阅读说明：本技术 一种装配式莲花琉璃穹顶造型设计结构及其安装方法 (Assembled lotus colored glaze dome shape design structure and installation method thereof ) 是由 何静姿 马航城 吴龙 楼银松 李稳稳 于 2021-09-22 设计创作，主要内容包括：本发明提供一种装配式莲花琉璃穹顶造型设计结构及其安装方法,属于穹顶造型技术领域。该装配式莲花琉璃穹顶造型设计结构及其安装方法包括基层骨架、第一连接部、连接件、琉璃单元、第二连接部。本发明中的第一止挡板抵接于第一个基层骨架的外侧壁、第二止挡板抵接于第二个基层骨架的内侧壁,则第一止挡板止挡连接件向右运动、第二止挡板止挡连接件向左运动,第一支撑板抵接于第一个基层骨架顶部、第二支撑板抵接于第二个基层骨架底部,则第一支撑板、第二支撑板、第一个基层骨架、第二个基层骨架的相互配合可以止挡连接件的上下运动,提高了连接件和相邻两个基材骨架连接的稳固性。(The invention provides an assembled lotus colored glaze dome shape design structure and an installation method thereof, and belongs to the technical field of dome shapes. The assembled lotus colored glaze dome model design structure and the installation method thereof comprise a base layer framework, a first connecting part, a connecting piece, a colored glaze unit and a second connecting part. According to the invention, the first stop plate abuts against the outer side wall of the first base layer framework, the second stop plate abuts against the inner side wall of the second base layer framework, the first stop plate stop connecting piece moves rightwards, the second stop plate stop connecting piece moves leftwards, the first supporting plate abuts against the top of the first base layer framework, the second supporting plate abuts against the bottom of the second base layer framework, the first supporting plate, the second supporting plate, the first base layer framework and the second base layer framework are matched with each other to stop the connecting piece from moving up and down, and the connecting stability of the connecting piece and the two adjacent base layer frameworks is improved.)

1. The utility model provides an assembled lotus flower colored glaze dome molding design structure which characterized in that: comprises a connecting piece, a colored glaze unit, a base layer framework (1) which is arranged in parallel in multiple layers, a first connecting part arranged on the inner side of the base layer framework (1), and a second connecting part (2) which can be extended and retracted, two ends of the second connecting part (2) are respectively connected with the first connecting parts in the adjacent two base layer skeletons (1), the connecting piece comprises a first supporting plate (31), a second supporting plate (51), a telescopic hanging part (4), a first stop plate (32) and a second stop plate (52), one end of the hanging part (4) is rotatably connected with one end of the first supporting plate (31), the other end is rotatably connected with one end of the second supporting plate (51), the first stop plate (32) is connected to the other end of the first supporting plate (31), the second stop plate (52) is connected to the other end of the second support plate (51), and the colored glaze units are clamped to the hanging part (4); second basic unit skeleton (1) is located the top of first basic unit skeleton (1), second connecting portion (2) are flexible to first predetermined length, first backstop board (32) butt in the lateral wall of first basic unit skeleton (1), first backup pad (31) butt in first basic unit skeleton (1) top, peg graft portion (4) one end rotates first predetermined angle round the junction with first backup pad (31), peg portion (4) other end is flexible to the second predetermined length, second backup pad (51) butt in second basic unit skeleton (1) bottom, second backstop board (52) butt in the inside wall of second basic unit skeleton (1).

2. The assembled lotus colored glaze dome design structure as claimed in claim 1, wherein: be equipped with a plurality of first mounting grooves on first backup pad (31), first backstop board (32) joint in first mounting groove, be equipped with a plurality of second mounting grooves on second backup pad (51), second backstop board (52) joint in the second mounting groove.

3. The assembled lotus colored glaze dome design structure as claimed in claim 1 or 2, wherein: the inner side of the basic skeleton (1) is provided with a plurality of third mounting grooves (11) which are symmetrically arranged, the first connecting part is parallel to the basic skeleton (1), the first connecting part comprises a first connecting pipe (71), a first connecting rod (72), a second connecting pipe (73), a second connecting rod (74) and a first fixing block (75), one end of the first connecting pipe (71) extends towards the inner side center and is provided with a first fixing groove, one end of the second connecting pipe (73) extends towards the inner side center and is provided with a second fixing groove, one end of the first fixing block (75) is connected with one end of the first connecting rod (72), the other end of the first connecting pipe (71) is inserted into one third mounting groove (11), the other end of the second connecting pipe (73) is inserted into the other third mounting groove (11), and the other end of the first connecting rod (72) is inserted into the first fixing groove, the other end of the second connecting rod (74) is inserted into the second fixing groove, and the top end of the second connecting part (2) is connected to a first fixing block (75) on the inner side of the second base layer keel, and the bottom end of the second connecting part is connected to a first fixing block (75) on the inner side of the first base layer keel.

4. The assembled lotus colored glaze dome design structure as claimed in claim 3, wherein: the first connecting part further comprises a first spring (76) and a second spring (77), the first spring (76) is sleeved on the first connecting rod (72), and the second spring (77) is sleeved on the second connecting rod (74); one end of the first spring (76) abuts against one end of the first fixing block (75) and the other end of the first spring pushes the other end of the first connecting pipe (71) to abut against one end of one third mounting groove (11), and one end of the second spring (77) abuts against the other end of the first fixing block (75) and the other end of the second spring pushes the other end of the second connecting pipe (73) to abut against one end of the other third mounting groove (11).

5. The assembled lotus colored glaze dome design structure as claimed in claim 3, wherein: the first fixing block (75) is internally provided with a first fixing through hole, the second connecting part (2) comprises a first screw (21), a first fastening nut (22), a second fastening nut (23), a third fastening nut (24) and a fourth fastening nut (25), the top end of the first screw (21) penetrates through the first fixing through hole on the first fixing block (75) at the inner side of the second base skeleton (1), the bottom end of the first screw (21) penetrates through the first fixing through hole on the first fixing block (75) at the inner side of the first base skeleton (1), the first fastening nut (22) is screwed on the part, located at the lower end of the first fixing block (75) at the inner side of the first base skeleton (1), of the first screw (21), the second fastening nut (23) is screwed on the part, located at the upper end of the first fixing block (75) at the inner side of the first base skeleton (1), of the first screw (21), the third fastening nut (24) is screwed on the first screw (21) at the lower end of the first fixing block (75) on the inner side of the second base layer framework (1), and the fourth fastening nut (25) is screwed on the first screw (21) at the upper end of the second base layer framework (1).

6. The assembled lotus colored glaze dome design structure as claimed in claim 1 or 2, wherein: the hanging part (4) comprises a first connecting plate (41), a first fixing piece, a second connecting plate (42) capable of moving along the axis direction of the first connecting plate (41), a first clamping block (43) arranged on the second connecting plate (42), and a first fixing piece, wherein the first fixing piece is used for fixedly connecting the second connecting plate (42) and the first connecting plate (41) when the second connecting plate (42) moves to a first preset position along the axis direction of the first connecting plate (41), and the colored glaze unit is clamped in the first clamping block (43).

7. The assembled lotus colored glaze dome design structure of claim 6, wherein: first connecting plate (41) including set up in first stopper (411) of a side, set up in second stopper (412) of another side, set up in inboard first spout (413), first mounting includes second screw rod (49), fifth fastening nut (44), sixth fastening nut (45), be equipped with the first grafting through-hole (414) of bar on first stopper (411), be equipped with the second grafting through-hole (415) of bar on second stopper (412), first spout (413) is inserted to second connecting plate (42) one end, second connecting plate (42) one end is equipped with second fixed through-hole (428), the length of first grafting through-hole (414), second grafting through-hole (415) equals, the length of first grafting through-hole (414) is greater than the width of second fixed through-hole (428), first grafting through-hole (414), second screw rod (49) one end is passed through in proper order, The second fixing through hole (428), the second inserting through hole (415) and the second limiting block (412) are protruded, the fifth fastening nut (44) is screwed on the portion, located on one side of the first limiting block (411), of the second screw rod (49), one side end of the fifth fastening nut (44) abuts against the first limiting block (411), the sixth fastening nut (45) is screwed on the portion, located on one side of the second limiting block (412), of the second screw rod (49), and one side end of the sixth fastening nut (45) abuts against the second limiting block (412).

8. The assembled lotus colored glaze dome design structure of claim 6, wherein: the second connecting plate (42) comprises a second sliding groove (423), a third limiting block (421), a fourth limiting block (422), a first connecting through hole (424) arranged on the inner side of the third limiting block (421), a second connecting through hole (426) arranged on the inner side of the fourth limiting block (422), a first countersunk groove (425) arranged on one side end of the third limiting block (421), and a second countersunk groove (427) arranged on one side end of the fourth limiting block (422), wherein the first countersunk groove (425) and the second countersunk groove (427) are both long-strip countersunk grooves, the first connecting through hole (424) and the second connecting through hole (426) are both long-strip connecting through holes, the hanging part (4) further comprises a first connecting block (81), a third screw rod, a seventh fastening nut (82) and an eighth fastening nut (83), one end of the first connecting block (81) is connected to the first clamping block (43), The other end of the connecting block is connected with a second sliding groove (423) in a sliding mode, a third fixing through hole (811) is formed in the inner side of the first connecting block (81), one end of a third screw rod sequentially penetrates through a first countersunk head groove (425), a first connecting through hole (424), a third fixing through hole (811), a second connecting through hole (426) and a second countersunk head groove (427), a seventh fastening nut (82) is screwed on the portion, located in the second countersunk head groove (427), of the third screw rod, and an eighth fastening nut (83) is screwed on the portion, located in the first countersunk head groove (425), of the third screw rod.

9. The assembled lotus colored glaze dome design structure of claim 8, wherein: the colored glaze unit includes first base plate (61), second joint piece (62), second connecting block (63), fourth screw rod (64), second connecting block (63) one end is connected in first base plate (61), the other end and is connected in second joint piece (62), second joint piece (62) one end is equipped with first draw-in groove, first joint piece (43) joint in first draw-in groove, second joint piece (62) inboard is equipped with first thread groove, be equipped with a plurality of first screw through-holes (631) on second connecting block (63), fourth screw rod (64) one end spiro union in proper order in first screw through-hole (631) and first thread groove.

10. The mounting method of the assembled lotus colored glaze dome modeling design structure is characterized by comprising the following steps:

s1: adjusting the length of the second connecting part (2) to adjust the distance between the first base layer skeleton (1) and the second base layer skeleton (1);

s2: the method comprises the following steps that a first stop plate (32) abuts against the outer side wall of a first base layer framework (1) and a first supporting plate (31) abuts against the top of the first base layer framework (1), a second supporting plate (51) is adjusted to be parallel to the first supporting plate (31), one end of a hanging part (4) rotates around the joint of the hanging part and the first supporting plate (31) for a first preset angle, and the other end of the hanging part (4) stretches to a second preset length to enable the second supporting plate (51) to abut against the bottom of a second base layer framework (1) and the second stop plate (52) to abut against the inner side wall of the second base layer framework (1);

s3: the colored glaze units are clamped on the hanging parts (4).

Technical Field

The invention relates to the technical field of dome modeling, in particular to an assembled lotus colored glaze dome modeling design structure and an installation method thereof.

Background

The colored glaze, also known as the run-off, is an important decorative component in the traditional Chinese buildings, is usually used for important buildings such as palace, temple and the like, is also a colored pottery for artistic decoration, and the bright and limpid colored glaze holds the good wishes of people. The length of the connecting piece among the structure of current colored glaze dome molding is also fixed, then the connecting piece can't connect respectively in adjacent two-layer circular skeleton when the distance of adjacent two-layer circular skeleton changes, then can't accomplish the installation to the both ends of connecting piece all set up in the homonymy of adjacent two-layer circular skeleton, and the connecting piece easily drops from circular skeleton, and the stability of connecting piece and circular skeleton connection is relatively poor.

Chinese patent CN112031167A, published japanese 2020-12-04 discloses an assembled lotus flower colored glaze dome molding design structure, including the dome skeleton, connecting piece and colored glaze unit, the dome skeleton includes a plurality of layers of parallel arrangement's circular skeleton and arc skeleton, connect through the arc skeleton between the adjacent two-layer circular skeleton, be provided with a plurality of connecting pieces between the adjacent two-layer circular skeleton, the connecting piece includes hitching part, colored glaze unit articulates on hitching part, hitching part bottom is provided with first supporting part, the top is provided with the second supporting part, first supporting part sliding connection is on the circular skeleton of connecting piece below, second supporting part sliding connection is on the circular skeleton of connecting piece top, two adjacent colored glaze units are fixed through n shape hasp. The invention also provides an installation method of the assembled lotus colored glaze dome model design structure. Compared with the prior art, the prior art has the advantages of firm installation of the colored glaze units, good integrity of colored glaze dome shapes and the like. The length of the connecting piece in the above-mentioned patent is also fixed, then the connecting piece can't connect respectively in adjacent two-layer circular skeleton when the distance of adjacent two-layer circular skeleton changes, then can't accomplish the installation to the both ends of connecting piece all set up in the homonymy of adjacent two-layer circular skeleton, and the connecting piece easily drops from circular skeleton, and the stability of connecting piece and circular skeleton connection is relatively poor.

Disclosure of Invention

The invention aims to provide a design structure of an assembled lotus colored glaze dome shape and an installation method thereof, aiming at the defects of the prior art.

The invention provides an assembled lotus flower colored glaze dome shape design structure which comprises a connecting piece, colored glaze units, a plurality of layers of base layer frameworks which are arranged in parallel, a first connecting part and a telescopic second connecting part, wherein the first connecting part and the telescopic second connecting part are arranged on the inner side of the base layer frameworks; second base layer skeleton is located the top of first base layer skeleton, second connecting portion stretch out and draw back to first predetermined length, first backstop board butt in the lateral wall of first base layer skeleton, first backup pad butt in first base layer skeleton top, hitching part one end rotates first predetermined angle round the junction with first backup pad, the length is preset to the second to the flexible hanging part other end, second backup pad butt in second base layer skeleton bottom, second backstop board butt in the inside wall of second base layer skeleton.

Further, be equipped with a plurality of first mounting grooves in the first backup pad, first backstop board joint in first mounting groove, be equipped with a plurality of second mounting grooves in the second backup pad, second backstop board joint in the second mounting groove.

Further, a plurality of third mounting grooves which are symmetrically arranged are formed in the inner side of the basic skeleton, the first connecting portion is parallel to the basic skeleton and comprises a first connecting pipe, a first connecting rod, a second connecting pipe, a second connecting rod and a first fixing block, one end of the first connecting pipe extends to the inner side center to form a first fixing groove, one end of the second connecting pipe extends to the inner side center to form a second fixing groove, one end of the first fixing block is connected to one end of the first connecting rod, the other end of the first connecting pipe is connected to one end of the second connecting rod, the other end of the first connecting pipe is inserted into one third mounting groove, the other end of the second connecting pipe is inserted into the other third mounting groove, the other end of the first connecting rod is inserted into the first fixing groove, the other end of the second connecting rod is inserted into the second fixing groove, and the top end of the second connecting portion is connected to the first fixing block, the inner side of the basic skeleton, The bottom is connected in the inboard first fixed block of first basic unit fossil fragments.

Furthermore, the first connecting part also comprises a first spring and a second spring, the first spring is sleeved on the first connecting rod, and the second spring is sleeved on the second connecting rod; one end of the first spring is abutted to one end of the first fixing block, the other end of the first spring pushes the other end of the first connecting pipe to be abutted to one end of one third mounting groove, and one end of the second spring is abutted to the other end of the first fixing block, the other end of the second spring pushes the other end of the second connecting pipe to be abutted to one end of the other third mounting groove.

Further, a first fixing through hole is arranged on the inner side of the first fixing block, the second connecting part comprises a first screw rod, a first fastening nut, a second fastening nut, a third fastening nut and a fourth fastening nut, the top end of the first screw rod passes through a first fixing through hole on a first fixing block at the inner side of a second base layer framework, the bottom end of the first screw rod passes through a first fixing through hole on a first fixing block at the inner side of a first base layer framework, the first fastening nut is screwed on the first screw rod at the lower end of the first fixing block at the inner side of the first base layer framework, the second fastening nut is screwed on the first screw rod at the upper end of the first fixing block at the inner side of the first base layer framework, the third fastening nut is screwed on the part of the first screw rod, which is positioned at the lower end of the first fixing block at the inner side of the second base layer framework, and the fourth fastening nut is screwed on the part of the first screw rod, which is positioned at the upper end of the second base layer framework.

Further, the hitching part comprises a first connecting plate, a first fixing piece, a second connecting plate capable of moving along the axis direction of the first connecting plate, a first clamping block and a first fixing piece, wherein the first clamping block and the first fixing piece are arranged on the second connecting plate, the first fixing piece is used for fixedly connecting the second connecting plate and the first connecting plate when the second connecting plate moves to a first preset position along the axis direction of the first connecting plate, and the colored glaze unit is clamped in the first clamping block.

Further, the first connecting plate comprises a first limiting block arranged at one side end, a second limiting block arranged at the other side end, and a first sliding groove arranged at the inner side, the first fixing part comprises a second screw rod, a fifth fastening nut and a sixth fastening nut, the first limiting block is provided with a strip-shaped first inserting through hole, the second limiting block is provided with a strip-shaped second inserting through hole, one end of the second connecting plate is inserted into the first sliding groove, one end of the second connecting plate is provided with a second fixing through hole, the lengths of the first inserting through hole and the second inserting through hole are equal, the length of the first inserting through hole is larger than the width of the second fixing through hole, one end of the second screw rod sequentially passes through the first inserting through hole, the second fixing through hole and the second inserting through hole and protrudes out of the second limiting block, the fifth fastening nut is screwed on the part of the second screw rod, which is positioned at one side of the first limiting block, one side end of the fifth fastening nut abuts against the first limiting block, the sixth fastening nut is screwed on the part, located on one side of the second limiting block, of the second screw rod, and one side end of the sixth fastening nut abuts against the second limiting block.

Further, the second connecting plate comprises a second chute, a third limiting block, a fourth limiting block, a first connecting through hole arranged at the inner side of the third limiting block, a second connecting through hole arranged at the inner side of the fourth limiting block, a first countersunk groove arranged at the first side end of the third limiting block and a second countersunk groove arranged at the first side end of the fourth limiting block, wherein the first countersunk groove and the second countersunk groove are both long-strip-shaped countersunk grooves, the first connecting through hole and the second connecting through hole are both long-strip-shaped connecting through holes, the hanging part further comprises a first connecting block, a third screw rod, a seventh fastening nut and an eighth fastening nut, one end of the first connecting block is connected to the first clamping block, the other end of the first connecting block is connected to the second chute in a sliding manner, a third fixing through hole is arranged at the inner side of the first connecting block, and one end of the third screw rod sequentially passes through the first countersunk groove, the first connecting through hole, The seventh fastening nut is screwed on the part, located in the second countersunk head groove, of the third screw rod, and the eighth fastening nut is screwed on the part, located in the first countersunk head groove, of the third screw rod.

Further, the colored glaze unit includes first base plate, second joint piece, second connecting block, fourth screw rod, second connecting block one end is connected in first base plate, the other end and is connected in second joint piece, second joint piece one end is equipped with first draw-in groove, first joint piece joint in first draw-in groove, second joint piece inboard is equipped with first thread groove, be equipped with a plurality of first screw through-holes on the second connecting block, fourth screw rod one end spiro union in proper order in first screw through-hole and first thread groove.

A mounting method of an assembled lotus colored glaze dome modeling design structure comprises the following steps:

s1: adjusting the length of the second connecting part to adjust the distance between the first base layer skeleton and the second base layer skeleton;

s2: the first stop plate is abutted against the outer side wall of the first base layer framework and the first supporting plate is abutted against the top of the first base layer framework, the second supporting plate is adjusted to be parallel to the first supporting plate, one end of the hanging part rotates by a first preset angle around the joint of the hanging part and the first supporting plate, and the other end of the hanging part stretches to a second preset length to enable the second supporting plate to be abutted against the bottom of the second base layer framework and the second stop plate to be abutted against the inner side wall of the second base layer framework;

s3: the colored glaze unit is connected to the hanging part in a clamping mode.

The invention discloses an assembled lotus colored glaze dome shape design structure and an installation method thereof, which have the following beneficial effects:

when the distance between two adjacent base layer frameworks is changed, the length of a connecting piece with two ends respectively connected with the two base layer frameworks needs to be adjusted, the angle between the two ends of the connecting piece and the two base layer frameworks needs to be adjusted, a first stop plate is abutted against the outer side wall of the first base layer framework, a first supporting plate is abutted against the top of the first base layer framework, a second supporting plate is adjusted to be parallel to the first supporting plate so as to facilitate the second supporting plate to be abutted against the second base layer framework, one end of a hanging part is rotated for a first preset angle around the connection part with the first supporting plate, the other end of the hanging part is extended to a second preset length so as to enable the second supporting plate to be abutted against the bottom of the second base layer framework, a second stop plate is abutted against the inner side wall of the second base layer framework, and a colored glaze unit is clamped on the hanging part, the connection structure can be suitable for the connection of base layer frameworks with various spacing patterns, and is convenient and fast to install; because first backstop board butt in the lateral wall of first base layer skeleton, second backstop board butt in the inside wall of second base layer skeleton, then first backstop board backstop connecting piece moves right, second backstop board backstop connecting piece moves left, first backup pad butt in first base layer skeleton top, second backup pad butt in second base layer skeleton bottom, then first backup pad, the second backup pad, first base layer skeleton, the up-and-down motion that can backstop the connecting piece of mutually supporting of second base layer skeleton, the steadiness of connecting piece and two adjacent substrate skeleton connections has been improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a side view of an assembled lotus colored glaze dome shape design structure and its installation method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first connection portion when a base skeleton is viewed in cross section in an assembled lotus colored glaze dome shape design structure and an installation method thereof according to an embodiment of the invention;

fig. 3 is a top view of the assembled lotus colored glaze dome model design structure and the installation method thereof according to the embodiment of the invention, wherein the first spring is sleeved on the first connecting rod, and the second spring is sleeved on the second connecting rod;

FIG. 4 is a side view of a hanging part in the assembled lotus colored glaze dome shape design structure and the installation method thereof according to the embodiment of the invention;

fig. 5 is a schematic structural view of the assembled lotus colored glaze dome shape design structure and the installation method thereof according to the embodiment of the invention, wherein the first connecting plate is connected to the first connecting plate in a cross-sectional view, the second clamping block is clamped to the first clamping block, and the third spring pushes the second extrusion block to extrude the second clamping block;

fig. 6 is a schematic structural view of the assembled lotus colored glaze dome shape design structure and the installation method thereof according to the embodiment of the invention, wherein one end of the first connecting block is connected to the first clamping block, and the other end of the first connecting block is slidably connected to the second chute in a cross-sectional view;

fig. 7 is a side view of a glass unit in an assembled lotus colored glaze dome design structure and an installation method thereof according to an embodiment of the invention.

In the figure: 1-a base layer framework, 11-a third mounting groove, 2-a second connecting part, 21-a first screw, 22-a first fastening nut, 23-a second fastening nut, 24-a third fastening nut, 25-a fourth fastening nut, 31-a first supporting plate, 32-a first stop plate, 4-a hanging part, 41-a first connecting plate, 411-a first limit block, 412-a second limit block, 413-a first sliding groove, 414-a first inserting through hole, 415-a second inserting through hole, 42-a second connecting plate, 421-a third limit block, 422-a fourth limit block, 423-a second sliding groove, 424-a first connecting through hole, 425-a first countersunk groove, 426-a second connecting through hole, 427-a second countersunk groove, 428-a second fixing through hole, 43-first clamping block, 44-fifth fastening nut, 45-sixth fastening nut, 46-first extrusion block, 47-third spring, 48-second extrusion block, 49-second screw rod, 51-second support plate, 52-second stop plate, 61-first base plate, 62-second clamping block, 63-second connecting block, 631-first threaded through hole, 64-fourth screw rod, 71-first connecting pipe, 72-first connecting rod, 73-second connecting pipe, 74-second connecting rod, 75-first fixing block, 76-first spring, 77-second spring, 81-first connecting block, 811-third fixing through hole, 82-seventh fastening nut, 83-eighth fastening nut.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Please refer to fig. 1 to 7. The invention discloses an assembled lotus flower colored glaze dome shape design structure, which comprises a connecting piece, colored glaze units, a plurality of layers of base layer frameworks 1 arranged in parallel, a first connecting part arranged on the inner side of the base layer framework 1 and a telescopic second connecting part 2, wherein two ends of the second connecting part 2 are respectively connected with the first connecting parts in two adjacent base layer frameworks 1, the connecting piece comprises a first supporting plate 31, a second supporting plate 51, a telescopic hanging part 4, a first stop plate 32 and a second stop plate 52, one end of the hanging part 4 is rotatably connected with one end of the first supporting plate 31, the other end of the hanging part is rotatably connected with one end of the second supporting plate 51, the first stop plate 32 is connected with the other end of the first supporting plate 31, the second stop plate 52 is connected with the other end of the second supporting plate 51, and the colored glaze units are clamped on the hanging part 4; second base layer skeleton 1 is located the top of first base layer skeleton 1, second connecting portion 2 stretch out and draw back to first predetermined length, first backstop board 32 butt in the lateral wall of first base layer skeleton 1, first backup pad 31 butt in 1 top of first base layer skeleton, 4 one end of hitching part rotates first predetermined angle round the junction with first backup pad 31, the 4 other ends of hitching part stretch out and draw back to the second predetermined length, second backup pad 51 butt in 1 bottom of second base layer skeleton, second backstop board 52 butt in the inside wall of second base layer skeleton 1.

Here, the second connecting portion 2 is extended and contracted to adjust the distance between two adjacent base layer frameworks 1, when the distance between two adjacent base layer frameworks 1 is changed, the length of the connecting member with two ends connected to the two base layer frameworks respectively needs to be adjusted, the angle between the two ends of the connecting member and the two base layer frameworks needs to be adjusted, the first stop plate 32 is abutted against the outer side wall of the first base layer framework 1, the first support plate 31 is abutted against the top of the first base layer framework 1, the second support plate 51 is adjusted to be parallel to the first support plate 31 so as to facilitate the second support plate 51 to be abutted against the second base layer framework 1, one end of the hanging portion 4 is rotated by a first preset angle around the connection part with the first support plate 31, the other end of the hanging portion 4 is extended and contracted to a second preset length so that the second support plate 51 is abutted against the bottom of the second base layer framework 1, the second stop plate 52 is abutted against the inner side wall of the second base layer framework 1, the colored glaze units are clamped on the hanging parts 4, so that the colored glaze unit can be suitable for connection of the base layer frameworks 1 in various spacing patterns, and is convenient and fast to install; because first backstop board 32 butt in the lateral wall of first base layer skeleton 1, second backstop board 52 butt in the inside wall of second base layer skeleton 1, then first backstop board 32 backstop connecting piece moves right, second backstop board 52 backstop connecting piece moves left, first backup pad 31 butt in 1 top of first base layer skeleton, second backup pad 51 butt in 1 bottom of second base layer skeleton, then first backup pad 31, second backup pad 51, first base layer skeleton 1, the up-and-down motion that can backstop the connecting piece of mutually supporting of second base layer skeleton 1, the steadiness of connecting piece and two adjacent base layer skeleton connections has been improved.

The radius inequality of basic unit skeleton 1, a plurality of basic unit skeleton 1 form the round platform body, from basic unit skeleton 1 that is located the bottom to basic unit skeleton 1 that is located the top, and basic unit skeleton 1's radius reduces gradually. When second connecting portion 2 extends, the distance between first base layer skeleton 1 and the second base layer skeleton 1 becomes big, then the line between corresponding point on first base layer skeleton 1 and the second base layer skeleton 1 and the angle between the plane of first base layer skeleton 1 place become big, first backstop board 32 butt in the lateral wall of first base layer skeleton 1, first backup pad 31 butt in the top of first base layer skeleton 1, adjust second backup pad 51 to being parallel to first backup pad 31, with the certain angle of the anticlockwise rotation of department of junction of portion 4 one end round with first backup pad 31, extend the other end of portion 4 of hitching, make second backup pad 51 butt in second base layer skeleton 1 bottom, second backstop board 52 butt in the inside wall of second base layer skeleton 1, the installation finishes. When the second connecting portion 2 is shortened, the distance between the first base layer framework 1 and the second base layer framework 1 is reduced, the angle between the connecting line between one point on the first base layer framework 1 and the corresponding point on the second base layer framework 1 and the plane support where the first base layer framework 1 is located is reduced, the first stop plate 32 abuts against the outer side wall of the first base layer framework 1, the first supporting plate 31 abuts against the top of the first base layer framework 1, the second supporting plate 51 is adjusted to be parallel to the first supporting plate 31, one end of the hanging part rotates clockwise for a certain angle around the connecting part with the first supporting plate 31, the other end of the hanging part 4 is shortened, the second supporting plate 51 abuts against the bottom of the second base layer framework 1, and the second stop plate 52 abuts against the inner side wall of the second base layer framework 1.

Can be equipped with a plurality of first mounting grooves on first backup pad 31, first backstop board 32 joint is equipped with a plurality of second mounting grooves in first mounting groove on the second backup pad 51, and second backstop board 52 joint is in the second mounting groove, conveniently with first backstop board 32 and first backup pad 31 fastening connection, conveniently with second backstop board 52 and second backup pad 51 fastening connection, it is convenient to install.

Still include and be used for carrying out the flexible rope of fixing a position when rotating for 4 one ends of hitching part, first basic unit's skeleton 1 includes the first butt portion that is used for supplying first backup pad 31 butt, connects in the first location portion of first butt portion, second basic unit's skeleton 1 includes the second butt portion that is used for supplying second backup pad 51 butt, connects in the second location portion of second butt portion, flexible rope one end is connected in first location portion, the other end is connected in second location portion. The basic skeleton 1 is an annular skeleton, on first basic skeleton 1, all divide equally according to N on the second basic skeleton 1, first butt portion on the first basic skeleton 1 corresponds the second butt portion on the second extrusion skeleton, first location portion on the first basic skeleton 1 corresponds the second location portion on the second basic skeleton 1, flexible rope one end is connected in the first location portion on the first basic skeleton 1, the other end is connected in the second location portion on the second basic skeleton 1, flexible rope and first butt portion on the first basic skeleton 1, the line of the second butt portion on the second basic skeleton 1 is parallel, when the distance between first basic skeleton 1 and second basic skeleton 1 changes, the angle between flexible rope and first basic skeleton 1 changes, with first backstop board 32 butt in the lateral wall of first basic skeleton 1, First backup pad 31 butt in first basic unit skeleton 1 top, simultaneously with pendant portion one end round the junction with first backup pad 31 according to the angular rotation of flexible rope between first basic unit skeleton 1 to can adjust the angle of portion of hitching 4 fast, then stretch out and draw back portion of hitching 4, with second backup pad 51 butt in second basic unit skeleton 1 bottom, second backstop board 52 butt in the inside wall of second basic unit skeleton 1, improve the installation effectiveness.

The inner side of the base layer skeleton 1 may be provided with a plurality of third mounting grooves 11 symmetrically arranged, the first connecting portion is parallel to the base layer skeleton 1, the first connecting portion includes a first connecting pipe 71, a first connecting rod 72, a second connecting pipe 73, a second connecting rod 74 and a first fixing block 75, one end of the first connecting pipe 71 extends towards the inner side center to form a first fixing groove, one end of the second connecting pipe 73 extends towards the inner side center to form a second fixing groove, one end of the first fixing block 75 is connected to one end of the first connecting rod 72, the other end of the first connecting rod is connected to one end of the second connecting rod 74, the other end of the first connecting pipe 71 is inserted into one of the third mounting grooves 11, the other end of the second connecting pipe 73 is inserted into the other third mounting groove 11, the other end of the first connecting rod 72 is inserted into the first fixing groove, the other end of the second connecting rod 74 is inserted into the second fixing groove, the top end of the second connecting portion 2 is connected to the first fixing block 75, the inner side of the second base layer skeleton 2, The bottom end is connected to the first fixed block 75 of the first base keel inboard. The first connecting portion is parallel to the base layer skeleton 1, and the second connecting portion 2 is perpendicular to the first connecting portion. The other end of the first connecting pipe 71 is inserted into one third mounting groove 11, one end of the first connecting rod 72 is inserted into a first fixing groove at one end of the first connecting pipe 71, the other end of the second connecting pipe 73 is inserted into another third mounting groove 11, the two third mounting grooves 11 are symmetrically arranged, the other end of the second connecting rod 74 is inserted into a second fixing groove at one end of the second connecting pipe 73, the second connecting part 2 is connected to the first fixing block 75, the length of the first connecting rod 72 inserted into the first fixing groove and the length of the second connecting rod 74 inserted into the second fixing groove are adjusted, the position of the first fixing block 75 on the first connecting part is adjusted, and the connecting position of the second connecting part 2 and the first connecting part is adjusted.

The first connecting part may further include a first spring 76 and a second spring 77, the first spring 76 is sleeved on the first connecting rod 72, and the second spring 77 is sleeved on the second connecting rod 74; one end of the first spring 76 abuts against one end of the first fixing block 75, and the other end thereof pushes the other end of the first connecting pipe 71 to abut against one end of one third mounting groove 11, and one end of the second spring 77 abuts against the other end of the first fixing block 75, and the other end thereof pushes the other end of the second connecting pipe 73 to abut against one end of the other third mounting groove 11. The first connection pipe 71 and the second connection pipe 73 are symmetrically disposed, the first connection rod 72 and the second connection rod 74 are symmetrically disposed about the first fixing block 75, and the first spring 76 and the second spring 77 are symmetrically disposed. When one end of the first connection rod 72 is inserted into the first fixing groove, the first spring 76 is sleeved on the first connection rod 72, one end of the first spring 76 abuts against the first connection pipe 71, and the other end abuts against one end of the first fixing block 75, at this time, the first spring 76 is in a compressed state, the first spring 76 presses the first connection pipe 71, the first connection pipe 71 is prevented from being separated from one third installation groove 11, when second fixed slot was inserted to second connecting rod 74 one end second spring 77 cup joints in second connecting rod 74, second spring 77 one end submitted in second connecting pipe 73, the other end butt in the 75 other ends of first fixed block, second spring 77 is in compression state this moment, second spring 77 extrudees the second allies oneself with the pipe, avoid second connecting pipe 73 to break away from in another third mounting groove 11, the combined action of first spring 76 and second spring 77 makes first fixed block 75 be located the inboard middle part of basic unit's skeleton 1.

The first fixing block 75 may be provided at an inner side thereof with a first fixing through hole, the second connecting portion 2 includes a first screw 21, a first fastening nut 22, and a second fastening nut 23, third fastening nut 24, fourth fastening nut 25, first fixed through hole on the first fixed block 75 of second basic unit skeleton 1 inboard is passed on first screw rod 21 top, the first fixed through hole on the first fixed block 75 of first basic unit skeleton 1 inboard is passed to the bottom, first fastening nut 22 spiro union is located the part of first fixed block 75 lower extreme of first basic unit skeleton 1 inboard on first screw rod 21, second fastening nut 23 spiro union is located the part of first fixed block 75 upper end of first basic unit skeleton 1 inboard on first screw rod 21, third fastening nut 24 spiro union is located the part of first fixed block 75 lower extreme of second basic unit skeleton 1 inboard on first screw rod 21, fourth fastening nut 25 spiro union is located the part of second basic unit skeleton 1 upper end on first screw rod 21. The length of the first screw 21 is greater than or equal to the length from the top end to the bottom end of the multilayer base skeleton 1, when the distance between two adjacent base skeletons 1 needs to be adjusted, the first screw 21 respectively penetrates through a first fixed block 75 in the first base skeleton 1 and a first fixed block 75 in the second base skeleton 1, the first fixed block 75 on the inner side of the first base skeleton 1 moves to a first position on the first screw 21 along the axis of the first screw 21, a first fastening nut 22 is screwed on the part, located at the lower end of the first fixed block 75 on the inner side of the first base skeleton 1, of the first screw 21, a second fastening nut 23 is screwed on the part, located at the upper end of the first fixed block 75 on the inner side of the first base skeleton 1, of the first screw 21, so as to fasten and connect the first connecting part in the first base skeleton 1 and the first screw 21, and move the first fixed block 75 on the inner side of the second base skeleton 1 to a second position on the first screw 21 along the axis of the first screw 21, the third fastening nut 24 is screwed on the first screw rod 21 at the lower end of the first fixing block 75 positioned at the inner side of the second base layer skeleton 1, and the fourth fastening nut 25 is screwed on the first screw rod 21 at the upper end of the second base layer skeleton 1, so that the first connecting part in the second base layer skeleton 1 and the first screw rod 21 are fastened and connected, and the installation is convenient and fast.

The hanging part 4 may include a first connecting plate 41, a first fixing member, a second connecting plate 42 movable along an axial direction of the first connecting plate 41, a first clamping block 43 disposed on the second connecting plate 42, and a first fixing member, wherein the first fixing member fastens and connects the second connecting plate 42 and the first connecting plate 41 when the second connecting plate 42 moves to a first preset position along the axial direction of the first connecting plate 41, and the colored glaze unit is clamped to the first clamping block 43. When second connecting plate 42 moved to first default position along first connecting plate 41's axis, thereby realized the flexible of hitching part 4, first mounting was fixed first connecting plate 41 and second connecting plate 42, thereby fixed the length of hitching part 4, thereby fixed first joint piece 43, with the azure stone unit joint in first joint piece 43, thereby fixed the azure stone unit.

The first connecting plate 41 may include a first limiting block 411 disposed at one side end, a second limiting block 412 disposed at the other side end, and a first sliding slot 413 disposed at the inner side, the first fixing member includes a second screw 49, a fifth fastening nut 44, and a sixth fastening nut 45, the first limiting block 411 is provided with a strip-shaped first inserting through hole 414, the second limiting block 412 is provided with a strip-shaped second inserting through hole 415, one end of the second connecting plate 42 is inserted into the first sliding slot 413, one end of the second connecting plate 42 is provided with a second fixing through hole 428, the lengths of the first inserting through hole 414 and the second inserting through hole 415 are equal, the length of the first inserting through hole 414 is greater than the width of the second fixing through hole 428, one end of the second screw 49 sequentially passes through the first inserting through hole 414, the second fixing through hole 428, the second inserting through hole 415 and protrudes out of the second limiting block 412, the fifth fastening nut 44 is screwed on the second screw 49 at a portion of one side of the first limiting block 411, one side end of the fifth fastening nut 44 abuts against the first stopper 411, the sixth fastening nut 45 is screwed on the portion of the second screw 49 on the side of the second stopper 412, and one side end of the sixth fastening nut 45 abuts against the second stopper 412. The first sliding groove 413 is disposed between the first limiting block 411 and the second limiting block 412. The first insertion through hole 414 and the second insertion through hole 415 are symmetrically disposed. The second connecting plate 42 is inserted into the first sliding slot 413, one end of the second screw 49 sequentially passes through the first inserting through hole 414, the second fixing through hole 428, the second inserting through hole 415 and protrudes out of the second limiting block 412, the fifth fastening nut 44 is screwed on the portion of the second screw 49 on one side of the first limiting block 411, one side end of the fifth fastening nut 44 abuts against the first limiting block 411, the sixth fastening nut 45 is screwed on the portion of the second screw 49 on one side of the second limiting block 412, one side end of the sixth fastening nut 45 abuts against the second limiting block 412, so that the first connecting plate 41 and the second connecting plate 42 are fastened and connected, the total length of the first connecting plate 41 and the second connecting plate 42 is adjusted, and the adjustment is simple and convenient.

The second connecting plate 42 may include a second sliding slot 423, a third limiting block 421, a fourth limiting block 422, a first connecting through hole 424 disposed inside the third limiting block 421, a second connecting through hole 426 disposed inside the fourth limiting block 422, a first countersunk groove 425 disposed at one side end of the third limiting block 421, a second countersunk groove 427 disposed at one side end of the fourth limiting block 422, the first countersunk groove 425 and the second countersunk groove 427 are both elongated countersunk grooves, the first connecting through hole 424 and the second connecting through hole 426 are both elongated connecting through holes, the hanging portion 4 further includes a first connecting block 81, a third screw, a seventh fastening nut 82 and an eighth fastening nut 83, one end of the first connecting block 81 is connected to the first clamping block 43, and the other end thereof is slidably connected to the second sliding slot 423, a third fixing through hole 811 is disposed inside the first connecting block 81, and one end of the third screw sequentially passes through the first countersunk groove 425, the second countersunk groove 427, and the second countersunk groove 427 The first connecting through hole 424, the third fixing through hole 811, the second connecting through hole 426 and the second countersunk groove 427, the seventh fastening nut 82 is screwed on the part of the third screw rod located in the second countersunk groove 427, and the eighth fastening nut 83 is screwed on the part of the third screw rod located in the first countersunk groove 425. The second sliding groove 423 is disposed between the third stopper 421 and the fourth stopper 422. When the distance between two adjacent basic unit's skeletons 1 changes, the length of portion 4 that articulates changes, can adjust the position of first joint piece 43 to adjust the height of coloured glaze unit, adjust first connecting block 81 and be fixed in different positions departments in second spout 423, thereby adjust the height of first joint piece 43, it is convenient to install.

The coloured glaze unit can include first base plate 61, second joint piece 62, second connecting block 63, fourth screw rod 64, second connecting block 63 one end is connected in first base plate 61, the other end is connected in second joint piece 62, second joint piece 62 one end is equipped with first draw-in groove, first joint piece 43 joint in first draw-in groove, second joint piece 62 inboard is equipped with first thread groove, be equipped with a plurality of first screw through-holes 631 on the second connecting block 63, fourth screw rod 64 one end spiro union in proper order in first screw through-hole 631 and first thread groove. First screw through hole 631 is equipped with the multirow, with second joint piece 62 one end butt different positions department on second connecting block 63, with fourth screw rod 64 one end spiro union in proper order in first screw through hole 631 and first thread groove to can adjust the position that second joint piece 62 connected on second connecting block 63, be convenient for adjust the distance between second joint piece 62 and the first base plate 61 according to the thickness regulation of second connecting plate 42 when first joint piece 43 joint is in first draw-in groove, it is convenient to install.

The hanging part 4 can further comprise a first extrusion block 46, a second extrusion block 48 and a third spring 47, the first extrusion block 46 is fixed on the top of the second connecting plate 42, one end of the third spring 47 is connected to the first extrusion block 46, the other end of the third spring 47 is connected to the second extrusion block 48, and the third spring 47 pushes the second extrusion block 48 to extrude the second clamping block 62. At first joint piece 43 joint in first draw-in groove, third spring 47 promotes second extrusion piece 48 and extrudes second joint piece 62, and third spring 47 is in compression state, can guarantee second joint piece 62 butt in first joint piece 43, avoids second joint piece 62 towards the direction motion of keeping away from first joint piece 43 to can improve the steadiness that first joint piece 43 and first draw-in groove are connected, improve the steadiness that colored glaze unit and first joint piece 43 are connected.

A mounting method of an assembled lotus colored glaze dome modeling design structure comprises the following steps:

s1: adjusting the length of the second connection part 2 to adjust the distance between the first base layer skeleton 1 and the second base layer skeleton 1;

s2: abutting a first stop plate 32 on the outer side wall of a first base layer framework 1 and abutting a first support plate 31 on the top of the first base layer framework 1, adjusting a second support plate 51 to be parallel to the first support plate 31, rotating one end of a hanging part 4 around the joint of the hanging part and the first support plate 31 by a first preset angle, and extending the other end of the hanging part 4 to a second preset length to enable the second support plate 51 to abut on the bottom of a second base layer framework 1 and a second stop plate 52 to abut on the inner side wall of the second base layer framework 1;

s3: the colored glaze units are connected with the hanging parts 4 in a clamping mode.

Here, the second connecting portion 2 is first extended and contracted to adjust the distance between two adjacent base layer frameworks 1, when the distance between two adjacent base layer frameworks 1 is changed, the lengths of the connecting members with two ends connected to the two base layer frameworks respectively need to be adjusted, the angles between the two ends of the connecting members and the two base layer frameworks respectively need to be adjusted, then the first stopper plate 32 is abutted against the outer side wall of the first base layer framework 1, the first support plate 31 is abutted against the top of the first base layer framework 1, the second support plate 51 is adjusted to be parallel to the first support plate 31 to facilitate the second support plate 51 to be abutted against the second base layer framework 1, one end of the hanging portion 4 is rotated by a first preset angle around the connection position with the first support plate 31, the other end of the hanging portion 4 is extended and contracted to a second preset length to enable the second support plate 51 to be abutted against the bottom of the second base layer framework 1, second backstop board 52 butt in the inside wall of second base layer skeleton 1, with colored glaze unit joint in hanging part 4 at last, can be applicable to the connection of the base layer skeleton 1 of multiple interval pattern, it is convenient to install.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It should be noted that, in the description of the present application, it should be noted that the terms "upper end", "lower end" and "bottom end" indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the application is usually placed in when the product of the application is used, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, should not be construed as limiting the present application. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.