CN115126141B

CN115126141B - Integrated assembly type steel structure building

Info

Publication number: CN115126141B
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: 2023-10-27
Anticipated expiration: 2042-08-08
Also published as: CN115126141A

Abstract

The application relates to an integrated assembly type steel structure building, which belongs to the technical field of steel structure buildings and comprises a footstock, wherein roof strips are arranged on the footstock in a sliding manner, the sliding direction of the roof strips is along the vertical direction, roof plates are rotatably arranged on two opposite sides of the roof strips, the two roof plates are symmetrically arranged along the length direction of the roof strips, the rotation axis of the roof plates is parallel to the length direction of the roof strips, a connecting rod is hinged to one side, far away from the roof strips, of the roof plates, one end, far away from the roof plates, of the connecting rod is hinged to the footstock, the hinge axis of the connecting rod is parallel to the rotation axis of the roof plates, and a driving piece for driving the roof strips to slide towards the direction close to or far away from the footstock is arranged on the footstock. The application has the effect of reducing snow on the roof plate and ensuring that the roof plate or the steel structure of the building is not easy to be bent by the snow.

Description

Integrated assembly type steel structure 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

Integrated building construction refers to the assembly and integration of building components into a desired building system. Steel structure buildings are buildings with bearing structures formed by building steels, and the bearing structures are generally formed by members such as beams, columns, trusses and the like made of section steel and steel plates; the building is assembled with building enclosures such as roofs, floors, walls and the like on site.

Generally, an integrated assembly type steel structure building mainly comprises a base and a top seat, 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 winter heavy snow, snow is accumulated on the roof plate for a long time, and the roof plate or a steel structure of a building is easy to bend.

Disclosure of Invention

In order to reduce snow on the roof plate, the steel structure of the roof plate or the building is not easy to be bent by the snow to a certain extent, and the application provides an integrated assembly type steel structure building.

The application provides an integrated assembly type steel structure building which adopts the following technical scheme:

the utility model provides an integrated assembled steel construction building, includes the footstock, the slip is provided with roof strip on the footstock, the slip direction of roof strip sets up along vertical direction, the relative both sides rotation of roof strip is provided with the roof board, two the roof board sets up along the length direction symmetry of roof strip, the axis of rotation of roof board is on a parallel with the length direction of roof strip, one side that roof board kept away from the roof strip articulates there is the connecting rod, the one end that roof board was kept away from to the connecting rod articulates on the footstock, the axis of articulation of connecting rod is on a parallel with the axis of rotation of roof board, be provided with on the footstock and be used for driving roof strip orientation to be close to or keep away from the gliding driving piece of direction of footstock.

Through adopting above-mentioned technical scheme, drive roof strip through the driving piece and slide towards the direction of keeping away from the footstock, make roof strip move the one side that both sides roof board is close to each other and move upwards to make the contained angle between the roof board of both sides be close to footstock one side reduce, roof board orientation is close to the direction rotation certain angle of footstock promptly, make the roof board slope more, thereby help the snow on the roof board to drop along the inclined plane, make the steel construction of roof board or building be difficult for being pressed by the snow and bend.

Preferably, the roof strip upper cover is equipped with the liquid storage cover that is used for splendid attire brine, the liquid outlet has been seted up respectively to the both sides that the liquid storage cover is relative, and the both sides liquid outlet sets up along the length direction symmetry of roof strip, be provided with on the roof strip and be used for opening and close the subassembly of opening and close of liquid outlet, the subassembly of opening and close 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 liquid reserve cover follow liquid outlet flow direction roof board, salt solution helps accelerating snow and melts, and the snow of being convenient for slides from roof board, and then makes the steel construction of roof board or building be difficult for by snow bending.

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

Through adopting above-mentioned technical scheme, open the direction that the stopper was kept away from the liquid outlet through pulling piece pulling and open and close the stopper and slide towards, make to open and close the stopper and break away from the liquid outlet to realize opening of liquid outlet, salt water is from the roof board of liquid outlet flow direction both sides, helps making the snow melt, does benefit to the snow to drop from the roof board, and then makes the roof board or the steel construction of building be difficult for being bent by the pressure.

Preferably, the elastic pushing piece 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 strip, and the other end of the spring is arranged on the opening and closing plug.

Through adopting above-mentioned technical scheme, the direction that the stopper was close to the liquid outlet is slided through the spring promotion, makes to open and close stopper shutoff liquid outlet, and then when not using, helps making the difficult leakage of salt water in the reservoir cover.

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

Through adopting above-mentioned technical scheme, when roof strip slides towards the direction of keeping away from the footstock, drive roof board orientation and be close to the direction rotation of footstock for the pivot rotates the rolling stay cord, and the stay cord pulling is opened and is blocked the orientation and is kept away from the direction slip of liquid outlet, realizes opening and close the stopper and opens the liquid outlet, is favorable to salt water from liquid outlet flow direction roof board for the melting of snow, helps making the snow slide from roof board, and then makes the steel construction of roof board and building be difficult for being bent by the pressure.

Preferably, the driving piece comprises a first threaded sleeve, a first screw rod and a motor arranged on the footstock, the first threaded sleeve is rotationally arranged on the footstock, the rotation 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 footstock, of the first threaded sleeve, and one 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, the motor is started, and the motor drives first screw sleeve and rotates, and first screw rod is driven to first screw rod to slide towards the direction that is close to or keeps away from the footstock to make first screw rod drive roof strip slip, help adjusting the inclination of roof board as required, the snow landing of being convenient for makes the steel construction of roof board or building be difficult for being bent by the pressure.

Preferably, the both sides of footstock are provided with the installation strip in a sliding way, two the installation strip sets up along the length direction symmetry of roof strip, the direction of sliding of installation strip is perpendicular to the axis of rotation of roof plate, the installation strip is located the roof plate below, the both sides rotation of installation strip is provided with the snow blocking plate, two the snow blocking plate sets up along the direction of sliding symmetry of installation strip, the axis of rotation of snow blocking plate is on a parallel with the direction of sliding of installation strip, be provided with first bull stick on the snow blocking plate, first bull stick rotates on the installation strip, movable sleeve is equipped with and is used for driving the snow blocking plate and is close to the first torsional spring of direction pivoted of roof plate, the one end setting of first torsional spring is on the installation strip, and the other end setting is on the snow blocking plate, be provided with the limit rope on the roof plate, limit rope and the one end setting that the roof plate kept away from the roof plate, the length of limit rope is greater than the vertical distance that the roof kept away from the roof strip to first bull stick, be provided with on the roof plate, when the end setting up the adjustment assembly is close to the roof plate or the roof plate is gone into the plane when the snowboard is gone into to the roof plate, the adjustment assembly is used for driving the roof plate or is gone into to the plane in parallel with each other.

Through adopting above-mentioned technical scheme, when roof strip slides towards the direction of keeping away from the footstock, drive the installation strip on both sides through adjusting component and drive the snow baffle to slide out the roof board below towards the direction of keeping away from each other, when the snow on the roof board drops, the snow baffle of installation strip both sides accepts the snow, and the snow baffle rotates towards the direction of keeping away from the roof board under the gravity effect of snow simultaneously, and the restriction rope is to the rotation angle of snow baffle carries out certain restriction for the snow baffle is difficult for rotating to the vertical state, ensures the cushioning effect to the snow; the snow slides along the snow baffle, so that the distance that the snow falls to the ground is shortened, and people entering and exiting from the lower side of the roof plate are not easy to be hit by the snow sliding from the roof plate.

Preferably, the adjusting component comprises a second threaded sleeve rotating at two sides of the top seat, a second screw rod in the second threaded sleeve in threaded connection and a transmission piece arranged on the first threaded sleeve, the two second threaded sleeves are positioned at two opposite sides of the first threaded sleeve, the rotation axis of the second threaded sleeve is parallel to the sliding direction of the mounting strip, the second screw rod is positioned at one side of the second threaded sleeve away from the first threaded sleeve, the second screw rods are in one-to-one correspondence with the mounting strip, the mounting strip is connected to the corresponding second screw rod, the transmission piece is used for enabling the first threaded sleeve to rotate to drive the second threaded sleeve at two sides, and when the first threaded sleeve rotates to drive the first screw rod to slide towards the direction away from the top seat, the second threaded sleeve drives the second screw rod to slide towards the direction away from the first threaded sleeve.

Through adopting above-mentioned technical scheme, drive the second screw sleeve rotation of both sides when making first screw sleeve rotate through the driving medium, the second screw sleeve of both sides orders about the second screw rod that corresponds respectively towards being close to or keeping away from first screw sleeve's direction slip, help making the installing strip of both sides drive the snow baffle and slide into or slide out roof board below, and then be convenient for keep off the snow board and carry out certain buffering direction to the snow when using, accomodate the snow baffle when not using.

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

Through adopting above-mentioned technical scheme, when first screw sleeve rotates, drive the second bevel gear of both sides through first bevel gear and rotate, the second bevel gear drives the second screw sleeve that corresponds and rotates, and then realizes that the installation strip of both sides is close to each other or keeps away from to make the installation strip move snow baffle roll-in or roll-off roof board, snow baffle roll-off roof board helps buffering the snow that drops, in order to reduce the possibility of injuring the people by a smash.

Preferably, one side of the snow guard, which is far away from the mounting strip, is hinged with a snow passing channel, one side of the snow passing channel, which is close to the snow guard, is provided with a second rotating rod, the second rotating rod rotates on the corresponding snow guard, the rotation axis of the snow passing channel is parallel to the rotation axis of the snow guard, the depth direction of the opening of the snow passing channel is perpendicular to the rotation axis of the snow guard, a second torsion spring 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 guard, one side of the snow passing channel, which is far away from the roof plate, is provided with a connecting rope, one end of the connecting rope, which is far away from the snow passing channel, is wound on the first rotating rod, and the connecting rope is wound on the first rotating rod when the snow guard rotates towards the direction far away from the roof plate; when no snow exists on the snow guard, the plane of the snow passing channel is parallel to the plane of the snow guard.

Through adopting above-mentioned technical scheme, when snow drops to the snow guard, make the snow guard rotate towards the direction of keeping away from the roof board, first dwang rotates the rolling connecting rope this moment, and the connecting rope pulls and crosses the snow passageway and rotate towards the one side of keeping away from the roof board that is close to the snow guard, crosses the snow passageway and further carries out buffering direction to the snow, helps reducing snow and dashes out along the snow guard, reduces the possibility of accidentally injuring passersby; after the snow falls, the snow baffle rotates towards the direction close to the roof plate, so that the first rotating rod unwinds the connecting rope, and under the action of the second torsion spring, the snow passing channel rotates to be parallel to the snow baffle, and further the snow passing channel is convenient to slide into between the roof plate and the top seat for storage.

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 away from the top seat, so that the roof strip moves one sides of the roof plates at two sides, which are close to each other, upwards move, and the included angle between one sides of the roof plates at two sides, which are close to the top seat, is reduced, namely the roof plates rotate for a certain angle towards the direction close to the top seat, so that the roof plates are inclined more, snow on the roof plates is facilitated to fall along the inclined surface, and the roof plates or a steel structure of a building is not easy to be bent by the snow;

when the roof strip slides towards the direction of keeping away from the footstock, the roof plate is driven to rotate towards the direction of being close to the footstock for the pivot rotates the rolling stay cord, and the stay cord pulls to open and close the stopper and slides towards the direction of keeping away from the liquid outlet, realizes opening and closing the stopper and opens the liquid outlet, is favorable to salt water to flow into the roof plate from the liquid outlet, accelerates the melting of snow, helps making the snow slide from the roof plate, and then makes the steel construction of roof plate and building be difficult for being bent by the pressure.

Drawings

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

Fig. 2 is a cross-sectional view of the overall structure of an 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 structural bottom view of the mounting bar and snow guard in an embodiment of the present application.

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

Reference numerals illustrate: 1. a top base; 2. roof strips; 3. roof panels; 4. a connecting rod; 5. a driving 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. opening the closure; 82. an elastic pushing member; 821. a spring; 83. a pulling member; 831. a pull rope; 9. a rotating shaft; 10. a mounting bar; 11. snow guard; 12. a first rotating lever; 13. a first torsion spring; 14. defining a rope; 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 passing channel; 17. a second rotating rod; 18. a second torsion spring; 19. a connecting rope; 20. a base; 21. standing steel; 22. ridge tile; 23. a belt wheel; 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. an infusion tube; 32. a liquid inlet pipe; 33. a guide block; 34. a guide groove; 35. a mounting block; 36. and a baffle.

Detailed Description

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

The embodiment of the application discloses an integrated assembly type steel structure building. Referring to fig. 1 and 2, the integrated fabricated 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 bar 2 is slidably disposed on a roof base 1, the length direction of the roof bar 2 is parallel to the length direction of the roof base 1, the roof bar 2 is located on the center line of the roof base 1, the sliding direction of the roof bar 2 is set along the vertical direction, roof plates 3 are rotatably disposed on two opposite sides of the bottom wall of the roof bar 2, the roof plates 3 on two sides are symmetrically disposed along the length direction of the roof bar 2, a rotating shaft 9 is fixed on the roof plates 3, the rotating shaft 9 rotates on the roof bar 2, and the rotation axis of the roof plates 3 is parallel to the length direction of the roof bar 2.

Referring to fig. 1 and 3, a connecting rod 4 is hinged to one 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 one side of the roof base 1 close to the roof plate 3, two connecting rods 4 on each roof plate 3 are arranged, 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 piece 5 for driving the roof strip 2 to slide towards the direction close to or away from the roof base 1 is arranged on the roof base 1. The telescopic malleable ridge tiles 22 are fixed on the two sides of the roof strip 2, and one side, far away from the roof strip 2, of the ridge tile 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 sliding of the roof strip 2, the driving member 5 includes a first threaded sleeve 51, a first screw 52, and a motor 53 fixedly mounted on the top base 1, the motor 53 being located on a side of the top base 1 away from the roof plate 3, the first threaded sleeve 51 being rotatably disposed on the top base 1, in this embodiment, the first threaded sleeve 51 is provided with three, and an arrangement direction of the three first threaded sleeves 51 is parallel to a length direction of the roof strip 2, which contributes to an improvement of a supporting effect; the axis of rotation of first screw sleeve 51 is on a parallel with the slip direction of roof strip 2, the rotation of first screw sleeve 51 in the centre wears to establish on footstock 1 and with the output shaft coaxial coupling of motor 53, first screw rod 52 and first screw sleeve 51 one-to-one, first screw rod 52 threaded connection is kept away from the one end of footstock 1 at corresponding first screw sleeve 51, one end and roof strip 2 fixed connection of first screw rod 52 kept away from first screw sleeve 51, one end fixedly connected with band pulley 23 of footstock 1 is kept away from to three first screw sleeve 51, three band pulley 23 passes through the drive belt 24 transmission and connects. The insulation board 25 is fixedly installed below the footstock 1, the insulation board 25 is fixedly connected with the plurality of vertical steels 21, and the motor 53 is located above the insulation board 25, so that the indoor insulation effect of the steel structure building is improved.

When a large amount of snow is accumulated on the roof plate 3 in winter, the motor 53 is started, the motor 53 drives the first threaded sleeves 51 at the middle position to rotate, the three first threaded sleeves 51 are driven by the belt pulley 23 and the transmission belt 24 to rotate, the first threaded sleeves 51 drive the corresponding first screw rods 52 to slide towards the direction away from the roof seat 1, so that the roof strips 2 slide towards the direction away from the roof seat 1, the roof strips 2 drive the roof plates 3 on two sides to rotate towards the direction close to the roof seat 1, the distance between one sides of the roof plates 3 on two sides close to the roof seat 1 is reduced, the roof plates 3 become more inclined, snow on the roof plates 3 is facilitated to drop, and the roof plates 3 or steel structures of buildings are not easy to bend.

Referring to fig. 2 and 3, a liquid storage cover 6 for containing brine is fixedly connected to a roof bar 2, the liquid storage cover 6 is arc-shaped, the liquid storage cover 6 protrudes outwards in a direction away from the roof bar 2, liquid outlets 7 are symmetrically formed in the liquid storage cover 6 along the length direction of the roof bar 2, in this embodiment, 6 liquid outlets 7 are symmetrically formed in pairs along the length direction of the roof bar 2, an opening and closing component 8 for opening and closing the liquid outlets 7 is arranged on the roof bar 2, and the opening and closing components 8 correspond to the liquid outlets 7 one by one; one side of roof strip 2 keeping away from footstock 1 fixedly connected with fixed strip 26, fixed strip 26 is located liquid receiver 6, fixed strip 26 is located on 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, open and close subassembly 8 is including opening closure 81, set up the elastic pushing piece 82 on roof strip 2 and set up the pulling piece 83 on roof board 3, open and close closure 81 slip wears to establish in corresponding liquid outlet 7, open closure 81 is used for opening and close corresponding liquid outlet 7, open closure 81 slides towards the direction that is close to or keeps away from liquid outlet 7, elastic pushing piece 82 is used for promoting open closure 81 to slide towards the direction that is close to liquid outlet 7 in order to shutoff liquid outlet 7, pulling piece 83 is used for pulling open closure 81 to slide towards the direction that is kept away from liquid outlet 7 in order to open liquid outlet 7.

Referring to fig. 2 and 3, a sliding rod 27 is fixedly connected to one end of the opening and closing block 81 away from the liquid outlet 7, a loop bar 28 is sleeved on one end of the sliding rod 27 away from the opening and closing block 81 in a sliding manner, the sliding direction of the sliding rod 27 is parallel to the sliding direction of the opening and closing block 81, an elastic pushing member 82 comprises a spring 821 for pushing the opening and closing block 81 to slide towards the direction close to the liquid outlet 7, the spring 821 is located in the loop bar 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 away from the opening and closing block 81, and the loop bar 28 and the sliding rod 27 are provided to help guide pushing of the spring 821.

Referring to fig. 2 and 3, the pulling member 83 includes a pull cord 831 fixed to an end of the slide bar 27 remote from the opening block 81, the pull cord 831 is located in the spring 821, an end of the pull cord 831 remote from the slide bar 27 slides through the loop bar 28 and the roof strip 2 and is wound around a rotation shaft 9 on the same side, and when the roof panel 3 rotates in a direction approaching the roof base 1, the rotation shaft 9 winds the pull cord 831. The roof strip 2 is provided with a rubber pad (not shown) through the stay cord 831 to improve the sealing performance and reduce the leakage of brine. In other embodiments, the opening and closing component 8 can be replaced by a plugging plate slidably arranged in the liquid storage cover 6 and an electric push rod arranged outside the liquid storage cover 6, the plugging plate is used for opening and closing the liquid outlet 7, the plugging plate is fixed with a piston rod of the electric push rod, and the electric push rod pushes the plugging plate to slide towards a direction close to or far away from the liquid outlet, so that the opening and closing of the liquid outlet 7 can be realized.

When the first screw rod 52 pushes the roof strip 2 to slide towards the direction away from the top seat 1, the roof strip 2 drives the roof plates 3 on two sides to rotate towards the direction close to the top seat 1, at the moment, the rotating shaft 9 winds the pull rope 831, the pull rope 831 pulls the slide rod 27 and the opening and closing plug 81 to slide towards the direction away from the liquid outlet 7, so that the spring 821 is compressed, the opening of the liquid outlet 7 is realized, the saline water in the liquid storage cover 6 flows to the roof plates 3 through the liquid outlet 7, the melting of snow is accelerated, and meanwhile, the snow falls from the roof plates 3 more easily, so that the possibility that the roof plates 3 or the steel structure of a building are bent is reduced. When snow on the roof plate 3 falls, the motor 53 is started to enable the roof strip 2 to slide towards the direction close to the top seat 1, the roof strip 2 drives the roof plate 3 to rotate towards the direction far away from the top seat 1, the rotating shaft 9 unwinds the pull rope 831, 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 seal the liquid outlet 7, so that leakage of residual salt water is reduced.

Referring to fig. 1, a brine tank 29 is fixedly mounted on a base 20, a lifting pump 30 is fixedly mounted on the brine tank 29, an outlet of the lifting pump 30 is communicated with a liquid conveying pipe 31, one end, far away from the brine tank 29, of the liquid conveying pipe 31 is communicated with a liquid storage cover 6, brine is added into the liquid storage cover 6 to ensure that brine continuously flows out of a 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, two sides of the top seat 1 are slidably provided with mounting bars 10, two mounting bars 10 are symmetrically arranged along the length direction of the roof bar 2 (refer to fig. 3), the length direction of each mounting bar 10 is perpendicular to the rotation axis of the roof plate 3, the sliding direction of each mounting bar 10 is perpendicular to the rotation axis of the roof plate 3, a first threaded sleeve 51 is positioned between the mounting bars 10 on two sides, the mounting bars 10 are positioned below the roof plate 3, a bottom wall, close to one side of the first threaded sleeve 51, of each mounting bar 10 is fixedly connected with a guide block 33, the cross section of each guide block 33 is T-shaped, a guide groove 34 in sliding fit with each guide block 33 is formed in the top seat 1, and sliding fit between each guide block 33 and each guide groove 34 guides sliding of the corresponding mounting bar 10; the snow guard plates 11 are rotatably arranged on two opposite sides of the mounting bar 10, the snow guard plates 11 on two sides are symmetrically arranged along the length direction of the mounting bar 10, the rotation axis of the snow guard plates 11 is parallel to the sliding direction of the mounting bar 10, a first rotating rod 12 is fixedly connected to the snow guard plates 11, the first rotating rod 12 rotates 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 13 is fixed on the snow guard plates 11, and the snow guard plates 11 on two sides of the mounting bar 10 are positioned between two connecting rods 4 of the roof plate 3 on the same side; the top seat 1 is provided with an adjusting component 15 for adjusting the mounting strips 10 to drive the snow baffle 11 to slide in or slide out of the lower part of the roof plate 3 in the direction of approaching or separating from each other, and when no snow exists on the snow baffle 11, the plane of the snow baffle 11 is parallel to the plane of the top seat 1.

Referring to fig. 2, in order to facilitate sliding the snowboard 11 into or out of the lower side of the roof plate 3, the mounting blocks 35 are fixed to both sides of the first threaded sleeve 51, the adjusting assembly 15 includes second threaded sleeves 151 rotatably disposed on the mounting blocks 35 on both sides, second screws 152 threadedly coupled to the second threaded sleeves 151, and transmission members 153 disposed on the first threaded sleeves 51, the two second threaded sleeves 151 are disposed on opposite sides of the first threaded sleeve 51 in a neutral position, a rotation axis of the second threaded sleeves 151 is parallel to a sliding direction of the mounting bar 10, the second screws 152 are disposed on one side of the second threaded sleeves 151 away from the first threaded sleeve 51, the second screws 152 are in one-to-one correspondence with the mounting bar 10, the mounting bar 10 is fixedly coupled to one end of the corresponding second screws 152 away from the second threaded sleeve 151, the transmission members 153 are used to rotate the second threaded sleeves 151 on both sides when the first threaded sleeves 51 are rotated, the transmission members 153 include first bevel gears 1 fixedly sleeved on the first threaded sleeves 51 and second bevel gears 1531 respectively sleeved on the two second threaded sleeves 1531, and second bevel gears 1532 are disposed between the second bevel gears 1531 and 1532 on both sides of the second bevel gears 1531. When the first threaded sleeve 51 drives the first screw 52 to slide in a direction away from the top base 1, the second threaded sleeve 151 drives the second screw 152 to slide in a direction away from the first threaded sleeve 51.

Referring to fig. 2 and 4, the limiting ropes 14 are fixedly connected to the roof plate 3, the limiting ropes 14 are in one-to-one correspondence with the snow baffle plates 11, one end, far away from the roof plate 3, of each limiting rope 14 is fixed to the corresponding snow baffle plate 11, the length of each limiting rope 14 is larger than the vertical distance from one side, far away from the roof strip 2, of the roof plate 3 to the first rotating rod 12, and in the embodiment, when the limiting ropes 14 are tensioned, the included angle between the snow baffle plate 11 and the top seat 1 is 30 degrees, so that the limiting of the rotating angle of the snow baffle plate 11 is facilitated, and the possibility of excessive rotation of the snow baffle plate 11 is reduced.

When the first threaded sleeve 51 rotates to drive the first screw rod 52 to slide in a direction away from the top seat 1, the first bevel gear 1531 drives the second bevel gears 1532 on two sides to rotate, so that the second threaded sleeve 151 rotates to drive the corresponding second screw rod 152 to drive the mounting strip 10 to slide in a direction away from the first threaded sleeve 51 until the snow guard 11 slides out of the lower part of the roof plate 3, so that one side of the roof plate 3 away from the roof strip 2 and one side of the snow guard 11 close to the first threaded sleeve 51 are flush, 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 falling off, and drives the snow guard 11 to rotate in a direction away from the roof plate 3 under the gravity of the snow, thereby being beneficial to dividing the snow into two sides, buffering and guiding the sliding of the snow, and limiting ropes 14 pull the snow guard 11 to be difficult to excessively rotate after the snow guard 11 rotates to a certain angle, so that the snow guard 11 falls off from the roof plate 3 is difficult to injure people entering and exiting from the roof plate 3; after the snow falls off, the first torsion spring 13 drives the snow baffle 11 to rotate towards the direction close to the roof plate 3, so that the planes of the snow baffle 11 and the top seat 1 are parallel, and the snow baffle 11 can be slid into the space between the roof plate 3 and the top seat 1 for storage.

Referring to fig. 2 and 6, a snow passing channel 16 is hinged to one side of the snow blocking plate 11 far away from the mounting bar 10, the snow passing channel 16 is located between two connecting rods 4 (referring to fig. 1) of the roof plate 3 on the same side, 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 blocking plate 11, the second rotating rod 17 rotates on the corresponding snow blocking plate 11, the rotation axis of the snow passing channel 16 is parallel to the hinging axis of the snow blocking plate 11, the depth direction of an opening of the snow passing channel 16 is perpendicular to the rotation axis of the snow blocking plate 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 of the second torsion spring is fixedly connected to the snow blocking plate 11, a baffle 36 is fixedly connected to one side of the snow passing channel 16 close to the snow blocking plate 11, the baffle 36 is located on one side of the snow passing channel 16 close to the roof plate 3, the baffle 36 extends towards the direction close to the mounting bar 10, the snow blocking plate 36 is beneficial to reducing the blocking force of the snow blocking plate 11, and no impact is caused.

Referring to fig. 2 and 5, a connecting rope 19 is fixedly connected to one side of the snow passing channel 16 away from the roof plate 3, one end of the connecting rope 19 away from the snow passing channel 16 is wound on a first rotating rod 12, and when the snow baffle 11 rotates towards the direction away from the roof plate 3, the first rotating rod 12 winds the connecting rope 19; when no snow is present 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 top seat 1 are parallel, and when the limiting rope 14 is kept tensioned, the opening depth of the snow passing channel 16 is along the vertical direction, which is helpful for enabling snow to fall vertically and reducing the possibility of injuring people by a smash.

When snow on the roof plate 3 falls onto the snow guard plate 11, the snow guard plate 11 rotates towards the direction away from the roof plate 3 under the action of gravity of the snow, at the moment, the first rotating rod 12 winds the connecting rope 19, so that the connecting rope 19 pulls the snow passing channel 16 to rotate towards the direction away from the roof plate 3, the included angle between the snow passing channel 16 and one side of the snow guard plate 11 away from the roof plate 3 is reduced, snow on the snow guard plate 11 passes through the snow passing channel 16 and then falls onto the ground, the baffle 36 blocks the snow on the snow guard plate 11, the snow passing channel 16 is favorable for further buffering and guiding the snow, the snow vertically falls onto the ground, and the snow is reduced to be washed out far from the snow guard plate 11.

The implementation principle of the embodiment of the application is as follows: when a great amount of snow is accumulated on the roof plate 3 in winter, the lifting 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, the motor 53 is started, the motor 53 drives the first threaded sleeves 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 meanwhile, the first bevel gears 1531 on the first threaded sleeves 51 drive the second bevel gears 1532 on two sides to rotate; the first threaded sleeve 51 drives the first screw rod 52 to drive the roof strip 2 to slide towards the direction away from the top seat 1, the roof strip 2 drives the roof plates 3 on two sides to rotate towards the direction close to the top seat 1, so that the included angle of the roof plates 3 on two sides close to one side of the top seat 1 is reduced, the roof plates 3 become more inclined, snow on the roof plates 3 is facilitated to drop, meanwhile, when the roof plates 3 on two sides rotate towards the direction close to the top seat 1, the rotating shaft 9 winds the pull rope 831, the opening block 81 is separated from the liquid outlet 7, salt water in the liquid storage cover 6 flows to the roof plates 3 through the liquid outlet 7, the melting of snow is facilitated to be accelerated, the snow on the roof plates 3 is easier to drop, and then the roof plates 3 or a steel structure of a building is not easy to be bent.

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 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 snow on the roof plate 3 falls along the inclined plane, the snow baffle 11 receives the snow, so that people are not easy to be injured by smash; under the gravity effect of snow, snow guard 11 rotates towards the direction of keeping away from roof board 3, and limiting rope 14 limits the rotation angle of snow guard 11, and first dwang 12 rolling connection rope 19 this moment, and connection rope 19 pulls and crosses snow passageway 16 and rotate towards the direction of keeping away from roof board 3, and the snow falls to ground from crossing snow passageway 16 under the blocking of baffle 36, crosses snow passageway 16 and further cushions and leads the slip of snow, reduces the possibility of injuring personnel by a pounding.

When snow on the roof plate 3 drops, the first torsion spring 13 drives the snow baffle 11 to rotate towards the direction close to the roof plate 3 until the snow baffle is positioned on a horizontal plane, at the moment, the first rotating rod 12 unwinds the connecting rope 19, and the second torsion spring 18 drives the snow passing channel 16 to rotate towards the direction close to the roof plate 3 until the snow baffle is parallel to the snow baffle 11; then, the motor 53 is started to drive the three first threaded sleeves 51 to rotate, so that the first screw rod 52 drives the roof strips 2 to slide to a required position in the direction approaching to the top seat 1, the roof strips 2 drive the roof plates 3 on two sides to rotate in the direction far away from the top seat 1, the rotating shaft 9 unwinds the pull rope 831, and the spring 821 pushes the opening block 81 to block 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 towards the direction close to the first threaded sleeve 51, so that the snow guard 11 on the mounting bar 10 slides into the space between the roof plate 3 and the top seat 1 for storage, so as to facilitate the next use.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. The utility model provides an integrated assembled steel construction building, includes footstock (1), its characterized in that: roof strip (2) is arranged on roof base (1) in a sliding mode, the sliding directions of roof strip (2) are arranged in the vertical direction, roof plates (3) are arranged on two opposite sides of roof strip (2) in a rotating mode, two roof plates (3) are symmetrically arranged along the length direction of roof strip (2), the rotating axis of roof plates (3) is parallel to the length direction of roof strip (2), connecting rods (4) are hinged to one sides of roof plates (3) far away from roof strip (2), one ends of connecting rods (4) far away from roof plates (3) are hinged to roof base (1), the hinging axis of connecting rods (4) is parallel to the rotating axis of roof plate (3), driving pieces (5) for driving roof strip (2) to slide towards the direction close to or far away from roof base (1) are arranged on the roof base (1), liquid storage covers (6) are covered on two opposite sides of roof strip (2) and are respectively provided with liquid outlets (7), two sides (7) are arranged along the length direction of roof strip (2) symmetrically opposite to each other, liquid storage covers (6) are used for containing salt water, liquid outlet opening and liquid outlet components (8) are arranged on the roof strip (2) in a mode, liquid outlet opening and liquid outlet components (8) are opened and closed by one side, the opening and closing assembly (8) comprises an opening and closing plug (81), an elastic pushing piece (82) arranged on the roof strip (2) and a pulling piece (83) arranged on the roof plate (3), the opening and closing plug (81) is arranged in the corresponding liquid outlet (7) in a sliding penetrating mode, the opening and closing plug (81) is used for opening or closing the corresponding liquid outlet (7), the opening and closing plug (81) slides towards a direction close to or far away from the corresponding liquid outlet (7), the elastic pushing piece (82) is used for pushing the opening and closing plug (81) to slide towards a direction close to the liquid outlet (7) so as to close the liquid outlet (7), the pulling piece (83) is used for pulling the opening and closing plug (81) to slide towards a direction far away from the liquid outlet (7), one end of the spring (821) is arranged on the roof strip (2), the other end of the spring (821) is arranged on the opening and closing plug (81), the driving piece (5) comprises a first screw (51), a first screw (51) and a first screw (51) are arranged on the first screw (51) and a second screw (51), the utility model discloses a snow cover, including roof bar (2) and backing plate, motor (53) is used for driving first screw sleeve (51) to rotate, first screw (52) threaded connection keeps away from the one end of footstock (1) at first screw sleeve (51), one end and roof bar (2) connection that first screw sleeve (51) were kept away from to first screw (52), the both sides of footstock (1) are provided with installation strip (10) in the slip, two installation strip (10) are along the length direction symmetry setting of roof bar (2), the slip direction of installation strip (10) is perpendicular to the rotation axis of roof plate (3), installation strip (10) are located roof plate (3) below, the both sides rotation of installation strip (10) is provided with baffle (11), two baffle (11) are along the slip direction symmetry setting of installation strip (10), the rotation axis of baffle (11) is on a parallel with the slip direction of installation strip (10), on the installation strip (12) are provided with bull stick (12) and are used for driving bull stick (12) to rotate on first bull stick (12) and are close to roof plate (12), one end of the first torsion spring (13) is arranged on the mounting strip (10), the other end of the first torsion spring is arranged on the snow baffle plate (11), limiting ropes (14) are arranged on the roof plate (3), the limiting ropes (14) are in one-to-one correspondence with the snow baffle plate (11), one end, far away from the roof plate (3), of each limiting rope (14) is arranged on the corresponding snow baffle plate (11), the length of each limiting rope (14) is larger than the vertical distance from one side, far away from the roof strip (2), of the roof plate (3) to the first rotating rod (12), an adjusting component (15) is arranged on the roof seat (1), the adjusting component (15) is used for adjusting the mounting bars (10) at two sides to drive the snow baffle plate (11) to slide into or slide out of the lower part of the roof plate (3) towards the directions approaching or separating from each other, 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 top seat (1), one side of the snow baffle plate (11) away from the mounting bars (10) is hinged with a snow passing channel (16), one side of the snow passing channel (16) close to the snow baffle plate (11) is provided with a second rotating rod (17), the second rotating rod (17) rotates on the corresponding snow baffle plate (11), the rotation axis of the snow passing channel (16) is parallel to the rotation axis of the snow baffle plate (11), the depth direction of the opening of the snow passing channel (16) is perpendicular to the rotation axis of the snow baffle plate (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 rotary 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 plate (11), one side, far away from the roof plate (3), of the snow passing channel (16) is provided with a connecting rope (19), one end, far away from the snow passing channel (16), of the connecting rope (19) is wound on the first rotary rod (12), and when the snow baffle plate (11) rotates towards the direction far away from the roof plate (3), the connecting rope (19) is wound on the first rotary rod (12); when no snow is present on the snow guard (11), the plane of the snow passing channel (16) is parallel to the plane of the snow guard (11).

2. An integrated fabricated steel structure building according to claim 1, wherein: be provided with pivot (9) on roof board (3), pivot (9) rotate on roof strip (2), pulling piece (83) are including setting up stay cord (831) on opening to close (81), one end that opens to close (81) is kept away from to stay cord (831) slides and passes roof strip (2) and wind on pivot (9) of establishing the homonymy, when roof board (3) are towards the direction rotation that is close to footstock (1), pivot (9) rolling stay cord (831).

3. An integrated fabricated steel structure building according to claim 1, wherein: the adjusting component (15) comprises second threaded sleeves (151) which are arranged on two sides of the top seat (1), second threaded rods (152) which are in threaded connection with the second threaded sleeves (151) and transmission pieces (153) which are arranged on the first threaded sleeves (51), wherein two second threaded sleeves (151) are arranged on two opposite sides of the first threaded sleeves (51), the rotation axes of the second threaded sleeves (151) are parallel to the sliding direction of the mounting strips (10), the second threaded rods (152) are arranged on one side, away from the first threaded sleeves (51), of the second threaded sleeves (151), the second threaded rods (152) are in one-to-one correspondence with the mounting strips (10), the mounting strips (10) are connected to the corresponding second threaded rods (152), and the transmission pieces (153) are used for enabling the second threaded sleeves (151) on two sides to rotate when the first threaded sleeves (51) rotate, and when the first threaded sleeves (51) rotate to drive the first threaded sleeves (52) to slide in the direction away from the top seat (1), the second threaded sleeves (152) are driven to slide in the direction away from the first threaded sleeves (151).

4. An integrated fabricated steel structure building according to claim 3, wherein: the transmission part (153) comprises a first bevel gear (1531) sleeved on the first threaded sleeve (51) and a second bevel gear (1532) sleeved on the second threaded sleeve (151) at two sides respectively, the first bevel gear (1531) is positioned between the second bevel gears (1532) at two sides, and the first bevel gear (1531) is meshed with the second bevel gears (1532) at two sides respectively.