CN215594723U - Space rotatable adjusting support - Google Patents

Abstract

The utility model discloses a space rotatable adjusting support, wherein a support inner chute is arranged in a chute opening in an omega-shaped support base and can move along the chute opening in the height direction; the height adjusting bolt is arranged in an adjusting screw hole on the omega-shaped support base, and one end of the height adjusting bolt is inserted into the sliding groove in the support; the height adjusting assembly is arranged on the height adjusting bolt and can drive the height adjusting bolt to rotate in the adjusting screw hole; the middle shaft gear bolt is fixedly arranged in the support inner chute in a penetrating way and can move along the chute opening along the support inner chute in the height direction; the two-side semi-arc hinge support frame is erected on the omega-shaped support base, and two side edges are respectively arranged on two ends of the middle shaft gear bolt through arc surface rotating blocks; the rotation angle and/or direction relative to the omega-shaped support base can be adjusted through the cambered surface rotating block. The supporting seat scheme provided by the utility model can be conveniently rotated and adjusted in multiple directions at the installation position, and meets the requirement of the space installation position of the building decorative plate.

Description

Space rotatable adjusting support

Technical Field

The utility model belongs to the technical field of buildings, and particularly relates to a building outer surface modeling technology.

Background

At present, the shapes of the outer surfaces of a plurality of buildings are various, and the space change is complex, so that the support when the decorative plate of the outer surface of the building is installed must be adjusted in a plurality of directions, and the decorative plate finally installed can meet the requirement of the shape of the space of the appearance of the building. In order to meet the requirement of the building space modeling in the field of building engineering, the traditional design is mainly solved by adopting a plurality of unidirectional supports for multiple times of adjustment and conversion.

However, the design and installation mode of multiple times of adjustment and conversion of the plurality of unidirectional supports can increase the construction difficulty, and meanwhile, the thickness of the decorative layer is increased, so that the area of the decorative layer on the outer surface of the building is increased, and the construction cost is increased.

Therefore, it is an urgent problem to provide a spatially rotatable adjusting support.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems of the support structure adopted by the existing building outer surface modeling, a new support scheme applicable to the building outer surface modeling is needed.

Therefore, the utility model aims to provide a spatial rotatable adjusting support which can carry out spatial multi-orientation adjustment and effectively overcome the problems in the prior art.

In order to achieve the above object, the present invention provides a space rotatable adjusting mount, comprising: the support comprises an omega-shaped support base, a bilateral semi-arc hinge support frame, a support inner sliding groove, an arc surface rotating block, a middle shaft gear bolt, a height adjusting bolt and a height adjusting assembly;

a sliding groove opening is formed in the omega-shaped support base, and an adjusting screw hole is formed in the omega-shaped support base;

the support inner chute is arranged in a chute opening in the omega-shaped support base and can move along the chute opening in the height direction; the height adjusting bolt is arranged in an adjusting screw hole in the omega-shaped support base and is in threaded fit with the adjusting screw hole, and one end of the height adjusting bolt is inserted into the sliding groove in the support; the height adjusting assembly is arranged on the height adjusting bolt and can drive the height adjusting bolt to rotate in the adjusting screw hole so as to drive the sliding groove in the support to move in the height direction along the sliding groove opening in the omega-shaped support base;

the middle shaft gear bolt is fixedly arranged in the support inner chute in a penetrating way, and two ends of the middle shaft gear bolt extend out of the omega-shaped support base and can move along the chute opening along with the support inner chute in the height direction;

the two-side semi-arc hinge support frames are erected on the omega-shaped support base, and two side edges are respectively arranged on two ends of the middle shaft gear bolt through arc surface rotating blocks; the two-side semi-arc hinge support frame can be adjusted to rotate angle and/or direction relative to the omega-shaped support base through the arc surface rotating block.

Further, the lower part of omega-shaped support base is the setting of symmetry L shape, and upper portion is the ring, the inside vertical spout mouth that sets up of ring, the regulation screw has been seted up on the ring portion, adjust screw and spout mouth intercommunication.

Furthermore, the whole support inner sliding groove is matched with a sliding groove opening in the omega-shaped support base, a concave sliding groove with a limiting flange is formed in the sliding groove, and limiting flanges are formed inwards on the tops of two sides of the concave sliding groove; and a shaft hole is also formed in the sliding groove in the support.

Furthermore, the cambered surface rotating block has a D-shaped section, one side of the cambered surface rotating block is arc-shaped, and the middle of the block body is provided with a circular saw tooth hole.

Furthermore, the cambered surface rotating block can rotate relative to the middle shaft gear bolt so as to adjust the installation direction, and drives the bilateral semi-cambered hinge support frame to adjust the rotating angle and/or direction relative to the omega-shaped support base.

Further, two side half arc hinge support frames include: the large semi-arc-shaped blade and the small semi-arc-shaped blade are connected through a rotating shaft; the large semi-arc-shaped blades are arranged in a 7 shape, the upper part of the 7 shape is a horizontal section, the end part is provided with a rotating shaft hole, the lower section is arranged in an arc shape, and a through hole matched with a middle shaft gear bolt is formed in the lower section;

the small semi-arc-shaped blades are arranged in a 1 shape, the upper parts of the 1 shapes are provided with rotating shaft holes, the lower parts of the 1 shapes are arranged in an arc shape, correspond to the lower parts of the large semi-arc-shaped blades in an arc shape and are matched with the arc-shaped side surfaces of the arc-shaped rotating blocks; the lower part of the small semi-arc-shaped blade is provided with a through hole matched with the middle shaft gear bolt.

Furthermore, two ends of the middle shaft gear bolt are threaded round rods, the middle section of the middle shaft gear bolt is a smooth round rod, and two annular sawtooth-shaped round rods are arranged between the middle section and the two end parts respectively; the diameter and the length of the smooth round rod are consistent with those of the shaft hole at the lower part of the sliding chute in the support; the outer diameter of the annular sawtooth-shaped round rod is larger than the outer diameters of the thread-shaped round rod and the smooth round rod.

Furthermore, the bolt head of the height adjusting bolt is matched with the concave chute on the support inner chute, can be inserted into the concave chute on the support inner chute and moves along the concave chute; the side surface of a bolt rod of the height adjusting bolt is provided with a through long notch; the length of the bolt corresponds to the height of a vertical sliding groove opening in the circular ring on the upper portion of the omega-shaped support base.

Furthermore, the height adjusting assembly comprises a tooth-shaped bolt clamp and an inner tooth limiting handle, wherein the tooth-shaped bolt clamp is sleeved on a bolt rod of the height adjusting bolt and matched with a through long notch on the bolt rod to form a clamping structure; the inner tooth limiting handle is sleeved on the tooth-shaped bolt clamp and limited by the tooth-shaped bolt clamp in a circumferential relative rotation mode, the inner tooth limiting handle can drive the tooth-shaped bolt clamp to rotate circumferentially, and the tooth-shaped bolt clamp synchronously drives the height adjusting bolt to rotate circumferentially.

Furthermore, the outer side of the tooth-shaped bolt clamp is circular and serrated, the inner side of the tooth-shaped bolt clamp is a thread-free round hole, the diameter of the round hole is consistent with that of the height adjusting bolt, a tooth opening is formed in the inner side of the tooth-shaped bolt clamp, and the size of the tooth opening is identical to that of a through long notch of a bolt rod of the height adjusting bolt.

Furthermore, the internal tooth limit handle is in a key shape, one end of the internal tooth limit handle is in a circular ring shape, a circular ring inner side is provided with a circular saw tooth round hole, and the circular saw tooth round hole is matched with the circular saw tooth on the outer side of the toothed bolt clamp.

The space rotatable adjusting support can rotate at any angle, and the space rotatable adjusting support can be used for conveniently performing space rotation adjustment in multiple directions at the installation position.

When the space rotatable adjusting support provided by the utility model is applied, multi-direction and multi-angle adjustment can be realized through the support, and the requirement on the space installation position of the building decorative plate is met.

The space rotatable adjusting support provided by the utility model has a compact integral structure, each component can be quickly assembled and fixed, a limiting structure is formed between the components which are matched and assembled, and a limiting and fixing structure is formed for the components which can be relatively adjusted and the adjusted state, so that the integral structure can always keep the adjusted state, and is stable and reliable.

Drawings

The utility model is further described below in conjunction with the appended drawings and the detailed description.

FIG. 1 is a schematic view showing the overall structure of a spatial rotatable adjusting support in this example;

FIG. 2 is an exploded view of the spatial rotatable adjustable support in this example;

FIG. 3 is a diagram showing an example of the matching of the omega-shaped support base, the height adjusting bolt and the sliding groove in the support;

FIG. 4 is an exemplary illustration of the assembly of the omega-shaped base, the height adjustment bolt, and the sliding slot in the base;

FIG. 5 is an illustration of an assembly of the internally toothed stop shank and the castellated bolt clip of the present example;

FIG. 6 is an assembled view of the double-sided semi-arcuate hinge support bracket of this example;

FIG. 7 is a schematic view of the assembly and fixation of the bilateral semi-arc hinge support bracket and the omega-shaped support base in this example;

FIG. 8 is an exemplary view of the height adjustment by the internally toothed retention knob in this example;

FIG. 9 is an exemplary view of a fixed internally toothed limit knob in this example;

FIG. 10 is an illustration of a fastening jackbolt clip and an internally toothed retention knob of the present example.

The reference numbers in the figures mean:

an omega-shaped support base 1, a support tooth-shaped gasket 2, a bilateral semi-arc hinge support frame 3,

A support inner chute 4, a chute buckle block 5, a cambered surface rotating block 6, a middle shaft gear bolt 7,

A middle shaft tooth-shaped clamping block 8, a middle shaft fastening nut 9, a height adjusting bolt 10, a tooth-shaped bolt clamp 11,

The device comprises an internal tooth limiting handle 12, a limiting screw 13, a height fastening nut 14, an axis A-A, an axis B-B, an axis C-C, a long circular hole 1a, a large screw circular hole 1B, a small screw circular hole 1C, a large semi-arc-shaped blade 3a, a small semi-arc-shaped blade 3B, a rotating shaft 3C, a first arc-shaped rotating block 6a, a second arc-shaped rotating block 6B, a threaded circular rod 7a, a smooth circular rod 7B, an annular sawtooth-shaped circular rod 7C and a non-threaded circular hole 12 a.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further explained below by combining the specific drawings.

The space rotatable adjusting support provided by the utility model can rotate at any angle in space, and can be used for conveniently adjusting a plurality of directions and angles in space, so that the requirement of a building decorative plate at a space installation position is met.

Referring to fig. 1 and 2, the present example provides a space-rotatable adjusting mount including: the support comprises an omega-shaped support base 1, a bilateral semi-arc hinge support frame 3, a support inner sliding groove 4, an arc surface rotating block 6, a middle shaft gear bolt 7, a height adjusting bolt 10, a tooth-shaped bolt clamp 11, an internal tooth limiting handle 12, a limiting screw 13 and a height fastening nut 14.

Wherein, the inside of the omega-shaped support base 1 is provided with a sliding groove opening and an adjusting screw hole;

the support inner chute 4 is arranged in a chute opening in the omega-shaped support base 1 and can move along the chute opening in the height direction;

the height adjusting bolt 10 is arranged in an adjusting screw hole on the omega-shaped support base and is in threaded connection and matching with the adjusting screw hole; meanwhile, one end of the height adjusting bolt 10 is inserted into the support inner chute 4 in the chute opening in the omega-shaped support base 1;

the tooth-shaped bolt clamp 11 is matched with the inner tooth limiting handle 12 to form a height adjusting assembly, is arranged on the height adjusting bolt 10, and can drive the height adjusting bolt 10 to rotate in an adjusting screw hole so as to drive the whole sliding groove 4 in the support to move in the height direction along a sliding groove opening in the omega-shaped support base 1;

the middle shaft gear bolt 7 is integrally and fixedly arranged in the support inner chute 4 in a penetrating way, and two ends of the middle shaft gear bolt extend out of the omega-shaped support base 1 and can move along the chute opening along with the support inner chute 4 in the height direction;

the double-side semi-arc hinge support frame 3 is integrally erected on the omega-shaped support base 1, and two side edges are respectively arranged on two ends of a middle shaft gear bolt 7 extending out of the omega-shaped support base 1 through arc surface rotating blocks 6; the rotation angle and/or direction of the support frame 3 of the bilateral semi-arc hinge relative to the omega-shaped support base 1 can be adjusted through the arc surface rotating block 6. When the adjustable semi-arc hinge support frame is adjustable, the cambered surface rotating block 6 can rotate relative to the middle shaft gear bolt 7 to adjust the installation position, and the bilateral semi-arc hinge support frame 3 is driven to adjust the rotating angle and/or direction relative to the base of the omega-shaped support 1.

A limiting structure is formed by matching a limiting screw 13 and a height fastening nut 14 in the support, and is used for matching with a height adjusting assembly formed by matching a tooth-shaped bolt clamp 11 and an inner tooth limiting handle 12 so as to limit and fix the adjusted state of a height adjusting bolt 10.

When the scheme of the space rotatable adjusting support is realized, the components are innovatively arranged and organically assembled in a matched manner, so that the components can be rapidly assembled and fixed, and the finally formed structure is compact and occupies small space; meanwhile, a limiting structure is formed between the parts which are assembled in a matched mode, and a limiting fixing structure is formed for the parts which can be adjusted relatively and the adjusted state, so that the whole structure can always keep the adjusted state, and the device is stable and reliable.

Therefore, the assembly can be realized as soon as possible on the construction site, and the assembled structure is stable and reliable; moreover, the production and the manufacture are convenient.

As shown in fig. 2, the lower part of the omega-shaped support base 1 in the scheme is symmetrical L-shaped, and the horizontal section of the L-shape is in a sawtooth groove shape and is provided with a long round hole 1 a.

The upper part of the omega-shaped support base 1 is a circular ring, and a vertical sliding notch and horizontal stiffening are arranged inside the circular ring; the top of the circular ring is a horizontal plane, the middle part of the horizontal plane is provided with a large screw round hole 1B, the edge part of the horizontal plane is provided with a small screw round hole 1c, and the position of the circular ring is at the axis B.

This omega shape support base 1 cooperates corresponding support profile of tooth gasket 2 to realize quick fixed mounting. The tooth-shaped gasket 2 of the support is integrally square, and a round hole is formed in the middle of the tooth-shaped gasket; the sawtooth grooves are formed in the single side and matched with the sawtooth grooves in the L-shaped horizontal section of the omega-shaped support base 1. The support tooth-shaped gasket 2 with the structure forms quick fixed mounting for the omega-shaped support base 1, and the reliability and the stability of mounting are ensured through the limit matching of the sawtooth grooves between the two.

Two side semi-arc hinge support frames 3 in this scheme are become through pivot 3c by big semi-arc blade 3a and little semi-arc blade 3b two parts. Wherein, the big semi-arc blade 3a is in a 7 shape, the upper horizontal section is a supporting surface, and the end part is provided with a rotating shaft hole; the lower segment is arc-shaped, the outer side of the arc-shaped segment is in a shape of a horizontal sawtooth groove, and a vertical long hole is formed. The small semi-arc-shaped blade 3b is 1-shaped, the upper part is provided with a rotating shaft hole, the lower part is arc-shaped and corresponds to the arc-shaped size of the lower part of the large semi-arc-shaped blade 3a, the arc-shaped outer side is in a cross-bar sawtooth groove shape, and a vertical long hole is formed.

The inner sliding groove 4 of the support in the scheme is formed by buckling and combining two symmetrical parts with the same cross section shape, and a concave sliding groove with an inward limiting flanging is formed at the upper part after buckling, namely the cross section is shaped like a cross section

The top parts of two sides of the concave chute are inwards formed with limiting flanges, and the lower part of the inner chute 4 of the support is a through long round hole.

The support inner chute 4 with the structure is movably arranged in the circular ring-shaped inner vertical chute opening at the upper part of the omega-shaped support base 1 through being matched with the chute buckling block 5.

Specifically, the section of the sliding groove buckling block 5 is square, and a circular saw tooth hole is formed in the middle of the sliding groove buckling block. In cooperation with it, the support inner chute 4 is consistent with the width of the chute buckling block 5, and is also consistent with the width of the annular inner vertical chute opening at the upper part of the omega-shaped support base 1.

The arrangement of the structure enables the inner chute 4 and the chute buckling block 5 of the support to slide up and down in the vertical chute port of the omega-shaped support base 1. The support inner chute 4 and the chute buckling block 5 are arranged in a vertical chute of the omega-shaped support base 1, and the sum of the lengths of the support inner chute and the chute buckling block is just consistent with the length of the vertical chute of the omega-shaped support base 1.

In the scheme, the cambered surface rotating block 6 has a D-shaped cross section, one side is arc-shaped, and the middle part of the block body is provided with a circular saw tooth hole; two cambered surface rotating blocks 6 are adopted in the scheme, namely a first cambered surface rotating block 6a and a second cambered surface rotating block 6b which are symmetrically arranged on two sides of the omega-shaped support base 1.

Specifically, each cambered surface rotating block 6 has a circular arc radius at one side consistent with the circular arc radii at two sides of the bilateral semi-arc hinge support frames 3, so that how to form a joint structure with two sides of the bilateral semi-arc hinge support frames 3 can limit the rotation of the bilateral semi-arc hinge support frames 3, and the reliability of the installation structure of the bilateral semi-arc hinge support frames 3 is ensured; meanwhile, the production and processing are convenient.

Referring to fig. 2 and 3, a middle shaft gear bolt 7 in the scheme is used for connecting and supporting the bilateral semi-arc hinge support frame 3. The two ends of the middle shaft gear bolt 7 are threaded round rods 7a, the middle section is a smooth round rod 7b, and two annular saw-tooth-shaped round rods 7c are respectively arranged between the middle section and the two ends. Wherein, the diameter and the length of the smooth round rod 7b are consistent with the diameter and the length of a through round hole at the lower part of the support inner chute 4; the outer diameter of the annular serrated round bar 7c is larger than the outer diameters of the threaded round bar 7a and the smooth round bar 7 b.

Furthermore, the circular rod 7c of the annular saw tooth in the middle section of the middle shaft gear bolt 7 is matched with the circular saw tooth on the inner side of the sliding chute buckling block 5.

The middle shaft gear bolt 7 with the structure is matched with the support inner sliding groove 4 through the annular sawtooth round rod 7c and the smooth round rod 7b, so that the middle shaft gear bolt 7 penetrates through the support inner sliding groove 4 and cannot move axially; meanwhile, the middle shaft gear bolt 7 is matched with the sliding groove buckling block 5 through the annular sawtooth round rod 7c, so that the middle shaft gear bolt 7 is circumferentially fixed relative to the supporting seat inner sliding groove 4 and cannot rotate relative to the supporting seat inner sliding groove 4.

In the scheme, a middle shaft tooth-shaped clamping block 8 and a middle shaft fastening nut 9 are further arranged aiming at the matching structure of the cambered surface rotating block 6 and the bilateral semi-arc hinge support frame 3, and the matching structure of the middle shaft tooth-shaped clamping block and the middle shaft fastening nut is fixed at two ends of a middle shaft gear bolt 7, and the scheme is shown in figure 1.

Wherein, the middle part of the middle shaft tooth-shaped clamping block 8 is provided with a round hole, one surface of the middle shaft tooth-shaped clamping block is in an arc concave surface and is provided with a cross-bar sawtooth shape, and the middle shaft tooth-shaped clamping block is matched with the arc cross-bar sawtooth groove at the outer side of the bilateral semi-arc hinge support frame 3. And the middle shaft fastening nut 9 is used for fastening after the integral support is installed.

Therefore, the bilateral semi-arc hinge support frame 3 and the cambered surface rotating block 6 matched with the bilateral semi-arc hinge support frame can be further fixed from the outer side through the shaft tooth-shaped clamping block 8 and the middle shaft fastening nut 9, so that the bilateral semi-arc hinge support frame and the cambered surface rotating block cannot axially move or circumferentially rotate along the middle shaft gear bolt 7.

The height adjusting bolt 10 in the scheme is integrally arranged in a full thread mode, the bolt head is circular, and the diameter of the bolt head is consistent with the width of a cavity of a concave sliding chute with a limiting flanging at the upper part of a sliding chute 4 in a support; meanwhile, the side surface of the bolt rod is provided with a through long notch; the length of the bolt is consistent with the height of the vertical sliding groove opening in the circular ring at the upper part of the omega-shaped support base 1.

The toothed bolt clamp 11 in the scheme is matched with the height adjusting bolt 10, the outer side of the toothed bolt clamp is in a circular saw-toothed shape, the inner side of the toothed bolt clamp is in a thread-free round hole, the diameter of the round hole is consistent with that of the height adjusting bolt 10, a tooth opening is formed in the inner side of the toothed bolt clamp, and the size of the tooth opening is identical to that of a through long notch of a bolt rod of the height adjusting bolt 10.

The internal tooth limiting handle 12 is in a key shape, one end of the internal tooth limiting handle is in a circular ring shape, the inner side of the circular ring is provided with a circular sawtooth hole, and the circular sawtooth hole is matched with circular sawtooth on the outer side of the toothed bolt clamp 11; the other end is rectangular, the middle part is provided with a round hole 12a without screw thread, and the round hole is arranged at the joint of the round hole and the axis B-B.

Further, the thickness of the internal tooth limiting handle 12 is the same as that of the tooth-shaped bolt clamp 11.

So set up, the spacing handle of internal tooth 12 overlaps with the nested cooperation cover of profile of tooth bolt card 11 on high adjusting bolt 10, can realize the runner assembly to high adjusting bolt 10 through the spacing handle of drive internal tooth 12. Meanwhile, the internal tooth limiting handle 12 and the tooth-shaped bolt clamp 11 are matched in a sawtooth manner, so that the rapid assembly and disassembly are facilitated, and the assembled structure is stable.

The limiting screw 13 in the scheme is arranged at the position of an axis B-B and consists of an upper hexagonal prism and a lower bolt rod, and the lower screw rod is matched with a small screw round hole 1c at the edge of the horizontal plane at the top of the omega-shaped support base 1 for use.

The diameter of the unthreaded round hole 12a on the internal-tooth limiting handle 12 is consistent with the diameter of the upper hexagonal prism of the limiting screw 13.

For example, after the internal tooth limiting handle 12 drives the height adjusting bolt 10 to rotate to a corresponding position, the unthreaded circular hole 12a in the internal tooth limiting handle 12 is sleeved on the hexagonal prism on the upper part of the limiting screw 13, and then the internal tooth limiting handle 12 is circumferentially limited and fixed, so that the internal tooth limiting handle 12 cannot rotate, the position of the height adjusting bolt 10 is fixed, and the current state is kept.

Furthermore, the height fastening nut 14 in the scheme is matched with the height adjusting bolt 10 for use, and the diameter of the height fastening nut is larger than that of a circular ring of the internal tooth limiting handle 12; the internal tooth limiting handle 12 is further fixed through the height fastening nut 14, the internal tooth limiting handle 12 is limited along the axial movement of the height adjusting bolt 10, the internal tooth limiting handle is made to be incapable of moving along the axial movement of the height adjusting bolt 10, and the stability of the state of the height adjusting bolt 10 is further guaranteed.

The spatial rotatable adjusting support arranged based on the structure can be implemented in the following mode in specific application.

As shown in fig. 3, firstly, the height adjusting bolt 10 is screwed into the axis a-a of the large screw round hole 1b on the top horizontal surface of the omega-shaped support base 1 through the vertical sliding slot at the middle part of the omega-shaped support base 1, and the specific screwed position is not limited and is temporary.

And then, the lower through long semicircular holes of the left and right two blocks 4a and 4b of the support inner chute 4 are buckled outside the smooth round rod 7b at the middle section of the middle shaft gear bolt 7, and after buckling, the support inner chute 4 can limit the middle shaft gear bolt 7 to enter and exit because the outer diameter of the annular sawtooth-shaped round rods 7c at the two sides of the middle section of the middle shaft gear bolt 7 is larger than that of the smooth round rod 7 b.

How to 3 and figure 4, after the support inner chute 4 is combined with the middle shaft gear bolt 7, the middle vertical chute opening of the omega-shaped support base 1 is inserted, and the concave chute with an inward limiting flanging at the upper part of the support inner chute 4 is sleeved in the circular bolt head at the lower part of the height adjusting bolt 10, so that the structure is arranged, and the support inner chute 4 can move up and down along with the height adjusting bolt 10.

As shown in fig. 5, the inside bite of the tooth bolt clip 11 is fitted into the through notch of the side surface of the height-adjusting bolt 10 and mounted on the height-adjusting bolt 10.

The internal tooth limiting handle 12 and the tooth-shaped bolt clamp 11 are installed in a matched mode through respective saw teeth, and the structure is arranged in such a mode that the tooth-shaped bolt clamp 11 can be driven to rotate by rotating the internal tooth limiting handle 12, the tooth-shaped bolt clamp 11 rotates to drive the height adjusting bolt 10 to rotate, and the middle shaft gear bolt 7 is driven to move up and down.

As shown in fig. 4 and 5, the second cambered surface rotary block 6b of the cambered surface rotary block 6 is installed, so that the circular saw tooth hole thereof penetrates through the annular saw tooth-shaped round rod 7c in the middle of the middle shaft gear bolt 7, and the saw teeth are matched because the diameters of the two are consistent, so that the middle shaft gear bolt 7 can rotate along with the second cambered surface rotary block 6b after installation.

As shown in fig. 6, the second arc-shaped rotating block 6b is rotated to reach a required position, and the bilateral semi-arc-shaped hinge support frame 3 is installed, so that the large semi-arc-shaped blade 3a passes through the central shaft gear bolt 7 through the vertical long circular hole of the lower arc section, is tightly attached to the outer arc surface of the second arc-shaped rotating block 6b, and can rotate around the axis C-C along with the second arc-shaped rotating block 6 b.

And then, the sliding chute buckling block 5 is installed, so that the middle circular sawtooth hole of the sliding chute buckling block penetrates through the middle annular sawtooth round rod 7c of the middle shaft gear bolt 7 matched with the sliding chute buckling block to be buckled in the middle vertical sliding chute opening of the omega-shaped support base 1, and the structure can limit the rotation of the middle shaft gear bolt 7, thereby limiting the rotation of the second cambered surface rotating block 6b and the bilateral semi-arc hinge support frame 3.

As shown in fig. 7, the first cambered surface rotary block 6a is installed in the same manner as the second cambered surface rotary block 6 b.

And then, closing the small semi-arc-shaped blade 3b of the support frame 3 of the semi-arc-shaped hinge at the two sides, so that the small semi-arc-shaped blade 3b passes through the middle shaft gear bolt 7 through the vertical long circular hole on the circular arc section at the lower part and is tightly attached to the outer circular arc surface of the first cambered surface rotating block 6 a.

Then, the support frames 3 of the bilateral semi-arc hinges are rotated along the arc surface of the arc surface rotating block 6 in the direction of the vertical long circular hole at the lower arc section, and the position is adjusted.

And then, two sides of the bilateral semi-arc hinge support frame 3 are provided with bilateral middle shaft tooth-shaped clamping blocks 8, and the bilateral semi-arc hinge support frame 3 is matched and arranged with outer side teeth of a lower arc section of the bilateral semi-arc hinge support frame 3 through cross-bar saw teeth of an arc concave surface of the bilateral semi-arc hinge support frame to achieve the purpose of limiting the bilateral semi-arc hinge support frame 3 to rotate along the direction of a vertical long circular hole on the lower arc section.

Next, the double-sided bottom bracket fastening nut 9 is installed and fastened.

And finally, installing the omega-shaped support base 1, adjusting the position through the L-shaped horizontal plane long circular hole 1a at the lower part of the omega-shaped support base, installing the support tooth-shaped gasket 2, and fastening by adopting bolts to achieve limiting and fastening.

As shown in fig. 8, for the fixed omega-shaped support base 1 and the double-side semi-arc-shaped hinge support frame 3, the internal tooth limiting handle 12 is rotated to drive the tooth-shaped bolt clamp 11 to rotate, the tooth-shaped bolt clamp 11 rotates to drive the height adjusting bolt 10 to rotate, and the middle shaft gear bolt 7 is driven to move up and down, so that the purpose of adjusting the height of the double-side semi-arc-shaped hinge support frame 3 is achieved. After adjustment is finished, the internal tooth limiting handle 12 moves upwards out of the toothed bolt clamp 11, and a non-threaded round hole 12a in the rectangular middle of the end part of the internal tooth limiting handle is aligned with a small screw round hole 1c in the horizontal plane of the top of the omega-shaped support base 1 at the position of an axis B-B.

As shown in fig. 9, the internal tooth limiting handle 12 is moved downwards and is tightly matched with the tooth bolt clamp 11 through respective saw teeth; and then a limit screw 13 is arranged to be matched with a small screw round hole 1c on the horizontal plane of the top of the omega-shaped support base 1, so that the rotation of the internal tooth limit handle 12 can be limited, and the purpose of limiting the rotation of the height adjusting bolt 10 is achieved.

Finally, as shown in fig. 10, the nut 14 is tightened to a certain height to fasten the tooth bolt clip 11 and the internal tooth stopper 12.

Finally, it should be noted that the implementation steps can adjust the installation sequence according to the actual situation, so as to achieve the final purpose of the utility model.

By last knowing, the space rotatable regulation support that this scheme provided, can be convenient carry out the space rotation in that the mounted position is multi-direction and adjust, satisfied building decorative panel space mounted position requirement. Meanwhile, the whole structure is convenient to assemble and high in practicability.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (11)

1. A spatially rotatable adjustable support comprising: the support comprises an omega-shaped support base, a bilateral semi-arc hinge support frame, a support inner sliding groove, an arc surface rotating block, a middle shaft gear bolt, a height adjusting bolt and a height adjusting assembly;

a sliding groove opening is formed in the omega-shaped support base, and an adjusting screw hole is formed in the omega-shaped support base;

the support inner chute is arranged in a chute opening in the omega-shaped support base and can move along the chute opening in the height direction; the height adjusting bolt is arranged in an adjusting screw hole in the omega-shaped support base and is in threaded fit with the adjusting screw hole, and one end of the height adjusting bolt is inserted into the sliding groove in the support; the height adjusting assembly is arranged on the height adjusting bolt and can drive the height adjusting bolt to rotate in the adjusting screw hole so as to drive the sliding groove in the support to move in the height direction along the sliding groove opening in the omega-shaped support base;

the middle shaft gear bolt is fixedly arranged in the support inner chute in a penetrating way, and two ends of the middle shaft gear bolt extend out of the omega-shaped support base and can move along the chute opening along with the support inner chute in the height direction;

the two-side semi-arc hinge support frames are erected on the omega-shaped support base, and two side edges are respectively arranged on two ends of the middle shaft gear bolt through arc surface rotating blocks; the two-side semi-arc hinge support frame can be adjusted to rotate angle and/or direction relative to the omega-shaped support base through the arc surface rotating block.

2. The spatially rotatable adjustable support according to claim 1, wherein the lower portion of the Ω -shaped support base is symmetrically L-shaped, the upper portion is a circular ring, a vertical chute opening is formed in the circular ring, an adjusting screw hole is formed in the circular ring, and the adjusting screw hole is communicated with the chute opening.

3. The spatially rotatable adjustable support according to claim 1, wherein the entire support inner chute is fitted with a chute opening in the Ω -shaped support base, and a concave chute having a limiting flange is provided thereon, and limiting flanges are formed inwardly at the top of both sides of the concave chute; and a shaft hole is also formed in the sliding groove in the support.

4. The spatially rotatable adjustable support according to claim 1, wherein the cambered surface rotating block has a D-shaped cross section, a side surface having a circular arc shape, and a circular saw-tooth hole formed in the middle of the block.

5. The spatially rotatable adjustable support of claim 1, wherein the cambered surface rotating block can rotate relative to the middle shaft gear bolt to adjust the installation direction and drive the double-sided semi-cambered hinge support frame to adjust the rotation angle and/or direction relative to the omega-shaped support base.

6. The spatially rotatable adjustable mount of claim 1, wherein the bilateral semi-arc hinge support bracket comprises: the large semi-arc-shaped blade and the small semi-arc-shaped blade are connected through a rotating shaft; the large semi-arc-shaped blades are arranged in a 7 shape, the upper part of the 7 shape is a horizontal section, the end part is provided with a rotating shaft hole, the lower section is arranged in an arc shape, and a through hole matched with a middle shaft gear bolt is formed in the lower section;

the small semi-arc-shaped blades are arranged in a 1 shape, the upper parts of the 1 shapes are provided with rotating shaft holes, the lower parts of the 1 shapes are arranged in an arc shape, correspond to the lower parts of the large semi-arc-shaped blades in an arc shape and are matched with the arc-shaped side surfaces of the arc-shaped rotating blocks; the lower part of the small semi-arc-shaped blade is provided with a through hole matched with the middle shaft gear bolt.

7. The spatially rotatable adjustable support according to claim 1, wherein said central axis gear bolt has two threaded rods at each end, a smooth rod in the middle section, and two annular saw-toothed rods between the middle section and each of the two ends; the diameter and the length of the smooth round rod are consistent with those of the shaft hole at the lower part of the sliding chute in the support; the outer diameter of the annular sawtooth-shaped round rod is larger than the outer diameters of the thread-shaped round rod and the smooth round rod.

8. The spatially rotatable adjustable support according to claim 3, wherein the bolt head of the height adjusting bolt is engaged with, insertable into and movable along the concave chute on the support inner chute; the side surface of a bolt rod of the height adjusting bolt is provided with a through long notch; the length of the height adjusting bolt corresponds to the height of a vertical sliding groove opening in the circular ring on the upper portion of the omega-shaped support base.

9. The spatially rotatable adjusting support according to claim 1, wherein the height adjusting assembly comprises a toothed bolt clamp and an inner tooth limiting handle, the toothed bolt clamp is sleeved on a bolt rod of the height adjusting bolt and is matched with a through-long notch on the bolt rod to form a clamping structure; the inner tooth limiting handle is sleeved on the tooth-shaped bolt clamp and limited by the tooth-shaped bolt clamp in a circumferential relative rotation mode, the inner tooth limiting handle can drive the tooth-shaped bolt clamp to rotate circumferentially, and the tooth-shaped bolt clamp synchronously drives the height adjusting bolt to rotate circumferentially.

10. The spatially rotatable adjustable mount of claim 9, wherein the toothed bolt is a circular saw-toothed shape on the outside and a circular hole without thread on the inside, the diameter of the circular hole is equal to the diameter of the height adjusting bolt, and the inside is provided with a tooth opening, the size of the tooth opening is equal to the size of the through slot of the bolt shaft of the height adjusting bolt.

11. The spatially rotatable adjustable mount of claim 10, wherein the internally toothed retainer bar is configured in a key-like manner, and has a circular ring shape at one end, and circular ring inside is configured with circular saw-tooth holes, and the circular saw-tooth holes are matched with the circular saw-teeth outside the toothed bolt clamp.

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