CN114776048A

CN114776048A - Balanced shaped steel structure

Info

Publication number: CN114776048A
Application number: CN202210431784.8A
Authority: CN
Inventors: 付豪
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-23
Filing date: 2022-04-23
Publication date: 2022-07-22

Abstract

The invention provides a balanced profile steel structure, which relates to the technical field of steel structures, wherein a calibration rolling groove is formed in the front wall of a main base of the structure, trigger components are arranged on the left side and the right side of the main base of the structure at positions corresponding to the calibration rolling groove, each trigger component comprises a gravity sensor, a button and a telescopic shaft, the gravity sensors are embedded in the main base of the structure, the buttons are arranged on the inner walls of the gravity sensors, the inner ends of the buttons extend to the inner walls of the calibration rolling grooves, and the telescopic shafts are positioned below the gravity sensors and are in transmission connection with the gravity sensors; the preformed groove has been seted up to main base bottom surface of structure, and the roof left and right sides all is fixed with traction spring in the preformed groove, and traction spring bottom mounting has the cover dish, and there is the auxiliary pipe at cover dish center through threaded connection, realizes the leveling effect to the main base of structure, and the main base of structure is rectified balanced fast, is the horizontality when making the main base of structure and the installation of building construction position.

Description

Balanced shaped steel structure

Technical Field

The invention relates to the technical field of steel structures, in particular to a balanced profile steel structure.

Background

Steel structures are structures composed of steel materials and are one of the main building structure types.

Present building structure is when the equipment, generally can use steel structure base to carry out the bearing, in the pre-buried building construction position of steel structure base, and building structure card is in the steel structure base top, but the condition of unevenness can appear in the relief of part building construction position, steel structure base's bottom surface is the horizontal plane mostly, at this moment the installation will appear unbalanced condition between the two, lead to steel structure base to appear inclining, automatic leveling not convenient for, and steel structure base is by the pre-buried back bottom surface condition that hollowing appears because of the slope easily, direct influence steel structure base pre-buried stability, wholly bring the potential safety hazard for the building.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the steel structure base is by the pre-buried back bottom surface condition of hollowing appears because of the slope easily, wholly brings the potential safety hazard for the building, to the problem that prior art exists, provides a balanced shaped steel structure.

The purpose and the effect of the invention are achieved by the following specific technical means: a balance steel structure comprises a main structure base and a clamping piece for clamping a building workpiece, wherein the clamping piece is fixed on the top surface of the main structure base;

the front wall of the main structural base is provided with a calibration rolling groove, the left side and the right side of the main structural base are respectively provided with a trigger assembly corresponding to the calibration rolling groove, each trigger assembly comprises a gravity sensor, a button and a telescopic shaft, the gravity sensors are embedded in the main structural base, the buttons are arranged on the inner walls of the gravity sensors, the inner ends of the buttons extend to the inner walls of the calibration rolling grooves, and the telescopic shafts are located below the gravity sensors and are in transmission connection with the gravity sensors;

the reserve tank has been seted up to structure owner base bottom surface, and the roof left and right sides all is fixed with traction spring in the reserve tank, traction spring bottom mounting has the set, and the set center has the auxiliary pipe through threaded connection, be equipped with in the middle of the reserve tank bottom and hold a subassembly, and hold a subassembly and include storage box and buckle, the quantity of buckle is a plurality of and is horizontal equidistance and is fixed in the storage box top surface, and the storage box top passes through buckle and reserve tank joint.

Further preferred embodiments: the inside roll of calibration rolling slot has the calibration spin, and calibration spin outer wall contacts with the button, and the calibration spin rolls along with the slope of structure owner base.

Further preferred embodiments: trigger subassembly still includes leveling piece, inner spring and supplementary cushion, and leveling piece is fixed in telescopic shaft bottom and scarf joint in the main base diapire of structure, open the side channel that is perpendicular arranging of a plurality of in the leveling piece, and the quantity of inner spring and supplementary cushion all equals with the quantity of side channel, the inner spring is horizontal inside the side channel respectively, and supplementary cushion is horizontal outside the side channel respectively, the inner spring is fixed in between side channel inner wall and the supplementary cushion.

Further preferred embodiments: the top of the auxiliary pipe is detachably connected with a cover, one side of the bottom of the auxiliary pipe is provided with a plurality of release holes, the center of the bottom of the auxiliary pipe is rotatably connected with a rotating shaft, a fan-shaped shielding baffle is fixed on the outer wall of the rotating shaft, the shielding baffle is shielded outside the release holes, the outer ends of the auxiliary cushion blocks abut against the shielding baffle, and the shielding baffle rotates to open the release holes when the auxiliary cushion blocks abut against the shielding baffle.

Further preferred embodiments: a plurality of opening has evenly been seted up to storage box bottom surface, and the storage box left and right sides two walls all seted up the spacing slide of vertical form, hold and carry the subassembly and still include the inner tower, extend axle and blocking member, the inner tower horizontal is on the inside top of storage box, and extends the quantity of axle and be two and inside horizontal spacing slide respectively, extend the inboard end and extend to the storage box inside and be fixed in the inner tower outer wall, and the quantity of blocking member equals with open-ended quantity and peg graft inside the opening respectively, and the blocking member top meets bottom the inner tower, controls open-ended through the blocking member and opens and close.

Further preferred embodiments: the outer end of the extension shaft extends to the bottom of the sleeve disk, and the extension shaft moves downwards along with the downward movement of the sleeve disk.

Further preferred embodiments: one side of the bottom surface of the storage box is connected with a bottom cover through threads.

Further preferred embodiments: roof scarf joint has the transparent plate in the calibration slot, and the main base of structure is inside and lie in the transparent plate top and install and track the grating inductor, electronic pole is all installed at two angles about the inside top of the main base of structure, and the electronic pole top is installed and is lifted the board, and the main base of structure is like the slope condition that appears, and the lifting board of the higher one end of the main base of structure shifts up so.

Further preferred embodiments: the lifting plates are respectively positioned at the left side and the right side of the clamping pieces, and the clamping pieces are assisted to install the building workpieces through the lifting plates.

The invention has the beneficial effects that:

when the main structure base is installed at a building construction position, the installation balance of the main structure base can be judged through the calibration rolling balls, the calibration rolling balls can impact the button after rolling to a certain position, meanwhile, the gravity sensor is triggered, the gravity sensor can sense the gravity borne by the button, the larger the inclination amplitude of the main structure base is, the heavier the force applied by the calibration rolling balls to the button is, the gravity sensed by the gravity sensor can be converted into the length prolonged by the telescopic shaft through the PLC, the leveling effect on the main structure base is realized, the main structure base is quickly corrected and balanced, the main structure base and the building construction position are in a horizontal state when being installed, the installation stability of building workpieces is ensured, and the extended telescopic shaft makes up the low potential position of the main structure base;

when the leveling block moves downwards out of the bottom of the main structure base, the auxiliary cushion block at the bottommost end can simultaneously move out of the main structure base, the bottom of the auxiliary pipe and the auxiliary cushion block at the bottommost end are ejected out at the same time, the shielding baffle plate rotates along with the pushing force generated when the auxiliary cushion block is ejected out, the shielding baffle plate rotates and then is separated from the release hole, the release hole is opened, concrete in the auxiliary pipe can be released through the release hole, the concrete in the auxiliary pipe is released to the suspended position at the bottom of the main structure base, the gap position of the bottom surface of the main structure base is filled with the concrete, the main structure base does not need to be moved away, the auxiliary pipe is indirectly linked through the action of the calibration rolling ball trigger button, the release hole is opened, the concrete can be automatically released, and the installation stability of the main structure base and a building construction position is enhanced;

the sleeve plate moves downwards while the extension shaft also moves downwards, the blocking piece moves downwards and then is separated from the opening, the opening is opened at the moment, more concrete can be released through the opening, the concrete is released to one side of the gap position of the bottom surface of the main structure base from the opening, so that the opening also releases the concrete at the same time when the auxiliary pipe releases the concrete, the pre-embedding work of the main structure base is assisted, and the concrete is released to the bottom surface of the main structure base after the main structure base is leveled and corrected, so that the concrete-release-type steel structure main structure base is particularly suitable for the building installation work aiming at a steel structure;

when the calibration spin is partial to a certain side, control module drives the electronic pole of one side that corresponds and starts, it is directly proportional to track the distance that the grating inductor sensed the skew central point of calibration spin displacement and the length that electronic pole extends, calibration spin skew position is big more, electronic pole extension length is longer more, lift the board in the time of electronic pole extension and raised, can adjust the position rising to building work piece fastening, prevent that building work piece from collapsing along with the slope of the main base of structure, protect building work piece in the slope of the main base of structure, effectively improve the stability of building work piece installation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the interior of a main base structure according to the present invention;

FIG. 3 is an enlarged view of the part A of the present invention;

FIG. 4 is a schematic view of the attachment structure of the present invention;

FIG. 5 is a schematic view of the interior of the magazine structure of the present invention;

fig. 6 is a schematic structural diagram of the magazine according to the present invention.

In fig. 1-6: the structure comprises a main structure base 1, a calibration rolling groove 101, a gravity sensor 2, a button 201, a telescopic shaft 3, a leveling block 301, a side groove 302, an inner spring 303, an auxiliary cushion block 304, a preformed groove 4, a traction spring 5, a sleeve disc 501, an auxiliary pipe 6, a cover 601, a release hole 602, a rotating shaft 7, a shielding baffle 701, a storage box 8, a buckle 801, an opening 802, a limiting slide way 803, an inner frame 9, an extension shaft 901, a blocking piece 902, a bottom cover 903, a transparent plate 10, a tracking grating sensor 1001, an electric rod 11, a lifting plate 1101, a clamping piece 12 and a calibration rolling ball 13.

Detailed Description

Referring to fig. 1-6, a balance steel structure comprises a main base 1 and a clamping member 12 for clamping a building workpiece, wherein the clamping member 12 is fixed on the top surface of the main base 1;

the structure is characterized in that a reserved groove 4 is formed in the bottom surface of a main base 1, traction springs 5 are fixed on the left side and the right side of the inner top wall of the reserved groove 4, a sleeve disc 501 is fixed at the bottom end of each traction spring 5, an auxiliary pipe 6 is connected to the center of the sleeve disc 501 through threads, a cover 601 is detachably connected to the top of each auxiliary pipe 6, a plurality of release holes 602 are formed in one side of the bottom of each auxiliary pipe 6, a rotating shaft 7 is rotatably connected to the center of the bottom of each auxiliary pipe 6, a fan-shaped shielding baffle 701 is fixed to the outer wall of each rotating shaft 7, the shielding baffle 701 is shielded outside the release holes 602, and the outer end of an auxiliary cushion block 304 abuts against the shielding baffle 701;

preparation work:

firstly, unscrewing a cover 601, filling prepared concrete into an auxiliary pipe 6, simultaneously rotating a shielding baffle 701 to shield a release hole 602 through the shielding baffle 701 so as to prevent the concrete from leaking from the release hole 602, then covering the cover 601, adjusting the shielding baffle 701 downwards, and screwing the auxiliary pipe 6 into a sleeve disc 501;

the middle of the bottom of the reserved groove 4 is provided with a containing and loading assembly, the containing and loading assembly comprises a storage box 8 and fasteners 801, the fasteners 801 are arranged in a plurality and are transversely fixed on the top surface of the storage box 8 at equal intervals, and the top of the storage box 8 is clamped with the reserved groove 4 through the fasteners 801; a bottom cover 903 is connected to one side of the bottom surface of the storage box 8 through threads;

the bottom surface of the storage box 8 is uniformly provided with a plurality of openings 802, the left wall and the right wall of the storage box 8 are both provided with vertical limiting slide ways 803, the containing and carrying assembly further comprises an inner frame 9, extension shafts 901 and blocking pieces 902, the inner frame 9 is transversely arranged at the top end inside the storage box 8, the number of the extension shafts 901 is two, the extension shafts 901 are respectively transversely arranged inside the limiting slide ways 803, the inner ends of the extension shafts 901 extend into the storage box 8 and are fixed on the outer wall of the inner frame 9, the number of the blocking pieces 902 is equal to that of the openings 802 and are respectively inserted into the openings 802, and the top parts of the blocking pieces 902 are connected with the bottom parts of the inner frame 9; the outer end of the extension shaft 901 extends to the bottom of the sleeve disc 501;

further, the storage box 8 is inverted to enable the bottom cover 903 to face upwards, then the extension shaft 901 slides downwards to the bottom end of the limiting slide way 803, meanwhile, the inner frame 9 can be located at the bottom end inside the storage box 8, the blocking piece 902 blocks the opening 802, then the bottom cover 903 is unscrewed, the prepared concrete is filled into the storage box 8, then the bottom cover 903 is covered, the storage box 8 stores the concrete, the storage box 8 is turned over, the opening 802 is blocked through the blocking piece 902 to prevent the concrete from leaking from the opening 802, the storage box 8 is clamped into the reserved groove 4 through the buckle 801, the outer end of the extension shaft 901 can be located below the sleeve disc 501, and after the operation is finished, the main structure base 1 can be placed at the building construction installation position;

a transparent plate 10 is embedded in the top wall of the calibration rolling slot 101, a tracking grating sensor 1001 is installed inside the main structural base 1 and above the transparent plate 10, electric rods 11 are installed at the left corner and the right corner of the top end inside the main structural base 1, and a lifting plate 1101 is installed at the top of each electric rod 11;

the lifting plates 1101 are respectively positioned at the left side and the right side of the clamping piece 12;

specifically, the main base 1 and the clamping pieces 12 of the structure are used as pre-buried bases of building workpieces, the building workpieces are clamped above the clamping pieces 12, the clamping pieces 12 are concave, and the building workpieces can be preliminarily clamped and fixed through the clamping pieces 12;

further, the electric rod 11 is in a retraction state in an initial state, the current position of the lifting plate 1101 is the lowest position, after the building workpiece and the clamping piece 12 are installed, the lifting plate 1101 is respectively located below the left side and the right side of the building workpiece, clamping claws are arranged at the top ends of the lifting plate 1101 and can be clamped on the left wall and the right wall of the building workpiece through the clamping claws, the stability of the building workpiece is improved, and the building workpiece is prevented from toppling over;

the front wall of the main structural base 1 is provided with a calibration rolling groove 101, trigger assemblies are arranged on the left side and the right side of the main structural base 1 corresponding to the calibration rolling groove 101, each trigger assembly comprises a gravity sensor 2, a button 201 and a telescopic shaft 3, the gravity sensors 2 are embedded in the main structural base 1, the buttons 201 are mounted on the inner wall of the gravity sensors 2, the inner ends of the buttons 201 extend to the inner wall of the calibration rolling groove 101, and the telescopic shafts 3 are located below the gravity sensors 2 and are in transmission connection with the gravity sensors 2;

a calibration rolling ball 13 rolls in the calibration rolling slot 101, and the outer wall of the calibration rolling ball 13 is contacted with the button 201;

a balance adjustment step:

when the main structure base 1 is installed at a building construction position, the installation balance of the main structure base 1 can be judged through the calibration rolling ball 13, if the main structure base 1 is stably installed, the calibration rolling ball 13 can be located at the center of the calibration rolling groove 101, if the main structure base 1 is installed and inclines, the calibration rolling ball 13 can roll to the lower position of the inclined position of the main structure base 1, the calibration rolling ball 13 can impact the button 201 after rolling to a certain position, meanwhile, the gravity sensor 2 is triggered, the gravity sensor 2 can sense the gravity borne by the button 201, the larger the inclination amplitude of the main structure base 1 is, the heavier the force applied by the calibration rolling ball 13 to the button 201 is;

the gravity sensor 2 is internally provided with a PLC controller, the gravity sensed by the gravity sensor 2 can be converted into the extended length of the telescopic shaft 3 through the PLC controller, for example, the gravity sensed by the gravity sensor 2 is 0.3n, then the PLC controller controls the telescopic shaft 3 to extend for 2mm, the telescopic shaft 3 can drive the leveling block 301 to move out of the bottom end of the main structure base 1, meanwhile, the lower part of the inclined position of the main structure base 1 can be lifted for 2mm, the height of the lower part of the inclined position of the main structure base 1 can be converted according to the gravity when the calibration rolling ball 13 contacts the button 201, the leveling effect on the main structure base 1 is realized, the main structure base 1 is quickly corrected and balanced, the main structure base 1 is in a horizontal state when being installed with a building construction position, the installation stability of building workpieces is ensured, the extended telescopic shaft 3 makes up the low potential position of the main structure base 1, after the host machine is leveled, the calibration rolling ball 13 rolls to the center of the calibration rolling groove 101, and the telescopic shaft 3 keeps the current length;

the trigger assembly further comprises a leveling block 301, an inner spring 303 and an auxiliary cushion block 304, the leveling block 301 is fixed at the bottom of the telescopic shaft 3 and is embedded in the bottom wall of the main base 1 of the structure, a plurality of side grooves 302 which are vertically arranged are formed in the inner side of the leveling block 301, the number of the inner spring 303 and the number of the auxiliary cushion block 304 are equal to the number of the side grooves 302, the inner spring 303 is respectively transversely arranged in the side grooves 302, the auxiliary cushion block 304 is respectively transversely arranged on the outer side of the side grooves 302, and the inner spring 303 is fixed between the inner wall of the side groove 302 and the auxiliary cushion block 304;

the bottom of one side of the main structural base 1, which is lifted by the auxiliary cushion blocks 304, is in a suspended state, when the leveling blocks 301 are moved downwards out of the bottom of the main structural base 1, the auxiliary cushion block 304 at the bottommost end is simultaneously moved out of the main structural base 1, after the outer ends of the auxiliary cushion blocks 304 lose the abutting objects, the auxiliary cushion blocks 304 are driven by the inner spring 303 to pop out, the thickness of one auxiliary cushion block 304 is 1mm, the number of the leveling blocks 301 which are moved downwards is less than a millimeter, the number of the auxiliary cushion blocks 304 pop out, and the popped-out auxiliary cushion blocks 304 can assist the leveling blocks 301 in laying the main structural base 1;

meanwhile, the auxiliary pipe 6 on the suspended side of the bottom of the main base 1 is ejected by the traction spring 5, the bottom of the auxiliary pipe 6 and the auxiliary cushion block 304 at the bottom end are ejected at the same time, the inner end of the auxiliary pad 304 will extend to the position of the shielding plate 701 when ejected, and the shielding plate 701 rotates with the pushing force of the auxiliary pad 304 when ejected, the shielding plate 701 disengages from the releasing hole 602 after rotating, and the releasing hole 602 is opened, the concrete in the subsidiary pipe 6 is released through the release hole 602, the concrete in the subsidiary pipe 6 is released to the suspended position of the bottom of the structural main base 1, the gap position of the bottom surface of the main base 1 of the structure is filled with concrete, the main base 1 of the structure does not need to be moved away, the release hole 602 is opened by indirectly linking the auxiliary pipe 6 through the action of the calibration rolling ball 13 triggering the button 201, so that the concrete can be automatically released, and the mounting stability of the main base 1 of the structure and the construction position of the building is enhanced;

the extension shaft 901 moves downwards along with the downward movement of the sleeve disc 501;

the sleeve 501 moves down under the influence of the elastic force of the traction spring 5, and at the same time, the extension shaft 901 also moves down, and the extension shaft 901 moves downwards and simultaneously drives the inner frame 9 to move downwards, the inner frame 9 uniformly drives the blocking piece 902 to move downwards, the blocking piece 902 moves downwards and then is separated from the opening 802, at the moment, the opening 802 is opened, the concrete stored in the storage box 8 can be released from the opening 802, the internal volume of the storage box 8 is larger than that of the auxiliary pipe 6, more concrete can be released through the opening 802, the concrete is released from the opening 802 to one side of the gap position of the bottom surface of the main base 1 of the structure, so that the opening 802 releases the concrete at the same time when the auxiliary pipe 6 releases the concrete, the pre-burying work of the main base 1 of the auxiliary structure, after the structure main base 1 is leveled and corrected, the concrete is released from the bottom surface of the structure main base 1, and the method is particularly suitable for the building installation work aiming at the steel structure;

the tracking grating sensor 1001 is electrically connected with the electric rod 11 through the control module, when the calibration rolling ball 13 rolls in the calibration rolling slot 101, the position of the calibration rolling ball 13 can be sensed through the tracking grating sensor 1001, when the calibration rolling ball 13 deflects to one side, the sensing position of the calibration rolling ball 13 is fed back to the control module by the tracking grating sensor 1001, the electric rod 11 on the corresponding side is driven by the control module to start, the electric rod 11 extends, the distance of the calibration rolling ball 13 from the displacement center point sensed by the tracking grating sensor 1001 is in direct proportion to the extension length of the electric rod 11, the greater the deflection position of the calibration rolling ball 13 is, the longer the extension length of the electric rod 11 is, the lifting plate 1101 is lifted when the electric rod 11 is extended, the position for fastening the building workpiece can be adjusted to rise, the building workpiece is prevented from collapsing along with the inclination of the main base 1 of the structure, the building workpiece is protected while the main base 1 of the structure is inclined, effectively improve the stability of building workpiece installation.

Claims

1. The utility model provides a balanced shaped steel structure, includes main base (1) of structure and fastener (12) that are used for chucking building workpiece, fastener (12) are fixed in main base (1) top surface of structure, its characterized in that:

the front wall of the main structural base (1) is provided with a calibration rolling groove (101), the left side and the right side of the main structural base (1) are provided with trigger assemblies corresponding to the calibration rolling groove (101), each trigger assembly comprises a gravity sensor (2), a button (201) and a telescopic shaft (3), the gravity sensors (2) are embedded in the main structural base (1), the buttons (201) are mounted on the inner wall of the gravity sensors (2), the inner ends of the buttons (201) extend to the inner wall of the calibration rolling groove (101), and the telescopic shafts (3) are located below the gravity sensors (2) and are in transmission connection with the gravity sensors (2);

the structure main base (1) bottom surface has been seted up and has been reserved groove (4), and the roof left and right sides all is fixed with traction spring (5) in reserved groove (4), traction spring (5) bottom mounting has set (501), and set (501) center has auxiliary pipe (6) through threaded connection, be equipped with in the middle of reserved groove (4) bottom and hold and carry the subassembly, and hold and carry the subassembly and include storage box (8) and buckle (801), the quantity of buckle (801) is a plurality of and is horizontal equidistance and be fixed in storage box (8) top surface, and storage box (8) top is through buckle (801) and reserved groove (4) joint.

2. The balanced steel section structure according to claim 1, characterized in that: the calibration rolling ball (13) rolls in the calibration rolling groove (101), and the outer wall of the calibration rolling ball (13) is in contact with the button (201).

3. The balanced steel section structure according to claim 1, characterized in that: trigger assembly still includes leveling piece (301), inner spring (303) and supplementary cushion (304), and leveling piece (301) are fixed in telescopic shaft (3) bottom and scarf joint in structure owner base (1) diapire, leveling piece (301) inboard has been seted up a plurality of and is side channel (302) of arranging perpendicularly, and the quantity of inner spring (303) and supplementary cushion (304) all equals with the quantity of side channel (302), inner spring (303) are horizontal respectively inside side channel (302), and supplementary cushion (304) are horizontal respectively in the side channel (302) outside, inner spring (303) are fixed in between side channel (302) inner wall and supplementary cushion (304).

4. A balanced steel section structure according to claim 3 wherein: the top of the auxiliary pipe (6) is detachably connected with a cover (601), one side of the bottom of the auxiliary pipe (6) is provided with a plurality of release holes (602), the center of the bottom of the auxiliary pipe (6) is rotatably connected with a rotating shaft (7), a fan-shaped shielding baffle (701) is fixed on the outer wall of the rotating shaft (7), the shielding baffle (701) is shielded outside the release holes (602), and the outer end of the auxiliary cushion block (304) abuts against the shielding baffle (701).

5. A balanced steel section structure according to claim 1, characterized in that: a plurality of openings (802) are uniformly formed in the bottom face of the storage box (8), vertical limiting slide ways (803) are formed in the left wall and the right wall of the storage box (8), the containing and loading assembly further comprises an inner frame (9), an extension shaft (901) and a blocking piece (902), the inner frame (9) is transversely arranged at the top end of the inner portion of the storage box (8), the number of the extension shaft (901) is two, the two extension shafts are respectively transversely arranged inside the limiting slide ways (803), the inner end of the extension shaft (901) extends to the inner portion of the storage box (8) and is fixed on the outer wall of the inner frame (9), the number of the blocking piece (902) is equal to that of the openings (802) and is respectively inserted into the openings (802), and the top of the blocking piece (902) is connected with the bottom of the inner frame (9).

6. A balanced steel section structure according to claim 5, characterized in that: the outer end of the extension shaft (901) extends to the bottom of the sleeve disc (501), and the extension shaft (901) moves downwards along with the downward movement of the sleeve disc (501).

7. A balanced steel section structure according to claim 1, characterized in that: one side of the bottom surface of the storage box (8) is connected with a bottom cover (903) through threads.

8. A balanced steel section structure according to claim 1, characterized in that: roof scarf joint has transparent plate (10) in calibration slot rolling (101), and main base of structure (1) inside and lie in transparent plate (10) top and install and track grating inductor (1001), electronic pole (11) are all installed at two angles about the inside top of main base of structure (1), and electronic pole (11) top is installed and is lifted board (1101).

9. A balanced steel section structure according to claim 8, characterized in that: the lifting plates (1101) are respectively positioned at the left side and the right side of the clamping piece (12).