CN112878755A

CN112878755A - Steel construction factory building skeleton

Info

Publication number: CN112878755A
Application number: CN202110080204.0A
Authority: CN
Inventors: 侯庆波
Original assignee: Shandong Tianzhi Information Technology Co ltd
Current assignee: Shandong Tianzhi Information Technology Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-06-01

Abstract

The invention discloses a steel structure factory building framework, which comprises upright posts, longitudinal beams, H-shaped cross beams, connecting seats, a buffer mechanism, a control mechanism, a lifting mechanism and oblique beams, wherein the upright posts are arranged on the longitudinal beams; the connecting seat is fixed on one side of the top of the upright post; two ends of the H-shaped cross beam are connected with the connecting seats; the longitudinal beam is fixed at the top end of the upright post; the lifting mechanism is fixed on the H-shaped cross beam; the two ends of the oblique beam are connected with the longitudinal beam and the lifting mechanism; the control mechanism is connected with the lifting mechanism; the connecting seat comprises a first fixing plate, a second fixing plate, a third fixing plate and a fourth fixing plate; fixed mounting frame, second motor, guiding axle, fagging, lift post, backup pad, bearing plate, spandrel girder, first purlin. The angle of the oblique beam and the height of the roof can be adjusted through the lifting mechanism; the effect of reducing the wind resistance is realized.

Description

Steel construction factory building skeleton

Technical Field

The invention belongs to the technical field of steel structure buildings, and particularly relates to a steel structure factory building framework.

Background

The steel structure framework is a building form commonly adopted in the construction of industrial plants; various steel structures are generally fixed together by welding or bolt fixing modes; although the construction speed block is low in cost, a problem also exists: whether the roof is supported by a flat roof type factory building roof or a triangular span type inclined beam, certain disadvantages exist; because the steel structure is in a fixed connection mode, the roof supported by the triangular span type oblique beams in wind seasons has larger wind resistance, and the danger coefficient of the roof turned over by strong wind is larger; the roof of the flat-top type factory building is subjected to heavy snow bearing in winter, snow melts slowly, and the danger coefficient that the roof is crushed is large; therefore, a novel plant framework is needed to change the two defects.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a steel structure factory building framework, which can adjust the angle of an oblique beam and the height of a roof through a lifting mechanism; the effect of reducing the wind resistance is realized.

In order to achieve the purpose, the invention adopts the technical scheme that:

a steel structure factory building framework comprises upright posts, longitudinal beams, H-shaped cross beams, connecting seats, a buffer mechanism, a control mechanism, a lifting mechanism and oblique beams; the connecting seat is fixed on one side of the top of the upright post; two ends of the H-shaped cross beam are connected with the connecting seats; the longitudinal beam is fixed at the top end of the upright post; the lifting mechanism is fixed on the H-shaped cross beam; the two ends of the oblique beam are connected with the longitudinal beam and the lifting mechanism; the control mechanism is connected with the lifting mechanism.

The connecting seat comprises a first fixing plate, a second fixing plate, a third fixing plate and a fourth fixing plate; a group of first T-shaped guide grooves is formed in the first fixing plate; the second fixing plate is fixed on one side of the first fixing plate; the third fixing plate and the fourth fixing plate are provided with T-shaped blocks and are inserted into the first T-shaped guide grooves through the T-shaped blocks to be connected with the first fixing plate; the fourth fixing plate is positioned at one side of the third fixing plate; the third fixed plate is fixedly connected with a web plate of the H-shaped beam through a bolt, and the second fixed plate and the fourth fixed plate are fixedly connected with a wing plate of the H-shaped beam through a bolt.

The lifting mechanism comprises a fixed mounting frame, a second motor, a guide shaft, a supporting plate, a lifting column, a supporting plate, a bearing beam and a first purline; the fixed mounting frame and the second motor are fixed on the H-shaped cross beam; the second motor is positioned on one side of the fixed mounting frame, and a bevel gear is arranged at the shaft end of an output shaft of the second motor; one end of the lifting column penetrates through the fixed mounting frame and is movably connected with the H-shaped cross beam through a bearing seat, and the end is provided with a bevel gear and is meshed with a shaft end gear of an output shaft of the second motor; the other end of the lifting column is provided with threads, and is connected with a supporting plate through the threads; a third fixed seat and a second T-shaped guide groove are arranged at the two ends of the supporting plate; the bottom of the third fixed seat is provided with a guide block which is inserted into the second T-shaped guide groove; the guide shafts are fixed at two ends of the supporting plate, one end of each guide shaft is fixedly connected with the supporting plate, and the other end of each guide shaft penetrates through a through hole formed in the H-shaped cross beam; one end of the supporting plate is fixedly connected with the supporting plate, and the other end of the supporting plate is fixedly connected with the bearing beam; a plurality of groups of first purlines are arranged between adjacent bearing beams and used for fixing color steel plates; and a bearing plate is arranged between the adjacent supporting plates.

A plurality of first fixing seats are arranged on the longitudinal beam; the two ends of the oblique beam are respectively hinged with a third fixed seat and a first fixed seat; a plurality of second purlines and fourth fixed seats are arranged on the oblique beam; the second purline is located the sloping one side and is used for fixing various steel sheet, and the fourth fixing base is fixed at the sloping another side.

A second fixed seat is arranged on the H-shaped cross beam; the buffer mechanism comprises a support sleeve column, a spring and a support column; one end of the support sleeve column is hinged with the second fixed seat, and the support sleeve column is provided with a guide hole; one end of the support column is inserted into a guide hole in the support sleeve column, and the other end of the support column is hinged with a fourth fixed seat; the spring cup joints the support column, and spring one end top touches support sleeve post one end, and the limiting plate that is equipped with on the other end top touch support column.

The control mechanism comprises a plywood, a first motor and an installation block; the first motor is fixed on the bearing plate, and a chain wheel is arranged at the output shaft end of the first motor; the split plates are positioned on two sides of the bearing plate, a rotating shaft is arranged on one side of each split plate and movably connected with the supporting plate through a bearing, and a chain wheel is arranged on the rotating shaft on one side of each split plate; the mounting blocks are distributed on two side surfaces of the supporting plate in a mirror image mode and are positioned on one side of the first motor; one end of the mounting block is fixed on the supporting plate, and the other end of the mounting block is provided with a rotating shaft which is provided with a turning gear; the change gear is connected with a chain wheel on the rotating shaft of the opening plate and a shaft end chain wheel of the output shaft of the first motor through a chain.

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

1) the invention is provided with a lifting mechanism and is movably connected with an oblique beam; the supporting plate is driven by a second motor to move up and down along the lifting column and the guide shaft; thereby driving the oblique beam to adjust the angle up and down by taking the first fixed seat as an axis, further realizing the adjustment of the oblique angle of the color steel plate roof, reducing the wind resistance in wind seasons and reducing the probability of turning over the roof by strong wind;

2) the control mechanism can drive the opening and closing plate to be opened and closed through the first motor to realize ventilation and circulation in the plant;

3) the connecting seat is arranged in the H-shaped cross beam fixing device, the fourth fixing plate can be adjusted in a sliding mode in the first T-shaped guide groove according to the size of the H-shaped cross beam, and the fixing requirement of wing plates of the H-shaped cross beam is met.

Drawings

FIG. 1 is a schematic structural diagram of a steel structure factory building skeleton according to the invention;

FIG. 2 is a front view of a steel structure factory building framework;

FIG. 3 is a schematic view of a lifting mechanism in a steel structure factory building framework;

FIG. 4 is an enlarged schematic view at A of FIG. 3;

FIG. 5 is an exploded view of a connecting seat in a steel structure factory building framework according to the present invention;

FIG. 6 is a schematic structural diagram of a buffer mechanism in a steel structure factory building framework;

in the figure: 1. a column; 2. a stringer; 21. a first fixed seat; 3. an H-shaped beam; 31. a second fixed seat; 4. a connecting seat; 41. a first fixing plate; 411. a first T-shaped guide groove; 42. a second fixing plate; 43. a third fixing plate; 44. a fourth fixing plate; 5. a buffer mechanism; 51. supporting a sleeve column; 52. a spring; 53. a support pillar; 531. a limiting plate; 6. a control mechanism; 61. opening and closing the board; 62. a first motor; 63. mounting blocks; 631. a change gear; 7. a lifting mechanism; 71. fixing the mounting rack; 72. a second motor; 73. a guide shaft; 74. a supporting plate; 741. a third fixed seat; 742. a second T-shaped guide groove; 75. a lifting column; 76. a support plate; 77. a bearing plate; 78. a spandrel girder; 79. a first purlin; 8. an oblique beam; 81. a second purlin; 82. and a fourth fixed seat.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 6.

A steel structure factory building framework comprises upright posts 1, longitudinal beams 2, H-shaped cross beams 3, connecting seats 4, a buffer mechanism 5, a control mechanism 6, a lifting mechanism 7 and oblique beams 8; the connecting seat 4 is fixed on one side of the top of the upright post 1; two ends of the H-shaped cross beam 3 are connected with the connecting seats 4; the longitudinal beam 2 is fixed at the top end of the upright post 1; the lifting mechanism 7 is fixed on the H-shaped cross beam 3; the two ends of the oblique beam 8 are connected with the longitudinal beam 2 and the lifting mechanism 7; the control mechanism 6 is connected with the lifting mechanism 7.

The connecting seat 4 comprises a first fixing plate 41, a second fixing plate 42, a third fixing plate 43 and a fourth fixing plate 44; a group of first T-shaped guide slots 411 are arranged on the first fixing plate 41; the second fixing plate 42 is fixed on one side of the first fixing plate 41; the third fixing plate 43 and the fourth fixing plate 44 are provided with T-shaped blocks, and are inserted into the first T-shaped guide slot 411 through the T-shaped blocks to be connected with the first fixing plate 41; the fourth fixing plate 44 is positioned at one side of the third fixing plate 43; the third fixing plate 43 is fixedly connected with a web plate of the H-shaped cross beam 3 through a bolt, and the second fixing plate 42 and the fourth fixing plate 44 are fixedly connected with a wing plate of the H-shaped cross beam 3 through a bolt; the third fixing plate 43 and the fourth fixing plate 44 are adjustable according to the size of the H-beam 3.

The lifting mechanism 7 comprises a fixed mounting frame 71, a second motor 72, a guide shaft 73, a supporting plate 74, a lifting column 75, a supporting plate 76, a bearing plate 77, a bearing beam 78 and a first purline 79; the fixed mounting frame 71 and the second motor 72 are fixed on the H-shaped cross beam 3; the second motor 72 is positioned at one side of the fixed mounting frame 71, and a bevel gear is arranged at the shaft end of an output shaft of the second motor 72; one end of the lifting column 75 penetrates through the fixed mounting frame 71 and is movably connected with the H-shaped cross beam 3 through a bearing seat, and the end is provided with a bevel gear and is meshed with a shaft end gear of an output shaft of the second motor 72; the other end of the lifting column 75 is provided with threads and is connected with the supporting plate 74 through the threads; a third fixed seat 741 and a second T-shaped guide slot 742 are arranged at two ends of the supporting plate 74; the bottom of the third fixing seat 741 is provided with a guide block, and the guide block is inserted into the second T-shaped guide groove 742; the guide shafts 73 are fixed at two ends of the supporting plate 74, one end of each guide shaft 73 is fixedly connected with the supporting plate 74, and the other end of each guide shaft 73 penetrates through a through hole formed in the H-shaped cross beam 3; one end of the supporting plate 76 is fixedly connected with the supporting plate 74, and the other end of the supporting plate is fixedly connected with the bearing beam 78; a plurality of groups of first purlins 79 are arranged between the adjacent bearing beams 78 and used for fixing the color steel plates; a bearing plate 77 is arranged between the adjacent supporting plates 74; the second motor 72 drives the lifting column 75 to rotate, so as to drive the supporting plate 74 to move up and down along the guide shaft 73, and the guide shaft 73 plays a role in guiding and assisting in stabilizing.

A plurality of first fixing seats 21 are arranged on the longitudinal beam 2; two ends of the oblique beam 8 are respectively hinged with a third fixed seat 741 and a first fixed seat 21; a plurality of second purlines 81 and fourth fixed seats 82 are arranged on the oblique beam 8; the second purline 81 is located on one side of the oblique beam 8 and used for fixing the color steel plate, and the fourth fixing seat 82 is fixed on the other side of the oblique beam 8.

A second fixed seat 31 is arranged on the H-shaped cross beam 3; the buffer mechanism comprises a support sleeve column 51, a spring 52 and a support column 53; one end of the support sleeve column 51 is hinged with the second fixed seat 31, and the support sleeve column 51 is provided with a guide hole; one end of the support column 53 is inserted into the guide hole on the support sleeve column 51, and the other end of the support column 53 is hinged with the fourth fixed seat 82; the spring 52 is sleeved with the support column 53, one end of the spring 52 is in contact with one end of the support sleeve column 51, and the other end of the spring is in contact with the limit plate 531 arranged on the support column 53; when the second motor 72 drives the supporting plate 74 to move up and down, the fourth fixing seat 82 hinged to one end of the oblique beam 8 slides in the second T-shaped guide groove 742, and the fourth fixing seat 82 is fixed through a bolt after adjustment is completed; the buffer mechanism 5 plays a role of buffering and auxiliary supporting.

The control mechanism 6 comprises a plywood 61, a first motor 62 and a mounting block 63; the first motor 62 is fixed on the bearing plate 77, and a chain wheel is arranged at the output shaft end of the first motor 62; the cut-off plate 61 is positioned on two sides of the bearing plate 77, a rotating shaft is arranged on one side of the cut-off plate 61, the rotating shaft is movably connected with the supporting plate 74 through a bearing, and a chain wheel is arranged on the rotating shaft on one side of the cut-off plate 61; the mounting blocks 63 are distributed on two side surfaces of the supporting plate 74 in a mirror image manner and are positioned on one side of the first motor 62; one end of the mounting block 63 is fixed on the supporting plate 74, and the other end is provided with a rotating shaft which is provided with a change gear 631; the change gear 631 is connected with a chain wheel on the rotating shaft of the opening plate 61 and a shaft end chain wheel of the output shaft of the first motor 62 through a chain; the first motor 62 provides power, and the opening and closing plate 61 is simultaneously opened upwards and closed downwards through the cooperation of the change gear 631 and the chain, so that ventilation is performed in the plant.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims

1. A steel structure factory building framework comprises upright posts, longitudinal beams, H-shaped cross beams, connecting seats, a buffer mechanism, a control mechanism, a lifting mechanism and oblique beams; the connecting seat is fixed on one side of the top of the upright post; two ends of the H-shaped cross beam are connected with the connecting seats; the longitudinal beam is fixed at the top end of the upright post; the lifting mechanism is fixed on the H-shaped cross beam; the two ends of the oblique beam are connected with the longitudinal beam and the lifting mechanism; the control mechanism is connected with the lifting mechanism.

2. The steel structure factory building skeleton of claim 1, wherein the connecting base comprises a first fixing plate, a second fixing plate, a third fixing plate and a fourth fixing plate; a group of first T-shaped guide grooves is formed in the first fixing plate; the second fixing plate is fixed on one side of the first fixing plate; the third fixing plate and the fourth fixing plate are provided with T-shaped blocks and are inserted into the first T-shaped guide grooves through the T-shaped blocks to be connected with the first fixing plate; the fourth fixing plate is positioned at one side of the third fixing plate; the third fixed plate is fixedly connected with a web plate of the H-shaped beam through a bolt, and the second fixed plate and the fourth fixed plate are fixedly connected with a wing plate of the H-shaped beam through a bolt.

3. The steel structure factory building skeleton of claim 1, wherein the lifting mechanism comprises a fixed mounting frame, a second motor, a guide shaft, a supporting plate, a lifting column, a supporting plate, a bearing beam and a first purline; the fixed mounting frame and the second motor are fixed on the H-shaped cross beam; the second motor is positioned on one side of the fixed mounting frame, and a bevel gear is arranged at the shaft end of an output shaft of the second motor; one end of the lifting column penetrates through the fixed mounting frame and is movably connected with the H-shaped cross beam through a bearing seat, and the end is provided with a bevel gear and is meshed with a shaft end gear of an output shaft of the second motor; the other end of the lifting column is provided with threads, and is connected with a supporting plate through the threads; a third fixed seat and a second T-shaped guide groove are arranged at the two ends of the supporting plate; the bottom of the third fixed seat is provided with a guide block which is inserted into the second T-shaped guide groove; the guide shafts are fixed at two ends of the supporting plate, one end of each guide shaft is fixedly connected with the supporting plate, and the other end of each guide shaft penetrates through a through hole formed in the H-shaped cross beam; one end of the supporting plate is fixedly connected with the supporting plate, and the other end of the supporting plate is fixedly connected with the bearing beam; a plurality of groups of first purlines are arranged between adjacent bearing beams and used for fixing color steel plates; a bearing plate is arranged between the adjacent supporting plates;

4. The steel structure factory building skeleton of claim 1, wherein a second fixing seat is arranged on the H-shaped beam; the buffer mechanism comprises a support sleeve column, a spring and a support column; one end of the support sleeve column is hinged with the second fixed seat, and the support sleeve column is provided with a guide hole; one end of the support column is inserted into a guide hole in the support sleeve column, and the other end of the support column is hinged with a fourth fixed seat; the spring cup joints the support column, and spring one end top touches support sleeve post one end, and the limiting plate that is equipped with on the other end top touch support column.

5. The steel structure factory building skeleton of claim 1, wherein the control mechanism comprises a cut-open plate, a first motor, and a mounting block; the first motor is fixed on the bearing plate, and a chain wheel is arranged at the output shaft end of the first motor; the split plates are positioned on two sides of the bearing plate, a rotating shaft is arranged on one side of each split plate and movably connected with the supporting plate through a bearing, and a chain wheel is arranged on the rotating shaft on one side of each split plate; the mounting blocks are distributed on two side surfaces of the supporting plate in a mirror image mode and are positioned on one side of the first motor; one end of the mounting block is fixed on the supporting plate, and the other end of the mounting block is provided with a rotating shaft which is provided with a turning gear; the change gear is connected with a chain wheel on the rotating shaft of the opening plate and a shaft end chain wheel of the output shaft of the first motor through a chain.