CN219725235U - Industrial building steel structure prefabricating equipment - Google Patents

Abstract

The utility model discloses industrial building steel structure prefabricating equipment, which relates to the technical field of prefabricating structure manufacturing, and comprises an equipment frame, wherein an internal forming mechanism is movably arranged on the equipment frame, the internal forming mechanism comprises a positioning rod, a fourth threaded rod and a fifth threaded rod are rotatably arranged on the positioning rod, gears are arranged on the fourth threaded rod and the fifth threaded rod, a seventh motor and an eighth motor are fixedly arranged on the positioning rod, gears are arranged on the seventh motor and the eighth motor, an adjusting slide block is assembled on a screw rod on the fifth threaded rod, a cylindrical key is arranged on the adjusting slide block, a second adjusting plate is slidably arranged on the positioning rod, a sliding groove is arranged on the second adjusting plate, and the cylindrical key on the adjusting slide block is in sliding fit with the sliding groove on the second adjusting plate; the utility model is provided with an internal forming mechanism, and prefabricated structural components with different specifications can be manufactured through the second adjusting plate in the internal forming mechanism.

Description

Industrial building steel structure prefabricating equipment

Technical Field

The utility model relates to the technical field of prefabricated structure manufacturing, in particular to industrial building steel structure prefabricating equipment.

Background

In industrial building construction, in order to improve the construction efficiency, a prefabricated structural member is generally used, and the prefabricated structure is transported to a site to be assembled directly.

The utility model discloses a steel plate processing device and a method for producing an assembled prefabricated steel structure, wherein the steel plate processing device comprises a base, four supporting legs are fixedly arranged at the top of the base, and the steel plate can be conveniently and rapidly clamped and fixed by arranging a shell, a baffle and a clamping assembly, so that subsequent punching is facilitated, and a drill bit can be cooled and dust generation is reduced by continuously spraying water to the punching position of the drill bit during punching.

The utility model realizes the punching processing of the steel plate, does not realize the subsequent forming processing of the steel plate, can not process the corners of the steel plate, and is easy to scratch the human body in the subsequent carrying process.

The utility model provides a building steel structure prefabricating device based on the method.

Disclosure of Invention

The utility model provides industrial building structure prefabricating equipment which aims at the technical problems, and the equipment comprises an equipment frame, wherein a discharging plate and a discharging plate are fixedly arranged on the equipment frame, a first forming mechanism, an internal forming mechanism, a pushing mechanism, a second forming mechanism, a third forming mechanism and a fixing mechanism are movably arranged on the equipment frame, the internal forming mechanism comprises a positioning rod, a fourth threaded rod and a fifth threaded rod are rotatably arranged on the positioning rod, gears are arranged on the fourth threaded rod and the fifth threaded rod, a seventh motor and an eighth motor are fixedly arranged on the positioning rod, gears are arranged on the seventh motor and the eighth motor, the gears on the seventh motor are meshed with the gears on the fifth threaded rod, the gears on the positioning rod are meshed with the gears on the fourth threaded rod, a push plate is slidably arranged on the positioning rod, the push plate is matched with the fourth threaded rod, a regulating slide block is arranged on the fifth threaded rod, a slide groove is arranged on the second regulating plate, and the cylindrical key on the regulating slide block is in sliding fit with the slide groove on the second regulating plate; the internal forming mechanism comprises a positioning slide block, the positioning slide block is slidably arranged in the equipment frame, a positioning rod is slidably arranged in the positioning slide block, and a compression spring is arranged between the positioning rod and the positioning slide block.

Further, first forming mechanism includes first shaping board, fixed mounting has the hydraulic stem on the first shaping board, hydraulic stem and equipment frame fixed connection, sliding mounting has first regulating plate on the first shaping board, compression spring is equipped with between first regulating plate and the first shaping board, fixed mounting has the rack on the first regulating plate, install the third threaded rod in the rotation of the first shaping board, be equipped with the gear on the third threaded rod, fixed mounting has the sixth motor on the first shaping board, be equipped with the gear on the sixth motor, gear on the sixth motor and the gear engagement on the third threaded rod, rotatory install drive gear on the first shaping board, gear and the rack engagement on the first regulating plate, first regulating plate and the cooperation of third threaded rod, slidable mounting has the cutting board on the first shaping board, fixed mounting has the rack on the cutting board, rack and drive gear engagement on the cutting board.

Further, a rack is fixedly installed on the equipment frame, the pushing mechanism comprises a shaping sliding plate, the shaping sliding plate is slidably installed on the equipment frame, a ninth motor is fixedly installed on the shaping sliding plate, a threaded column is installed on the ninth motor and matched with a rack worm on the equipment frame, a second shaping plate is slidably installed on the shaping sliding plate, a compression spring is installed between the second shaping plate and the shaping sliding plate, a tenth motor is fixedly installed in the shaping sliding plate, a gear is installed on the tenth motor, a pushing roller is installed in the shaping sliding plate in a rotating mode, and a gear is fixedly installed on the pushing roller and meshed with the gear on the tenth motor.

Further, the second forming mechanism comprises a third forming plate, the third forming plate is slidably mounted in the equipment frame, a third adjusting plate is slidably mounted in the third forming plate, an eleventh motor is fixedly mounted in the third forming plate, a gear is mounted on the eleventh motor, a sixth threaded rod is rotatably mounted in the third forming plate, the sixth threaded rod is matched with a screw rod of the third adjusting plate, a gear is fixedly mounted on the sixth threaded rod, the sixth threaded rods are connected through a belt, and the gear on the sixth threaded rod is meshed with the gear on the eleventh motor.

Further, third forming mechanism includes the fourth shaping board, fourth shaping board slidable mounting is in the equipment frame, slidable mounting has the fourth regulating plate in the fourth shaping board, rotatory eighth threaded rod of installing in the fourth shaping board, eighth threaded rod cooperates with fourth regulating plate lead screw, be connected through the belt between the eighth threaded rod, fixed mounting has twelfth motor in the fourth shaping board, eighth threaded rod and twelfth motor's transmission shaft fixed connection, the lead screw is equipped with the seventh threaded rod in the fourth shaping board, seventh threaded rod swivelling mounting is in the equipment frame, be connected with the second driving belt between the seventh threaded rod, be equipped with the gear on the seventh threaded rod.

Further, the fixing mechanism comprises a fixing clamp plate, a thirteenth motor and a fourteenth motor, the fixing clamp plate is slidably arranged in the equipment frame, the thirteenth motor is fixedly arranged on the equipment frame, a discharging transmission belt is arranged between transmission shafts of the thirteenth motor, the fourteenth motor is fixedly arranged on the equipment frame, a screw is fixedly arranged on the transmission shaft of the fourteenth motor, and the screw on the fourteenth motor is matched with the screw of the fixing clamp plate.

Further, a second motor is fixedly installed on the equipment frame, a gear is installed on the second motor, the gear on the second motor is meshed with the gear on the seventh threaded rod, a first motor is fixedly installed on the equipment frame, the gear is installed on the equipment frame, a transmission rod is rotatably installed on the equipment frame, the gear is installed on the transmission rod and meshed with the gear on the first motor, threads are arranged at two ends of the transmission rod, and the threads at two ends of the transmission rod are matched with the third molding plate screw rod.

Further, a fifth motor is fixedly arranged on the equipment frame, a gear is arranged on the fifth motor, a first threaded rod is rotatably arranged on the equipment frame, the gear is arranged on the first threaded rod and meshed with the gear on the fifth motor, and the first threaded rod is matched with the positioning sliding block screw rod.

Further, the feeding rods are rotatably arranged on the equipment frame and connected through a first transmission belt, and a feeding transmission belt is arranged between the feeding rods.

Further, a second threaded rod is rotatably arranged on the equipment frame, a gear is arranged on the second threaded rod, a third motor is fixedly arranged on the equipment frame, the gear is arranged on the third motor, a pair of tool rests are assembled on a screw rod of the third motor, a fourth motor is fixedly arranged on the tool rest, the gear is arranged on the fourth motor, a milling cutter disc is rotatably arranged on the tool rest, and the gear is meshed with the gear on the fourth motor.

Compared with the prior art, the utility model has the beneficial effects that: (1) The utility model is provided with the internal forming mechanism, prefabricated structural parts with different specifications can be manufactured through the second adjusting plate in the internal forming mechanism, so that the structure assembly at different positions is convenient to be applicable; (2) The utility model is provided with the blanking plate, redundant corners during manufacturing can be cut off through the blanking plate, and the redundant corners are transported and collected through the fixing mechanism; (3) The utility model is provided with the knife rest, the edge of the steel plate is polished through the milling cutter disc arranged on the knife rest, so that the formed structural part is prevented from scratching workers in the conveying process, and meanwhile, the steel plate with larger size can be cut, so that the formed prefabricated structural part has uniform size.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of the rear part structure of the present utility model.

Fig. 3 is a schematic view of the front part structure of the present utility model.

Fig. 4 is a schematic view of the bottom part structure of the present utility model.

Fig. 5 is a schematic structural view of a first forming mechanism of the present utility model.

FIG. 6 is a schematic view of the internal forming mechanism of the present utility model in cross-section.

FIG. 7 is a schematic view of the back side structure of the internal forming mechanism of the present utility model.

Fig. 8 is a schematic structural view of a pushing mechanism according to the present utility model.

Fig. 9 is a schematic view of a second forming mechanism according to the present utility model.

FIG. 10 is a schematic view of a third forming mechanism according to the present utility model.

Fig. 11 is an enlarged schematic view of the structure at A1 in fig. 1.

Fig. 12 is an enlarged schematic view of the structure at B1 in fig. 3.

Fig. 13 is a schematic view of a blanking plate structure of the present utility model.

Reference numerals: 1-an equipment frame; 2-a first forming mechanism; 3-an internal forming mechanism; 4-pushing mechanism; 5-a second forming mechanism; 6-a third forming mechanism; 7-a knife rest; 8-grinding a cutter disc; 9-a fixing mechanism; 10-a discharging plate; 11-a first motor; 12-a transmission rod; 13-a second motor; 14-a first threaded rod; 15-a third motor; 16-a second threaded rod; 17-fourth motor; 18-a first drive belt; 19-a feeding rod; 20-a feeding transmission belt; 21-a fifth motor; 22-a discharge plate; 201-a first shaping plate; 202-a transmission gear; 203-a trigger plate; 204, blanking plate; 205-a hydraulic rod; 206-a third threaded rod; 207-sixth motor; 208-a first adjustment plate; 301-positioning a rod; 302-pushing plate; 303-positioning a slider; 304-adjusting the slide block; 305-fourth threaded rod; 306-seventh motor; 307-fifth threaded rod; 308-a second adjustment plate; 309-eighth motor; 401-shaping a skateboard; 402-a second shaping plate; 403-ninth motor; 404-threaded post; 405-pushing rollers; 406-tenth motor; 501-a third shaping plate; 502-a third adjustment plate; 503-sixth threaded rod; 504-eleventh motor; 601-fourth shaping plate; 602-seventh threaded rod; 603-a second drive belt; 604-a fourth adjustment plate; 605-eighth threaded rod; 606-twelfth motor; 901-fixing a splint; 902-a discharging transmission belt; 903-thirteenth motor; 904-fourteenth motor.

Detailed Description

The technical scheme provided by the utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 13, an industrial building steel structure prefabrication device comprises a device frame 1, wherein a first forming mechanism 2, an inner forming mechanism 3 and a third forming mechanism 6 are movably mounted on the device frame 1, a discharge plate 10 and a discharge plate 22 are fixedly mounted on the device frame 1, the discharge plate 10 is used for transporting formed prefabrication structural parts, the discharge plate 22 is used for transporting cut corners out of the device, the inner forming mechanism 3 is used for shaping steel plates from the inside, the inner forming mechanism 3 comprises a positioning rod 301, a fourth threaded rod 305 is rotatably mounted on the positioning rod 301, a gear is mounted on the fourth threaded rod 305, an eighth motor 309 is fixedly mounted on the positioning rod 301, a gear is mounted on the eighth motor 309, the gear on the eighth motor 309 is meshed with the gear on the fourth threaded rod 305, a push plate 302 is slidably mounted on the positioning rod 301, the push plate 302 is matched with the fourth threaded rod 305 through the rotation of the eighth motor 309, the fourth threaded rod 305 is rotationally driven by the push plate 302 to slide on the positioning rod 301, and the prefabricated structural parts which have been formed on the positioning rod 301 are pushed into the prefabricated structural parts 10 through the push plate 302.

As shown in fig. 1 to 13, a fifth threaded rod 307 is rotatably installed on the positioning rod 301, a gear is installed on the fifth threaded rod 307, a seventh motor 306 is fixedly installed on the positioning rod 301, a gear is installed on the seventh motor 306, the gear on the seventh motor 306 is meshed with the gear on the fifth threaded rod 307, a screw rod on the fifth threaded rod 307 is assembled with an adjusting slide block 304, a cylindrical key is arranged on the adjusting slide block 304, a second adjusting plate 308 is slidably installed on the positioning rod 301, a sliding groove is arranged on the second adjusting plate 308, the cylindrical key on the adjusting slide block 304 is in sliding fit with the sliding groove on the second adjusting plate 308, and the second adjusting plate 308 is used for adjusting the formed shape of the prefabricated structural component so as to facilitate manufacturing of the prefabricated structural components with different specifications.

As shown in fig. 1 to 13, the internal forming mechanism 3 includes a positioning slider 303, the positioning slider 303 is slidably mounted in the apparatus frame 1, a positioning lever 301 is slidably mounted in the positioning lever 301, and a compression spring is installed between the positioning lever 301 and the positioning slider 303.

As shown in fig. 1 to 13, a fifth motor 21 is fixedly installed on the equipment frame 1, a gear is installed on the fifth motor 21, a first threaded rod 14 is rotatably installed on the equipment frame 1, the gear installed on the first threaded rod 14 is meshed with the gear on the fifth motor 21, and the first threaded rod 14 is in screw fit with a positioning sliding block 303.

As shown in fig. 1 to 13, a pair of second forming mechanisms 5 are slidably mounted in the apparatus frame 1, the second forming mechanisms 5 are used for forming two sides of the prefabricated structural component, the second forming mechanisms 5 comprise a third forming plate 501, the third forming plate 501 is slidably mounted in the apparatus frame 1, a third adjusting plate 502 is slidably mounted in the third forming plate 501, the third adjusting plate 502 is used for adjusting the formed shape of the prefabricated structural component, an eleventh motor 504 is fixedly mounted in the third forming plate 501, gears are mounted on the eleventh motor 504, a sixth threaded rod 503 is rotatably mounted in the third forming plate 501, gears on the sixth threaded rod 503 are mounted on the sixth threaded rod 503, the sixth threaded rod 503 are connected through a belt, the gears on the sixth threaded rod 503 are meshed with the gears on the eleventh motor 504, the third adjusting plate 502 is matched with the sixth threaded rod 503 through the eleventh motor 504 to drive the sixth threaded rod 503 to rotate in the third forming plate 501, and the third adjusting plate 502 is controlled to slide in the third forming plate 501 through the sixth threaded rod 503 for manufacturing prefabricated structural components with different specifications.

As shown in fig. 1 to 13, a first motor 11 is fixedly installed on the equipment frame 1, a gear is installed on the first motor 11, a transmission rod 12 is rotatably installed on the equipment frame 1, the transmission rod 12 is provided with a gear meshed with the gear on the first motor 11, threads are arranged at two ends of the transmission rod 12, the threads at two ends of the transmission rod 12 are matched with a screw rod of a third molding plate 501, the transmission rod 12 is driven to rotate through the first motor 11, and the distance between the two second molding mechanisms 5 can be adjusted through the threads on the transmission rod 12.

As shown in fig. 1 to 13, a second motor 13 is fixedly installed on a device frame 1, a gear is installed on the second motor 13, a third forming mechanism 6 comprises a fourth forming plate 601, the fourth forming plate 601 is slidably installed in the device frame 1, an eighth threaded rod 605 is rotatably installed in the fourth forming plate 601, the eighth threaded rod 605 is connected through a belt, a twelfth motor 606 is fixedly installed in the fourth forming plate 601, a transmission shaft of the twelfth motor 606 is fixedly connected with the eighth threaded rod 605, a fourth adjusting plate 604 is slidably installed in the fourth forming plate 601, the fourth adjusting plate 604 is matched with the eighth threaded rod 605 through a screw rod of the eighth threaded rod 605, the eighth threaded rod 605 is rotationally driven to slide in the fourth forming plate 601, for manufacturing prefabricated structural parts with different specifications, a seventh threaded rod 602 is rotatably installed in the device frame 1, a gear is installed on the seventh threaded rod 602, the gear on the seventh threaded rod 602 is meshed with the gear on the second motor 13, the fourth adjusting plate 604 is rotationally driven by the eighth motor 605, and the seventh threaded rod 602 is rotationally driven by the eighth motor 605 to rotationally drive the fourth forming plate 601 through the fourth forming plate 601, and the seventh threaded rod 602 is rotationally driven by the seventh threaded rod 602 to rotationally control the fourth forming mechanism 1.

As shown in fig. 1 to 13, a rack is fixedly mounted on a device frame 1, a pushing mechanism 4 is slidingly mounted on the device frame 1, the pushing mechanism 4 comprises a shaping slide plate 401, a ninth motor 403 is fixedly mounted on the shaping slide plate 401, a threaded column 404 is mounted on the ninth motor 403, the threaded column 404 is matched with a rack worm on the device frame 1, the threaded column 404 is driven to rotate by the ninth motor 403, the pushing mechanism 4 is controlled to slide on the device frame 1 by the matching of the threaded column 404 and the rack on the device frame 1, a tenth motor 406 is fixedly mounted in the shaping slide plate 401, a gear is mounted on the tenth motor 406, a pushing roller 405 is rotatably mounted in the shaping slide plate 401, the gear is meshed with the gear on the tenth motor 406, the pushing roller 405 is driven to rotate by the tenth motor 406, an unprocessed steel plate is conveyed to a processing area by the rotation of the pushing roller 405, a second shaping plate 402 is slidingly mounted on the shaping slide plate 401, and a compression spring is mounted between the second shaping plate 402 and the shaping slide plate 401.

As shown in fig. 1 to 13, a first forming mechanism 2 is slidably mounted in a device frame 1, the first forming mechanism 2 comprises a first forming plate 201, a third threaded rod 206 is rotatably mounted in the first forming plate 201, a gear is mounted on the third threaded rod 206, a sixth motor 207 is fixedly mounted on the first forming plate 201, the gear is mounted on the sixth motor 207 and meshed with the gear on the third threaded rod 206, a first adjusting plate 208 is slidably mounted on the first forming plate 201, the first adjusting plate 208 is matched with a third threaded rod 206 screw rod, the third threaded rod 206 is driven to rotate by the sixth motor 207, the third threaded rod 206 is rotationally controlled to slide in the first forming plate 201, a rack is mounted on the triggering plate 203 and used for manufacturing prefabricated structural components with different specifications, a transmission gear 202 is rotatably mounted on the first forming plate 201, the transmission gear 202 is meshed with the rack on the triggering plate 203, a cutting plate 204 is slidably mounted on the first forming plate 201, a rack is meshed with the transmission gear 202, the first forming plate 205 is fixedly mounted on the first forming plate 201, a hydraulic rod 205 is fixedly mounted on the first forming plate 205 is connected with the device frame 2 through a hydraulic rod, and the device frame 2 is finally pressed, and the redundant steel plate is subjected to forming and is subjected to pressing and the forming by the hydraulic rod 2.

As shown in fig. 1 to 13, a fixing mechanism 9 is movably mounted on the equipment frame 1, the fixing mechanism 9 comprises a fixing clamp plate 901, a thirteenth motor 903 and a fourteenth motor 904, the fixing clamp plate 901 is slidably mounted in the equipment frame 1, the fourteenth motor 904 is fixedly mounted on the equipment frame 1, a screw is mounted on the fourteenth motor 904, the screw on the fourteenth motor 904 is matched with a screw rod of the fixing clamp plate 901, the thirteenth motor 903 is fixedly mounted on the equipment frame 1, a discharging transmission belt 902 is mounted on an output shaft of the thirteenth motor 903, the fixing clamp plate 901 is driven to slide in the equipment frame 1 through the screw rod on the fourteenth motor 904, a steel plate is clamped through the matching of the fixing clamp plate 901 and the discharging transmission belt 902, subsequent processing is facilitated, and redundant corners cut through the cutting plate 204 can be conveyed to the first motor 11 through the discharging transmission belt 902 to be collected.

As shown in fig. 1 to 13, a feeding rod 19 is rotatably mounted on the equipment frame 1, the middle of the feeding rod 19 is connected by a belt, a feeding driving belt 20 is mounted on the feeding rod 19, the feeding driving belt 20 is used for placing a steel plate to be processed and conveying the steel plate, and the steel plate is conveniently conveyed to a processing area for processing by the cooperation of a pushing roller 405 and the feeding driving belt 20.

As shown in fig. 1 to 13, a second threaded rod 16 is rotatably mounted on the equipment frame 1, a gear is mounted on the second threaded rod 16, a third motor 15 is fixedly mounted on the equipment frame 1, the gear is mounted on the third motor 15 and meshed with the gear on the second threaded rod 16, a pair of tool holders 7 are mounted on a screw rod on the second threaded rod 16, a fourth motor 17 is fixedly mounted on the tool holders 7, the gear is mounted on the fourth motor 17, a cutter grinding disc 8 is rotatably mounted on the tool holders 7, the gear is meshed with the gear on the fourth motor 17, the second threaded rod 16 is driven to rotate by the third motor 15, the distance between the tool holders 7 is regulated by the rotation of the second threaded rod 16, the cutter grinding disc 8 is driven to rotate by the fourth motor 17 on the tool holders 7, the edge of a steel plate is polished by the cutter grinding disc 8, workers are prevented from being scratched when the prefabricated structural parts formed are conveyed, and meanwhile, the steel plate can be cut to a required size by the cutter grinding disc 8.

Working principle: when in use, a steel plate to be processed is pushed onto the feeding conveyor belt 20, the third motor 15 is started to drive the second threaded rod 16 to rotate, the distance between the two tool holders 7 is adjusted, the edge of the steel plate is polished through the milling cutter disc 8 on the tool holder 7, or the steel plate is cut to the required size through the milling cutter disc 8, then the tenth motor 406 is started, one end of the steel plate is conveyed onto the discharging conveyor belt 902 through the cooperation of the pushing roller 405 and the feeding conveyor belt 20, then the fourteenth motor 904 is started to lower the fixed clamping plate 901 to press the steel plate, then the second motor 13 is started, the seventh threaded rod 602 is driven to rotate through the second motor 13, the seventh threaded rod 602 is driven to rotate to control the fourth shaping plate 601 to slide in the equipment frame 1 to be adjusted to the required height, then the fifth motor 21 is driven to rotate through the first threaded rod 14 to control the positioning slide 303 to slide in the equipment frame 1, after adjusting the height of the positioning rod 301, adjusting the positioning rod 301 to a height at which the bottom of the positioning rod 301 contacts a steel plate, starting the hydraulic rod 205 to press the first shaping plate 201 downwards, pressing the positioning rod 301 into a space between the two second shaping mechanisms 5 through the pressing of the transmission gear 202, then starting the fifth motor 21 to drive the first threaded rod 14 to rotate, lowering the positioning slide 303 to the same height as the positioning rod 301, then starting the first motor 11 to drive the transmission rod 12 to rotate, rotating the transmission rod 12 to adjust the distance between the two second shaping mechanisms 5, pressing the side surface of the steel plate to shape, then starting the hydraulic rod 205 to lift the first shaping plate 201, then starting the ninth motor 403, controlling the pushing mechanism 4 to slide on the equipment frame 1 through the matching of a threaded column 404 mounted on the ninth motor 403 with a rack on the equipment frame 1, the second shaping plate 402 is slid to the position right above the positioning rod 301, meanwhile, the steel plate erected after the side surface is shaped is leveled by the pushing mechanism 4, then the hydraulic rod 205 is started to push down the first shaping plate 201, the second shaping plate 402 is driven to push down by the push down of the first shaping plate 201, the top of the steel plate is pressed and shaped, meanwhile, the trigger plate 203 is contacted with the shaping slide plate 401, the trigger plate 203 is pressed into the first shaping plate 201 by the push down of the first shaping plate 201, the transmission gear 202 is driven to rotate by the rack on the trigger plate 203, the blanking plate 204 is driven to slide downwards on the fifth motor 21 by the transmission gear 202, the redundant corners after the shaping is finished are cut off by the blanking plate 204, then the fourteenth motor 904 is started to lift the fixed clamping plate 901, then the thirteenth motor 903 is started to drive the discharging transmission belt 902 to roll, the extra corners on the discharging transmission belt 902 are conveyed to the discharging plate 22 to be collected, then the hydraulic rod 205 is started to lift the first shaping plate 201, meanwhile, the first motor 11 is started to drive the transmission rod 12 to rotate, the two second shaping mechanisms 5 are adjusted to be in the original position, then the ninth motor 403 is started to drive the threaded column 404 to rotate, the shaping slide plate 401 is controlled to slide on the equipment frame 1 to be in the original position, then the fifth motor 21 is started to drive the first threaded rod 14 to rotate, the positioning slide block 303 is controlled to lift the positioning rod 301 to the same height as the discharging plate 10, the eighth motor 309 is started to drive the fourth threaded rod 305 to rotate, the fourth threaded rod 305 rotates to drive the pushing plate 302 to slide on the positioning rod 301, and the shaped prefabricated structural parts are pushed to the discharging plate 10 to be collected through the pushing plate 302 and are ready for the next manufacturing.

Claims (10)

1. The industrial building steel structure prefabrication equipment comprises an equipment frame (1), wherein a discharging plate (10) and a discharging plate (22) are fixedly arranged on the equipment frame (1), the industrial building steel structure prefabrication equipment is characterized in that a first forming mechanism (2), an inner forming mechanism (3), a pushing mechanism (4), a second forming mechanism (5), a third forming mechanism (6) and a fixing mechanism (9) are movably arranged on the equipment frame (1), the inner forming mechanism (3) comprises a positioning rod (301), a fourth threaded rod (305) and a fifth threaded rod (307) are rotatably arranged on the positioning rod (301), gears are arranged on the fourth threaded rod (305) and the fifth threaded rod (307), a seventh motor (306) and an eighth motor (309) are fixedly arranged on the positioning rod (301), the gears on the seventh motor (306) and the eighth motor (309) are meshed with the gears on the fifth threaded rod (307), the gears on the eighth motor (309) are meshed with the gears on the fourth threaded rod (301), a push plate (302) is slidably arranged on the positioning rod (301), a push plate (302) is matched with a screw rod (304) on a cylinder (304), a second adjusting plate (308) is arranged in the positioning rod (301) in a sliding manner, a sliding groove is formed in the second adjusting plate (308), and a cylindrical key on the adjusting sliding block (304) is in sliding fit with the sliding groove on the second adjusting plate (308); the internal forming mechanism (3) comprises a positioning slide block (303), the positioning slide block (303) is slidably arranged in the equipment frame (1), the positioning rod (301) is slidably arranged in the positioning slide block (303), and a compression spring is arranged between the positioning rod (301) and the positioning slide block (303).

2. The industrial building steel structure prefabrication equipment according to claim 1, wherein the first forming mechanism (2) comprises a first forming plate (201), a hydraulic rod (205) is fixedly installed on the first forming plate (201), the hydraulic rod (205) is fixedly connected with the equipment frame (1), a first adjusting plate (208) is slidably installed on the first forming plate (201), a compression spring is installed between the first adjusting plate (208) and the first forming plate (201), a rack is fixedly installed on the first adjusting plate (208), a third threaded rod (206) is rotatably installed on the first forming plate (201), a gear is installed on the third threaded rod (206), a sixth motor (207) is fixedly installed on the first forming plate (201), a gear wheel on the sixth motor (207) is meshed with a gear wheel on the third forming plate (206), a transmission gear wheel (202) is rotatably installed on the first forming plate (201), a rack on the first adjusting plate (208) is meshed with a rack on the first forming plate (208), a third threaded rod (206) is rotatably installed on the third forming plate (206), a gear wheel (204) is fixedly installed on the cutting plate (204), and a rack (204) is meshed with the cutting plate (204).

3. An industrial building steel structure prefabrication device according to claim 1, characterized in that the device frame (1) is fixedly provided with a rack, the pushing mechanism (4) comprises a shaping slide plate (401), the shaping slide plate (401) is slidably arranged on the device frame (1), a ninth motor (403) is fixedly arranged on the shaping slide plate (401), a threaded column (404) is arranged on the ninth motor (403), the threaded column (404) is matched with a rack worm on the device frame (1), a second shaping plate (402) is slidably arranged in the shaping slide plate (401), a compression spring is arranged between the second shaping plate (402) and the shaping slide plate (401), a tenth motor (406) is fixedly arranged in the shaping slide plate (401), a gear is arranged on the tenth motor (406), a pushing roller (405) is rotatably arranged on the shaping slide plate (401), and the gear is fixedly arranged on the pushing roller (405) and meshed with the gear on the tenth motor (406).

4. An industrial building steel structure prefabrication device according to claim 1, characterized in that the second forming mechanism (5) comprises a third forming plate (501), the third forming plate (501) is slidably mounted in the device frame (1), a third adjusting plate (502) is slidably mounted in the third forming plate (501), an eleventh motor (504) is fixedly mounted in the third forming plate (501), a gear is mounted on the eleventh motor (504), a sixth threaded rod (503) is rotatably mounted in the third forming plate (501), the sixth threaded rod (503) is in screw fit with the third adjusting plate (502), a gear is fixedly mounted on the sixth threaded rod (503), the sixth threaded rods (503) are connected through a belt, and the gear on the sixth threaded rod (503) is meshed with the gear on the eleventh motor (504).

5. The industrial building steel structure prefabrication equipment according to claim 1, wherein the third forming mechanism (6) comprises a fourth forming plate (601), the fourth forming plate (601) is slidably mounted in the equipment frame (1), a fourth adjusting plate (604) is slidably mounted in the fourth forming plate (601), an eighth threaded rod (605) is rotatably mounted in the fourth forming plate (601), the eighth threaded rod (605) is in screw fit with the fourth adjusting plate (604), the eighth threaded rods (605) are connected through a belt, a twelfth motor (606) is fixedly mounted in the fourth forming plate (601), the eighth threaded rod (605) is fixedly connected with a transmission shaft of the twelfth motor (606), a seventh threaded rod (602) is mounted in the fourth forming plate (601) in a sliding mode, a second transmission belt (603) is connected between the seventh threaded rods (602), and gears are mounted on the seventh threaded rods (602).

6. An industrial building steel structure prefabrication device according to claim 1, characterized in that the fixing mechanism (9) comprises a fixing clamp plate (901), a thirteenth motor (903) and a fourteenth motor (904), the fixing clamp plate (901) is slidably mounted in the device frame (1), the thirteenth motor (903) is fixedly mounted on the device frame (1), a discharging transmission belt (902) is mounted between transmission shafts of the thirteenth motor (903), the fourteenth motor (904) is fixedly mounted on the device frame (1), a screw is fixedly mounted on a transmission shaft of the fourteenth motor (904), and the screw on the fourteenth motor (904) is matched with the screw of the fixing clamp plate (901).

7. The industrial building steel structure prefabrication equipment according to claim 1, wherein the equipment frame (1) is fixedly provided with a second motor (13), the second motor (13) is provided with a gear, the gear on the second motor (13) is meshed with the gear on a seventh threaded rod (602), the equipment frame (1) is fixedly provided with a first motor (11), the equipment frame (1) is provided with a gear, the equipment frame (1) is rotatably provided with a transmission rod (12), the transmission rod (12) is provided with a gear meshed with the gear on the first motor (11), two ends of the transmission rod (12) are provided with threads, and the threads at two ends of the transmission rod (12) are matched with a screw of a third shaping plate (501).

8. An industrial building steel structure prefabrication device according to claim 1, characterized in that a fifth motor (21) is fixedly arranged on the device frame (1), a gear is arranged on the fifth motor (21), a first threaded rod (14) is rotatably arranged on the device frame (1), the gear is arranged on the first threaded rod (14) and meshed with the gear on the fifth motor (21), and the first threaded rod (14) is in screw fit with a positioning sliding block (303).

9. An industrial building steel structure prefabricating equipment according to claim 1, characterized in that the equipment frame (1) is rotatably provided with feeding rods (19), the feeding rods (19) are connected through a first transmission belt (18), and a feeding transmission belt (20) is arranged between the feeding rods (19).

10. An industrial building steel structure prefabrication device according to claim 1, characterized in that the device frame (1) is rotatably provided with a second threaded rod (16), the second threaded rod (16) is provided with a gear, the device frame (1) is fixedly provided with a third motor (15), the third motor (15) is provided with a gear, the screw on the third motor (15) is provided with a pair of tool holders (7), the tool holders (7) are fixedly provided with a fourth motor (17), the fourth motor (17) is provided with a gear, the tool holders (7) are rotatably provided with a grinding and cutting disc (8), and the grinding and cutting disc (8) is provided with a gear meshed with the gear on the fourth motor (17).