CN108560862B - Adjustable sliding anchoring piece of heat-insulating decorative board - Google Patents

Abstract

The invention provides an adjustable sliding anchor piece of a heat-insulating decorative plate, which solves the problem that the heat-insulating decorative plate cannot be effectively adjusted due to uneven installation in the prior art. The adjustable sliding anchoring piece of the heat-insulating decorative plate comprises a base used for being fixed on a base layer; the outer end of the fixing piece is provided with a buckling groove for embedding a decorative panel of the heat-insulating decorative panel, the outer end of the fixing piece is also provided with an adjusting mechanism for adjusting the fixing piece to move along the direction perpendicular to the base layer, and the base and the fixing piece are fastened into a whole by the adjusting mechanism. The adjustable sliding anchoring piece of the heat-insulating decorative plate is simple in structure and convenient to use, can properly adjust the uneven heat-insulating decorative plate, finally realizes the flatness of the whole wall surface, and has good practicability.

Description

Adjustable sliding anchoring piece of heat-insulating decorative board

Technical Field

The invention relates to the technical field of heat-insulating decorative plate anchoring parts, in particular to a heat-insulating decorative plate adjustable sliding anchoring part which is simple in structure and convenient to use.

Background

The heat-insulating and decorating integrated board system consists of a bonding layer, a heat-insulating and decorating finished board, anchoring parts, sealing materials and the like, is a heat-insulating and decorating system arranged on the surface of a building base layer, has excellent heat-insulating and decorating effects and durability, is fully accepted in modern building construction, and has good popularization prospect.

In order to thoroughly eliminate the risk of stripping and falling off the heat-insulating decorative plate and the base layer and improve the overall safety of the heat-insulating decorative plate, the prior art generally uses an anchoring piece embedded into the decorative plate of the integrated plate to fasten the decorative plate, and the heat-insulating decorative integrated plate is firmly fixed on the base layer. However, the heat-insulating and decorating integrated plate in the prior art has two main problems when being installed:

firstly, under the prerequisite of basic unit unevenness, perhaps the heat preservation decorates the integration board and installs under fixed nonstandard prerequisite, and the polylith heat preservation decorative board that finishes links into a face, and the very easy error phenomenon that exceeds standard of roughness of reuse guiding rule detection influences the aesthetic measure of whole wall. Under the condition, because the anchoring piece is embedded between two adjacent heat-insulating and decorating integrated plates, the screw between the fixing piece and the base of the traditional anchoring piece is fastened, and the relative position between the fixing piece and the base cannot slide, for example, the flatness is adjusted, the heat-insulating decorating plate needs to be detached again to loosen the screw, the relative position between the fixing piece and the base is adjusted, and then the screw is fastened again for fixation, so that the efficiency is low, a large amount of labor is wasted, and the popularization of the heat-insulating decorating plate is not facilitated.

Secondly, because most of the veneer of the heat preservation and decoration integrated plate is embedded into the buckling groove at the outer end of the anchoring piece, the buckling groove is clamped into the buckling groove with a certain width at the outer edge of the veneer, and the traditional anchoring piece is required to be fixed on a base layer when being installed, the buckling groove is required to have a certain width to meet the requirement of clamping the certain width at the outer edge of the veneer, so that when the heat preservation and decoration integrated plate is installed on a base layer, the buckling groove is required to be at least yielded, then the veneer of the heat preservation and decoration integrated plate is moved into the buckling groove of the anchoring piece through knocking, sliding and other external forces, the direct embedding of the veneer into the buckling groove cannot be realized, and the weight of each integrated plate can reach tens of kilograms, so that the difficulty of outdoor high-altitude operation is very high, the installation efficiency is seriously reduced, the installation convenience is realized, the installation efficiency can be greatly improved, the installation safety is greatly improved, and the problem is also a great subject in front of the industry personnel, such as to realize the development of the anchor piece for boosting the heat preservation and decoration integrated plate, and the assembly type of houses, and great economic and social benefits are realized.

Disclosure of Invention

The invention provides an adjustable sliding anchor piece of a heat-insulating decorative plate, which solves the problem that the heat-insulating decorative plate cannot be effectively adjusted due to uneven installation in the prior art.

The technical scheme of the invention is realized as follows: an adjustable sliding anchor for a thermal insulation decorative panel, comprising:

a base for fixing to the base layer;

the outer end of the fixing piece is provided with a buckling groove for embedding a decorative panel of the heat-insulating decorative panel, the outer end of the fixing piece is also provided with an adjusting mechanism for adjusting the fixing piece to move along the direction perpendicular to the base layer, and the base and the fixing piece are fastened into a whole by the adjusting mechanism.

As a preferred embodiment, a first baffle plate parallel to the base layer is fixed on the base, and a second baffle plate parallel to the first baffle plate and positioned at the outer end of the first baffle plate is fixed on the fixing piece;

the adjusting mechanism comprises a screwing-in bolt and a screwing-out bolt which are perpendicular to the base layer, the screwing-in bolt penetrates through the second baffle and inwards extends to be in threaded fit with the first baffle, and the screwing-out bolt is in threaded fit with the second baffle and inwards abuts against the first baffle;

the screwing-in bolt and the screwing-out bolt are matched to fasten the base and the fixing piece.

As a preferred embodiment, the second baffle is provided with a slide way for opening and closing between the second baffle and the base, and the screw bolt penetrates through the slide way.

As a preferred embodiment, the slideway extends to the edge of the second baffle and is open.

As a preferable implementation mode, the edges of the first baffle plate and the second baffle plate are sharp-angle shapes which are convenient to embed into the heat-insulation decorative plate, and the edges of the buckling grooves are sharp-angle shapes which are convenient to embed into the decorative plate.

As a preferred embodiment, the base comprises a first connecting plate perpendicular to the base layer, the first baffle is fixed at the outer end of the first connecting plate, the first connecting plate is provided with a long groove extending inwards from the first baffle, and the screw bolt extends into the long groove.

As a preferred embodiment, the outer end of the second baffle is further fixed with a buckle plate parallel to the second baffle, and the buckle slot is formed between the buckle plate and the second baffle.

As a preferable implementation mode, the outer end of the second baffle is sequentially fixed with two buckle plates parallel to the second baffle, and the buckle grooves are formed between the two buckle plates.

As a preferred embodiment, at least one of the base and the fixing member is provided with a guide groove extending in a direction perpendicular to the base layer, and a bolt for connecting the base and the fixing member is arranged in the guide groove.

As a preferable implementation mode, the base is provided with two through grooves which are arranged inside and outside, and the fixing piece sequentially penetrates through the two through grooves and moves in the through grooves.

After the technical scheme is adopted, the invention has the beneficial effects that: the adjustable sliding type anchoring piece of the heat-insulating decorative plate is characterized in that the base is fixed on the base layer, and then the fixing piece is adjusted along the direction perpendicular to the base layer. Because the decorative board of heat preservation decorative board imbeds the catching groove of mounting outer end, therefore, when adjusting the mounting through adjustment mechanism, the catching groove can drive the decorative board synchronous motion of heat preservation decorative board, that is, when inwards moving the mounting, the decorative board will be close to the wall, when outwards moving the mounting, the decorative board will keep away from the wall, can adjust the heat preservation decorative board according to actual needs like this, place that the heat preservation decorative board is concave, with the mounting outwards adjustment, can outwards remove the heat preservation decorative board of concave, the same, place that the heat preservation decorative board is protruding inwards adjusts the mounting, can inwards remove the heat preservation decorative board of protruding, finally realize the leveling of heat preservation decorative board, make all decorative boards be in same vertical plane.

Through the cooperation of precession bolt and precession bolt, can realize the fastening of base and mounting, at this moment, the mounting can't inwards, outwards remove, when needs inwards remove the heat preservation decorative board, outwards screw back a distance with precession bolt earlier, make the separation between precession bolt's the tip and the first baffle, then screw down precession bolt, because screw-thread fit between precession bolt and the first baffle, precession bolt can drive the second baffle inwards to remove, and finally drive the mounting inwards to remove, realize the heat preservation decorative board inwards remove, after the adjustment is accomplished, screw down the tip of precession bolt again to lean on (extreme position promptly) with the first baffle top, can fix the mounting, make it neither inwards remove, also can not outwards remove. Similarly, when the heat-insulating decorative plate needs to be moved outwards, the screw-in bolt is screwed outwards for a certain distance, then the screw-out bolt is screwed, and as the end part of the screw-out bolt is always propped against the first baffle, the screw-out bolt drives the second baffle to move outwards and finally drives the fixing piece to move outwards, so that the heat-insulating decorative plate can move outwards, and after adjustment is finished, the screw-in bolt is screwed inwards to the limit position, so that the fixing piece can be fixed, and cannot move inwards or outwards. And during installation, the anchoring piece is necessarily positioned at the middle position of the two heat-insulating decorative plates, and corresponding operation can be carried out on the screwing-in bolt and the screwing-out bolt from the middle gaps of the two heat-insulating decorative plates, so that the adjustment of the heat-insulating decorative plates is realized on the premise of not detaching the heat-insulating decorative plates.

The slide way for realizing opening and closing between the second baffle and the base is arranged on the second baffle, the screw bolt penetrates through the slide way, a certain angle can be opened between the second baffle (namely the fixing piece) and the base, namely the fixing piece can deflect a certain distance relative to the base, the width of the buckling groove is reduced, the heat-insulating decorative plate is directly installed on the anchoring piece, then the fixing piece is reversely deflected, the buckling groove is embedded into the decorative plate, the fixing of the heat-insulating decorative plate is realized, the anchoring piece is not required to be installed like the traditional anchoring piece, the decorative plate is required to be knocked and slid to be embedded into the buckling groove after the anchoring piece is installed, the fixing of the heat-insulating decorative plate is realized, the installation and the fixing of the heat-insulating decorative plate can be realized only by deflecting the light fixing piece by a certain angle, the labor intensity is greatly reduced, the installation efficiency is greatly improved, the number of the anchoring pieces installed on one building is great because each heat-insulating decorative plate is required to be fixed by a plurality of anchoring pieces, and the accumulated economic and social benefits are huge.

The slide way is extended to the edge of the second baffle plate and is opened, so that the maximization of the opening angle between the second baffle plate (i.e. the fixing piece) and the base can be realized, and the installation of the heat-insulating decorative plate is more convenient.

The edges of the first baffle and the second baffle are set to be sharp corners, and the edges of the buckling grooves are also set to be sharp corners, so that the first baffle and the second baffle can be conveniently embedded into the heat-insulating decorative board and the decorative board, and the operation and the installation of workers are facilitated.

The first connecting plate is provided with the long groove extending inwards from the first baffle, and the screw bolt extends into the long groove, so that the screw bolt is close to the middle position of the anchoring piece as much as possible, and is also close to the middle position of the front gap of the two heat-insulating decorative plates as much as possible, and the screw bolt is convenient for workers to operate during screwing.

The outer end of the second baffle is fixed with the buckle plate parallel to the second baffle, and a buckle groove is formed between the second baffle and the buckle plate, so that the anchoring piece is simple in structure and convenient to manufacture.

Two buckle plates parallel to the second baffle are sequentially fixed at the outer end of the second baffle, and buckling grooves are formed between the two buckle plates, so that the screwing-in bolt and the screwing-out bolt are both positioned at the inner ends of the buckling grooves, the screwing-in bolt and the screwing-out bolt can be prevented from blocking the decoration panel to be embedded into the buckling grooves when the heat-insulating decoration panel is installed, and the smooth installation of the heat-insulating decoration panel is ensured.

At least one of the base and the fixing piece is provided with a guide groove, and a bolt is arranged in the guide groove to connect the base and the fixing piece into a whole, so that the fixing piece can reciprocate relative to the inside and outside of the base.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

FIG. 2 is a rear structural view of the first embodiment;

FIG. 3 is a schematic diagram of a second embodiment;

fig. 4 is a schematic structural view of a third embodiment;

fig. 5 is a schematic structural view of a fourth embodiment;

FIG. 6 is a schematic diagram of a fifth embodiment;

fig. 7 is a schematic structural diagram of a sixth embodiment;

fig. 8 is a split structure schematic diagram of a sixth embodiment;

fig. 9 is a schematic structural view of a seventh embodiment;

fig. 10 is a schematic structural view of an eighth embodiment;

fig. 11 is a rear structural schematic view of an eighth embodiment;

fig. 12 is a schematic structural view of a ninth embodiment;

fig. 13 is a schematic structural view of a tenth embodiment;

fig. 14 to 18 are schematic views showing the construction of the mounting step of the eighth embodiment;

in the figure: 1-a base; 2-fixing parts; 3-buckling grooves; 4-a first baffle; 5-a second baffle; 6-screwing in a bolt; 7-screwing out the bolt; 8-a first connection plate; 9-an elongated slot; 10-buckle plates; 11-a guide groove; 12-bolts; 13-through grooves; 14-a base layer; 15-bonding mortar; 16-heat-insulating decorative board; 17-expanding bolt; 18-veneer; 19-silicone weather-resistant glue; 20-through holes; 21-slide way.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

For ease of description, the direction toward the base layer will be referred to herein as inner, and the direction away from the base layer will be referred to herein as outer.

Embodiment one:

as shown in fig. 1 and 2, the first embodiment of the present invention is a schematic structural diagram, and the first embodiment of the present invention includes a base 1 and a fixing member 2, wherein the base 1 is T-shaped, two through holes 20 are symmetrically formed in the base 1, and the base 1 can be firmly fixed on a base layer by using the cooperation of the two through holes 20 and the expansion bolts.

The first connecting plate 8 is a component forming the base 1, after the base 1 is fixed, the first connecting plate 8 is perpendicular to the base layer, and the first baffle 4 perpendicular to the first connecting plate 8 is fixed at the outer end of the first connecting plate 8, that is, the first baffle 4 is parallel to the base layer after being installed. And the first shutter 4 is located at only one side of the first connection plate 8.

The fixing element 2 is also T-shaped and is fitted to the base 1, the second baffle 5 being the component constituting the fixing element 2, and the second baffle 5 being located at the outer end of the first baffle 4 and parallel thereto. At least one of the base 1 and the fixing member 2 is provided with a guide groove 11, the extending direction of the guide groove 11 is perpendicular to the base layer, and a bolt 12 is arranged in the guide groove 11, the structure is mainly used for connecting the base 1 and the fixing member 2, so that the base 1 and the fixing member 2 can slide relatively, and the fixing member 2 can reciprocate along the direction perpendicular to the base layer because the base 1 is fixed on the base layer.

A buckle plate 10 parallel to the second baffle plate 5 is fixed in the middle of the second baffle plate 5, a buckle groove 3 is formed between the buckle plate 10 and the second baffle plate 5, and during installation, a decorative plate of the heat-insulating decorative plate is embedded into the buckle groove 3, so that the heat-insulating decorative plate is fixed.

The outer end of the fixing piece 2 is also provided with an adjusting mechanism for adjusting the fixing piece 2 to move along the direction vertical to the base layer, and after the position of the fixing piece 2 is adjusted in place, the base 1 and the fixing piece 2 can be fastened into a whole by the adjusting mechanism.

The adjusting mechanism comprises a screwing bolt 6 and a screwing bolt 7 which are perpendicular to the base layer, wherein the screwing bolt 6 and the screwing bolt 7 are symmetrically distributed on two sides of a pinch plate 10, and the screwing bolt 6 penetrates through the second baffle 5 and inwards extends to be in threaded fit with the first baffle 4; the screw-out bolts 7 are in threaded fit with the second baffle plate 5 and are propped against the first baffle plate 4 inwards, and when the screw-in bolts 6 and the screw-out bolts 7 extend inwards to the limit positions, the fastening of the base 1 and the fixing piece 2 is realized. In the state shown in fig. 1, after the screw-in bolt 6 and the screw-out bolt 7 are both screwed inward to the limit positions, that is, the nuts of the screw-in bolt 6 are in contact with the second baffle plate 5, and after the inner end of the screw-out bolt 7 abuts against the first baffle plate 4, the first baffle plate 4 and the second baffle plate 5 are completely fixed, and the base 1 and the fixing member 2 cannot move relatively. If it is desired to adjust the position of the second shutter 5, this can be achieved by co-operating screwing of the screw-in bolt 6 and the screw-out bolt 7. For example: if the second baffle 5 moves inwards, the screw-out bolt 7 is screwed outwards, so that the inner end part of the screw-out bolt 7 leaves the first baffle 4, a position reserved for the inward movement of the second baffle 5 is reserved, then the screw-in bolt 6 is screwed inwards, the screw-in bolt 6 is matched with the screw thread of the first baffle 4 to press the second baffle 5 inwards, and after the second baffle 5 moves to a proper position, the screw-out bolt 7 is screwed inwards to lean against the first baffle 4; similarly, if the second baffle 5 is to be moved outwards, the screw bolt 6 is screwed outwards, so that the nut of the screw bolt 6 leaves the second baffle 5, a reserved position is reserved for the second baffle 5 to move outwards, then the screw bolt 7 is screwed inwards, and the screw bolt 7 extrudes the second baffle 5 outwards slowly due to the fact that the end portion of the screw bolt 7 is always propped against the first baffle 4 and is in threaded fit with the second baffle 5, and after the second baffle 5 is moved to a proper position, the screw bolt 6 is screwed inwards to a limit position. Through this can realize the inward movement or the outward movement of catching groove 3, and then effectively adjust protruding heat preservation decorative board or the heat preservation decorative board of concave-in, realize the level of whole heat preservation decorative board plane, certainly, in the adjustment process, need carry out the same operation of screwing in to the precession bolt 6 and the precession bolt 7 of buckle board 10 both sides.

Embodiment two:

as shown in fig. 3, a schematic structural diagram of a second embodiment is shown, and the difference between the second embodiment and the first embodiment is that: this embodiment provides four through holes 20 in the T-shaped base 1 to better secure it to the substrate.

The number of guide grooves 11 for realizing the relative movement between the base 1 and the fixing member 2 is set in a symmetrical arrangement, and corresponding bolts 12 are arranged in each guide groove 11.

The screw-in bolt 6 and the screw-out bolt 7 are respectively arranged at the middle position, and the pinch plates 10 are respectively arranged at two sides of the screw-in bolt 6 and the screw-out bolt 7.

In addition, the first connecting plate 8 is also provided with a long groove 9 extending inwards from the first baffle plate 4, and the screw bolt 6 just extends into the long groove 9, so that the screw bolt 6 is close to the middle position of the anchoring piece as much as possible, and is also close to the middle position of a gap in front of the two heat-insulation decorative plates as much as possible, and the operation of workers is convenient when screwing.

The rest of the structure in this embodiment is the same as that of the first embodiment, and will not be described here again.

Embodiment III:

as shown in fig. 4, a schematic structural diagram of the third embodiment is shown, and the difference between the third embodiment and the second embodiment is that: the position of the buckling groove 3 is changed in this embodiment, specifically, in this embodiment, two parallel buckling plates 10 are sequentially disposed at the outer end of the second baffle plate 5, so that the buckling groove 3 for accommodating the veneer is formed between the two buckling plates 10, and the second baffle plate 5 is not a structure for forming the buckling groove 3. In addition, from the angle vertical to the wall surface, the screwing-in bolt 6 and the screwing-out bolt 7 are positioned in the buckling groove 3, so that the decoration panel can be conveniently embedded in the buckling groove 3, and the influence of the screwing-in bolt 6 and the screwing-out bolt 7 on the installation of the decoration panel is avoided.

The rest of the structure in this embodiment is the same as that of the embodiment and will not be described here again.

Embodiment four:

as shown in fig. 5, a schematic structural diagram of the fourth embodiment is shown, and the difference between the third embodiment and the fourth embodiment is that: the base 1 of this embodiment is not T-shaped but L-shaped, and the base 1 can be fixed to the base layer through the through hole 20 on one side during installation.

The rest of the structure in this embodiment is the same as that of the embodiment, and will not be described here again.

Fifth embodiment:

as shown in fig. 6, a schematic structural diagram of a fifth embodiment is shown, and the difference between the fifth embodiment and the fourth embodiment is that: the buckling groove 3 of this embodiment is located at the middle position, and the screwing-in bolts 6 and the screwing-out bolts 7 are two groups and symmetrically arranged at both sides of the buckling groove 3.

The rest of the structure in this embodiment is the same as that of the fourth embodiment, and will not be described here again.

Example six:

as shown in fig. 7 and 8, a schematic structural diagram of a sixth embodiment is shown, and the main difference between the fifth embodiment and the sixth embodiment is that a pull-out connection mode is adopted between the base 1 and the fixing member 2, two through slots 13 are arranged on the base 1 in an internal-external manner, and the fixing member 2 directly penetrates through the two through slots 13, so that the internal-external movement of the fixing member 2 is realized by using the through slots 13. Because of the complete fit between the fixing element 2 and the through slot 13, this embodiment does not require the provision of the guide slot 11 anymore, so that the fixing element 2 can be moved in a direction perpendicular to the base layer.

In addition, the base 1 of this embodiment is T-shaped, and no corresponding elongated slot is provided in the first connecting plate 8.

The rest of the structure in this embodiment is the same as that of the fifth embodiment, and will not be described here again.

Embodiment seven:

as shown in fig. 9, a schematic structural diagram of a seventh embodiment is shown, and the difference between the seventh embodiment and the sixth embodiment is that: in this embodiment, the structure of the buckling groove 3 shown in the first embodiment is adopted, the buckling groove 3 is arranged at the middle position, and the buckling groove 3 is formed between the second baffle plate 5 and one buckling plate 10. Furthermore, a corresponding slot 9 is provided in the first connecting plate 8.

The rest of the structure in this embodiment is the same as that of the sixth embodiment, and will not be described here again.

Example eight:

as shown in fig. 10 and 11, a schematic structural diagram of an eighth embodiment is shown, and the differences between this embodiment and the first embodiment are mainly the following points: the base 1 of this embodiment adopts an L-shaped structure, the buckling groove 3 is formed by two buckling plates 10, the first baffle 4 is located at two sides of the first connecting plate 8, and the first connecting plate 8 is provided with a long groove 9 for the screw bolt 6 to extend into.

In addition, this embodiment has offered the slide 21 on second baffle 5, this slide 21 extends to the edge of second baffle 5 and opens, and precess bolt 6 also runs through this slide 21, through this kind of structure, under the prerequisite of loosening bolt 12, open certain angle between second baffle 5 (i.e. mounting 2) and base 1, namely mounting 2 can deflect certain distance relative to base 1, let out the width of catching groove 3, the heat preservation decorative board is directly installed and is leaned on the anchor assembly, then reverse deflection mounting 2, embed catching groove 3 on the decorative board, realize the fixed of heat preservation decorative board, need not like traditional anchor assembly, first after installing the anchor assembly, need strike, slide the heat preservation decorative board and imbed the catching groove in, realize the fixed of heat preservation decorative board, this anchor assembly's fixed mode only through deflecting certain angle with light and handy mounting 2 can realize the installation fixed of heat preservation decorative board, intensity of labour is greatly reduced, installation effectiveness improves greatly.

In addition, the slide way 21 with the opening structure can maximize the opening angle between the second baffle plate 5 (i.e. the fixing piece 2) and the base 1, thereby being more convenient for installing the heat-insulating decorative plate.

In addition, the edges of the first baffle plate 4 and the second baffle plate 5 are set to be sharp corners, and the edges of the buckling grooves 3 are also set to be sharp corners, so that the heat-insulating decorative plate and the decorative plate can be conveniently embedded into the heat-insulating decorative plate and the decorative plate, and the operation and the installation of workers are facilitated.

Example nine:

as shown in fig. 12, a schematic structural diagram of a ninth embodiment is shown, and the difference between this embodiment and the eighth embodiment is that: this embodiment changes the positions of the screw-in bolt 6 and the screw-out bolt 7, and simultaneously eliminates the structure of the long groove 9, so that the inner end portion of the screw-in bolt 6 is suspended, but this does not affect its normal use.

In addition, the slideway 21 of this embodiment differs from the eighth embodiment in that it is located at the corner of the second baffle 5, and the shape is slightly different from that of the eighth embodiment, but the way of use is the same.

The rest of the structure in this embodiment is the same as that of embodiment eight and will not be described here again.

Example ten:

as shown in fig. 13, a schematic structural diagram of an embodiment ten is shown, and the main difference between this embodiment and the third embodiment is that: in this embodiment, the number of the screw bolts 6 is two, the number of the screw bolts 7 is one, the edges of the first baffle plate 4 and the second baffle plate 5 are sharp corners, and the edges of the buckling groove 3 are also sharp corners.

In addition, in this embodiment, the second baffle 5 is also provided with a slide way 21, but the slide way 21 is different from the slide ways of the eighth embodiment and the ninth embodiment, and the slide way 21 extends in a long strip shape and does not extend to the edge of the second baffle 5, so that the opening structure of the eighth embodiment and the ninth embodiment is not provided, but the opening and closing between the base 1 and the fixing member 2 can still be realized, the installation of the insulation board is convenient, and only the maximum opening and closing angle of the insulation board is limited by the slide way 21.

As shown in fig. 14 to 18, for easy understanding, the mounting steps of the eighth embodiment are illustrated in detail, and the mounting structures of the other embodiments are similar to those described in detail, and will not be described here.

1) The heat-insulating decorative board 16 is adhered and fixed on the base layer 14 through the adhesive mortar 15;

2) The base 1 is fixed on the base layer 14 through the expansion bolt 17, meanwhile, the base 1 is positioned on the upper side surface of the heat-insulating decorative plate 16, and the first baffle plate 4 is embedded into the heat-insulating decorative plate 16;

3) The fixing member 2 is connected to the base 1 by the bolts 12, the fixing member 2 is deflected so that the catching groove 3 is finally caught on the veneer 18 (i.e., as shown in fig. 16), then the bolts 12 are appropriately screwed, the opening angle between the base 1 and the fixing member 2 is limited, the veneer 18 is prevented from coming out of the catching groove 3, and the position of the fixing member 2 is adjusted by the adjusting mechanism.

4) Another thermal-insulation decorative plate 16 is placed above the anchoring element and moves downwards along the surface of the base layer 14 to a final position by the force of its own weight, so that the decorative plate 18 thereof is just clamped into the mounted buckling groove 3. In this case, if the unevenness occurs, the flatness of the veneer 18 can be adjusted by screwing in the bolt 6 and screwing out the bolt 7 according to the description in the first embodiment. Of course, channels for the screw driver to enter and exit are reserved at the plate seams of two adjacent veneer panels 18 during adjustment, meanwhile, the fact that the adhesive mortar 15 is not completely solidified is also required, and after adjustment is completed, the fixation of the heat-insulation decorative panels 16 can be realized by utilizing the combined action of the solidification bonding of the adhesive mortar 15 and the anchoring piece.

5) The gap between the two heat-insulating decorative boards 16 is filled with a silicone weather-proof adhesive 19.

Of course, the base 1 and the fixing member 2 in the above steps may be connected together by the bolts 12 in advance, but the bolts 12 need not be screwed down, so as to ensure that the base 1 and the fixing member 2 can also move relatively. During installation, the base 1 can be fixed on the base layer 14 through the expansion bolt 17, and then the heat-insulating decorative plate 16 is vertically stuck on the base layer 14, but when the heat-insulating decorative plate 16 is stuck, the fixing piece 2 needs to be adjusted to be in a state shown in fig. 15 so as to make a space for the decorative plate 18, prevent the buckling groove 3 from obstructing the decorative plate 18, and after the heat-insulating decorative plate 16 is installed in place, the fixing piece 2 needs to be adjusted to be in a state shown in fig. 16. In summary, there are a variety of options for the order of installation of the thermal-insulated trim panel 16, base 1, fixture 2, as desired.

The adjustable sliding anchoring piece of the heat-insulating decorative plate is used for the assembled house, has better effect, can omit the step of bonding mortar, is directly fixed by adopting the anchoring piece, reduces the construction cost and complexity, and greatly promotes the development of the assembled house.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (9)

1. Adjustable slidingtype anchor assembly of heat preservation decorative board, its characterized in that includes:

a base (1) for fixing to a base layer (14);

the fixing piece (2), the outer end of the fixing piece (2) is provided with a buckling groove (3) for embedding a decoration panel (18) of the heat-insulation decoration panel (16), the outer end of the fixing piece (2) is also provided with an adjusting mechanism for adjusting the fixing piece to move along the direction vertical to the base layer (14), and the base (1) and the fixing piece (2) are fastened into a whole by the adjusting mechanism;

a first baffle (4) parallel to the base layer (14) is fixed on the base (1), and a second baffle (5) which is positioned at the outer end of the first baffle (4) and parallel to the first baffle is fixed on the fixing piece (2);

the adjusting mechanism comprises a screwing-in bolt (6) and a screwing-out bolt (7) which are perpendicular to the base layer (14), the screwing-in bolt (6) penetrates through the second baffle (5) and inwards extends to be in threaded fit with the first baffle (4), and the screwing-out bolt (7) is in threaded fit with the second baffle (5) and inwards abuts against the first baffle (4);

the screwing-in bolt (6) and the screwing-out bolt (7) are matched to fasten the base (1) and the fixing piece (2).

2. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: the second baffle (5) is provided with a slide way (21) for realizing the opening and closing between the second baffle and the base (1), and the screw bolt (6) penetrates through the slide way (21).

3. The adjustable slide anchor for a thermal insulation decorative panel according to claim 2, wherein: the slideway (21) extends to the edge of the second baffle (5) and is open.

4. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: the edges of the first baffle (4) and the second baffle (5) are sharp-angle shapes which are convenient to embed into the heat-insulation decorative board (16), and the edges of the buckling grooves (3) are sharp-angle shapes which are convenient to embed into the decorative board (18).

5. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: the base (1) comprises a first connecting plate (8) perpendicular to the base layer (14), the first baffle (4) is fixed at the outer end of the first connecting plate (8), a long groove (9) extending inwards from the first baffle (4) is formed in the first connecting plate (8), and the screwing bolt (6) stretches into the long groove (9).

6. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: the outer end of the second baffle plate (5) is also fixed with a buckle plate (10) parallel to the second baffle plate, and a buckle groove (3) is formed between the buckle plate (10) and the second baffle plate (5).

7. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: the outer end of the second baffle (5) is sequentially fixed with two pinch plates (10) parallel to the second baffle, and a buckling groove (3) is formed between the two pinch plates (10).

8. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: at least one of the base (1) and the fixing piece (2) is provided with a guide groove (11) extending along the direction perpendicular to the base layer (14), and a bolt (12) for connecting the base (1) and the fixing piece (2) is arranged in the guide groove (11).

9. The adjustable slide anchor for a thermal insulation decorative panel according to claim 1, wherein: two through grooves (13) which are arranged inside and outside are formed in the base (1), and the fixing piece (2) sequentially penetrates through the two through grooves (13) and moves in the through grooves (13).