CN117526203B - Anti-toppling linking correction mounting structure and application thereof in intensive bus duct - Google Patents

Abstract

The invention relates to the technical field of bus duct installation, in particular to an anti-toppling type connection calibration installation structure, and further relates to an application of the anti-toppling type connection calibration installation structure in a dense bus duct.

Description

Anti-toppling linking correction mounting structure and application thereof in intensive bus duct

Technical Field

The invention relates to the technical field of bus duct installation, in particular to an anti-toppling type connection checking installation structure, and in particular relates to application of the anti-toppling type connection checking installation structure in a dense bus duct.

Background

With the advent of modern engineering facilities and equipment, the power consumption of various industries is rapidly increased, especially the appearance of numerous large-scale factory workshops and high-rise buildings, the traditional cables serving as power transmission wires cannot meet the requirements of a large-current transmission system, the parallel connection of multiple cables brings a plurality of inconveniences to field installation construction connection, and the appearance of bus ducts solves the problem. The bus duct is a closed metal device formed by copper and aluminum bus posts and is used for distributing large power to each element of the dispersion system.

Chinese patent No. CN116742558B discloses a positioning and mounting fixture for an intensive insulation bus duct, which comprises a mobile vehicle body, a first linear module fixedly mounted on one side of the top of the mobile vehicle body and vertically arranged, a lifting table fixedly mounted on the side surface of the power output end of the first linear module, and a bus duct feeding mechanism, a connector clamping and assembling mechanism and an assembling and positioning mechanism sequentially arranged on the top of the lifting table along the travelling direction of the mobile vehicle body; the bus duct feeding mechanism is used for placing a bus duct to be assembled; the connector clamping and assembling mechanism is used for clamping the connector, separating the bolt from the nut, matching the bus duct feeding mechanism to complete the plugging of the bus duct and the connector, and completing the recombination of the bolt and the nut to complete the installation of the bus duct; the assembly positioning mechanism is used for adjusting the position of the installation tool before assembly operation. The automatic splicing, assembling and fastening between the straight line section bus ducts can be realized, manual overhead operation is replaced, the assembling operation efficiency of the bus ducts is improved, and the labor intensity of assembling staff is reduced.

The above technical solution can assemble the bus duct installed horizontally, but has the following drawbacks:

1. the technical scheme can be automatically assembled, but the equipment is large in volume and can only be suitable for a relatively wide installation area, meanwhile, the bus duct can meet various corners or vertically upwards extend to be installed according to installation topography in the assembly process, so that the equipment can not be completed, manual measurement, adjustment and installation are still needed to be carried out manually, and single-side manual measurement, adjustment and installation can cause low working efficiency and low applicability;

2. the technical scheme has the advantages that equipment is complex, equipment cost is high, and the equipment still needs to be installed through manual auxiliary operation in the actual installation process, so that assembly cost is high.

Disclosure of Invention

To above-mentioned problem, provide prevent empting and link up and proofread mounting structure and the application in intensive bus duct, be convenient for apply the intensive bus duct of different positions of installation to correct the regulation through preventing empting butt joint mounting mechanism, can effectually improve suitability and work efficiency, the device simple structure simultaneously, effectual reduction use cost.

In order to solve the problems in the prior art, the invention provides an anti-toppling connection calibration mounting structure which comprises an anti-toppling butt joint mounting mechanism for stably mounting a dense bus duct, wherein the anti-toppling butt joint mounting mechanism comprises two groups of symmetrically arranged extension stretching mechanisms, two sides of each extension stretching mechanism are symmetrically provided with a limit guide mechanism and a limit mounting handle, the upper end and the lower end of each limit mounting handle are connected with the limit guide mechanism, the limit guide mechanisms are respectively provided with a pressing fixing mechanism for positioning and fixing the dense bus duct, the limit mounting handles are also provided with telescopic adjusting arms for adjusting the mounting angles of the dense bus duct, and the side parts of the limit guide mechanisms are horizontally provided with measuring inserting rods.

Preferably, the expansion stretching mechanism comprises a sliding mounting sleeve, an external thread is arranged on the outer portion of the sliding mounting sleeve, a limiting sliding rail is further arranged on the outer portion of the sliding mounting sleeve, a limiting nut is arranged on the outer portion of the sliding mounting sleeve, a stretching rod connecting rod is arranged in the sliding mounting sleeve, a limiting sliding block is arranged at the end portion of the stretching rod connecting rod, and a first reset spring is arranged between the limiting sliding block and the sliding mounting sleeve.

Preferably, the limit guide mechanism comprises a width adjusting frame arranged on the expansion and stretching mechanism, a guide block is arranged in the width adjusting frame, the abutting surface of the guide block is matched with the shape of the outer wall of the intensive bus duct, the edge of the guide block is provided with a guide bevel edge, the side part of the width adjusting frame is also provided with an installation insert block, and a plurality of An Chakong of installation measuring insert rods are arranged on the installation insert block.

Preferably, the width adjusting frame comprises a centering installation block, a first adjusting block and a second adjusting block are respectively installed on two sides of the centering installation block, the first adjusting block is connected with an expansion stretching mechanism, installation clamping grooves are formed in the first adjusting block and the second adjusting block, threaded adjusting heads are respectively installed on the first adjusting block and the second adjusting block, positioning threaded holes are formed in the side portions of the threaded adjusting heads, limiting guide posts are arranged on the first adjusting block and sequentially penetrate through the centering installation block and the second adjusting block, a bidirectional threaded rod is further installed on the centering installation block, two ends of the bidirectional threaded rod extend towards two sides of the centering installation block respectively, and the bidirectional threaded rod is in threaded connection with the threaded adjusting heads.

Preferably, the spacing installation handle is including installing the fixed handle on spacing guiding mechanism, and the inside of fixed handle is equipped with battery installation storehouse, and the interior survey of fixed handle still is equipped with the control button that the control was supported and is pressed fixed mechanism, and a plurality of magnetism are inhaled the piece still to the inner wall of fixed handle, still installs spacing regulating frame on the fixed handle.

Preferably, the lateral part of spacing regulating frame is equipped with the pull handle, and the slip bayonet socket is all established at the upper and lower both ends of spacing regulating frame, and spacing jack is covered with to equidistant the lateral part of spacing regulating frame, installs the interlude barrier plate in the spacing jack.

Preferably, the pressing fixing mechanism comprises a mounting bracket mounted on a centering mounting block, a bidirectional ball screw sliding table is mounted on the mounting bracket, expansion plates are symmetrically arranged on two sides of the bidirectional ball screw sliding table, a plurality of shrinkage connecting rods are mounted between the expansion plates and the movable ends of the bidirectional ball screw sliding table, and a plurality of inverted tooth surfaces are arranged on the abutting surfaces of the expansion plates.

Preferably, the telescopic adjusting arm comprises an angle adjusting seat arranged at the side part of the limit mounting handle, a telescopic threaded rod is arranged at the movable end of the angle adjusting seat, a spherical mounting head is arranged at the extending end of the telescopic threaded rod, a rotary supporting contact is arranged on the spherical mounting head, an anti-slip supporting layer is arranged on the supporting surface of the rotary supporting contact, and a plurality of positioning connecting holes are arranged on the outer side of the rotary supporting contact.

Preferably, the angle adjusting seat comprises a fixed mounting seat, a rotating adjusting seat is arranged on the fixed mounting seat, a mounting threaded hole is formed in the rotating adjusting seat, a limiting clamping groove is formed in the connecting part of the fixed mounting seat and the rotating adjusting seat, a pressing adjusting shaft is arranged in the limiting clamping groove, limiting clamping teeth are distributed on the outer side of the pressing adjusting shaft, the limiting clamping teeth are matched with the limiting clamping groove in shape, and a second reset spring is arranged between the pressing adjusting shaft and the rotating adjusting seat.

The invention also provides application of the anti-toppling type connection calibration mounting structure in the intensive bus duct, wherein the anti-toppling type connection calibration mounting structure is adopted.

Compared with the prior art, the invention has the beneficial effects that:

1. the staff installs spacing guiding mechanism and the fixed mechanism of pressing to the top of first intensive bus duct, spacing installation handle can be effective control spacing guiding mechanism and the fixed position of pressing of fixed mechanism, the fixed mechanism of pressing of spacing installation handle bottom can fix a position with first intensive bus duct, can make spacing guiding mechanism and the fixed mechanism of pressing of spacing installation handle top fix after pressing fixed mechanism and first intensive bus duct, the staff inserts the spacing guiding mechanism and the fixed mechanism of pressing of second intensive bus duct to spacing installation handle top again, spacing installation handle top pressing fixed mechanism can keep vertical relative setting with the top of first intensive bus duct after the fixed, the distance of two locating rays of measurement inserted bar pair that staff can pass through, can be effective judge whether the junction of second intensive bus duct and first intensive bus duct remains in the state of level, if second intensive bus duct and first intensive bus duct appear, the slope arm jack is used to install the junction of multiple angle adjustment and is carried out to the side-to-side condition and is adjusted to the side of installing the bus duct through the butt joint device of second intensive bus duct, the slope installation is realized to the side of second intensive bus duct, the slope is adjusted to the condition is adjusted to the jack is finished and the side of installing the side of second intensive bus duct is connected to the second intensive bus duct is convenient for the side-to the wall body is installed to the jack is connected with the second side of the jack, the applicability and the working efficiency can be effectively improved;

2. the anti-toppling butt joint installation mechanism is simple in structure and operation, and equipment cost and use cost can be effectively reduced.

Drawings

FIG. 1 is a front view of an installation state of an anti-toppling adapter proof mounting structure;

FIG. 2 is a perspective view of the installation state of the anti-toppling engagement proof-reading installation structure;

FIG. 3 is a schematic perspective view of an anti-toppling adapter proof mounting structure;

FIG. 4 is a schematic perspective view of a portion of the structure of the anti-toppling adapter proof mount;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a schematic perspective view of a spacing guide mechanism and a pressing and fixing mechanism in the anti-toppling engagement check and correction mounting structure;

FIG. 7 is a schematic perspective view of a limit mounting handle and a telescopic adjustment arm in the anti-toppling joint proof calibration mounting structure;

FIG. 8 is a perspective view of a limit adjusting bracket in the anti-toppling engagement check mounting structure;

FIG. 9 is a schematic perspective view of a tip-over prevention engagement check mounting structure spacing mounting handle and telescoping adjustment arm;

fig. 10 is a perspective view of an angle adjustment seat in the anti-toppling engagement check-up mounting structure.

The reference numerals in the figures are: 1-dense bus duct; 2-an expansion stretching mechanism; 21-a sliding mounting sleeve; 211-external threads; 212-limiting sliding rails; 22-stretching rod connecting rod; 221-limiting sliding blocks; 23-limiting nuts; 24-a first return spring; 3-a limit guide mechanism; 31-width adjusting frames; 311-a centrally mounted block; 312-a first adjustment block; 313-a second adjustment block; 314-limiting guide posts; 315-a bi-directional threaded rod; 316-screw thread adjustment head; 317-positioning threaded holes; 32-a guide block; 33-mounting a plug; 331-An Chakong; 4-limiting the mounting handle; 41-fixing a handle; 411-control buttons; 42-magnetic attraction blocks; 43-limiting an adjusting frame; 431-pull handle; 432-limiting jacks; 433-inserting a blocking plate; 434—sliding bayonet; 5-pressing the fixing mechanism; 51-mounting brackets; 52-a bidirectional ball screw slipway; 53-expansion plate; 54-shrink connection rod; 55-reversing tooth surfaces; 6-telescoping an adjusting arm; 61-an angle adjusting seat; 611-a fixed mount; 612-rotating the adjusting seat; 6121-mounting threaded holes; 614-pressing the adjustment shaft; 6141-limiting latch; 615-a second return spring; 62-a telescopic threaded rod; 621-spherical mounting head; 622-rotating the abutment; 623-positioning connection holes; 624-an anti-slip interference layer; 7-measuring the inserted bar; 8-wall body.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 10, the anti-toppling type connection checking and installing structure comprises an anti-toppling butt joint installing mechanism for stably installing the intensive bus duct 1, wherein the anti-toppling butt joint installing mechanism comprises two groups of extension stretching mechanisms 2 which are symmetrically arranged, two sides of each extension stretching mechanism 2 are symmetrically provided with a limit guide mechanism 3 and a limit installation handle 4, the upper end and the lower end of each limit installation handle 4 are respectively connected with the corresponding limit guide mechanism 3, each limit guide mechanism 3 is provided with a pressing fixing mechanism 5 for fixing the intensive bus duct 1 in a positioning manner, each limit installation handle 4 is further provided with a telescopic adjusting arm 6 for adjusting the installation angle of the intensive bus duct 1, and the side part of each limit guide mechanism 3 is horizontally provided with a measuring inserted rod 7.

When a worker installs the dense bus duct by vertical splicing, the worker firstly installs the first dense bus duct in a horizontal positioning way through the level gauge, after the first dense bus duct is installed, the laser rays of the level gauge can upwards emit two positioning rays along the first dense bus duct, when the worker needs to install the second dense bus duct, the worker firstly stretches to two sides through the limit installation handle 4, the expansion stretching mechanism 2 can limit the stretching direction of the limit installation handle 4, the limit guide mechanism 3 and the pressing fixing mechanism 5 can synchronously expand and move, after the limit guide mechanism 3 and the pressing fixing mechanism 5 are separated, the worker installs the limit guide mechanism 3 and the pressing fixing mechanism 5 at the top of the first dense bus duct, the limit installation handle 4 can effectively control the installation positions of the limit guide mechanism 3 and the pressing fixing mechanism 5, the pressing fixing mechanism 5 at the bottom of the limit installation handle 4 can be fixed with the first dense bus duct, after the expansion stretching mechanism 2 can limit guide the stretching direction of the limit installation handle 4, the limit guide mechanism 3 and the pressing fixing mechanism 5 at the top of the limit installation handle 4 can synchronously enter the top of the dense bus duct through the limit installation handle 4 and the second dense bus duct, the pressing fixing mechanism 5 can synchronously enter the top of the first dense bus duct through the limit installation handle 4 and the second dense bus duct, the two positioning mechanisms 7 can be arranged at the top of the limit installation handle 4 relatively, the limit installation handle 4 can be synchronously fixed with the top of the worker, and the 13 can simultaneously enter the position of the dense bus duct through the two positioning mechanism 5, the method can effectively judge whether the junction of the second intensive bus duct and the first intensive bus duct is kept in a horizontal state, if the second intensive bus duct and the first intensive bus duct are inclined, a worker carries out multi-angle pushing and pulling adjustment through the telescopic adjusting arm 6 and the installation wall body 8 to enable the junction of the second intensive bus duct and the first intensive bus duct to be in a vertical horizontal state, and after adjustment, the worker installs the bus duct connector at the junction of the second intensive bus duct and the first intensive bus duct, and after the installation of the bus duct connector is completed, the worker positions and connects the second intensive bus duct with the wall body 8 through the rack.

Referring to fig. 3 to 5, the expanding and stretching mechanism 2 includes a sliding mounting sleeve 21, an external thread 211 is provided on the outside of the sliding mounting sleeve 21, a limit slide rail 212 is further provided on the outside of the sliding mounting sleeve 21, a limit nut 23 is provided on the outside of the sliding mounting sleeve 21, a stretching rod connecting rod 22 is provided on the inside of the sliding mounting sleeve 21, a limit slide block 221 is provided on the end portion of the stretching rod connecting rod 22, and a first return spring 24 is provided between the limit slide block 221 and the sliding mounting sleeve 21.

When the positions of the limiting guide mechanism 3 and the pressing fixing mechanism 5 are required to be expanded and adjusted, a worker stretches to two sides through the limiting installation handle 4, the limiting installation handle 4 can drive the limiting guide mechanism 3 and the pressing fixing mechanism 5 to synchronously move when moving to two sides, the limiting guide mechanism 3 and the pressing fixing mechanism 5 can enable the stretching rod connecting rod 22 and the sliding installation sleeve 21 to separate and move when moving, the first reset spring 24 can be extruded, after the limiting guide mechanism 3 and the pressing fixing mechanism 5 move to the designated positions, the worker can move and clamp the limiting guide mechanism 3 and the pressing fixing mechanism 5 to the top of the intensive bus duct 1, the first reset spring 24 extrudes and resets to enable the limiting guide mechanism 3 and the pressing fixing mechanism 5 clamped at the top of the intensive bus duct 1 to keep a clamping state, and the limiting nut 23 outside the sliding installation sleeve 21 can effectively block the reset position of the limiting slide block 221, so that stretching tension of expanding motion is saved, and expanding and contracting motion is effectively guided.

Referring to fig. 3 and 4, the limit guiding mechanism 3 includes a width adjusting frame 31 mounted on the extension stretching mechanism 2, a guiding block 32 is mounted in the width adjusting frame 31, an abutting surface of the guiding block 32 is matched with an outer wall shape of the intensive bus duct 1, guiding oblique edges are arranged at edges of the guiding block 32, a mounting inserting block 33 is further arranged at a side portion of the width adjusting frame 31, and a plurality of mounting holes 331 for mounting and measuring inserting rods 7 are formed in the mounting inserting block 33.

The width adjustment frame 31 adjusts according to the width of intensive bus duct 1 lateral part, makes guide block 32 can be with the perfect laminating conflict of intensive bus duct 1 lateral part, and the guide hypotenuse at guide block 32's edge can effectual guide installation, improves installation effectiveness, installs the ampere of hole 331 on the inserted block 33 and is convenient for cartridge measurement inserted bar 7, and the ampere of hole 331 has the stability that magnetic attraction can effectual improvement measurement inserted bar 7 installation.

Referring to fig. 4 and 6, the width adjusting frame 31 includes a centering installation block 311, a first adjusting block 312 and a second adjusting block 313 are respectively installed at two sides of the centering installation block 311, the first adjusting block 312 is connected with the expansion stretching mechanism 2, installation clamping grooves are respectively formed in the first adjusting block 312 and the second adjusting block 313, a threaded adjusting head 316 is respectively installed in the first adjusting block 312 and the second adjusting block 313, a positioning threaded hole 317 is formed in the side portion of the threaded adjusting head 316, a limit guide pillar 314 is arranged on the first adjusting block 312, the limit guide pillar 314 sequentially penetrates through the centering installation block 311 and the second adjusting block 313, a bidirectional threaded rod 315 is further installed on the centering installation block 311, and two ends of the bidirectional threaded rod 315 extend to two sides of the centering installation block 311 respectively, and the bidirectional threaded rod 315 is in threaded connection with the threaded adjusting head 316.

The mounting clamping grooves of the first adjusting block 312 and the second adjusting block 313 are used for limiting and mounting the guide block 32, when the guide block 32 is required to be abutted against the outer wall of the intensive bus duct 1, the first adjusting block 312 and the second adjusting block 313 can horizontally adjust and move along the bidirectional threaded rod 315 through rotating the threaded adjusting heads 316 on the first adjusting block 312 and the second adjusting block 313 in operation, after the first adjusting block 312 and the second adjusting block 313 are adjusted, workers mount bolts into the positioning threaded holes 317 of the threaded adjusting heads 316, the extending ends of the bolts penetrate through the positioning threaded holes 317 and are fixedly connected with the outer wall of the wall body 8, the adjusted threaded adjusting heads 316 are accurately positioned, and the limiting and mounting adaptability can be effectively improved through adjusting the mounting positions of the first adjusting block 312 and the second adjusting block 313.

Referring to fig. 3 and 7, the limit mounting handle 4 includes a fixed handle 41 mounted on the limit guiding mechanism 3, a battery mounting bin is disposed in the fixed handle 41, a control button 411 for controlling the pressing fixing mechanism 5 is further disposed in the fixed handle 41, a plurality of magnetic attraction blocks 42 are further mounted on the inner wall of the fixed handle 41, and a limit adjusting frame 43 is further mounted on the fixed handle 41.

The limiting guide mechanism 3 is installed at the upper end and the lower end of the fixed handle 41, when the fixed handle 41 needs to expand and move the limiting guide mechanism 3, a worker can hold the fixed handle 41 to apply force and expand and adjust the position of the limiting guide mechanism 3, the battery installation bin inside the fixed handle 41 is used for installing a battery, the space is effectively saved, an insulating layer is further arranged outside the fixed handle 41, the safety is effectively improved, friction force is reduced simultaneously, the control button 411 inside the fixed handle 41 can effectively control to press the fixing mechanism 5 to operate, the worker can conveniently control, the magnetic attraction block 42 on the fixed handle 41 can effectively limit and adsorb the limiting adjustment frame 43, the magnetic attraction block 42 effectively ensures that the limiting adjustment frame 43 is moved to a designated position to stop, the limiting adjustment frame 43 is used for limiting and abutting against the dense bus duct 1, the limiting guide mechanism 3 and the pressing the fixing mechanism 5 can stay at the designated installation position of the dense bus duct 1, and after the limiting guide mechanism 3 and the pressing fixing mechanism 5 are well positioned and fixed with the dense bus duct 1, the worker can enable the limiting adjustment frame 43 to be separated from the dense bus duct 1, and the worker can conveniently install the bus duct connector.

Referring to fig. 7 and 8, a drawing handle 431 is provided at a side portion of the limit adjusting frame 43, sliding bayonets 434 are provided at upper and lower ends of the limit adjusting frame 43, limit insertion holes 432 are uniformly distributed at a side portion of the limit adjusting frame 43, and an insertion blocking plate 433 is installed in the limit insertion holes 432.

According to the height of the bus duct connector, a worker can adjust the position of the penetrating and blocking plate 433 in the limiting jack 432, when the penetrating and blocking plate 433 is in butt joint with the dense bus duct 1, the penetrating and blocking plate 433 is used for limiting and abutting against the end part of the dense bus duct 1, so that an installation position is reserved between the butted dense bus duct 1, and after the limiting guide mechanism 3 and the abutting and pressing fixing mechanism 5 are well positioned and fixed with the dense bus duct 1, the limiting and adjusting frame 43 is pulled backwards by the pulling handle 431 which is capable of being passed by the worker, so that the penetrating and blocking plate 433 is separated from the butt joint area of the dense bus duct 1.

Referring to fig. 4 and 6, the pressing fixing mechanism 5 includes a mounting bracket 51 mounted on a centering mounting block 311, a bidirectional ball screw sliding table 52 is mounted on the mounting bracket 51, expansion plates 53 are symmetrically disposed on two sides of the bidirectional ball screw sliding table 52, a plurality of shrinkage connecting rods 54 are mounted between the expansion plates 53 and movable ends of the bidirectional ball screw sliding table 52, and a plurality of inverted tooth surfaces 55 are disposed on abutting surfaces of the expansion plates 53.

After the limiting guide mechanism 3 clamps the intensive bus duct 1, the pressing fixing mechanism 5 is clamped into a side clamping groove of the intensive bus duct 1, the pressing fixing mechanism 5 drives the shrinkage connecting rod 54 to shrink through the bidirectional ball screw sliding table 52, the shrinkage connecting rod 54 can drive the expansion plate 53 to abut against the outer wall of the intensive bus duct 1 when shrinking, and the inverted tooth surface 55 of the expansion plate 53 can effectively increase friction force to effectively form expansion clamping force.

Referring to fig. 7 and 9, the telescopic adjusting arm 6 includes an angle adjusting seat 61 mounted on the side portion of the limit mounting handle 4, a telescopic threaded rod 62 is mounted at the movable end of the angle adjusting seat 61, a spherical mounting head 621 is disposed at the extending end of the telescopic threaded rod 62, a rotating contact 622 is mounted on the spherical mounting head 621, an anti-slip contact layer 624 is disposed on the contact surface of the rotating contact 622, and a plurality of positioning connection holes 623 are disposed on the outer side of the rotating contact 622.

The first intensive bus duct is horizontally positioned and installed through the level meter, after the first intensive bus duct is installed, the laser rays of the level meter can emit two positioning rays upwards along the first intensive bus duct, the two positioning rays are emitted at a crisscross angle, the distance between the two positioning rays is detected by a measuring inserting rod 7 which can be passed by a worker, when the distance between the second intensive bus duct and the positioning rays is the same as the distance between the first intensive bus duct and the positioning rays, the joint between the second intensive bus duct and the first intensive bus duct is judged to be in a horizontally aligned state, when the distance between the second intensive bus duct and the positioning rays is different from the distance between the first intensive bus duct and the positioning rays, the joint between the second intensive bus duct and the first intensive bus duct is judged to be in an inclined state, the staff can judge the inclination angle according to the distance between the second intensive bus duct and the positioning ray, if the second intensive bus duct and the first intensive bus duct incline to the inner side of the wall body 8, the staff rotates and adjusts the extending angle of the telescopic threaded rod 62 through the angle adjusting seat 61 according to the inclination angle of the second intensive bus duct and the first intensive bus duct, after the angle adjusting seat 61 is adjusted, the staff rotates the telescopic threaded rod 62 again, the telescopic threaded rod 62 is in threaded connection with the angle adjusting seat 61, the telescopic threaded rod 62 can effectively extend to the wall body 8 until the abutting surface of the rotary abutting contact 622 abuts against the wall body 8, the staff continuously applies pressure after the rotary abutting contact 622 abuts against the wall body 8 to form corrected extrusion force, if the second intensive bus duct and the first intensive bus duct incline to the outer wall body 8, the staff can abut the rotary abutting contact 622 in front when the tension is needed, the wall body 8 of rethread trompil equipment to location connecting hole 623 positions is trompil, and wall body 8 trompil back, the staff rethread gim is tied and is fixed with the rotation butt 622 and wall body 8 location, and the staff rotates flexible threaded rod 62 again and forms the pulling force, and effectual second intensive bus duct and the first intensive bus duct of slope are exerted pressure and are corrected the mounted position.

Referring to fig. 9 and 10, the angle adjusting seat 61 includes a fixed mounting seat 611, a rotation adjusting seat 612 is mounted on the fixed mounting seat 611, a mounting threaded hole 6121 is formed in the rotation adjusting seat 612, a limiting clamping groove is formed at the joint of the fixed mounting seat 611 and the rotation adjusting seat 612, a pressing adjusting shaft 614 is mounted in the limiting clamping groove, limiting clamping teeth 6141 are fully distributed on the outer side of the pressing adjusting shaft 614, the limiting clamping teeth 6141 are matched with the limiting clamping groove in shape, and a second return spring 615 is mounted between the pressing adjusting shaft 614 and the rotation adjusting seat 612.

When the staff adjusts the angle that telescopic threaded rod 62 extends according to the inclination of second intensive bus duct and first intensive bus duct, the staff can promote to press adjusting axle 614 and descend, can extrude second reset spring 615 when pressing adjusting axle 614 and descend, can make spacing latch 6141 and spacing draw-in groove when pressing adjusting axle 614 to descend, the staff can adjust the position of rotating adjusting seat 612, the staff loosens and presses adjusting axle 614 after rotating adjusting seat 612 and finishes adjusting, second reset spring 615 can drive and press adjusting axle 614 to rise, can make spacing latch 6141 and spacing draw-in groove joint location when pressing adjusting axle 614 to rise, the effectual adaptability that improves the correction.

The invention also provides application of the anti-toppling type connection calibration mounting structure in the intensive bus duct, wherein the anti-toppling type connection calibration mounting structure is adopted.

The specific working principle is as follows: in the process of splicing and installing the dense bus duct along the wall body 8, in order to avoid the risk of equipment whole dumping caused by inclination of equipment after the dense bus duct is installed, the dense bus duct needs to be vertically installed, when a worker vertically splices and installs the dense bus duct, the worker firstly horizontally positions and installs the first dense bus duct through the level meter, after the first dense bus duct is installed, the laser rays of the level meter can upwards emit two positioning rays along the first dense bus duct, when the worker needs to install the second dense bus duct, the worker firstly stretches to two sides through the limiting installation handle 4, the stretching direction of the limiting installation handle 4 is guided by the stretching mechanism 2 in a limiting manner, the limiting guide mechanism 3 and the pressing fixing mechanism 5 synchronously expand and move, and after the limiting guide mechanism 3 and the pressing fixing mechanism 5 are separated and opened, the staff installs the spacing guiding mechanism 3 and the pressing fixing mechanism 5 on the top of the first intensive bus duct, the spacing installation handle 4 can effectively control the installation positions of the spacing guiding mechanism 3 and the pressing fixing mechanism 5, the pressing fixing mechanism 5 at the bottom of the spacing installation handle 4 can fix the position of the first intensive bus duct, after the pressing fixing mechanism 5 is fixed with the first intensive bus duct, the spacing guiding mechanism 3 and the pressing fixing mechanism 5 at the top of the spacing installation handle 4 can synchronously fix the position, the staff inserts the second intensive bus duct into the spacing guiding mechanism 3 and the pressing fixing mechanism 5 at the top of the spacing installation handle 4, the pressing fixing mechanism 5 at the top of the spacing installation handle 4 can fix the second intensive bus duct which is inserted into, the second intensive bus duct can keep vertical opposite arrangement with the top of the first intensive bus duct after being fixed, the distance of two location rays is detected to the measurement inserted bar 7 that staff's accessible, can effectually judge whether the junction of second intensive bus duct and first intensive bus duct keeps in the horizontally state, if the appearance of second intensive bus duct and first intensive bus duct is inclined, the staff carries out the multi-angle through flexible arm 6 and bulldozes and pulls and adjust with installation wall body 8, make the junction of second intensive bus duct and first intensive bus duct become vertical horizontally state, the staff installs the butt joint department of second intensive bus duct and first intensive bus duct with the bus duct connector again after the adjustment, the bus duct connector is installed the back and is connected second intensive bus duct and wall body 8 location through the frame.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (7)

1. The anti-toppling linking correction mounting structure comprises an anti-toppling butt joint mounting mechanism which is stably mounted on a dense bus duct (1), and is characterized in that the anti-toppling butt joint mounting mechanism comprises two groups of symmetrically arranged extension stretching mechanisms (2), two sides of each extension stretching mechanism (2) are symmetrically provided with a limit guide mechanism (3) and a limit mounting handle (4), the upper end and the lower end of each limit mounting handle (4) are connected with each limit guide mechanism (3), each limit guide mechanism (3) is provided with a pressing fixing mechanism (5) for positioning and fixing the dense bus duct (1), each limit mounting handle (4) is further provided with a telescopic adjusting arm (6) for adjusting the mounting angle of the dense bus duct (1), and a measuring inserted rod (7) is horizontally mounted on the side part of each limit guide mechanism (3);

the expansion stretching mechanism (2) comprises a sliding mounting sleeve (21), an external thread (211) is arranged outside the sliding mounting sleeve (21), a limiting slide rail (212) is further arranged outside the sliding mounting sleeve (21), a limiting nut (23) is arranged outside the sliding mounting sleeve (21), a stretching rod connecting rod (22) is arranged inside the sliding mounting sleeve (21), a limiting slide block (221) is arranged at the end part of the stretching rod connecting rod (22), and a first reset spring (24) is arranged between the limiting slide block (221) and the sliding mounting sleeve (21);

the limiting guide mechanism (3) comprises a width adjusting frame (31) arranged on the expansion and stretching mechanism (2), a guide block (32) is arranged in the width adjusting frame (31), the abutting surface of the guide block (32) is matched with the shape of the outer wall of the intensive bus duct (1), guide oblique edges are arranged at the edges of the guide block (32), mounting inserting blocks (33) are further arranged at the side parts of the width adjusting frame (31), and a plurality of mounting holes (331) for mounting and measuring inserting rods (7) are formed in the mounting inserting blocks (331);

the width adjusting frame (31) comprises a centering installation block (311), a first adjusting block (312) and a second adjusting block (313) are respectively installed on two sides of the centering installation block (311), the first adjusting block (312) is connected with an expansion stretching mechanism (2), installation clamping grooves are formed in the first adjusting block (312) and the second adjusting block (313), threaded adjusting heads (316) are respectively installed on the first adjusting block (312) and the second adjusting block (313), positioning threaded holes (317) are formed in the side portions of the threaded adjusting heads (316), limiting guide columns (314) are arranged on the first adjusting block (312), the limiting guide columns (314) sequentially penetrate through the centering installation block (311) and the second adjusting block (313), two-way threaded rods (315) are further installed on the centering installation block (311), and two ends of each two-way threaded rod (315) extend to two sides of the centering installation block (311) respectively, and are in threaded connection with the threaded adjusting heads (316).

2. The anti-toppling type connection checking and installing structure according to claim 1, wherein the limiting and installing handle (4) comprises a fixed handle (41) installed on the limiting and guiding mechanism (3), a battery installing bin is arranged in the fixed handle (41), a control button (411) for controlling to press the fixed mechanism (5) is further arranged in the fixed handle (41), a plurality of magnetic blocks (42) are further installed on the inner wall of the fixed handle (41), and a limiting and adjusting frame (43) is further installed on the fixed handle (41).

3. The anti-toppling linking and checking installation structure according to claim 2, wherein a drawing handle (431) is arranged on the side portion of the limiting and adjusting frame (43), sliding bayonets (434) are arranged at the upper end and the lower end of the limiting and adjusting frame (43), limiting insertion holes (432) are distributed on the side portion of the limiting and adjusting frame (43) at equal intervals, and penetrating blocking plates (433) are arranged in the limiting insertion holes (432).

4. The anti-toppling engagement checking and installing structure according to claim 1, wherein the pressing and fixing mechanism (5) comprises a mounting bracket (51) arranged on a centering mounting block (311), a bidirectional ball screw sliding table (52) is arranged on the mounting bracket (51), expansion plates (53) are symmetrically arranged on two sides of the bidirectional ball screw sliding table (52), a plurality of shrinkage connecting rods (54) are arranged between the expansion plates (53) and movable ends of the bidirectional ball screw sliding table (52), and a plurality of inverted tooth surfaces (55) are arranged on an abutting surface of the expansion plates (53).

5. The anti-toppling type connection checking and installing structure according to claim 1, wherein the telescopic adjusting arm (6) comprises an angle adjusting seat (61) arranged on the side part of the limiting installation handle (4), a telescopic threaded rod (62) is arranged at the movable end of the angle adjusting seat (61), a spherical installation head (621) is arranged at the extending end of the telescopic threaded rod (62), a rotary abutting contact (622) is arranged on the spherical installation head (621), an anti-slip abutting layer (624) is arranged on the abutting surface of the rotary abutting contact (622), and a plurality of positioning connecting holes (623) are formed in the outer side of the rotary abutting contact (622).

6. The anti-toppling linking and checking mounting structure according to claim 5, wherein the angle adjusting seat (61) comprises a fixed mounting seat (611), a rotation adjusting seat (612) is mounted on the fixed mounting seat (611), a mounting threaded hole (6121) is formed in the rotation adjusting seat (612), limit clamping grooves are formed in the connecting positions of the fixed mounting seat (611) and the rotation adjusting seat (612), a pressing adjusting shaft (614) is mounted in each limit clamping groove, limit clamping teeth (6141) are distributed on the outer side of the pressing adjusting shaft (614), the limit clamping teeth (6141) are matched with the shape of the limit clamping grooves, and a second reset spring (615) is mounted between the pressing adjusting shaft (614) and the rotation adjusting seat (612).

7. Use of an anti-toppling joint proof calibration mounting structure in a dense bus duct, characterized in that an anti-toppling joint proof calibration mounting structure according to any one of claims 1-6 is used.