CN110145168B

CN110145168B - Green building construction device

Info

Publication number: CN110145168B
Application number: CN201910434565.3A
Authority: CN
Inventors: 孙静洁
Original assignee: Guangdong Jianfa Engineering Management Co ltd
Current assignee: Guangdong Jianfa Engineering Management Co.,Ltd.
Priority date: 2019-05-23
Filing date: 2019-05-23
Publication date: 2021-01-26
Anticipated expiration: 2039-05-23
Also published as: CN112252828A; CN112252828B; CN112267757A; CN110145168A; CN112267757B

Abstract

The invention belongs to the technical field of building construction barriers, and particularly relates to a green building construction device which comprises a surrounding plate and a fixed supporting mechanism, wherein in an initial state of the barrier, a first telescopic swing plate and a second telescopic swing plate which are positioned at two sides of the lower side of the barrier are respectively nested in a mounting shell and a bottom plate, so that passing automobiles and pedestrians can be prevented from colliding on the first telescopic swing plate and the second telescopic swing plate, and potential safety hazards are brought to the passing automobiles and the passing pedestrians; when the enclosure is in heavy wind weather, the first telescopic swing plate and the second telescopic swing plate can be triggered through the swinging of the enclosing plates, so that the first telescopic swing plate and the second telescopic swing plate on the two sides swing upwards and straighten, the joint of the mounting shell and the bottom plate is strengthened, and the enclosure is prevented from being blown down.

Description

Green building construction device

Technical Field

The invention belongs to the technical field of building construction barriers, and particularly relates to a green building construction device.

Background

During construction of building engineering, a building enclosure is usually needed to isolate the construction field, so that pedestrians and vehicles are prevented from entering the construction field to cause damage; most of the existing building enclosure is an enclosure wall formed by supporting iron sheets together by using a supporting steel rod, a base is usually fixed on the lower side of the supporting steel rod and is fixed with the ground by bolts, but if the supporting steel rod is only fixed by a simple bottom plate, the enclosure wall is easy to topple and turn over when high wind and severe weather occur after the enclosure wall is built, and potential safety hazards exist; present building company encloses the stability of keeping off in order to improve, two strengthening ribs are fixed at the bilateral symmetry ground of base, can choose for use some steel sheets that have certain thickness and length simultaneously when selecting the base, but because the base is longer, thicker, need occupy the great space in ground when fixed, and the strengthening rib of both sides can occupy the space of base upside, to the narrower road in city like this, will make original road become more narrow after the fender is enclosed in the installation, influence vehicle or pedestrian that come to go.

The invention designs a green building construction device to solve the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a green building construction device which is realized by adopting the following technical scheme.

The utility model provides a green building construction equipment which characterized in that: the device comprises enclosing plates and fixed supporting mechanisms, wherein a plurality of fixed supporting mechanisms are uniformly fixed on the upper side of the ground in an area needing to be provided with an enclosing barrier, the distribution of the fixed supporting mechanisms can adjust the installation positions of the fixed supporting mechanisms on the upper side of the ground according to the terrain of the area needing to be provided with the enclosing barrier and the shape surrounded by the enclosing barrier, and the length of the enclosing plates can also be selected to be suitable for the length of the enclosing plates according to actual needs; when the enclosure is installed, firstly, one of the fixed supporting mechanisms is fixed on the upper side of the ground, then, a proper enclosure is selected according to actual requirements, one end of the enclosure is fixed on the fixed supporting mechanism which is fixed on the upper side of the ground, then, the other fixed supporting mechanism is fixed on a proper position on the ground according to the size of the enclosure, and finally, the other end of the enclosure is connected with the fixed supporting mechanism and is sequentially transmitted, so that the enclosure is finally enclosed into the enclosure required by people through the fixation of the fixed supporting mechanisms.

The left end and the right end of the coaming are symmetrically provided with two fixing holes, and the two fixing holes are positioned at the upper end of the coaming; two fixing sleeves are symmetrically arranged on the left side and the right side of the lower end of the enclosing plate; the fixed holes and the fixed sleeves are used for facilitating the mounting of the coamings on the fixed supporting mechanism.

The fixed supporting mechanism comprises a triggering mechanism, a hook, a mounting shell, a limiting plate, a driving spring, a bottom plate, a fixed square block, a plate spring, a fixed rotating shaft, a limiting mechanism, a driving block, a fixed guide rail, a first telescopic swing plate, a second telescopic swing plate, a limiting arc plate and a clamping block, wherein a mounting groove is formed in the upper end surface of the bottom plate; the bottom plate is fixedly arranged on the ground through bolts; the left side surface and the right side surface of the upper end of the mounting shell are symmetrically provided with two circular holes, the front side surface and the rear side surface of the lower end of the mounting shell are symmetrically provided with two square notches communicated with the lower end of the mounting shell, and the square notches are used for providing a swinging space for the swinging of the first telescopic swing plate and the second telescopic swing plate, preventing the first telescopic swing plate and the second telescopic swing plate from interfering with the mounting shell in the swinging process, namely preventing the mounting shell from influencing the swinging of the first telescopic swing plate and the second telescopic swing plate; two fixing shaft holes are symmetrically formed in the left side surface and the right side surface of the lower end of the mounting shell, and the lower end of the mounting shell is mounted on the upper side of the bottom plate; two trigger mechanisms which have a limiting effect on the front-back swing angle of the coaming are respectively and symmetrically arranged on the left outer side surface and the right outer side surface of the upper end of the mounting shell in a front-back mode, and the four trigger mechanisms are arranged on the left side and the right side of the mounting shell in a pairwise mode and are mutually symmetrical; in windy weather, the surrounding plate can swing back and forth when being blown by wind, the trigger mechanism has the effect that when the wind speed is low, the swinging force of the wind blowing the surrounding plate is not enough to trigger the trigger mechanism, the surrounding plate can be limited by the trigger mechanism, in the state, the swinging of the surrounding plate cannot drive the first telescopic swinging plate and the second telescopic swinging plate to swing through the driving block, and the moving amount of the driving block which is driven by the swinging of the surrounding plate to move upwards is absorbed by the driving spring; when the wind speed is high, the force of wind blowing the enclosing plate to swing is enough to trigger the trigger mechanism, the enclosing plate can exceed the trigger mechanism to continuously swing, in this state, the driving spring is stretched to a state capable of driving the first telescopic swinging plate and the second telescopic swinging plate to swing, and the driving block drives the first telescopic swinging plate and the second telescopic swinging plate to swing through the driving spring; two limiting plates which have the limiting effect on the front-back swing angle of the coaming are respectively and symmetrically arranged on the left outer side surface and the right outer side surface of the mounting shell in a front-back mode, and the four limiting plates are symmetrical to each other on the left side and the right side of the mounting shell in a group of two limiting plates; in windy weather, the coaming can swing back and forth when blown by wind, and the swing of the coaming can be limited by the four limiting plates, so that the coaming can only swing within a certain angle, and the damage of the enclosure caused by overlarge swing angle of the coaming is prevented; the maximum angle of the coaming, which can swing relative to the mounting shell, can be adjusted by adjusting the relative position of the limiting plate in the vertical direction on the mounting shell, and the maximum angle of the coaming, which can swing relative to the mounting shell, needs to be adjusted according to the amount of movement of the driving block, which needs to move upwards, from the state with an included angle to the straight state in the swinging process of the first telescopic swing plate and the second telescopic swing plate, the larger the amount of movement needs to be, the larger the angle that the coaming can swing relative to the mounting shell is, so that the driving block is prevented from driving the first telescopic swing plate and the second telescopic swing plate to swing due to the undersized angle that the coaming can swing relative to the mounting shell, namely, the angle that the first telescopic swing plate and the second telescopic swing plate need to swing is designed according to regional weather requirements; one end of each fixed square block is provided with a fixed rotating shaft, the two fixed square blocks are symmetrically arranged on the left side and the right side of the lower end of the mounting shell respectively through the rotating matching of the fixed rotating shaft arranged on the fixed square blocks and the two fixed shaft holes arranged on the mounting shell, and the two fixed square blocks are both positioned on the outer side of the mounting shell; leaf springs for limiting the rotation of the fixed rotating shafts are respectively arranged between the two fixed rotating shafts and the mounting shell; in an initial state, the fixed rotating shaft is fixed through the plate spring, namely the fixed square block is fixed, and the coaming fixed through the fixed square block is also fixed; in an initial state, the coaming can be kept in a vertical state through the plate spring, and cannot easily swing; the other ends of the two fixed squares are respectively nested and matched with one of the two fixed sleeves which are arranged on the corresponding coaming and are close to the fixed squares; the lower end of the coaming is fixed with the mounting shell through the fixing square block, the coaming can drive the fixing square block to swing through the fixing sleeve in the swinging process, and the fixing square block drives the fixing rotating shaft to swing around the axis of the fixing rotating shaft; the driving block is arranged on the inner side of the mounting shell through a fixed guide rail; the two clamping blocks are symmetrically arranged on two sides of the upper end of the driving block; the two limiting mechanisms are symmetrically arranged on two side surfaces in the mounting shell and are correspondingly matched with the two clamping blocks; the connecting ropes are connected to the hooks, the two hooks are symmetrically installed on the left side and the right side of the upper end of the installation shell, the two hooks are respectively hooked and sleeved on one fixing hole corresponding to the hook in two fixing holes formed in the corresponding enclosing plate, and the connecting ropes connected to the two hooks penetrate through two circular holes formed in the installation shell and are connected with the upper end of the driving block; the upper ends of the two coamings positioned at the two sides of the mounting shell are fixed through two hooks; a first square avoidance port is formed in a telescopic inner plate of the first telescopic swing plate and is used for preventing a driving spring from interfering with the first telescopic swing plate in the process of pulling the first telescopic swing plate and the second telescopic swing plate to swing upwards; the two first telescopic swing plates are symmetrically arranged on the mounting shell through a first fixing pin respectively, and in an initial state, the two first telescopic swing plates are both positioned in the mounting shell; the first telescopic swing plate is used for preventing the passing automobiles and pedestrians from colliding with the first telescopic swing plate, so that potential safety hazards are brought to the passing automobiles and pedestrians; a second square avoidance port is formed in the telescopic inner plate of the second telescopic swing plate and is used for preventing the driving spring from interfering with the second telescopic swing plate in the process of pulling the first telescopic swing plate and the second telescopic swing plate to swing upwards; one ends of the two second telescopic swing plates are respectively hinged to the first telescopic swing plate through a connecting pin, the other ends of the two second telescopic swing plates are respectively symmetrically installed on two sides of the bottom plate through a second fixing pin, and the two second telescopic swing plates are located in installation grooves formed in the bottom plate in an initial state; the situation that the passing automobiles and pedestrians collide on the second telescopic swing plate to bring potential safety hazards to the passing automobiles and pedestrians is prevented; the two connecting pins are connected with the lower end of the driving block through two driving springs which are symmetrically distributed; according to the invention, when blown by wind, the enclosing plate can swing, the enclosing plate can drive the mounting shell to swing and incline relative to the bottom plate, and at the moment, the first telescopic swinging plate and the second telescopic swinging plate on the two sides can also be driven, so that the first telescopic swinging plate and the second telescopic swinging plate in the same group can swing relatively, and the initial relative angles of the first telescopic swinging plate and the second telescopic swinging plate on the two sides are changed; when the first telescopic swing plate and the second telescopic swing plate are driven by the driving spring to swing upwards, the first telescopic swing plate and the second telescopic swing plate on the two sides are straightened and swing amplitude required to be different, and in this state, errors caused by the swinging of the mounting shell relative to the base plate are buffered through the elasticity of the driving spring; the first telescopic swing plate is provided with a limit arc plate, and the limit arc plate is matched with the second telescopic swing plate; the limiting arc plate has the advantages that when the first telescopic swing plate and the second telescopic swing plate swing to the straightening state, the first telescopic swing plate and the second telescopic swing plate are limited in swing through the limiting arc plate, and the first telescopic swing plate and the second telescopic swing plate are prevented from continuously swinging.

The driving block drives the clamping block mounted on the driving block to move upwards, so that when the clamping block moves to the upper side of the corresponding limiting mechanism, the driving block can be pulled downwards by the two driving springs, the driving block has the trend of moving downwards, and in the state, the limiting effect on the downward movement of the driving block is achieved through the limiting mechanism.

As a further improvement of the technology, the trigger mechanism comprises a trigger housing, a trigger block, a first inclined plane, a second inclined plane, a trigger spring, first guide grooves and first guide blocks, wherein two first guide grooves are symmetrically formed in the inner side surface of the trigger housing, and one end of the trigger housing is fixedly mounted on the outer side surface of the mounting shell; when the coaming is in contact fit with the second inclined plane on the trigger block in the swinging process, because the inclination angle of the second inclined plane is larger than that of the first inclined plane, the coaming has relatively smaller resistance to the second inclined plane on the trigger block, and the coaming can easily extrude the trigger block back into the trigger shell; according to the invention, by designing different inclination angles of the first inclined plane and the second inclined plane, the coaming can be ensured not to easily trigger the trigger mechanism to swing outwards in the swinging process, but can easily exceed the trigger mechanism to swing inwards for resetting; the other end of the trigger block is symmetrically provided with two first guide blocks, and the trigger block is arranged on the trigger shell through the sliding fit of the two first guide blocks and two first guide grooves formed in the trigger shell; the two first guide blocks are matched with the two first guide grooves to guide the trigger block; a trigger spring is arranged between the end surface of the trigger block, which is provided with the first guide block, and the inner end surface of the trigger shell; the trigger spring plays a role in resetting the trigger block; the first inclined plane on the trigger block is close to the corresponding coaming; the coaming can not easily trigger the trigger mechanism to swing outwards in the swing process, but the coaming can easily exceed the trigger mechanism to swing inwards to reset.

As a further improvement of the technology, the limiting mechanism comprises a limiting block, a limiting spring, a limiting shell, a second guide block and a second guide groove, wherein two second guide grooves are symmetrically formed in the inner side surface of the limiting shell, and one end of the limiting shell is fixedly installed on the inner side surface of the installation shell; the upper side surface and the lower side surface of one end of the limiting block are both provided with inclined surfaces, the inclination angle of the inclined surface positioned on the upper side of the limiting block is smaller than that of the inclined surface positioned on the lower side of the limiting block, when a clamping block arranged on the driving block is in contact fit with the lower side inclined surface on the limiting block in the upward moving process, because the inclination angle of the inclined surface positioned on the upper side of the limiting block is smaller than that of the inclined surface positioned on the lower side of the limiting block, the driving block can easily extrude the limiting block back into the limiting shell, when the clamping block arranged on the driving block is in contact fit with the upper inclined surface on the limiting block in the downward moving process, because the inclination angle of the inclined surface positioned on the upper side of the limiting block is smaller than that of the inclined surface positioned on the lower side of the limiting block, the driving, according to the invention, by designing different inclined angles of the upper inclined plane and the lower inclined plane on the limiting block, the driving block can be ensured to easily trigger the limiting mechanism to move upwards in the upward movement process, but the driving block cannot easily exceed the limiting mechanism to move downwards, and the limiting block can limit the downward movement of the driving block; the driving spring is enabled to have certain pulling force, and the first telescopic swing plate and the second telescopic swing plate are enabled to keep a straightening state through the pulling force; the other end of the limiting block is symmetrically provided with two second guide blocks, and the limiting block is arranged on the limiting shell through the sliding fit of the two second guide blocks and two second guide grooves formed in the limiting shell; the two second guide blocks are in sliding fit with the two second guide grooves to guide the limiting block; a limiting spring is arranged between the end face of one end of the limiting block, provided with the second guide block, and the inner end face of the limiting shell; the limiting spring plays a role in resetting the limiting block; the inclined surface on the upper side of the trigger block faces away from the driving block in an initial state.

As a further improvement of the technology, the inner side of the upper end of the mounting shell is provided with two guide wheels which play a role in guiding the hook through two symmetrically distributed fixed shafts; the end of the two hooks in the mounting shell is vertically downward through the guide wheel.

As a further improvement of the technology, an installation block is fixedly installed on the outer circular surface of the fixed rotating shaft, and a plate spring is respectively installed between the two sides of the installation block and the inner side surface of the installation shell.

As a further improvement of the technology, for two hooks arranged on the same mounting shell, connecting ropes connected to the two hooks penetrate through two circular holes formed in the mounting shell, then the connecting ropes are connected together by bypassing the corresponding guide wheels, and then the connecting points of the two connecting ropes are connected with the upper end of the driving block through a pull rope; the two hooks are kept synchronous through the pull rope.

As a further improvement of the present technology, the drive spring is an extension spring.

As a further improvement of the technology, two ends of the bottom plate are symmetrically provided with two countersunk holes, and the bottom plate is fixedly arranged on the upper side of the ground through the two countersunk holes and countersunk bolts; the bolts are all installed on the lower side of the upper side face of the bottom plate through the countersunk holes, so that the situation that the passing automobiles and pedestrians collide on the bolts higher than the upper side face of the bottom plate and potential safety hazards are brought to the passing automobiles and pedestrians is avoided.

As a further improvement of the present technology, the lower end of the mounting shell is fixedly mounted on the upper side of the bottom plate by welding.

As a further improvement of the technology, the fixed rotating shaft is installed in a fixed shaft hole formed in the mounting shell through a bearing.

Compared with the traditional building construction enclosure technology, the enclosure designed by the invention has the advantages that in the initial state, the first telescopic swing plate and the second telescopic swing plate which are positioned at the two sides of the lower side are respectively nested in the mounting shell and the bottom plate, so that passing automobiles and pedestrians can be prevented from colliding against the first telescopic swing plate and the second telescopic swing plate, and potential safety hazards are brought to the passing automobiles and pedestrians; when the enclosure is in heavy wind weather, the first telescopic swing plate and the second telescopic swing plate can be triggered through the swinging of the enclosing plates, so that the first telescopic swing plate and the second telescopic swing plate on the two sides swing upwards and straighten, the joint of the mounting shell and the bottom plate is strengthened, and the enclosure is prevented from being blown down.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic view of the attachment of the fixed support mechanism to the enclosure.

Fig. 4 is a schematic plan view of the attachment of the fixed support mechanism to the shroud.

Figure 5 is a schematic view of the hook and shroud connection.

Fig. 6 is a schematic diagram of the matching of the limiting plate and the enclosing plate.

Fig. 7 is a schematic view of the connection between the fixed block and the enclosing plate.

Fig. 8 is a schematic illustration of the shroud construction.

Figure 9 is a schematic view of the harness distribution.

FIG. 10 is a schematic view of the distribution of the fixing holes.

Fig. 11 is an external view of the fixed support mechanism.

Fig. 12 is a schematic view of the trigger mechanism installation.

Fig. 13 is a schematic view of the installation of the stopper plate.

FIG. 14 is a schematic diagram of a distribution of fixed squares.

Fig. 15 is a schematic view of the structure of the mounting case.

Figure 16 is a schematic view of a circular hole distribution.

FIG. 17 is a schematic view showing the arrangement of the fixing shaft holes.

Fig. 18 is a schematic view of the trigger mechanism.

Fig. 19 is a schematic view of trigger block installation.

FIG. 20 is a schematic view of the connection between the fixed block and the fixed shaft.

FIG. 21 is a schematic view of the connection of the drive block to the pull cord.

Fig. 22 is a schematic view of the guide wheel arrangement.

FIG. 23 is a drive block mounting schematic.

Fig. 24 is a drive spring mounting schematic.

Fig. 25 is a schematic structural view of the limiting mechanism.

Fig. 26 is a schematic view of stopper installation.

Fig. 27 is a cartridge mounting diagram.

Fig. 28 is a schematic view of a fixed rail structure.

Fig. 29 is a schematic view of the connection of the first and second telescopic swing plates.

Fig. 30 is a schematic view of the first telescopic wobble plate structure.

Fig. 31 is a schematic view of a second telescopic wobble plate.

Fig. 32 is a schematic view of the bottom plate structure.

FIG. 33 is a schematic view of the hook and pull cord connection.

Number designation in the figures: 1. enclosing plates; 2. a fixed support mechanism; 3. a trigger mechanism; 4. hooking; 5. mounting a shell; 6. a limiting plate; 7. a drive spring; 8. a base plate; 9. fixing the square block; 10. fixing a sleeve; 11. a fixing hole; 12. a circular hole; 13. fixing the shaft hole; 14. a square notch; 15. a trigger housing; 16. a trigger block; 17. a first inclined plane; 18. a second inclined plane; 19. a trigger spring; 20. a first guide groove; 21. a first guide block; 22. a plate spring; 23. mounting blocks; 24. fixing the rotating shaft; 25. a first fixing pin; 26. pulling a rope; 27. a guide wheel; 28. a fixed shaft; 29. a limiting mechanism; 30. a drive block; 31. fixing the guide rail; 32. a first telescopic swing plate; 33. a second telescopic swing plate; 34. a limiting arc plate; 35. a limiting block; 36. a limiting spring; 37. a limiting shell; 38. a second guide block; 39. a second guide groove; 40. a clamping block; 41. a first square dodge port; 42. a second square dodge port; 43. a connecting pin; 44. mounting grooves; 45. a countersunk hole; 46. a second fixing pin.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and 2, the enclosure structure comprises an enclosure plate 1 and fixed supporting mechanisms 2, wherein a plurality of fixed supporting mechanisms 2 are uniformly fixed on the upper side of the ground in an area where an enclosure is required to be installed, the distribution of the fixed supporting mechanisms 2 can adjust the installation positions of the fixed supporting mechanisms 2 on the ground according to the terrain of the area where the enclosure is installed and the shape of the enclosure required to be enclosed, and the length of the enclosure plate 1 can also be selected to be an enclosure plate 1 with a suitable length according to actual needs; when the enclosure is installed, firstly one of the fixed supporting mechanisms 2 is fixed on the upper side of the ground, then a proper enclosure 1 is selected according to actual requirements, one end of the enclosure 1 is fixed on the fixed supporting mechanism 2 fixed on the upper side of the ground, then the other fixed supporting mechanism 2 is fixed on a proper position on the ground according to the size of the enclosure 1, and finally the other end of the enclosure 1 is connected with the fixed supporting mechanism 2 and is sequentially transmitted, so that the enclosure 1 is finally enclosed into the enclosure required by people through the fixation of the fixed supporting mechanism 2.

As shown in fig. 8 and 10, two fixing holes 11 are symmetrically formed at the left and right ends of the enclosing plate 1, and the two fixing holes 11 are located at the upper end of the enclosing plate 1; as shown in fig. 9, two fixing sleeves 10 are symmetrically arranged at the left side and the right side of the lower end of the coaming 1; the fixing hole 11 and the fixing sleeve 10 are used for facilitating the mounting of the coaming 1 on the fixed supporting mechanism 2.

As shown in fig. 4 and 11, the fixed support mechanism 2 includes a trigger mechanism 3, a hook 4, a mounting case 5, a limit plate 6, a drive spring 7, a bottom plate 8, a fixed block 9, a plate spring 22, a fixed rotating shaft 24, a limit mechanism 29, a drive block 30, a fixed guide rail 31, a first telescopic swing plate 32, a second telescopic swing plate 33, a limit arc plate 34, and a block 40, wherein as shown in fig. 32, an upper end surface of the bottom plate 8 is provided with a mounting groove 44, and in an initial state, the mounting groove 44 formed in the bottom plate 8 provides a storage space for the second telescopic swing plate 33, so as to prevent the upper side surface of the second telescopic swing plate 33 from exceeding the upper side of the bottom plate 8 in the initial state to affect passing automobiles and pedestrians; the bottom plate 8 is fixedly arranged on the ground through bolts; as shown in fig. 15 and 16, two circular holes 12 are symmetrically formed in the left and right side surfaces of the upper end of the mounting shell 5, as shown in fig. 17, two square notches 14 penetrating through the lower end of the mounting shell 5 are symmetrically formed in the front and rear side surfaces of the lower end of the mounting shell 5, and the square notches 14 are used for providing a swing space for the swing of the first telescopic swing plate 32 and the second telescopic swing plate 33, so that the first telescopic swing plate 32 and the second telescopic swing plate 33 are prevented from interfering with the mounting shell 5 in the swing process, that is, the mounting shell 5 is prevented from influencing the swing of the first telescopic swing plate 32 and the second telescopic swing plate 33; two fixing shaft holes 13 are symmetrically formed in the left side surface and the right side surface of the lower end of the mounting shell 5, and as shown in fig. 3 and 4, the lower end of the mounting shell 5 is mounted on the upper side of the bottom plate 8; as shown in fig. 5 and 12, two triggering mechanisms 3 which have a limiting effect on the forward and backward swing angle of the coaming 1 are respectively and symmetrically installed on the left outer side surface and the right outer side surface of the upper end of the installation shell 5 in a forward and backward manner, and the four triggering mechanisms 3 are in a group of two and are mutually symmetrical on the left side and the right side of the installation shell 5; in windy weather, the coaming 1 can swing back and forth when being blown by wind, the trigger mechanism 3 has the effect that when the wind speed is low, the force of the wind blowing the coaming 1 to swing is not enough to trigger the trigger mechanism 3, the coaming 1 can be limited by the trigger mechanism 3, in the state, the swing of the coaming 1 cannot drive the first telescopic swing plate 32 and the second telescopic swing plate 33 to swing through the driving block 30, and the moving amount of the coaming 1 which drives the driving block 30 to move upwards is absorbed by the driving spring 7; when the wind speed is high and the force of the wind blowing the enclosing plate 1 to swing is enough to trigger the trigger mechanism 3, the enclosing plate 1 can continuously swing beyond the trigger mechanism 3, in this state, the driving spring 7 is stretched to a state capable of driving the first telescopic swinging plate 32 and the second telescopic swinging plate 33 to swing, and the driving block 30 drives the first telescopic swinging plate 32 and the second telescopic swinging plate 33 to swing through the driving spring 7; as shown in fig. 6 and 13, two limiting plates 6 having a limiting effect on the forward and backward swing angle of the surrounding plate 1 are respectively and symmetrically installed on the left and right outer side surfaces of the installation shell 5, and the four limiting plates 6 are symmetrical to each other on the left and right sides of the installation shell 5 in pairs; in windy weather, the coaming 1 can swing back and forth when blown by wind, and the four limiting plates 6 can limit the swing of the coaming 1, so that the coaming 1 can only swing within a certain angle, and the damage of the enclosure caused by overlarge swing angle of the coaming 1 is prevented; the maximum angle of the enclosure plate 1 which can swing relative to the installation shell 5 can be adjusted by adjusting the relative position of the limiting plate 6 in the vertical direction on the installation shell 5, the maximum angle of the enclosure plate 1 which can swing relative to the installation shell 5 needs to be adjusted according to the amount of movement of the driving block 30 which needs to move upwards when the enclosure plate 1 swings to the straight state from the state with an included angle in the swinging process, the larger the amount of movement needs to be, the larger the angle of the enclosure plate 1 which can swing relative to the installation shell 5 is, the influence on the driving block 30 to drive the first telescopic swing plate 32 and the second telescopic swing plate 33 due to the underswing angle of the enclosure plate 1 which can swing relative to the installation shell 5 is prevented, namely, the angle of the first telescopic swing plate 32 and the second telescopic swing plate 33 which needs to swing is designed according to regional weather requirements, and the relative position of the limiting plate 6 on the installation shell 5 is designed; as shown in fig. 20, a fixing rotating shaft 24 is installed at one end of the fixing block 9, as shown in fig. 7 and 14, the two fixing blocks 9 are symmetrically installed at the left and right sides of the lower end of the mounting shell 5 through the rotating matching of the fixing rotating shaft 24 installed thereon and the two fixing shaft holes 13 opened on the mounting shell 5, and the two fixing blocks 9 are both located at the outer side of the mounting shell 5; as shown in fig. 20, leaf springs 22 for restricting the rotation of the fixed rotation shafts 24 are respectively installed between the two fixed rotation shafts 24 and the mounting case 5; in the initial state, the fixed rotating shaft 24 is fixed through the plate spring 22, namely the fixed block 9 is fixed, and the coaming 1 fixed through the fixed block 9 is also fixed; in the initial state, the boarding 1 can be kept in a vertical state through the plate spring 22, and cannot swing easily; as shown in fig. 7, the other ends of the two fixing blocks 9 are respectively in nested fit with one fixing sleeve 10 close to the fixing block 9 of the two fixing sleeves 10 mounted on the corresponding coaming 1; the lower end of the coaming 1 is fixed with the mounting shell 5 through the fixing block 9, the coaming 1 can drive the fixing block 9 to swing through the fixing sleeve 10 in the swinging process, and the fixing block 9 drives the fixing rotating shaft 24 to swing around the axis of the fixing rotating shaft 24; as shown in fig. 23 and 28, the driving block 30 is mounted inside the mounting case 5 via a fixed rail 31; as shown in fig. 27, two latch blocks 40 are symmetrically installed at both sides of the upper end of the driving block 30; as shown in fig. 3 and 23, the two limiting mechanisms 29 are symmetrically installed on two side surfaces in the installation shell 5, and the two limiting mechanisms 29 are correspondingly matched with the two clamping blocks 40; as shown in fig. 22, the hooks are connected with connecting ropes, the two hooks 4 are symmetrically installed on the left side and the right side of the upper end of the installation shell 5, as shown in fig. 5, the two hooks 4 are respectively hooked and sleeved on one fixing hole 11 corresponding to the hook 4 in the two fixing holes 11 formed in the corresponding enclosing plate 1, as shown in fig. 21, the connecting ropes connected to the two hooks 4 penetrate through the two circular holes 12 formed in the installation shell 5 to be connected with the upper end of the driving block 30; the upper ends of two coamings 1 positioned at two sides of the mounting shell 5 are fixed through two hooks 4; as shown in fig. 30, a first square avoiding opening 41 is formed in the inner telescopic plate of the first telescopic swing plate 32, and the first square avoiding opening 41 is used for preventing the driving spring 7 from interfering with the first telescopic swing plate 32 in the process of pulling the first telescopic swing plate 32 and the second telescopic swing plate 33 to swing upwards; as shown in fig. 24 and 29, the two first telescopic swing plates 32 are symmetrically mounted on the mounting shell 5 through one first fixing pin 25, and in the initial state, both the two first telescopic swing plates 32 are located in the mounting shell 5; the first telescopic swing plate 32 is prevented from being collided by passing automobiles and pedestrians, so that potential safety hazards are brought to the passing automobiles and pedestrians; as shown in fig. 31, a second square avoiding opening 42 is formed in the inner telescopic plate of the second telescopic swing plate 33, and the second square avoiding opening 42 functions to prevent the driving spring 7 from interfering with the second telescopic swing plate 33 in the process of pulling the first telescopic swing plate 32 and the second telescopic swing plate 33 to swing upwards; as shown in fig. 29, one ends of the two second telescopic swing plates 33 are respectively hinged to the first telescopic swing plate 32 through a connecting pin 43, the other ends of the two second telescopic swing plates 33 are respectively symmetrically installed on two sides of the bottom plate 8 through a second fixing pin 46, and the two second telescopic swing plates 33 are located in an installation groove 44 formed in the bottom plate 8 in an initial state; the situation that the passing automobiles and pedestrians collide with the second telescopic swing plate 33 to bring potential safety hazards to the passing automobiles and pedestrians is prevented; as shown in fig. 14, two connecting pins 43 are connected to the lower end of the driving block 30 by two symmetrically distributed driving springs 7; in the invention, the enclosing plate 1 can swing when blown by wind, the enclosing plate 1 can drive the mounting shell 5 to swing and incline relative to the bottom plate 8, and at the moment, the first telescopic swinging plate 32 and the second telescopic swinging plate 33 on the two sides can also be driven, so that the first telescopic swinging plate 32 and the second telescopic swinging plate 33 in the same group can swing relatively, and the initial relative angles of the first telescopic swinging plate 32 and the second telescopic swinging plate 33 on the two sides can be changed; when the first telescopic swing plate 32 and the second telescopic swing plate 33 are driven by the driving spring 7 to swing upwards, the first telescopic swing plate 32 and the second telescopic swing plate 33 on the two sides are straightened and swing in different amplitude, and in this state, the errors caused by the swinging of the mounting shell 5 relative to the bottom plate 8 of the first telescopic swing plate 32 and the second telescopic swing plate 33 on the two sides are buffered by the elasticity of the driving spring 7; the first telescopic swing plate 32 is provided with a limit arc plate 34, and the limit arc plate 34 is matched with the second telescopic swing plate 33; the limiting arc plate 34 has the function that when the first telescopic swing plate 32 and the second telescopic swing plate 33 swing to a straightening state, the first telescopic swing plate 32 and the second telescopic swing plate 33 are limited in swing through the limiting arc plate 34, and the first telescopic swing plate 32 and the second telescopic swing plate 33 are prevented from continuously swinging.

The driving block 30 drives the latch 40 mounted thereon to move upwards, so that when the latch 40 moves to the upper side of the corresponding limiting mechanism 29, the driving block 30 is pulled downwards by the two driving springs 7, so that the driving block 30 has a tendency to move downwards, and in this state, the limiting mechanism 29 limits the downward movement of the driving block 30.

In summary, the following steps:

the beneficial effects of the design of the invention are as follows: in an initial state of the enclosure, the first telescopic swing plate 32 and the second telescopic swing plate 33 which are positioned at two sides of the lower side are respectively nested in the mounting shell 5 and the bottom plate 8, so that passing automobiles and pedestrians can be prevented from colliding on the first telescopic swing plate 32 and the second telescopic swing plate 33, and potential safety hazards are brought to the passing automobiles and pedestrians; when the enclosure meets the strong wind weather, the first telescopic swing plate 32 and the second telescopic swing plate 33 can be triggered through the swinging of the enclosure plate 1, so that the first telescopic swing plate 32 and the second telescopic swing plate 33 on the two sides can swing upwards and be straightened, the joint of the mounting shell 5 and the bottom plate 8 is strengthened, and the enclosure is prevented from being blown down.

As shown in fig. 18, the triggering mechanism 3 includes a triggering shell 15, a triggering block 16, a first inclined surface 17, a second inclined surface 18, a triggering spring 19, a first guide groove 20, and a first guide block 21, wherein as shown in fig. 19, two first guide grooves 20 are symmetrically formed on an inner side surface of the triggering shell 15, and one end of the triggering shell 15 is fixedly mounted on an outer side surface of the mounting shell 5; one end of the trigger block 16 is provided with a first inclined surface 17 and a second inclined surface 18, the inclined angle of the first inclined surface 17 is smaller than that of the second inclined surface 18, when the coaming 1 is in contact fit with the first inclined surface 17 on the trigger block 16 in the swinging process, because the inclined angle of the first inclined surface 17 is smaller than that of the second inclined surface 18, the resistance of the coaming 1 on the first inclined surface 17 on the trigger block 16 is relatively large, the coaming 1 is not easy to extrude the trigger block 16 back into the trigger shell 15, and when the coaming 1 is in contact fit with the second inclined surface 18 on the trigger block 16 in the swinging process, because the inclined angle of the second inclined surface 18 is larger than that of the first inclined surface 17, the resistance of the coaming 1 on the second inclined surface 18 on the trigger block 16 is relatively small, the coaming 1 can easily extrude the trigger block 16 back; according to the invention, by designing different inclination angles of the first inclined surface 17 and the second inclined surface 18, the situation that the enclosing plate 1 cannot easily trigger the trigger mechanism 3 to swing outwards in the swinging process can be ensured, but the enclosing plate 1 can easily exceed the trigger mechanism 3 to swing inwards to reset; the other end of the trigger block 16 is symmetrically provided with two first guide blocks 21, and the trigger block 16 is arranged on the trigger shell 15 through the sliding fit of the two first guide blocks 21 and two first guide grooves 20 formed on the trigger shell 15; the two first guide blocks 21 are matched with the two first guide grooves 20 to guide the trigger block 16; a trigger spring 19 is arranged between the end surface of the trigger block 16 at one end provided with the first guide block 21 and the inner end surface of the trigger shell 15; the trigger spring 19 plays a role in resetting the trigger block 16; the first inclined plane 17 on the trigger block 16 is close to the corresponding coaming 1; the coaming 1 can not be easily triggered to swing outwards in the swinging process, but the coaming 1 can easily exceed the triggering mechanism 3 to swing inwards to reset.

As shown in fig. 25, the limiting mechanism 29 includes a limiting block 35, a limiting spring 36, a limiting casing 37, a second guide block 38, and a second guide groove 39, wherein as shown in fig. 26, two second guide grooves 39 are symmetrically formed on an inner side surface of the limiting casing 37, and one end of the limiting casing 37 is fixedly mounted on the inner side surface of the mounting shell 5; the upper side surface and the lower side surface of one end of the limiting block 35 are both provided with an inclined surface, and the inclined angle of the inclined surface positioned at the upper side of the limiting block 35 is smaller than the inclined angle of the inclined surface positioned at the lower side of the limiting block 35, when the clamping block 40 arranged on the driving block 30 is in contact fit with the lower side inclined surface on the limiting block 35 in the upward moving process, because the inclined angle of the inclined surface positioned at the upper side of the limiting block 35 is smaller than the inclined angle of the inclined surface positioned at the lower side of the limiting block 35, the resistance of the driving block 30 on the upper side inclined surface of the limiting block 35 is relatively smaller because the inclined angle of the inclined surface at the upper side of the limiting block 35 is smaller than the inclined angle of the inclined surface positioned at the lower side of the limiting block 35 when the clamping block 40 arranged on the driving block 30 is in contact fit with the, the driving block 30 is not easy to extrude the limit block 35 back into the limit shell 37, and in the invention, by designing different inclined angles of the upper inclined surface and the lower inclined surface on the limit block 35, the driving block 30 can be ensured to easily trigger the limit mechanism 29 to move upwards in the process of moving upwards, but the driving block 30 cannot easily exceed the trigger mechanism 3 to move downwards, and the limit block 35 can limit the downward movement of the driving block 30; the driving spring 7 has a certain pulling force, and the first telescopic swing plate 32 and the second telescopic swing plate 33 are kept in a straightened state through the pulling force; the other end of the limiting block 35 is symmetrically provided with two second guide blocks 38, and the limiting block 35 is arranged on the limiting shell 37 through the sliding fit of the two second guide blocks 38 and two second guide grooves 39 formed in the limiting shell 37; the two second guide blocks 38 are in sliding fit with the two second guide grooves 39 to guide the limiting block 35; a limiting spring 36 is arranged between the end surface of one end of the limiting block 35, provided with the second guide block 38, and the inner end surface of the limiting shell 37; the limiting spring 36 plays a role in resetting the limiting block 35; the inclined surface of the trigger block 16 located on the upper side faces away from the drive block 30 in the initial state.

Two guide wheels 27 which play a role in guiding the hook 4 are arranged on the inner side of the upper end of the mounting shell 5 through two symmetrically distributed fixed shafts 28; the two hooks 4 are positioned vertically downwards at the end inside the mounting shell 5 by means of guide wheels 27.

An installation block 23 is fixedly installed on the outer circumferential surface of the fixed rotating shaft 24, and a plate spring 22 is respectively installed between both sides of the installation block 23 and the inner side surface of the installation shell 5.

As shown in fig. 33, for two hooks 4 mounted on the same mounting case 5, the connecting ropes connected to the two hooks 4 pass through two circular holes 12 formed in the mounting case 5, and then are connected together by bypassing the corresponding guide wheels 27, and then the connecting points of the two connecting ropes are connected to the upper end of the driving block 30 by a pulling rope 26; the synchronization of the two hooks 4 is maintained by means of the pull cord 26.

The drive spring 7 is an extension spring.

Two ends of the bottom plate 8 are symmetrically provided with two countersunk holes 45, and the bottom plate 8 is fixedly arranged on the upper side of the ground through the two countersunk holes 45 and countersunk bolts; all install the downside of side on bottom plate 8 through counter sink 45 with the bolt, prevent that passing car and pedestrian from colliding with on the bolt that is higher than side on bottom plate 8, bring the potential safety hazard to passing car and pedestrian.

The lower end of the mounting case 5 is fixedly mounted on the upper side of the bottom plate 8 by welding.

The fixed rotary shaft 24 is mounted in a fixed shaft hole 13 formed in the mounting case 5 through a bearing.

The specific working process is as follows: when the enclosure designed by the invention is used, when the enclosure is installed, one of the fixed supporting mechanisms 2 is firstly fixed on the upper side of the ground, then a proper enclosure plate 1 is selected according to actual requirements, one end of the enclosure plate 1 is fixed on the fixed supporting mechanism 2 fixed on the upper side of the ground, then the other fixed supporting mechanism 2 is fixed on a proper position on the ground according to the size of the enclosure plate 1, and finally the other end of the enclosure plate 1 is connected with the fixed supporting mechanism 2 and is sequentially transmitted, so that the enclosure plate 1 finally encloses a enclosure needed by people through the fixation of the fixed supporting mechanism 2; in the fixed supporting mechanism 2, the first telescopic swing plate 32 and the second telescopic swing plate 33 which are positioned at two sides of the lower side are respectively nested in the mounting shell 5 and the bottom plate 8 in a normal state, so that passing automobiles and pedestrians are prevented from colliding on the first telescopic swing plate 32 and the second telescopic swing plate 33 in the normal state, and potential safety hazards are brought to the passing automobiles and pedestrians; when the weather is strong wind and the swinging force of the enclosing plate 1 blown by wind is enough to trigger the trigger mechanism 3, the enclosing plate 1 swings to pull the driving block 30 to move upwards through the hook 4, the driving block 30 moves upwards to pull the driving spring 7 installed on the driving block 30, so that the driving spring 7 pulls the connecting pin 43 connected with the first telescopic swinging plate 32 and the second telescopic swinging plate 33 at two sides to move upwards, the connecting pin 43 moves upwards to drive the first telescopic swinging plate 32 and the second telescopic swinging plate 33 to swing upwards, finally the first telescopic swinging plate 32 and the second telescopic swinging plate 33 are straightened, the fixture block 40 installed on the driving block 30 also moves to the upper side of the limiting mechanism 29, the fixture block 40 is limited through the limiting mechanism 29, so that the two driving springs 7 are always in a stretching state, and the first telescopic swinging plate 32 and the second telescopic swinging plate 33 are kept in a straightening state through the tension of the driving spring 7, the joint of the mounting shell and the bottom plate 8 is reinforced, and the enclosure is prevented from being blown down.

Claims

1. The utility model provides a green building construction equipment which characterized in that: the device comprises enclosing plates and fixed supporting mechanisms, wherein a plurality of fixed supporting mechanisms are uniformly fixed on the upper side of the ground in an area needing to be provided with an enclosing barrier, one enclosing plate is respectively arranged between two adjacent fixed supporting mechanisms, and the left end and the right end of each enclosing plate are respectively fixed on the two corresponding fixed supporting mechanisms;

the left end and the right end of the coaming are symmetrically provided with two fixing holes, and the two fixing holes are positioned at the upper end of the coaming; two fixing sleeves are symmetrically arranged on the left side and the right side of the lower end of the enclosing plate;

the fixed supporting mechanism comprises a triggering mechanism, a hook, a mounting shell, a limiting plate, a driving spring, a bottom plate, a fixed square block, a plate spring, a fixed rotating shaft, a limiting mechanism, a driving block, a fixed guide rail, a first telescopic swing plate, a second telescopic swing plate, a limiting arc plate and a clamping block, wherein the upper end surface of the bottom plate is provided with a mounting groove, and the bottom plate is fixedly mounted on the ground through a bolt; two circular holes are symmetrically formed in the left side surface and the right side surface of the upper end of the mounting shell, two square notches communicated with the lower end of the mounting shell are symmetrically formed in the front side surface and the rear side surface of the lower end of the mounting shell, two fixing shaft holes are symmetrically formed in the left side surface and the right side surface of the lower end of the mounting shell, and the lower end of the mounting shell is mounted on the upper side of the bottom plate; two trigger mechanisms which have a limiting effect on the front-back swing angle of the coaming are respectively and symmetrically arranged on the left outer side surface and the right outer side surface of the upper end of the mounting shell in a front-back mode, and the four trigger mechanisms are arranged on the left side and the right side of the mounting shell in a pairwise mode and are mutually symmetrical; two limiting plates which have the limiting effect on the front-back swing angle of the coaming are respectively and symmetrically arranged on the left outer side surface and the right outer side surface of the mounting shell in a front-back mode, and the four limiting plates are symmetrical to each other on the left side and the right side of the mounting shell in a group of two limiting plates; one end of each fixed square block is provided with a fixed rotating shaft, the two fixed square blocks are symmetrically arranged on the left side and the right side of the lower end of the mounting shell respectively through the rotating matching of the fixed rotating shaft arranged on the fixed square blocks and the two fixed shaft holes arranged on the mounting shell, and the two fixed square blocks are both positioned on the outer side of the mounting shell; leaf springs for limiting the rotation of the fixed rotating shafts are respectively arranged between the two fixed rotating shafts and the mounting shell; the other ends of the two fixed squares are respectively nested and matched with one of the two fixed sleeves which are arranged on the corresponding coaming and are close to the fixed squares; the driving block is arranged on the inner side of the mounting shell through a fixed guide rail; the two clamping blocks are symmetrically arranged on two sides of the upper end of the driving block; the two limiting mechanisms are symmetrically arranged on two side surfaces in the mounting shell and are correspondingly matched with the two clamping blocks; the connecting ropes are connected to the hooks, the two hooks are symmetrically installed on the left side and the right side of the upper end of the installation shell, the two hooks are respectively hooked and sleeved on one fixing hole corresponding to the hook in two fixing holes formed in the corresponding enclosing plate, and the connecting ropes connected to the two hooks penetrate through two circular holes formed in the installation shell and are connected with the upper end of the driving block; the first square avoidance opening is formed in the telescopic inner plate of each first telescopic swing plate, the two first telescopic swing plates are symmetrically installed on the installation shell through a first fixing pin respectively, and in an initial state, the two first telescopic swing plates are located in the installation shell; a second square avoidance opening is formed in a telescopic inner plate of each second telescopic swing plate, one ends of the two second telescopic swing plates are hinged to the first telescopic swing plate through connecting pins respectively, the other ends of the two second telescopic swing plates are symmetrically installed on two sides of the bottom plate through second fixing pins respectively, and the two second telescopic swing plates are located in installation grooves formed in the bottom plate in an initial state; the two connecting pins are connected with the lower end of the driving block through two driving springs which are symmetrically distributed; the first telescopic swing plate is provided with a limit arc plate, and the limit arc plate is matched with the second telescopic swing plate;

2. A green building construction device according to claim 1, wherein: the trigger mechanism comprises a trigger shell, a trigger block, a first inclined plane, a second inclined plane, a trigger spring, first guide grooves and first guide blocks, wherein two first guide grooves are symmetrically formed in the inner side surface of the trigger shell, and one end of the trigger shell is fixedly arranged on the outer side surface of the mounting shell; one end of the trigger block is provided with a first inclined plane and a second inclined plane, the inclined angle of the first inclined plane is smaller than that of the second inclined plane, the other end of the trigger block is symmetrically provided with two first guide blocks, and the trigger block is arranged on the trigger shell through the sliding fit of the two first guide blocks and two first guide grooves formed in the trigger shell; a trigger spring is arranged between the end surface of the trigger block, which is provided with the first guide block, and the inner end surface of the trigger shell; the first inclined plane on the trigger block is close to the corresponding coaming.

3. A green building construction device according to claim 1, wherein: the limiting mechanism comprises a limiting block, a limiting spring, a limiting shell, a second guide block and a second guide groove, wherein two second guide grooves are symmetrically formed in the inner side surface of the limiting shell, and one end of the limiting shell is fixedly installed on the inner side surface of the installation shell; the upper side surface and the lower side surface of one end of the limiting block are both provided with inclined surfaces, the inclined angle of the inclined surface positioned on the upper side of the limiting block is smaller than that of the inclined surface positioned on the lower side of the limiting block, the other end of the limiting block is symmetrically provided with two second guide blocks, and the limiting block is arranged on the limiting shell through the sliding fit of the two second guide blocks and two second guide grooves formed in the limiting shell; a limiting spring is arranged between the end face of one end of the limiting block, provided with the second guide block, and the inner end face of the limiting shell; the inclined surface on the upper side of the trigger block faces away from the driving block in an initial state.

4. A green building construction device according to claim 1, wherein: two guide wheels which play a role in guiding the hook are arranged on the inner side of the upper end of the mounting shell through two symmetrically distributed fixing shafts.

5. A green building construction device according to claim 1, wherein: and a mounting block is fixedly mounted on the outer circular surface of the fixed rotating shaft, and a plate spring is respectively mounted between the two sides of the mounting block and the inner side surface of the mounting shell.

6. The green building construction device according to claim 4, wherein: to installing two couples on same installation shell, the connection rope of connecting on two couples passes two circular ports of opening on the installation shell, later links together around the leading wheel that corresponds, then the tie point of two connection ropes is connected with the upper end of drive block through a stay cord.

7. A green building construction device according to claim 1, wherein: the drive spring is an extension spring.

8. A green building construction device according to claim 1, wherein: two ends of the bottom plate are symmetrically provided with two countersunk holes, and the bottom plate is fixedly arranged on the upper side of the ground through the two countersunk holes and the countersunk bolts.

9. A green building construction device according to claim 1, wherein: the lower end of the mounting shell is fixedly mounted on the upper side of the bottom plate in a welding mode.

10. A green building construction device according to claim 1, wherein: the fixed rotating shaft is arranged in a fixed shaft hole formed in the mounting shell through a bearing.