CN116316338A - Stainless steel bridge frame installation device - Google Patents

Abstract

The invention belongs to the technical field of stainless steel bridge installation, in particular to a stainless steel bridge installation device which comprises a fixed guide rail; the inner wall of the fixed guide rail is connected with a first sliding hanging bracket in a sliding way, and a plurality of groups of first sliding hanging brackets can be arranged; a first hanging frame is fixedly connected to the bottom end of the first sliding hanging frame; through the fixed rail screw thread that sets up fixed knot that sets up on building element, the cooperation multiunit is a sliding hanger and is driven a hanging frame and slide in fixed rail's inner wall, with stainless steel bridge assembly between two sets of a hanging frame inner walls, play the effect to stainless steel bridge assembly of stainless steel, replaced traditional fixed mounting means, utilize an elastic block extrusion gag lever post card in spacing hole department, play the fixed spacing effect to a sliding hanger, utilize the symmetry magnetic plate to fix at a hanging frame's inner wall middle part, the magnetism of symmetry magnetic plate and the magnetic path on the stainless steel crane span structure is inhaled, improve the stability to stainless steel bridge assembly.

Description

Stainless steel bridge frame installation device

Technical Field

The invention belongs to the technical field of stainless steel bridge installation, and particularly relates to a stainless steel bridge installation device.

Background

The stainless steel bridge frame is an assembly structure for cables, and mainly comprises a supporting hanger, a trailing arm, an installation accessory and the like, and the stainless steel bridge frame is made of a common stainless steel bridge frame, so that heat insulation, fire resistance and heat dissipation are emphasized on the basis of being superior.

When the stainless steel bridge frame is installed, a stainless steel bridge frame installation device is generally used for assembling a stainless steel bridge frame, and stainless steel bridge frame bolts are assembled on building components, such as house walls, wall surfaces, steel bar frameworks and outer walls of plate columns, so that cables can be conveniently paved.

After the stainless steel bridge frame is assembled by using the installation device, the stainless steel bridge frame is directly fixed on a building member in a hoisting mode due to the existing installation device, so that the subsequent displacement adjustment of the assembled and fixed stainless steel bridge frame is difficult, and finally the fixed stainless steel bridge frame is required to be disassembled and reassembled.

To this end, the invention provides a stainless steel bridge mounting device.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a stainless steel bridge frame installation device, which comprises a fixed guide rail; the inner wall of the fixed guide rail is connected with a first sliding hanging bracket in a sliding way, and a plurality of groups of first sliding hanging brackets can be arranged; a first hanging frame is fixedly connected to the bottom end of the first sliding hanging frame; the top end of the fixed guide rail is provided with bolt holes, and a plurality of groups of bolt holes are formed; the fixed guide rail is arranged in the wall body through the bolt hole by bolts; stainless steel bridges can be placed between the inner walls of the first hanging frames; a limiting assembly is arranged in the plurality of groups of first sliding hanging frames and is used for fixing the first sliding hanging frames; the stainless steel bridge frame is assembled, when the position of the stainless steel bridge frame needs to be adjusted, the limiting component can be removed, the first sliding hanging frame can be directly slid on the inner wall of the fixed guide rail, and the displacement adjustment of the stainless steel bridge frame can be driven, so that the traditional stainless steel bridge frame fixing type assembling method is replaced.

Preferably, the limiting assembly comprises a limiting rod and a limiting hole; the limiting rods are connected inside the first sliding hanging frame in a sliding mode through the first elastic block, and two groups of limiting rods are symmetrically arranged inside the first sliding hanging frame; the limiting holes are formed in two sides of the outer part of the fixed guide rail, and a plurality of groups of limiting holes are formed; the diameter of the limiting rod is correspondingly arranged with the aperture of the limiting hole; play the spacing effect of a sliding hanger, when adjusting the position to spacing a sliding hanger, can extrude the gag lever post and get into a sliding hanger's inside, the gag lever post extrudees an elastic block shrink simultaneously to the propelling movement pulls a sliding hanger sliding fixed rail's inner wall can realize position control.

Preferably, the middle part of the inner wall of the first hanging frame is fixedly connected with a symmetrical magnetic plate; the two ends of the stainless steel bridge frame are fixedly connected with magnetic blocks, and the magnetic blocks can be inserted into slots between the symmetrical magnetic plates and the inner wall of the first hanging frame; the magnetic blocks and the symmetrical magnetic plates can be attracted in opposite directions when being close to each other; the other end of the stainless steel bridge frame is inserted into the corresponding slot of the symmetrical magnetic plate on the other group of first hanging frame, so that the effect of assembling the stainless steel bridge frame is achieved, and meanwhile, the magnetic attraction effect of the symmetrical magnetic plate and the magnetic block is utilized, so that the stability of assembling the stainless steel bridge frame is improved.

Preferably, the first hanging frame is internally connected with sliding rods in a sliding manner, and a plurality of groups of sliding rods are symmetrically arranged; the plurality of groups of sliding rods are fixedly connected with extrusion blocks at one end facing the inner wall of the first hanging frame, and the extrusion blocks are connected with the inner wall of the first hanging frame in a sliding manner; the top end of the extrusion block is slope-shaped; the outer walls of the stainless steel bridge frames are clamped by the multiple groups of extrusion blocks, so that the effect of clamping and assembling the stainless steel bridge frames is achieved, and the slipping situation of the stainless steel bridge frames after assembling is reduced.

Preferably, the inside of the extrusion block is slidably connected with a round bump through a second elastic block; the stainless steel bridge frame is provided with a round hole at the outer part, and the diameter of the round bump is corresponding to the aperture of the round hole; the round convex blocks are clamped at the round holes of the stainless steel bridge frame to limit, and the stability of the assembly of the stainless steel bridge frame is improved.

Preferably, the inner wall of the first hanging frame is symmetrically provided with a fixed groove, and a positioning hole is arranged in the fixed groove; the top end of the inner wall of the first hanging frame is clamped with a supporting plate, and the supporting plate is positioned between the two groups of fixing grooves respectively formed in the first hanging frame; the bearing plate consists of a rectangular plate and two round rods, and the two round rods are respectively arranged at two ends of the rectangular plate; the overall stability of the stainless steel bridge mounting device is improved, the stainless steel bridge is convenient to assemble, and the rectangular plate of the bearing plate is set off at the bottom end of the stainless steel bridge, so that the effect of supporting the bottom of the stainless steel bridge is achieved.

Preferably, the top end of the bearing plate is fixedly connected with an anti-slip pad; a plurality of groups of anti-skid convex points are arranged at the top end of the anti-skid pad; the friction of the bottom end of the stainless steel bridge frame is increased, the sliding condition of the stainless steel bridge frame during assembly is reduced, and the stability of the assembly and clamping of the stainless steel bridge frame is improved.

Preferably, the inner wall of the fixed guide rail is connected with a second sliding hanger in a sliding manner; the bottom end of the second sliding hanging bracket is fixedly connected with a connecting frame; a second hanging frame is fixedly connected to the bottom end of the connecting frame; the stainless steel bridge frame is installed at the corner of the building component, meanwhile, the limiting rod is also installed on the inner wall of the second sliding hanging frame and used for limiting the inner wall of the second sliding hanging frame on the fixed guide rail, a plurality of groups of fixing grooves are formed in the second hanging frame, the supporting plate is clamped by the second hanging frame, and the assembly stability of the stainless steel bridge frame is guaranteed.

Preferably, the top end of the inner wall of the second hanging frame is fixedly connected with a corner magnetic plate; the corner magnetic plate and the magnetic block can be opposite to each other when being close to each other; by means of the magnetic attraction between the magnetic blocks and the corner magnetic plates, the magnetic blocks at one ends of the two groups of stainless steel bridge frames are respectively inserted between the corner magnetic plates and the inner wall of the second hanging frame to limit, and the effect of stable assembly of the stainless steel bridge frames at corners is achieved.

Preferably, the top end of the inner wall of the first hanging frame is fixedly connected with a cylinder, and a plurality of groups of cylinders are arranged; the bottom end of the stainless steel bridge frame is provided with a jack corresponding to the cylinder; the stainless steel bridge frames are correspondingly inserted in the plurality of groups of cylinders, so that the stability of the assembly of the stainless steel bridge frames is improved.

The beneficial effects of the invention are as follows:

1. according to the stainless steel bridge mounting device, the fixed guide rail is fixed on a building member through threads, a plurality of groups of first sliding hanging frames are matched to drive the first hanging frames to slide on the inner walls of the fixed guide rail, the stainless steel bridge is assembled between the inner walls of the two groups of first hanging frames, the effect of assembling the stainless steel bridge is achieved, a traditional fixed mounting mode is replaced, the first elastic block extrusion limiting rod is clamped at the limiting hole, the effect of fixing and limiting the first sliding hanging frames is achieved, the symmetrical magnetic plates are fixed in the middle of the inner walls of the first hanging frames, the symmetrical magnetic plates are magnetically attracted with the magnetic blocks on the stainless steel bridge, the stability of assembling the stainless steel bridge is improved, the outer walls of the stainless steel bridge are clamped by the extrusion blocks, the situation that the stainless steel bridge is assembled and falls is reduced, the round bumps are extruded and clamped into round holes of the stainless steel bridge, and the position of the stainless steel bridge is limited.

2. According to the stainless steel bridge mounting device, the supporting plates are respectively clamped at the fixing grooves formed in the two groups of first hanging frames, the overall stability of the mounting device is improved, the bottom ends of the supporting stainless steel bridges are kept stable, the matched anti-slip pads and the multiple groups of anti-slip protruding points are positioned between the supporting plates and the stainless steel bridge, the slipping condition of the stainless steel bridge after being assembled is reduced, the second hanging frames are matched with the second sliding hanging frames to be mounted at corners of building components, the effect of mounting the stainless steel bridges at the corners is achieved, the corner magnetic plates are fixed on the inner walls of the second hanging frames, and the corner magnetic plates are magnetically attracted with the magnetic blocks on the two groups of stainless steel bridges, so that the stable assembly effect of the stainless steel bridge is ensured.

Drawings

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

FIG. 1 is a perspective view of the present invention;

FIG. 2 is another combined perspective view of the present invention;

FIG. 3 is a schematic view of the structure of the bearing plate of the present invention;

FIG. 4 is a schematic diagram of the structure of a symmetrical magnetic plate in the present invention;

FIG. 5 is a partial cross-sectional view of a first hanger of the present invention;

FIG. 6 is an enlarged view of a partial structure of a symmetrical magnetic plate according to the present invention;

FIG. 7 is a schematic view of a second hanger according to the present invention;

FIG. 8 is a schematic view of structural connection of a stainless steel bridge according to the present invention;

fig. 9 is a schematic structural diagram of a first lifting frame in a second embodiment of the present invention.

In the figure: 1. a fixed guide rail; 11. a first sliding hanger; 12. a first hanging frame; 13. stainless steel bridge frame; 2. a limit rod; 21. a limiting hole; 3. a symmetrical magnetic plate; 31. a magnetic block; 4. a slide bar; 41. extruding a block; 42. an elastic member; 5. a round bump; 51. a round hole; 6. a fixing groove; 61. a bearing plate; 7. an anti-slip pad; 8. a second sliding hanging bracket; 81. a connecting frame; 82. a second hanging frame; 9. a corner magnetic plate; 91. a cylinder.

Detailed Description

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

Embodiment one: as shown in fig. 1 to 6, a stainless steel bridge mounting device according to an embodiment of the present invention includes a fixed rail 1; the inner wall of the fixed guide rail 1 is connected with a first sliding hanging bracket 11 in a sliding way, and a plurality of groups of first sliding hanging brackets 11 can be arranged; the bottom end of the first sliding hanging bracket 11 is fixedly connected with a first hanging frame 12; the top end of the fixed guide rail 1 is provided with bolt holes, and a plurality of groups of bolt holes are formed; the fixed guide rail 1 is arranged in a wall body through bolt holes by bolts; stainless steel bridge frames 13 can be placed between the inner walls of the first hanging frame 12; a limiting component is arranged in the plurality of groups of first sliding hanging frames 11 and is used for fixing the first sliding hanging frames 11; after the stainless steel bridge 13 is assembled by using the installation device, the stainless steel bridge 13 is directly fixed on a building member in a hoisting manner due to the current installation device, so that the subsequent displacement adjustment of the assembled and fixed stainless steel bridge 13 is difficult, and finally the fixed stainless steel bridge 13 is required to be disassembled and reassembled; in view of this, in the specific implementation manner of the embodiment of the present invention, when the stainless steel bridge 13 is assembled, two groups of first sliding hangers 11 and first hanging frames 12 may be provided, the fixed rail 1 is used as the main fixing structure of the installation device, the fixed rail 1 is screwed on the building member through a plurality of groups of bolts and through bolt holes, after the fixed rail 1 is stably assembled, the plurality of groups of first sliding hangers 11 are slidably installed on the inner wall of the limiting rod 2, the first hanging frames 12 are installed at the bottom ends of the first sliding hangers 11, the first hanging frames 12 are used for placing and supporting the stainless steel bridge 13, after the interval width between the groups of first sliding hangers 11 is adjusted, the first sliding hangers 11 are limited on the inner wall of the fixed rail 1 by means of the limiting component, and finally one end of the group of stainless steel bridge 13 is placed on one group of first hanging frames 12, and the other end of the stainless steel bridge 13 is placed on the other group of first hanging frames 12, so that when the position of the stainless steel bridge 13 needs to be stably assembled, the limiting component can be released, and the sliding hangers 11 can be directly moved on the inner wall of the fixed steel bridge 13 instead of the stainless bridge 13.

As shown in fig. 1 to 7, the limit assembly includes a limit lever 2 and a limit hole 21; the limiting rod 2 is connected inside the first sliding hanging frame 11 in a sliding mode through a first elastic block, and two groups of limiting rods 2 are symmetrically arranged inside the first sliding hanging frame 11; the limiting holes 21 are formed in two sides of the outer portion of the fixed guide rail 1, and a plurality of groups of limiting holes 21 are formed; the diameter of the limiting rod 2 is correspondingly arranged with the aperture of the limiting hole 21; when the sliding first sliding hanging frame 11 sliding on the inner wall of the fixed guide rail 1 is limited, the first elastic block is utilized to extrude the limiting rods 2 which are slidably arranged on two sides of the inner portion of the first sliding hanging frame 11, part of the limiting rods 2 are extruded out of the inner portion of the first sliding hanging frame 11, the convex limiting rods 2 are clamped into the limiting holes 21 formed in the two sides of the fixed guide rail 1, so that the first sliding hanging frame 11 is limited, when the position of the first sliding hanging frame 11 is adjusted, the limiting rods 2 can be extruded into the inner portion of the first sliding hanging frame 11, and meanwhile the limiting rods 2 are extruded to shrink the first elastic block, so that the inner wall of the first sliding hanging frame 11 is pushed and pulled to slide the fixed guide rail 1, and position adjustment can be achieved.

As shown in fig. 1 to 5 and 7, a symmetrical magnetic plate 3 is fixedly connected to the middle part of the inner wall of the first hanging frame 12, magnetic blocks 31 are fixedly connected to two ends of the stainless steel bridge 13, and the magnetic blocks 31 can be inserted into slots between the symmetrical magnetic plate 3 and the inner wall of the first hanging frame 12; the magnetic blocks 31 and the symmetrical magnetic plates 3 can attract each other in opposite directions when approaching each other; when the stainless steel bridge 13 is assembled, the symmetrical magnetic plates 3 are utilized to be fixed on the inner wall of the middle part of the first sliding hanging frame 11, the two ends of one group of stainless steel bridge 13 are fixedly connected with the magnetic blocks 31, one end of the stainless steel bridge 13 is inserted into the corresponding slot of the symmetrical magnetic plate 3 on the first hanging frame 12, the other end of the stainless steel bridge 13 is placed on the second hanging frame 12 or is supported by other objects in advance, the second group of first sliding hanging frames 11 are pushed to drive the first hanging frame 12 to slide, the other end of the stainless steel bridge 13 is inserted into the corresponding slot of the symmetrical magnetic plate 3 on the second group of first hanging frames 12, the effect of assembling the stainless steel bridge 13 is achieved, and meanwhile, the magnetic attraction effect of the symmetrical magnetic plates 3 and the magnetic blocks 31 is utilized, so that the stability of assembling the stainless steel bridge 13 is improved.

As shown in fig. 1 to 5, the sliding rods 4 are slidably connected inside the first lifting frame 12, and a plurality of groups of sliding rods 4 are symmetrically arranged; one end of the sliding rods 4, which faces the inner wall of the first hanging frame 12, is fixedly connected with an extrusion block 41, and the extrusion block 41 is connected with the inner wall of the first hanging frame 12 in a sliding manner; the top end of the extrusion block 41 is in a slope shape; when the stainless steel bridge 13 is assembled between the two groups of first hanging frames 12, the stainless steel bridge 13 is firstly placed at the position of the inner wall of the first sliding hanging frame 11, the stainless steel bridge 13 is pressed downwards, the stainless steel bridge 13 extrudes the slope surfaces of the plurality of groups of extrusion blocks 41, the plurality of groups of extrusion blocks 41 are pressed and slide into the first hanging frames 12, the elastic piece 42 is contracted and stressed, the elastic piece 42 is utilized to elastically extrude the extrusion blocks 41 to slide, so that the plurality of groups of extrusion blocks 41 clamp the outer wall of the stainless steel bridge 13, the effect of clamping and assembling the stainless steel bridge 13 is achieved, and the slipping situation of the stainless steel bridge 13 after being assembled is reduced.

The inside of the extrusion block 41 is slidably connected with a round bump 5 through a second elastic block; a round hole 51 is formed in the outer portion of the stainless steel bridge 13, and the diameter of the round bump 5 is corresponding to the aperture of the round hole 51; when the stainless steel bridge 13 is clamped by the extrusion blocks 41 in an extrusion mode, the stainless steel bridge 13 is utilized to extrude the round bumps 5 when the slope faces of the extrusion blocks 41 are pressed down, the round bumps 5 extrude the second elastic blocks to shrink, the round bumps 5 are pressed into the extrusion blocks 41, when round holes 51 formed in the outer portion of the stainless steel bridge 13 correspond to the round bumps 5, the second elastic blocks extrude the round bumps 5, and therefore the round bumps 5 are clamped at the round holes 51 of the stainless steel bridge 13 to limit, and stability of assembly of the stainless steel bridge 13 is improved.

As shown in fig. 1 to 3, the inner wall of the first hanging frame 12 is symmetrically provided with a fixing groove 6, and a positioning hole is arranged in the fixing groove 6; the top end of the inner wall of the first hanging frame 12 is clamped with a bearing plate 61, and the bearing plate 61 is positioned between two groups of fixing grooves 6 respectively formed in the first hanging frame 12; the supporting plate 61 is composed of a rectangular plate and two round rods, and the two round rods are respectively arranged at two ends of the rectangular plate; when two sets of first hanging frames 12 are assembled at the bottom end of the fixed guide rail 1, two ends of the bearing plate 61 are used for being inserted into positioning holes in the fixed grooves 6 of the two sets of first hanging frames 12 through two round rods respectively, so that the bearing plate 61 is located between the two sets of first hanging frames 12, the overall stability of the stainless steel bridge 13 mounting device is improved, the stainless steel bridge 13 is convenient to assemble, and the rectangular plate of the bearing plate 61 is set at the bottom end of the stainless steel bridge 13, so that the effect of supporting the bottom of the stainless steel bridge 13 is achieved.

The top end of the bearing plate 61 is fixedly connected with an anti-slip pad 7; a plurality of groups of anti-skid convex points are arranged at the top end of the anti-skid pad 7; when the bearing plate 61 is installed between two groups of first hanging frames 12, the stainless steel bridge 13 is assembled at the top end of the bearing plate 61, the top end of the bearing plate 61 is fixed by the anti-slip pad 7, and a plurality of groups of anti-slip protruding points are matched to be arranged at the bottom end of the stainless steel bridge 13, so that friction at the bottom end of the stainless steel bridge 13 is increased, the sliding condition of the stainless steel bridge 13 during assembly is reduced, and the stability of the assembly and clamping of the stainless steel bridge 13 is improved.

As shown in fig. 2, 3 and 7, the inner wall of the fixed guide rail 1 is slidably connected with a second sliding hanger 8; the bottom end of the second sliding hanging bracket 8 is fixedly connected with a connecting frame 81; a second hanging frame 82 is fixedly connected to the bottom end of the connecting frame 81; when the stainless steel bridge 13 of stainless steel is installed at the corner of the building component, the second sliding hanging frame 8 is matched with the connecting frame 81 to slide on the inner wall of the fixed guide rail 1, the second sliding hanging frame 82 is driven to be installed at the corner of the building component, two through slots are formed in the corner of the second sliding hanging frame 82 corresponding to the building component, the two groups of the first sliding hanging frames 12 are matched with the second sliding hanging frame 82, the positions of the two groups of the first sliding hanging frames 12 respectively correspond to one of the two through slots of the second sliding hanging frame 82, one end of the group of the stainless steel bridge 13 is arranged between the inner walls of the first sliding hanging frames 12, the other end of the group of the stainless steel bridge 13 is arranged between the inner walls of the first through slots of the second sliding hanging frame 82, and the other end of the other group of the stainless steel bridge 13 is arranged between the inner walls of the second through slots of the second sliding hanging frame 82, so that the stainless steel bridge 13 is installed at the corner of the building component, meanwhile, the limiting rod 2 is also installed on the inner wall of the second sliding hanging frame 8 is used for limiting the inner wall of the second sliding hanging frame 8 on the fixed guide rail 1, the second sliding hanging frame 82 is clamped with the second sliding hanging frame 82, and the supporting plate is fixedly connected with the first supporting plate 61, and the supporting plate is fixedly assembled by the supporting plate 61.

As shown in fig. 2, 3, 7 and 8, the top end of the inner wall of the second hanging frame 82 is fixedly connected with a corner magnetic plate 9; the corner magnetic plate 9 and the magnetic block 31 can attract each other in opposite directions when approaching each other; when two sets of stainless steel bridge frames 13 are simultaneously arranged on the inner wall of the second hanging frame 82, the corner magnetic plates 9 are utilized to be fixed on the inner wall of the second hanging frame 82, the two ends of the two sets of stainless steel bridge frames 13 are fixedly connected with the magnetic blocks 31 respectively, and the magnetic blocks 31 at one ends of the two sets of stainless steel bridge frames 13 are attracted with the corner magnetic plates 9 by means of magnetism, so that the magnetic blocks 31 at one ends of the two sets of stainless steel bridge frames 13 are respectively inserted between the corner magnetic plates 9 and the inner wall of the second hanging frame 82 to limit, and the effect of stably assembling the stainless steel bridge frames 13 at corners is achieved.

Embodiment two: as shown in fig. 9, in comparative example one, another embodiment of the present invention is: the top end of the inner wall of the first hanging frame 12 is fixedly connected with a cylinder 91, and a plurality of groups of cylinders 91 are arranged; the bottom end of the stainless steel bridge 13 is provided with a jack corresponding to the cylinder 91; when the stainless steel bridge 13 is assembled on the inner wall between the two groups of first hanging frames 12, the plurality of groups of cylinders 91 are utilized to be respectively fixed on the inner wall of the first hanging frames 12, the bottom end of the stainless steel bridge 13 is provided with jacks corresponding to the cylinders 91, and the stainless steel bridge 13 is correspondingly inserted at the plurality of groups of cylinders 91, so that the stability of the assembly of the stainless steel bridge 13 is improved.

During working, when the stainless steel bridge 13 is assembled, two groups of first sliding hanging frames 11 and first hanging frames 12 can be arranged, the fixed guide rail 1 is used as a main fixing structure of the installation device, the fixed guide rail 1 is connected to a building component in a threaded manner through a plurality of groups of bolt holes, after the fixed guide rail 1 is assembled stably, the plurality of groups of first sliding hanging frames 11 are slidably arranged on the inner wall of the limiting rod 2, the first hanging frames 12 are arranged at the bottom ends of the first sliding hanging frames 11, the first hanging frames 12 are used for placing and supporting the stainless steel bridge 13, after the interval width between the groups of first sliding hanging frames 11 is adjusted, the first sliding hanging frames 11 are limited on the inner wall of the fixed guide rail 1 by virtue of the limiting component, one end of the group of stainless steel bridge 13 is finally placed on one group of first hanging frames 12, and the other end of the stainless steel bridge 13 is placed on the other group of first hanging frames 12, therefore, the assembly of the stainless steel bridge 13 is realized, when the position of the stainless steel bridge 13 is required to be adjusted, the limiting component can be released, the first sliding hanger 11 is directly slid on the inner wall of the fixed guide rail 1, the displacement adjustment of the stainless steel bridge 13 can be driven, the traditional fixed assembly method of the stainless steel bridge 13 is replaced, the limiting rods 2 which are slidably arranged on two sides of the inner part of the first sliding hanger 11 are extruded by utilizing the first elastic block, part of the positions of the limiting rods 2 are extruded into the inner part of the first sliding hanger 11, the convex limiting rods 2 are clamped into the limiting holes 21 which are formed on two sides of the fixed guide rail 1, the limiting effect of the first sliding hanger 11 is achieved, when the position of the first sliding hanger 11 is adjusted, the limiting rods 2 are extruded into the inner part of the first sliding hanger 11, the limiting rods 2 are extruded by the first elastic block to shrink at the same time, thereby the position adjustment can be realized by pushing and pulling the inner wall of the first sliding hanger 11 sliding fixed guide rail 1, the symmetrical magnetic plate 3 is utilized to be fixed on the inner wall of the middle part of the first sliding hanger 11, the two ends of one group of stainless steel bridge frames 13 are fixedly connected with the magnetic blocks 31, one end of the stainless steel bridge frame 13 is inserted into the corresponding slot of the symmetrical magnetic plate 3 on one group of first hanging frames 12, and is positioned between the symmetrical magnetic plate 3 and the inner wall of the first hanging frame 12, the other end of the stainless steel bridge frame 13 is placed on the other group of first hanging frames 12, or is supported by other objects in advance, the other group of first sliding hanger 11 is pushed to drive the first hanging frames 12 to slide, the other end of the stainless steel bridge frame 13 is inserted into the corresponding slot of the symmetrical magnetic plate 3 on the other group of first hanging frames 12, the effect of assembling the stainless steel bridge frame 13 is achieved, meanwhile, the magnetic attraction effect of the symmetrical magnetic plate 3 and the magnetic blocks 31 is utilized, the stability of the assembling of the stainless steel bridge frame 13 is improved, firstly, placing the stainless steel bridge 13 at the position of the inner wall of the first sliding hanger 11, pressing the stainless steel bridge 13 downwards, extruding the inclined surfaces of the plurality of groups of extrusion blocks 41 by the stainless steel bridge 13, pressing the plurality of groups of extrusion blocks 41 into the first hanging frame 12, shrinking and stressing the elastic parts 42, using the elastic force of the elastic parts 42 to extrude the extrusion blocks 41 to slide, so that the plurality of groups of extrusion blocks 41 clamp the outer wall of the stainless steel bridge 13, thereby playing the effect of clamping and assembling the stainless steel bridge 13, reducing the slipping situation after the stainless steel bridge 13 is assembled, extruding the round bumps 5 by the outer wall of the stainless steel bridge 13 while using the stainless steel bridge 13 to press the inclined surfaces of the extrusion blocks 41, shrinking the round bumps 5 to extrude the second elastic blocks, pressing the round bumps 5 into the interiors of the extrusion blocks 41, and when round holes 51 formed on the outer part of the stainless steel bridge 13 correspond to the round bumps 5, the second elastic block extrudes the round bump 5, so that the round bump 5 is clamped at the round hole 51 of the stainless steel bridge 13, the assembly stability of the stainless steel bridge 13 is improved, two ends of the bearing plate 61 are respectively inserted into positioning holes in the fixing grooves 6 of the two groups of first hanging frames 12 through two round rods, the bearing plate 61 is positioned between the two groups of first hanging frames 12, the overall stability of the stainless steel bridge 13 installation device is improved, the assembly of the stainless steel bridge 13 is facilitated, the rectangular plate of the bearing plate 61 is supported at the bottom end of the stainless steel bridge 13, the bottom supporting effect of the stainless steel bridge 13 is achieved, the stainless steel bridge 13 is assembled at the top end of the bearing plate 61, the anti-slip pad 7 is fixed at the top end of the bearing plate 61, a plurality of groups of anti-slip bumps are matched to be arranged at the bottom end of the stainless steel bridge 13, the friction of the bottom end of the stainless steel bridge 13 is increased, the sliding condition of the stainless steel bridge 13 during assembly is reduced, the stability of the assembly and clamping of the stainless steel bridge 13 is improved, the second sliding hanging frame 8 is matched with the connecting frame 81 to slide on the inner wall of the fixed guide rail 1, the second hanging frame 82 is driven to be installed at the corner of the building component, two through slots are formed in the corner of the second hanging frame 82 corresponding to the building component, through the matching of the first hanging frame 12 and the second hanging frame 82, the positions of the first hanging frame 12 correspond to one of the two through slots of the second hanging frame 82 respectively, one end of the stainless steel bridge 13 is arranged between the inner walls of the first hanging frame 12, the other end is arranged between the inner walls of one through slot of the second hanging frame 82, one end of the stainless steel bridge 13 is arranged between the inner walls of the first hanging frame 12, the other end is arranged between the inner walls of the other through slot of the second hanging frame 82, thereby realize installing stainless steel crane span structure 13 to building element corner, simultaneously the gag lever post 2 is also installed to the inner wall of No. two sliding hanger 8, be used for spacing at the inner wall of fixed guide 1 to No. two sliding hanger 8, no. two hang and all set up multiunit fixed slot 6 on the frame 82, can cooperate a frame 12 to use the joint of bearing board 61, guarantee the stability of stainless steel bridge 13 assembly, utilize corner magnetic plate 9 to fix at the inner wall of No. two hanging frame 82, the both ends of two sets of stainless steel crane span structure 13 rigid coupling magnetic path 31 respectively, rely on magnetic path 31 and corner magnetic plate 9 magnetism to inhale mutually, make the magnetic path 31 with two sets of stainless steel crane span structure 13 one end insert respectively spacing between the inner wall of corner magnetic plate 9 and No. two hanging frame 82, play the effect of stable assembly to stainless steel crane span structure 13 of corner, utilize multiunit cylinder 91 to fix respectively at the inner wall of No. hanging frame 12, and set up the jack that corresponds with cylinder 91 in the bottom of stainless steel bridge 13, with stainless steel bridge 13 correspond grafting in multiunit cylinder 91 department, thereby improve the stability to the stainless steel bridge 13 assembly.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A stainless steel bridge mounting device, characterized in that: comprises a fixed guide rail (1); the inner wall of the fixed guide rail (1) is connected with a first sliding hanging bracket (11) in a sliding manner, and a plurality of groups of first sliding hanging brackets (11) can be arranged; a first hanging frame (12) is fixedly connected to the bottom end of the first sliding hanging frame (11); the top end of the fixed guide rail (1) is provided with bolt holes, and a plurality of groups of bolt holes are formed; the fixed guide rail (1) is arranged in the wall body through a bolt hole by bolts; stainless steel bridge frames (13) can be placed between the inner walls of the first hanging frames (12); the inside of multiunit sliding hanger (11) is provided with spacing subassembly, and spacing subassembly is used for fixing sliding hanger (11).

2. A stainless steel bridge mounting apparatus according to claim 1, wherein: the limiting assembly comprises a limiting rod (2) and a limiting hole (21); the limiting rod (2) is connected inside the first sliding hanging frame (11) in a sliding mode through the first elastic block, and two groups of limiting rods (2) are symmetrically arranged inside the first sliding hanging frame (11); the limiting holes (21) are formed in two sides of the outer part of the fixed guide rail (1), and a plurality of groups of limiting holes (21) are formed; the diameter of the limiting rod (2) is arranged corresponding to the aperture of the limiting hole (21).

3. A stainless steel bridge mounting apparatus according to claim 1, wherein: a symmetrical magnetic plate (3) is fixedly connected in the middle of the inner wall of the first hanging frame (12); the two ends of the stainless steel bridge frame (13) are fixedly connected with magnetic blocks (31), and the magnetic blocks (31) can be inserted into slots between the symmetrical magnetic plates (3) and the inner wall of the first hanging frame (12); the magnetic blocks (31) and the symmetrical magnetic plates (3) can be attracted in opposite directions when being close to each other.

4. A stainless steel bridge mounting apparatus according to claim 1, wherein: the inside of the first hanging frame (12) is connected with sliding rods (4) in a sliding manner, and a plurality of groups of sliding rods (4) are symmetrically arranged; one end of each sliding rod (4) facing the inner wall of the first hanging frame (12) is fixedly connected with an extrusion block (41), and the extrusion blocks (41) are connected to the inner wall of the first hanging frame (12) in a sliding manner; the top end of the extrusion block (41) is in a slope shape.

5. A stainless steel bridge mounting apparatus according to claim 4, wherein: the inside of the extrusion block (41) is connected with a round bump (5) in a sliding way through a second elastic block; round holes (51) are formed in the outer portion of the stainless steel bridge frame (13), and the diameters of the round bumps (5) are corresponding to the diameters of the round holes (51).

6. A stainless steel bridge mounting apparatus according to claim 1, wherein: the inner wall of the first hanging frame (12) is symmetrically provided with a fixed groove (6), and a positioning hole is arranged in the fixed groove (6); the top end of the inner wall of the first hanging frame (12) is clamped with a supporting plate (61), and the supporting plate (61) is positioned between two groups of fixing grooves (6) respectively formed in the first hanging frame (12); the bearing plate (61) is composed of a rectangular plate and two round rods, and the two round rods are respectively arranged at two ends of the rectangular plate.

7. A stainless steel bridge mounting apparatus according to claim 6, wherein: the top end of the bearing plate (61) is fixedly connected with an anti-slip pad (7); the top end of the anti-slip pad (7) is provided with a plurality of groups of anti-slip convex points.

8. A stainless steel bridge mounting apparatus according to claim 3, wherein: the inner wall of the fixed guide rail (1) is connected with a second sliding hanging bracket (8) in a sliding manner; the bottom end of the second sliding hanging bracket (8) is fixedly connected with a connecting frame (81); the bottom end of the connecting frame (81) is fixedly connected with a second hanging frame (82).

9. A stainless steel bridge mounting apparatus according to claim 8, wherein: a corner magnetic plate (9) is fixedly connected to the top end of the inner wall of the second hanging frame (82); the corner magnetic plate (9) and the magnetic block (31) can be attracted in opposite directions when being close to each other.

10. A stainless steel bridge mounting apparatus according to claim 1, wherein: the top end of the inner wall of the first hanging frame (12) is fixedly connected with a cylinder (91), and a plurality of groups of cylinders (91) are arranged; the bottom end of the stainless steel bridge frame (13) is provided with jacks corresponding to the cylinders (91).

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