CN114560385A

CN114560385A - Industrial factory building steel structure hoisting device and construction method thereof

Info

Publication number: CN114560385A
Application number: CN202210189172.2A
Authority: CN
Inventors: 李晖; 余永锋; 陈琳; 章斌智; 项清龙; 屠松勤; 郑江伟; 俞海伟
Original assignee: Zhonghe Huafeng Construction Group Co ltd
Current assignee: Zhonghe Huafeng Construction Group Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2022-05-31

Abstract

The application relates to the technical field of hoisting equipment, in particular to a steel structure hoisting device of an industrial factory building and a construction method thereof, wherein the steel structure hoisting device comprises a base, a stabilizing mechanism for connecting a steel column, a hoisting mechanism for hoisting a steel beam and an adjusting mechanism for adjusting the position of the steel beam; the base comprises a base body, two vertical rods and two cross rods, wherein the two vertical rods are fixed on the base body, and the two cross rods are fixed between the two vertical rods; adjustment mechanism includes the mounting panel, be used for ordering about the gliding first hydraulic pressure push rod of mounting panel, the sliding plate with be used for ordering about the gliding second hydraulic pressure push rod of sliding plate, mounting panel sliding connection is on two horizontal poles, the length direction of the slide direction of mounting panel along the horizontal pole, sliding plate sliding connection is on the mounting panel, hoisting mechanism includes the reel, including a motor, an end cap, a controller, and a cover plate, wire rope and the hoist and mount pendant that is used for articulating the girder steel, the reel rotates to be connected on the sliding plate, wire rope's one end is around establishing on the reel, the other end is connected with the hoist and mount pendant. This application has the effect of being convenient for to girder steel installation.

Description

Industrial factory building steel structure hoisting device and construction method thereof

Technical Field

The application relates to the technical field of hoisting equipment, in particular to a steel structure hoisting device for an industrial factory building and a construction method of the steel structure hoisting device.

Background

The steel structure factory building mainly means that main bearing components are made of steel. The steel roof structure comprises steel columns, steel beams, steel structure foundations, steel roof trusses and steel roof covers, and the walls of the steel structures can be enclosed by brick walls.

Among the correlation technique, at the in-process of buildding of steel construction factory building, need build the steel column earlier, build on the steel column through building the girder steel again, form the main part bearing structure of factory building, build subsequent steel construction basis again, the steel roof truss, steel roof etc. to build a complete factory building of shaping, generally need two cranes to mutually support to hoist the girder steel at the in-process of buildding the girder steel, place on the steel column that corresponds, rethread workman fixes the girder steel on the steel column.

In view of the above-mentioned related art, the inventor thinks that in the process of hoisting the steel beam by using the crane, the steel beam has a large shaking amplitude, it is difficult to control the steel beam to be accurately placed at the installation position of the steel column, and it is inconvenient for workers to install and fix the steel beam.

Disclosure of Invention

In order to facilitate the installation of the steel beam, the application provides an industrial factory building steel structure hoisting device and a construction method thereof.

First aspect, the application provides a steel construction hoisting device of industrial factory building adopts following technical scheme:

a hoisting device for a steel structure of an industrial factory building comprises a base, a stabilizing mechanism for connecting a steel column, a hoisting mechanism for hoisting a steel beam and an adjusting mechanism for adjusting the position of the steel beam; the base comprises a base body, two vertical rods and two cross rods, the two vertical rods are fixed on the base body, and the two cross rods are fixed between the two vertical rods; the adjusting mechanism comprises a mounting plate, a first hydraulic push rod for driving the mounting plate to slide, a sliding plate and a second hydraulic push rod for driving the sliding plate to slide, the mounting plate is connected to the two cross rods in a sliding mode, the sliding direction of the mounting plate is along the length direction of the cross rods, the sliding plate is connected to the mounting plate in a sliding mode, and the sliding direction of the sliding plate is perpendicular to the sliding direction of the mounting plate; the hoisting mechanism comprises a winding drum, a motor, a steel wire rope and a hoisting pendant for hanging the steel beam, the winding drum is rotatably connected to the sliding plate, the motor is connected with the winding drum, one end of the steel wire rope is wound on the winding drum, and the other end of the steel wire rope is connected with the hoisting pendant.

By adopting the technical scheme, the two devices are moved to two fixed steel columns, the base is connected to the steel columns through the stabilizing assembly, the steel beams are connected through the hoisting hanging piece, the motor is started, the winding drum is driven by the motor to rotate, the winding drum winds the steel wire rope, the winding drums on the two devices simultaneously rotate, the steel beams are lifted, when the steel beams are lifted above the steel columns, the first hydraulic push rod pushes the mounting plate to slide on the cross rod, the steel beams are moved right above the steel columns, the second hydraulic push rod pushes the sliding plate to slide, the front and rear positions of the steel beams are adjusted, and when the steel beams are placed on the steel columns, the steel columns are aligned to bolt holes of the steel beams; the steel beam is accurately placed on the mounting position of the steel column through the process, so that the possibility that the steel beam is difficult to accurately position due to shaking of the steel beam when the steel beam is hoisted by using a crane is avoided as much as possible, workers do not need to support the steel beam for alignment when the steel beam is placed, and the injury to operators in the hoisting operation process is reduced; and through steadying the piece with base and steel column connection, avoided when hoist and mount girder steel as far as possible, the montant rocks the possibility of empting, further improvement the stability of device.

Optionally, the stabilizing mechanism comprises a plurality of connecting rods and two clamping plates which are arranged on the connecting rods in a sliding mode and used for clamping the steel column, the connecting rods are arranged on the same vertical rod, and adjusting pieces which are used for driving the two clamping plates to slide relatively are arranged on the connecting rods.

Through adopting above-mentioned technical scheme, through the regulating part, adjust two grip blocks relative slip on the connecting rod, with the steel column centre gripping between two grip blocks to in fix the montant on the steel column, avoided as far as possible when hoist and mount girder steel, the montant rocks the possibility of empting, further improvement the stability of device.

Optionally, the adjusting part comprises a bidirectional screw rod rotatably arranged on the connecting rod, and the two clamping plates are in threaded connection with two ends of the bidirectional screw rod.

Through adopting above-mentioned technical scheme, rotate two-way lead screw, two-way lead screw drives two grip blocks and slides relatively to in the centre gripping of steel column, reduce rocking of montant, further improvement device's stability.

Optionally, the clamping plate includes a clamping portion and a limiting portion, the limiting portion is vertically fixed at an end portion of the clamping portion far away from the connecting rod, and the steel column is located between the two clamping portions and the limiting portion.

Through adopting above-mentioned technical scheme, remove clamping part and steel column butt, with the steel column centre gripping between the clamping part of two grip blocks to spacing portion through the clamping part tip is further to the steel column restriction, with the possibility that reduces clamping part and steel column and break away from, so that further stability that the improvement montant is connected reduces the slip of montant.

Optionally, a through hole for the steel wire rope to pass through is formed in the sliding plate, a through groove for the steel wire rope to move is formed in the mounting plate, and the length direction of the through groove is parallel to the sliding direction of the sliding plate.

Through adopting above-mentioned technical scheme, wire rope passes through the through-hole and leads to the groove and extends to the below, and when the position around the girder steel is adjusted to needs, the sliding plate slides on the mounting panel for wire rope removes in leading to the inslot, so that to the regulation of position around the steel column.

Optionally, the bottom of the seat body is provided with a roller for assisting the seat body to move, the bottom of the seat body is provided with a supporting seat for supporting the seat body, the supporting seat is a hydraulic rod, and when the supporting seat extends out of the piston rod to support the seat body, the roller is separated from the ground.

Through adopting above-mentioned technical scheme, the bottom of pedestal sets up the gyro wheel to in the removal to the base, so that to the use of device, improve the efficiency of installation transport, and through the setting of supporting seat, when needs use device, the supporting seat supports the pedestal, breaks away from gyro wheel and ground simultaneously, so that reduce the removal of pedestal when the use device, and reduced the damage of gyro wheel.

Optionally, the hoisting hanger comprises a hook, a connecting ring and two auxiliary clamping jaws, the hook is connected to one end of the steel wire rope, the connecting ring is fixed to the steel wire rope, the hook is connected to the steel beam lifting lug in a hanging mode, the two auxiliary clamping jaws are connected to the connecting ring in a rotating mode, and the side edge of the steel beam is clamped in the auxiliary clamping jaws.

Through adopting above-mentioned technical scheme, articulate the couple on the lug of girder steel to through rotating supplementary jack catch, with the side joint of supplementary jack catch and girder steel, through dual articulate, further improvement wire rope and the girder steel between be connected the steadiness, reduce the construction accident that the girder steel fell into in hoist and mount process, so that improve the security of hoist and mount construction.

Optionally, the montant includes fixed part and sliding part, sliding part sliding connection is on the fixed part, the length direction of fixed part is followed to the slip direction of sliding part, a plurality of locating holes have been seted up on the sliding part, wear to be equipped with fixing bolt on the fixed part, fixing bolt passes the locating hole and fixes the sliding part.

Through adopting above-mentioned technical scheme, when the using device, adjust the position of sliding part at the fixed part, rethread fixing bolt fixes the sliding part on the fixed part to adjust the height of montant, so that according to the rigidity of the altitude variation adjustment montant of steel column, improve the suitability of device, and through the height of adjusting the montant, make the distance of steel column top to the girder steel less, the girder steel rocks lessly when hoist and mount to the steel column top, so that to the location of girder steel.

In a second aspect, the application provides a construction method of an industrial factory building steel structure hoisting device, which adopts the following technical scheme:

optionally, the construction method of the industrial factory building steel structure hoisting device further includes the following steps of;

s1: moving the two devices to two fixed steel columns, adjusting the support base to support the seat body, and adjusting the bidirectional screw rod to enable the clamping plates to clamp the steel columns to keep the seat stable;

s2: moving the segmented steel beams to the side edges of the steel columns to be installed for splicing, then hanging hooks on steel beam lifting lugs at two ends, and rotating auxiliary clamping jaws to be clamped with the two side edges of the steel beams;

s3: the steel wire ropes are simultaneously wound by winding drums of the two devices, the steel beam is vertically lifted, after the steel beam moves above the steel column, the mounting plate is moved, the steel beam moves right above the steel column, the front position and the rear position of the steel beam are finely adjusted by moving the sliding plate, the steel beam is accurately placed on the steel column, and the steel column is aligned to bolt holes in the steel beam;

s4: and fixing the steel beam on the steel column by using bolts, and then lowering the steel wire rope to take down the hook and the auxiliary clamping jaw.

In summary, the present application includes at least one of the following beneficial technical effects:

moving the two devices to two fixed steel columns, connecting the base to the steel columns through a stabilizing assembly, connecting steel beams through hoisting hangers, starting a motor, driving a winding drum to rotate by the motor, winding the steel wire rope by the winding drum, simultaneously rotating the winding drums on the two devices, lifting the steel beams, when the steel beams are lifted above the steel columns, pushing a mounting plate to slide on a cross rod by a first hydraulic push rod, moving the steel beams right above the steel columns, pushing a sliding plate to slide by a second hydraulic push rod, adjusting the front and rear positions of the steel beams, and aligning the steel columns with bolt holes of the steel beams when the steel beams are placed on the steel columns; the steel beam is accurately placed on the mounting position of the steel column through the process, so that the possibility that the steel beam is difficult to accurately position due to shaking of the steel beam when the steel beam is hoisted by using a crane is avoided as much as possible, workers do not need to support the steel beam for alignment when the steel beam is placed, and the injury to operators in the hoisting operation process is reduced; and through steadying the piece with base and steel column connection, avoided when hoist and mount girder steel as far as possible, the montant rocks the possibility of empting, further improvement the stability of device.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a cross-sectional view of a clamping plate according to an embodiment of the present application.

FIG. 3 is a schematic structural diagram of a hoisting mechanism and an adjusting mechanism in the embodiment of the present application.

Description of reference numerals: 1. a base; 101. a base body; 102. a vertical rod; 1021. a fixed part; 1022. a sliding part; 1023. positioning holes; 1024. fixing the bolt; 103. a cross bar; 104. a roller; 105. a supporting seat;

2. an adjustment mechanism; 201. mounting a plate; 202. a first hydraulic push rod; 203. a sliding plate; 204. a second hydraulic push rod; 205. a through hole; 206. a through groove; 207. connecting blocks; 208. a moving groove;

3. a hoisting mechanism; 301. a reel; 302. a motor; 303. a wire rope; 304. hanging the hanging piece; 3041. hooking; 3042. a connecting ring; 3043. an auxiliary jaw;

4. a stabilizing mechanism; 401. a connecting rod; 402. a clamping plate; 4021. a clamping portion; 4022. a limiting part; 403. a bidirectional lead screw; 404. a handle; 405. a chute.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses industrial factory building steel construction hoist device. Referring to fig. 1, the industrial factory building steel structure hoisting device comprises a base 1, a stabilizing mechanism 4 for connecting steel columns, a hoisting mechanism 3 for hoisting steel beams and an adjusting mechanism 2 for adjusting the positions of the steel beams. The base 1 comprises a base body 101, two vertical rods 102 and two cross rods 103, wherein the two vertical rods 102 are welded and fixed at two ends of the base body 101, the two cross rods 103 are welded and fixed between the two vertical rods 102, and the two cross rods 103 are parallel to each other; the base 101 is a rectangular base 101 with an opening at one side and is formed by three square steels, and the vertical rod 102 is welded and fixed on the two opposite square steels; the seat body 101 is moved to the steel column from the opening, so that the steel column is located in the opening and is close to the vertical rod 102 on one side.

Referring to fig. 1, in order to facilitate the movement of the seat body 101, the bottom of the seat body 101 is connected with rollers 104 for assisting the movement of the seat body 101, four corners of the bottom of the seat body 101 are connected with the rollers 104, and the rollers 104 are universal wheels; the bottom of the seat body 101 is fixed with a support seat 105 for supporting the seat body 101, four corners of the bottom of the seat body 101 are fixed with the support seats 105, the support seats 105 are hydraulic rods, and when the support seats 105 extend out of the piston rods to support the seat body 101, the rollers 104 are separated from the ground. When the seat body 101 needs to be moved, the piston rod of the support seat 105 is retracted, so that the roller 104 is in contact with the ground, and the seat body 101 can be pushed to move; when the seat body 101 needs to be fixed, the supporting seat 105 extends out of the piston rod to support the seat body 101, and the roller 104 is separated from the ground, so as to improve the stability of the seat body 101.

Referring to fig. 1, in order to adjust the height of the vertical rod 102, the vertical rod 102 includes a fixing portion 1021 and a sliding portion 1022, both the fixing portion 1021 and the sliding portion 1022 are made of square steel, the sliding portion 1022 is slidably connected in the fixing portion 1021, the sliding portion 1022 slides along the length direction of the fixing portion 1021, a plurality of positioning holes 1023 are formed in the sliding portion 1022, a fixing bolt 1024 is inserted into the fixing portion 1021, in this embodiment, two fixing bolts 1024 are provided, and the fixing bolt 1024 passes through the positioning holes 1023 in the fixing portion 1021 and the sliding portion 1022 to fix the sliding portion 1022. When the device is used, the position of the sliding part 1022 in the fixing part 1021 is adjusted according to the height of the steel column, and the sliding part 1022 is fixed on the fixing part 1021 through the fixing bolt 1024; the applicability of the device is improved, the distance from the top end of the steel column to the steel beam is small by adjusting the height of the vertical rod 102, and the shaking of the steel beam when the steel beam is hoisted above the steel column is reduced, so that the steel beam is positioned conveniently.

Referring to fig. 1 and 2, in order to improve the stability of the stem 102, the possibility of the stem 102 falling and shaking is reduced; the stabilizing mechanism 4 includes a plurality of connecting rods 401 and two clamping plates 402 slidably connected to the connecting rods 401 for clamping the steel column, the sliding direction of the two clamping plates 402 is along the horizontal direction, the plurality of connecting rods 401 are welded and fixed to the same vertical rod 102, in this embodiment, 3 connecting rods 401 are provided, wherein two connecting rods 401 are welded to the fixing portion 1021, and the other connecting rod 401 is welded to the sliding portion 1022; the connecting rod 401 is provided with a sliding groove 405, one end of the clamping plate 402 is slidably connected in the sliding groove 405, and the connecting rod 401 is provided with an adjusting part used for driving the two clamping plates 402 to slide relatively.

Referring to fig. 2, the adjusting member includes a bidirectional screw 403 rotatably connected to the connecting rod 401, a rotation axis of the bidirectional screw 403 is parallel to a length direction of the connecting rod 401, and the bidirectional screw 403 is located in the sliding groove 405; the clamping plate 402 comprises clamping portions 4021 and limiting portions 4022, the limiting portions 4022 are vertically welded to the end portions, far away from the connecting rod 401, of the clamping portions 4021, one end of each of the clamping portions 4021 of the two clamping plates 402 is in threaded connection with two ends of the bidirectional screw 403, the steel column is located between the two clamping portions 4021 and the limiting portions 4022, and one end of the bidirectional screw 403 is fixedly welded with a handle 404 used for rotating the bidirectional screw 403. When the vertical rod 102 needs to be fixed, the vertical rod 102 is moved to clamp the steel column between the two clamping plates 402, the handle 404 is adjusted to drive the bidirectional screw 403 to rotate, the bidirectional screw 403 drives the two clamping plates 402 to approach each other, the two clamping plates 402 abut against the steel column, the vertical rod 102 is fixed on the steel column, and the limiting portion 4022 limits the separation of the steel column from the clamping portion 4021, so that the stabilizing effect is further improved.

Referring to fig. 1 and 3, the adjusting mechanism 2 includes a mounting plate 201, a first hydraulic push rod 202 for driving the mounting plate 201 to slide, a sliding plate 203, and a second hydraulic push rod 204 for driving the sliding plate 203 to slide, the sliding direction of the mounting plate 201 is along the length direction of the cross bar 103, the first hydraulic push rod 202 is fixed at the top end of the vertical bar 102, the piston rod of the first hydraulic push rod 202 is connected with the mounting plate 201, the second hydraulic push rod 204 is fixed on the mounting plate 201, and the piston rod of the second hydraulic push rod 204 is connected with the sliding plate 203; two connecting blocks 207 are fixedly welded at the bottom of the mounting plate 201, two cross rods 103 are respectively arranged on the two connecting blocks 207 in a sliding and penetrating mode, two moving grooves 208 are formed in the mounting plate 201, sliding blocks are fixedly welded at the bottom of the sliding plate 203 and are connected in the moving grooves 208 in a sliding mode, and the sliding direction of the sliding plate 203 is perpendicular to the sliding direction of the mounting plate 201.

Referring to fig. 1 and 3, the hoisting mechanism 3 includes a winding drum 301, a motor 302, a steel wire rope 303 and a hoisting hanger 304 for hanging the steel beam, the winding drum 301 is rotatably connected to the sliding plate 203, an output shaft of the motor 302 is connected to the winding drum 301, one end of the steel wire rope 303 is wound on the winding drum 301, and the other end is connected to the hoisting hanger 304. The sliding plate 203 is provided with a through hole 205 for the steel wire rope 303 to pass through, the mounting plate 201 is provided with a through groove 206 for the steel wire rope 303 to move, the through groove 206 is positioned between the two moving grooves 208, and the length direction of the through groove 206 is parallel to the sliding direction of the sliding plate 203. When the steel beam is installed, the steel beam is connected with the steel wire rope 303 through the hoisting hanging pieces 304 of the two sets of devices, the steel wire rope 303 is wound on the winding drum 301, the steel beam is lifted, when the steel beam is lifted to be slightly higher than the steel column, the lifting is stopped, the first hydraulic push rod 202 is started at the same time, the installation plate 201 is driven to move, the steel beam is moved right above the steel column, the second hydraulic push rod 204 is started at the same time, the sliding plate 203 is driven to move, the front position and the rear position of the steel beam are adjusted, the steel wire rope 303 is finally unwound, and the steel beam is placed at a proper position.

Referring to fig. 1 and 3, in order to improve the connection stability of the steel wire rope 303 and the steel beam, the hoisting hanger 304 includes a hook 3041, a connection ring 3042 and two auxiliary jaws 3043, the hook 3041 is connected to one end of the steel wire rope 303, the connection ring 3042 is fixed on the steel wire rope 303, a section of the steel wire rope 303 is arranged between the connection ring 3042 and the hook 3041, the hook 3041 is hung on a lifting lug of the steel beam, the two auxiliary jaws 3043 are rotatably connected to the connection ring 3042, the two auxiliary jaws 3043 are oppositely arranged at two ends of the connection ring 3042, the steel beam is i-steel, and the side edge of the steel beam is clamped between the two auxiliary jaws 3043.

The implementation principle of the industrial factory building steel structure hoisting device provided by the embodiment of the application is as follows: moving the two devices to two fixed steel columns to enable the steel columns to be located in the seat body 101, adjusting the handle 404 to drive the bidirectional screw 403 to rotate, enabling the bidirectional screw 403 to drive the two clamping plates 402 to approach each other, enabling the two clamping plates 402 to be abutted against the steel columns, and fixing the vertical rods 102 on the steel columns; the hook 3041 is hung on a steel beam lifting lug, and the auxiliary clamping jaws 3043 are rotated to enable the side edges of the steel beam to be clamped between the two auxiliary clamping jaws 3043;

starter motor 302, motor 302 drives reel 301 and rotates, reel 301 rotates wire rope 303, reel 301 on two devices rotates simultaneously, promote the girder steel, when the girder steel promoted to being slightly higher than the steel column, first hydraulic pressure push rod 202 promoted mounting panel 201 and slides on horizontal pole 103, move the girder steel directly over the steel column, rethread second hydraulic pressure push rod 204 promotes sliding plate 203 and slides, adjust the position around the girder steel, unreel wire rope 303 at last, place the steel column with the girder steel on, when making the girder steel place the steel column, the bolt hole of steel column and girder steel aligns.

The embodiment of the application discloses a construction method of an industrial factory building steel structure hoisting device, and with reference to fig. 1, the industrial factory building steel structure hoisting device is used in a paperboard production and processing method, and the method further comprises the following steps of;

s1: moving the two devices to two fixed steel columns, adjusting the support base 105 to support the base body 101, and adjusting the bidirectional screw 403 to enable the clamping plate 402 to clamp the steel columns to keep the base 1 stable;

s2: moving the segmented steel beams to the side edges of steel columns to be installed for splicing, hanging hooks 3041 on steel beam lifting lugs at two ends, and clamping rotary auxiliary clamping jaws 3043 with the two side edges of the steel beams;

s3: the winding drums 301 of the two devices simultaneously wind the steel wire ropes 303, the steel beams are vertically hoisted, when the steel beams move to be slightly higher than the steel columns, the steel wire ropes 303 are stopped to wind, the mounting plate 201 is moved by using the first hydraulic push rod 202, the steel beams are moved to be right above the steel columns, the sliding plate 203 is moved by using the second hydraulic push rod 204, the front and rear positions of the steel beams are finely adjusted, the steel wire ropes 303 are unreeled, the steel beams are accurately placed on the steel columns, and bolt holes in the steel columns and the steel beams are aligned;

s4: the steel beam is fixed to the steel column by bolts, and the hook 3041 and the auxiliary jaw 3043 are removed by unwinding the steel wire rope 303.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an industrial factory building steel construction hoist device which characterized in that: the steel column fixing device comprises a base (1), a stabilizing mechanism (4) for connecting a steel column, a hoisting mechanism (3) for hoisting a steel beam and an adjusting mechanism (2) for adjusting the position of the steel beam; the base (1) comprises a base body (101), two vertical rods (102) and two cross rods (103), wherein the two vertical rods (102) are fixed on the base body (101), and the two cross rods (103) are fixed between the two vertical rods (102); the adjusting mechanism (2) comprises a mounting plate (201), a first hydraulic push rod (202) for driving the mounting plate (201) to slide, a sliding plate (203) and a second hydraulic push rod (204) for driving the sliding plate (203) to slide, wherein the mounting plate (201) is connected to the two cross rods (103) in a sliding mode, the sliding direction of the mounting plate (201) is along the length direction of the cross rods (103), the sliding plate (203) is connected to the mounting plate (201) in a sliding mode, and the sliding direction of the sliding plate (203) is perpendicular to the sliding direction of the mounting plate (201); the hoisting mechanism (3) comprises a winding drum (301), a motor (302), a steel wire rope (303) and a hoisting hanging piece (304) for hanging the steel beam, wherein the winding drum (301) is rotatably connected to the sliding plate (203), the motor (302) is connected with the winding drum (301), one end of the steel wire rope (303) is wound on the winding drum (301), and the other end of the steel wire rope is connected with the hoisting hanging piece (304).

2. The industrial factory building steel structure hoisting device of claim 1, wherein: the stabilizing mechanism (4) comprises a plurality of connecting rods (401) and two clamping plates (402) which are arranged on the connecting rods (401) in a sliding mode and used for clamping the steel column, the connecting rods (401) are arranged on the same vertical rod (102), and adjusting pieces used for driving the two clamping plates (402) to slide relatively are arranged on the connecting rods (401).

3. The industrial factory building steel structure hoisting device of claim 2, wherein: the adjusting piece comprises a bidirectional screw rod (403) rotatably arranged on the connecting rod (401), and the two clamping plates (402) are in threaded connection with two ends of the bidirectional screw rod (403).

4. The industrial factory building steel structure hoisting device of claim 3, wherein: the clamping plate (402) comprises clamping parts (4021) and limiting parts (4022), the limiting parts (4022) are vertically fixed at the end parts, far away from the connecting rod (401), of the clamping parts (4021), and the steel columns are located between the clamping parts (4021) and the limiting parts (4022).

5. The industrial factory building steel structure hoisting device of claim 1, wherein: the steel wire rope fixing device is characterized in that the sliding plate (203) is provided with a through hole (205) for a steel wire rope (303) to pass through, the mounting plate (201) is provided with a through groove (206) for the steel wire rope (303) to move, and the length direction of the through groove (206) is parallel to the sliding direction of the sliding plate (203).

6. The industrial factory building steel structure hoisting device of claim 1, wherein: the bottom of pedestal (101) is provided with gyro wheel (104) that are used for assisting pedestal (101) to remove, the bottom of pedestal (101) is provided with supporting seat (105) that are used for supporting pedestal (101), supporting seat (105) are the hydraulic stem, works as when supporting seat (105) stretch out the piston rod and support pedestal (101), gyro wheel (104) break away from with ground.

7. The industrial factory building steel structure hoisting device of claim 1, wherein: the hoisting hanging part (304) comprises a hook (3041), a connecting ring (3042) and two auxiliary clamping jaws (3043), wherein the hook (3041) is connected to one end of a steel wire rope (303), the connecting ring (3042) is fixed on the steel wire rope (303), the hook (3041) is hung on a steel beam lifting lug, the two auxiliary clamping jaws (3043) are rotatably connected to the connecting ring (3042), and the side edge of the steel beam is clamped in the auxiliary clamping jaws (3043).

8. The industrial factory building steel structure hoisting device of claim 1, wherein: the montant (102) includes fixed part (1021) and sliding part (1022), sliding part (1022) sliding connection is on fixed part (1021), the length direction of the sliding direction of sliding part (1022) along fixed part (1021), a plurality of locating holes (1023) have been seted up on sliding part (1022), wear to be equipped with fixing bolt (1024) on fixed part (1021), fixing bolt (1024) pass locating hole (1023) and are fixed sliding part (1022).

9. A construction method of a steel structure hoisting device of an industrial factory building is characterized by comprising the following steps: the industrial factory building steel structure hoisting device used according to any one of claims 1 to 8, further comprising;

s1: moving the two devices to two fixed steel columns, adjusting a support seat (105) to support a seat body (101), and adjusting a bidirectional screw (403) to enable a clamping plate (402) to clamp the steel columns and keep the stability of the base (1);

s2: moving the segmented steel beams to the side edges of steel columns to be installed for splicing, hanging hooks (3041) on steel beam lifting lugs at two ends, and clamping the rotary auxiliary clamping jaws (3043) with the two side edges of the steel beams;

s3: winding drums (301) of the two devices simultaneously wind steel wire ropes (303), the steel beams are vertically hoisted, after the steel beams move above the steel columns, mounting plates (201) are moved, the steel beams are moved right above the steel columns, the front and rear positions of the steel beams are finely adjusted by moving sliding plates (203), the steel beams are accurately placed on the steel columns, and the steel columns are aligned to bolt holes in the steel beams;

s4: and fixing the steel beam on the steel column by using bolts, and then lowering the steel wire rope (303) to take down the hook (3041) and the auxiliary clamping jaw (3043).