CN215484335U - Auxiliary mounting design structure for ultralong cambered surface sun-carved stone - Google Patents

Abstract

The utility model discloses an auxiliary mounting design structure of an ultralong cambered surface sun-carved stone, which belongs to the technical field of architectural decoration and comprises a plurality of keel slide rails, a plurality of fixed connecting pieces, a cambered surface stone and an auxiliary mounting mechanism, wherein the keel slide rails are vertically arranged and fixedly mounted on a wall surface base layer; according to the utility model, the auxiliary mounting mechanism is mounted on the top wall base layer, the fixed connecting piece is clamped on the keel slide rail and the arc keel to form a support, the arc face stone is placed in the hook, the sleeve is twisted to lift the arc face stone to the mounting position, and the mounting of the ultra-long arc face sun-carved stone can be completed without using a special hoisting tool for hoisting, so that the mounting of the ultra-long arc face sun-carved stone is not limited by space and the mounting tool, and the mounting operation is flexible and convenient.

Description

Auxiliary mounting design structure for ultralong cambered surface sun-carved stone

Technical Field

The utility model belongs to the technical field of architectural decoration, and particularly relates to an auxiliary mounting design structure of an ultralong cambered surface sun-engraved stone.

Background

The positive engraving is an engraving term, refers to a convex shape, and is a solid line which displays strokes on a plane object. From the aspect of the positive carving, people can see the aggregation of various artistic forms such as literature, art, sculpture, modeling and the like, and in order to enable the decoration to achieve a striking effect and have continuity in vision, the overlength cambered surface positive carving stone is gradually used for building decoration.

Chinese patent (CN201510937393.3) discloses a dry-hanging arc-shaped stone board decorative square column with hidden decorative lighting and a construction method thereof, wherein the dry-hanging arc-shaped stone board decorative square column comprises a civil engineering square column, an arc-shaped stone board, a steel skeleton and a decorative lighting component; the cross section of the arc stone plate is semicircular, and a staggered opening is formed between the adjacent end parts of the two sections of arc stone plates along the diameter direction of the arc stone plates; the steel skeleton is the arc structure of adaptation arc stone material board, has the space that can set up the lamp decoration subassembly in it between the terminal surface of the far away civil engineering square column of the arc stone material board of steel skeleton and adaptation.

Chinese patent (cn201910662926.x) discloses a veneer is hung futilely to cylindrical stone material, including being fixed in the skeleton of stand side, connect a plurality of arc stone material boards through connecting element on the skeleton, all arc stone material boards enclose into the cylinder veneer, the skeleton includes a plurality of first C shaped steel, the vertical side that is fixed in the stand of first C shaped steel, the opening of first C shaped steel is back to the stand, first C shaped steel internalization is equipped with vertical second C shaped steel, the both sides face of first C shaped steel all is equipped with one row of round hole from last to down, wear to be equipped with the horizontally screw in the round hole, the nut of screw is located first C shaped steel, the cover has first spring on the screw, the one end of first spring supports on the nut, the other end of first spring supports on the inner wall of first C shaped steel, all leaves the clearance between the trilateral lateral wall of second C shaped steel and the trilateral inside wall of first C shaped steel.

Chinese patent (CN201920893815.5) discloses a hang stone material package cylinder structure futilely, the cylindrical surface is fixed with arc stone material board through hanging the subassembly futilely, hang the subassembly futilely and include the arc steel sheet, the angle steel mounting, vertical channel-section steel, the horizontal angle steel of cold-bending, the metal pendant, fastening bolt, the arc steel sheet is pre-buried on cylindrical quartering point, the notch of vertical channel-section steel is inside, the both sides limit inboard of this vertical channel-section steel all welds with one side of angle steel mounting, another limit of angle steel mounting is cold-bent into with arc steel sheet assorted crookedness and with arc steel sheet welded fastening, the welding of the both sides limit outside of vertical channel-section steel has the horizontal angle steel of cold-bending, still be fixed with the metal pendant through fastening bolt on the horizontal angle steel of this cold-bending, the metal pendant is fixed with arc stone material board joint, seam between the adjacent arc stone material board is equipped with the sealed cream layer of elasticity.

At present, a span for hanging the arc stone material of installation futilely is little, artifical transport can carry out the dry installation of hanging to the arc stone material, but the cambered surface stone material to the large-span, because its self weight is big, need carry out hoist and mount installation with the help of dedicated lifting device, when decorating the installation indoor, often can't provide sufficient big function space for lifting device, make the installation of large-span cambered surface stone material receive the condition restriction, in addition, after carrying out preliminary installation to the large-span cambered surface stone material, need compensate the regulation to its position, to the large-span cambered surface stone material of large weight, constructor only leans on bare-handed unable removal regulation at all, this just brings the difficulty for the regulation of large-span cambered surface stone material.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: in order to solve the problem that when the large-span ultra-long cambered surface stone is installed, a special hoisting tool is needed to be used for installation, the stone cannot be adjusted by hands after the installation is completed, and the problems that the installation is limited, the installation process is complicated, the adjusting operation is troublesome, and the installation efficiency is low are caused, and the auxiliary installation design structure for the ultra-long cambered surface anode carving stone is provided.

In order to achieve the purpose, the utility model adopts the following technical scheme: an auxiliary installation design structure of ultralong cambered surface sun-carved stone comprises a plurality of keel slide rails, a plurality of fixed connecting pieces, cambered surface stone and an auxiliary installation mechanism, wherein the keel slide rails are vertically arranged and fixedly installed on a wall surface base layer, the auxiliary installation mechanism is fixedly installed on a top wall base layer, the auxiliary installation mechanism supports the bottom of the cambered surface stone, the cambered surface stone is positioned between the auxiliary installation mechanism and the keel slide rails, a plurality of arc-shaped back ribs are arranged on the cambered surface stone, the arc-shaped back ribs are horizontally arranged, one ends of the fixed connecting pieces are slidably arranged in the keel slide rails, the other ends of the fixed connecting pieces are slidably arranged in the arc-shaped back ribs, the fixed connecting pieces are fixedly connected on the keel slide rails through a plurality of first bolts, a plurality of second bolts are arranged on the fixed connecting pieces, the second bolts abut against the arc-shaped back ribs;

supplementary installation mechanism includes many screw rods, layer board and sleeve pipe, many screw rod fixed mounting in on the headwall basic unit, many the screw rod is followed the pitch arc direction of cambered surface stone material is arranged, the layer board cover is located on the screw rod, just the layer board is held the bottom of cambered surface stone material, the sleeve pipe spiro union is in on the screw rod, just the sleeve pipe supports the layer board.

As a further description of the above technical solution:

the bottom of fixed connector is provided with the angle steel board, the end laminating of bending of angle steel board is in on the wall basic unit, 4 at least first bolt fixed connection the angle steel board with the fossil fragments slide rail.

As a further description of the above technical solution:

the keel sliding rail is provided with a first sliding groove, the arc-shaped back rib is provided with a second sliding groove, and two ends of the fixed connecting piece are respectively connected in the first sliding groove and the second sliding groove in a sliding mode.

As a further description of the above technical solution:

waist type groove has been seted up at the top of arc back of the body muscle, waist type groove intercommunication the second spout, at least two the second bolt is located the outside of arc back of the body muscle supports the outer wall of arc back of the body muscle, at least one the second bolt is located waist type inslot supports the inner wall of waist type groove.

As a further description of the above technical solution:

the supporting plate comprises a hook and a connecting sleeve, the connecting sleeve is sleeved on the screw rod, the sleeve abuts against the connecting sleeve, the hook is fixedly connected to the connecting sleeve, and the hook is a C-shaped plate with an upward opening.

As a further description of the above technical solution:

the screw rod is sleeved with a guide pipe, the guide pipe is located above the supporting plate, and the outer wall of the guide pipe props against the cambered surface of the cambered surface stone.

As a further description of the above technical solution:

an elastic layer is arranged on the conduit.

As a further description of the above technical solution:

and at least two supporting plates simultaneously support the cambered surface stone.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, the auxiliary mounting mechanism is mounted on the top wall base layer, the fixed connecting piece is clamped on the keel slide rail and the arc keel to form a support, the arc stone is placed in the hook, the sleeve is screwed to lift the arc stone to the mounting position, the angle steel plate and the keel slide rail are fixedly connected by using the first bolt, and the limiting fixed connecting piece is fixed by using the second bolt, so that the mounting of the ultralong arc surface positive engraving stone can be completed, the hoisting by using a special hoisting tool is not required, the mounting of the ultralong arc surface positive engraving stone is not limited by space and the mounting tool, and the mounting operation is flexible and convenient.

2. According to the utility model, by pushing the cambered surface stone, the guide pipe has a guiding effect on the cambered surface of the cambered surface stone, and the elastic layer has a protection effect on the convex carving on the cambered surface, so that the left and right positions of the cambered surface stone can be adjusted, the problem that the overlong cambered surface convex carving stone cannot be adjusted by hands is solved, the adjusting operation is simple and convenient, and the installation efficiency is high.

Drawings

Fig. 1 is a schematic view of an overall structure of an auxiliary mounting design structure of an ultralong cambered surface etched stone.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic view of an overall structure of an auxiliary mounting design structure of an ultralong cambered surface etched stone.

Fig. 4 is a partially enlarged view of a portion B in fig. 3.

Fig. 5 is a schematic view of an internal structure of an auxiliary installation design structure of an ultralong cambered surface positive carving stone.

FIG. 6 is a reference diagram of the application state of the auxiliary installation design structure of the ultralong cambered surface positive carving stone

Illustration of the drawings:

1. a keel slide rail; 2. fixing the connecting piece; 3. cambered surface stone material; 4. an auxiliary mounting mechanism; 41. a screw; 42. a support plate; 421. hooking; 422. connecting sleeves; 43. a sleeve; 5. a wall surface base layer; 6. a top wall base layer; 7. an arc-shaped back rib; 8. a first bolt; 9. a second bolt; 10. angle steel plates; 11. a first chute; 12. a second chute; 13. a waist-shaped groove; 14. a conduit; 15. an elastic layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an auxiliary installation design structure of ultralong cambered surface sun-carving stone comprises a plurality of keel slide rails 1, a plurality of fixed connecting pieces 2, cambered surface stone 3 and an auxiliary installation mechanism 4, wherein the keel slide rails 1 are vertically arranged and fixedly installed on a wall surface base layer 5, the auxiliary installation mechanism 4 is fixedly installed on a top wall base layer 6, the auxiliary installation mechanism 4 holds the bottom of the cambered surface stone 3, the cambered surface stone 3 is positioned between the auxiliary installation mechanism 4 and the keel slide rails 1, a plurality of arc-shaped back ribs 7 are arranged on the cambered surface stone 3, the arc-shaped back ribs 7 are horizontally arranged, one ends of the fixed connecting pieces 2 are slidably arranged in the keel slide rails 1, the other ends of the fixed connecting pieces 2 are slidably arranged in the arc-shaped back ribs 7, the fixed connecting pieces 2 are fixedly connected on the keel slide rails 1 through a plurality of first bolts 8, a plurality of second bolts 9 are arranged on the fixed connecting piece 2, and the second bolts 9 prop against the arc-shaped back rib 7;

the auxiliary mounting mechanism 4 comprises a plurality of screws 41, a supporting plate 42 and a sleeve 43, the screws 41 are fixedly mounted on the top wall base layer 6, the screws 41 are arranged along the arc direction of the arc-shaped stone 3, the supporting plate 42 is sleeved on the screws 41, the supporting plate 42 supports the bottom of the arc-shaped stone 3, the sleeve 43 is screwed on the screws 41, and the sleeve 43 supports the supporting plate 42;

an angle steel plate 10 is arranged at the bottom of the fixed connecting piece 2, the bent end of the angle steel plate 10 is attached to the wall surface base layer 5, and at least 4 first bolts 8 are fixedly connected with the angle steel plate 10 and the keel slide rail 1 to complete the fixation of the fixed connecting piece 2 on the keel slide rail 1;

a first sliding groove 11 is formed in the keel sliding rail 1, a second sliding groove 12 is formed in the arc-shaped back rib 7, and two ends of the fixed connecting piece 2 are respectively connected in the first sliding groove 11 and the second sliding groove 12 in a sliding manner, so that the arc-shaped stone 3 can be supported by the fixed connecting piece 2 in real time when lifted;

a waist-shaped groove 13 is formed in the top of the arc-shaped back rib 7, the waist-shaped groove 13 is communicated with the second sliding groove 12, at least two second bolts 9 are positioned outside the arc-shaped back rib 7 and abut against the outer wall of the arc-shaped back rib 7, at least one second bolt 9 is positioned in the waist-shaped groove 13 and abuts against the inner wall of the waist-shaped groove 13, and the degree of freedom of the fixed connecting piece 2 on the arc-shaped back rib 7 is limited, so that the arc-shaped back rib 7 and the fixed connecting piece 2 are stably connected;

the supporting plate 42 comprises a hook 421 and a connecting sleeve 422, the connecting sleeve 422 is sleeved on the screw 41, the sleeve 43 props against the connecting sleeve 422, the hook 421 is fixedly connected to the connecting sleeve 422, and the hook 421 is a C-shaped plate with an upward opening;

the screw rod 41 is sleeved with a guide pipe 14, the guide pipe 14 is positioned above the supporting plate 42, the outer wall of the guide pipe 14 props against the cambered surface of the cambered surface stone 3, and the guide pipe 14 has a guiding effect on the movement of the cambered surface stone 3 and is convenient for pushing the cambered surface stone 3 to perform left and right position adjustment;

the guide pipe 14 is provided with an elastic layer 15, the surface of the cambered surface stone 3 is subjected to positive etching, and when the guide pipe 14 guides the cambered surface stone 3, the elastic layer 15 has a protection effect on the positive etching.

The working principle is as follows: firstly, fixedly installing a plurality of keel slide rails 1 on a wall surface base layer 5 along the vertical direction, measuring the arc trend of the arc stone 3 in advance and marking on a top wall base layer 6, fixedly installing a plurality of screw rods 41 on the top wall base layer 6 along the marking direction, sequentially sleeving a guide pipe 14, a support plate 42 and a sleeve 43 on the screw rods 41, clamping one end of a fixed connecting piece 2 on an arc back rib 7 of the arc stone 3, placing the bottom of the arc stone 3 on a hook 421, clamping the other end of the fixed connecting piece 2 in the keel slide rails 1, secondly, rotating the sleeve 43, spirally lifting the sleeve 43 on the screw rods 41, driving the support plate 42 to push the arc stone 3 to be lifted to an installation position, pushing the arc stone 3 from the side surface, guiding the guide pipe 14 to the arc stone 3, carrying out position adjustment by left and right movement of the arc stone 3, then, after the adjustment is completed, the method comprises the following steps of driving 4 first bolts 8 into an angle steel plate 10 and fixing the angle steel plate with a keel slide rail 1, driving 2 second bolts 9 into a fixed connecting piece 2 and abutting against the outer wall of an arc-shaped back rib 7, driving 1 second bolt 9 into the fixed connecting piece 2 from a waist-shaped groove 13, abutting the second bolt 9 against the inner wall of the waist-shaped groove 13, completing installation of the arc-shaped stone 3, finally, rotating a sleeve 43, enabling the sleeve 43 to spirally descend on a screw rod 41, enabling a supporting plate 42 and a guide pipe 14 to slide downwards along the screw rod 41 after external force is lost, enabling the supporting plate 42 and the guide pipe 14 to break away from the action on the arc-shaped stone 3, sequentially installing the arc-shaped stone 3, and dismantling the screw rod 41 from a top wall base layer 6 after all installation of the arc-shaped stone 3 is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides an auxiliary installation design structure of overlength cambered surface positive carving stone material which characterized in that: comprises a plurality of keel slide rails (1), a plurality of fixed connecting pieces (2), arc-surface stones (3) and auxiliary mounting mechanisms (4), wherein the keel slide rails (1) are vertically arranged and fixedly mounted on a wall surface base layer (5), the auxiliary mounting mechanisms (4) are fixedly mounted on a top wall base layer (6), the auxiliary mounting mechanisms (4) support the bottoms of the arc-surface stones (3), the arc-surface stones (3) are positioned between the auxiliary mounting mechanisms (4) and the keel slide rails (1), the arc-surface stones (3) are provided with a plurality of arc-shaped back ribs (7), the arc-shaped back ribs (7) are horizontally arranged, one ends of the fixed connecting pieces (2) are slidably arranged in the keel slide rails (1), and the other ends of the fixed connecting pieces (2) are slidably arranged in the arc-shaped back ribs (7), the fixed connecting piece (2) is fixedly connected to the keel sliding rail (1) through a plurality of first bolts (8), a plurality of second bolts (9) are arranged on the fixed connecting piece (2), and the second bolts (9) abut against the arc-shaped back ribs (7);

supplementary installation mechanism (4) include many screw rods (41), layer board (42) and sleeve pipe (43), many screw rod (41) fixed mounting in on headwall basic unit (6), many screw rod (41) are followed the arc direction of cambered surface stone material (3) is arranged, layer board (42) cover is located on screw rod (41), just layer board (42) hold the bottom of cambered surface stone material (3), sleeve pipe (43) spiro union is in on screw rod (41), just sleeve pipe (43) support layer board (42).

2. The auxiliary mounting design structure for the ultralong cambered surface positive carving stone material as claimed in claim 1, wherein an angle steel plate (10) is arranged at the bottom of the fixed connecting piece (2), the bent end of the angle steel plate (10) is attached to the wall surface base layer (5), and at least 4 first bolts (8) are fixedly connected with the angle steel plate (10) and the keel slide rail (1).

3. The auxiliary installation design structure of the overlength cambered surface positive engraving stone material of claim 1, characterized in that, a first sliding groove (11) is opened on the keel sliding rail (1), a second sliding groove (12) is opened on the arc back rib (7), and two ends of the fixed connecting piece (2) are respectively connected in the first sliding groove (11) and the second sliding groove (12) in a sliding manner.

4. The auxiliary installation design structure of the ultralong cambered surface positive engraving stone material as claimed in claim 3, wherein a waist-shaped groove (13) is formed in the top of the arc-shaped back rib (7), the waist-shaped groove (13) is communicated with the second sliding groove (12), at least two second bolts (9) are positioned outside the arc-shaped back rib (7) and abut against the outer wall of the arc-shaped back rib (7), and at least one second bolt (9) is positioned in the waist-shaped groove (13) and abuts against the inner wall of the waist-shaped groove (13).

5. The auxiliary installation design structure of the overlength cambered surface positive engraving stone material of claim 1, characterized in that, the layer board (42) includes couple (421) and adapter sleeve (422), the adapter sleeve (422) is located on the screw rod (41) in a sleeved manner, the sleeve (43) supports against the adapter sleeve (422), the couple (421) is fixedly connected to the adapter sleeve (422), the couple (421) is the C type board with the opening upward.

6. The auxiliary installation design structure of the overlength cambered surface positive engraving stone material of claim 1, wherein the screw rod (41) is sleeved with a guide pipe (14), the guide pipe (14) is positioned above the supporting plate (42), and the outer wall of the guide pipe (14) is propped against the cambered surface of the cambered surface stone material (3).

7. An auxiliary installation design structure of overlength cambered surface positive carving stone material of claim 6, characterized in that, the pipe (14) is provided with an elastic layer (15).

8. An auxiliary installation design structure of ultra-long cambered surface positive carving stone as claimed in claim 1, characterized in that at least two said supporting plates (42) support said cambered surface stone (3) simultaneously.

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