CN210114836U

CN210114836U - Detachable wooden arch shelter bridge toy

Info

Publication number: CN210114836U
Application number: CN201920507684.2U
Authority: CN
Inventors: 邓华; 王华霖
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-04-15
Filing date: 2019-04-15
Publication date: 2020-02-28
Anticipated expiration: 2029-04-15

Abstract

The embodiment of the utility model provides a dismantled and assembled vaulting bridge gallery bridge toy, the utility model discloses an utilize tenon fourth of the twelve earthly branches structure to peg graft each component, consequently, what form is dismantled and assembled vaulting bridge gallery bridge toy, solved prior art, utilize glue bonding fixed each component completely, the toy that leads to is in case the shaping is hardly dismouting problem again.

Description

Detachable wooden arch shelter bridge toy

Technical Field

The utility model relates to a toy technical field especially relates to a dismantled and assembled vaulting arch shelter bridge toy.

Background

The timber arch gallery bridge is an ancient building, and the whole gallery bridge of timber arch gallery bridge need not an iron nail, all adopts tenon fourth of the twelve earthly branches structure, simple structure, but firm unusual. The tenon-and-mortise work is a connection mode that concave-convex parts are combined on two components; the convex part is called tenon, and the concave part is called mortise.

In the prior art, some toy manufacturers can use the wooden arch gallery bridge as a prototype to produce wooden arch gallery bridge toys.

The inventor discovers in the process of realizing the utility model that the prior wooden arch shelter bridge toy is a toy which forms the appearance like a wooden arch shelter bridge by completely utilizing glue to bond and fix each component. Because the components of the existing wooden arch shelter bridge toy are fixed by gluing, once formed, the wooden arch shelter bridge toy is difficult to disassemble and assemble again.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a dismantled and assembled wooden arch shelter bridge toy. The specific technical scheme is as follows:

a removable wooden arch shelter bridge toy may include:

a base assembly 100, 1 deck assembly 110 and 1 gallery assembly 120;

the base assembly 100, comprising: 2 oppositely located bases 101, 24 first seedlings M1, 14 second seedlings M2, 14 third seedlings M3 and 7 fourth seedlings M4; wherein, the length relations of the first nursery stock M1, the second nursery stock M2, the third nursery stock M3 and the fourth nursery stock M4 are as follows: the first nursery stock M1, the third nursery stock M3, the second nursery stock M2 and the fourth nursery stock M4; 2 first bulls N1, 2 second bulls N2, and 2 third bulls N3;

the 24 first nursery stocks M1, 14 second nursery stocks M2, 14 third nursery stocks M3 and 7 fourth nursery stocks M4 are spliced through upper and lower layers of lateral mounting holes on the side surfaces of the 2 bases 100, and top surface grooves of the 2 first nursery stocks N1, the 2 second nursery stocks N2 and the 2 third nursery stocks N3 respectively to form a bridge arch;

the deck assembly 110, comprising: 4 first general columns J1, 12 second general columns J2, 2 bridge head pieces Q, 7 first deck seedlings QM1, 14 second deck seedlings QM2 and 2 fourth deck pieces N4;

inserting the 4 first general columns J1, 12 second general columns J2, 7 first bridge deck seedlings QM1 and 14 second bridge deck seedlings QM2 through the top surface grooves of the 2 bridge head pieces Q and the 2 fourth cattle head pieces N4 to form a bridge deck;

the gallery assembly 120, including: 28 first upright columns L1, 28 second upright columns L2, 28 third upright columns L3, 28 fourth upright columns L4, 14 fifth upright columns L5, 42 first main girders Z1, 14 second main girders Z2, 14 third main girders Z3, 1 first bridge plate QB1, 2 second bridge plates QB2, 4 first secondary girders C1, 8 second secondary girders C2, 1 first roof ridge WJ1, 2 second roof ridges WJ2, 2 roof buckles WJ WM 3, 2 first roof plates 1, 4 second roof plates WM2, 2 first roof stool B1, 4 second roof stool B2; the length relations of the first upright post L1, the second upright post L2, the third upright post L3, the fourth upright post L4 and the fifth upright post L5 are as follows: third post L3> second post L2> fifth post L5> fourth post L4> first post L1; the length relations of the first main beam Z1, the second main beam Z2 and the third main beam Z3 are as follows: third main beam Z3> second main beam Z2> first main beam Z1;

through the through holes of the 42 first main girders Z1, 14 second main girders Z2, 14 third main girders Z3, 4 first secondary girders C1, 8 second secondary girders C2, and the mounting holes of 1 first bridge plate QB1, 2 second bridge plates QB2, 1 first ridge WJ1, 2 second ridge WJ2, and the buckles of 2 ridge buckles WJ3, 2 first roof plates WM1, 4 second roof plates WM2, the 28 first upright columns L1, 28 second upright columns L2, 28 third upright columns L3, 28 fourth upright columns L4, 14 fifth upright columns L5 are respectively inserted, and the 2 first stool pieces B1, 4 second stool pieces B2 are respectively inserted to form a roof corridor;

the gallery house is arranged on the bridge floor to form a wooden arch gallery bridge.

Optionally, the base 101 is step-shaped, and the side surface of the base is provided with upper and lower layers of lateral mounting holes; 8 first nursery stocks M1 are inserted into the lateral mounting holes of the lower layer 1010 of each base, the other end of each first nursery stock M1 is inserted into one end of the groove in the top surface of the third bullhead N3; 7 second seedlings M2 are inserted into the lateral mounting holes of the upper layer 1011 of each base, and the other end of each second seedling M2 is inserted into one end of the groove in the top surface of the first bullhead N1;

the other end of each groove of the second bullhead N2 is also inserted with 7 third seedlings M3, and the other end of each third seedling M3 passes through the gap between the 8 first seedlings M1 and is inserted into the groove of the first bullhead N1;

the other ends of the grooves of the two second bullhead pieces N2 are connected with each other by inserting 7 fourth seedlings M4;

the other ends in the grooves of the two third bullheads N3 are connected with each other by inserting 8 first seedlings M1, wherein one end of the 8 first seedlings M1 penetrates through the gap between the 7 third seedlings M3 to form a bridge arch.

Optionally, a vertical mounting hole is formed in the top surface of each base 101; 2 first general columns J1 and 6 second general columns J2 are inserted into the vertical mounting hole of each base; the other ends of the 2 first general columns J1 and the 6 second general columns J2 are inserted into the mounting holes on the bottom surface of the 1 bridge head piece Q;

two ends of 7 first deck seedlings QM1 are respectively inserted into one end of the top surface groove of the 2 fourth bullheads N4; the other end of the groove on the top surface of each fourth bullhead N4 is respectively inserted with 7 second deck seedlings QM 2; the other end of each second deck seedling QM2 is inserted into the top surface groove of 1 bridge head piece Q to form a deck.

Optionally, the fourth bullhead N4 is further provided with a bottom groove;

the bottom groove is inserted into 8 first seedlings M1 on the bridge arch.

Optionally, one end of each of the 1 first upright post L1, the 1 second upright post L2, and the 1 third upright post L3 respectively passes through a through hole on the 1 first main beam Z1 to form 1 ascending wedge structure;

the second upright posts L2 of the 2 ascending wedge structures respectively pass through the through holes on the 1 third main beam Z3; the third upright posts L3 in the 2 ascending wedge-shaped structures respectively penetrate through holes arranged on the 1 second main beam Z2 to form a quasi-tablet;

2 fourth upright posts L4 and 1 fifth upright post L5 respectively penetrate through holes on the 1 first main beam Z1 and are respectively inserted into through holes on the second main beam Z2 of the board to form 1 board;

the 28 first upright posts L1, 28 second upright posts L2, 28 third upright posts L3, 28 fourth upright posts L4, 14 fifth upright posts L5, 42 first main beams Z1, 14 second main beams Z2 and 14 third main beams Z3 form 14 boards;

one end of each of the second upright post L2 and the third upright post L3 of 4 of the 14 boards is inserted into the mounting hole of the first bridge plate QB1 to form 1 first structure;

one end of each of the remaining 10 boards of the 14 boards is inserted into the mounting hole of each of the 1 second bridge plate QB2 at one end of each of the 5 second columns L2 and the 1 third column L3, so as to form 1 second structure, and form 2 second structures;

a first upright post L1 and a third upright post L3 on the first structure respectively penetrate through holes on 4 first secondary beams C1; a fifth upright post L5 on the first structure is inserted into mounting holes on 1 first ridge WJ 1;

a first upright post L1 and a third upright post L3 on each second structure respectively penetrate through holes on 4 second secondary beams C2; fifth upright posts L5 on the 2 second structures are respectively inserted into the mounting holes on the 2 second roof ridges WJ 2;

each of said roof fasteners WJ3 being fastened to a first roof WJ1 on said first structure and a second roof WJ2 on 1 of said second structure, respectively;

each first bench piece B1 is nested between each second upright L2 and third upright L3 of the 1 first structure, respectively, forming 1 first standard gallery 121;

each second bench member B2 is nested between each second upright L2 and the third upright L3 of the 1 second structure, respectively, to form 1 second quay lounge 122;

every first roof boarding WM1, every second roof boarding WM2 set up in order respectively 1 on 2 first time roof beam C1 of first accurate gallery room 121, 1 on 2 second time roof beam C2 of second accurate gallery room 122, form the gallery room.

Optionally, the second bridge plate QB2 includes 5 rows of mounting holes, where the 1 st row of mounting holes is a first preset distance from the first end, and the 5 th row of mounting holes is a second preset distance from the second end;

each plaque on the second structure is inclined at a second preset angle towards the first end of the second bridge panel QB 2;

the second ridge WJ2 comprises 5 mounting holes, and the mounting holes on the second ridge WJ2 are inclined holes with a second preset angle;

the ridge buckle WJ3 is of a slope structure, and a second preset angle is formed between the first end of the ridge buckle WJ3 and the second end of the ridge buckle WJ 3;

a first end of the ridge fastener WJ3 is fastened with a first ridge WJ1 on the first structure;

the second end of the ridge fastener WJ3 is fastened with a second ridge WJ2 on the second structure.

Optionally, the bridge deck assembly 110 further includes:

4 first frog leg members QW1, 2 second frog leg members QW2, 4 scissor stays JD;

one end of each 2 first frog leg parts QW1 is respectively inserted into the mounting hole of each 1 second frog leg part QW 2; every two of every 2 bridging JDs are buckled with each other to form 1 crossed cross piece; one end of each cross piece is respectively inserted into the mounting holes of the 2 first general columns J1; wherein the second frog leg QW2 includes 2 mounting holes; the bridging JD comprises 1 groove, and one end of the bridging JD is processed into an inclined plane inclined at a third preset angle; one end of the scissor support JD is processed at the same end of the cross piece;

the other end of each 2 first frog leg parts QW1 is respectively inserted into a mounting hole of a first bullnose part N1 on the bridge arch;

one processed end of each cross member is inserted into the grooves at the two ends of the first bullnose N1 on the bridge arch.

The embodiment of the utility model provides a toy utilizes tenon fourth of the twelve earthly branches structure to peg graft each component, consequently, what form is dismantled and assembled vaulting arch shelter bridge toy, has solved prior art, utilizes glue bonding fixed each component completely, and the toy that leads to is in case the problem of difficult dismouting again of shaping.

Of course, it is not necessary for any product or method of the invention to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the detachable wooden arch shelter bridge toy provided by the present invention;

fig. 2a is a left oblique view of the bridge arch according to the present invention;

fig. 2b is a right oblique view of the bridge arch according to the present invention;

fig. 2c is a front view of a bridge arch according to the present invention;

FIG. 3a is a left oblique view of the bridge deck according to the present invention;

FIG. 3b is a right oblique view of the bridge deck according to the present invention;

FIG. 3c is a front view of the bridge deck according to the present invention;

fig. 4a is a left oblique view of the first quasi-gallery room and the second quasi-gallery room provided by the present invention after being connected;

fig. 4b is a right oblique view of the first quasi-gallery room and the second quasi-gallery room provided by the present invention after being connected;

fig. 4c is a front view of the first quayside house and the second quayside house provided by the present invention after they are connected;

fig. 5a is a schematic structural view of a raised wedge structure in the tablet according to the present invention;

fig. 5b is a schematic structural view of the quasi tablet provided by the present invention;

fig. 5c is a schematic structural diagram of the tablet according to the present invention.

Detailed Description

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

Referring to fig. 1, the utility model provides a dismantled and assembled vaulting bridge corridor bridge toy, this toy, include:

a base assembly 100, 1 deck assembly 110 and 1 gallery assembly 120;

as shown in fig. 2a to 2c, the base assembly 100 includes: 2 oppositely located bases 101, 24 first seedlings M1, 14 second seedlings M2, 14 third seedlings M3 and 7 fourth seedlings M4; wherein, the length relations of the first nursery stock M1, the second nursery stock M2, the third nursery stock M3 and the fourth nursery stock M4 are as follows: the first nursery stock M1, the third nursery stock M3, the second nursery stock M2 and the fourth nursery stock M4; 2 first bulls N1, 2 second bulls N2, and 2 third bulls N3;

the 24 first nursery stocks M1, 14 second nursery stocks M2, 14 third nursery stocks M3 and 7 fourth nursery stocks M4 are spliced through the upper and lower layers of lateral mounting holes on the side surfaces of the 2 bases, the respective top surface grooves of the 2 first nursery stocks N1, the 2 second nursery stocks N2 and the 2 third nursery stocks N3 to form a bridge arch;

as shown in fig. 3a to 3c, the deck assembly 110 includes: 4 first general columns J1, 12 second general columns J2, 2 bridge head pieces Q, 7 first deck seedlings QM1, 14 second deck seedlings QM2 and 2 fourth deck pieces N4;

as shown in fig. 4 a-4 c (for easy viewing of the internal structure of the gallery, the roof panels are not shown in fig. 4 a-4 c), the gallery assembly 120 includes: 28 first upright columns L1, 28 second upright columns L2, 28 third upright columns L3, 28 fourth upright columns L4, 14 fifth upright columns L5, 42 first main girders Z1, 14 second main girders Z2, 14 third main girders Z3, 1 first bridge plate QB1, 2 second bridge plates QB2, 4 first secondary girders C1, 8 second secondary girders C2, 1 first roof ridge WJ1, 2 second roof ridges WJ2, 2 roof buckles WJ WM 3, 2 first roof plates 1, 4 second roof plates WM2, 2 first roof stool B1, 4 second roof stool B2; the length relations of the first upright post L1, the second upright post L2, the third upright post L3, the fourth upright post L4 and the fifth upright post L5 are as follows: third post L3> second post L2> fifth post L5> fourth post L4> first post L1; the length relations of the first main beam Z1, the second main beam Z2 and the third main beam Z3 are as follows: third main beam Z3> second main beam Z2> first main beam Z1;

The following is a practical example, and the toy provided by the embodiment of the present invention will be further described in detail.

The materials, quantities, dimensions, etc. of the various components that make up the woodbridge toy in this embodiment are as shown in table one:

watch 1

The base assembly 100, the 1 deck assembly 110, and the 1 gallery assembly 120 shown in FIG. 1 are each described in further detail below.

The base assembly 100 in fig. 1 may specifically include: 2 oppositely located bases 101, 24 first seedlings M1, 14 second seedlings M2, 14 third seedlings M3 and 7 fourth seedlings M4; 2 first bulls N1, 2 second bulls N2, and 2 third bulls N3; wherein the top surface of the first bullhead N1 may have 7 grooves; the top surface of the second bullhead N2 may have 7 grooves; the top surface of the third bullhead N3 may have 8 grooves.

The base may be stepped, and is composed of an upper layer 1011 of the base and a lower layer 1010 of the base in the members shown in table one.

The upper layer 1011 of the base may have 7 lateral mounting holes and the lower layer 1010 of the base may have 8 lateral mounting holes.

As shown in fig. 2a to 2c, specifically, 8 first seedlings M1 are inserted into the lateral mounting holes of the lower layer of each base, and the other end of each first seedling M1 is inserted into one end of the groove on the top surface of the third ox head piece N3; 7 second nursery stocks M2 are inserted into the lateral mounting holes in the upper layer of each base, and the other end of each second nursery stock M2 is inserted into one end in the groove in the top surface of the first bullhead N1;

the other ends in the grooves of the two third bullheads N3 are connected with each other by inserting 8 second seedlings M2, wherein one end of the 8 second seedlings M2 penetrates through the gap between the 7 third seedlings M3 to form a bridge arch.

In practical application, the first seedling M1 and the second seedling M2 inserted into the base can be inclined to form an included angle of 30 degrees with the horizontal plane, so that a stable bridge arch is formed.

The bridge deck assembly 110 in fig. 1 may specifically include: 4 first general columns J1, 12 second general columns J2, 2 bridge head pieces Q, 7 first deck seedlings QM1, 14 second deck seedlings QM2, 2 fourth deck pieces N4, 4 first frog leg pieces QW1, 2 second frog leg pieces QW2, 4 bridging pieces JD; wherein, the first general column J1 may have 1 mounting hole thereon, wherein, the top surface of the fourth ox-head piece N4 may have 7 grooves, the top surface of the bridge head piece Q may have 7 grooves, and the bottom surface may have 8 mounting holes.

As shown in fig. 3a to 3c, in particular, the top surface of each base may be provided with a vertical mounting hole; 2 first general columns J1 and 6 second general columns J2 are inserted into the vertical mounting hole of each base; the other ends of the 2 first general columns J1 and the 6 second general columns J2 are inserted into the mounting holes on the bottom surface of the 1 bridge head piece Q;

two ends of 7 first deck seedlings QM1 are respectively inserted into one end of the top surface groove of the 2 fourth bullheads N4; the other end of the groove on the top surface of each fourth bullhead N4 is respectively inserted with 7 second deck seedlings QM 2; the other end of each second bridge deck seedling QM2 is inserted into the top surface groove of 1 bridge head piece Q;

one processed end of each cross piece is inserted into the grooves at two ends of the first bullnose piece N1 on the bridge arch to form a bridge deck.

Wherein the bottom surface of the fourth N4 toe may have 8 grooves, and the 8 grooves may be inserted into the 8 first seedlings M1 on the bridge arch.

The gallery component 120 in fig. 1 may specifically include: 28 first upright columns L1, 28 second upright columns L2, 28 third upright columns L3, 28 fourth upright columns L4, 14 fifth upright columns L5, 42 first main girders Z1, 14 second main girders Z2, 14 third main girders Z3, 1 first bridge plate QB1, 2 second bridge plates QB2, 4 first secondary girders C1, 8 second secondary girders C2, 1 first roof ridge WJ1, 2 second roof ridges WJ2, 2 roof buckles WJ WM 3, 2 first roof plates 1, 4 second roof plates WM2, 2 first roof stool B1, 4 second roof stool B2; the first main beam Z1 has 3 through holes, the second main beam Z2 has 5 through holes, the two ends of the third main beam Z3 respectively have 2 through holes, the first secondary beam C1 has 4 through holes, the second secondary beam C2 has 5 through holes, the first ridge WJ1 has 4 mounting holes and 2 through holes, and the second ridge WJ2 has 5 mounting holes and 1 through hole; the first bridge plate QB1 comprises 4 rows of mounting holes, the second bridge plate QB2 comprises 5 rows of mounting holes, the 1 st row of mounting holes can have a first preset distance from the first end, and the 5 th row of mounting holes can have a second preset distance from the second end;

in this embodiment, the first preset distance may be set to 15 cm and the second preset distance may be set to 25 cm.

As shown in fig. 5a, in particular, one end of each of the 1 first upright post L1, the 1 second upright post L2, and the 1 third upright post L3 may pass through a through hole on the 1 first main beam Z1, respectively, to form 1 ascending wedge structure;

as shown in fig. 5b, the second uprights L2 of the 2 ascending wedge structures respectively pass through the through holes of the 1 third main beam Z3; the third upright posts L3 in the 2 ascending wedge-shaped structures respectively penetrate through holes arranged on the 1 second main beam Z2 to form a quasi-tablet;

as shown in fig. 5c, 2 fourth vertical columns L4 and 1 fifth vertical column L5 respectively pass through the through holes of the 1 first main beam Z1 and are respectively inserted into the through holes of the second main beam Z2 of the quasi tablet to form 1 tablet;

each first bench piece B1 is respectively embedded between the second upright post L2 and the third upright post L3 on 1 first structure, forming 1 first standard gallery 121;

each second bench piece B2 is nested between a second upright L2 and a third upright L3 of 1 second structure, respectively, to form 1 second quasi-gallery 122;

The gallery is placed on the deck of the bridge to form a wooden arch gallery bridge as shown in figure 1.

In practical applications, in order to make the gallery house more conform to the arch structure of the bridge, each board on the second structure may be designed to be inclined by 5 degrees toward the first end of the second bridge plate QB 2; the mounting hole on the second ridge WJ2 is designed to be a slant hole with an angle of 5 degrees; the ridge fastener WJ3 can be designed into a slope structure, and the first end of the ridge fastener WJ3 and the second end of the ridge fastener WJ3 can have an angle of 5 degrees; fastening a first end of a ridge fastener WJ3 to a first ridge WJ1 on a first structure; the second end of the ridge fastener WJ3 is fastened to a second ridge WJ2 on the second structure.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims

1. A dismantled and assembled wooden hunch shelter bridge toy which characterized in that includes:

a base assembly (100), 1 deck assembly (110) and 1 gallery assembly (120);

the base assembly (100) comprising: 2 oppositely located bases (101), 24 first seedlings (M1), 14 second seedlings (M2), 14 third seedlings (M3) and 7 fourth seedlings (M4); wherein the length relations of the first nursery stock (M1), the second nursery stock (M2), the third nursery stock (M3) and the fourth nursery stock (M4) are as follows: a first nursery stock (M1) > a third nursery stock (M3) > a second nursery stock (M2) > a fourth nursery stock (M4); 2 first bulls (N1), 2 second bulls (N2) and 2 third bulls (N3);

the 24 first seedlings (M1), 14 second seedlings (M2), 14 third seedlings (M3) and 7 fourth seedlings (M4) are spliced through respective top surface grooves of an upper layer of lateral mounting holes, a lower layer of lateral mounting holes, 2 first cattle heads (N1), 2 second cattle heads (N2) and 2 third cattle heads (N3) on the side surfaces of the 2 opposite positions of the base (101) to form a bridge arch;

the deck assembly (110) comprising: 4 first general columns (J1), 12 second general columns (J2), 2 bridge head pieces (Q), 7 first deck seedlings (QM1), 14 second deck seedlings (QM2), 2 fourth deck pieces (N4);

inserting the 4 first general columns (J1), the 12 second general columns (J2), the 7 first bridge deck seedlings (QM1) and the 14 second bridge deck seedlings (QM2) through the top surface grooves of the 2 bridge head pieces (Q) and the 2 fourth cattle head pieces (N4) to form a bridge deck;

the gallery assembly (120), including: 28 first vertical columns (L1), 28 second vertical columns (L2), 28 third vertical columns (L3), 28 fourth vertical columns (L4), 14 fifth vertical columns (L5), 42 first main beams (Z1), 14 second main beams (Z2), 14 third main beams (Z3), 1 first bridge plate (QB1), 2 second bridge plates (QB2), 4 first secondary beams (C1), 8 second secondary beams (C2), 1 first ridge (WJ1), 2 second ridges (WJ2), 2 ridge fasteners (WJ3), 2 first roof panels (WM1), 4 second roof panels (WM2), 2 first stool devices (B1), 4 second stool devices (B2); wherein the length relations of the first upright post (L1), the second upright post (L2), the third upright post (L3), the fourth upright post (L4) and the fifth upright post (L5) are as follows: a third upright (L3) > a second upright (L2) > a fifth upright (L5) > a fourth upright (L4) > a first upright (L1); the length relations of the first main beam (Z1), the second main beam (Z2) and the third main beam (Z3) are as follows: a third main beam (Z3) > a second main beam (Z2) > a first main beam (Z1);

through the through holes of the 42 first main beams (Z1), the 14 second main beams (Z2), the 14 third main beams (Z3), the 4 first secondary beams (C1), the 8 second secondary beams (C2), the 1 first bridge plate (QB1), the 2 second bridge plate (QB2), the 1 first ridge (WJ1), the 2 second ridge (WJ2), the mounting holes of the 2 second ridge (WJ2), the 2 ridge fasteners (WJ3), the 2 first bridge plates (WM1) and the 4 second bridge plates (WM2), the 28 first upright columns (L1), the 28 second upright columns (L2), the 28 third upright columns (L3), the 28 fourth upright columns (L4) and the 14 fifth upright columns (L5) are respectively inserted and the 2 first roof plates (B1) and the 4 second roof plates (B2) are embedded into a roof gallery to form a roof porch;

2. The toy of claim 1,

the base (101) is step-shaped, and the side surface of the base is provided with an upper layer of lateral mounting holes and a lower layer of lateral mounting holes; 8 first seedlings (M1) are inserted into the lateral mounting holes of the lower layer (1010) of each base, and the other end of each first seedling (M1) is inserted into one end of the groove in the top surface of the third bullhead piece (N3); 7 second nursery stocks (M2) are inserted into the lateral mounting holes of the upper layer (1011) of each base, and the other end of each second nursery stock (M2) is inserted into one end of the groove on the top surface of the first bullhead (N1);

the other end of each second bullhead piece (N2) in the groove is also inserted with 7 third seedlings (M3), and the other end of each third seedling (M3) passes through the gap between the 8 first seedlings (M1) and is inserted in the groove of the first bullhead piece (N1);

the other ends in the grooves of the two second bullhead pieces (N2) are connected with each other by inserting 7 fourth seedlings (M4);

the other ends in the grooves of the two third bullheads (N3) are connected with each other by plugging 8 first seedlings (M1), wherein one ends of the 8 first seedlings (M1) penetrate through gaps among the 7 third seedlings (M3) to form a bridge arch.

3. The toy of claim 1,

the top surface of each base (101) is provided with a vertical mounting hole; 2 first general columns (J1) and 6 second general columns (J2) are inserted into the vertical mounting holes of each base; the other ends of the 2 first general columns (J1) and the 6 second general columns (J2) are inserted into the mounting holes on the bottom surface of the 1 bridge head piece (Q);

two ends of 7 first deck seedlings (QM1) are respectively inserted into one end of the top surface groove of the 2 fourth bullnose pieces (N4); the other end of the top groove of each fourth bullhead (N4) is respectively inserted with 7 second deck seedlings (QM 2); the other end of each second deck seedling (QM2) is inserted into the top surface groove of 1 bridge head piece (Q) to form a deck.

4. The toy of claim 3,

the fourth bullhead piece (N4) is also provided with a bottom surface groove;

the bottom grooves are inserted onto the 8 first seedlings (M1) on the bridge arch.

5. The toy of claim 1,

one end of each of the 1 first upright post (L1), the 1 second upright post (L2) and the 1 third upright post (L3) respectively passes through the through hole on the 1 first main beam (Z1) to form 1 ascending wedge-shaped structure;

the second upright posts (L2) of the 2 ascending wedge structures respectively pass through the through holes on the 1 third main beam (Z3); the third upright posts (L3) in the 2 ascending wedge-shaped structures respectively penetrate through holes arranged on the 1 second main beam (Z2) to form a quasi-tablet;

2 fourth upright columns (L4) and 1 fifth upright column (L5) respectively penetrate through holes in the 1 first main beam (Z1) and are respectively inserted into through holes in the second main beam (Z2) of the quasi board to form 1 board;

the 28 first upright columns (L1), 28 second upright columns (L2), 28 third upright columns (L3), 28 fourth upright columns (L4), 14 fifth upright columns (L5), 42 first main beams (Z1), 14 second main beams (Z2) and 14 third main beams (Z3) form 14 boards;

one end of each of the second upright post (L2) and the 1 third upright post (L3) of 4 boards in the 14 boards is inserted into the mounting hole of the 1 first bridge plate (QB1) to form 1 first structure;

one end of each of the remaining 10 of the 14 boards is inserted into a mounting hole on each of 1 second bridge plate (QB2) of each of 5 second columns (L2) and 1 third column (L3) to form 1 second structure, and the 1 second structures are formed by the same shape;

a first upright post (L1) and a third upright post (L3) on the first structure respectively penetrate through holes on 4 first secondary beams (C1); a fifth upright post (L5) on the first structure is inserted into a mounting hole on 1 first ridge (WJ 1);

a first upright post (L1) and a third upright post (L3) on each second structure respectively penetrate through holes on 4 second secondary beams (C2); fifth upright posts (L5) on the 2 second structures are respectively inserted into mounting holes on the 2 second roof ridges (WJ 2);

each of the ridge buckles (WJ3) is buckled with a first ridge (WJ1) on the first structure and a second ridge (WJ2) on 1 second structure respectively;

each first bench piece (B1) is respectively embedded between each second upright post (L2) and the third upright post (L3) on 1 first structure to form 1 first standard gallery (121);

each second bench member (B2) is respectively embedded between each second upright post (L2) and the third upright post (L3) on the 1 second structure to form 1 second quasi-gallery (122);

every first roof boarding (WM1), every second roof boarding (WM2) set up in order respectively 1 on 2 first secondary beam (C1) of first accurate gallery room (121), 1 on 2 second secondary beam (C2) of second accurate gallery room (122), form the gallery room.

6. The toy of claim 5,

the second bridge plate (QB2) comprises 5 rows of mounting holes, wherein the distance between the 1 st row of mounting holes and the first end is a first preset distance, and the distance between the 5 th row of mounting holes and the second end is a second preset distance;

each plaque on the second structure is inclined at a second preset angle towards the first end of the second bridge panel (QB 2);

the second ridge (WJ2) comprises 5 mounting holes, and the mounting holes on the second ridge (WJ2) are inclined holes with a second preset angle;

the ridge buckle (WJ3) is of a slope-shaped structure, and a second preset angle is formed between the first end of the ridge buckle (WJ3) and the second end of the ridge buckle (WJ 3);

a first end of the ridge button (WJ3) is buckled with a first ridge (WJ1) on the first structure;

the second end of the ridge button (WJ3) is buckled with a second ridge (WJ2) on the second structure.

7. The toy of claim 1,

the deck assembly (110) further comprising:

4 first frog leg members (QW1), 2 second frog leg members (QW2), 4 scissor braces (JD);

one end of each 2 first frog leg parts (QW1) is respectively inserted into the mounting holes of 1 second frog leg part (QW 2); every 2 scissor supports (JD) are buckled with each other in pairs to form 1 crossed cross piece; one end of each cross piece is respectively inserted into the mounting holes of the 2 first general columns (J1); wherein the second frog leg member (QW2) comprises 2 mounting holes; the scissor supports (JD) comprise 1 groove, and one end of each scissor support (JD) is processed into an inclined surface inclined by a third preset angle; the machined end of the bridging (JD) is at the same end of the cross member;

the other end of each 2 first frog leg pieces (QW1) is respectively inserted into the mounting hole of a first bullnose piece (N1) on the bridge arch;

one processed end of each cross piece is inserted into the grooves at the two ends of the first ox-head piece (N1) on the bridge arch.