CN111472442A

CN111472442A - Mortise and tenon steel frame sunlight room

Info

Publication number: CN111472442A
Application number: CN202010430067.4A
Authority: CN
Inventors: 熊诗进; 刘涛; 熊诗财
Original assignee: Shandong Muyi Sunshine Door And Window Technology Co ltd
Current assignee: Shandong Muyi Sunshine Door And Window Technology Co ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2020-07-31
Anticipated expiration: 2040-05-20
Also published as: CN111472442B

Abstract

The invention relates to the technical field of sunlight rooms, in particular to a mortise and tenon steel frame sunlight room. The mortise and tenon steel frame sunlight room comprises a dome-shaped structural frame and an aisle structure, wherein a toilet structure built by a square structural frame is connected to one side of the aisle structure in a matched manner; the arched structure frame is formed by assembling and enclosing a main beam structure, a secondary beam structure, a cross beam structure and a bottom beam structure together in a joggle mode, a door frame is arranged on one side of the arched structure frame, and the aisle structure is connected with the door frame in a joggle mode; the sunlight room glass is fixed on the structure, and the passage structure is communicated with the toilet structure. Compared with the building structure of the existing sunlight room structure frame, the steel structure frame of the mortise and tenon steel frame sunlight room is stable in stress, simple and easy to assemble, attractive in appearance and firm in structure, and is used together with a sunlight room toilet matched with the sunlight room, scientific in design, economical and practical.

Description

Mortise and tenon steel frame sunlight room

Technical Field

The invention relates to the technical field of sunlight rooms, in particular to a mortise and tenon steel frame sunlight room.

Background

The existing sunlight room structure frame is generally built by adopting a metal frame, the adopted metal frame is generally a square tube section, the square tube section is fixed by a connecting piece or a connecting bolt, the number of the connecting pieces for fixing bolts and the like is large, the assembly is complicated and complex, and the joint structure is easy to loosen along with the time lapse. Moreover, the sunlight room built by the existing connecting structure is single in shape, and when the sunlight room frame with other attractive structures is built, the deformed section bars are uneven in stress, so that the potential safety hazard of the overall stability of the sunlight room structure frame is very easily caused.

In addition, in the design of current sunshine room, according to the life needs, generally set up bathroom or other facilities in the sunshine room, have inconvenient and easily produce the peculiar smell scheduling problem in the use, reduced the use experience in sunshine room.

Disclosure of Invention

The invention provides a mortise and tenon steel frame sunlight room which is excellent in overall stability, safe, firm and attractive, a steel structure framework connected by mortise and tenon is adopted to build a dome type structural model, connecting pieces such as bolts and screws are not needed for assembly, the assembly is simple and rapid, the requirements of the attractive sunlight room framework on the building stability and convenience are met, a bathroom structure is communicated to the sunlight room passageway structural position, the interior of the bathroom is isolated from the interior of the sunlight room, the use experience is improved, and the problems in the prior art are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a mortise and tenon steel frame sunlight room comprises a dome-shaped structural frame and an aisle structure, wherein a toilet structure built by a square structural frame is connected to one side of the aisle structure in a matched mode; the arched structure frame is formed by jointly joggling and assembling a main beam structure, a secondary beam structure, a cross beam structure and a bottom beam structure, a door frame is arranged on one side of the arched structure frame, and the aisle structure is connected with the door frame in a joggling and assembling mode;

the sunlight room glass is fixed in the structural frame of the structure, and the passage structure is communicated with the toilet structure.

Furthermore, the sunlight room glass is fixed by the aluminum alloy outer frame and then is arranged in the structural frame of the structure.

Furthermore, the main beam structure comprises a first main beam, a second main beam and a third main beam which are supported in an arc shape, and the first main beam and the third main beam are symmetrically arranged at two sides of the second main beam; the first, second and third main beams are respectively assembled by tenon joints of a plurality of main beam pieces;

the secondary beam structure comprises a first secondary beam which is crossed with the top end of the main beam structure and is supported in an arc shape, two second secondary beams are symmetrically arranged on two sides of the first secondary beam, and the two secondary beams are identical in structure; a third secondary beam is supported and connected to the outer side of the first main beam, and the third secondary beam and the first main beam are encircled to form the door frame; the first secondary beam, the second secondary beam and the third secondary beam are respectively formed by tenon assembly of a plurality of secondary beam pieces;

the beam structure comprises a main beam structure surrounding the door frame, a first beam and a second beam arranged outside the secondary beam structure, and the first beam and the second beam are arranged at intervals up and down; the first cross beam and the second cross beam are connected by tenon joint of a plurality of cross beam pieces; the beam structure is clamped with the main beam structure and the secondary beam structure;

the bottom beam structure is supported at the bottom ends of the main beam structure and the secondary beam structure outside the door frame; the bottom beam structure is connected by a plurality of bottom beam pieces in a tenon-and-mortise assembling way; the bottom ends of the main beam structure and the secondary beam structure are respectively in joggle assembly connection with the bottom beam structure;

the aisle structure comprises a herringbone supporting herringbone top structure connected to the upper portion of the door frame in a joggle mode and a supporting frame supported below the herringbone top structure in a joggle mode, and the supporting frame is in joggle assembly connection with a secondary beam structure, a cross beam structure and a bottom beam structure at the lower portion of the door frame;

the toilet structure is built by a base and a support pillar arranged on the base.

Furthermore, the first main beam is formed by sequentially joggling, assembling and connecting a main beam piece Z1, a main beam piece Z2 and a main beam piece Z3, the second main beam is formed by joggling, assembling and connecting a main beam piece Z4 and a main beam piece Z5, and the third main beam is formed by joggling, assembling and connecting a main beam piece Z6 and a main beam piece Z7;

the first secondary beam is in joggle assembly connection with the secondary beam piece C4 through the secondary beam piece C3, the second secondary beam on one side of the first secondary beam is in joggle assembly connection with the secondary beam piece C1 and the secondary beam piece C2, and the second secondary beam on the other side of the first secondary beam is in joggle assembly connection with the secondary beam piece C5 and the secondary beam piece C6; the third secondary beam comprises a secondary beam piece C7 and a secondary beam piece C8 which are symmetrically arranged, and the top end of the secondary beam piece C7 and the top end of the secondary beam piece C8 are respectively assembled on the main beam piece Z2 in a joggle manner; the secondary beam piece C7, the secondary beam piece C8 and the main beam piece Z2 jointly enclose the door frame; the top of the door frame further comprises a secondary beam piece C9 and a secondary beam piece C10 which are symmetrically arranged, wherein the secondary beam piece C9 is used for supporting and connecting the secondary beam piece C7 and the main beam piece Z2, and the secondary beam piece C10 is used for supporting and connecting the secondary beam piece C8 and the main beam piece Z2;

the first cross beam is formed by sequentially joggling, assembling and connecting a cross beam piece H1, a cross beam piece H2, a cross beam piece H3 and a cross beam piece H4, and the second cross beam is formed by sequentially joggling, assembling and connecting a cross beam piece H5, a cross beam piece H6, a cross beam piece H7 and a cross beam piece H8; the outer end of the beam piece H1 and the outer end of the beam piece H5 are respectively in tenon joint assembly connection with the secondary beam piece C7, and the outer end of the beam piece H4 and the outer end of the beam piece H8 are respectively in tenon joint assembly connection with the secondary beam piece C8;

the bottom beam structure comprises a bottom beam piece D1, a bottom beam piece D2, a bottom beam piece D3 and a bottom beam piece D4 which are in joggle assembly connection in an arc-shaped manner;

the herringbone roof structure comprises a herringbone supporting strip plate R1, a herringbone supporting strip plate R2 and a herringbone supporting strip plate R3 which are arranged in parallel, wherein the herringbone supporting strip plate R2 and the herringbone supporting strip plate R3 are symmetrically arranged on two sides of the herringbone supporting strip plate R1; one end of the supporting strip plate R1 close to the door frame is in joggle joint with the secondary beam piece C3 of the first secondary beam, and one ends of the supporting strip plate R2 and the supporting strip plate R3 close to the door frame are respectively in joggle joint connection with the upper parts of the secondary beam piece C7 and the secondary beam piece C8; a herringbone brace plate R4 which is in joggle connection with the other end of the brace plate R1 is arranged between the other ends of the brace plate R2 and the brace plate R3; a square supporting frame is joggled under the supporting strip plate R2 and the supporting strip plate R3 on the outer side of the door frame, and the square supporting frame is joggled with a man-shaped roof structure to the outer side of the door frame through four supporting strip plates R5; a supporting strip plate R6 is joggled between the bottom ends of the two supporting strip plates R5 on the same side of the door frame, and the end part of the supporting strip plate R6 is joggled and connected with the outer side of the bottom beam at the bottom end of the door frame; the bottom ends of the chevron brace bars R4 are joggled with the ends of brace bars R5, brace bars R2 and brace bars R3.

Furthermore, a vertical through groove is formed in the main beam structure corresponding to the position of the secondary beam structure crossed with the main beam structure; horizontal through grooves are arranged on the main beam structure and the secondary beam structure corresponding to the positions of the cross beam structures clamped with the main beam structure and the secondary beam structure; slots are arranged at the inner side of the bottom beam structure corresponding to the bottom ends of the main beam structure and the secondary beam structure supported by the bottom beam structure; screw holes for installing the glass of the sunlight room are formed in the main beam structure, the secondary beam structure and the cross beam structure; arranging a hollow pattern on the inner side of the main beam structure; the chevron brace bar R4 includes two vertically parallel arranged strips on the chevron roof structure.

Further, first mortise and tenon nodes are respectively arranged on the first main beam, the second main beam and the third main beam; the first mortise and tenon joint of the first main beam is used for connecting the main beam piece Z1, the main beam piece Z2 and the main beam piece Z3; the first mortise and tenon joint of the second main beam is used for connecting the main beam piece Z5 and the main beam piece Z4; the first mortise and tenon joint of the third main beam is used for connecting the main beam pieces Z7 and Z6; forming the vertical through groove at each first mortise and tenon joint;

second mortise and tenon nodes are respectively arranged on the first secondary beam and the second secondary beam; the second mortise and tenon joint of the first secondary beam is used for connecting the secondary beam piece C3 and the secondary beam piece C4; the second mortise and tenon joint of the second secondary beam is used for connecting the secondary beam piece C1 and the secondary beam piece C2, and is used for connecting the secondary beam piece C5 and the secondary beam piece C6; a through groove body is arranged at the bottom of each secondary beam corresponding to the vertical through groove on each main beam; the through groove body of each secondary beam is matched and arranged in the vertical through groove of each main beam;

third mortise and tenon nodes are respectively arranged on the first cross beam, the second cross beam and the bottom beam structure; the third mortise and tenon joint of the first cross beam is used for sequentially connecting a cross beam piece H1, a cross beam piece H2, a cross beam piece H3 and a cross beam piece H4; the third mortise and tenon joint of the second beam is used for sequentially connecting a beam piece H5, a beam piece H6, a beam piece H7 and a beam piece H8; the third mortise and tenon joint of the bottom beam structure is used for sequentially connecting the bottom beam piece D1, the bottom beam piece D2, the bottom beam piece D3 and the bottom beam piece D4;

fourth mortise and tenon nodes are arranged between the herringbone supporting strip plate R4 and the supporting strip plates R5 and R2, and between the herringbone supporting strip plate R4 and the supporting strip plates R5 and R3.

Furthermore, two symmetrically arranged inclined through grooves are further formed in two sides of the vertical through groove in the middle of the main beam piece Z2, and one end of the two symmetrically arranged secondary beam pieces C9 and one end of the secondary beam piece C10 are respectively joggled in the inclined through grooves; the other end of the secondary beam piece C9 and the other end of the secondary beam piece C10 are engaged with groove bodies provided at the upper portions of the secondary beam piece C7 and the secondary beam piece C8, respectively.

Furthermore, the first mortise and tenon joint is a convex part and a concave part which are respectively arranged at the end parts of the two main beam pieces connected by the two mortises and tenons, the convex part and the concave part are designed into irregular polygons, and after the convex part and the concave part of two adjacent main beam pieces are matched, the vertical through groove is formed above the joint of the convex part and the concave part; the end part of the main beam piece provided with the convex part is provided with an inclined support angle bracket, and the inclined support angle bracket is used for supporting the end part of the main beam piece where the concave part is located after the convex part and the concave part of two adjacent main beam pieces are matched;

the second mortise and tenon joint is an outer convex part and a hook part which are respectively arranged at the end parts of the secondary beam pieces connected by the two mortise and tenon joints, and the top end of the outer convex part is provided with a hook groove used for being engaged by the hook part; the bottom end of the outer convex part is provided with the through groove body;

the third mortise and tenon joint is two hook-shaped engaging parts arranged on two adjacent cross beam pieces or bottom beam pieces matched with the mortise and tenon, and the inner sides of engaging joints of the two hook-shaped engaging parts are arranged in a smooth inner arc shape;

the fourth mortise and tenon joint comprises a first top slot, a second top slot, a lower convex block and two oppositely arranged first side slots and second side slots, wherein the first top slot and the second top slot are arranged at the top end of the support strip plate R5 and have different heights, the lower convex block is arranged at the bottom end of the herringbone support strip plate R4, the two oppositely arranged first side slots and the two oppositely arranged second side slots are arranged on the support strip plate R2 or the support strip plate R3, and a spacing block is arranged between the first side slots and the second; the lower protruding block is matched with the second top groove, and the spacing block is matched with the first top groove.

Furthermore, inclined through grooves are further formed in the tops of the two sides of the herringbone supporting strip plate R4 and are used for joggling the supporting strip plate R7 which is arranged at a certain included angle with the supporting strip plate R2 and the supporting strip plate R3 respectively, and the function of further connecting and reinforcing the herringbone top structure and the square supporting frame portion is achieved. On the basis, the positions of the secondary beam piece C9 and the secondary beam piece C10 are respectively provided with a supporting strip plate R8 which forms a certain included angle with the secondary beam piece C9 and the secondary beam piece C10, so that the further reinforcing effect is achieved. Brace bar R7 and brace bar R8 are each in joggled engagement with the frame structure location to which they are secured.

Further, the hollow-out patterns are different pattern types of hollow-out patterns.

The invention has the beneficial effects that:

according to the mortise and tenon steel frame sunlight room, the integral shape of the supporting beam structure of the sunlight room is designed to be the dome type, attractive visual enjoyment is brought to people, the door frame position of the sunlight room is extended due to the passage structure, and meanwhile, the separation of the inner space of the sunlight room from the toilet is realized due to the structural design of the toilet communicated with the passage position, so that the use experience is improved on the basis of not influencing the use effect. Simultaneously, the design of connecting between the steel construction frame's of sunshine room connection skeleton is special mortise and tenon structural connection, and the girder structure, secondary beam structure, crossbeam structure and floorbar structure's mortise and tenon connection structure is different, has fully ensured the steadiness of this special property structural framework, not only can guarantee whole steel construction frame connection's facility, and the whole atress that can make the assembled steel construction frame simultaneously is even, has eliminated the defect that current square pipe section bar built the structure. In addition, through set up the fretwork pattern in girder structure inboard, further promoted the inside pleasing to the eye of sunshine room steel structural framework and used experience.

Drawings

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

FIG. 2 is a schematic view of the mortise and tenon steel frame structure of the sunlight room in FIG. 1;

FIG. 3 is a schematic structural view of the dome structural frame and aisle structural connection of FIG. 2;

FIG. 4 is a schematic structural view of the dome frame of FIG. 3;

FIG. 5 is a schematic structural view of the aisle structure of FIG. 3;

FIG. 6 is a schematic view of the disassembled structure of FIG. 5;

FIG. 7 is a schematic view of the main beam structure of FIG. 4;

FIG. 8 is an exploded view of the first main beam of FIG. 7;

FIG. 9 is a schematic view of the structure of the secondary beam of FIG. 4;

FIG. 10 is a schematic view of the second sub-beam structure of FIG. 9;

FIG. 11 is a schematic view of the cross beam structure of FIG. 4;

fig. 12 is a schematic view of the structure of the bottom beam in fig. 4.

Wherein, 1 is a first main beam, 1.1 main beam pieces Z1, 1.2 main beam pieces Z2 and 1.3 main beam pieces Z3; 2 second main beam, 2.1 main beam panel Z4, 2.2 main beam panel Z5; 3 third main beam, 3.1 main beam piece Z6, 3.2 main beam piece Z7; 4 first secondary beam, 4.1 secondary beam C3, 4.2 secondary beam C4; 5 secondary beam, 5.1 secondary beam piece C1, 5.2 secondary beam piece C2, 5.3 secondary beam piece C5, 5.4 secondary beam piece C6; 6 third secondary beam, 6.1 secondary beam piece C7, 6.2 secondary beam piece C8, 6.3 secondary beam piece C9 and 6.4 secondary beam piece C10; 7 first beam, 7.1 beam piece H1, 7.2 beam piece H2, 7.3 beam piece H3, 7.4 beam piece H4; 8 second beam, 8.1 beam piece H5, 8.2 beam piece H6, 8.3 beam piece H7, 8.4 beam piece H8; 9 bottom beams, 9.1 bottom beam pieces D1, 9.2 bottom beam pieces D2, 9.3 bottom beam pieces D3 and 9.4 bottom beam pieces D4; 10 vertical through grooves, 11 horizontal through grooves, 12 slots, 13 screw holes, 14 hollowed-out patterns, 15 convex parts, 16 concave parts, 17 inclined supporting angle brackets, 18 groove bodies, 19 through groove bodies, 22 hook grooves, 23 hook-type hanging parts, 24 inclined through grooves, 25 inner concave through grooves, 26 herringbone top structures, 26.1 supporting strip plates R1, 26.2 supporting strip plates R2, 26.3 supporting strip plates R3, 26.4 supporting strip plates R4, 26.5 supporting strip plates R7 and 26.6 supporting strip plates R8; 27 support frame, 27.1 brace bar plate R5, 27.2 brace bar plate R6; 28 first top slot, 29 second top slot, 30 first side slot, 31 second side slot, 32 spacer block, 33 lower bump, 34 sunlight room glass, 35 base, 36 support column, 37 dome type structural frame, 38 channel structure.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-12, the mortise and tenon steel frame sunlight room comprises a dome-shaped structural frame 37 and an aisle structure 38, wherein a toilet structure built by a square structural frame is connected to one side of the aisle structure in a matching manner; dome formula structural framework is supported by the arcuation and is set up the girder structure, build on the girder structure, support the secondary beam structure that sets up with the crisscross arcuation of girder structure, encircle, block in girder, the crossbeam structure in the secondary beam structure outside and support and form in the assembly of the floorbar structure of overall structure frame bottom, is equipped with the door frame in dome formula structural framework one side, passageway structure and door frame tenon joint equipment link to each other, at the structural frame internal fixation glass for sunshine room 34 of above-mentioned structure, be linked together the setting between passageway structure and the bathroom structure. The concrete structure is as follows:

the main beam structure comprises a first main beam 1, a second main beam 2 and a third main beam 3, wherein the first main beam and the third main beam are symmetrically arranged at two sides of the second main beam; the first, second and third main beams are respectively assembled by tenon joints of a plurality of main beam pieces; the first main beam is formed by sequentially connecting a main beam piece Z1 (reference number 1.1 in the drawing), a main beam piece Z2 (reference number 1.2 in the drawing) and a main beam piece Z3 (reference number 1.3 in the drawing) in a tenon-and-mortise mode, the second main beam is formed by connecting a main beam piece Z4 (reference number 2.1 in the drawing) and a main beam piece Z5 (reference number 2.2 in the drawing) in a tenon-and-mortise mode, and the third main beam is formed by connecting a main beam piece Z6 (reference number 3.1 in the drawing) and a main beam piece Z7 (reference number 3.2 in the drawing) in a tenon-and-mortise mode.

A vertical through groove 10 is arranged on the main beam structure corresponding to the position of the secondary beam structure crossed with the main beam structure; a horizontal through groove 11 is arranged on the main beam structure and the secondary beam structure corresponding to the cross beam structure clamped with the main beam structure and the secondary beam structure; slots 12 are arranged at the inner side of the bottom beam structure corresponding to the bottom ends of the main beam structure and the secondary beam structure supported by the bottom beam structure; screw holes 13 for installing the glass of the sunlight room are arranged on the main beam structure, the secondary beam structure and the cross beam structure; the hollow patterns 14 are arranged on the inner side of the main beam structure and are in different pattern styles, such as stars, moon or sun characters.

First mortise and tenon nodes are respectively arranged on the first main beam, the second main beam and the third main beam; the first mortise and tenon joint of the first main beam is used for connecting the main beam piece Z1, the main beam piece Z2 and the main beam piece Z3; the first mortise and tenon joint of the second main beam is used for connecting the main beam piece Z5 and the main beam piece Z4; the first mortise and tenon joint of the third main beam is used for connecting the main beam pieces Z7 and Z6; at each first mortise and tenon joint, the vertical through groove 10 is also formed at the joint position because of the connection of the secondary beam structure. The first mortise-tenon joint is a convex part 15 and a concave part 16 which are respectively arranged at the end parts of two main beam pieces connected in a mortise-tenon mode, the convex part and the concave part are designed to be irregular polygons, and after the convex part and the concave part of two adjacent main beam pieces are matched, the vertical through groove 10 is formed above the joint of the convex part and the concave part; the end part of the main beam piece provided with the convex part is provided with an inclined supporting angle support 17, and the inclined supporting angle support is used for supporting the end part of the main beam piece where the concave part is located after the convex part and the concave part of two adjacent main beam pieces are matched, so that the inner bending structure of the arched structural frame is met.

The secondary beam structure comprises a first secondary beam 4, two second secondary beams 5 are symmetrically arranged on two sides of the first secondary beam, and the two secondary beams have the same structure; a third secondary beam 6 is supported and connected to the outer side of the first main beam, and the third secondary beam and the first main beam form a door frame in a surrounding mode; the first secondary beam, the second secondary beam and the third secondary beam are respectively formed by tenon assembly of a plurality of secondary beam pieces; the first secondary beam is in joggle assembly connection with a secondary beam piece C4 (4.2 in the drawing) through a secondary beam piece C3 (4.1 in the drawing), the second secondary beam on one side of the first secondary beam is in joggle assembly connection with a secondary beam piece C1 (5.1 in the drawing) and a secondary beam piece C2 (5.2 in the drawing), and the second secondary beam on the other side of the first secondary beam is in joggle assembly connection with a secondary beam piece C5 (5.3 in the drawing) and a secondary beam piece C6 (5.4 in the drawing); the third secondary beam comprises a secondary beam piece C7 (reference number 6.1 in the drawing) and a secondary beam piece C8 (reference number 6.2 in the drawing) which are symmetrically arranged, and the top end of the secondary beam piece C7 and the top end of the secondary beam piece C8 are respectively assembled in the vertical through grooves on the two sides of the top of the main beam piece Z2 in a joggle mode; the secondary beam piece C7, the secondary beam piece C8 and the main beam piece Z2 jointly enclose the door frame. And a secondary beam piece C9 (6.3 in the drawing) and a secondary beam piece C10 (6.4 in the drawing) are also symmetrically arranged on the top of the door frame, wherein the secondary beam piece C9 is used for supporting and connecting the secondary beam piece C7 and the main beam piece Z2, and the secondary beam piece C10 is used for supporting and connecting the secondary beam piece C8 and the main beam piece Z2. The vertical through slots 10 on the girder piece Z2 are different from the vertical through slots on the second and third girders in number: because the girder piece Z2 is connected with secondary girder piece C7, secondary girder piece C8, so set up two vertical through-grooves 10 in the vertical through-groove both sides in girder piece Z2 middle part also relatively for the top that supplies secondary girder piece C7, secondary girder piece C8 is fixed. Two symmetrically arranged inclined through grooves 24 are further formed in two sides of the vertical through groove in the middle of the main beam piece Z2, the inclined through grooves are communicated with the vertical through groove, and one end of the two symmetrically arranged secondary beam pieces C9 and one end of the secondary beam piece C10 are respectively joggled in the two inclined through grooves; the other end of the sub-beam piece C9 and the other end of the sub-beam piece C10 are engaged with the groove 18 provided on the upper portions of the sub-beam piece C7 and the sub-beam piece C8, respectively, and the other end of the sub-beam piece C9 and the other end of the sub-beam piece C10 are provided with engaging portions engaged with the groove.

Second mortise and tenon nodes are respectively arranged on the first secondary beam and the second secondary beam; the second mortise and tenon joint of the first secondary beam is used for connecting the secondary beam piece C3 and the secondary beam piece C4; the second mortise and tenon joint of the second secondary beam is used for connecting the secondary beam piece C1 and the secondary beam piece C2, and is used for connecting the secondary beam piece C5 and the secondary beam piece C6; a through groove body 19 is arranged at the bottom of each secondary beam corresponding to the vertical through groove on each main beam; the mortise and tenon of the through groove body of each secondary beam is matched and arranged in the vertical through groove of each main beam. The second mortise and tenon joint is an outer convex part 20 and a hook part 21 which are respectively arranged at the end parts of the secondary beam sheets connected by two mortises and tenons, and the top end of the outer convex part is provided with a hook groove 22 which is used for being engaged by the hook part; the bottom end of the outer convex part is provided with the through groove body 19;

the beam structure comprises a main beam structure surrounding the door frame, a first beam 7 and a second beam 8 arranged outside the secondary beam structure, and the first beam and the second beam are arranged at intervals up and down; the first cross beam and the second cross beam are connected by tenon joint of a plurality of cross beam pieces; the beam structure is clamped with the horizontal through grooves 11 on the main beam structure and the secondary beam structure; the first cross beam 7 is formed by sequentially joggling, assembling and connecting a cross beam piece H1 (reference number 7.1 in the drawing), a cross beam piece H2 (reference number 7.2 in the drawing), a cross beam piece H3 (reference number 7.3 in the drawing) and a cross beam piece H4 (reference number 7.4 in the drawing), and the second cross beam is formed by sequentially joggling, assembling and connecting a cross beam piece H5 (reference number 8.1 in the drawing), a cross beam piece H6 (reference number 8.2 in the drawing), a cross beam piece H7 (reference number 8.3 in the drawing) and a cross beam piece H8 (reference number 8.4 in the drawing); the inner side of the outer end of the cross beam piece H1 and the inner side of the outer end of the cross beam piece H5 are respectively provided with an inner concave through groove 25 which can be in joggle assembly connection with a horizontal through groove on the secondary beam piece C7, and the inner side of the outer end of the cross beam piece H4 and the inner side of the outer end of the cross beam piece H8 are respectively provided with an inner concave through groove 25 which can be in joggle assembly connection with a horizontal through groove on the secondary beam piece C8.

The bottom beam structure is supported at the bottom ends of the main beam structure and the secondary beam structure outside the door frame; the bottom beam structure is assembled and connected by joggling a plurality of bottom beam pieces 9; the bottom ends of the main beam structure and the secondary beam structure are respectively connected with a slot 12 on the bottom beam structure in a joggle assembly mode. The bottom beam structure comprises a bottom beam piece D1, a bottom beam piece D2, a bottom beam piece D3 and a bottom beam piece D4 which are horizontally and arc-shaped and are assembled and connected in a joggle mode in sequence.

Third mortise and tenon nodes are respectively arranged on the first cross beam, the second cross beam and the bottom beam structure; the third mortise and tenon joint of the first cross beam is used for sequentially connecting a cross beam piece H1, a cross beam piece H2, a cross beam piece H3 and a cross beam piece H4; the third mortise and tenon joint of the second beam is used for sequentially connecting a beam piece H5, a beam piece H6, a beam piece H7 and a beam piece H8; and the third mortise and tenon joint of the bottom beam structure is used for sequentially connecting the bottom beam piece D1, the bottom beam piece D2, the bottom beam piece D3 and the bottom beam piece D4. The third mortise and tenon joint is a two-hook type engaging part 23 arranged on two adjacent cross beam sheets or bottom beam sheets matched with the mortise and tenon, and the inner side of the engaging joint of the two-hook type engaging parts is arranged in a smooth inner arc shape.

The aisle structure comprises a herringbone supporting herringbone top structure 26 connected to the upper portion of the door frame in a joggle mode and a supporting frame 27 supported below the herringbone top structure in a joggle mode, and the supporting frame is connected with a secondary beam structure, a cross beam structure and a bottom beam structure in a joggle assembly mode on the lower portion of the door frame. The herringbone roof structure comprises a supporting strip plate R1 (with the reference number 26.1 in the drawing), a supporting strip plate R2 (with the reference number 26.2 in the drawing) and a supporting strip plate R3 (with the reference number 26.3 in the drawing) which are herringbone and arranged in parallel, wherein the supporting strip plate R2 and the supporting strip plate R3 are symmetrically arranged at two sides of the supporting strip plate R1; one end of the supporting strip plate R1 close to the door frame is in joggle joint with the secondary beam piece C3 of the first secondary beam, and one ends of the supporting strip plate R2 and the supporting strip plate R3 close to the door frame are respectively in joggle joint connection with the upper parts of the secondary beam piece C7 and the secondary beam piece C8; a herringbone brace plate R4 (reference numeral 26.4 in the drawing) which is in joggle connection with the other end of the brace plate R1 is arranged between the other ends of the brace plate R2 and the brace plate R3; a vertical through groove is formed in the top end of the brace bar plate R4, and the vertical through groove in the brace bar plate R4 is used for joggling the brace bar plate R1; a square supporting frame is joggled under the supporting strip plate R2 and the supporting strip plate R3 on the outer side of the door frame, and the square supporting frame is joggled with a man-shaped roof structure to the outer side of the door frame by four supporting strip plates R5 (the number is 27.1 in the drawing); a supporting strip plate R6 (the number is 27.2 in the drawing) is joggled between the bottom ends of two supporting strip plates R5 on the same side of the door frame, and the end part of the supporting strip plate R6 is joggled and connected with the outer side of the bottom beam at the bottom end of the door frame; the bottom ends of the chevron brace bars R4 are joggled with the ends of brace bars R5, brace bars R2 and brace bars R3. The chevron brace bar R4 includes two vertically parallel arrangements on the gable top structure, i.e., two spaced apart along the length of the aisle structure. Fourth mortise and tenon nodes are arranged between the herringbone supporting strip plate R4 and the supporting strip plates R5 and R2, and between the herringbone supporting strip plate R4 and the supporting strip plates R5 and R3. The fourth mortise and tenon joint comprises a first top slot 28, a second top slot 29, a lower bump 33, a first side slot 30 and a second side slot 31, wherein the first top slot 28 and the second top slot 29 are arranged at the top end of the support strip plate R5 and have different heights, the lower bump 33 is arranged at the bottom end of the herringbone support strip plate R4, and the first side slot 30 and the second side slot 31 are arranged on the support strip plate R2 or the support strip plate R3 and are arranged oppositely, and a spacing block 32 is arranged between the first side slot and; the lower projection cooperates with the second top slot 29 and the spacer 32 cooperates with the first top slot 28.

In order to ensure the stability of the aisle structure and the connection structure of the aisle structure and the dome type frame, other structures of joggle connection are further arranged at the positions of the secondary beam piece C9 and the secondary beam piece C10 as well as the positions of the supporting strip plates R2 and R3, and the structures are specifically as follows: inclined through grooves are further formed in the tops of the two sides of the herringbone supporting strip plate R4 and are used for joggling the supporting strip plate R7 (26.5 in the drawing) which is arranged at a certain included angle with the supporting strip plate R2 and the supporting strip plate R3 respectively, and the herringbone supporting strip plate R4 plays a role in further connecting and reinforcing the herringbone top structure and the square supporting frame portion. On the basis, a supporting strip plate R8 (with the reference number 26.6 in the drawing) which forms a certain included angle with the secondary beam piece C9 and the secondary beam piece C10 is arranged at the positions of the secondary beam piece C9 and the secondary beam piece C10 respectively to play a further reinforcing role. Brace bar R7 and brace bar R8 are each in joggled engagement with the frame structure location to which they are secured. The aforementioned inclined through slot for the joggled brace strip plate R7 is provided above the lower boss of the herringbone brace strip plate R4.

Screw holes 13 for mounting glass at the later stage are also formed in the supporting ribbon boards of the herringbone roof structure and the supporting frame.

The bathroom structure is formed by building a base 35 and a support column 36 supported on the base, the bathroom structure is matched and fixed on one side of a passageway structure, and sunlight room glass is not installed on one side, close to the bathroom, of the passageway structure.

During construction and assembly, main beam pieces of all main beams for forming a main beam structure, secondary beam pieces of all secondary beams for forming a secondary beam structure and bottom beam pieces for forming a bottom beam structure are assembled in sequence through mortise and tenon of corresponding mortise and tenon node structures respectively; then the bottom end of the assembled main beam structure is inserted into the slot 12 of the bottom beam structure in a matching way; carrying out mortise and tenon assembly on the assembled secondary beam structure at the position of the vertical through groove 10 of the main beam structure to form a sunlight room foundation structure frame with a door frame; then, sequentially mortise and tenon assembling each beam piece in the horizontal through groove 11 of the main beam structure; and finally, carrying out mortise and tenon assembly on the aisle structure, and integrally installing the assembled aisle structure at the position of the door frame, and also assembling the assembled aisle structure with the structure mortise and tenon at the position of the door frame. The aluminum alloy outer frame is fixed on the outer side of the sunlight room glass, then the aluminum alloy outer frame is installed in the structural frame of the structure, and the aluminum alloy outer frame is installed and fixed through screw holes formed in the structural frame. The toilet structure is then moved to one side of the aisle structure and secured. This structural framework in sunshine room, whole atress is stable, has eliminated the uneven whole deformation problem that causes of sunshine room structural framework atress that current connecting piece is connected, and the structural framework of each part is built the assembly and is simple and easy, and is pleasing to the eye practical, has promoted to use and has experienced.

The above-described embodiments should not be construed as limiting the scope of the invention, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims

1. A mortise and tenon steel frame sunlight room is characterized by comprising a dome-shaped structural frame and an aisle structure, wherein a toilet structure built by a square structural frame is connected to one side of the aisle structure in a matched manner; the arched structure frame is formed by jointly joggling and assembling a main beam structure, a secondary beam structure, a cross beam structure and a bottom beam structure, a door frame is arranged on one side of the arched structure frame, and the aisle structure is connected with the door frame in a joggling and assembling mode;

the sunlight room glass is fixed on the structure, and the passage structure is communicated with the toilet structure.

2. The mortise and tenon steel frame sunlight room of claim 1,

the main beam structure comprises a first main beam, a second main beam and a third main beam which are supported in an arc shape, and the first main beam and the third main beam are symmetrically arranged on two sides of the second main beam; the first, second and third main beams are respectively assembled by tenon joints of a plurality of main beam pieces;

3. The mortise and tenon steel frame sunlight room of claim 2, wherein the first main beam is connected by a main beam piece Z1, a main beam piece Z2 and a main beam piece Z3 in sequence in a tenon-and-mortise assembly manner, the second main beam is connected by a main beam piece Z4 and a main beam piece Z5 in a tenon-and-mortise assembly manner, and the third main beam is connected by a main beam piece Z6 and a main beam piece Z7 in a tenon-and-mortise assembly manner;

4. The mortise and tenon steel frame sunlight room of claim 3, wherein a vertical through groove is formed in the main beam structure corresponding to the position of the secondary beam structure crossed with the main beam structure; horizontal through grooves are arranged on the main beam structure and the secondary beam structure corresponding to the positions of the cross beam structures clamped with the main beam structure and the secondary beam structure; slots are arranged at the inner side of the bottom beam structure corresponding to the bottom ends of the main beam structure and the secondary beam structure supported by the bottom beam structure; screw holes for installing the glass of the sunlight room are formed in the main beam structure, the secondary beam structure and the cross beam structure; arranging a hollow pattern on the inner side of the main beam structure; the chevron brace bar R4 includes two parallel arranged on a herringbone roof structure.

5. The mortise and tenon steel frame sunlight room of claim 4, wherein first mortise and tenon nodes are respectively arranged on the first main beam, the second main beam and the third main beam; the first mortise and tenon joint of the first main beam is used for connecting the main beam piece Z1, the main beam piece Z2 and the main beam piece Z3; the first mortise and tenon joint of the second main beam is used for connecting the main beam piece Z5 and the main beam piece Z4; the first mortise and tenon joint of the third main beam is used for connecting the main beam pieces Z7 and Z6; forming the vertical through groove at each first mortise and tenon joint;

6. The mortise and tenon steel frame sunlight room of claim 5, wherein two symmetrically arranged inclined through grooves are further arranged on two sides of the vertical through groove in the middle of the main beam piece Z2, and one end of the two symmetrically arranged secondary beam pieces C9 and one end of the secondary beam piece C10 are respectively joggled in the inclined through grooves; the other end of the secondary beam piece C9 and the other end of the secondary beam piece C10 are engaged with groove bodies provided at the upper portions of the secondary beam piece C7 and the secondary beam piece C8, respectively.

7. The mortise and tenon steel frame sunlight room of claim 6, wherein the first mortise and tenon joint is a convex part and a concave part which are respectively arranged at the end parts of two main beam pieces connected by mortise and tenon, the convex part and the concave part are designed in irregular polygons, and after the convex part and the concave part of two adjacent main beam pieces are matched, the vertical through groove is formed above the joint of the convex part and the concave part; the end part of the main beam piece provided with the convex part is provided with an inclined support angle bracket, and the inclined support angle bracket is used for supporting the end part of the main beam piece where the concave part is located after the convex part and the concave part of two adjacent main beam pieces are matched;

the fourth mortise and tenon joint comprises a first top slot and a second top slot which are arranged at the top end of the support strip plate R5 and have different heights, a lower convex block arranged at the bottom end of the herringbone support strip plate R4, and a first side slot and a second side slot which are arranged on the support strip plate R2 or the support strip plate R3 and are arranged oppositely, and a spacing block is arranged between the first side slot and the second side slot; the lower protruding block is matched with the second top groove, and the spacing block is matched with the first top groove.

8. The mortise and tenon steel frame sunlight room of claim 5, wherein said hollowed-out patterns are different pattern styles hollowed-out patterns.