CN211817148U - Connecting structure of ultra-low energy consumption CLT building wall and foundation - Google Patents

Abstract

The utility model provides an ultra-low energy consumption CLT building wall and ground connection structure relates to building technical field, has solved among the prior art CLT wallboard and ground junction and has very easily been corroded by damp and hot steam infiltration, and easily takes place the cold bridge phenomenon, causes the extravagant technical problem of the energy. The connecting structure comprises a vertically arranged wall body and a horizontally arranged foundation, wherein the wall body comprises a CLT bearing plate, a waterproof heat-insulating layer and an inner heat-insulating layer, the waterproof heat-insulating layer and the inner heat-insulating layer are respectively arranged on the outer side and the inner side of the CLT bearing plate, and the CLT bearing plate is a solid wood plate; the foundation comprises a sound insulation supporting assembly, a waterproof and compression-resistant heat preservation layer, a damp-proof layer and a foundation layer which are sequentially arranged from top to bottom; the waterproof anti-compression heat preservation layer is connected with the inner side heat preservation layer, the foundation layer is fixedly connected with the CLT bearing plate, the end part of the foundation layer is provided with a yielding groove for the waterproof heat preservation layer to vertically extend downwards, and the lower end of the waterproof heat preservation layer is located below the ground outside the wall body. The utility model is used for make wall body and ground junction more energy-conserving heat preservation.

Description

Connecting structure of ultra-low energy consumption CLT building wall and foundation

Technical Field

The utility model belongs to the technical field of the building technology and specifically relates to a ultralow energy consumption CLT building wall and ground connection structure is related to.

Background

CLT (Cross Laminated Timber) is a novel wood building material, which is a solid wood board synthesized by adopting wood square orthogonal stacking glue, and the area and the thickness of the solid wood board can be customized. The large CLT can be directly used as an outer wall, a floor slab and the like of a building after being cut, and the construction efficiency of the project can be greatly improved. The CLT wood structure is a novel structure which is started to rise in developed countries in the world in recent years, the CLT is invented to replace concrete, and the CLT has the advantages of environmental protection (low carbon/fixed carbon), high weight ratio, shock resistance elasticity, assembly performance, recyclability and sustainability which are all superior to those of the concrete.

Chinese patent with application number 201920341853.X discloses a connection structure of light wood core CLT wallboard and ground, including CLT wallboard, ground and the pre-buried connecting plate of first metal of fixing on the ground, its characterized in that: the bottom of the CLT wallboard is provided with a first mounting groove, two inner side walls of the first mounting groove are respectively provided with a first metal pre-mounting plate and a second metal pre-mounting plate, the bottom ends of the first metal pre-mounting plate and the second metal pre-mounting plate are flush with the bottom end of the CLT wallboard, two sides of the CLT wallboard are respectively connected with the first metal pre-mounting plate and the second metal pre-mounting plate through a plurality of first bolts, a first metal pre-embedded connecting plate is inserted between the first metal pre-mounting plate and the second metal pre-mounting plate, the top of the first metal pre-embedded connecting plate is provided with two through grooves facing the first metal pre-mounting plate, a first fixing plate and a second fixing plate are respectively slidably arranged in the two through grooves, the top of the first metal pre-mounting plate is provided with a first abdicating groove matched with the first fixing plate, the top of the second metal pre-mounting plate is provided with a second abdicati, the both sides of CLT wallboard all are provided with the second bolt, and one of them second bolt is used for pushing into the first groove of stepping down with first fixed plate top, and another second bolt is used for pushing into the second groove of stepping down with the second fixed plate top, and the CLT wallboard is connected with first metal pre-mounting panel, the pre-buried connecting plate of first metal and second metal pre-mounting panel through a plurality of third bolts. However, the joint of the CLT wallboard and the foundation is easy to be corroded by the penetration of damp and hot water vapor, and a cold bridge phenomenon is easy to occur, so that the energy is wasted due to the transmission of heat energy inside and outside the wallboard.

Therefore, how to solve the technical problems that the joint of the CLT wallboard and the foundation in the prior art is easily corroded by penetration of damp and hot water vapor, and cold bridge phenomenon is easy to occur, which causes energy waste, becomes an important technical problem to be solved by the personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultra-low energy consumption CLT building wall and ground connection structure, solved among the prior art CLT wallboard and ground connected node and very easily corroded by damp and hot steam infiltration, and the cold bridge phenomenon easily takes place, causes the extravagant technical problem of the energy. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an ultra-low energy consumption CLT building wall and ground connection structure, include: the wall body is vertically arranged and comprises a CLT bearing plate, a waterproof heat-insulating layer and an inner heat-insulating layer, wherein the waterproof heat-insulating layer and the inner heat-insulating layer are respectively arranged on the outer side and the inner side of the CLT bearing plate; the horizontally arranged foundation comprises a sound insulation support assembly, a waterproof and compression-resistant heat preservation layer, a damp-proof layer and a foundation layer which are sequentially arranged from top to bottom; wherein, waterproof resistance to compression heat preservation with inboard heat preservation is connected, the foundation bed with CLT bearing plate fixed connection, the tip of foundation bed is provided with the confession the groove of stepping down that the vertical downwardly extending of waterproof heat preservation goes into, the lower extreme of waterproof heat preservation is located the below ground in the wall body outside.

Preferably, the wall body comprises an inner decorative surface arranged on the inner side of the inner side heat insulation layer, and a wall-mounted temperature adjusting device for adjusting the temperature by using fluid is arranged between the inner decorative surface and the inner side heat insulation layer.

Preferably, the inner side heat insulation layer comprises a plurality of wood keels fixedly connected with the CLT bearing plate and heat insulation materials filled between the wood keels.

Preferably, an isolation strip for acoustic decoupling is arranged between the wood keel and the CLT bearing plate.

Preferably, the CLT bearing plate is provided with a corner plate and a first fastener for connecting the corner plate and the CLT bearing plate and the corner plate and the foundation layer, and the corner plate is provided with a first sealing element at one side connected with the CLT bearing plate and the foundation layer.

Preferably, the sound insulation support assembly comprises a floor layer, a first protective layer, a sound insulation layer, a light mortar layer and a second protective layer which are sequentially stacked from top to bottom.

Preferably, a waterproof membrane is arranged between the waterproof heat-insulating layer and the CLT bearing plate in a stacking mode, a painting coating layer is arranged on the outer side of the waterproof heat-insulating layer, and a cement cover surface is arranged on the lower portion of the painting coating layer.

Preferably, the outer side of the wall body is provided with a plant shed for plants to climb, a support frame for supporting the plant shed from the wall body is arranged between the plant shed and the wall body, and the support frame is fixedly connected with the CLT bearing plate through a second fastener.

Preferably, the ground department of plant canopy below is provided with the soil pond that is used for supplying vegetation, soil pond lower part and circumference are provided with anti root layer, soil pond side extends to wall body lower part position department, the wall body lower part with soil pond hookup location department is provided with the flashing board.

Preferably, the CLT bearing plate includes a multi-component bearing plate, the end portions of the sub-bearing plates are provided with connecting grooves, the same connecting plate for covering the end portions of the two adjacent sub-bearing plates is arranged in the two connecting grooves connected to each other, the connecting plate is connected to the two sub-bearing plates through a third fastener, and a second sealing member is arranged at a seam between the connecting plate and the sub-bearing plates.

The utility model provides an ultra-low energy consumption CLT building wall and foundation connection structure, including the wall body of vertical setting and the ground of horizontal setting, the wall body includes the CLT bearing plate, connect in the waterproof heat preservation of the CLT bearing plate outside and connect in the inboard heat preservation of CLT bearing plate inboard, the ground includes the sound insulation supporting component that sets gradually from top to bottom, waterproof resistance to compression heat preservation, dampproof course and basic unit, waterproof resistance to compression heat preservation is connected with inboard heat preservation, the basic unit is connected with the CLT bearing plate fixedly, in order to constitute the connection skeleton of wall body and ground, the position department that the basic unit lies in the lower part of waterproof heat preservation is provided with the groove of stepping down, for the vertical downward stretching of waterproof heat preservation, and the lower extreme of waterproof heat preservation stretches into the subaerial outside of wall body, so set up, the waterproof heat preservation stretches into the basic unit downwards, can avoid CLT bearing plate and basic unit's junction and CLT bearing plate and basic unit's side, forming a first insulating layer; the waterproof and pressure-resistant heat-insulating layer is connected with the inner side heat-insulating layer, so that heat exchange between the CLT bearing plate and the base layer and an indoor space is avoided, and a second heat-insulating layer is formed; CLT bearing plate is solid wood board, it itself has certain thermal-insulated thermal insulation performance, form the third heat preservation, interact between each level, form a plurality of heat preservation protective screen of wall body and ground junction jointly, make this position node have the excellent thermal insulation performance, wet hot steam infiltration erosion and cold bridge phenomenon have greatly been avoided, make indoor and external heat be difficult for exchanging, the loss of the energy has been reduced, CLT wallboard and ground junction node are very easily corroded by wet hot steam infiltration among the prior art has been solved, and cold bridge phenomenon easily takes place, cause the extravagant technical problem of energy.

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 view of a connection node structure of a wall and a foundation provided by an embodiment of the present invention;

FIG. 2 is an enlarged view of detail A of FIG. 1;

fig. 3 is a top view of a wall according to an embodiment of the present invention;

fig. 4 is a schematic connection diagram of adjacent sub-bearing plates according to an embodiment of the present invention.

FIG. 1-CLT bearing plate; 101-dividing a bearing plate; 102-a connecting slot; 103-connecting plate; 104-a third fastener; 105-a second seal; 2-waterproof heat-insulating layer; 3-inner side heat insulation layer; 301-wood keel; 302-thermal insulation material; 303-insulating tape; 4-waterproof compression-resistant heat-insulating layer; 5-a moisture barrier; 6-a base layer; 601-bottom floor slab; 602-lean concrete layer; 7-a yielding groove; 8-ground; 9-inner facing; 10-wall-mounted temperature regulating devices; 11-corner panels; 12-a first fastener; 13-a first seal; 14-a floor layer; 15-a first protective layer; 16-a sound-insulating layer; 17-a light mortar layer; 18-a second protective layer; 19-a water-resistant membrane; 20-painting the paint layer; 21-cement overlay; 22-plant shed; 23-a support frame; 24-a second fastener; 25-a soil pool; 26-an anti-root layer; 27-flashing board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An object of the utility model is to provide an ultra-low energy consumption CLT building wall and ground connection structure, solved among the prior art CLT wallboard and ground connected node and very easily corroded by damp and hot steam infiltration, and the cold bridge phenomenon easily takes place, causes the extravagant technical problem of the energy.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Referring to fig. 1-2, the utility model provides an ultra-low energy consumption CLT building wall and ground connection structure, including the wall body of vertical setting and the ground of horizontal setting, specifically, the wall body includes CLT bearing plate 1, connects in the waterproof heat preservation 2 in the 1 outside of CLT bearing plate and connects in the inboard heat preservation 3 of CLT bearing plate 1 inboard, and the material of waterproof heat preservation 2 can be but not limited to for aerogel felt, heat preservation rock wool etc. for play the waterproof effect that keeps warm to the 1 outside of CLT bearing plate. The material of the inner insulating layer 3 can be, but is not limited to, a fireproof insulating material, insulating rock wool and the like. The ground is including the supporting component that gives sound insulation, waterproof resistance to compression heat preservation 4, dampproof course 5 and the foundation bed 6 that set gradually from top to bottom, gives sound insulation promptly and sets up in the indoor one side that is close to of ground, plays the supporting role to indoor article to play the effect of blockking to external ground 8 and the solid transaudient of underground, play the guard action to waterproof resistance to compression heat preservation 4 of lower part simultaneously. The material of the waterproof and pressure-resistant insulating layer 4 can be, but is not limited to, foam glass insulation boards or insulating rock wool. The material of the moisture barrier 5 may be, but is not limited to, a bituminous membrane to prevent the moisture in the ground from rising into the ground or the room. The foundation layer 6 comprises a bottom floor 601 and a lean concrete layer 602 stacked on the lower portion of the bottom floor 601, and plays a role in supporting and stabilizing the upper wall, the sound insulation support component and the waterproof and pressure-resistant heat insulation layer 4. The waterproof and pressure-resistant heat-insulating layer 4 is connected with the inner side heat-insulating layer 3, and the connection of the waterproof and pressure-resistant heat-insulating layer and the inner side heat-insulating layer can be only contact connection or fastening connection by using a fastening piece. The foundation layer 6 is fixedly connected with the CLT bearing plate 1 to form a connecting framework of the wall body and the foundation, bear main external acting force and play a supporting role on other layers. The base layer 6 is provided with a abdicating groove 7 at the position below the waterproof heat-insulating layer 2 for the waterproof heat-insulating layer 2 to vertically extend downwards, the lower end of the waterproof heat-insulating layer 2 extends to the position below the ground 8 outside the wall body, and the lower end of the waterproof heat-insulating layer 2 extends to the position below the ground by at least 40cm, so that the waterproof heat-insulating layer 2 extends downwards into the base layer 6, the connection position of the CLT bearing plate 1 and the base layer 6 and the side surfaces of the CLT bearing plate 1 and the base layer 6 can be prevented from exchanging heat with the outside, and a first heat-insulating layer is formed; the waterproof and pressure-resistant heat-insulating layer 4 is connected with the inner side heat-insulating layer 3, so that heat exchange between the CLT bearing plate 1 and the base layer 6 and an indoor space is avoided, and a second heat-insulating layer is formed; the CLT bearing plate 1 is a rectangular, straight and plane plate-shaped factory prefabricated engineering solid wood product formed by pressing at least three layers of solid wood sawn materials or structural composite plates, and is characterized in that the CLT bearing plate 1 is a rectangular, straight and plane plate-shaped factory prefabricated engineering solid wood product formed by pressing structural adhesives, has certain heat insulation performance, forms a third heat insulation layer, interacts among all levels, and jointly forms a plurality of heat insulation barriers at the joint of a wall body and a foundation, so that the joint at the position has excellent heat insulation performance, the phenomena of damp-hot water vapor infiltration and erosion and cold bridge are greatly avoided, indoor and external heat is not easy to exchange, the energy loss is reduced, and the technical problems that in the prior art, the CLT wallboard and the joint of the foundation are extremely easy to erode by the damp-hot water vapor infiltration, the cold bridge phenomenon is easy to occur, and.

It should be noted that the connection structure mainly utilizes the characteristic of high strength-to-weight ratio of the CLT bearing plate 1, and the connection structure is used as a main bearing framework, so that the connection structure has the dual advantages of high bearing and high heat insulation, and can be applied to high-rise buildings.

As the embodiment of the utility model provides an optional implementation mode, the wall body includes interior veneer 9 and wall-hanging temperature regulation apparatus 10, and interior veneer 9 is connected in the indoor one side that is close to of inboard heat preservation 3, and wall-hanging temperature regulation apparatus 10 is installed between interior veneer 9 and inboard heat preservation 3, and interior veneer 9 plays the guard action to wall-hanging temperature regulation apparatus 10, and interior veneer 9 can choose different materials for use according to the resident's needs, and the material of interior veneer 9 can but not be limited to for the fire prevention gypsum board. Wall-hanging temperature regulation apparatus 10 includes plate body and pipe fitting, and the pipe fitting is inside snakelike spiral installation and plate body, can let in the fluid that has certain temperature according to the resident's needs in the pipe fitting, absorbs through radiation heating mode or fluid flow and takes away indoor heat with the refrigerated mode, carries out temperature control, and for the air conditioner promptly, wall-hanging temperature regulation apparatus 10 adopts the poor radiation mode of low temperature, and its efficiency is higher than the air convection of air conditioner, has reduced the energy loss, and its radiation heat transfer form does not have the uncomfortable that the air convection that other heat transfer forms arouse caused and feels. The more specific structure of the wall-mounted thermostat 10 can refer to a ceiling heating and cooling system or a floor heating system in the prior art.

Further, referring to fig. 1-3, the inside heat preservation layer 3 includes a plurality of wood keels 301 and insulation material 302, a plurality of wood keels 301 accessible hardware fastener and CLT bearing plate 1 fixed connection, a plurality of wood keels 301 can be along horizontal and vertical side by side setting to form the cavity, insulation material 302 fills in the cavity between wood keels 301, namely wood keel 301 is to its supporting role of insulation material 302, be convenient for insulation material 302 to lay by a large scale, simultaneously, cavity between wood keel 301 and insulation material 302 still can supply the pipeline to pass through, avoid destroying CLT bearing plate 1 or interior trim 9.

Further, an isolation belt 303 is installed between the wood keel 301 and the CLT bearing plate 1 for acoustic decoupling. The isolation belt 303 is a strip-shaped plate structure, and the material thereof may be rubber.

As the embodiment of the utility model provides an optional implementation mode, scute 11 and a plurality of first fastener 12 are installed to CLT bearing plate 1 and basic layer 6 junction, first fastener 12 runs through behind the hem of scute 11 with CLT bearing plate 1 fixed connection, another first fastener 12 runs through behind another hem of scute 11 with basic layer 6 fixed connection, first fastener 12 is nail column structure, first sealing member 13 is installed to one side that scute 11 is connected with CLT bearing plate 1 and basic layer 6, be used for playing the sealing effect to the seam crossing of CLT bearing plate 1 and basic layer 6, between scute 11 and the CLT bearing plate 1 and between scute 11 and basic layer 6. The first sealing element 13 may be, but not limited to, a sealing tape, and each layer of the wall may be connected by using hardware connecting members commonly used in buildings, such as double-headed nails, smooth round nails, or threaded nails.

As the embodiment of the utility model provides an optional implementation mode, sound insulation supporting component is including the floor layer 14, first protective layer 15, puigging 16, light mortar layer 17 and the second protective layer 18 that from top to bottom stack gradually the setting, and first protective layer 15 plays bearing and guard action to floor layer 14, and puigging 16 plays the wall effect to the solid sound conduction from external ground 8 and the ground bottom, and puigging 16 can be but not limited to for acoustic celotex board, deadening felt or ground sound insulation shock pad etc.. The light mortar layer 17 has good crack resistance and enough rigidity, and plays a supporting role for the sound insulation layer 16 and the floor layer 14 on the upper part, the second protective layer 18 plays an isolating and protecting role for the connection surface of the light mortar layer 17 and the waterproof and pressure-resistant heat insulation layer 4, and the first protective layer 15 and the second protective layer 18 can be protective layers commonly used in buildings in the prior art, such as asphalt films and the like.

As the embodiment of the utility model provides an optional embodiment, range upon range of between waterproof resistance to compression heat preservation 4 and the CLT bearing plate 1 is provided with water proof membrane 19 for further strengthen the inside waterproof nature of wall body, avoid external steam to invade 1 layer department of CLT bearing plate. The waterproofing membrane 19 may be, but is not limited to, a cold-welded waterproofing membrane 19. The lower part of the waterproof membrane 19 can be overlapped with the moisture-proof layer 5 for playing the role of waterproof and moisture-proof protection on the lower edge of the CLT bearing plate 1. The outer side of the waterproof heat-insulating layer 2 is provided with a painting coating layer 20, and the painting coating layer 20 has good weather resistance, water resistance and mildew resistance, plays a role in protecting the inner side of the waterproof heat-insulating layer 2, and avoids the waterproof heat-insulating layer from being corroded by the external environment. The lower part of the painting coating layer 20 is provided with a cement cover 21, the cement cover 21 extends upwards to a position 40cm away from the upper part of the ground 8 from the position of the ground 8, and the cement cover has poor air permeability and good moisture-proof effect.

As the utility model discloses optional embodiment of embodiment, the vertical plant canopy 22 of installing in the wall body outside, install a plurality of support frames 23 between plant canopy 22 and the wall body, support frame 23 all is through second fastener 24 and 1 fixed connection of CLT bearing plate, support frame 23 all transversely sets up promptly, one end is passed through second fastener 24 and 1 fixed connection of CLT bearing plate, the other end and plant canopy 22 fixed connection, a plurality of support frames 23 prop up plant canopy 22 and leave and fix in the wall body outside, for supply the plant to climb up along plant canopy 22 and grow, the vegetation plays certain thermal-insulated and guard action to the wall body, it is more pleasing to the eye also to make the wall body outside simultaneously. Wherein, plant canopy 22 and support frame 23 all can be the metal material, and are more firm. It should be noted that the intermittent thermal bridge caused by the second fastening member 24 and the support bracket 23 may cause some local heat transfer, but most of the heat is blocked by the waterproof insulation layer 2.

Further, the ground 8 in the wall body outside is concrete slab, soil pond 25 has been seted up to 8 departments on ground of plant canopy 22 below, anti root layer 26 has all been laid to the lower part in soil pond 25 and circumference, anti root layer 26 can be but not limited to for root resistance waterproofing membrane, soil pond 25 side extends to and is close to wall body lower part position department, the flashing board 27 of metal material is installed to wall body lower part and soil pond 25 hookup location department, can wrap the corner, play water-proof effects.

Further, referring to fig. 4, the CLT bearing plate 1 includes a plurality of sub bearing plates 101, connecting grooves 102 are respectively formed on both side surfaces of an end portion of each sub bearing plate 101, the same connecting plate 103 is disposed in two connecting grooves 102 connected to each other, when two adjacent sub-bearing plates 101 are connected, the connecting plate 103 can cover the joint of the ends of the two adjacent sub-bearing plates 101, the connecting plate 103 is connected with the two sub-bearing plates 101 through the third fastening member 104, and a second sealing member 105 is disposed at the joint of the connecting plate 103 and the sub-bearing plate 101, the second sealing member 105 may be, but is not limited to, an airtight adhesive tape, wherein the first fastener 12, the second fastener 24 and the third fastener 104 are all special building connectors in the prior art, the CLT bearing plate 1 can be simply seen as a nail-shaped structure, and the internal connection part of the CLT bearing plate 1 is firmly connected and has good sealing and heat insulation performance.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an ultra-low energy consumption CLT building wall and ground connection structure which characterized in that includes:

the wall body is vertically arranged and comprises a CLT bearing plate (1), and a waterproof heat-insulating layer (2) and an inner heat-insulating layer (3) which are respectively arranged at the outer side and the inner side of the CLT bearing plate (1), wherein the CLT bearing plate (1) is a solid wood plate which is formed by gluing at least three layers of solid wood sawn materials or structural composite plate orthogonal assembly blanks;

the horizontally arranged foundation comprises a sound insulation support component, a waterproof and pressure-resistant heat preservation layer (4), a moisture-proof layer (5) and a foundation layer (6) which are sequentially arranged from top to bottom;

wherein, waterproof resistance to compression heat preservation (4) with inboard heat preservation (3) are connected, foundation bed (6) with CLT bearing plate (1) fixed connection, the tip of foundation bed (6) is provided with the confession groove (7) of stepping down that waterproof heat preservation (2) are vertical to be stretched into, the lower extreme of waterproof heat preservation (2) is located below ground (8) in the wall body outside.

2. The ultra-low energy consumption CLT building wall and foundation connection according to claim 1, characterized in that the wall comprises an inner facing (9) arranged inside the inner insulating layer (3), and a wall-mounted temperature regulating device (10) using a fluid for temperature regulation is arranged between the inner facing (9) and the inner insulating layer (3).

3. The ultra-low energy consumption CLT building wall and foundation connecting structure as claimed in claim 1, wherein said inner insulating layer (3) comprises a plurality of wood keels (301) fixedly connected with said CLT bearing plate (1) and insulating material (302) filled between said wood keels (301).

4. The ultra-low energy consumption CLT building wall and foundation connection structure according to claim 3, characterized in that an insulating strip (303) for acoustic decoupling is provided between the wood keel (301) and the CLT load-bearing plate (1).

5. The ultra-low energy consumption CLT building wall and foundation connection structure according to claim 1, characterized in that the CLT bearing plate (1) is connected with the foundation layer (6) by a corner plate (11) and a first fastening member (12) for connecting the corner plate (11) and the CLT bearing plate (1) and the corner plate (11) and the foundation layer (6), and a first sealing member (13) is arranged at one side of the corner plate (11) connected with the CLT bearing plate (1) and the foundation layer (6).

6. The ultra-low energy consumption CLT building wall and foundation connecting structure according to claim 1, wherein the sound insulation supporting component comprises a floor layer (14), a first protective layer (15), a sound insulation layer (16), a light mortar layer (17) and a second protective layer (18) which are sequentially stacked from top to bottom.

7. The ultra-low energy consumption CLT building wall and foundation connecting structure of claim 1, wherein a waterproof film (19) is stacked between the waterproof insulating layer (2) and the CLT bearing plate (1), a painting coating layer (20) is arranged on the outer side of the waterproof insulating layer (2), and a cement cover (21) is arranged on the lower portion of the painting coating layer (20).

8. The ultra-low energy consumption CLT building wall and foundation connection structure as claimed in claim 1, wherein a plant shed (22) for plant climbing is arranged outside the wall, a support frame (23) for supporting the plant shed (22) away from the wall is arranged between the plant shed (22) and the wall, and the support frame (23) is fixedly connected with the CLT bearing plate (1) through a second fastener (24).

9. The ultra-low energy consumption CLT building wall and foundation connecting structure according to claim 8, wherein a soil pool (25) for plant growth is arranged at the ground (8) below the plant shed (22), a root-resisting layer (26) is arranged at the lower part and the circumferential direction of the soil pool (25), the side surface of the soil pool (25) extends to the position of the lower part of the wall, and a flashing plate (27) is arranged at the connecting position of the lower part of the wall and the soil pool (25).

10. The ultra-low energy consumption CLT building wall and foundation connecting structure according to claim 1, wherein the CLT bearing plate (1) comprises a multi-component bearing plate (101), connecting grooves (102) are arranged at the ends of the sub bearing plates (101), a same connecting plate (103) for covering the ends of two adjacent sub bearing plates (101) is arranged in the two connected connecting grooves (102), the connecting plate (103) is connected with the two sub bearing plates (101) through a third fastener (104), and a second sealing element (105) is arranged at the joint of the connecting plate (103) and the sub bearing plates (101).

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