CN218375543U - Supporting mechanism for pouring inclined roof - Google Patents

Abstract

The utility model discloses a supporting mechanism for pouring an inclined roof, which comprises a bracket, a roof beam main body arranged on the bracket and an inclined plate hinged on the roof beam main body; an adjusting mechanism for adjusting the gradient of the inclined plate is arranged between the bracket and the inclined plate. The utility model is provided with the pushing piece and the pushing driving component for driving the pushing piece to move, and is used for pushing the inclined plate to swing around the self hinge point, thereby realizing the adjustment of the gradient; the first threaded rod is arranged to rotate to drive the threaded sliding block to move, so that the pushing piece is pushed to slide, and the effect of pushing the inclined plate is achieved; the tail end of the inclined plate is clamped with the wall body through the clamping mechanism, so that the connection stability between the inclined plate and the wall body is improved.

Description

Supporting mechanism for pouring inclined roof

Technical Field

The utility model relates to a building roofing construction technical field especially indicates a bearing mechanism is used to oblique roofing pouring.

Background

The roof usually refers to a roof with a steep roof slope, the slope of the roof is generally greater than 10%, the application of the pitched roof in the building is wide, the pitched roof mainly comprises a single-slope type, a double-slope type, a four-slope type, a folded waist type and the like, the double-slope type and the four-slope type are adopted in many cases, and when the pitched roof is poured, the supporting mechanism is usually used for supporting the pouring auxiliary inclined plate, so that construction operation is convenient for constructors.

However, the existing supporting mechanism for pouring has the problem that construction flexibility cannot be improved when the supporting mechanism is used, so that when the roof with different inclinations is poured, the angle of the supporting mechanism cannot be correspondingly adjusted according to the angle of the roof, the inclined plate cannot be tightly attached to the roof, and pouring quality is affected. Moreover, the existing support mechanism for pouring has the problem that the safety of constructors cannot be improved when in use, and because the stability of the connection between the inclined plate and the wall body is not high when the inclined plate and the wall body are connected through the support mechanism, potential safety hazards are easy to occur when the constructors pour on the inclined plate; therefore, a supporting mechanism for pouring the inclined roof is provided for solving the problems.

Disclosure of Invention

Not enough to among the above-mentioned background art, the utility model provides an oblique roofing is pour and is used supporting mechanism has solved and has pour among the prior art and can not carry out the problem of corresponding regulation according to the angle of roofing with supporting mechanism.

The technical scheme of the utility model is realized like this:

a supporting mechanism for pouring an inclined roof comprises a support, a roof beam main body arranged on the support and an inclined plate hinged on the roof beam main body; an adjusting mechanism for adjusting the gradient of the inclined plate is arranged between the bracket and the inclined plate.

Further, the adjusting mechanism comprises a pushing piece for pushing the inclined plate to swing and a pushing driving assembly for driving the pushing piece to move; the pushing piece is movably connected to the bracket.

Furthermore, the pushing piece is connected with the bracket in a sliding manner, and a second fixing groove connected with the pushing piece in a sliding manner is formed in the bracket; an adjusting rod is hinged between the pushing piece and the inclined plate.

Furthermore, the pushing driving assembly comprises a first threaded rod which is vertically arranged and is rotationally connected to the support and a hand wheel which drives the first threaded rod to rotate, a threaded sliding block is connected to the first threaded rod in a threaded mode, and the threaded sliding block is vertically and slidably connected with the support; and a pulling rod is hinged between the threaded sliding block and the pushing piece.

Further, a first fixing groove is formed in the support and is in sliding connection with the threaded sliding block.

Furthermore, a wall body is arranged at one end, away from the roof beam main body, of the inclined plate, and a clamping mechanism is arranged on the inclined plate and used for connecting the wall body.

Furthermore, the clamping mechanism comprises a frame body and a pair of sliding groove blocks connected to the frame body in a sliding manner, and clamping rods used for clamping the wall body are connected to the sliding groove blocks; the frame body is provided with a movement driving component which drives the pair of sliding groove blocks to move in opposite directions or move back to back.

Further, the movement driving assembly comprises a bidirectional threaded rod rotatably arranged in the frame body, the end part of the bidirectional threaded rod is fixedly connected with a knob, the bidirectional threaded rod is in threaded connection with a pair of threaded sliding toothed plates, and a third fixing groove is formed in the inner wall of the frame body and is in sliding connection with the threaded sliding toothed plates; the threaded sliding toothed plate is engaged with a gear, and the gear is rotationally connected with the inner wall of the frame body; the gear is fixedly connected with a rotating groove rod, and one end, far away from the gear, of the rotating groove rod is connected with the sliding groove block in a sliding mode.

Furthermore, a limit groove in sliding fit with the clamping rod is formed in the frame body.

Furthermore, the tail end of the inclined plate is provided with a water flowing pipe opening.

The utility model has the advantages that: the utility model is provided with the pushing piece and the pushing driving component for driving the pushing piece to move, and is used for pushing the inclined plate to swing around the self hinge point, thereby realizing the adjustment of the gradient; the first threaded rod is arranged to rotate to drive the threaded sliding block to move, so that the pushing piece is pushed to slide, and the effect of pushing the inclined plate is achieved; the tail end of the inclined plate is clamped with the wall body through the clamping mechanism, so that the connection stability between the inclined plate and the wall body is improved; through the rotation of second threaded rod, drive a pair of screw thread sliding toothed plate and follow the third fixed slot and slide in opposite directions or dorsad to drive the rotation of a pair of gear on it, the rotation of a pair of gear drives the swing of a pair of rotation groove pole, make a pair of sliding tray piece carry out the opposite direction or slide dorsad, further drive a pair of supporting rod and play and carry out the effect that the centre gripping is fixed to the position of being connected of swash plate and wall body, in order to realize the control operation to improving constructor construction safety nature.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive work.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a rear view structure diagram of the present invention;

fig. 3 is a schematic structural view of the clamping mechanism of the present invention;

fig. 4 is a schematic structural view of the inclined plate and the wall body of the clamping mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and 2, embodiment 1 of the present invention provides a supporting mechanism for pouring a pitched roof, including a support 2, a roof beam main body 1 and an inclined plate 11 which are arranged on the support 2, the upper end of the inclined plate 11 is hinged on the roof beam main body 1, and the inclined plate 11 is provided with an adjusting mechanism for adjusting the gradient of the inclined plate 11 between the lower end of the inclined plate 11 and the support 2. The adjusting mechanism comprises a pushing piece 8 for pushing the inclined plate 11 to swing around a self hinge point and a pushing driving assembly for driving the pushing piece 8 to move. The swash plate 11 is swung around self pin joint, realizes the adjustment of slope.

In this embodiment, the pushing member 8 is slidably connected to the bracket 2, and an adjusting rod 10 is hinged between the pushing member and the inclined plate 11, that is, two ends of the adjusting rod 10 are respectively hinged to the pushing member 8 and the bracket 2. A second fixing groove 9 connected with the pushing piece 8 in a sliding mode is formed in the support 2, and the length direction of the second fixing groove 9 is consistent with the length direction of projections of the inclined plate 11 and the adjusting rod 10 on the support 2; through the slip of impeller 8, drive the motion of adjusting pole 10 to promote swash plate 11 and swing around self pin joint, carry out the adjustment of slope. In this embodiment, the pushing member 8 is a sliding shaft block in sliding fit with the second fixing groove 9.

Embodiment 2, which is different from embodiment 1 in that, as shown in fig. 1 and 2, the pushing drive assembly includes a first threaded rod 3 rotatably connected to the bracket 2 and a hand wheel 4 for driving the first threaded rod 3 to rotate, and the first threaded rod 3 is vertically arranged on the bracket 2. A threaded sliding block 5 is connected to the first threaded rod 3 in a threaded manner, and the threaded sliding block 5 is vertically and slidably connected with the support 2; seted up vertical first fixed slot 6 on the support 2, first fixed slot 6 is used for spacing screw sliding block 5 with 5 sliding connection of screw sliding block for under the rotation effect of first threaded rod 3, avoid screw sliding block 5 to rotate and produce and slide. And a pulling rod 7 is hinged between the threaded sliding block 5 and the pushing part 8, namely, two ends of the pulling rod 7 are respectively hinged with the threaded sliding block 5 and the pushing part 8. The pushing piece 8 is pushed to slide through the threaded sliding block 5, and the function of pushing the inclined plate 11 is achieved.

Embodiment 3 differs from embodiment 2 in that, as shown in fig. 3, a wall 12 is provided at one end of the sloping plate 11 away from the roof beam main body 1, and a clamping mechanism is provided on the sloping plate 11 for connecting the wall 12. In this embodiment, the swash plate 11 is equipped with rotatable vertical board and is used for laminating wall body 12 far away from the one end of roof beam main part 1, and fixture presss from both sides vertical board and wall body 12 together, plays the effect of connecting wall body 12.

Further, the clamping mechanism comprises a frame body 13 and a pair of chute blocks 20 connected to the frame body 13 in a sliding manner, wherein the frame body 13 is arranged on a vertical plate at the tail end of the inclined plate 11. The sliding groove blocks 20 are connected with clamping rods 21 for clamping the wall body 12, and the clamping rods 21 are driven to clamp the wall body 12 through the opposite or back movement of the pair of sliding groove blocks 20; the frame body 13 is provided with a movement driving assembly for driving the pair of chute blocks 20 to move towards or away from each other.

Embodiment 4, which is different from embodiment 3 in that, as shown in fig. 3, the movement driving assembly includes a bidirectional threaded rod 14 rotatably disposed inside the frame body 13, and in this embodiment, the bidirectional threaded rod 14 is horizontally disposed inside the frame body 13. The frame body 13 is rotatably connected with a knob 15 fixedly connected with the end of the bidirectional threaded rod 14 and used for rotating the bidirectional threaded rod 14. A pair of threaded sliding toothed plates 16 are connected to the bidirectional threaded rod 14 in a threaded manner, and the pair of threaded sliding toothed plates 16 are respectively matched with two parts of threads on the bidirectional threaded rod 14 in opposite rotating directions. A pair of threaded sliding tooth plates 16 can move toward each other or away from each other. And a horizontal third fixing groove 17 is formed in the inner wall of the frame body 13 and is in sliding connection with the pair of threaded sliding toothed plates 16. A pair of gears 18 are meshed on the pair of threaded sliding toothed plates 16, and the pair of gears 18 are rotatably connected with the inner wall of the frame body 13; a pair of rotary grooved bars 19 are fixedly connected to the pair of gears 18. One ends of the pair of rotating grooved rods 19 far away from the gear 18 are slidably connected with a pair of sliding grooved blocks 20. Specifically, the rotating groove rod 19 is provided with a strip-shaped through hole, and the sliding groove block 20 is provided with a sliding shaft which penetrates through the through hole and is in sliding fit with the through hole.

Furthermore, the frame body 13 is provided with a limiting groove 22 which is in sliding fit with the clamping rod 21 and is used for ensuring the stable movement of the clamping rod 21 and increasing the clamping force of the clamping rod 21.

Embodiment 5 is different from embodiment 3 in that a water flow pipe port 23 is provided at the end of the swash plate 11 as shown in fig. 4.

The working principle is as follows:

firstly, when an operator pours object slopes with different angles, the hand wheel 4 can be rotated to adjust the angle of the sloping plate 11 through the movement of the adjusting rod 10, so as to improve the flexibility of pouring. The rotation of hand wheel 4 drives screw sliding block 5 through the rotation of first threaded rod 3 and slides along the inner wall of first fixed slot 6, and the slip of screw sliding block 5 drives the slip axle piece through the motion of pulling pole 7 and slides along the inner wall of second fixed slot 9, and the slip of slip axle piece drives through the motion of adjusting pole 10 and carries out the regulation of angle with 1 swivelling joint's of roof beam main part swash plate 11 to the realization is to the control operation that improves staff's work flexibility.

Finally, after the angle of the inclined plate 11 is adjusted, in order to increase the stability of connection between the inclined plate 11 and the wall 12, an operator can clamp the inclined plate 11 and the wall 12 through the clamping rod 21 by rotating the knob 15, so as to improve the stability of connection between the inclined plate 11 and the wall 12, the rotation of the knob 15 drives the threaded sliding toothed plate 16 to slide along the inner wall of the third fixing groove 17 through the rotation of the second threaded rod 14, the sliding of the threaded sliding toothed plate 16 drives the rotation of the gear 18, the rotation of the gear 18 drives the sliding groove block 20 connected with the inner wall of the fixing mechanism 13 in a sliding manner through the rotation of the rotating groove rod 19, and further drives the clamping rod 21 to slide along the inner wall of the limiting groove 22, so as to play a role in clamping and fixing the connection part of the inclined plate 11 and the wall 12, and realize the control operation for improving the construction safety of the constructors.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a sloping roof pours and uses supporting mechanism which characterized in that: comprises a bracket (2), a roof beam main body (1) arranged on the bracket (2) and an inclined plate (11) hinged on the roof beam main body (1); an adjusting mechanism used for adjusting the gradient of the inclined plate (11) is arranged between the bracket (2) and the inclined plate (11).

2. The pitched roof support mechanism for pouring according to claim 1, characterized in that: the adjusting mechanism comprises a pushing piece (8) for pushing the inclined plate (11) to swing and a pushing driving assembly for driving the pushing piece (8) to move; the pushing piece (8) is movably connected to the bracket (2).

3. The pitched roof support mechanism for pouring according to claim 2, characterized in that: the pushing piece (8) is connected with the support (2) in a sliding mode, and a second fixing groove (9) connected with the pushing piece (8) in a sliding mode is formed in the support (2); an adjusting rod (10) is hinged between the pushing piece and the sloping plate (11).

4. The pitched roof supporting mechanism for pouring according to claim 3, wherein: the pushing driving assembly comprises a first threaded rod (3) which is vertically arranged and is rotatably connected to the support (2) and a hand wheel (4) for driving the first threaded rod (3) to rotate, a threaded sliding block (5) is connected to the first threaded rod (3) in a threaded mode, and the threaded sliding block (5) is vertically and slidably connected with the support (2); and a pulling rod (7) is hinged between the threaded sliding block (5) and the pushing piece (8).

5. The pitched roof support mechanism for pouring according to claim 4, characterized in that: first fixed slot (6) have been seted up on support (2), first fixed slot (6) and screw thread sliding block (5) sliding connection.

6. The support mechanism for pouring the pitched roof according to any one of claims 1 to 5, which is characterized in that: one end, far away from the roof beam main body (1), of the inclined plate (11) is provided with a wall body (12), and the inclined plate (11) is provided with a clamping mechanism used for being connected with the wall body (12).

7. The support mechanism for pouring the pitched roof according to claim 6, wherein: the clamping mechanism comprises a frame body (13) and a pair of sliding groove blocks (20) connected to the frame body (13) in a sliding mode, and clamping rods (21) used for clamping the wall body (12) are connected to the sliding groove blocks (20); the frame body (13) is provided with a movement driving component for driving the pair of sliding groove blocks (20) to move oppositely or back to back.

8. The support mechanism for pouring the pitched roof according to claim 7, wherein: the movable driving assembly comprises a bidirectional threaded rod (14) rotatably arranged in a frame body (13), the end part of the bidirectional threaded rod (14) is fixedly connected with a knob (15), the bidirectional threaded rod (14) is in threaded connection with a pair of threaded sliding toothed plates (16), and the inner wall of the frame body (13) is provided with a third fixing groove (17) in sliding connection with the threaded sliding toothed plates (16); a gear (18) is meshed on the threaded sliding toothed plate (16), and the gear (18) is rotatably connected with the inner wall of the frame body (13); the gear (18) is fixedly connected with a rotating grooved rod (19), and one end, far away from the gear (18), of the rotating grooved rod (19) is connected with a sliding groove block (20) in a sliding mode.

9. The support mechanism for pouring the pitched roof according to claim 8, wherein: the frame body (13) is provided with a limit groove (22) which is in sliding fit with the clamping rod (21).

10. The support mechanism for pouring the pitched roof according to any one of claims 7 to 9, wherein: the tail end of the inclined plate (11) is provided with a water flowing pipe opening (23).

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