CN213626449U - Ground glue system - Google Patents

Abstract

The utility model relates to a need not wet construction and install rapid ground system of gluing, arrange in subaerial a plurality of corrugated base boards including the level, the side of each in a plurality of corrugated base boards is equipped with the hasp, a plurality of corrugated base boards are through mutually supporting the hasp is connected, and the upper surface of a plurality of corrugated base boards lays the ground glue film.

Description

Ground glue system

Technical Field

The application relates to the field of ground decoration, in particular to a floor gel system.

Background

In some existing indoor places, particularly sports or competition places such as table tennis and badminton, in order to increase the friction force and the buffer force on the ground and avoid injury caused by slipping of athletes, a layer of ground rubber is usually paved on the ground to form a ground rubber system of a ground rubber surface layer.

When the ground is paved with the glue, the ground is leveled, then the glue layer is paved above the ground leveling layer and is adhered by the glue. The existing indoor floor slab leveling layer of the building is basically leveled by fine stone concrete constructed by a traditional wet method, and the floor slab leveling layer is thick, the density of the fine stone concrete is high, the weight is large, a considerable load is added to a floor beam structure after leveling, the cost is high, the sound absorption effect of a public plant is poor, and the construction period is long.

Disclosure of Invention

The technical problem that this application will solve is: a flooring system which does not require wet construction and is quickly installed is provided.

The technical scheme of the application is as follows:

the utility model provides a ground glue system, includes a plurality of corrugated base plates of level arrangement on ground, the side of each of a plurality of corrugated base plates is equipped with the hasp, a plurality of corrugated base plates are connected through mutually supporting the hasp to the upper surface laying ground glue layer of a plurality of corrugated base plates.

On the basis of the technical scheme, the application also comprises the following preferable scheme:

the lock catch comprises a male buckle and a female buckle which are matched with each other, and each corrugated base plate is a polygonal plate formed by enclosing at least three straight line side edges; at least one side edge of each of the plurality of corrugated substrates is provided with the male buckle, and at least one other straight line side edge of each of the plurality of corrugated substrates is provided with the female buckle; two adjacent corrugated substrates are connected through the male buckle and the female buckle which are matched with each other.

Each of a plurality of corrugated substrate is the rectangular plate that closes and form by the long side of two parallels and the short side of two parallels, and a long side and a short side set up respectively the pin thread, another long side and another short side set up respectively the box thread.

The lock catch comprises a male buckle and a female buckle which are matched with each other, and each corrugated base plate is a polygonal plate formed by enclosing at least three straight line side edges; each side edge of one part of the corrugated base plates is provided with the male buckle, and each straight line side edge of the other corrugated base plates is provided with the female buckle; two adjacent corrugated substrates are connected through the male buckle and the female buckle which are matched with each other.

The corrugated board includes:

an upper panel is arranged on the upper side of the frame,

a lower panel arranged in parallel below the upper panel, an

A corrugated core layer fixedly connected between the upper panel and the lower panel;

and a lock catch embedding gap positioned around the corrugated core layer is formed between the upper panel and the lower panel, and the lock catch is embedded into the lock catch embedding gap and is welded or adhered and fixed with the upper panel or/and the lower panel.

The corrugated core layer is an aluminum corrugated layer, a steel corrugated layer or a plastic corrugated layer.

The upper panel and the lower panel are aluminum plates or steel plates.

The floor glue layer is fixedly bonded on the upper surface of the corrugated base plate.

The ground is paved with a heat insulation pad, the upper surface of the heat insulation pad is provided with a pipe groove which is sunken downwards, a ground heating pipe is embedded in the pipe groove, the corrugated substrate is made of metal, and the corrugated substrate is paved on the upper surface of the heat insulation pad and is in heat conduction connection with the ground heating pipe.

The ground is paved with a heat insulation pad, the upper surface of the heat insulation pad is paved with an electric heating film, the corrugated substrate is made of metal, and the corrugated substrate is paved on the upper surface of the electric heating film.

The application can realize the following beneficial effects:

1. this application sets up the hasp at the corrugated sheet side that compressive property and bending resistance are excellent to make these corrugated sheets can splice fast together fixedly, form the upper surface and level and have high bearing capacity dry-type "screed-coat", the glue film shop in this corrugated sheet screed-coat upper surface and bond fixedly can. The wet construction is not needed, the installation is rapid, and the construction period is short.

2. The corrugated substrate for bearing the floor adhesive layer is made of metal, particularly aluminum, and has the advantages of rapid heat conduction, high structural strength, less material consumption, light weight and low cost. After a heat source is arranged below the floor glue system to form the floor heating floor glue system, the corrugated base plate made of metal materials can rapidly guide heat of the heat source below to the floor glue layer, and then the heat is guided indoors by the floor glue layer, so that the indoor temperature is rapidly increased.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description only relate to some embodiments of the present application and are not limiting on the present application.

Fig. 1 is a schematic cross-sectional structure view of a floor glue system in an embodiment of the application when a floor heating structure is not provided.

Fig. 2 is a schematic cross-sectional view of a corrugated board with locking device in the width direction according to an embodiment of the present application.

Fig. 3 is a schematic cross-sectional view of a corrugated board with lock catches along the length direction according to an embodiment of the present application.

Fig. 4 is a schematic perspective view of a corrugated substrate according to an embodiment of the present application.

Fig. 5 is a schematic cross-sectional structure view of a floor heating structure provided by a floor glue system in an embodiment of the application.

Fig. 6 is a schematic cross-sectional view of a floor gel system according to a second embodiment of the present application.

Fig. 7 is a schematic cross-sectional view of a floor gel system in the third embodiment of the present application.

Wherein:

1-a corrugated substrate, 2-a lock catch, 3-a floor adhesive layer, 4-a ground, 5-a heat insulation pad, 6-a floor heating pipe, 7-a heat conducting pipe clamp, 8-a heat conducting adhesive, 9-an electrothermal film and 10-a heat conducting film; 101-upper panel, 102-lower panel, 103-corrugated core layer, 1 a-lock buckle embedding gap, 2 a-male buckle, 2 b-female buckle and 501-pipe groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings of the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the application without any inventive step, are within the scope of protection of the application.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of the terms "a" or "an" and the like in the description and in the claims of the present application do not denote a limitation of quantity, but rather denote the presence of at least one.

In the description of the present specification and claims, the terms "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

Embodiments of the present application will now be described with reference to the accompanying drawings.

The first embodiment is as follows:

fig. 1 to 4 show a preferred embodiment of the floor covering system of the present application, which comprises a plurality of corrugated bases 1 horizontally arranged on a floor 4, wherein each corrugated base 1 is provided with a lock catch 2 at a side edge, the corrugated bases 1 are connected together by the lock catches 2 at side edge positions, and the upper surface of the corrugated bases 1 is laid with a floor covering 3. The floor glue layer 3 is PVC floor glue.

In order to prevent the floor adhesive layer 3 from curling and lifting or loosening during use, the present embodiment also adhesively fixes the floor adhesive layer 3 to the upper surface of the corrugated base board 1 by means of an adhesive. There are two embodiments for adhesively fixing the floor adhesive layer 3 to the upper surface of the corrugated board 1: first, each corrugated board 1 is laid on the ground 4, the corrugated boards 1 are connected together by the side lock catches 2, and then the adhesive layer 3 is adhered to the upper surface of the corrugated boards 1. Secondly, a small-area ground glue layer 3 is firstly adhered to the upper surface of the corrugated base plate 1, then the corrugated base plate 1 with the ground glue layer 3 on the surface is paved on the ground 4, and the corrugated base plates 1 with the ground glue layers 3 on the surface are connected together by means of the side lock catches 2. It is obvious that the scope of protection of the claims of the present application encompasses both solutions.

The lock catch 2 can be divided into two structures, one is a male buckle 2a, the other is a female buckle 2b, and the male buckle 2a and the female buckle 2b are matched and can be mutually buckled. Each of the corrugated bases 1 is a rectangular plate having two long sides arranged in parallel and two short sides arranged in parallel. One long side and one short side of each corrugated board 1 are respectively provided with a male buckle 2a, and the other long side and the other short side are respectively provided with a female buckle 2 b. The corresponding male and female buckles 2a and 2b on any two adjacent corrugated substrates 1 are mutually matched and fastened, so that the adjacent corrugated substrates 1 are connected.

It should be noted that the two male fasteners on the corrugated base plate 1 may have different structures, and the two female fasteners may also have different structures. For example, the floor block disclosed in chinese patent application No. CN101910528B, has two long sides respectively provided with a male buckle and a female buckle which are mutually matched in a manner of turning at an angle, and two short sides respectively provided with a male buckle and a female buckle which are mutually matched in a manner of vertical displacement and have another structure.

Above-mentioned corrugated substrate 1 has adopted traditional corrugated sheet structure, and it includes: an upper surface plate 101, a lower surface plate 102 arranged in parallel below the upper surface plate, and a corrugated medium layer 103 fixedly attached between the upper and lower surface plates. Specifically, the adhesive layer 3 is adhesively fixed to the upper surface of the upper panel 101.

Further, the upper surface plate 101 is adhesively fixed to the upper surface of the corrugated core layer 103 by an adhesive (hot melt adhesive film), and the lower surface plate 102 is adhesively fixed to the lower surface of the corrugated core layer 103 by an adhesive (hot melt adhesive film). Of course, the upper and lower face plates and the corrugated medium layer may be welded and fixed.

Unlike the conventional corrugated board, the area of the corrugated medium layer 103 in the corrugated board of the present embodiment is smaller than the areas of the upper and lower surface plates 101 and 102, and each side of the corrugated medium layer 103 is located inside the corresponding side of the upper and lower surface plates 101 and 102, so that the lock catch fitting gap 1a around the corrugated medium layer 103 is formed between the upper and lower surface plates 101 and 102. The lock catch 2 is fitted into the lock catch fitting gap 1a, and a lock catch portion fitted into the lock catch fitting gap 1a is welded and fixed to the upper panel 101 and the lower panel 102.

The latch 2 may be welded to only one of the upper panel 101 and the lower panel 102. The advantage of so designing lies in: the assembly efficiency of the lock catch and the corrugated base plate 1 is improved. But has the defects that: the coupling strength of the locking buckle to the corrugated base plate 1 is slightly poor.

Further, an adhesive may be applied to the lock catch 2, and the lock catch portion fitted into the lock catch fitting gap 1a may be adhesively fixed to the upper panel 101 and/or the lower panel 102 with the adhesive.

In this embodiment, the corrugated board 1 is a corrugated aluminum board, the upper surface board 101 and the lower surface board 102 are both aluminum boards, and the middle corrugated medium layer 103 is an aluminum corrugation. Each lock catch is an integrated part and is made of aluminum profiles. Of course, other materials may be used for the latch, such as an integrally formed plastic piece.

The upper surface plate 101, the lower surface plate 102 and the corrugated medium layer 103 of the corrugated base plate 1 are made of other materials, such as: the upper and lower panels 101, 102 may also be steel sheets, and the middle corrugated layer 103 may also be a stainless steel corrugation or a plastic corrugation.

In this embodiment, the corrugated substrate is a rectangular plate having a long strip shape. Like most corrugated board, the corrugated core layer 103 in this embodiment is also a wave-shaped structure having a plurality of alternately arranged peaks and valleys. It is known that the bending strength of the rectangular strip board in the length direction is weaker than that in the width direction, while the bending strength of the corrugated medium layer in the direction perpendicular to the arrangement of the peaks and valleys is much higher than that in the direction parallel to the arrangement of the peaks and valleys. Based on this, this embodiment arranges each crest and trough of this wavy flute core layer along the width direction of flute base plate in turn to promote the bending resistance of flute base plate 1 in length direction greatly.

As mentioned above, the upper surface plate 101 is adhesively fixed to the upper surface of the corrugated medium layer 103 by an adhesive, and the lower surface plate 102 is adhesively fixed to the lower surface of the corrugated medium layer 103 by an adhesive. Therefore, the bonding process is controlled only when the upper and lower panels and the middle wavy corrugated core layer are bonded, all wave crests of the wavy corrugated core layer can be bonded and fixed with the upper panel 101, and all wave troughs are bonded and fixed with the lower panel 102, so that all wave crests and all wave troughs of the corrugated core layer are tightly combined with the upper and lower panels, and the bending strength of the rectangular floor block is further improved.

In some other embodiments of the present application, each of the peaks and each of the valleys of the corrugated medium layer 103 may be provided in a planar structure, and (the upper surface of) each of the peaks of the planar structure is arranged to abut against and is adhesively fixed to (the lower surface of) the upper panel, and (the lower surface of) each of the valleys of the planar structure is arranged to abut against and is adhesively fixed to (the upper surface of) the lower panel. This greatly increases the bonding area and bonding strength of the corrugated medium layer to the upper and lower panels 101 and 102, and prevents the upper or lower panel from peeling off from the corrugated medium layer during use.

The corrugated aluminum plate is adopted as the base plate of the floor glue system in the embodiment, and the two considerations are mainly as follows:

1. the corrugated aluminum has mature manufacturing process, lower cost and light weight.

2. Corrugated aluminum plate's heat conduction rate is high, sets up the heat source formation underfloor heating system in its below, can lead the heat of below heat source to glue film 3 fast, and it is indoor again by 3 direction on glue film, promote indoor temperature rapidly. Specifically, reference may be made to fig. 5:

in fig. 5, a layer of flexible heat insulating mat 5 is laid on a floor 4 (generally, an indoor floor, including a floor surface), a plurality of pipe slots 501 are formed on an upper surface of the heat insulating mat 5, and the ground heating pipes 6 for supplying hot water are inserted into the pipe slots. The corrugated substrate 1 is laid on the upper surface of the heat insulation pad 5 and is in heat conduction connection with the ground heating pipe 6.

The heat insulation pad 5 is preferably made of foam plastic having flexibility so as to protect the floor heating pipe 6, and the foam plastic is light, environment-friendly and excellent in sound insulation performance. Further, the heat insulating pad 5 is preferably made of a polystyrene resin (also a foamed plastic) having a fire-proof property.

If ground heating coil 6 and 1 direct contact of flute base plate, then the two is linear contact, and heat conduction area is little, thereby ground heating coil 6 is buckled easily moreover and is warp and lead to its and 1 contact failure of top flute base plate, and heat transfer efficiency can't be ensured. Based on this, a plurality of heat conduction pipe clamps 7 of this embodiment joint on ground heating coil 6, heat conduction pipe clamp 7 have the heat conduction top surface, and this heat conduction top surface is in the position of 501 notches in the tube seat, and the vertical butt of lower surface of the lower panel of heat conduction pipe clamp 7 and corrugated substrate. As can be seen, the ground heating pipe 6 is indirectly connected with the corrugated substrate 1 in a heat-conducting manner by means of the heat-conducting pipe clamp 7.

Furthermore, a glue groove which is concave downwards is formed on the heat-conducting top surface of the heat-conducting pipe clamp 7, and heat-conducting glue 8 for bonding the lower panel of the corrugated substrate and the heat-conducting pipe clamp 7 is arranged in the glue groove, so that good heat conduction between the heat-conducting pipe clamp 7 and the corrugated substrate 1 is further ensured.

Example two:

fig. 6 shows a second preferred embodiment of the flooring system of the present application, which is substantially identical to the first embodiment except that:

in this embodiment, the ground heating heat source below the corrugated base plate 1 is the electric heating film 9, not a ground heating pipe through which hot water flows. And the upper surface of the lower heat insulating mat 5 is a complete plane, and a pipe groove does not need to be started. The method comprises the following specific steps:

a heat insulation pad 5 is laid on the ground 4, an electric heating film 9 is laid on the upper surface of the heat insulation pad 5, a corrugated substrate 1 is laid on the upper surface of the electric heating film 9, and a ground glue layer 3 is laid on the upper surface of the corrugated substrate 1 and is bonded and fixed.

Example three:

fig. 7 shows a third preferred embodiment of the floor heating system of the present application, which has substantially the same structure as the first embodiment except that: in this embodiment, a heat conducting pipe clamp is not provided, but the upper surface of the heat insulating pad 5 is covered with a heat conducting film 10, a part of the heat conducting film 10 is sandwiched between the outer wall of the ground heating pipe 6 and the wall of the pipe groove 501, and the metal corrugated board 201 (specifically, the lower panel 201b) is arranged on the upper surface of the heat conducting film 10 in an abutting manner.

The heat conductive film 10 is preferably an aluminum foil.

It should be noted that in some other embodiments of the present application, the corrugated substrate 1 may be made into other shapes, such as a triangle, a diamond, or a hexagon. Furthermore, it is not necessary to provide the lock catches 2 on each side of the corrugated substrate. In addition, it is not necessary that each corrugated board is provided with both male and female buttons, and in the same flooring system, each side of a part of the corrugated boards 1 may be provided with only the male button 2a, and each side of the rest of the corrugated boards 1 may be provided with only the female button 2b, which can also achieve the interconnection of the corrugated boards 1.

The above are exemplary embodiments of the present application only, and are not intended to limit the scope of the present application, which is defined by the appended claims.

Claims (10)

1. A floor gel system is characterized by comprising a plurality of corrugated base plates (1) horizontally arranged on a ground (4), wherein a lock catch (2) is arranged on the side edge of each of the corrugated base plates (1), the corrugated base plates (1) are connected through the lock catches (2) which are matched with each other, and a ground gel layer (3) is laid on the upper surfaces of the corrugated base plates (1);

the corrugated board (1) includes:

an upper panel (101) is provided,

a lower panel (102) arranged in parallel below the upper panel, an

A corrugated core layer (103) fixedly attached between the upper and lower face sheets;

the corrugated base plate (1) is a rectangular plate formed by enclosing two parallel long side edges and two parallel short side edges, and all wave crests (103a) and all wave troughs (103b) of the corrugated core layer (103) are alternately arranged along the width direction of the corrugated base plate.

2. The floor gel system according to claim 1, wherein the lock catch (2) comprises a male buckle (2a) and a female buckle (2b) which are matched with each other; at least one side of each of the corrugated substrates (1) is provided with the male buckle (2a), and at least one other straight side of each of the corrugated substrates is provided with the female buckle (2 b); two adjacent corrugated base plates (1) are connected through the male buckle (2a) and the female buckle (2b) which are matched with each other.

3. The floor covering system according to claim 2, wherein each of the plurality of corrugated bases (1) is provided with the male buckle (2a) at one long side and one short side thereof, respectively, and with the female buckle (2b) at the other long side and the other short side thereof, respectively.

4. The floor gel system according to claim 1, wherein the lock catch (2) comprises a male buckle (2a) and a female buckle (2b) which are matched with each other; each side edge of one part of the corrugated base plates (1) is provided with the male buckle (2a), and each straight line side edge of the other corrugated base plates (1) is provided with the female buckle (2 b); two adjacent corrugated base plates (1) are connected through the male buckle (2a) and the female buckle (2b) which are matched with each other.

5. The floor covering system according to any one of claims 1 to 4, wherein a lock catch embedding gap (1a) around the corrugated medium layer (103) is formed between the upper panel (101) and the lower panel (102), and the lock catch (2) is embedded in the lock catch embedding gap (1a) and is welded or adhesively fixed to the upper panel (101) or/and the lower panel (102).

6. The flooring system according to claim 5, wherein the corrugated medium layer (103) is aluminum corrugated, steel corrugated or plastic corrugated.

7. The floor gluing system according to claim 5, characterized in that said upper panel (101) and said lower panel (102) are aluminum or steel plates.

8. The flooring system according to claim 1, wherein the flooring layer (3) is adhesively fixed to the upper surface of the corrugated base board (1).

9. The ground rubber system of claim 1, wherein a heat insulation pad (5) is laid on the ground (4), a pipe groove (501) which is recessed downwards is formed in the upper surface of the heat insulation pad (5), a ground heating pipe (6) is embedded in the pipe groove (501), the corrugated substrate (1) is made of metal, and the corrugated substrate (1) is laid on the upper surface of the heat insulation pad (5) and is in heat conduction connection with the ground heating pipe (6).

10. The floor gel system according to claim 1, wherein a heat insulation pad (5) is laid on the ground (4), an electric heating film (9) is laid on the upper surface of the heat insulation pad (5), the corrugated substrate (1) is made of metal, and the corrugated substrate (1) is laid on the upper surface of the electric heating film (9).

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