliding of the two sliding frames at the bottoms of the two supporting rods is achieved, the direction of a Y axis of the connecting plate is determined, rolling connection between steel balls and the supporting rods is further achieved when the sliding frames slide, and sliding of the sliding frames is facilitated; when the socket is installed on the floor of a microcomputer room, the upright rod positioned at the top of the sliding shell is held after the position of the connecting plate is determined, force is applied along the side wall direction of the connecting plate, namely, the sliding shell can slide on the surface of the connecting plate, so that the sliding shell can slide in the X direction, when the sliding shell slides on the surface of the connecting plate, the springs in the four shells are in a contraction state, when the springs are contracted, the springs are used for positioning the sliding shell after the clamping columns are buckled with the grooves, the sliding shell is prevented from shaking on the surface of the connecting plate, the accurate position of the rotating rod at the bottom of the anti-static floor is realized, the socket can be freely installed on the surfaces of a plurality of anti-static floors, the hand is extended to the side wall of the rotating rod at the bottom of the installed installing box from the other group of the supporting columns after the position of the installing box is determined, the socket is installed in the installing box, and wires are routed from the bottom of the supporting rods, anticlockwise rotation dwang, realized the mounting box rotates thereupon, hold up the mounting box with the hand spacing hole that passes antistatic floor department inside to loosen again, anticlockwise rotation dwang, realized that the mounting box is ascending at the hole on antistatic floor, when the mounting box with prevent that the parallel and level stall of antistatic floor, realize the installation to the socket, the side avoids the floor mixed and disorderly, fixed effectual, can be on antistatic floor arbitrary installation socket, the socket is not dropping in the hole on antistatic floor surface when using electrical apparatus.

(3) According to the anti-static floor mounting bracket, the two fixing mechanisms are mounted at the two ends of the sliding mechanism, the fixing mechanisms are separated from the supporting mechanism when the sliding mechanism is adjusted, the sliding mechanism can slide on the supporting mechanism at will, the sliding mechanism is fixed through the fixing mechanisms after the position of the sliding mechanism on the supporting mechanism is adjusted, the sliding mechanism is prevented from shaking, and the operation is simple; namely: when the position of adjusting the connecting plate in antistatic floor hole bottom, the direction that deviates from branch simultaneously stimulates two and pushes away the frame, has realized the pressure spring shrink, and further realization two push away the frame and wherein the card hole separation of two branch bottoms, further realization the balladeur train can slide in the bottom of branch.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a structural schematic view of the overall structure of a preferred embodiment of the antistatic floor mounting bracket according to the present invention;

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

FIG. 3 is a schematic view of the connection structure of the supporting mechanism, the adjusting mechanism, the sliding mechanism, the fixing mechanism and the mounting mechanism shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion B shown in FIG. 3;

FIG. 5 is a schematic view of the connection structure of the support rod, the carriage and the fixing mechanism shown in FIG. 1;

FIG. 6 is a schematic view of the connection of the connecting plate to the mounting mechanism shown in FIG. 3;

FIG. 7 is a schematic view of a connection structure between the supporting mechanism and the top frame shown in FIG. 1;

fig. 8 is a schematic view of the adjustment mechanism shown in fig. 1.

In the figure: 1. the device comprises a supporting mechanism, 11, a bottom plate, 12, a supporting column, 13, a top plate, 14, a supporting rod, 15, a sliding plate, 16, a push rod, 2, an adjusting mechanism, 21, a top frame, 22, a top ring, 23, a screw rod, 24, a base, 25, a rubber pad, 26, a rotary disc, 3, a sliding mechanism, 31, a sliding frame, 32, a connecting plate, 33, a ball, 4, a fixing mechanism, 41, a pushing frame, 42, a clamping hole, 43, a mounting plate, 44, a pressure spring, 5, a mounting mechanism, 51, a mounting box, 52, a rotating rod, 53, a vertical rod, 54, a sliding shell, 55, a shell, 56, a clamping column, 57, a spring, 58 and a groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the anti-static floor mounting bracket of the present invention comprises a supporting mechanism 1, an adjusting mechanism 2, a sliding mechanism 3, a fixing mechanism 4 and a mounting mechanism 5, the inner side of the supporting mechanism 1 for supporting the anti-static floor is provided with the adjusting mechanism 2 for adjusting the overall height, the bottom of the supporting mechanism 1 is connected with the sliding mechanism 3 with the section of U-shaped structure in a sliding way, the surface of the sliding mechanism 3 is connected with the mounting mechanism 5 for mounting an electric socket in a sliding way, the top of the installation mechanism 5 is higher than the top of the supporting mechanism 1, the fixing mechanisms 4 buckled with the supporting mechanism 1 are installed on two sides of the sliding mechanism 3, and the side surfaces of the fixing mechanisms 4 used for limiting the sliding mechanism 3 are of U-shaped structures.

Specifically, the supporting mechanism 1 includes a bottom plate 11, four supporting columns 12, top plates 13, supporting rods 14, sliding plates 15 and ejector rods 16, four corners of the adjusting mechanism 2 are slidably connected to four side walls of the supporting columns 12 which are cylindrical structures and have grooved side walls, the bottom of each of the four supporting columns 12 is welded with the bottom plate 11 which is a rectangular structure, the ejector rods 16 which are hexagonal prism structures are slidably connected to the inside of each of the four supporting columns 12, the sliding plates 15 are relatively welded to the side walls of the four ejector rods 16, the sliding plates 15 are slidably connected with the supporting columns 12, the top plates 13 which are rectangular structures and parallel to the bottom plate 11 are welded to the tops of the four ejector rods 16, and the supporting rods 14 which are hollow cuboid structures and have grooved bottoms are fixedly connected between the two adjacent top plates 13 through screws, will four when the installation prevents on the static floor bottom plate 11 and screw threaded connection to indoor ground, and two the distance between support column 12 will be less than the length of branch 14, will four branch 14 is the rectangular array and passes through the screw fixation to four on the roof 13 at support column 12 top, directly place it to the top of four branch 14 when the installation prevents on the static floor can, four sides on a prevent on the static floor all set up four the half on branch 14 surface, and fix more support columns 12 to indoor ground according to this kind of method, realize the installation on more prevent static floors fixedly, and four the ejector pin 16 at support column 12 top can be in the inside slip of support column 12 realizes the regulation to prevent static floor mounting height.

Concretely, adjustment mechanism 2 includes roof-rack 21, top ring 22, lead screw 23, base 24, rubber pad 25 and carousel 26, four equal sliding connection of lateral wall of support column 12 have with slide 15 is contradicted top ring 22, transversal personally submit "X" shape structure the four ends of roof-rack 21 respectively with four weld between the top ring 22, the center department threaded connection of roof-rack 21 have with the support column 12 is parallel the lead screw 23, the top welding of lead screw 23 has carousel 26, the bottom of lead screw 23 is rotated and is connected with base 24, the bottom of base 24 bonds there is the rubber pad 25, works as the support column 12 is fixed the installation height on anti-static floor, when adjusting the installation height on anti-static floor, clockwise or anticlockwise rotation is located the lead screw 23 of roof-rack 21 center department, because lead screw 23 with threaded connection between the roof-rack, The screw rod 23 is rotatably connected with the base 24, so that the top frame 21 is lifted on the screw rod 23, and the top rod 16 is further pushed or driven to lift in the supporting column 12 in the lifting process of the top frame 21, so that the total length of the top rod 16 and the supporting column 12 is increased or shortened, and the anti-static floors are installed at different heights on the indoor ground.

Specifically, the sliding mechanism 3 includes two sliding frames 31, a connecting plate 32 and balls 33, wherein the bottoms of the two supporting rods 14 are connected with the two sliding frames 31 with inverted "L" shaped cross sections in a relatively sliding manner, the connecting plate 32 with a rectangular parallelepiped structure is welded between the two sliding frames 31, the balls 33 connected with the supporting rods 14 in a rolling manner are mounted on the tops of the two sliding frames 31, the two sliding frames 31 and the connecting plate 32 are in a "u" shaped configuration, the connecting plate 32 is located at the top end of the top frame 21, if an anti-static floor with many sockets such as a microcomputer room is mounted, the anti-static floor with the sockets to be mounted is determined, the mounting positions of the sockets are determined to be opened on the anti-static floor, it is noted that the area of the holes opened on the anti-static floor is equal to the area of the top of the mounting mechanism 5, and the fixing mechanisms 4 on the side walls of the two sliding frames 31 are further pulled, the fixing mechanism 4 is separated from the support rods 14, the connecting plate 32 is further pushed and pulled along the side directions of two of the support rods 14, the two sliding carriages 31 slide at the bottoms of two of the support rods 14, the Y-axis direction of the connecting plate 32 is determined, and the rolling connection between the steel balls 33 and the support rods 14 is further realized when the sliding carriages 31 slide, so that the sliding of the sliding carriages 31 is facilitated.

Specifically, the fixing mechanism 4 includes pushing frames 41, locking holes 42, mounting plates 43 and compression springs 44, the mounting plates 43 are welded to the side surfaces of the two sliding frames 31, the pushing frames 41 with u-shaped side surfaces are slidably connected to the surfaces of the two mounting plates 43 on the two sliding frames 31, the two compression springs 44 are clamped between the two pushing frames 41 and the mounting plates 43, the locking holes 42 are equidistantly formed in the bottoms of the two supporting rods 14 on the two sliding frames 31, the two pushing frames 41 are respectively connected to the insides of the two groups of locking holes 42 in a clamping manner, when the position of the connecting plate 32 at the bottom of the anti-static floor hole is adjusted, the two pushing frames 41 are pulled in a direction deviating from the supporting rods 14 at the same time, so that the compression springs 44 are contracted, and further, the two pushing frames 41 are separated from the locking holes 42 at the bottoms of the two supporting rods 14, it is further achieved that the carriage 31 can slide on the bottom of the strut 14.

Specifically, installation mechanism 5 includes mounting box 51, dwang 52, pole setting 53, clamshell 54, shell 55, card post 56, spring 57 and recess 58, the sliding surface of connecting plate 32 is connected with clamshell 54, the top welding of clamshell 54 has pole setting 53, the internal thread of pole setting 53 is connected with dwang 52, the top of dwang 52 is rotated and is connected with mounting box 51, the surface four corners department of clamshell 54 all welds shell 55, four the inside of shell 55 all be equipped with sliding surface between the clamshell 54 sliding connection card post 56, four bottoms are the arc structure card post 56 with the centre gripping has between the shell 55 spring 57, two sets of recess 58 have been seted up to the surface equidistance of connecting plate 32, card post 56 block is connected in two sets of the inside of recess 58, when installing the socket on the floor of computer room, after the position of the connecting plate 32 is determined, the upright 53 at the top of the sliding shell 54 is held, force is applied along the side wall direction of the connecting plate 32, namely, the sliding shell 54 can slide on the surface of the connecting plate 32, so that the sliding shell 54 can slide in the direction of the "X" axis, when the sliding shell 54 slides on the surface of the connecting plate 32, the springs 57 inside the four shells 55 are in a contraction state, when the sliding shell 54 contracts, the clamping columns 56 are buckled with the grooves 58, so that the sliding shell 54 is positioned by the springs 57, the sliding shell 54 is prevented from shaking on the surface of the connecting plate 32, so that the accurate position of the rotating rod 52 at the bottom of the anti-static floor is realized, surface mounting sockets on a plurality of anti-static floors can be freely realized, after the position of the mounting box 51 is determined, hands are extended from another group of the supporting columns 12 to the side wall of the rotating rod 52 at the bottom of the mounted rotating rod mounting box 51, install the socket in the inside of mounting box 51, the electric wire is followed the line is walked to the bottom of branch 14, anticlockwise rotation dwang 52 has realized mounting box 51 rotates along with it will mounting box 51 is held the spacing hole that passes antistatic floor department with the hand and is loosened again, anticlockwise rotation dwang 52 has realized mounting box 51 rises at antistatic floor's hole, works as mounting box 51 and antistatic floor parallel and level stall realize the installation to the socket, and the side avoids the floor to be mixed and disorderly, and is fixed effectual, can install the socket wantonly on antistatic floor, and the socket does not drop at antistatic floor surface's hole when using electrical apparatus.

When the anti-static floor is used, firstly, when the anti-static floor is installed, four supporting columns 12 are connected to the indoor ground through four bottom plates 11 and screws in a threaded mode, the distance between the two supporting columns 12 is smaller than the length of each supporting column 14, the four supporting columns 14 are fixed to top plates 13 at the tops of the four supporting columns 12 in a rectangular array mode through screws, the anti-static floor is directly placed at the tops of the four supporting columns 14 when installed, one anti-static floor is provided with one half of the surface of each supporting column 14, more supporting columns 12 are fixed to the indoor ground according to the method, installation and fixation of more anti-static floors are achieved, ejector rods 16 at the tops of the four supporting columns 12 can slide in the supporting columns 12, and adjustment of the installation height of the anti-static floor is achieved; when the support column 12 is fixed, the installation height of the anti-static floor is determined, when the installation height of the anti-static floor is adjusted, the screw rod 23 positioned at the center of the top frame 21 is rotated clockwise or anticlockwise, the top frame 21 is lifted on the screw rod 23 due to the threaded connection between the screw rod 23 and the top frame and the rotational connection between the screw rod 23 and the base 24, and the ejector rod 16 is further pushed or driven to lift in the support column 12 in the lifting process of the top frame 21, so that the increase and the reduction of the total length of the ejector rod 16 and the support column 12 are realized, and the anti-static floor is installed at different heights of the indoor ground; then, if the anti-static floor is installed in places with more sockets such as a microcomputer room, the anti-static floor needing to install the sockets is determined, holes are formed in the installation positions of the sockets on the anti-static floor, it is noted that the area of the holes formed in the anti-static floor is equal to the area of the tops of the installation mechanisms 5, the fixing mechanisms 4 on the side walls of the two sliding frames 31 are further pulled, separation between the fixing mechanisms 4 and the supporting rods 14 is achieved, the connecting plates 32 are further pushed and pulled along the side directions of the two supporting rods 14, sliding of the two sliding frames 31 at the bottoms of the two supporting rods 14 is achieved, the Y-axis direction of the connecting plates 32 is determined, rolling connection between the steel balls 33 and the supporting rods 14 is further achieved when the sliding frames 31 slide, and sliding of the sliding frames 31 is facilitated; finally, when installing the socket on the floor of the microcomputer room, after determining the position of the connecting plate 32, holding the upright 53 at the top of the sliding shell 54, applying force along the side wall direction of the connecting plate 32, that is, the sliding shell 54 can slide on the surface of the connecting plate 32, thereby realizing the sliding of the sliding shell 54 in the "X" axis direction, when the sliding shell 54 slides on the surface of the connecting plate 32, the springs 57 inside the four shells 55 are in the contraction state, when the sliding shell 54 contracts, the clamping columns 56 are buckled with the grooves 58, thereby realizing the positioning of the sliding shell 54 by the springs 57, preventing the sliding shell 54 from shaking on the surface of the connecting plate 32, thereby realizing the accurate position of the rotating rod 52 at the bottom of the anti-static floor, facilitating the free surface installation of the sockets on a plurality of anti-static floors, after determining the position of the mounting box 51, extending the hand from the other group of supporting columns 12 to the side wall of the rotating rod 52 at the bottom of the mounting box 51 after installation, install mounting box 51's inside with the socket, the electric wire is walked the line from the bottom of branch 14, anticlockwise rotation dwang 52, mounting box 51 has been realized rotating along with it, hold up spacing hole that passes antistatic floor department with the hand to mounting box 51 inside and loosen again, anticlockwise rotation dwang 52, it rises at antistatic floor's hole to have realized mounting box 51, stop rotating with antistatic floor parallel and level when mounting box 51, the realization is to the installation of socket, it is mixed and disorderly to avoid the floor, fixed effectual, can be at antistatic floor arbitrary installation socket, the socket does not drop at antistatic floor surface's hole when using electrical apparatus.

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 attributes 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 description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (2)

1. Antistatic floor installing support, its characterized in that includes supporting mechanism (1), adjustment mechanism (2), slide mechanism (3), fixed establishment (4) and installation mechanism (5), is used for realizing supporting antistatic floor the inboard of supporting mechanism (1) is installed and is used for adjusting overall height adjustment mechanism (2), the bottom sliding connection of supporting mechanism (1) has the cross-section to be "U" font structure slide mechanism (3), the surface sliding connection of slide mechanism (3) has and is used for installing electrical apparatus socket installation mechanism (5), the top of installation mechanism (5) is higher than the top of supporting mechanism (1), the both sides of slide mechanism (3) install with supporting mechanism (1) lock fixed establishment (4), two be used for right slide mechanism (3) carry on spacingly the side of fixed establishment (4) is "U" font knot Structuring;

the supporting mechanism (1) comprises a bottom plate (11), four supporting columns (12), a top plate (13), a supporting rod (14), a sliding plate (15) and a top rod (16), four corners of the adjusting mechanism (2) are connected to the side walls of the four supporting columns (12) which are of cylindrical structures and provided with grooves in side walls in a sliding mode, the bottom plate (11) which is of a cuboid structure is welded at the bottoms of the four supporting columns (12), the top rod (16) which is of a hexagonal prism structure is connected to the inside of each supporting column (12) in a sliding mode, the sliding plate (15) is welded on the side walls of the four top rods (16) relatively, and the sliding plate (15) is connected with the supporting columns (12) in a sliding mode;

the adjusting mechanism (2) comprises a top frame (21), top rings (22), a screw rod (23), a base (24), a rubber pad (25) and a turntable (26), the side walls of four supporting columns (12) are connected with the top rings (22) which are abutted to the sliding plate (15) in a sliding mode, four ends of the top frame (21) with the cross section of an X-shaped structure are welded with the four top rings (22) respectively, the center of the top frame (21) is connected with the screw rod (23) which is parallel to the supporting columns (12) in a threaded mode, the turntable (26) is welded to the top of the screw rod (23), the base (24) is connected to the bottom of the screw rod (23) in a rotating mode, and the rubber pad (25) is bonded to the bottom of the base (24);

the sliding mechanism (3) comprises sliding carriages (31), connecting plates (32) and balls (33), wherein the bottoms of the two supporting rods (14) are relatively and slidably connected with the sliding carriages (31) with the inverted L-shaped structures on the cross sections, the connecting plates (32) with the cuboid structures are welded between the two sliding carriages (31), the balls (33) which are in rolling connection with the supporting rods (14) are mounted at the tops of the two sliding carriages (31), the U-shaped structures are formed between the two sliding carriages (31) and the connecting plates (32), and the connecting plates (32) are positioned at the top ends of the top frames (21);

installation mechanism (5) is including mounting box (51), dwang (52), pole setting (53), skullet (54), shell (55), card post (56), spring (57) and recess (58), the surperficial sliding connection of connecting plate (32) has skullet (54), the top welding of skullet (54) has pole setting (53), the internal thread connection of pole setting (53) has pole setting (52), the top of dwang (52) is rotated and is connected with mounting box (51), the surperficial four corners department of skullet (54) all welds shell (55), four the inside of shell (55) all be equipped with sliding connection between skullet (54) card post (56), four bottoms are the arc structure card post (56) with centre gripping has between shell (55) spring (57), the surperficial equidistance of connecting plate (32) has seted up two sets of recess (58), the clamping columns (56) are clamped and connected with the inner parts of the two groups of grooves (58);

four the top of ejector pin (16) all weld be the rectangle structure, with bottom plate (11) parallel roof (13), adjacent two all through screw fixedly connected with cavity cuboid structure, bottom fluting branch (14) between roof (13).

2. The anti-static floor mounting bracket of claim 1 wherein: the fixing mechanism (4) comprises push frames (41), clamping holes (42), mounting plates (43) and pressure springs (44), the mounting plates (43) are welded on the side faces of the two sliding frames (31), the surfaces of the two mounting plates (43) on the two sliding frames (31) are connected with the push frames (41) with the side faces in a U-shaped structure in a sliding mode, the two push frames (41) and the mounting plates (43) are clamped by the two pressure springs (44), the bottoms of the two supporting rods (14) on the two sliding frames (31) are equidistantly provided with the clamping holes (42), and the two push frames (41) are connected to the insides of the two clamping holes (42) in a clamping mode respectively.

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