CN113356683A - Building construction protective fence - Google Patents

Abstract

The utility model relates to a technical field that the room was built discloses construction rail guard in room, and it includes the base and sets up the railing on the base, be provided with the elevation structure that the drive railing goes up and down on the base, the storage tank has been seted up to the rear end of base, first fixed orifices and second fixed orifices have been seted up to the up end of base, elevation structure sets up the second dead lever in the second fixed orifices and sets up the drive assembly in the storage tank including sliding in first dead lever in first fixed orifices, sliding, the up end of first dead lever and second dead lever all is connected with the railing, and this application has labour saving and time saving's effect when installing the rail guard.

Description

Building construction protective fence

Technical Field

The application relates to the technical field of building, in particular to a building construction protective guard.

Background

At present, the guardrail is mainly used in occasions such as houses, roads, commercial districts, public places and the like, and mainly protects and protects personal safety and equipment facilities.

Chinese patent with publication number CN203729663U discloses a guard rail, which comprises a left supporting beam and a right supporting beam, wherein the left supporting beam and the right supporting beam are transversely provided with a plurality of cross beams, and a plurality of guard bars are longitudinally arranged at intervals.

In view of the above-mentioned related art, the inventor thinks that the guard rail is formed by splicing a plurality of parts, but the number of spliced parts is large, and the time and labor required for building the guard rail are large.

Disclosure of Invention

In order to improve and reduce rail guard installation time, this application provides a building construction rail guard.

The application provides a building construction rail guard adopts following technical scheme:

the utility model provides a construction rail guard is built in room, includes the base and sets up the railing on the base, be provided with the elevation structure that the drive railing goes up and down on the base, the storage tank has been seted up to the rear end of base, first fixed orifices and second fixed orifices have been seted up to the up end of base, elevation structure sets up the second dead lever in the second fixed orifices and sets up the drive assembly in the storage tank including sliding in the first dead lever in first fixed orifices, sliding, the up end of first dead lever and second dead lever all is connected with the railing.

By adopting the technical scheme, the base is firstly installed on the ground, the first fixing rod is driven to ascend through the driving assembly, the first fixing rod drives the handrail to ascend, the handrail can be quickly installed, the handrail does not need to be assembled, the installation time is shortened, the labor cost is reduced, and the installation efficiency is improved; first dead lever and second dead lever set up simultaneously, play direction and limiting displacement, make the railing remove along the axis direction of first fixed orifices to make the railing can not rotate at the lift in-process.

Optionally, the driving assembly comprises an operating rod and a rack, the operating rod is rotatably connected with the end face of the containing groove far away from the opening, the rack is arranged on the first fixing rod, a fixed gear is arranged on the operating rod, the rack is meshed with the fixed gear, and a first locking piece is arranged on the operating rod and used for limiting the operating rod to rotate.

Through adopting above-mentioned technical scheme, the action bars rotates, drives the fixed gear and rotates, because fixed gear and rack meshing, fixed gear drive rack and first dead lever rise or descend together.

Optionally, the first locking piece comprises an operating panel connected with the end face of the operating rod far away from the accommodating groove, a threaded hole is formed in one side, facing the base, of the operating panel, a threaded rod is connected to the threaded hole in an internal thread mode, and a limiting hole for the threaded rod to be embedded is formed in the base.

By adopting the technical scheme, the fixed gear can be rotated by driving the operating rod and the operating panel, but compared with the operation of holding the operating panel by hands, the contact surface between the hands and the operating panel is larger, and the operating panel is easier to rotate; when the threaded rod is embedded into the limiting hole, the operation plate can be limited from rotating, namely, the operation rod and the fixed gear are limited from rotating, so that the handrail does not ascend or descend any more.

Optionally, the number of the lifting structures is two, and the two lifting structures are distributed in an array along the length direction of the base.

Through adopting above-mentioned technical scheme, set up a plurality of elevation structures, increase first dead lever and second dead lever quantity, can share each first dead lever and each second dead lever at the railing atress on, make the effort that every first dead lever/second dead lever received reduce, make first dead lever and second dead lever difficult by buckling, increase the life of first dead lever and second dead lever.

Optionally, two be provided with the linkage subassembly of connecting both between the action bars, the linkage subassembly is including setting up the driving gear on two action bars respectively, two the driving gear overcoat is equipped with the gear area.

Through adopting above-mentioned technical scheme, when there is not linkage subassembly, need a plurality of people to rotate the action bars simultaneously to drive first dead lever and second dead lever and go up and down or descend, when a plurality of people drive action bars pivoted speed is different, different first dead lever/second dead lever rising speed or falling speed are different, lead to first dead lever, second dead lever and base to block easily. And the linkage assembly is added, when one driving gear rotates, the other driving gear can be driven to rotate, the two driving gears synchronously rotate, the two driving gears respectively drive the two racks to synchronously ascend/descend, and meanwhile, the first fixing rod and the second fixing rod cannot be clamped in the ascending or descending process.

Optionally, a sealing plate for sealing the accommodating groove is arranged on the base.

Through adopting above-mentioned technical scheme, set up the closing plate for it is sealed with the storage tank, prevent that the foreign matter from entering into in the storage tank.

Optionally, a reinforcing structure for connecting the first fixing rod and the second fixing rod is arranged between the first fixing rod and the second fixing rod, the reinforcing structure comprises a first fixing block which is rotatably connected to the first fixing rod, a mounting hole for the first fixing block to rotate over is formed in the second fixing rod, and a second locking piece connected with the second fixing rod is arranged on the first fixing block.

By adopting the technical scheme, when the first fixing rod and the second fixing rod are connected, the first fixing block is rotated to be embedded into the mounting hole, and then the first fixing block is connected with the second fixing rod through the second locking piece to limit the movement of the first fixing block, so that the strength between the first fixing rod and the second fixing rod is increased; otherwise, the first fixing block is separated from the second fixing rod.

Optionally, a clamping groove is formed in the front end and/or the rear end of the first fixing block, the second locking piece comprises a clamping block and a spring which are arranged in the clamping groove, the two ends of the spring are respectively far away from the end face of the opening and the clamping block and fixedly connected with the clamping groove, and a second clamping hole for embedding the clamping block into the second fixing rod is formed in the second fixing rod.

By adopting the technical scheme, the driving clamping block is embedded into the clamping groove, the spring is compressed and deformed at the same time, the first fixing block is rotated, when the clamping groove is aligned with the second clamping hole, the spring is reset and embedded into the second clamping hole to fix the first fixing block, and the strength between the first fixing rod and the second fixing rod is increased; otherwise, the first fixing block is separated from the second fixing rod.

Optionally, a first fixing hole for embedding the fixture block is formed in the first fixing rod.

Through adopting above-mentioned technical scheme, when need not connect first dead lever and second dead lever, with the fixture block embedding to first calorie of downthehole, make the difficult rotation of first fixed block, it is fixed with first fixed block and first dead lever.

Optionally, a support plate is rotatably connected below the base.

Through adopting above-mentioned technical scheme, rotate the back with the backup pad, make the length direction of backup pad perpendicular with the length direction of base, make the base be difficult for empting.

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

1. the base is installed on the ground, the first fixing rod is driven to ascend through the driving assembly, the first fixing rod drives the handrail to ascend, the handrail can be installed quickly, the handrail does not need to be assembled, the installation time is shortened, the labor cost is reduced, and the installation efficiency is improved; the first fixing rod and the second fixing rod are arranged at the same time, so that the guide and limiting effects are achieved, the handrail moves along the axis direction of the first fixing hole, and the handrail cannot rotate in the lifting process;

2. set up additional strengthening, improve the intensity between first dead lever and the second dead lever, make difficult buckling damage between first dead lever and the second dead lever.

Drawings

FIG. 1 is a schematic structural view of the present application when the tie bar is not pulled out;

FIG. 2 is a schematic view of the structure of the pull rod when pulled out;

FIG. 3 is an exploded view showing the inner structure of the receiving groove;

FIG. 4 is a partial cross-sectional view highlighting the first locking member;

fig. 5 is a partial cross-sectional view highlighting the second locking element.

Reference numerals: 1. a base; 11. a containing groove; 12. a first fixing hole; 13. a second fixing hole; 14. a limit ring block; 141. a second jack; 15. a bolt; 16. a first operation hole; 17. a limiting groove; 18. a support groove; 19. rotating the groove; 2. a railing; 3. a lifting structure; 31. a first fixing lever; 311. a groove; 312. mounting grooves; 313. a circular hole; 314. a round bar; 315. a first card hole; 32. a second fixing bar; 321. mounting holes; 322. a second card hole; 33. a drive assembly; 331. a rack; 332. fixing a gear; 333. an operating lever; 34. a first locking member; 341. an operation panel; 3411. a threaded hole; 342. a threaded rod; 343. an operating sleeve; 4. a sealing plate; 41. a first jack; 42. a second operation hole; 5. a linkage assembly; 51. a driving gear; 52. a gear belt; 6. a reinforcing structure; 61. a fixed block; 611. a card slot; 62. a second locking member; 621. a clamping block; 622. a spring; 7. a support plate; 71. and (6) turning the block.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment discloses a building construction protective guard. Referring to fig. 1 and 2, a building construction protective guard includes a base 1 and a rail 2 disposed on the base 1, a plurality of lifting structures 3 for driving the rail 2 to lift are disposed on the base 1, and the plurality of lifting structures 3 are distributed in an array manner along the length direction of the base 1. The number of the lifting structures 3 is two in this embodiment.

Referring to fig. 2 and 3, the lifting structure 3 includes a first fixing rod 31, a second fixing rod 32 and a driving assembly 33, wherein the first fixing rod 31 and the second fixing rod 32 are respectively fixedly connected to the lower end surface of the balustrade 2. The first fixing lever 31 and the second fixing lever 32 are parallel to each other.

Referring to fig. 2 and 3, a containing groove 11 is formed at the rear end of the base 1, two first fixing holes 12 and two second fixing holes 13 are formed in the upper end surface of the base 1, and the two first fixing holes 12 and the two second fixing holes 13 are communicated with the containing groove 11. The first fixing holes 12 are alternately arranged with the second fixing holes 13.

Referring to fig. 2 and 3, a sealing plate 4 for sealing the accommodating groove 11 is disposed on the base 1, a limit ring block 14 is fixedly connected to an inner wall of the accommodating groove 11, and an axis of the limit ring block 14 is the same as an axis of the accommodating groove 11. The sealing plate 4 is located on one side of the limit ring block 14 far away from the lifting structure 3, and a plurality of first insertion holes 41 are formed in one side of the sealing plate 4 far away from the limit ring block 14. The side of the retainer ring block 14 facing the sealing plate 4 is provided with a plurality of second insertion holes 141, and the plurality of second insertion holes 141 correspond to the plurality of first insertion holes 41 one by one. And a bolt 15 for connecting the sealing plate 4 and the limit ring block 14 is arranged between the sealing plate and the limit ring block, and the bolt 15 penetrates through the first insertion hole 41 and then is in threaded connection with the second insertion hole 141.

Referring to fig. 2, the first fixing rod 31 is inserted into the first fixing hole 12 and can slide in the axial direction of the first fixing hole 12. The second fixing rod 32 is inserted into the second fixing hole 13 and can slide in the axial direction of the second fixing hole 13.

Referring to fig. 3 and 4, a driving assembly 33 is provided on the base 1 for driving the first fixing rod 31 to ascend or descend in the axial direction of the first fixing hole 12. The first fixing rod 31 is provided with a groove 311 at a side far away from the second fixing rod 32. The end surface of the containing groove 11 away from the opening is provided with a first operation hole 16.

Referring to fig. 3 and 4, the driving assembly 33 includes a fixed gear 332, a rack 331, and an operating lever 333. The operation rod 333 is inserted into the first operation hole 16 and inserted into the receiving groove 11, and the operation rod 333 is capable of rotating in the first operation hole 16. The fixed gear 332 is provided with a through hole for the operating rod 333 to pass through, and the fixed gear 332 is in key connection with the operating rod 333. The rack 331 is fixedly connected in the recess 311, and the block of teeth on the rack 331 does not protrude out of the recess 311. During the lifting of the first fixing lever 31, the first fixing lever 31 is not interfered by the rack 331. The rack 331 is engaged with the fixed gear 332. In other embodiments, the groove 311 may be opened at a side of the first fixing lever 31 facing the second fixing lever 32.

Referring to fig. 3 and 4, the sealing plate 4 is provided with a second operation hole 42, and the second operation hole 42 is penetrated by an operation rod 333. When the operating rod 333 is inserted into the second operating hole 42, the side of the operating rod 333 away from the first operating hole 16 is supported by the sealing plate 4, so that the acting force of the first fixing rod 31 and the rack 331 on the operating rod 333 is transmitted to the sealing plate 4, the operating rod 333 is not easy to bend, and the service life of the operating rod 333 is prolonged.

Referring to fig. 1 and 4, the lever 333 is provided with a first locking member 34, and the first locking member 34 is used to limit the rotation of the lever 333. The first locking member 34 includes an operation plate 341 and a threaded rod 342, and the operation plate 341 is detachably connected to an end surface of the operation rod 333 remote from the sealing plate 4. An operating sleeve 343 is fixedly connected to one side of the operating panel 341 facing the operating rod 333, and the operating sleeve 343 is screwed to the operating rod 333. A threaded hole 3411 is opened on one side of the operating panel 341 away from the base 1, and the threaded rod 342 is screwed in the threaded hole 3411. The base 1 is provided with a plurality of limiting grooves 17 for the threaded rod 342 to be embedded. A plurality of retaining grooves 17 are distributed in a circumferential array along the axis of the first handling hole 16. In other embodiments, the operation panel 341 is detachably connected to the end surface of the operation rod 333 away from the sealing plate 4; alternatively, two operation panels 341 may be provided, and the two operation panels 341 may be detachably connected to both ends of the operation rod 333.

Referring to fig. 3 and 4, a linkage assembly 5 connecting the two operation levers 333 is provided between the two operation levers 333, and the linkage assembly 5 is used to rotate the two operation levers 333 synchronously. The linkage assembly 5 includes two driving gears 51 and a gear belt 52, the two driving gears 51 are respectively disposed on the two operating rods 333, and the driving gears 51 are keyed with the operating rods 333. The gear belt 52 is sleeved outside the two driving gears 51. When any one of the operating rods 333 rotates, the operating rod 333 drives the pinion gear 51 thereon to rotate, the pinion gear 51 drives the gear belt 52 to move, the gear belt 52 drives the other pinion gear 51 to rotate, and the other pinion gear 51 drives the rack 331 engaged with the other pinion gear 51 to ascend or descend. In other embodiments, the gear belt 52 may be replaced with a chain.

Referring to fig. 2 and 5, a reinforcing structure 6 connecting the first fixing lever 31 and the second fixing lever 32 is provided therebetween. The first fixing rod 31 has a mounting groove 312 formed at a side thereof facing the second fixing rod 32, and the second fixing rod 32 has a mounting hole 321 formed at a side thereof facing the first fixing rod 31. The lower end surface of the mounting groove 312 is coplanar with the lower end surface of the mounting hole 321. The reinforcing structure 6 includes a first fixing block 61 and a second locking member 62, and the first fixing block 61 is rotatably coupled in the mounting groove 312.

Referring to fig. 2 and 5, the first fixing rod 31 has circular holes 313 formed at both ends along the axis of the operating rod 333 and having the mounting grooves 312 communicated with each other, and a circular rod 314 is inserted into the circular hole 313. The first fixing block 61 is sleeved outside the round rod 314, and the first fixing block 61 can rotate along the axis of the round rod 314. The length of the first fixing block 61 is longer than the distance between the first fixing rod 31 and the second fixing rod 32. When the first fixing block 61 is rotated to be horizontal, the first fixing block 61 is inserted into the mounting hole 321.

Referring to fig. 5, the second locking members 62 are provided in two, two second locking members 62 are both provided on the first fixing block 61, and the two second locking members 62 are symmetrical along the axis of the first fixing block 61. The clamping groove 611 is formed in the first fixing block 61 towards the two end sides of the two round holes 313, the second locking piece 62 comprises a clamping block 621 and a spring 622, the clamping block 621 and the spring 622 are both arranged in the clamping groove 611, and the two ends of the spring 622 are respectively far away from the end face of the opening and the clamping block 621 and are fixedly connected with the clamping groove 611. The side of the latch 621 away from the spring 622 is configured as a circular arc surface.

Referring to fig. 2 and 5, the front end and the rear end of the first fixing rod 31 are both provided with first clamping holes 315, the two first clamping holes 315 are both communicated with the mounting groove 312, and the first clamping holes 315 can be used for embedding the first fixing block 61. When the latch 621 is inserted into the first latch hole 315, the first fixing rod 31 is completely located in the mounting groove 312, and the first fixing rod 31 is in a vertical state.

Referring to fig. 2 and 5, the front end and the rear end of the second fixing rod 32 are both provided with second clamping holes 322, the two second clamping holes 322 are both communicated with the mounting hole 321, and the second clamping holes 322 can be used for embedding the first fixing block 61. When the latch 621 is inserted into the second latching hole 322, the first fixing rod 31 is partially inserted into the mounting hole 321, and the second fixing rod 32 is in a horizontal state, so that the stability between the first fixing rod 31 and the second fixing rod 32 is improved.

Referring to fig. 5, in other embodiments, the second locking member 62 is provided in one, and the second locking member 62 is provided at either side of the first fixing lever 31 along the axis of the circular hole 313.

Referring to fig. 3, a supporting groove 18 is formed below the base 1, and the supporting groove 18 penetrates the base 1 along the width direction of the base 1. The top surface of the supporting groove 18 is rotatably connected with a supporting plate 7, and the lower end surface of the supporting plate 7 is coplanar with the lower end surface of the base 1. The upper end surface of the supporting plate 7 is fixedly connected with a rotating block 71 with an inverted T-shaped section, and the top surface of the supporting groove 18 is provided with a rotating groove 19 for the rotating block 71 to be embedded in.

The implementation principle of the building construction protective guard of the embodiment of the application is as follows: when the guard rail is installed, the guard rail is moved to a designated position, the guard rail is fixed on the ground, the operating panel 341 is driven to rotate, the first fixing rod 31, the second fixing rod 32 and the handrail 2 ascend together, after the handrail 2 ascends to a required height, the threaded rod 342 is driven to rotate, the threaded rod 342 is embedded into the limiting groove 17, and the operating panel 341 is fixed, so that the handrail 2 does not ascend any more.

The above description is only a preferred embodiment of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like made within the design concept of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a construction rail guard is built in room, includes base (1) and sets up railing (2) on base (1), its characterized in that: be provided with elevation structure (3) that drive railing (2) goes up and down on base (1), storage tank (11) have been seted up to the rear end of base (1), first fixed orifices (12) and second fixed orifices (13) have been seted up to the up end of base (1), elevation structure (3) are including sliding first dead lever (31) that sets up in first fixed orifices (12), sliding second dead lever (32) that sets up in second fixed orifices (13) and setting up drive assembly (33) in storage tank (11), the up end of first dead lever (31) and second dead lever (32) all is connected with railing (2).

2. The building construction protective guard of claim 1, wherein: the driving assembly (33) comprises an operating rod (333) and a rack (331), wherein the operating rod (333) is rotatably connected with the end face of the containing groove (11) far away from the opening, the rack (331) is arranged on the first fixing rod (31), a fixed gear (332) is arranged on the operating rod (333), the rack (331) is meshed with the fixed gear (332), and a first locking piece (34) is limited to rotate by the operating rod (333) is arranged on the operating rod (333).

3. The building construction protective guard of claim 2, wherein: the first locking part (34) comprises an operation disc (341) connected with the end face, away from the accommodating groove (11), of the operation rod (333), a threaded hole (3411) is formed in one side, facing the base (1), of the operation disc (341), a threaded rod (342) is connected with the threaded hole (3411) in a threaded mode, and a limiting hole (17) for the threaded rod (342) to be embedded into is formed in the base (1).

4. The building construction protective guard of claim 2, wherein: the lifting structure (3) is provided with two, and the two lifting structures (3) are distributed in an array mode along the length direction of the base (1).

5. The building construction protective guard of claim 4, wherein: two be provided with between action bars (333) and connect linkage subassembly (5) between them, linkage subassembly (5) are including setting up driving gear (51) on two action bars (333) respectively, two driving gear (51) overcoat is equipped with gear belt (52).

6. The building construction protective guard of claim 1, wherein: and a sealing plate (4) used for sealing the accommodating groove (11) is arranged on the base (1).

7. The building construction protective guard of claim 1, wherein: be provided with between first dead lever (31) and the second dead lever (32) and be connected between them additional strengthening (6), additional strengthening (6) are including rotating first fixed block (61) of connecting on first dead lever (31), set up on second dead lever (32) and supply first fixed block (61) to change over to mounting hole (321), be provided with second locking piece (62) of being connected with second dead lever (32) on first fixed block (61).

8. The building construction protective guard of claim 7, wherein: the front end and/or the rear end of the first fixing block (61) are/is provided with a clamping groove (611), the second locking piece (62) comprises a clamping block (621) and a spring (622) which are arranged in the clamping groove (611), two ends of the spring (622) are respectively fixedly connected with the end face, far away from the opening, of the clamping groove (611) and the clamping block (621), and the second fixing rod (32) is provided with a second clamping hole (322) for the clamping block (621) to be embedded into.

9. The building construction protective guard of claim 8, wherein: the first fixing rod (31) is provided with a first clamping hole (315) for the clamping block (621) to be embedded in.

10. The building construction protective guard of claim 1, wherein: the supporting plate (7) is rotatably connected below the base (1).

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