CN102995852A - Wall-body hanging plate and wall-body structure - Google Patents

Abstract

The invention discloses a wall-body hanging plate, comprising a hanging plate main body (20), wherein a groove (13a) is formed on the side surface of the hanging plate main body (20) in the thickness direction. After the side surface of the hanging plate main body is provided with the groove, when the wall-body hanging plate is installed, the procedure of grooving on site can be omitted, and the electricity pulling is not needed, so that the safety of site construction is improved. The invention also provides a wall body structure of the wall-body hanging plate.

Description

Wall-mounted panel and wall body structure

Technical field

The present invention relates to building field, particularly, relate to a kind of wall-mounted panel and the wall body structure that comprises this wall-mounted panel.

Background technology

Wall-mounted panel refers to be hung on the external surface of existing body of wall, thereby utilizes this wall-mounted panel to make traditional building structure have function energy-conservation, moisturizing.In addition, utilize wall-mounted panel to provide decorative effect for body of wall.Wall-mounted panel can direct construction be the part of body of wall in making up the body of wall process also.

At present, the mode by cladding installation arranges link plate or decorative panel at the body of wall of building usually.In the process of cladding installation, usually need to carry out scene fluting, perforate etc. at body of wall.Cut saw equipment and rig etc. and need to use when on-the-spot fluting, perforate, therefore need to draw electricity.Thereby so that there is potential safety hazard in site operation, especially when construction floor was higher, this potential safety hazard was more obvious.

Therefore, how wall-mounted panel is installed easily and is become the technical problem that this area needs to be resolved hurrily.

Summary of the invention

The purpose of this invention is to provide a kind of wall-mounted panel, the erection procedure of this wall-mounted panel is comparatively simple.In addition, the present invention also provides a kind of wall body structure that comprises described wall-mounted panel.

To achieve these goals, as one aspect of the present invention, provide a kind of wall-mounted panel, this wall-mounted panel comprises the link plate main body, wherein, is formed with groove on the side of this link plate body thickness direction.

Preferably, described groove is a plurality of, and these a plurality of groove types become on the upper surface and lower surface of this link plate main body along the length direction of described link plate main body.

Preferably, described link plate main body has and described a plurality of grooves a plurality of notch parts one to one, and these a plurality of notch parts are formed with on the upper surface and lower surface of described link plate main body, so that described groove is exposed to the outside by described notch part.

Preferably, this wall-mounted panel also comprises the link plate skeleton that is embedded in the described link plate main body.

Preferably, described link plate skeleton has interconnecting piece, and described groove is formed in the described interconnecting piece.

Preferably, described link plate skeleton comprises many cross binding beams and many longitudinal bracing beams that are fixedly connected with these many cross binding beams.

Preferably, described many cross binding beams and described many longitudinal bracing beams are connected to " well " font.

Preferably, described many longitudinal bracing beams are two, and described many cross binding beams are fixedly connected between described two longitudinal bracing beams, and described interconnecting piece is fixed on the outside of described longitudinal bracing beam.

Preferably, described link plate main body comprises surface layer and bottom, and this bottom is that mixture by will containing aggregate and the first cementing agent is through solidifying to form; Described the first cementing agent is the fireproof bonding agent.

Preferably, the thickness of described bottom is the 5-100 millimeter

Preferably, described fireproof bonding agent is selected from one or more in cement, silica gel, water glass, magnesium hydroxide, potassium silicate, aluminium matter ceramic powder, attapulgite clay, calcining magnesite and the phosphate-based cementing agent.

Preferably, described aggregate is selected from one or more in granular polystyrene, mineral wool, haydite, perlite, expanded vermiculite, glass bead, sand and the stone.

Preferably, described surface layer be mixture by will containing overlay film silica sand and the second cementing agent through solidifying to form, with respect to the overlay film silica sand of 100 weight portions, the content of described the second cementing agent is the 0.5-15 weight portion; The thickness of described surface layer is the 3-10 millimeter.

Preferably, described the second cementing agent is selected from one or more in phenolic resins, epoxy resin, polyurethane resin, water glass, cement, silica gel and the phosphate-based cementing agent.

Preferably, described groove is arranged in the described surface layer.

As another aspect of the present invention, a kind of wall body structure is provided, this wall body structure comprises:

At least two load-bearing pillars, these at least two load-bearing pillars are vertically set up on the ground at each interval;

With adjacent two interconnected connecting rods of load-bearing pillar;

A plurality of wall-mounted panels, these a plurality of wall-mounted panels lay respectively at inboard and the outside of described load-bearing pillar;

Wherein, described wall-mounted panel is above-mentioned wall-mounted panel provided by the present invention, and described wall body structure also comprises syndeton, and the part of described syndeton is inserted in the groove of described wall-mounted panel, and another part is fixed on the described connecting rod.

Preferably, the described surface layer of described wall-mounted panel is towards the outside of described body of wall.

Preferably, described syndeton comprises suspension member, this suspension member comprise base portion and with this base portion connecting portion connected vertically, described base portion inserts in the described groove of described wall-mounted panel, described connecting portion links to each other with described connecting rod.

Preferably, described base portion and the described connecting portion of described suspension member form the T font, and described base portion matches with the described groove of neighbouring any two described wall-mounted panels respectively.

Preferably, the part of the described connecting portion of described suspension member is positioned at two spaces that described notch part surrounds of two corresponding neighboring walls link plates.

Preferably, described syndeton also comprises the outer connector that links to each other with described connecting rod, and the connecting portion that is positioned at two suspension members of sustained height in described load-bearing pillar both sides links to each other by corresponding outer connector.

Preferably, described syndeton also comprises securing member, the middle part of described outer connector is formed with elongate slots, this elongate slots runs through this outer connector at the thickness direction of described outer connector, described securing member passes described elongate slots, and the connecting portion that is positioned at two suspension members of sustained height in described load-bearing pillar both sides is fixed on the corresponding outer connector by described securing member.

Preferably, between the described wall-mounted panel of described load-bearing pillar both sides, be filled with heat insulating material.

After the side of link plate main body arranges groove, when wall-mounted panel is installed, can save the operation of on-the-spot fluting, need not to draw electricity, improved the safety of site operation.

Other features and advantages of the present invention will partly be described in detail in the specific embodiment subsequently.

Description of drawings

Accompanying drawing is to be used to provide a further understanding of the present invention, and consists of the part of manual, is used from explanation the present invention with the following specific embodiment one, but is not construed as limiting the invention.In the accompanying drawings:

During Fig. 1 according to the wall-mounted panel schematic perspective view of one embodiment of the present invention;

Fig. 2 is the wall-mounted panel shown in Fig. 1 and lateral view schematic diagram after syndeton links to each other;

The schematic perspective view of the installation site of the interconnecting piece of syndeton and suspension member shown in Fig. 3 Fig. 2;

Fig. 4 is the perspective view that figure is used for the link plate skeleton of wall-mounted panel of the present invention; With

Fig. 5 is the schematic diagram according to the body of wall of one embodiment of the present invention, has the wall-mounted panel shown in Fig. 1 in this body of wall.

Description of reference numerals

10 link plate skeletons, 11 cross binding beams

12 longitudinal bracing beams, 13 interconnecting pieces

20 link plate main bodys, 21 notch parts

30 suspension members, 40 outer connectors

41 elongate slots, 50 load-bearing pillars

60 connecting rods, 70 wall-mounted panels

80 syndeton 13a grooves

30a base portion 30b connecting portion

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present invention is elaborated.Should be understood that the specific embodiment described herein only is used for description and interpretation the present invention, is not limited to the present invention.

In the present invention, do not do in the situation of opposite explanation, the length direction of wall-mounted panel refers to the X-direction among Fig. 1, and the thickness direction of wall-mounted panel refers to the Y direction among Fig. 1, and short transverse refers to the Z-direction among Fig. 1." on " refer to that along the positive direction of Z axis among Fig. 1, D score refers to along the negative direction of Z axis among Fig. 1.

As shown in fig. 1, the invention provides a kind of wall-mounted panel, this wall-mounted panel comprises link plate main body 20, wherein, is formed with groove 13a on the side of these link plate main body 20 thickness directions.

When the precast wall body link plate, can be in advance on the thickness direction of the link plate main body 20 of wall-mounted panel prefabricated groove 13a, thereby by wall-mounted panel assembling body of wall of the present invention the time, no longer need on-the-spot fluting, utilize groove 13a to be fixed wall-mounted panel.For example, in the body of wall shown in Fig. 5, by suspension member being inserted among the groove 13a, be connected with connecting rod between the load-bearing pillar 50 through wall-mounted panel.

For wall-mounted panel is firmly fixed more, preferably, groove 13a can be for a plurality of, and these a plurality of groove 13a are formed on the upper surface and lower surface of link plate main body 20, as shown in fig. 1 along the length direction of link plate main body 20.Certainly, the set-up mode of groove 13a is not limited to the mode shown in Fig. 1, for example, can also be arranged on along the short transverse (Z-direction) of wall-mounted panel on the side of thickness direction of link plate main body 20.Specifically can determine according to the installation situation at scene the position of offering of groove 13a.

Link plate main body 20 can be made by any suitable material, and for example, link plate main body 20 can be formed by rear curing of cementing agent bonding by aggregate.

As shown in Fig. 2 and Fig. 5, when wall-mounted panel is assembled into body of wall, need to cooperate with groove 13a by suspension member, and be fixed on the connecting rod, in order to reduce the slit between the adjacent wall-mounted panel, make the wall body structure of acquisition closely knit, preferably, link plate main body 20 has a plurality of notch parts 21 one to one with a plurality of groove 13a, and these a plurality of notch parts 21 are formed with on the upper surface and lower surface of link plate main body 20, so that groove 13a is exposed to the outside by notch part 21.At least a portion of suspension member can not have influence on the cooperation between the neighboring walls link plate in notch part 21.In Fig. 1, the length that notch part 21 extends along Y-direction both can equal the length that link plate main body 20 is extended along Y-direction, also can be less than the length of link plate main body 20 along the Y-direction extension.Preferably, the length that notch part 21 extends along Y-direction less than link plate main body 20 along the length that Y-direction is extended, thus so that after wall-mounted panel was assembled into wall body structure, the external surface of this wall body structure formed a complete integral body, makes wall body structure more attractive in appearance.And when wall-mounted panel assembled according to the wall body structure shown in Fig. 5, the heat insulating material that can also prevent from being arranged between the wall-mounted panel of load-bearing pillar 50 both sides overflowed.

In order to increase the intensity of wall-mounted panel, preferably, wall-mounted panel of the present invention can also comprise the link plate skeleton 10 that is embedded in the described link plate main body 20.When the precast wall body link plate, can first link plate skeleton 10 be embedded in the material of making link plate main body 20, then obtain wall-mounted panel by solidifying.

Link plate skeleton 10 can be made by steel, also can be made by lighter alloy materials such as aluminium alloyss, as long as can be in link plate main body 20 inside, the intensity of wall-mounted panel is played humidification get final product.

As shown in Figure 3, in order to strengthen the bond strength between suspension member and the groove 13a, preferably, link plate skeleton 10 can have interconnecting piece 13, and groove 13a is formed in the described interconnecting piece 13.Compare with link plate main body 20, interconnecting piece 13 can have higher intensity, is enough to bear the weight of link plate main body 20, is difficult for being damaged by the suspension member that links to each other with this interconnecting piece 13.As shown in Fig. 3 and Fig. 4, interconnecting piece can be middle cuboid hull shape spare with groove 13a.Can interconnecting piece 13 be fixed on the link plate skeleton 10 by the mode of welding, also can interconnecting piece 13 be fixed on the link plate skeleton 10 by securing member.

Link plate skeleton 10 can have various ways, as long as can play the overall structure that supports wall-mounted panel and the effect that the installation basis is provided for interconnecting piece 13.For example, link plate skeleton 10 can be grid-like part, and this grid-like part can be made by rigid rod.

As shown in Figure 3, preferably, link plate skeleton 10 can comprise many cross binding beams 11 and many longitudinal bracing beams 12 that are fixedly connected with these many cross binding beams 11.Usually cross binding beam 11 and longitudinal bracing beam 12 are rigid rod, to obtain higher structural strength.For example, the material of described cross binding beam 11 and longitudinal bracing beam 12 can be various metals (such as steel, aluminium alloys etc.), also can be various nonmetals, such as engineering plastics of rigidity etc.

Preferably, cross binding beam 11 is connected to " well " font with longitudinal bracing beam 12, so that equally distributed supporting role to be provided to wall-mounted panel.At this moment, interconnecting piece 13 can be fixed on the end of cross binding beam 11 and/or longitudinal bracing beam 12, and the outlet of the groove 13a that is formed in the interconnecting piece 13 is exposed on the side of thickness direction of link plate main body 20 get final product.

Preferably, as shown in Figure 3, many longitudinal bracing beams 12 can be two, and many cross binding beams 11 are fixedly connected between described two longitudinal bracing beams 12, and described interconnecting piece 13 is fixed on the outside of described longitudinal bracing beam 12.The structure shown in Fig. 3 that adopts link plate skeleton 10 can improve the bond strength of interconnecting piece 13 and longitudinal bracing beam 12, makes the interconnecting piece can the heavier wall-mounted panel of supported weight.

Certainly, link plate skeleton 10 is not limited to the structure shown in Fig. 3, for example, and in the link plate skeleton 10 shown in Fig. 3, can also between two longitudinal bracing beams 12 in the both sides of this link plate skeleton 10, many longitudinal bracing beams 12 be set, to improve the bulk strength of link plate skeleton 10.

In order to make wall-mounted panel of the present invention have excellent fireproof performance, preferably, link plate main body 20 can comprise surface layer and bottom, and this bottom is that mixture by will containing aggregate and the first cementing agent is through solidifying to form; Described the first cementing agent is the fireproof bonding agent.

Preferably, the thickness of described bottom is the 5-100 millimeter, so that the fireproof performance of wall-mounted panel of the present invention is best.

Described fireproof bonding agent refers to and variously can be used for boning described aggregate, and has excellent fire prevention, the cementing agent of flame retardant effect.Preferably, described fireproof bonding agent is selected from one or more in cement, silica gel, water glass, magnesium hydroxide, potassium silicate, aluminium matter ceramic powder, attapulgite clay, calcining magnesite and the phosphate-based cementing agent.Further preferably, described fireproof bonding agent is selected from one or more in cement, silica gel and the water glass, so that wall-mounted panel of the present invention obtains best fireproof performance.

The present invention has no particular limits the kind of described aggregate; can be the various aggregates that form wall-mounted panel and have excellent fire-retardancy of can be used for known in the field; preferably; described aggregate can be selected from one or more in granular polystyrene, mineral wool, haydite, perlite, expanded vermiculite, glass bead, sand and the stone, more preferably granular polystyrene.The average particulate diameter of described aggregate can in very large range change, and can select according to actual needs the aggregate size that is fit to, and under the preferable case, the average particulate diameter of described aggregate is the 0.005-2 millimeter, more preferably the 0.1-1 millimeter.

Preferably, described surface layer be mixture by will containing overlay film silica sand and the second cementing agent through solidifying to form, with respect to the overlay film silica sand of 100 weight portions, the content of described the second cementing agent is the 0.5-15 weight portion; The thickness of described surface layer is the 3-10 millimeter.

The present invention has no particular limits the selection of described the second cementing agent, can be the various cementing agents that can be used for forming the surface layer of wall-mounted panel known in the field, preferably, described the second cementing agent can be selected from one or more in phenolic resins, epoxy resin, polyurethane resin, water glass, cement, silica gel and the phosphate-based cementing agent.

Preferably, groove 13a can be arranged in the described surface layer.When wall-mounted panel was assembled into wall body structure, the surface layer of wall-mounted panel arranged outwardly.Groove 13a is arranged in the surface layer, in groove 13a connector is set, so that wall-mounted panel is assembled into wall body structure.At this moment, bottom and the surface layer between groove 13a and bottom part is born connector jointly to the pressure of wall-mounted panel.Groove 13a is arranged on prevents in the surface layer that wall-mounted panel from breaking because of stressed.

As shown in Figure 5, as another aspect of the present invention, also provide a kind of wall body structure, this wall body structure comprises:

At least two load-bearing pillars 50, these at least two load-bearing pillars 50 are vertically set up on the ground at each interval;

With adjacent two load-bearing pillars, 50 interconnected connecting rods 60;

A plurality of wall-mounted panels 70, these a plurality of wall-mounted panels 70 lay respectively at inboard and the outside of described load-bearing pillar 50, and are connected with this load-bearing pillar 50;

Wherein, wall-mounted panel 70 is above-mentioned wall-mounted panel provided by the present invention, and described wall body structure also comprises syndeton 80, and the part of described syndeton 80 is inserted among the groove 13a of wall-mounted panel 70, and another part is fixed on the described connecting rod 60.

Syndeton 80 is inserted among the groove 13a, then is fixed on the connecting rod 60 to get final product, and slotting at wall-mounted panel 70 in the scene of need not, has improved the safety when assembling wall body structure shown in the present.

Load-bearing pillar 50 is vertically set up on the ground, here the explanation of relative broad range should be done in so-called ground, namely this ground not only comprises the earth (the large ground that load-bearing pillar 50 can directly be set up), also comprises any building foundation, such as the ground of any one deck in the highrise building building.Load-bearing pillar 50 can be set up on the ground in several ways, such as pre-plugged, piles up on the ground and forms etc., can also be on the ground direct welded steel pipe and form load-bearing pillar 50.The Main Function of load-bearing pillar 50 is to support and the carrying gravitational load, thereby load-bearing pillar 50 has higher structural strength usually.

Although the load-bearing pillar 50 shown in Fig. 5 has 2, also can there be 4 or more.Load-bearing pillar 50 can be various forms of load-bearing pillars, such as encased structures or steel work.The cross sectional shape of load-bearing pillar 50 can be for the shape of any appropriate, such as polygon.But preferably, be connected for the ease of connecting rod 60, preferably, the cross sectional shape of load-bearing pillar 50 is rectangle, as shown in Figure 5.

The application scenario of wall body structure involved in the present invention includes but not limited to: thus the wall-mounted panel 70 formation wall body structures that utilize at least two load-bearing pillars 50 and be positioned at load-bearing pillar 50 both sides, so that the inner space of building is separated.

Usually, the surface layer of wall-mounted panel 70 is towards the outside of described wall body structure.

For the ease of wall-mounted panel 70 is connected on the connecting rod 60, preferably, syndeton 80 can comprise suspension member 30, this suspension member 30 comprise base portion 30a and with this base portion 30a connecting portion 30b connected vertically, base portion 30a inserts among the described groove 13a of interconnecting piece 13, and connecting portion 30b links to each other with connecting rod 60.

Suspension member 30 can be L shaped or T shape, as long as can insert among the groove 13a of wall-mounted panel 70, and wall-mounted panel is fixedly connected with connecting rod 60 gets final product.

The base portion 30a of suspension member 30 can be connected to each other by securing member and connecting portion 30b, also can be connected to each other by mode and the connecting portion 30b of welding.Certainly, preferably, in order to improve the intensity of suspension member 30, base portion 30a and connecting portion 30b are integrally formed by the mode of casting.In the present invention the material of making suspension member 30 is not had specific (special) requirements, as long as can be connected between wall-mounted panel 70 and the connecting rod, and the weight of support wall-mounted panel gets final product.For example, suspension member 30 can be by metal material, such as cast iron, aluminium silicon magnesium, stainless steel etc., or nonmetals, make such as materials such as glass fiber reinforced plastic.

Suspension member 30 can be fixed on by the mode of interference fit, securing member or welding among the groove 13a.Preferably, suspension member 30 is fixed among the groove 13a by the mode of interference fit, to reduce the installation procedure of assembling wall body structure of the present invention.

Preferably, as shown in Figure 4, described base portion 30a and the connecting portion 30b of suspension member 30 form the T font.The advantage that suspension member 30 forms the T font is, base portion 30a can be respectively matches with the groove 13a of neighbouring any two wall-mounted panels 70.Thereby required component when having reduced wall body structure of the present invention assembling.And, need not to arrange cementing agent etc. between two neighbouring wall-mounted panels 70 two wall-mounted panels 70 be connected to each other.

Usually, neighbouring any two wall-mounted panels 70 contacted lip-deep notch parts 21 relative to each other, thereby make the part of the connecting portion 30b of suspension member 30 be positioned at two spaces that notch part 21 surrounds of two corresponding neighboring walls link plates 70.As shown in Figure 5, at wall-mounted panel 70 notch part 21 being set can make the part of the connecting portion 30b of suspension member 30 be positioned at the space that two notch parts 21 surround, thereby two neighbouring wall-mounted panels 70 are fitted tightly, make wall body structure of the present invention compacter, and increased the intensity of wall body structure of the present invention.

Wall-mounted panel 70 can directly link to each other with connecting rod 60 by the connecting portion 30b of suspension member 30.For example, on connecting portion 30b and connecting rod 60, offer respectively through hole, utilize bolt that suspension member 30 is fixedly connected with connecting rod 60.

Preferably, syndeton 80 can also comprise the outer connector 40 that links to each other with connecting rod 60, and the connecting portion 30b that is positioned at two suspension members 30 of sustained height in load-bearing pillar 50 both sides links to each other by corresponding outer connector 40, thereby increased the intensity that makes whole wall body structure, and made wall body structure more stable.

When outer connector 40 is linked to each other with the wall-mounted panel 70 that lays respectively at load-bearing pillar 50 both sides, can perforate be set respectively at the two ends of outer connector 40, and the suspension member 30 that will be positioned at these outer connector 40 both sides by perforate is fixedly connected with connecting rod 60.Preferably, reduction is to the requirement of machining accuracy, syndeton 80 also comprises securing member, the middle part of outer connector 40 is formed with elongate slots 41, this elongate slots 41 runs through this outer connector 40 at the thickness direction of outer connector 40, described securing member passes elongate slots 41, and the connecting portion 30b that is positioned at two suspension members 30 of sustained height in load-bearing pillar 50 both sides is fixed on the corresponding outer connector 40 by described securing member.Can adopt the material identical with suspension member 30 to make outer connector 40.

As shown in Fig. 2 and Fig. 5, elongate slots 41 can be that two ends are the strip groove of semicircle, and certainly, elongate slots 41 can also be rectangular channel.Described securing member can be the modal screws bolts in this area.

Preferably, can be at fill insulant material between the wall-mounted panel 70 of load-bearing pillar 50 both sides, required energy consumption when reducing winter heating, thus reach the effect of energy-conserving and environment-protective.

After the side of link plate main body arranges groove, when wall-mounted panel is installed, can save the operation of on-the-spot fluting, need not to draw electricity, improved the safety of site operation.

Below describe by reference to the accompanying drawings preferred embodiment of the present invention in detail; but; the present invention is not limited to the detail in the above-mentioned embodiment; in technical conceive scope of the present invention; can carry out multiple simple variant to technical scheme of the present invention, these simple variant all belong to protection scope of the present invention.

Need to prove that in addition each the concrete technical characterictic described in the above-mentioned specific embodiment in reconcilable situation, can make up by any suitable mode.For fear of unnecessary repetition, the present invention is to the no longer separately explanation of various possible combinations.

In addition, also can carry out any combination between the various embodiment of the present invention, as long as it is without prejudice to thought of the present invention, it should be considered as content disclosed in this invention equally.

Claims (23)

1. wall-mounted panel, this wall-mounted panel comprises link plate main body (20), it is characterized in that, is formed with groove (13a) on the side of this link plate main body (20) thickness direction.

2. wall-mounted panel according to claim 1, it is characterized in that, described groove (13a) is a plurality of, and these a plurality of grooves (13a) are formed on the upper surface and lower surface of this link plate main body (20) along the length direction of described link plate main body (20).

3. wall-mounted panel according to claim 2, it is characterized in that, described link plate main body (20) has and described a plurality of grooves (13a) a plurality of notch parts (21) one to one, these a plurality of notch parts (21) are formed with on the upper surface and lower surface of described link plate main body (20), so that described groove (13a) is exposed to the outside by described notch part (21).

4. wall-mounted panel according to claim 1 is characterized in that, this wall-mounted panel also comprises the link plate skeleton (10) that is embedded in the described link plate main body (20).

5. wall-mounted panel according to claim 4 is characterized in that, described link plate skeleton (10) has interconnecting piece (13), and described groove (13a) is formed in the described interconnecting piece (13).

6. wall-mounted panel according to claim 5 is characterized in that, described link plate skeleton (10) comprises many cross binding beams (11) and the many longitudinal bracing beams (12) that are fixedly connected with these many cross binding beams (11).

7. wall-mounted panel according to claim 6 is characterized in that, described many cross binding beams (11) and described many longitudinal bracing beams (12) are connected to " well " font.

8. wall-mounted panel according to claim 6, it is characterized in that, described many longitudinal bracing beams (12) are two, described many cross binding beams (11) are fixedly connected between described two longitudinal bracing beams (12), and described interconnecting piece (13) is fixed on the outside of described longitudinal bracing beam (12).

9. the described wall-mounted panel of any one in 8 according to claim 1 is characterized in that described link plate main body (20) comprises surface layer and bottom, and this bottom is that mixture by will containing aggregate and the first cementing agent is through solidifying to form; Described the first cementing agent is the fireproof bonding agent.

10. wall-mounted panel according to claim 9 is characterized in that, the thickness of described bottom is the 5-100 millimeter

11. wall-mounted panel according to claim 9, it is characterized in that described fireproof bonding agent is selected from one or more in cement, silica gel, water glass, magnesium hydroxide, potassium silicate, aluminium matter ceramic powder, attapulgite clay, calcining magnesite and the phosphate-based cementing agent.

12. wall-mounted panel according to claim 9 is characterized in that, described aggregate is selected from one or more in granular polystyrene, mineral wool, haydite, perlite, expanded vermiculite, glass bead, sand and the stone.

13. wall-mounted panel according to claim 9, it is characterized in that, described surface layer be mixture by will containing overlay film silica sand and the second cementing agent through solidifying to form, with respect to the overlay film silica sand of 100 weight portions, the content of described the second cementing agent is the 0.5-15 weight portion; The thickness of described surface layer is the 3-10 millimeter.

14. wall-mounted panel according to claim 13 is characterized in that, described the second cementing agent is selected from one or more in phenolic resins, epoxy resin, polyurethane resin, water glass, cement, silica gel and the phosphate-based cementing agent.

15. wall-mounted panel according to claim 9 is characterized in that, described groove (13a) is arranged in the described surface layer.

16. wall body structure, this wall body structure comprises:

At least two load-bearing pillars (50), these at least two load-bearing pillars (50) are vertically set up on the ground at each interval;

With the interconnected connecting rods of adjacent two load-bearing pillars (50) (60);

A plurality of wall-mounted panels (70), these a plurality of wall-mounted panels (70) lay respectively at inboard and the outside of described load-bearing pillar (50);

It is characterized in that, described wall-mounted panel (70) is the described wall-mounted panel of any one in the claim 1 to 15, described wall body structure also comprises syndeton (80), the part of described syndeton (80) is inserted in the groove (13a) of described wall-mounted panel (70), and another part is fixed on the described connecting rod (60).

17. wall body structure according to claim 16 is characterized in that, the described surface layer of described wall-mounted panel (70) is towards the outside of described wall body structure.

18. according to claim 16 or 17 described wall body structures, it is characterized in that, described syndeton (80) comprises suspension member (30), this suspension member (30) comprise base portion (30a) and with this base portion (30a) connecting portion connected vertically (30b), described base portion (30a) inserts in the described groove (13a) of described wall-mounted panel (70), and described connecting portion (30b) links to each other with described connecting rod (60).

19. wall body structure according to claim 18, it is characterized in that, described base portion (30a) and the described connecting portion (30b) of described suspension member (30) form the T font, and described base portion (30a) matches with the described groove (13a) of neighbouring any two described wall-mounted panels (70) respectively.

20. wall body structure according to claim 19, it is characterized in that the part of the described connecting portion (30b) of described suspension member (30) is positioned at the space that two described notch parts (21) of corresponding two neighboring walls link plates (70) surround.

21. wall body structure according to claim 19, it is characterized in that, described syndeton (80) also comprises the outer connector (40) that links to each other with described connecting rod (60), and the connecting portion (30b) that is positioned at two described suspension members (30) of sustained height in described load-bearing pillar (50) both sides links to each other by corresponding outer connector (40).

22. wall body structure according to claim 21, it is characterized in that, described syndeton (80) also comprises securing member, the middle part of described outer connector (40) is formed with elongate slots (41), this elongate slots (41) runs through this outer connector (40) at the thickness direction of described outer connector (40), described securing member passes described elongate slots (41), and the connecting portion (30b) that is positioned at two suspension members (30) of sustained height in described load-bearing pillar (50) both sides is fixed on by described securing member on the corresponding outer connector (40).

23. according to claim 16 or 17 described wall body structures, it is characterized in that, be positioned between the described wall-mounted panel (70) of described load-bearing pillar (50) both sides and be filled with heat insulating material.

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