CN112482640A

CN112482640A - Landscape house antique green brick roof system and construction method thereof

Info

Publication number: CN112482640A
Application number: CN202011395263.9A
Authority: CN
Inventors: 杨斌; 魏伟聪; 张东; 李健男; 赵强; 黄亮; 张亚伟; 于克成; 崔理佳; 唐杰; 刘炎; 王明远; 宋云波
Original assignee: China State Construction Engineering Corp Ltd CSCEC; China Construction First Group Corp Ltd; China Construction First Divison Group Huajiang Construction Co Ltd
Current assignee: China State Construction Engineering Corp Ltd CSCEC; China Construction First Group Corp Ltd; China Construction First Divison Group Huajiang Construction Co Ltd
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2021-03-12
Anticipated expiration: 2040-12-03
Also published as: CN112482640B

Abstract

A landscape house antique green brick roof system and a construction method thereof comprise a roof board, a steel-wood roof truss, a first eave gallery frame, a second eave gallery frame, a lower heat-insulating layer, a concrete layer, a cement pressure plate, a waterproof layer, an upper heat-insulating layer, a protection plate, a water-guiding strip, a tile hanging strip and a green brick surface layer; the roof panel is arranged between the gable walls at the two sides and close to the two ends of the gable walls; the first eaves corridor frame is arranged at two sides of the roof panel; the steel-wood roof truss is longitudinally arranged between the gable walls at two sides at intervals and is positioned between the two roof boards; roof purlins are connected between adjacent steel-wood roof trusses and between the steel-wood roof trusses and the corresponding roof boards on one side; a steel support is supported between the end part of the steel-wood roof truss and the gable wall on the corresponding side; the second eaves gallery frames are arranged on two sides of the steel-wood roof truss, and the inner ends of the second eaves gallery frames are connected with the outer side face of the gable wall. The invention solves the technical problems that modern smell, landscape elements lack and the roof with the exterior decoration effect of the large-span wood structure cannot be met in the traditional roof manufacturing method.

Description

Landscape house antique green brick roof system and construction method thereof

Technical Field

The invention belongs to the technical field of building engineering, and particularly relates to an antique green brick roof system of a landscape house and a construction method thereof.

Background

The traditional roof method is basically a concrete flat roof or a small grey tile roof brick under the condition of an inclined roof, but the roof lacks the sense of thickness and cannot meet the atmosphere required by the palace; in addition, traditional roofing lacks the view element, and can't satisfy the outer decorative effect roofing of large-span timber structure.

Disclosure of Invention

The invention aims to provide an antique green brick roof system of a landscape house and a construction method thereof, and aims to solve the technical problems that modern breath in the traditional roof manufacturing method is lack of landscape elements, and the roof with a large-span wood structure exterior decoration effect cannot be met.

In order to achieve the purpose, the invention adopts the following technical scheme.

An antique green brick roof system of a landscape house comprises a roof board, a steel-wood roof truss, a first eave gallery frame, a second eave gallery frame, a lower heat-insulating layer, a concrete layer, a cement pressure plate, a waterproof layer, an upper heat-insulating layer, a protection plate, a water-guiding strip, a tile hanging strip and a green brick surface layer; two roof panels are respectively arranged between the tops of the gable walls on the two sides and close to the two ends of the gable walls; the vertical section of the roof panel is in a herringbone shape, and two ends of the roof panel are respectively fixedly connected with the gable wall on the corresponding side; the first eaves corridor frame is respectively arranged at two sides of the roof panel, and the inner end of the first eaves corridor frame is connected with the outer side surface of the gable wall; a first eaves rack purline is connected between the adjacent first eaves rack; the steel-wood roof truss is provided with a group of steel-wood roof trusses which are arranged between the gable walls at two sides at intervals along the longitudinal direction and are positioned between the two roof boards; the steel-wood roof truss is in a herringbone shape, and two ends of the steel-wood roof truss are fixedly connected with the gable wall on the corresponding side respectively; roof purlines are connected between the adjacent steel-wood roof trusses and between the steel-wood roof trusses and the corresponding roof boards on one side; a steel support is supported between the end part of the steel-wood roof truss and the gable wall on the corresponding side;

the first upper chord comprises a herringbone rod piece, a first externally-wrapped batten and a first counter bolt; the herringbone rod piece is made of section steel with a dry longitudinal section and comprises a first top plate, a first horizontal web plate and a first vertical web plate; the two first externally-wrapped battens are respectively attached to two sides of the lower part of the first vertical web plate and are positioned below the first horizontal web plate; the first externally-wrapped batten is connected with the herringbone rod piece through a first split bolt; the bottom edge of the first wrapping wood strip exceeds the bottom edge of the herringbone rod piece;

the suspension rods are provided with a group and are hung below the first upper chord in parallel at intervals along the transverse direction; the hanger rod comprises a vertical batten and a connecting steel plate; the upper part of the vertical batten is provided with a slot; the connecting steel plate is inserted into the slot, and the top of the connecting steel plate exceeds the top of the vertical batten; the lower part of the connecting steel plate is connected with the vertical beam through a first hidden bolt; the part of the connecting steel plate, which exceeds the top of the vertical batten, is inserted between the lower parts of the two first externally-wrapped battens on the first upper chord and is welded and connected with the herringbone rod piece;

the first vertical web members are in a group and are connected below the first upper chord members in parallel along the transverse direction at intervals; the first vertical web member comprises a first wood splint and a first inner steel plate; the first wood clamping plates are clamped at two sides of the first inner steel plate and fixedly connected with the first inner steel plate; the top of the first inner steel plate exceeds the top of the first wood clamping plate, and the exceeding part is inserted between the lower parts of the two first outer-wrapping battens on the first upper chord and is welded and connected with the herringbone rod piece;

the first diagonal web members are connected to the upper parts of the first vertical web members, and one first diagonal web member is arranged on each of the front side and the rear side of each first vertical web member; the first diagonal web members are obliquely arranged along the gradient direction of one side corresponding to the first upper chord member, and the first diagonal web members which are transversely adjacent are arranged at intervals; the first diagonal web members are made of wood, and the first diagonal web members corresponding to the front side and the rear side are connected with the first vertical web members through first upper tie bolts;

the first lower chord members are connected to the lower parts of the first vertical web members, and one first lower chord member is arranged on each of the front side and the rear side of each first vertical web member; the first lower chords are obliquely arranged along the gradient direction of one side corresponding to the first upper chords, and the first lower chords which are transversely adjacent are in lap joint; the first lower chord members are made of wood, and the first lower chord members corresponding to the front side and the rear side are connected with the first vertical web members through first lower tie bolts; the lower end of the first lower chord is provided with a first wood plate edge sealing; the first wood plate edge sealing is L-shaped and is arranged on the end face and the bottom face of the first lower chord;

two groups of second eave gallery frames are arranged on two sides of the steel-wood roof truss respectively, and the inner ends of the second eave gallery frames are connected with the outer side face of the gable wall; the top surface of the second eave gallery frame is in smooth transition with the top surface of the steel-wood roof truss; a second eaves rack purline is connected between the adjacent second eaves rack; the lower heat-insulating layer and the concrete layer are sequentially laid on the top of the roof panel from bottom to top, and the top surface of the concrete layer is flush with the top surface of the steel-wood roof truss; an inclined strut is arranged between the second eave gallery frame and the gable wall on the corresponding side;

the cement pressure plate, the waterproof layer, the upper heat-insulating layer and the protection plate are sequentially paved on the tops of the steel-wood roof truss, the concrete layer, the first eave corridor frame and the second eave corridor frame from bottom to top; the water-guiding strips are longitudinally arranged above the protection plate in parallel at intervals; the tile hanging strips are connected to the top of the water guiding strip at intervals along the inclination direction of the roof; the green brick surface layer is formed by paving a lower layer of green brick blocks and an upper layer of green brick blocks; the lower layer green bricks are arranged along the inclination direction of the roof, and the lower parts of the upper group of lower layer green bricks are in compression joint with the upper parts of the lower group of lower layer green bricks; a support plate is arranged at the bottom of each group of upper layer green bricks; the upper end of the supporting plate is provided with a hook, and the hook is hung on the corresponding tile hanging strip; the lower end of the support plate is provided with a baffle plate, and the baffle plate is arranged on the lower end face of the upper layer green brick block in a blocking manner; the supporting and connecting plate is connected with the battens through a first fastener; the lower layer green brick blocks are connected with the supporting and connecting plate through second fasteners; the upper layer green brick blocks are provided with a plurality of groups and are laid corresponding to the lower layer green brick blocks, and the upper group of lower layer green brick blocks are spliced and connected with the lower group of upper layer green brick blocks;

the outer sides of the first eave gallery frame and the second eave gallery frame are provided with drainage ditches along the longitudinal through length;

a cover plate is arranged at the ridge and above the surface layer of the blue bricks; and two side edges of the cover plate are connected with upper layer green brick blocks on two sides of the ridge.

Preferably, the roof panel is provided with pore channels at intervals along the long axial direction of the vertical section of the roof panel; embedding first embedded parts at intervals at the top of the roof panel; the longitudinal section of the first embedded part is in an inverted T shape, the horizontal edge of the first embedded part is embedded in the roof panel, and the upper part of the vertical edge of the first embedded part is inserted in the lower heat-insulating layer.

Preferably, a second embedded part is embedded on the outer side face of the gable wall at a position corresponding to the first eaves corridor frame; the second embedded part comprises a second embedded plate and a second anchoring rib; the second buried plate is in an inverted L shape and is attached to the upper part of the outer side surface of the gable and the top of the gable; the second anchoring rib is buried in the gable wall, and the end portion of the second anchoring rib is connected with the second buried plate.

Preferably, the first eave corridor frame is made of I-shaped steel, the inner end of the first eave corridor frame is welded with the second embedded part, and the lower part of the outer end of the first eave corridor frame is provided with a first notch; a first eave board is arranged at the outer end of the first eave corridor frame and positioned at the first notch; and a first sealing plate is arranged at the upper part of the outer end of the first eaves gallery frame.

Preferably, the outer ends of the first eave veranda frame and the second eave veranda frame are provided with longitudinal support rods which are positioned on the inner side of the drainage ditch in a through-length manner; the escape canal can be dismantled with longitudinal support pole and be connected.

Preferably, a third embedded part is embedded in the position, corresponding to the second eaves corridor frame, on the gable wall; the third embedded part comprises a third embedded plate and a third anchoring rib; the third buried plate comprises an inner panel, an outer panel and a top panel; the inner panel is attached to the inner side face of the gable wall, the outer panel is attached to the outer side face of the gable wall, and the top panel is attached to the top of the gable wall; the third anchoring rib is arranged between the inner panel and the outer panel in a pulling way; the inner end of the second eave corridor frame is connected with an outer panel of a third embedded part; and two ends of the steel-wood roof truss are respectively welded and connected with the inner panel of the third embedded part on the corresponding side.

Preferably, the second eave frame comprises a second upper chord, a second vertical web member, a second oblique web member and a second lower chord; the second upper chord is arranged corresponding to the first upper chord and comprises an intermediate steel rod piece and a second externally-wrapped batten; the longitudinal section of the middle section steel rod piece is in a dry shape and comprises a second top plate, a second horizontal web plate and a second vertical web plate; the two second externally-wrapped battens are respectively attached to two sides of the lower part of the second vertical web plate and are positioned below the second horizontal web plate; the second outer-wrapping battens are connected with the middle section steel rod piece through second split bolts; the bottom edge of the second wrapping batten exceeds the bottom edge of the herringbone rod piece; a second notch is formed in the lower part of the outer end of the second upper chord; a second eave sealing plate is arranged at the outer end of the second upper chord and positioned at the second notch; a second sealing plate is arranged at the upper part of the outer end of the second eaves gallery frame;

the second vertical web members are in a group and are connected below the second upper chord members in parallel along the transverse direction at intervals; the second vertical web member comprises a second wood splint and a second inner steel plate; the second wood clamping plates are clamped at two sides of the second inner steel plate and are fixedly connected with the second inner steel plate; the top of the second inner steel plate exceeds the top of the second plywood, and the exceeding part is inserted between the lower parts of the two second outer wooden battens on the second upper chord and is welded with the middle section steel rod piece;

the second diagonal web members are connected to the upper parts of the second vertical web members, and two second diagonal web members are arranged on the front side and the rear side of each second vertical web member respectively; the second diagonal web members are obliquely arranged along the gradient direction of one side corresponding to the second upper chord member, and the second diagonal web members which are transversely adjacent are arranged at intervals; the second diagonal web members are made of wood, and the second diagonal web members corresponding to the front side and the rear side are connected with the second vertical web members through second upper tie bolts;

the second lower chord members are connected to the lower parts of the second vertical web members, and one second lower chord member is arranged on each of the front side and the rear side of each second vertical web member; the second lower chords are obliquely arranged along the gradient direction of one side corresponding to the second upper chords, and the second lower chords which are transversely adjacent are in lap joint; the second lower chords are made of wood, and the second lower chords corresponding to the front side and the rear side are connected with the second vertical web members through second lower tie bolts; the lower end of the second lower chord is provided with a second wood plate edge seal; the second wood plate edge sealing is L-shaped and is arranged on the end face and the bottom face of the second lower chord.

Preferably, a first purlin connecting plate is arranged on a first upper chord of the steel-wood roof truss and above the first horizontal web; the first purline connecting plates are clamped at two sides of the end portions of the roof purlines and connected with the roof purlines through first connecting bolts.

Preferably, the front side and the rear side of the first eaves corridor frame and the positions corresponding to the connection positions of the first eaves corridor purlins are provided with first purlin connecting plates; the first purline connecting plates are clamped at two sides of the end parts of the first eaves corridor purlines and are connected with the first eaves corridor purlines through first connecting bolts;

second purline connecting plates are arranged on the front side and the rear side of the second upper chord and above the second horizontal web; the second outer-wrapping battens are connected with the middle section steel rod piece through second split bolts; and the second purline connecting plates are clamped at two sides of the end part of the second eaves corridor purline and are connected with the second eaves corridor purline through second connecting bolts.

A construction method of a landscape house antique green brick roof system comprises the following steps.

The method comprises the following steps: constructing a roof panel; the roof panel is formed by pouring concrete.

Step two: constructing the steel-wood roof truss; arranging a group of steel-wood roof trusses between the gable walls at two sides at intervals along the longitudinal direction, and positioning the steel-wood roof trusses at the position between the two roof panels, wherein two ends of the steel-wood roof trusses are respectively fixedly connected with the gable wall at the corresponding side; roof purlines are connected between adjacent steel-wood roof trusses and between the steel-wood roof trusses and the corresponding roof boards on one side; and a steel support is erected between the end part of the steel-wood roof truss and the gable wall on the corresponding side.

Step three: construction of the heat preservation waterproof layer: and sequentially constructing a lower heat-insulating layer, a concrete layer, a cement pressure plate, a waterproof layer, an upper heat-insulating layer and a protection plate.

Step four: and (3) construction of a roof surface layer: and constructing a water guiding strip, constructing a tile hanging strip at the top of the water guiding strip, and then installing a lower layer green brick block and an upper layer green brick block on the tile hanging strip.

Compared with the prior art, the invention has the following characteristics and beneficial effects.

1. The steel-wood roof system adopts a steel structure as a keel, a wood structure as an exterior facing and a black brick as a roof surface layer; the whole structure presents an antique smell, and is matched with the design concept of the project.

2. The steel-wood roof truss can realize factory prefabrication and field assembly, so that the whole construction process is more convenient and faster; in addition, each structural layer and each connecting node in the invention are designed according to the characteristics of the structure, and the structure has the characteristics of good stress performance and good durability.

3. The green brick surface layer of the roof adopts large-size bricks, and the green bricks have longer service life, better antique effect and better waterproof effect when being used for the roof; in addition, the blue brick surface layer supporting plate, the first fastener and the second fastener are connected with the tile hanging strip arranged on the roof, and the connection mode effectively prevents the blue bricks from sliding downwards and increases the safety of the structure.

4. The green brick surface layer is connected with the roof main body through the water guiding strips and the tile hanging strips, and the roof heat insulation layer and the waterproof layer do not participate in stress, so that the safety of a roof system is ensured.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic cross-sectional structure view of a landscape house antique green brick roof system at a steel-wood roof truss.

FIG. 2 is a schematic view of a connection structure of a second eaves veranda frame and a steel-wood roof truss in the invention.

Fig. 3 is a roofing structural layer of the present invention.

Fig. 4 is a schematic structural view of a third embedded part in the invention.

Fig. 5 is a schematic cross-sectional structure view of the landscape house archaized blue brick roof system at the roof panel of the invention.

Fig. 6 is a schematic structural view of a second insert according to the present invention.

Fig. 7 is a schematic view of the structure of the eave of the first eave of the present invention.

Fig. 8 is a schematic structural view of the first upper chord in the present invention.

Fig. 9 is a schematic view of the construction of the boom of the present invention.

Fig. 10 is a schematic structural view of the first vertical web member in the present invention.

Fig. 11 is a structural diagram of a connection node of the first vertical web member and the first lower chord in the invention.

Fig. 12 is a structural diagram of a connection node between the second diagonal web member and the second vertical web member in the present invention.

Fig. 13 is a schematic structural view of the receiving plate of the present invention.

Fig. 14 is a schematic view of the construction of the invention in which a grey brick facing is laid on battens.

Fig. 15 is a schematic structural view of a second upper chord in the present invention.

Fig. 16 is a schematic view showing an end structure of the second upper chord in the present invention.

Fig. 17 is a schematic structural view of the second vertical web member and the second upper chord member in the present invention.

Fig. 18 is a schematic view of the connection structure of the second vertical web member and the second lower chord in the present invention.

Fig. 19 is a schematic view of the connection of a first purlin web to a first eaves purlin of the present invention.

Fig. 20 is a schematic view of the connection of a second purlin web to a second eaves purlin of the present invention.

FIG. 21 is a schematic view of the structure of the vertical battens with slots.

Fig. 22 is a schematic view of a connection structure of the second vertical web member and the second diagonal web member in the present invention.

Reference numerals: 1-roof board, 2-steel wood roof truss, 2.1-first upper chord, 2.1.1-herringbone rod piece, 2.1.1 a-first top board, 2.1.1 b-first horizontal web plate, 2.1.1 c-first vertical web plate, 2.1.2-first outer clad wood bar, 2.1.3-first pair of tie bolts, 2.2-suspender, 2.2.1-vertical batten, 2.2.2.2-connecting steel plate, 2.2.3-first blind bolt, 2.3-first vertical web member, 2.3.1-first plywood, 2.3.2-first inner steel plate, 2.4-first web member, 2.5-first lower chord, 2.5.1-first wood plate edge sealing, 2.6-first upper tie bolt, 2.7-first lower tie bolt, 2.8-horizontal tie bolt, 3-first lower chord, 2.1.4-first vertical web plate, 2.1.4-first vertical web member, 2.1.4-first vertical web plate, 2.1-second vertical web member, 2.4-first vertical web plate, 2.1-first vertical web member, 2.3.1-first horizontal web member, 2.1-first vertical web member, 2.4-second web member, 2.1-first vertical web member, 2.3-first horizontal web member, 2.1-first vertical web member, 2-first vertical web member, 2.3-second web member, 2.1-first horizontal web member, 2-, 4.2.1-second wood splint, 4.2.2-second inner steel plate, 4.3-second diagonal web member, 4.4-second lower chord, 4.4.1-second wood plate edge sealing, 4.5-second upper tie bolt, 4.6-second lower tie bolt, 5-lower heat insulation layer, 6-concrete layer, 7-cement pressure plate, 8-waterproof layer, 9-upper heat insulation layer, 10-protective plate, 11-water-following bar, 12-hanging tile strip, 13-blue brick surface layer, 13.1-lower blue brick, 13.2-upper blue brick, 13.3-support plate, 13.3.1-hook, 13.3.2-baffle, 13.4-first fastener, 13.5-second fastener, 14-gable wall, 15-roof purlin, 16-steel support, 17-slot, 18-second corridor bar, 19-purlin-diagonal brace, 20-drainage ditch, 21-eaves piece, 22-first fastener, 23-second roof purlin, 23-gap-buried plate, 23.2-second gap buried plate, 23-buried plate, and 2-second gap buried plate, 26-first sealing plate, 27-longitudinal support rod, 28-third embedded piece, 28.1-third embedded plate, 28.1.1-inner panel, 28.1.2-outer panel, 28.1.3-top panel, 28.2-third anchoring rib, 29-second gap, 30-second capping plate, 31-second sealing plate, 32-first purlin connecting plate, 33-second purlin connecting plate, 34-first connecting bolt, 35-first eaves corridor purlin, 36-second connecting bolt and 37-cover plate.

Detailed Description

The landscape house antique green brick roof system comprises a roof board 1, a steel-wood roof truss 2, a first eave gallery frame 3, a second eave gallery frame 4, a lower heat-insulating layer 5, a concrete layer 6, a cement pressure plate 7, a waterproof layer 8, an upper heat-insulating layer 9, a protection plate 10, a water-guiding strip 11, tile hanging strips 12 and a green brick surface layer 13; two roof panels 1 are respectively arranged between the tops of the gable walls 14 on the two sides and close to the two ends of the gable walls 14; the vertical section of the roof panel 1 is in a herringbone shape, and two ends of the roof panel 1 are respectively fixedly connected with the gable 14 on the corresponding side; the first eaves gallery frame 3 is respectively arranged at two sides of the roof panel 1, and the inner end of the first eaves gallery frame 3 is connected with the outer side surface of the gable wall 14; a first eaves corridor purline 35 is connected between the adjacent first eaves corridor frames 3; the steel-wood roof trusses 2 are arranged between the gable walls 14 at two sides at intervals along the longitudinal direction and are positioned between the two roof panels 1; the steel-wood roof truss 2 is in a herringbone shape, and two ends of the steel-wood roof truss 2 are fixedly connected with the gable 14 on the corresponding side respectively; roof purlines 15 are connected between the adjacent steel-wood roof trusses 2 and between the steel-wood roof trusses 2 and the corresponding roof panel 1; a steel support 16 is supported between the end part of the steel-wood roof truss 2 and the gable 14 on the corresponding side;

the steel-wood roof truss 2 comprises a first upper chord 2.1, a suspender 2.2, a first vertical web member 2.3, a first inclined web member 2.4 and a first lower chord 2.5;

the first upper chord 2.1 comprises a herringbone rod piece 2.1.1, a first externally-wrapped batten 2.1.2 and a first split bolt 2.1.3; the herringbone rod piece 2.1.1 is made of section steel with a dry longitudinal section and comprises a first top plate 2.1.1a, a first horizontal web plate 2.1.1b and a first vertical web plate 2.1.1 c; two first externally-wrapped battens 2.1.2 are respectively attached to two sides of the lower part of the first vertical web 2.1.1c, and the first externally-wrapped battens 2.1.2 are positioned below the first horizontal web 2.1.1 b; the first externally-wrapped batten 2.1.2 is connected with the herringbone rod piece 2.1.1 through a first split bolt 2.1.3; the bottom edge of the first outer-coated batten 2.1.2 exceeds the bottom edge of the herringbone rod piece 2.1.1;

the suspension rods 2.2 are provided with a group and are suspended below the first upper chord 2.1 at intervals in parallel along the transverse direction; the hanger rod 2.2 comprises a vertical wood square 2.2.1 and a connecting steel plate 2.2.2; the upper part of the vertical batten 2.2.1 is provided with a slot 17; the connecting steel plate 2.2.2 is inserted into the slot 17, and the top of the connecting steel plate 2.2.2 exceeds the top of the vertical wood square 2.2.1; the lower part of the connecting steel plate 2.2.2 is connected with the vertical beam 2.2.1 through a first hidden bolt 2.2.3; the part of the connecting steel plate 2.2.2, which exceeds the top of the vertical beam 2.2.1, is inserted between the lower parts of the two first externally-wrapped battens 2.1.2 on the first upper chord 2.1 and is welded with the herringbone rod piece 2.1.1;

the first vertical web members 2.3 are provided with a group and are connected below the first upper chord members 2.1 in parallel at intervals along the transverse direction; the first vertical web member 2.3 comprises a first plywood 2.3.1 and a first inner steel plate 2.3.2; the first wood clamping plate 2.3.1 is clamped at two sides of the first inner steel plate 2.3.2 and is fixedly connected with the first inner steel plate 2.3.2; the top of the first inner steel plate 2.3.2 exceeds the top of the first plywood 2.3.1, and the exceeding part is inserted between the lower parts of the two first externally-wrapped battens 2.1.2 on the first upper chord 2.1 and is welded with the herringbone rod piece 2.1.1;

the first diagonal web members 2.4 are connected to the upper parts of the first vertical web members 2.3, and one first diagonal web member is arranged at each of the front and rear sides of each first vertical web member 2.3; the first diagonal web members 2.4 are obliquely arranged along the gradient direction of one side corresponding to the first upper chord member 2.1, and the first diagonal web members 2.4 which are transversely adjacent are arranged at intervals; the first diagonal web members 2.4 are made of wood, and the first diagonal web members 2.4 corresponding to the front side and the rear side are connected with the first vertical web members 2.3 through first upper tie bolts 2.6;

the first lower chord members 2.5 are connected to the lower parts of the first vertical web members 2.3, and one first lower chord member is arranged on each of the front and rear sides of each first vertical web member 2.3; the first lower chords 2.5 are obliquely arranged along the gradient direction of one side corresponding to the first upper chords 2.1, and the first lower chords 2.5 which are adjacent transversely are connected in a lap joint mode; the first lower chord 2.5 is made of wood, and the first lower chord 2.5 corresponding to the front side and the rear side is connected with the first vertical web member 2.3 through a first lower tie bolt 2.7; the lower end of the first lower chord 2.5 is provided with a first wood plate edge sealing 2.5.1; the first wood board edge sealing 2.5.1 is L-shaped and is arranged on the end face and the bottom face of the first lower chord 2.5;

two groups of second eaves corridor frames 4 are respectively arranged at two sides of the steel-wood roof truss 2, and the inner ends of the second eaves corridor frames 4 are connected with the outer side surface of the gable wall 14; the top surface of the second eave gallery frame 4 is in smooth transition with the top surface of the steel-wood roof truss 2; a second eaves rack purline 18 is connected between the adjacent second eaves rack 4; the lower heat-insulating layer 5 and the concrete layer 6 are sequentially laid on the top of the roof panel 1 from bottom to top, and the top surface of the concrete layer 6 is flush with the top surface of the steel-wood roof truss 2; an inclined strut 19 is arranged between the second eave corridor frame 4 and the gable 14 on the corresponding side;

the cement pressure plate 7, the waterproof layer 8, the upper insulating layer 9 and the protection plate 10 are sequentially paved on the tops of the steel-wood roof truss 2, the concrete layer 6, the first eave veranda frame 3 and the second eave veranda frame 4 from bottom to top; the water-guiding strips 11 are longitudinally arranged above the protection plate 10 in parallel at intervals; the battens 12 are connected to the top of the water guiding strips 11 at intervals along the inclination direction of the roof; the blue brick surface layer 13 is formed by paving a lower layer blue brick block 13.1 and an upper layer blue brick block 13.2; the lower layer green brick blocks 13.1 are provided with a plurality of groups and are arranged along the inclined direction of the roof, and the lower parts of the upper group of lower layer green brick blocks 13.1 are pressed on the upper parts of the lower group of lower layer green brick blocks 13.1; the bottom of each group of upper layer black brick blocks 13.2 is provided with a supporting and connecting plate 13.3; the upper end of the butt plate 13.3 is provided with a hook 13.3.1, and a hook 13.3.1 is hung on the corresponding tile hanging strip 12; a baffle 13.3.2 is arranged at the lower end of the supporting plate 13.3, and a baffle 13.3.2 is arranged on the lower end face of the upper layer black brick block 13.2 in a blocking manner; the butt plate 13.3 is connected with the battens 12 through first fasteners 13.4; the lower layer green brick block 13.1 is connected with the supporting and connecting plate 13.3 through a second fastener 13.5; a plurality of groups of upper layer green brick blocks 13.2 are laid corresponding to the lower layer green brick blocks 13.1, and the upper group of lower layer green brick blocks 13.1 are spliced and connected with the lower group of upper layer green brick blocks 13.2;

the outer sides of the first eave gallery frame 3 and the second eave gallery frame 4 are provided with a drainage ditch 20 along the longitudinal through length;

a cover plate 37 is arranged at the ridge and above the blue brick surface layer 13; and two side edges of the cover plate 37 are connected with the upper layer green brick blocks 13.2 on two sides of the ridge.

In this embodiment, the roof panel 1 is provided with the pore canals 21 at intervals along the long axial direction of the vertical section of the roof panel 1; first embedded parts 22 are embedded at intervals at the top of the roof panel 1; the longitudinal section of the first embedded part 22 is in an inverted T shape, the horizontal edge of the first embedded part 22 is embedded in the roof panel 1, and the upper part of the vertical edge of the first embedded part 22 is inserted in the lower heat-insulating layer 5.

In this embodiment, a second embedded part 23 is embedded on the outer side surface of the gable 14 at a position corresponding to the first eaves gallery frame 3; the second embedded part 23 comprises a second embedded plate 23.1 and a second anchoring rib 23.2; the second buried plate 23.1 is in an inverted L shape and is attached to the upper part of the outer side surface of the gable 14 and the top of the gable 14; the second anchoring rib 23.2 is embedded in the gable 14, and the end of the second anchoring rib 23.2 is connected with the second embedded plate 23.1.

In the embodiment, the first eave veranda frame 3 is made of i-steel, the inner end of the first eave veranda frame 3 is welded with the second embedded part 23, and the lower part of the outer end of the first eave veranda frame 3 is provided with a first notch 24; a first eave board 25 is arranged at the outer end of the first eave corridor frame 3 and positioned at the first gap 24; the upper part of the outer end of the first eaves corridor frame 3 is provided with a first sealing plate 26.

In this embodiment, the outer ends of the first eave veranda frame 3 and the second eave veranda frame 4 are provided with longitudinal support rods 27 throughout the length of the inner sides of the drainage ditches 20; the drainage ditch 20 is detachably connected with the longitudinal support bar 27.

In this embodiment, a third embedded part 28 is embedded in the gable 14 at a position corresponding to the second eaves corridor frame 4; the third embedded part 28 comprises a third embedded plate 28.1 and a third anchoring rib 28.2; the third buried plate 28.1 comprises an inner panel 28.1.1, an outer panel 28.1.2 and a top panel 28.1.3; the inner panel 28.1.1 is attached to the inner side of the gable 14, the outer panel 28.1.2 is attached to the outer side of the gable 14, and the top panel 28.1.3 is attached to the top of the gable 14; the third anchor rib 28.2 is drawn between the inner panel 28.1.1 and the outer panel 28.1.2; the inner end of the second eaves veranda frame 4 is connected with the outer panel 28.1.2 of the third embedded part 28; and two ends of the steel-wood roof truss 2 are respectively connected with the inner panel 28.1.1 of the third embedded part 28 on the corresponding side in a welding manner.

In this embodiment, the second eaves corridor frame 4 includes a second upper chord 4.1, a second vertical web member 4.2, a second diagonal web member 4.3 and a second lower chord 4.4; the second upper chord 4.1 is arranged corresponding to the first upper chord 2.1 and comprises an intermediate steel rod piece 4.1.1, a second outer wrapping batten 4.1.2 and a second split bolt 4.1.3; the longitudinal section of the middle section steel rod piece 4.1.1 is in a dry shape and comprises a second top plate 4.1.1a, a second horizontal web plate 4.1.1b and a second vertical web plate 4.1.1 c; two second externally-wrapped battens 4.1.2 are respectively attached to two sides of the lower part of the second vertical web plate 4.1.1c, and the second externally-wrapped battens 4.1.2 are positioned below the second horizontal web plate 4.1.1 b; the second outer-wrapping batten 4.1.2 is connected with the middle section steel rod piece 4.1.1 through a second split bolt 4.1.3; the bottom edge of the second outer-wrapping batten 4.1.2 exceeds the bottom edge of the herringbone rod piece 2.1.1; the lower part of the outer end of the second upper chord 4.1 is provided with a second gap 29; a second eave board 30 is arranged at the outer end of the second upper chord 4.1 and positioned at the second gap 29; a second sealing plate 31 is arranged at the upper part of the outer end of the second eaves gallery frame 4;

the second vertical web members 4.2 are provided with a group and are connected below the second upper chord members 4.1 at intervals in parallel along the transverse direction; the second vertical web member 4.2 comprises a second plywood 4.2.1 and a second inner steel plate 4.2.2; the second wood clamping plate 4.2.1 is clamped at two sides of the second inner steel plate 4.2.2 and is fixedly connected with the second inner steel plate 4.2.2; the top of the second inner steel plate 4.2.2 exceeds the top of the second plywood 4.2.1, and the exceeding part is inserted between the lower parts of two second outer clad wood strips 4.1.2 on the second upper chord 4.1 and is welded with the middle section steel rod piece 4.1.1;

the second diagonal web members 4.3 are connected to the upper parts of the second vertical web members 4.2, and two second diagonal web members are arranged on the front side and the rear side of each second vertical web member 4.2; the second diagonal web members 4.3 are obliquely arranged along the gradient direction of one side corresponding to the second upper chord member 4.1, and the second diagonal web members 4.3 which are transversely adjacent are arranged at intervals; the second diagonal web members 4.3 are made of wood, and the second diagonal web members 4.3 corresponding to the front side and the rear side are connected with the second vertical web members 4.2 through second upper tie bolts 4.5;

the second lower chord members 4.4 are connected to the lower parts of the second vertical web members 4.2, and one second lower chord member is arranged at each of the front and rear sides of each second vertical web member 4.2; the second lower chords 4.4 are obliquely arranged along the gradient direction of one side corresponding to the second upper chords 4.1, and the second lower chords 4.4 which are adjacent transversely are connected in a lap joint mode; the second lower chord 4.4 is made of wood, and the second lower chord 4.4 corresponding to the front side and the rear side is connected with the second vertical web member 4.2 through a second lower tie bolt 4.6; the lower end of the second lower chord 4.4 is provided with a second wood plate edge sealing 4.4.1; the second wood board edge sealing 4.4.1 is L-shaped and is arranged on the end face and the bottom face of the second lower chord 4.4.

In this embodiment, a first purlin connecting plate 32 is arranged on the first upper chord 2.1 of the steel-wood roof truss 2 and above the first horizontal web 2.1.1 b; the first purline connecting plates 32 are clamped at two sides of the end part of the roof purline 15 and connected with the roof purline 15 through first connecting bolts 34.

In this embodiment, first purlin connecting plates 32 are arranged at the front side and the rear side of the first eaves corridor frame 3 and at the connecting positions corresponding to the first eaves corridor purlins 35; the first purline connecting plates 32 are clamped at two sides of the end parts of the first eaves corridor purlines 35 and are connected with the first eaves corridor purlines 35 through first connecting bolts 34;

second purline connecting plates 33 are arranged on the front side and the rear side of the second upper chord 4.1 and above the second horizontal web 4.1.1 b; and the second purline connecting plates 33 are clamped at two sides of the end parts of the second eaves corridor purlines 18 and are connected with the second eaves corridor purlines 18 through second connecting bolts 36.

In the embodiment, the first vertical web members 2.3 at two sides of the ridge are connected through the horizontal pull rod 2.8.

The construction method of the landscape house antique green brick roof system comprises the following steps.

The method comprises the following steps: constructing the roof panel 1; the roof panel 1 is formed by pouring concrete; embedded parts need to be embedded in the roof panel 1 before pouring, and the embedded parts are used in the later period.

Step two: constructing the steel-wood roof truss 2; the steel-wood roof truss 2 is a combination of a steel structure and a wood structure, the steel structure serves as a bearing stress role, the wood structure is wrapped outside the steel structure to serve as a decorative layer, and the steel structure and the wood structure are combined through bolting; firstly, arranging a group of steel-wood roof trusses 2 between the gable walls 14 on two sides at intervals along the longitudinal direction, and locating the steel-wood roof trusses at the position between the two roof panels 1, wherein two ends of each steel-wood roof truss 2 are fixedly connected with the gable wall 14 on one corresponding side; roof purlines 15 are connected between the adjacent steel-wood roof trusses 2 and between the steel-wood roof trusses 2 and the corresponding roof panel 1; and a steel support 16 is supported between the end part of the steel-wood roof truss 2 and the gable 14 on the corresponding side.

Step three: construction of the heat preservation waterproof layer: carry out the construction of heat preservation 5, concrete layer 6, cement pressure plate 7, waterproof layer 8, last heat preservation 9 and guard plate 10 down in proper order: firstly brushing 3mm polyurethane waterproof paint on the top of the roof board 1 and the steel-wood roof truss 2, paving 100mm extruded polystyrene boards on the waterproof paint for heat preservation, pouring 40mm C25 concrete layer 6, paving 12mm cement pressure boards 7, and performing staggered lap joint. Two waterproof layers 8 made of ethylene propylene diene monomer with the thickness of 1.5mm are made on the cement pressure plate 7, an extruded polystyrene board with the thickness of 30mm is paved on the coiled material, and the heat preservation layer is also made.

Step four: and (3) construction of a roof surface layer: constructing a water-guiding strip 11, constructing a tile hanging strip 12 on the top of the water-guiding strip 11, and then installing a lower layer black brick block 13.1 and an upper layer black brick block 13.2 on the tile hanging strip 12; and a 60 x 300 mm-sized gold brick pressing strip cover seam is arranged at the joint of the upper layer black brick piece 13.2.

The above embodiments are not intended to be exhaustive or to limit the invention to other embodiments, and the above embodiments are intended to illustrate the invention and not to limit the scope of the invention, and all applications that can be modified from the invention are within the scope of the invention.

Claims

1. An antique blue brick roof system for a landscape house, characterized in that: it comprises a roof panel (1), a steel-wood roof truss (2), a first eaves gallery (3), a second eaves gallery (4), a lower eaves gallery Insulation layer (5), concrete layer (6), cement pressure plate (7), waterproof layer (8), upper insulation layer (9), protective plate (10), downstream strip (11), hanging tile strip (12) and a blue brick surface layer (13); the roof panel (1) has two pieces, which are respectively arranged between the tops of the gables (14) on both sides, and are close to both ends of the gable (14); the roof panel The vertical section of (1) is in a herringbone shape, and both ends of the roof panel (1) are respectively fixedly connected with the gable (14) on the corresponding side; the first eaves galleries (3) are respectively provided with roof panels (1) The inner end of the first eaves gallery frame (3) is connected with the outer side of the gable (14); the first eaves gallery purlins (35) are connected between the adjacent first eaves gallery frames (3). The steel-wood roof trusses (2) are arranged in one group, and are arranged between the gables (14) on both sides along the longitudinal interval, and are located at the position between the two roof panels (1); the steel-wood roof trusses (2) In a herringbone shape, the two ends of the steel-wood roof truss (2) are respectively fixedly connected with the gable (14) on the corresponding side; between adjacent steel-wood roof trusses (2) and between the steel-wood roof truss (2) and the corresponding side Roof purlins (15) are connected between the roof panels (1); steel supports (16) are supported between the ends of the steel-wood roof trusses (2) and the gables (14) on the corresponding side;

The steel-wood roof truss (2) includes a first upper chord (2.1), a suspension rod (2.2), a first vertical web rod (2.3), a first inclined web rod (2.4) and a first lower chord (2.5) ;

The first upper chord (2.1) includes a herringbone rod (2.1.1), a first outer cover wooden strip (2.1.2) and a first pair of tension bolts (2.1.3); the herringbone rod (2.1) .1) is made of profiled steel with a longitudinal section in the shape of a stem, including a first top plate (2.1.1a), a first horizontal web (2.1.1b) and a first vertical web (2.1.1c); There are two outsourcing wood strips (2.1.2), which are respectively attached to the lower sides of the first vertical web (2.1.1c), and the first outsourcing wood strip (2.1.2) is located on the first horizontal web (2.1.2). 2.1.1b); the first outer cover wood strip (2.1.2) and the herringbone rod (2.1.1) are connected by a first pair of tension bolts (2.1.3); the first outer cover wood The bottom edge of the strip (2.1.2) extends beyond the bottom edge of the chevron member (2.1.1);

The hanger rods (2.2) have a set, and are hung below the first upper chord rods (2.1) at parallel intervals along the horizontal direction; the hanger rods (2.2) include vertical wooden squares (2.2.1) and connecting steel plates (2.2.2) ); a slot (17) is provided on the upper part of the vertical wood (2.2.1); the connecting steel plate (2.2.2) is inserted in the slot (17), and the connecting steel plate (2.2.2) is The top is beyond the top of the vertical wooden square (2.2.1); the lower part of the connecting steel plate (2.2.2) is connected with the vertical wooden square (2.2.1) through the first concealed bolt (2.2.3); the connecting steel plate (2.2.1) 2.2.2) The part beyond the top of the vertical wooden square (2.2.1) is inserted between the lower parts of the two first outer wooden strips (2.1.2) on the first upper chord (2.1), and is connected with the herringbone rod (2.1 .1) Welded connection;

The first vertical web bar (2.3) has a set, which is connected to the lower part of the first upper chord bar (2.1) along the horizontal parallel interval; the first vertical web bar (2.3) includes a first wooden splint (2.3.1) and The first inner steel plate (2.3.2); the first wooden plywood (2.3.1) is clamped on both sides of the first inner steel plate (2.3.2) and is fixedly connected to the first inner steel plate (2.3.2) ; The top of the first inner steel plate (2.3.2) exceeds the top of the first wooden plywood (2.3.1), and the excess part is inserted into the two first outer wooden strips (2.1.2) on the first upper chord (2.1). ) and welded with the herringbone rod (2.1.1);

The first oblique web rod (2.4) is connected to the upper part of the first vertical web rod (2.3), and one is arranged on the front and rear sides of each first vertical web rod (2.3); the first oblique web rod (2.4) The first upper chord (2.1) is inclined along the gradient direction of the corresponding side of the first upper chord rod (2.1), and the horizontally adjacent first inclined web rods (2.4) are arranged at intervals; the first inclined web rods (2.4) are made of wood made, and the corresponding first inclined web rods (2.4) on the front and rear sides are connected with the first vertical web rods (2.3) through the first upper tie bolts (2.6);

The first lower chord (2.5) is connected to the lower part of the first vertical web rod (2.3), and one is arranged on the front and rear sides of each first vertical web rod (2.3); the first lower chord (2.5) The first upper chord (2.1) is inclined along the slope direction of the corresponding side of the first upper chord (2.1), and the horizontally adjacent first lower chords (2.5) are overlapped and connected; the first lower chord (2.5) is formed by It is made of wood, and the first lower chords (2.5) corresponding to the front and rear sides are connected with the first vertical web bar (2.3) through the first lower tie bolts (2.7); the lower end of the first lower chord (2.5) A first wood panel edge (2.5.1) is provided; the first wood panel edge (2.5.1) is L-shaped and arranged on the end face and the bottom surface of the first lower chord (2.5);

There are two groups of the second eaves galleries (4), which are respectively arranged on both sides of the steel-wood roof trusses (2), and the inner ends of the second eaves galleries (4) are connected with the outer sides of the gables (14); The top surface of the second eaves galleries (4) and the top surface of the steel-wood roof trusses (2) are smoothly transitioned; the second eaves galleries purlins (18) are connected between the adjacent second eaves galleries (4); The lower thermal insulation layer (5) and the concrete layer (6) are sequentially laid on top of the roof panel (1) from bottom to top, and the top surface of the concrete layer (6) is flush with the top surface of the steel-wood roof truss (2). A diagonal brace (19) is provided between the second eaves gallery frame (4) and the gable (14) on the corresponding side;

The cement pressure plate (7), the waterproof layer (8), the upper thermal insulation layer (9) and the protective plate (10) are sequentially covered from bottom to top on the steel-wood roof truss (2), the concrete layer (6), the first The tops of the eaves galleries (3) and the second eaves galleries (4); the water-slung strips (11) are arranged above the protective panels (10) at parallel intervals in the longitudinal direction; the tile-hanging strips (12) are inclined along the roof surface The direction intervals are connected to the top of the downstream strip (11). There are multiple groups, arranged along the inclined direction of the roof, and the lower part of the upper group of lower blue bricks (13.1) is crimped to the upper part of the lower group of lower blue bricks (13.1); The bottom of the brick (13.2) is provided with a supporting plate (13.3); the upper end of the supporting plate (13.3) is provided with a hook (13.3.1), and the hook (13.3.1) is hung on the corresponding shingle strip (12); the lower end of the supporting plate (13.3) is provided with a baffle (13.3.2), and the baffle (13.3.2) is blocked on the lower end surface of the upper layer of blue bricks (13.2); the The supporting plate (13.3) is connected with the shingle strip (12) through the first fastener (13.4); the lower layer of blue bricks (13.1) and the supporting plate (13.3) are connected by the second fastener (13.5) ; There are multiple groups of the upper layer blue bricks (13.2), which are laid corresponding to the lower layer blue bricks (13.1), and the upper group of lower layer blue bricks (13.1) is spliced with the lower group of upper layer blue bricks (13.2) connect;

A drainage ditch (20) is provided on the outer sides of the first eaves galleries (3) and the second eaves galleries (4) along the longitudinal length;

A cover plate (37) is installed at the roof ridge and above the blue brick surface layer (13); the two sides of the cover plate (37) are connected with the upper layer blue bricks (13.2) on both sides of the roof ridge.

2. The antique blue brick roofing system for a landscape house according to claim 1, characterized in that: in the roof panel (1), holes (21) are arranged at intervals along the long axis of the vertical section of the roof panel (1). A first embedded part (22) is embedded at the top of the roof panel (1) at intervals; the longitudinal section of the first embedded part (22) is in an inverted T shape, and the horizontal side of the first embedded part (22) is embedded in the In the roof panel (1), the upper part of the vertical side of the first embedded part (22) is inserted into the lower thermal insulation layer (5).

3. The antique blue-brick roofing system for a landscape house according to claim 1, characterized in that: a second embedded part is embedded on the outer surface of the gable (14) at a position corresponding to the first eaves galleries (3). (23); the second embedded part (23) includes a second embedded plate (23.1) and a second anchoring rib (23.2); the second embedded plate (23.1) is in an inverted L shape and is attached to the gable (23.1); 14) and the top of the gable (14); the second anchoring rib (23.2) is embedded in the gable (14), and the end of the second anchoring rib (23.2) is connected to the second embedded plate (23.1) connect.

4. The antique blue-brick roofing system for a landscape house according to claim 3, characterized in that: the first eaves galleries (3) are made of I-beams, and the inner end of the first eaves galleries (3) It is welded and connected with the second embedded part (23), and a first gap (24) is opened at the lower part of the outer end of the first eaves galleries (3); the outer ends of the first eaves galleries (3) are located in the first gap. A first eaves panel (25) is arranged at (24); a first sealing plate (26) is arranged on the upper part of the outer end of the first eaves gallery frame (3).

5. The antique blue-brick roofing system for a landscape house according to claim 1, characterized in that: the outer ends of the first eaves galleries (3) and the second eaves galleries (4) are located in the drainage ditch (20) A longitudinal support rod (27) is provided throughout the inner side of the drain; the drainage ditch (20) is detachably connected with the longitudinal support rod (27).

6. The antique blue-brick roofing system for a landscape house according to claim 1, characterized in that: a third embedded part (28) is embedded on the gable (14) at a position corresponding to the second eaves galleries (4). ; The third embedded part (28) includes a third embedded plate (28.1) and a third anchoring rib (28.2); the third embedded plate (28.1) includes an inner panel (28.1.1), an outer panel (28.1.1) 28.1.2) and top panel (28.1.3); the inner panel (28.1.1) is attached to the inner side of the gable (14), and the outer panel (28.1.2) is attached to the outside of the gable (14). On the side, the top panel (28.1.3) is attached to the top of the gable (14); the third anchoring rib (28.2) is pulled between the inner panel (28.1.1) and the outer panel (28.1.2); The inner end of the second eaves truss (4) is connected with the outer panel (28.1.2) of the third embedded part (28); the two ends of the steel-wood roof truss (2) are respectively connected with the third The inner panel (28.1.1) of the embedded part (28) is welded by welding.

7. The antique blue brick roofing system for a landscape house according to claim 1, characterized in that: the second eaves galleries (4) comprise a second upper chord (4.1), a second vertical web (4.2), The second inclined web bar (4.3) and the second lower chord (4.4); the second upper chord (4.1) is arranged corresponding to the first upper chord (2.1), and includes an intermediate section steel bar (4.1.1) and a second upper chord (4.1.1) Two outsourcing wood strips (4.1.2); the longitudinal section of the intermediate steel member (4.1.1) is in the shape of a stem, including a second top plate (4.1.1a), a second horizontal web (4.1.1b) and The second vertical web (4.1.1c); there are two second outsourcing wood strips (4.1.2), which are respectively attached to both sides of the lower part of the second vertical web (4.1.1c), and the second outsourcing The wood strips (4.1.2) are located below the second horizontal web (4.1.1b); the second outsourcing wood strips (4.1.2) and the intermediate steel bars (4.1.1) are pulled through a second pair Bolts (4.1.3) are connected; the bottom edge of the second outsourcing wood strip (4.1.2) is beyond the bottom edge of the herringbone rod (2.1.1); the lower part of the outer end of the second upper chord (4.1) A second gap (29) is provided; the outer end of the second upper chord (4.1) is provided with a second eaves board (30) at the second gap (29); the second eaves galleries (4) ) is provided with a second sealing plate (31) on the upper part of the outer end;

The second vertical web bar (4.2) has a set, which is connected to the lower side of the second upper chord bar (4.1) in parallel and at intervals along the transverse direction; the second vertical web bar (4.2) includes a second wooden splint (4.2.1) and The second inner steel plate (4.2.2); the second wooden plywood (4.2.1) is clamped on both sides of the second inner steel plate (4.2.2) and is fixedly connected with the second inner steel plate (4.2.2) ; The top of the second inner steel plate (4.2.2) protrudes beyond the top of the second wooden plywood (4.2.1), and the excess part is inserted into the second top chord (4.1) on the two second outsourcing wooden strips (4.1.2 ) between the lower parts of and welded to the intermediate steel member (4.1.1);

The second oblique web rod (4.3) is connected to the upper part of the second vertical web rod (4.2), and two are arranged on the front and rear sides of each second vertical web rod (4.2). The rods (4.3) are inclined along the gradient direction of the corresponding side of the second upper chord rod (4.1), and the second diagonal web rods (4.3) adjacent to each other are arranged at intervals; the second diagonal web rods (4.3) are formed by It is made of wood, and the corresponding second diagonal web bars (4.3) on the front and rear sides are connected with the second vertical web bars (4.2) through the second upper tie bolts (4.5);

The second lower chord (4.4) is connected to the lower part of the second vertical web rod (4.2), and one is arranged on the front and rear sides of each second vertical web rod (4.2); the second lower chord (4.4) ) is inclined along the slope direction of the corresponding side of the second upper chord (4.1), and the second lower chords (4.4) adjacent to each other are lapped and connected; the second lower chord (4.4) is made of wood, And the second lower chords (4.4) corresponding to the front and rear sides are connected with the second vertical web bar (4.2) through the second lower tie bolts (4.6); the lower end of the second lower chord (4.4) is provided with a second wood edge sealing (4.4.1); the second wood panel edge (4.4.1) is L-shaped and arranged on the end face and the bottom face of the second lower chord (4.4).

8. The antique blue brick roofing system for a landscape house according to claim 1, characterized in that: the first upper chord (2.1) of the steel-wood roof truss (2) is located on the first horizontal web (2.1.1b) A first purlin connecting plate (32) is arranged above the roof purlin; the first purlin connecting plate (32) is clamped on both sides of the end of the roof purlin (15), and is connected to the roof purlin (15) through the first connecting bolt ( 34) Connect.

9. The antique blue-brick roofing system for a landscape house according to claim 7, characterized in that: the front and rear sides of the first eaves galleries (3) are set at the connection positions corresponding to the first eaves galleries purlins (35). There is a first purlin connecting plate (32); the first purlin connecting plate (32) is clamped on both sides of the end of the first eaves gallery purlin (35), and passes through the first eaves gallery purlin (35). connecting bolts (34) to connect;

A second purlin connecting plate (33) is provided on the front and rear sides of the second upper chord (4.1) and above the second horizontal web (4.1.1b); the second purlin connecting plate (33) clamps It is held on both sides of the end of the second eaves gallery purlin (18), and is connected with the second eaves gallery purlin (18) through second connecting bolts (36).

10. a construction method of the landscape house antique blue brick roof system described in any one of claim 1-9, is characterized in that, comprises the steps as follows:

Step 1: carry out the construction of the roof panel (1); the roof panel (1) is made of concrete;

Step 2: Carry out the construction of the steel-wood roof truss (2); arrange a group of steel-wood roof trusses (2) between the gables (14) on both sides along the longitudinal interval, and at the position between the two roof panels (1). The two ends of the steel-wood roof truss (2) are respectively fixedly connected with the gable (14) on the corresponding side; (1) Roof purlins (15) are connected between them; a steel support (16) is supported between the end of the steel-wood roof truss (2) and the gable (14) on the corresponding side;

Step 3: Construction of the thermal insulation and waterproof layer: The lower thermal insulation layer (5), the concrete layer (6), the cement pressure plate (7), the waterproof layer (8), the upper thermal insulation layer (9) and the protective plate (10) are sequentially constructed. construction;

Step 4: Construction of the roof surface layer: construct the downstream strip (11), construct the hanging tile (12) on the top of the downstream strip (11), and then install the lower layer of blue bricks (13.1) and Upper blue bricks (13.2).