CN114263311A - Steel structure support column with anti-corrosion solidified layer coated on welding part - Google Patents

Abstract

The invention provides a steel structure strut with an anticorrosive solidified layer coated on a welding part, which relates to the technical field of steel structures and comprises a supporting device; the supporting device is provided with an upper mounting part, and the supporting device is connected with a driving part in a sliding way; the inside of the supporting device is fixedly connected with a reverse linkage part; the supporting device is connected with a protective device in a sliding way; four locking devices are arranged on the upper mounting part; two pull-back stabilizing devices are arranged on the supporting device; go up fixedly connected with bradyseism device on the installation department, life is longer, the antidetonation effect is better, the simple operation, be convenient for transport, the dismouting is quick, can realize equipment butt joint locking and isolated protection through the linkage, improve the installation effectiveness, solved the waterproof dustproof optimization that present steel structure pillar can't realize coating protection and structure, can't realize resonance elimination, can't carry out the modularization dismouting, it is not stable enough to use, problem that life is low.

Description

Steel structure support column with anti-corrosion solidified layer coated on welding part

Technical Field

The invention relates to the technical field of steel structures, in particular to a steel structure strut with an anticorrosive solidified layer coated on a welding part.

Background

With the technological progress, the construction operation process for the steel structure is better and better, wherein the coating of the welding position of the steel structure support column and the structural optimization of the support column are more important.

However, with regard to the steel structure pillar that present traditional splice coating has anticorrosive coagulation layer, can't realize the waterproof dustproof optimization of coating protection and structure, it is convenient fast inadequately to install, and the antidetonation effect is poor simultaneously, can't realize resonance and eliminate, can't carry out the modularization dismouting, and the transportation is inconvenient, can't realize quick effectual supplementary locking between the structure simultaneously, uses stably inadequately, and life is low.

Disclosure of Invention

In view of this, the invention provides a steel structure pillar with an anti-corrosion solidified layer coated on a welding part, which has a driving part, can assist in realizing bottom layer protection more quickly, improve the service life of a coating, and simultaneously can assist in realizing installation and locking, so that the structure is more stable, and the practicability is integrally improved.

The invention provides a steel structure strut with an anticorrosive solidified layer coated on a welding part, which specifically comprises a supporting device; the supporting device is provided with an upper mounting part, and the supporting device is connected with a driving part in a sliding way; the inside of the supporting device is fixedly connected with a reverse linkage part; the supporting device is connected with a protective device in a sliding way; four locking devices are arranged on the upper mounting part; two pull-back stabilizing devices are arranged on the supporting device; the upper mounting part is fixedly connected with a shock absorption device; the support device includes: the bottom of the mounting cylinder is fixedly connected with a mounting plate; two pull-back mounting pieces are arranged and are respectively and fixedly connected to two sides inside the mounting cylinder; the sliding mounting disc is fixedly connected inside the mounting cylinder; the guard device includes: the number of the protection driving tooth blocks is four, and the four protection driving tooth blocks are respectively connected to the mounting cylinder in a sliding manner; the four elastic shafts are respectively connected to the four protection driving tooth blocks in a sliding manner; the four elastic shaft bottoms are respectively sleeved with springs.

Optionally, the cushioning device comprises: the damping support is fixedly connected to the cartridge ring; the damping floating disc is connected to the damping support in a sliding mode through two sliding shafts; the two sliding shafts are respectively sleeved with a spring.

Optionally, the upper mounting portion comprises: the mounting cylinder is sleeved with the mounting ring in a sliding manner; the upper mounting cylinder is fixedly connected to the plug-in ring; the upper mounting cylinder is connected with the mounting cylinder through a bolt; the number of the inner locking holes is four, and the four inner locking holes are respectively arranged on the inserting ring.

Optionally, the pull-back stabilizing device comprises: the pull-back sliding block is connected to the plug ring in a sliding manner; the screw rod is in threaded connection with the pull-back sliding block; the pull-back spring is fixedly connected to the pull-back mounting piece; the end part of the pull-back spring is provided with a spring connecting piece; the spring connecting piece is rotationally connected to the screw rod; the counterweight column is fixedly connected to the pullback spring.

Optionally, the support device further comprises: an outer lock hole; the outer lockhole is equipped with four, and four outer lockholes are seted up respectively on the installation section of thick bamboo.

Optionally, the guard device further comprises: the protective cover is fixedly connected to the bottoms of the four elastic shafts; the guard shield is connected on the installation cylinder in a sliding mode.

Optionally, the reverse linkage comprises: the clip-shaped shaft bracket is fixedly connected inside the mounting cylinder; the four reverse linkage gears are respectively and rotatably connected to the square shaft frame; the four reverse linkage gears are respectively meshed with the four driving racks; the four reverse linkage gears are respectively meshed with the four protection driving tooth blocks.

Optionally, the driving part includes: the bottom of the mounting bottom plate is respectively provided with six bolt mounting pieces; the driving mounting column is fixedly connected to the mounting bottom plate; the driving mounting column is connected to the sliding mounting disc in a sliding manner; the reset spring is sleeved on the driving mounting column; the reset spring is positioned between the mounting bottom plate and the bottom of the sliding mounting disc.

Optionally, the locking device comprises: four locking shafts are arranged and are respectively connected to the inner locking hole in a sliding manner; the inner side of the locking shaft is of a hemispherical structure; four locking springs are arranged and are respectively sleeved on the locking shaft.

Optionally, the driving part further includes: four driving racks are arranged and are respectively embedded on the driving mounting columns; the cone-shaped driving block is fixedly connected to the driving mounting column.

Advantageous effects

According to the steel structure support column disclosed by the embodiment of the invention, the service life is longer, the anti-seismic effect is better, the operation is convenient, the transportation is convenient, the disassembly and the assembly are quick, the butt joint locking and the isolation protection of equipment can be realized through linkage, and the installation efficiency is improved.

In addition, through setting up the supporting device, can make the apparatus use more flexibly, it is more convenient to install and transport at the same time, can raise the installation effectiveness effectively, adopt and set up the locking device can realize not needing to adopt the welded way when the supporting device is connected with upper mounting region at the same time, realize the independent disassembling and assembling in the true sense, can make the apparatus convenient for the secondary utilization, also facilitate the independent replacement maintenance part more while the part goes wrong, can reduce the subsequent maintenance cost effectively, can guarantee the corresponding stability through adopting the inserting ring to insert the supporting device too, assist and reduce the amount of spaciousness at the same time, through in the course of moving of the drive division, can realize the movement of the driving locking device and carry on the locking work, align the inner lock hole with outer lock hole, can realize the driving and extrude the locking shaft in the course that the conical driving block takes place the relative movement, the locking shaft can realize inserting into inner lock hole and outer lock hole on the basis of the extrusion acting force, and the supporting device and the upper mounting barrel on the insertion ring are positioned and fixed up and down.

In addition, the driving part and the reverse linkage part can be arranged to rapidly drive the protective device to move downwards, so that equipment installation can be realized, the coating can be automatically protected and isolated through the protective cover in the process, the oxidation degree of the coating can be effectively reduced, the service life is prolonged, meanwhile, the bottom of the device is attached to the ground to play a role in water resistance and rust resistance, the installation process is simple and efficient, the installation bottom plate is installed on a base preset on the ground through bolts to be welded and reinforced, the coating is performed after the welding is completed, the top of the device and the ceiling can be covered after the coating is completed, the height is automatically lowered when the supporting device is extruded by the gravity of a steel structure ceiling, the mounting plate is attached to the ground and then continues to be glued and sealed with the ground, and the reverse linkage part can be simultaneously driven to move when the supporting device is automatically lowered, reverse linkage gear revolve under the meshing drive of drive rack on the drive erection column, again by reverse linkage gear reverse meshing drive protection drive tooth piece downstream, realize quick pressurization drive guard shield laminating with mounting panel outside ground, under the effect of spring, it is fixed to realize the secondary protection, overall structure is simple high-efficient, linkage protection installation can be realized, can effectual improvement mounting panel and the gummed life in ground and the life of the coating after welding on the mounting plate, it is more convenient to use, and the work efficiency is improved, can continue reutilization behind the follow-up cartridge equipment simultaneously, the mode that adopts the interpolation coating can effectually play rust-resistant effect.

In addition, through setting up the back-pull stabilizing device, can improve the shock resistance and resonance elimination ability of the apparatus effectively, the structural volume is small at the same time, the fabrication cost is low, the structural principle is simpler, the shock-absorbing floating disc on the shock-absorbing support can realize the full-face fit to the ceiling of the steel structure under the action force of the spring, the manual debugging is not needed, the use is more convenient, the effective shock absorption and noise reduction can be carried out when the ceiling is affected by the wind power and shakes, the installation of the back-pull stabilizing device is more convenient, the debugging is more convenient at the same time, the back-pull slider can be inserted into the installation cylinder in a sliding way after the installation cylinder and the upper installation cylinder are assembled, then the lead screw can be rotated, the tightening force of the back-pull spring is adjusted, in the use process, the counter weight column can carry out the effective stable counter weight, when the apparatus resonates and sways and shakes, the self weight can exert the reverse force, the stability is improved, and the safety factor is higher.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 shows a schematic view of an apparatus according to an embodiment of the invention as a whole;

FIG. 2 shows a schematic view of the bottom of the device according to an embodiment of the invention;

FIG. 3 shows a schematic top view of an apparatus according to an embodiment of the invention;

FIG. 4 shows a cross-sectional view of the internal structure of a device according to an embodiment of the invention;

FIG. 5 shows a schematic view of the overall installation of a support device according to an embodiment of the invention;

fig. 6 shows a schematic view of a driving structure of a driving part according to an embodiment of the present invention;

FIG. 7 shows a schematic view of a support device according to an embodiment of the invention;

FIG. 8 shows a schematic view of an upper mount according to an embodiment of the invention;

fig. 9 shows a schematic view of a drive section according to an embodiment of the invention;

FIG. 10 shows a schematic view of a drive mounting post according to an embodiment of the invention;

FIG. 11 shows a schematic view of a reverse linkage according to an embodiment of the present invention;

FIG. 12 shows a schematic view of a guard according to an embodiment of the invention;

FIG. 13 shows a schematic view of a locking device according to an embodiment of the invention;

FIG. 14 shows a schematic view of a pullback stabilization device according to an embodiment of the invention;

FIG. 15 shows a schematic view of a cushioning apparatus according to an embodiment of the present invention.

List of reference numerals

1. A support device; 101. mounting the cylinder; 1011. mounting a plate; 102. pulling back the mounting member; 103. a sliding mounting plate; 104. an outer lock hole; 2. an upper mounting portion; 201. inserting a ring; 202. an upper mounting cylinder; 203. an inner lock hole; 3. a drive section; 301. mounting a bottom plate; 3011. a bolt mounting member; 302. a drive mounting post; 303. a return spring; 304. a drive rack; 305. a tapered drive block; 4. a reverse linkage section; 401. a clip-shaped shaft bracket; 402. a reverse linkage gear; 5. a guard; 501. a guard drive block; 502. an elastic shaft; 503. a shield; 6. a locking device; 601. a locking shaft; 602. a locking spring; 7. pulling back the stabilizing device; 701. pulling back the slide block; 702. a screw rod; 703. a pullback spring; 7031. a connecting member; 704. a counterweight column; 8. a cushioning device; 801. a shock-absorbing support; 802. shock attenuation floating disc.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 15:

the invention provides a steel structure strut with an anticorrosive solidified layer coated on a welding part, which comprises a supporting device 1; the supporting device 1 is provided with an upper mounting part 2, and the supporting device 1 is connected with a driving part 3 in a sliding way; the inside of the supporting device 1 is fixedly connected with a reverse linkage part 4; the supporting device 1 is connected with a protective device 5 in a sliding way; four locking devices 6 are arranged on the upper mounting part 2; two pull-back stabilizing devices 7 are arranged on the supporting device 1; the upper mounting part 2 is fixedly connected with a shock absorption device 8; the support device 1 includes: the bottom of the installation cylinder 101 is fixedly connected with an installation plate 1011; two pull-back mounting pieces 102 are arranged, and the two pull-back mounting pieces 102 are respectively and fixedly connected to two sides inside the mounting cylinder 101; the sliding installation disc 103, the sliding installation disc 103 is fixedly connected inside the installation cylinder 101; the guard 5 includes: four protection driving tooth blocks 501 are arranged, and the four protection driving tooth blocks 501 are respectively connected to the mounting cylinder 101 in a sliding manner; the number of the elastic shafts 502 is four, and the four elastic shafts 502 are respectively connected to the four protection driving tooth blocks 501 in a sliding manner; the four elastic shafts 502 are respectively sleeved with springs at the bottoms.

Furthermore, according to an embodiment of the present invention, as shown in fig. 7, 8, and 13, the supporting device 1 further includes: an outer locking hole 104; four outer lock holes 104 are arranged, and the four outer lock holes 104 are respectively arranged on the mounting cylinder 101; the upper mounting part 2 includes: the insertion ring 201, the insertion ring 201 is slidably sleeved on the mounting cylinder 101; the upper mounting cylinder 202 is fixedly connected to the insertion ring 201; the upper mounting cylinder 202 is connected with the mounting cylinder 101 through bolts; four inner lock holes 203 are formed in the inner lock holes 203, and the four inner lock holes 203 are respectively formed in the insertion ring 201; the locking device 6 includes: four locking shafts 601 are arranged, and the four locking shafts 601 are respectively connected to the inner locking hole 203 in a sliding manner; the inner side of the locking shaft 601 is of a hemispherical structure; four locking springs 602 are arranged, and the four locking springs 602 are respectively sleeved on the locking shaft 601; by arranging the supporting device 1, the device can be used more flexibly, the installation and transportation are more convenient and faster, the installation efficiency can be effectively improved, meanwhile, the locking device 6 can be arranged to realize that a welding mode is not needed when the supporting device 1 is connected with the upper installation part 2, the independent disassembly and assembly can be realized in the real sense, the device is convenient to be reused, meanwhile, when parts have problems, parts can be replaced independently, the subsequent maintenance cost can be effectively reduced, the corresponding stability can be ensured by inserting the inserting ring 201 into the supporting device 1, meanwhile, the spaciousness is reduced in an auxiliary way, the locking device 6 can be driven to move to carry out locking work in the moving process of the driving part 3, the inner lock hole 203 is aligned with the outer lock hole 104, and the driving extrusion of the locking shaft 601 can be realized in the relative moving process of the conical driving block 305, the locking shaft 601 can be inserted into the inner locking hole 203 and the outer locking hole 104 by the extrusion force, and the upper and lower parts of the support device 1 and the upper mounting tube 202 on the insertion ring 201 are positioned and fixed.

Further, according to an embodiment of the present invention, as shown in fig. 9 to 12, the driving part 3 includes: the mounting base plate 301 is provided with six bolt mounting pieces 3011 at the bottom of the mounting base plate 301; the driving mounting column 302, the driving mounting column 302 is fixedly connected on the mounting base plate 301; the drive mounting post 302 is slidably connected to the slide mounting plate 103; the return spring 303, the return spring 303 is fitted on the driving mounting post 302; the return spring 303 is positioned between the mounting base plate 301 and the bottom of the sliding mounting plate 103; the drive section 3 further includes: four driving racks 304 are arranged, and the four driving racks 304 are respectively embedded on the driving mounting column 302; the conical driving block 305, the conical driving block 305 is fixedly connected to the driving mounting column 302; the reverse link portion 4 includes: the square shaft bracket 401 is fixedly connected inside the mounting cylinder 101; four reverse linkage gears 402 are arranged, and the four reverse linkage gears 402 are respectively and rotatably connected to the square shaft bracket 401; the four reverse linkage gears 402 are respectively meshed with the four driving racks 304; the four reverse linkage gears 402 are respectively meshed with four protection driving tooth blocks 501; the guard 5 further comprises: the shield 503 is fixedly connected to the bottoms of the four elastic shafts 502; the shield 503 is slidably connected to the mounting cylinder 101; the driving part 3 and the reverse linkage part 4 are arranged to rapidly drive the protective device 5 to move downwards, so that installation equipment can be realized, the coating can be automatically protected and isolated through the shield 503 in the process, the oxidation degree of the coating can be effectively reduced, the service life is prolonged, meanwhile, the bottom of the device is attached to the ground, the waterproof and antirust effects are realized, the installation process is simple and efficient, the installation bottom plate 301 is installed on a base preset on the ground through bolts, welding reinforcement is performed, coating is performed after welding is completed, the top of the device and the ceiling can be covered after the coating is completed, when the supporting device 1 is extruded by the gravity of a steel structure ceiling, the height is automatically increased, the mounting plate 1011 is attached to the ground, gluing and sealing are continuously performed between the mounting plate 1011 and the ground, when the supporting device 1 is automatically lowered, the reverse linkage part 4 can be simultaneously driven to move, reverse linkage gear 402 rotates under the meshing drive of drive rack 304 on drive erection column 302, again by reverse linkage gear 402 reverse meshing drive protection drive tooth piece downstream, realize quick pressurization and drive the laminating of guard shield 503 with mounting panel 1011 outside ground, under the effect of spring, it is fixed to realize the secondary protection, overall structure is simple high-efficient, linkage protection installation can be realized, can effectual improvement mounting panel 1011 and the rubber-coated life in ground and the life of the coating after the welding on mounting plate 301, it is more convenient to use, and the work efficiency is improved, simultaneously can continue reutilization behind the follow-up plug-in mounting equipment, the mode that adopts the interpolation coating can effectually play rust-resistant effect.

Further, according to an embodiment of the present invention, as shown in fig. 14 and 15, the pull-back stabilizing device 7 includes: the pull-back sliding block 701, the pull-back sliding block 701 is connected to the inserting ring 201 in a sliding mode; the screw rod 702 is in threaded connection with the pull-back sliding block 701; a pullback spring 703, the pullback spring 703 being fixedly connected to the pullback mounting member 102; the end of the pullback spring 703 is provided with a spring connector 7031; the spring connecting piece 7031 is rotationally connected to the screw rod 702; a counterweight column 704, the counterweight column 704 is fixedly connected to the pullback spring 703; the shock absorber 8 includes: the damping support 801 is fixedly connected to the inserting ring 201; the top of the shock absorption floating disc 802 is provided with a rubber pad; the damping floating disc 802 is connected on the damping bracket 801 in a sliding manner through two sliding shafts; the two sliding shafts are respectively sleeved with a spring; through the arrangement of the pullback stabilizing device 7, the shock resistance and resonance elimination capability of the device can be effectively improved, meanwhile, the structure volume is small, the manufacturing cost is low, the structure principle is simpler, the shock absorption floating disc 802 on the shock absorption bracket 801 can be completely attached to a steel structure ceiling under the action force of a spring, manual debugging is not needed, the use is more convenient, effective shock absorption and noise reduction can be carried out when the ceiling is affected by wind force to vibrate, meanwhile, the installation of the pullback stabilizing device 7 is more convenient, debugging is more convenient, the arranged pullback sliding block 701 can be slidably inserted into the upper installation cylinder 202 after the installation cylinder 101 and the upper installation cylinder 202 are assembled, then, the screw rod 702 can be rotated, the tightening force of the pullback spring 703 is adjusted, in the use process, the counterweight column 704 can effectively stabilize counterweight, when the device generates resonance and sways vibration, the device benefits from the self weight, reverse force can be applied, stability is improved, and safety factor is higher.

The specific use mode and function of the embodiment are as follows: in the invention, firstly, after the inserting ring 201 is inserted into the supporting device 1, the mounting cylinder 101 is connected with the upper mounting cylinder 202 by bolts, the inner lock hole 203 is aligned with the outer lock hole 104, then, after the mounting base plate 301 is installed on a base preset on the ground by bolts, the arranged pull-back slide block 701 can be slidingly inserted into the upper mounting cylinder 202 after the mounting cylinder 101 and the upper mounting cylinder 202 are assembled, then, the screw rod 702 can be rotated to adjust the tightening force of the pull-back spring 703, in the using process, the counterweight column 704 can effectively stabilize counterweight, when the device generates resonance and swing vibration, a reverse moment can be applied due to the self weight, the stability is improved, the welding reinforcement is carried out, the coating is carried out after the welding is finished, the coating can be carried out on the top of the device and the ceiling, when the supporting device 1 is extruded by the gravity of the steel structure ceiling, the height is automatically lowered, the mounting plate 1011 is attached to the ground, then the mounting plate 1011 and the ground are continuously glued and sealed, in the process, when the supporting device 1 is automatically lowered, the reverse linkage part 4 can be simultaneously driven to simultaneously move, the reverse linkage gear 402 is driven to rotate under the meshing drive of the driving rack 304 on the driving mounting column 302, then the reverse linkage gear 402 is reversely meshed to drive the protection driving tooth block to move downwards, the rapid pressurization is realized to drive the protective cover 503 to be attached to the ground outside the mounting plate 1011, the secondary protection fixing is realized under the action of the spring, the four locking shafts 601 are also driven to descend along with the driving, wherein the arranged conical driving block 305 can drive and extrude the locking shafts 601 in the relative moving process, the locking shafts 601 can be inserted into the inner locking hole 203 and the outer locking hole 104 under the extrusion acting force, the upper and lower mounting cylinders 202 on the supporting device 1 and the cartridge ring 201 are positioned and fixed, the damping floating disc 802 on the damping support 801 is subjected to damping support under the action of a spring, and finally the application process of the steel structure strut with the anti-corrosion solidified layer coated on the welding position is completed.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. A steel structure strut with an anti-corrosion solidified layer coated on a welding part is characterized by comprising a supporting device (1); an upper mounting part (2) is mounted on the supporting device (1), and a driving part (3) is connected to the supporting device (1) in a sliding manner; the inside of the supporting device (1) is fixedly connected with a reverse linkage part (4); the supporting device (1) is connected with a protective device (5) in a sliding way; four locking devices (6) are arranged on the upper mounting part (2); two pull-back stabilizing devices (7) are arranged on the supporting device (1); the upper mounting part (2) is fixedly connected with a shock absorption device (8); the support device (1) comprises: the bottom of the mounting cylinder (101) is fixedly connected with a mounting plate (1011); the two pull-back mounting pieces (102) are arranged, and the two pull-back mounting pieces (102) are respectively and fixedly connected to two sides inside the mounting cylinder (101); the sliding installation disc (103), the sliding installation disc (103) is fixedly connected inside the installation cylinder (101); the guard (5) comprises: the number of the protection driving tooth blocks (501) is four, and the four protection driving tooth blocks (501) are respectively connected to the mounting cylinder (101) in a sliding manner; the number of the elastic shafts (502) is four, and the four elastic shafts (502) are respectively connected to the four protection driving tooth blocks (501) in a sliding manner; the bottom parts of the four elastic shafts (502) are respectively sleeved with springs.

2. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 1, wherein: the support device (1) further comprises: an outer lock hole (104); the number of the outer lock holes (104) is four, and the four outer lock holes (104) are respectively arranged on the mounting cylinder (101).

3. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 1, wherein: the upper mounting part (2) includes: the insertion ring (201), the insertion ring (201) is slidably sleeved on the mounting cylinder (101); the upper mounting cylinder (202), the upper mounting cylinder (202) is fixedly connected to the plug-in mounting ring (201); the upper mounting cylinder (202) is connected with the mounting cylinder (101) through a bolt; the number of the inner lock holes (203) is four, and the four inner lock holes (203) are respectively arranged on the inserting ring (201).

4. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 1, wherein: the drive unit (3) includes: the mounting base plate (301), six bolt mounting pieces (3011) are respectively arranged at the bottom of the mounting base plate (301); the driving mounting column (302), the driving mounting column (302) is fixedly connected to the mounting base plate (301); the driving mounting column (302) is connected to the sliding mounting disc (103) in a sliding manner; the return spring (303), the return spring (303) is fitted on the driving mounting column (302); the return spring (303) is positioned between the mounting bottom plate (301) and the bottom of the sliding mounting plate (103).

5. The steel structural column with the welding position coated with the corrosion-resistant solidified layer as claimed in claim 4, wherein: the drive section (3) further includes: four driving racks (304) are arranged, and the four driving racks (304) are respectively embedded on the driving mounting column (302); the cone-shaped driving block (305), and the cone-shaped driving block (305) is fixedly connected to the driving mounting column (302).

6. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 1, wherein: the reverse linkage section (4) includes: the square shaft bracket (401), the square shaft bracket (401) is fixedly connected inside the mounting cylinder (101); four reverse linkage gears (402) are arranged, and the four reverse linkage gears (402) are respectively and rotatably connected to the square shaft bracket (401); the four reverse linkage gears (402) are respectively meshed with the four driving racks (304); the four reverse linkage gears (402) are respectively meshed with the four protection driving tooth blocks (501).

7. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 1, wherein: the guard device (5) further comprises: the shield (503), the shield (503) is fixedly connected to the bottom of the four elastic shafts (502); the shield (503) is slidably connected to the mounting tube (101).

8. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 3, wherein: the locking device (6) comprises: the four locking shafts (601) are arranged, and the four locking shafts (601) are respectively connected to the inner locking hole (203) in a sliding manner; the inner side of the locking shaft (601) is of a hemispherical structure; four locking springs (602) are arranged, and the four locking springs (602) are respectively sleeved on the locking shaft (601).

9. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 2, wherein: the pull-back stabilizing device (7) comprises: the pull-back sliding block (701), the pull-back sliding block (701) is connected to the inserting ring (201) in a sliding mode; the screw rod (702), the screw thread of the screw rod (702) is connected to the pull-back slide block (701); the pull-back spring (703), the pull-back spring (703) is fixedly connected on the pull-back mounting piece (102); the end part of the pull-back spring (703) is provided with a spring connecting piece (7031); the spring connecting piece (7031) is rotationally connected to the screw rod (702); the counterweight column (704), the counterweight column (704) is fixedly connected on the pullback spring (703).

10. A steel structural column with an anticorrosive solidified layer coated on the welded part according to claim 3, wherein: the cushioning device (8) comprises: the damping support (801), the damping support (801) is fixedly connected to the inserting ring (201); the shock absorption floating disc (802), the shock absorption floating disc (802) is connected to the shock absorption bracket (801) in a sliding mode through two sliding shafts; the two sliding shafts are respectively sleeved with a spring.

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