CN115126141A

CN115126141A - Integrated assembled steel construction building

Info

Publication number: CN115126141A
Application number: CN202210942680.3A
Authority: CN
Inventors: 何爱军; 李莹新; 吕效国; 王庆一
Original assignee: Shandong Xinsha Construction Co ltd
Current assignee: Shandong Xinsha Construction Co ltd
Priority date: 2022-08-08
Filing date: 2022-08-08
Publication date: 2022-09-30
Anticipated expiration: 2042-08-08
Also published as: CN115126141B

Abstract

The utility model relates to an integrated assembled steel construction building belongs to steel construction building technical field, and integrated assembled steel construction building includes the footstock, it is provided with the roof strip to slide on the footstock, the slip direction of roof strip sets up along vertical direction, the both sides that the roof strip is relative are rotated and are provided with the shingle, two the shingle sets up along the length direction symmetry of roof strip, the rotation axis of shingle is on a parallel with the length direction of roof strip, one side that the roof strip was kept away from to the shingle articulates there is the connecting rod, the one end that the shingle was kept away from to the connecting rod articulates on the footstock, the articulated axis of connecting rod is on a parallel with the rotation axis of shingle, be provided with on the footstock and be used for ordering about the gliding driving piece of direction that the roof strip orientation is close to or keeps away from the footstock. The snow cover has the advantages that the snow cover on the roof plate is reduced, and the steel structure of the roof plate or the building is not easily bent by the snow cover.

Description

Integrated assembled steel construction building

Technical Field

The application relates to the technical field of steel structure buildings, in particular to an integrated assembly type steel structure building.

Background

The integrated assembly type building refers to a building system which assembles and integrates building components into a required building system. Steel structure buildings are buildings with load-bearing structures formed by building steels, and the load-bearing structures are generally formed by beams, columns, trusses and other members made of section steels and steel plates; the building is assembled with the building enclosure structures such as a roof, a floor, a wall surface and the like on site to form a building.

Generally, an integrated assembly type steel structure building mainly comprises a base and a top seat, wherein a plurality of vertical steels are fixed between the base and the top seat, and a roof plate is arranged on the top seat. In the period of heavy snow in winter, accumulated snow is accumulated on the roof plate for a long time, and the roof plate or a building steel structure is easy to bend.

Disclosure of Invention

In order to reduce the snow on the shingle, make the steel construction of shingle or building difficult by snow buckling to a certain extent, the application provides an integrated assembled steel structure building.

The application provides an integrated assembled steel construction building adopts following technical scheme:

an integrated assembly type steel structure building comprises a top seat, wherein a roof strip is arranged on the top seat in a sliding mode, the sliding direction of the roof strip is arranged along the vertical direction, roof plates are arranged on two opposite sides of the roof strip in a rotating mode, the roof plates are symmetrically arranged along the length direction of the roof strip, the rotating axis of each roof plate is parallel to the length direction of the roof strip, one side, far away from the roof strip, of each roof plate is hinged to a connecting rod, one end, far away from the roof plate, of each connecting rod is hinged to the top seat, the hinge axis of each connecting rod is parallel to the rotating axis of each roof plate, and a driving piece used for driving the roof strip to slide towards the direction close to or far away from the top seat is arranged on the top seat.

Through adopting above-mentioned technical scheme, order about the roof strip through the driving piece and slide towards the direction of keeping away from the footstock, make the roof strip move one side that both sides shingle is close to each other and shift up to make both sides shingle be close to the contained angle between the footstock one side and reduce, the shingle rotates certain angle towards the direction that is close to the footstock promptly, make the shingle slope more, thereby help the snow on the shingle to drop along the inclined plane, make the steel construction of shingle or building difficult by snow bending.

Preferably, roof strip upper shield is equipped with the stock solution cover that is used for splendid attire salt solution, the liquid outlet has been seted up respectively to the both sides that the stock solution cover is relative, and both sides liquid outlet sets up along the length direction symmetry of roof strip, be provided with the subassembly of opening and close that is used for opening and close the liquid outlet on the roof strip, open and close subassembly and liquid outlet one-to-one.

Through adopting above-mentioned technical scheme, open the liquid outlet through opening and close the subassembly, make the salt solution in the stock solution cover flow to the shingle from the liquid outlet, salt solution helps accelerating snow to melt, and the snow of being convenient for is followed the shingle and is gone up the landing, and then makes the steel construction of shingle or building difficult by the snow pressure bend.

Preferably, the opening and closing assembly comprises a starting block, an elastic pushing member arranged on the roof strip and a pulling member arranged on the roof plate, the starting block is slidably arranged in the corresponding liquid outlet, the starting block is used for opening or blocking the corresponding liquid outlet, the starting block slides towards the direction close to or far away from the corresponding liquid outlet, the elastic pushing member is used for pushing the opening and closing plug to slide towards the direction close to the liquid outlet so as to block the liquid outlet, and the pulling member is used for pulling the opening and closing plug to slide towards the direction far away from the liquid outlet so as to open the liquid outlet.

Through adopting above-mentioned technical scheme, open and close the stopper through pulling the pulling and slide towards the direction of keeping away from the liquid outlet, make and open and close the stopper and break away from the liquid outlet to realize opening of liquid outlet, salt solution helps making snow melt, does benefit to snow and drops from the shingle of liquid outlet flow direction both sides, and then makes the steel construction of shingle or building difficult by the bending.

Preferably, the elastic pushing member comprises a spring for pushing the opening and closing plug to slide towards the direction close to the liquid outlet, one end of the spring is arranged on the roof bar, and the other end of the spring is arranged on the opening and closing plug.

Through adopting above-mentioned technical scheme, promote through the spring and open and close the stopper and slide towards the direction that is close to the liquid outlet, make and open and close stopper shutoff liquid outlet, and then when not using, help making the salt solution in the stock solution cover be difficult for leaking.

Preferably, the roof plate is provided with a rotating shaft, the rotating shaft rotates on the roof bar, the pulling member comprises a pulling rope arranged on the opening and closing plug, one end of the pulling rope, far away from the opening and closing plug, slides through the roof bar and winds on the rotating shaft arranged on the same side, and when the roof plate rotates towards the direction close to the top seat, the rotating shaft winds the pulling rope.

Through adopting above-mentioned technical scheme, when the roof strip slided towards the direction of keeping away from the footstock, drive the shingle orientation and rotate near the direction of footstock for the pivot rotates the rolling stay cord, and the stay cord pulling is opened and close the direction slip of stopper orientation keeping away from the liquid outlet, realizes opening and close the stopper and opens the liquid outlet, is favorable to salt solution to flow to the shingle from the liquid outlet, accelerates melting of snow, helps making snow landing from the shingle, and then makes the steel construction of shingle and building difficult being buckled.

Preferably, the driving piece comprises a first threaded sleeve, a first screw rod and a motor arranged on the top seat, the first threaded sleeve is rotatably arranged on the top seat, the rotating axis of the first threaded sleeve is parallel to the sliding direction of the roof strip, the motor is used for driving the first threaded sleeve to rotate, the first screw rod is in threaded connection with one end, far away from the top seat, of the first threaded sleeve, and the end, far away from the first threaded sleeve, of the first screw rod is connected with the roof strip.

Through adopting above-mentioned technical scheme, starter motor, motor order about first screw sleeve and rotate, and first screw sleeve orders about first screw rod and slides towards the direction that is close to or keeps away from the footstock to make first screw rod drive the roof strip and slide, help adjusting the inclination of shingle as required, the snow landing of being convenient for makes the steel construction of shingle or building difficult by the buckling.

Preferably, the two sides of the top seat are slidably provided with mounting strips, the two mounting strips are symmetrically arranged along the length direction of the roof strip, the sliding direction of the mounting strips is perpendicular to the sliding axis of the roof plate, the mounting strips are positioned below the roof plate, the two sides of the mounting strips are rotatably provided with snow baffles, the two snow baffles are symmetrically arranged along the sliding direction of the mounting strips, the rotating axis of the snow baffles is parallel to the sliding direction of the mounting strips, the snow baffles are provided with first rotating rods, the first rotating rods rotate on the mounting strips, the first rotating rods are movably sleeved with first torsion springs for driving the snow baffles to rotate towards the direction close to the roof plate, one end of each first torsion spring is arranged on the mounting strip, the other end of each first torsion spring is arranged on the snow baffles, the roof plate is provided with limiting ropes, the limiting ropes correspond to the snow baffles one by one to one another, and the ends of the limiting ropes far away from the roof plate are arranged on the corresponding snow baffles, the length of the limiting rope is larger than the vertical distance from one side, far away from the roof strip, of the roof plate to the first rotating rod, the top seat is provided with an adjusting assembly, the adjusting assembly is used for adjusting the mounting strips on the two sides to move towards the direction close to or far away from each other to drive the snow baffle plate to slide into or slide out of the lower portion of the roof plate, and when no snow exists on the snow baffle plate, the plane where the snow baffle plate is located is parallel to the plane where the top seat is located.

By adopting the technical scheme, when the roof strip slides towards the direction far away from the top seat, the mounting strips on the two sides are driven by the adjusting assembly to drive the snow baffles to slide out of the lower part of the roof plate towards the direction far away from each other, when the accumulated snow on the roof plate falls, the snow baffles on the two sides of the mounting strips carry the accumulated snow, meanwhile, the snow baffles rotate towards the direction far away from the roof plate under the action of the gravity of the accumulated snow, the limiting ropes limit the rotation angle of the snow baffles to a certain degree, so that the snow baffles are not easy to rotate to a vertical state, and the buffering effect on the accumulated snow is ensured; snow cover has shortened the distance that snow cover dropped to ground along the snowboard landing for the personnel of business turn over from the shingle downside are difficult for pounding to the snow cover of landing from the shingle.

Preferably, the adjusting assembly comprises second threaded sleeves which are rotated on two sides of the top seat, a second screw rod which is in threaded connection with the second threaded sleeves, and a transmission part which is arranged on the first threaded sleeve, the two second threaded sleeves are positioned on two opposite sides of the first threaded sleeve, the rotating axis of the second threaded sleeve is parallel to the sliding direction of the mounting bar, the second screw is positioned on one side of the second threaded sleeve far away from the first threaded sleeve, the second screw rods correspond to the mounting bars one by one, the mounting bars are connected to the corresponding second screw rods, the transmission piece is used for driving the second threaded sleeves at two sides to rotate when the first threaded sleeve rotates, when the first threaded sleeve rotates to drive the first screw to slide towards the direction far away from the top seat, the second threaded sleeve drives the second screw to slide towards the direction far away from the first threaded sleeve.

Through adopting above-mentioned technical scheme, the second screw sleeve that drives both sides when making first screw sleeve rotate through the driving medium rotates, the second screw sleeve of both sides orders about corresponding second screw rod respectively and slides towards the direction that is close to or keeps away from first screw sleeve, help making the mounting bar of both sides drive and keep off the snowboard and slide in or roll-off shingle below, and then be convenient for keep off the snowboard when using and carry out certain buffering direction to snow, accomodate the snowboard when not using.

Preferably, the transmission part comprises a first bevel gear sleeved on the first threaded sleeve and second bevel gears respectively sleeved on the second threaded sleeves on the two sides, the first bevel gear is located between the second bevel gears on the two sides, and the first bevel gear is respectively meshed with the second bevel gears on the two sides.

Through adopting above-mentioned technical scheme, when first threaded sleeve rotated, drive the second bevel gear rotation of both sides through first bevel gear, second bevel gear drives the second threaded sleeve rotation that corresponds, and then the mounting bar that realizes both sides is close to or keeps away from each other to make the mounting bar drive the snowboard and slide in or roll-off shingle, the snowboard roll-off shingle helps buffering the snow that drops, with the possibility of reducing to injure the people by a crashing object.

Preferably, a snow passing channel is hinged to one side, away from the mounting bar, of the snow blocking plate, a second rotating rod is arranged on one side, close to the snow blocking plate, of the snow passing channel, the second rotating rod rotates on the corresponding snow blocking plate, the rotation axis of the snow passing channel is parallel to the rotation axis of the snow blocking plate, the depth direction of an opening of the snow passing channel is perpendicular to the rotation axis of the snow blocking plate, a second torsion spring used for driving the snow passing channel to rotate towards the direction close to the roof plate is movably sleeved on the second rotating rod, one end of the second torsion spring is arranged on the snow passing channel, the other end of the second torsion spring is arranged on the snow blocking plate, a connecting rope is arranged on one side, away from the roof plate, of the snow passing channel, one end, away from the snow passing channel, of the connecting rope is wound on the first rotating rod, and when the snow blocking plate rotates towards the direction away from the roof plate, the first rotating rod winds the connecting rope; when snow is not on the snow baffle, the plane of the snow passing channel is parallel to the plane of the snow baffle.

By adopting the technical scheme, when snow falls onto the snow baffle, the snow baffle is rotated towards the direction far away from the roof plate, the first rotating rod is rotated to wind the connecting rope, the connecting rope pulls the snow passing channel to rotate towards the side close to the snow baffle and far away from the roof plate, and the snow passing channel further buffers and guides the snow, so that the snow can be favorably reduced from rushing out along the snow baffle, and the possibility of accidentally injuring passersby is reduced; snow falls the back that finishes, and the direction that keeps off the snow board orientation and be close to the shingle rotates, makes first bull stick unreel connect the rope, under the effect of second torsional spring, crosses the snow passageway and rotates to and keep off the snow board parallel, and then is convenient for slide in between shingle and the footstock and accomodate.

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

the driving piece drives the roof strip to slide towards the direction far away from the top seat, so that the roof strip moves one side, close to each other, of the two side roof plates to move upwards, the included angle between the two side roof plates close to the top seat is reduced, namely the roof plates rotate for a certain angle towards the direction close to the top seat, the roof plates are inclined, accumulated snow on the roof plates can fall off along the inclined surfaces, and the roof plates or a steel structure of a building is not easily bent by the accumulated snow;

when the roof strip towards the direction of keeping away from the footstock slided, drive the shingle orientation and rotate near the direction of footstock for the pivot rotates the rolling stay cord, and the stay cord pulling is opened and close the direction that the liquid outlet was kept away from to the stopper and is slided, realizes opening and close the stopper and opens the liquid outlet, is favorable to salt solution to flow to the shingle from the liquid outlet, accelerates melting of snow, helps making snow landing from the shingle, and then makes the steel construction of shingle and building difficult being bent by pressure.

Drawings

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

Fig. 2 is a sectional view of the entire structure of the embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

FIG. 5 is a partial bottom view of the mounting bar and snow deflector in the embodiment of the present application.

Fig. 6 is an enlarged view of a portion C in fig. 5.

Description of reference numerals: 1. a top seat; 2. a roof strip; 3. a roof deck; 4. a connecting rod; 5. a drive member; 51. a first threaded sleeve; 52. a first screw; 53. a motor; 6. a liquid storage cover; 7. a liquid outlet; 8. an opening and closing assembly; 81. blocking is started; 82. an elastic pusher; 821. a spring; 83. a pulling member; 831. pulling a rope; 9. a rotating shaft; 10. mounting a bar; 11. a snow guard; 12. a first rotating lever; 13. a first torsion spring; 14. a tether is defined; 15. an adjustment assembly; 151. a second threaded sleeve; 152. a second screw; 153. a transmission member; 1531. a first bevel gear; 1532. a second bevel gear; 16. a snow passage; 17. a second rotating rod; 18. a second torsion spring; 19. connecting ropes; 20. a base; 21. erecting steel; 22. ridge tiles; 23. a pulley; 24. a transmission belt; 25. a thermal insulation board; 26. a fixing strip; 27. a slide bar; 28. a loop bar; 29. a brine tank; 30. a lift pump; 31. a transfusion tube; 32. a liquid inlet pipe; 33. a guide block; 34. a guide groove; 35. mounting blocks; 36. and a baffle plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses integrated assembled steel construction building. Referring to fig. 1 and 2, the integrated assembly type steel structure building includes a base 20, a top chassis 1, and a plurality of vertical steels 21 fixed between the base 20 and the top chassis 1, the top chassis 1 having a rectangular cross-section.

Referring to fig. 2 and 3, a roof strip 2 is slidably disposed on a top base 1, the length direction of the roof strip 2 is parallel to the length direction of the top base 1, the roof strip 2 is located on the center line of the top base 1, the sliding direction of the roof strip 2 is arranged along the vertical direction, roof plates 3 are rotatably disposed on two opposite sides of the bottom wall of the roof strip 2, the roof plates 3 on two sides are symmetrically disposed along the length direction of the roof strip 2, a rotating shaft 9 is fixed on the roof plates 3, the rotating shaft 9 is rotated on the roof strip 2, and the rotating axis of the roof plates 3 is parallel to the length direction of the roof strip 2.

Referring to fig. 1 and 3, a connecting rod 4 is hinged to a side of the roof plate 3 away from the roof strip 2, one end of the connecting rod 4 away from the roof plate 3 is hinged to a side of the top seat 1 close to the roof plate 3, two connecting rods 4 are arranged on each roof plate 3, the arrangement direction of the two connecting rods 4 on each roof plate 3 is parallel to the length direction of the roof strip 2, the hinge axis of the connecting rod 4 is parallel to the rotation axis of the roof plate 3, and a driving member 5 for driving the roof strip 2 to slide towards the direction close to or away from the top seat 1 is arranged on the top seat 1. The extensible ridge tiles 22 are fixed on two sides of the roof strip 2, and one side, far away from the roof strip 2, of the ridge tiles 22 is fixed on the corresponding roof plate 3, so that the waterproof effect of the roof is improved.

Referring to fig. 2 and 3, in order to facilitate the driving of the roof strip 2 to slide, the driving member 5 includes a first threaded sleeve 51, a first screw 52 and a motor 53 fixedly installed on the top base 1, the motor 53 is located on a side of the top base 1 away from the roof panel 3, the first threaded sleeve 51 is rotatably installed on the top base 1, in this embodiment, the number of the first threaded sleeves 51 is three, and the arrangement direction of the three first threaded sleeves 51 is parallel to the length direction of the roof strip 2, which helps to improve the supporting effect; the axis of rotation of first threaded sleeve 51 is on a parallel with the slip direction of roof bar 2, first threaded sleeve 51 that is located the centre rotates and wears to establish on footstock 1 and with the output shaft coaxial coupling of motor 53, first screw rod 52 and first threaded sleeve 51 one-to-one, the one end that footstock 1 was kept away from to first threaded sleeve 51 that first screw rod 52 threaded connection corresponds, the one end and roof bar 2 fixed connection of first threaded sleeve 51 are kept away from to first screw rod 52, the one end fixedly connected with band pulley 23 that footstock 1 was kept away from to three first threaded sleeve 51, three band pulley 23 passes through drive belt 24 transmission and connects. There is heated board 25 footstock 1 below fixed mounting, and heated board 25 and a plurality of upright steel 21 fixed connection, motor 53 are located heated board 25 top, help improving the indoor heat preservation effect of steel construction building.

When a large amount of accumulated snow is accumulated on the roof plates 3 in winter, the motor 53 is started, the motor 53 drives the first threaded sleeve 51 at the middle position to rotate, the three first threaded sleeves 51 are driven to rotate through the transmission of the belt wheel 23 and the transmission belt 24, the first threaded sleeve 51 drives the corresponding first screw 52 to slide towards the direction far away from the top seat 1, so that the roof strip 2 slides towards the direction far away from the top seat 1, the roof strip 2 drives the roof plates 3 at two sides to rotate towards the direction close to the top seat 1, so that the distance between the two sides of the roof plates 3 close to one side of the top seat 1 is reduced, the roof plates 3 become more inclined, the accumulated snow on the roof plates 3 is favorably dropped, and the roof plates 3 or the steel structure of a building is not easily bent.

Referring to fig. 2 and 3, a liquid storage cover 6 for containing brine is fixedly connected to the roof strip 2, the liquid storage cover 6 is arc-shaped, the liquid storage cover 6 protrudes outwards in a direction away from the roof strip 2, liquid outlets 7 are symmetrically formed in the liquid storage cover 6 along the length direction of the roof strip 2, in the embodiment, 6 liquid outlets 7 are formed, the 6 liquid outlets 7 are symmetrically arranged in pairs along the length direction of the roof strip 2, an opening and closing assembly 8 for opening and closing the liquid outlets 7 is arranged on the roof strip 2, and the opening and closing assembly 8 corresponds to the liquid outlets 7 one by one; roof strip 2 keeps away from one side fixedly connected with fixed strip 26 of footstock 1, fixed strip 26 is located the stock solution cover 6, fixed strip 26 is located the central line of roof strip 2, the length direction of fixed strip 26 is on a parallel with the length direction of roof strip 2, it includes opens and close subassembly 8 and opens and close the piece 81 including opening, set up the elastic push member 82 on roof strip 2 and set up the pulling piece 83 on shingle 3, it wears to establish in the corresponding liquid outlet 7 to open and close the piece 81 slip, it is used for opening and close the corresponding liquid outlet 7 to open and close the piece 81, it slides in the direction that is close to or keeps away from liquid outlet 7 to open and close the piece 81, elastic push member 82 is used for promoting to open and close the piece 7 of opening and close the direction slip of liquid outlet 7 of opening and close the piece 81, pulling piece 83 is used for pulling to open and close the direction slip in order to open liquid outlet 7 of keeping away from liquid outlet 7.

Referring to fig. 2 and 3, a sliding rod 27 is fixedly connected to one end of the opening and closing plug 81 far away from the liquid outlet 7, a sleeve 28 is slidably sleeved on one end of the sliding rod 27 far away from the opening and closing plug 81, the sliding direction of the sliding rod 27 is parallel to the sliding direction of the opening and closing plug 81, the elastic pushing member 82 comprises a spring 821 used for pushing the opening and closing plug 81 to slide towards the direction close to the liquid outlet 7, the spring 821 is located in the sleeve 28, one end of the spring 821 is fixedly connected to the fixing strip 26, the other end of the spring 821 is fixedly connected to one end of the sliding rod 27 far away from the opening and closing plug 81, and the sleeve 28 and the sliding rod 27 are arranged to help guide the pushing of the spring 821.

Referring to fig. 2 and 3, the pulling member 83 includes a pulling rope 831 fixed to an end of the sliding rod 27 far from the starter block 81, the pulling rope 831 is located in the spring 821, an end of the pulling rope 831 far from the sliding rod 27 slides through the loop bar 28 and the roof strip 2 and is wound on the rotating shaft 9 arranged on the same side, and when the roof slab 3 rotates toward the direction approaching the top base 1, the rotating shaft 9 winds the pulling rope 831. The roof strip 2 is provided with a rubber pad (not shown) adhered to the pull rope 831 in a penetrating manner, so that the sealing performance is improved, and the salt water seepage is reduced. In other embodiments, opening and close subassembly 8 and can replace for sliding the shutoff board that sets up in stock solution cover 6 and set up the electric putter outside stock solution cover 6, the shutoff board is used for opening and close liquid outlet 7, shutoff board and electric putter's piston rod are fixed, promote the direction that the shutoff board orientation is close to or keeps away from the liquid outlet through electric putter and slide, also can realize opening and close of liquid outlet 7 equally.

When the first screw 52 pushes the roof strip 2 to slide towards the direction far away from the top seat 1, the roof strip 2 drives the roof plates 3 on the two sides to rotate towards the direction close to the top seat 1, the rotating shaft 9 winds the pulling rope 831 at the moment, the pulling rope 831 pulls the sliding rod 27 and the opening and closing plug 81 to slide towards the direction far away from the liquid outlet 7, the spring 821 is compressed, the liquid outlet 7 is opened, the saline water in the liquid storage cover 6 flows towards the roof plates 3 through the liquid outlet 7, the melting of the snow is accelerated, meanwhile, the snow can be more easily dropped from the roof plates 3, and the possibility that the roof plates 3 or the steel structure of a building is bent is reduced. After the accumulated snow on the roof plate 3 falls, the starting motor 53 enables the roof bar 2 to slide towards the direction close to the top seat 1, the roof bar 2 drives the roof plate 3 to rotate towards the direction far away from the top seat 1, the rotating shaft 9 unreels the pulling rope 831 at the moment, the spring 821 pushes the sliding rod 27 and the opening and closing plug 81 to slide towards the direction close to the liquid outlet 7, and the opening and closing plug 81 is enabled to block the liquid outlet 7 so as to reduce the leakage of the residual brine.

Referring to fig. 1, a brine tank 29 is fixedly installed on the base 20, a lift pump 30 is fixedly installed on the brine tank 29, an outlet of the lift pump 30 is communicated with a liquid conveying pipe 31, one end of the liquid conveying pipe 31, which is far away from the brine tank 29, is communicated with the liquid storage cover 6, brine is added into the liquid storage cover 6 to ensure that brine continuously flows out of the roof plate 3, and a liquid inlet pipe 32 with an end cover is communicated with the brine tank 29.

Referring to fig. 2 and 4, the two sides of the top seat 1 are provided with mounting bars 10 in a sliding manner, the two mounting bars 10 are symmetrically arranged along the length direction of the roof bar 2 (refer to fig. 3), the length direction of the mounting bars 10 is perpendicular to the rotation axis of the roof plate 3, the sliding direction of the mounting bars 10 is perpendicular to the rotation axis of the roof plate 3, the first threaded sleeve 51 is positioned between the mounting bars 10 at the two sides, the mounting bars 10 are positioned below the roof plate 3, the bottom wall of the mounting bars 10 at the side close to the first threaded sleeve 51 is fixedly connected with a guide block 33, the cross section of the guide block 33 is in a T shape, the top seat 1 is provided with a guide groove 34 in sliding fit with the guide block 33, and the sliding fit of the guide block 33 and the guide groove 34 guides the sliding of the mounting bars 10; snow baffles 11 are rotatably arranged on two opposite sides of the mounting bar 10, the snow baffles 11 on the two sides are symmetrically arranged along the length direction of the mounting bar 10, the rotation axis of the snow baffles 11 is parallel to the sliding direction of the mounting bar 10, a first rotating rod 12 is fixedly connected to the snow baffles 11, the first rotating rod 12 is rotatably arranged on the mounting bar 10, a first torsion spring 13 is movably sleeved on the first rotating rod 12, one end of the first torsion spring 13 is fixed on the mounting bar 10, the other end of the first torsion spring is fixed on the snow baffles 11, and the snow baffles 11 on the two sides of the mounting bar 10 are positioned between the two connecting rods 4 of the roof plate 3 on the same side; the footstock 1 is provided with an adjusting component 15 which is used for adjusting the mounting strip 10 to move towards the direction close to or away from each other to drive the snow baffle plate 11 to slide in or out of the lower part of the roof plate 3, and when no snow exists on the snow baffle plate 11, the plane of the snow baffle plate 11 is parallel to the plane of the footstock 1.

Referring to fig. 2, in order to facilitate the snow guard 11 to slide into or out of the lower portion of the roof deck 3, the mounting blocks 35 are fixed on two sides of the first threaded sleeve 51, the adjusting assembly 15 includes second threaded sleeves 151 rotatably disposed on the mounting blocks 35 on two sides, respectively, a second screw 152 threadedly coupled in the second threaded sleeves 151, and a transmission member 153 disposed on the first threaded sleeves 51, the two second threaded sleeves 151 are disposed on two opposite sides of the first threaded sleeve 51 at a middle position, a rotation axis of the second threaded sleeves 151 is parallel to a sliding direction of the mounting bar 10, the second screw 152 is disposed on a side of the second threaded sleeves 151 away from the first threaded sleeve 51, the second screws 152 and the mounting bar 10 are in one-to-one correspondence, the mounting bar 10 is fixedly coupled to a corresponding end of the second screw 152 away from the second threaded sleeve 151, and the transmission member 153 is used for driving the second threaded sleeves 151 on two sides to rotate when the first threaded sleeves 51 rotate, the transmission member 153 includes a first bevel gear 1531 fixedly fitted on the first threaded sleeve 51 at the middle position and second bevel gears 1532 respectively fitted on the two second threaded sleeves 151, the first bevel gear 1531 is located between the second bevel gears 1532 at the two sides, and the first bevel gear 1531 is engaged with the second bevel gears 1532 at the two sides. When the first threaded sleeve 51 drives the first screw 52 to slide away from the top seat 1, the second threaded sleeve 151 drives the second screw 152 to slide away from the first threaded sleeve 51.

Referring to fig. 2 and 4, a limiting rope 14 is fixedly connected to the roof plate 3, the limiting rope 14 and the snow guard 11 are in one-to-one correspondence, one end of the limiting rope 14, which is far away from the roof plate 3, is fixed to the corresponding snow guard 11, and the length of the limiting rope 14 is greater than the vertical distance from one side, which is far away from the roof strip 2, of the roof plate 3 to the first rotating rod 12.

When the first threaded sleeve 51 rotates to drive the first screw 52 to slide towards the direction far away from the top seat 1, the first bevel gear 1531 drives the second bevel gears 1532 at both sides to rotate, so that the second threaded sleeve 151 rotates to drive the corresponding second screw 152 to drive the mounting bar 10 to slide towards the direction far away from the first threaded sleeve 51 until the snow guard 11 slides out of the lower side of the roof plate 3, so that one side of the roof plate 3 far away from the roof bar 2 is flush with one side of the snow guard 11 close to the first threaded sleeve 51, at the moment, the snow guard 11 is positioned below the roof plate 3, snow on the roof plate 3 falls onto the snow guard 11 when sliding, the snow guard 11 is driven to rotate towards the direction far away from the roof plate 3 under the gravity action of the snow, thereby being beneficial to divide the snow to both sides, buffering and guiding the sliding of the snow, and after the snow guard 11 rotates to a certain angle, the limiting rope 14 pulls the snow guard 11 to make it not easy to excessively rotate, so that the accumulated snow falling from the roof plate 3 is not easy to hurt the people in and out; after snow fall finishes, first torsional spring 13 drives snow fender 11 and rotates towards the direction that is close to roof board 3, makes snow fender 11 and footstock 1's place plane parallel, helps accomodating between roof board 3 and the footstock 1 with snow fender 11 slips into.

Referring to fig. 2 and 6, a snow passing channel 16 is hinged to one side of the snow guard 11 far away from the mounting bar 10, the snow passing channel 16 is located between two connecting rods 4 (refer to fig. 1) of the same side of the roof plate 3, the snow passing channel 16 is a rectangular channel, a second rotating rod 17 is fixedly connected to one side of the snow passing channel 16 close to the snow guard 11, the second rotating rod 17 rotates on the corresponding snow guard 11, the rotation axis of the snow passing channel 16 is parallel to the hinge axis of the snow guard 11, the depth direction of the opening of the snow passing channel 16 is perpendicular to the rotation axis of the snow guard 11, a second torsion spring 18 for driving the snow passing channel 16 to rotate towards the direction close to the roof plate 3 is movably sleeved on the second rotating rod 17, one end of the second torsion spring 18 is fixedly connected to the snow passing channel 16, the other end is fixedly connected to the snow guard 11, a baffle 36 is fixedly connected to one side of the snow passing channel 16 close to the snow guard 11, the baffle 36 is located the one side that crosses snow passageway 16 and be close to roof board 3, and baffle 36 extends towards the direction that is close to mounting bar 10, and baffle 36 helps blockking the snow on the snowboard 11, reduces the impact force for it is difficult for pounding the passerby.

Referring to fig. 2 and 5, a connecting rope 19 is fixedly connected to one side of the snow passage 16 far away from the roof plate 3, one end of the connecting rope 19 far away from the snow passage 16 is wound on the first rotating rod 12, and when the snow guard 11 rotates towards the direction far away from the roof plate 3, the first rotating rod 12 winds the connecting rope 19; when snow is not on the snow guard 11, the plane of the snow passing channel 16, the plane of the snow guard 11 and the plane of the footstock 1 are parallel, and when the limiting ropes 14 are kept tensioned, the opening depth of the snow passing channel 16 is in the vertical direction, so that the snow falls vertically, and the possibility of injuring people is reduced.

When snow on the shingle 3 drops to the snow board 11, make the snow board 11 towards the direction rotation of keeping away from the shingle 3 under the action of gravity of snow, rope 19 is connected in the rolling of first bull stick 12 this moment, make connecting rope 19 pull snow passageway 16 and rotate towards the direction of keeping away from the shingle 3, and then make the contained angle that has crossed snow passageway 16 and snow board 11 and keep away from shingle 3 one side reduce, snow on the snow board 11 passes through then drops to ground from crossing snow passageway 16, baffle 36 blocks the snow on the snow board 11, it helps carrying out further buffering and direction to snow to cross snow passageway 16, make the vertical ground that falls of snow, it is far away to reduce snow and rush out from snow board 11.

The implementation principle of the embodiment of the application is as follows: when a large amount of accumulated snow is accumulated on the roof plate 3 in winter, the lift pump 30 is started to convey the saline water in the saline water tank 29 into the liquid storage cover 6 so as to reduce icing; then starting the motor 53, the motor 53 drives the first threaded sleeve 51 at the middle position to rotate, the three first threaded sleeves 51 are rotated through the belt pulley 23 and the transmission belt 24, and simultaneously the first bevel gear 1531 on the first threaded sleeves 51 drives the second bevel gears 1532 at the two sides to rotate; first threaded sleeve 51 orders about first screw rod 52 and drives roof strip 2 towards the direction slip of keeping away from footstock 1, roof strip 2 drives the roof slab 3 orientation of both sides and rotates near the direction of footstock 1, thereby make the contained angle that both sides roof slab 3 is close to footstock 1 one side reduce, roof slab 3 becomes more slope, help making the snow on the roof slab 3 drop, when the roof slab 3 orientation of both sides is close to the direction rotation of footstock 1 simultaneously, pivot 9 rolling stay cord 831, make it breaks away from liquid outlet 7 to open blocky 81, salt water in the liquid storage cover 6 flows to roof slab 3 through liquid outlet 7, help accelerating the melting of snow, make the snow on the roof slab 3 drop more easily, and then make the steel construction of roof slab 3 or building difficult by the crumple.

When the second bevel gear 1532 rotates, the second threaded sleeve 151 is driven to rotate, and the second threaded sleeve 151 drives the second screw 152 to drive the mounting bar 10 to slide in a direction away from the first threaded sleeve 51 until the snow guard 11 on the mounting bar 10 slides out of the roof plate 3; when the accumulated snow on the roof plate 3 falls along the inclined surface, the snow blocking plate 11 carries the accumulated snow, so that people are not easy to hurt; under the action of gravity of snow, snow board 11 rotates towards the direction of keeping away from shingle 3, and the angle of rotation of snow board 11 is injectd to injecing rope 14, and first bull stick 12 rolling connection rope 19 this moment, connects rope 19 and pulls snow passageway 16 and rotate towards the direction of keeping away from shingle 3, and snow drops to the ground from snow passageway 16 under the blockking of baffle 36, and snow passageway 16 is crossed and the slip of snow is further cushioned and the direction, reduces the possibility of injure personnel.

After the accumulated snow on the roof plate 3 completely falls, the first torsion spring 13 drives the snow baffle plate 11 to rotate towards the direction close to the roof plate 3 until the snow is positioned on the horizontal plane, at the moment, the first rotating rod 12 unreels the connecting rope 19, and the second torsion spring 18 drives the snow passage 16 to rotate towards the direction close to the roof plate 3 until the snow passage is parallel to the snow baffle plate 11; then, the motor 53 is started to drive the three first threaded sleeves 51 to rotate, so that the first screw 52 drives the roof strip 2 to slide to a required position in a direction close to the footstock 1, the roof strip 2 drives the roof plates 3 on two sides to rotate in a direction away from the footstock 1, the rotating shaft 9 unreels the pull rope 831, and the spring 821 pushes the opening plug 81 to plug the liquid outlet 7; meanwhile, when the first threaded sleeve 51 rotates, the first bevel gear 1531 drives the second bevel gear 1532 to rotate, so that the second threaded sleeve 151 drives the second screw 152 to drive the mounting bar 10 to slide toward the direction close to the first threaded sleeve 51, and the snow guard 11 on the mounting bar 10 slides into the space between the roof plate 3 and the top seat 1 to be stored, so as to be used next time.

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. An integrated assembled steel structure building, includes footstock (1), its characterized in that: the roof structure is characterized in that roof strips (2) are arranged on the top seat (1) in a sliding mode, the sliding direction of the roof strips (2) is arranged in the vertical direction, roof plates (3) are arranged on two opposite sides of the roof strips (2) in a rotating mode, the two roof plates (3) are symmetrically arranged in the length direction of the roof strips (2), the rotating axis of each roof plate (3) is parallel to the length direction of the roof strip (2), a connecting rod (4) is hinged to one side, away from the roof strips (2), of each roof plate (3), one end, away from the roof plates (3), of each connecting rod (4) is hinged to the top seat (1), the hinging axis of each connecting rod (4) is parallel to the rotating axis of each roof plate (3), and a driving piece (5) used for driving the roof strips (2) to slide towards the direction close to or away from the top seat (1) is arranged on the top seat (1).

2. An integrally assembled steel structure building according to claim 1, wherein: roof strip (2) upper shield is equipped with stock solution cover (6) that are used for splendid attire salt solution, liquid outlet (7) have been seted up respectively to stock solution cover (6) relative both sides, and the length direction symmetry setting of roof strip (2) is followed in both sides liquid outlet (7), be provided with on roof strip (2) and be used for opening and close subassembly (8) of opening and close liquid outlet (7), open and close subassembly (8) and liquid outlet (7) one-to-one.

3. An integrally assembled steel structural building according to claim 2, wherein: the opening and closing assembly (8) comprises a starting block (81), an elastic pushing piece (82) arranged on the roof strip (2) and a pulling piece (83) arranged on the roof plate (3), the starting block (81) penetrates through the corresponding liquid outlet (7) in a sliding mode, the starting block (81) is used for opening or blocking the corresponding liquid outlet (7), the starting block (81) slides towards the direction close to or far away from the corresponding liquid outlet (7), the elastic pushing piece (82) is used for pushing the starting block (81) to slide towards the direction close to the liquid outlet (7) to block the liquid outlet (7), and the pulling piece (83) is used for pulling the starting block (81) to slide towards the direction far away from the liquid outlet (7) to open the liquid outlet (7).

4. An integrally assembled steel structural building according to claim 3, wherein: the elastic pushing piece (82) comprises a spring (821) for pushing the opening block (81) to slide towards the direction close to the liquid outlet (7), one end of the spring (821) is arranged on the roof strip (2), and the other end of the spring is arranged on the opening block (81).

5. An integrally assembled steel structural building according to claim 3, wherein: the roof plate (3) is provided with a rotating shaft (9), the rotating shaft (9) rotates on the roof strips (2), the pulling piece (83) comprises a pulling rope (831) arranged on the opening block (81), one end, far away from the opening block (81), of the pulling rope (831) slides through the roof strips (2) and winds around the rotating shaft (9) arranged on the same side, and when the roof plate (3) rotates towards the direction close to the top seat (1), the rotating shaft (9) winds the pulling rope (831).

6. An integrally assembled steel structural building according to any one of claims 1 to 5, wherein: the driving piece (5) comprises a first threaded sleeve (51), a first screw rod (52) and a motor (53) arranged on the top seat (1), the first threaded sleeve (51) is rotatably arranged on the top seat (1), the rotating axis of the first threaded sleeve (51) is parallel to the sliding direction of the roof strip (2), the motor (53) is used for driving the first threaded sleeve (51) to rotate, the first screw rod (52) is in threaded connection with one end, away from the top seat (1), of the first threaded sleeve (51), and one end, away from the first threaded sleeve (51), of the first screw rod (52) is connected with the roof strip (2).

7. An integrally assembled steel structural building according to claim 6, wherein: the snow guard is characterized in that mounting strips (10) are arranged on two sides of the top seat (1) in a sliding mode, the two mounting strips (10) are symmetrically arranged along the length direction of the roof strip (2), the sliding direction of the mounting strips (10) is perpendicular to the rotating axis of the roof plate (3), the mounting strips (10) are located below the roof plate (3), snow guards (11) are arranged on two sides of the mounting strips (10) in a rotating mode, the two snow guards (11) are symmetrically arranged along the sliding direction of the mounting strips (10), the rotating axis of the snow guards (11) is parallel to the sliding direction of the mounting strips (10), first rotating rods (12) are arranged on the snow guards (11), the first rotating rods (12) rotate on the mounting strips (10), first torsion springs (13) used for driving the snow guards (11) to rotate towards the direction close to the roof plate (3) are movably sleeved on the first rotating rods (12), one end of the first torsion spring (13) is arranged on the mounting strip (10), the other end is arranged on the snow baffle plate (11), limiting ropes (14) are arranged on the roof plates (3), the limiting ropes (14) are in one-to-one correspondence with the snow baffles (11), the end of the limiting rope (14) far away from the roof plate (3) is arranged on the corresponding snow guard (11), the length of the limiting rope (14) is larger than the vertical distance from one side of the roof plate (3) far away from the roof strip (2) to the first rotating rod (12), the top seat (1) is provided with an adjusting component (15), the adjusting component (15) is used for adjusting the mounting strips (10) at two sides to move towards the direction close to or away from each other to drive the snow baffle plate (11) to slide in or out of the lower part of the roof plate (3), when snow does not exist on the snow baffle plate (11), the plane of the snow baffle plate (11) is parallel to the plane of the top seat (1).

8. An integrally assembled steel structure building according to claim 7, wherein: the adjusting assembly (15) comprises second threaded sleeves (151) which are arranged on two sides of the top base (1) in a rotating mode, second screw rods (152) which are connected to the second threaded sleeves (151) in a threaded mode and transmission pieces (153) which are arranged on the first threaded sleeves (51) in a threaded mode, the second threaded sleeves (151) are arranged on two opposite sides of the first threaded sleeves (51), the rotating axes of the second threaded sleeves (151) are parallel to the sliding direction of the mounting bar (10), the second screw rods (152) are arranged on one sides, far away from the first threaded sleeves (51), of the second threaded sleeves (152) and the mounting bar (10) in a one-to-one mode, the mounting bar (10) is connected to the corresponding second screw rods (152), the transmission pieces (153) are used for enabling the first threaded sleeves (51) to rotate to drive the second threaded sleeves (151) on two sides to rotate, and when the first threaded sleeves (51) rotate to drive the first screw rods (52) to move away from the top base (1) in a rotating mode When the direction slides, the second threaded sleeve (151) drives the second screw rod (152) to slide towards the direction far away from the first threaded sleeve (51).

9. An integrally assembled steel structural building according to claim 8, wherein: the transmission piece (153) comprises a first bevel gear (1531) sleeved on the first threaded sleeve (51) and second bevel gears (1532) respectively sleeved on the second threaded sleeves (151) on the two sides, the first bevel gear (1531) is located between the second bevel gears (1532) on the two sides, and the first bevel gear (1531) is meshed with the second bevel gears (1532) on the two sides respectively.

10. An integrally assembled steel structure building according to claim 7, wherein: a snow passing channel (16) is hinged to one side, far away from the mounting strip (10), of the snow baffle (11), a second rotating rod (17) is arranged on one side, close to the snow baffle (11), of the snow passing channel (16), the second rotating rod (17) rotates on the corresponding snow baffle (11), the rotating axis of the snow passing channel (16) is parallel to the rotating axis of the snow baffle (11), the opening depth direction of the snow passing channel (16) is perpendicular to the rotating axis of the snow baffle (11), a second torsion spring (18) used for driving the snow passing channel (16) to rotate towards the direction close to the roof plate (3) is movably sleeved on the second rotating rod (17), one end of the second torsion spring (18) is arranged on the snow passing channel (16), the other end of the second torsion spring is arranged on the snow baffle (11), and a connecting rope (19) is arranged on one side, far away from the roof plate (3), of the snow passing channel (16), one end of the connecting rope (19) far away from the snow passage (16) is wound on the first rotating rod (12), and when the snow baffle plate (11) rotates towards the direction far away from the roof plate (3), the first rotating rod (12) winds the connecting rope (19); when snow is not on the snow-blocking plate (11), the plane of the snow-passing channel (16) is parallel to the plane of the snow-blocking plate (11).