CN210032437U - Assembled diatom ooze wall - Google Patents

Abstract

The utility model discloses assembled diatom mud wall belongs to the interior decoration field, and the purpose shortens the site operation cycle, is convenient for maintain the maintenance. The diatom ooze building wall is formed by assembling a plurality of diatom ooze units hung on the surface of a building wall; the diatom ooze unit comprises a diatom ooze layer, a diatom ooze attachment layer and a support structure layer from outside to inside in sequence; the diatom ooze attaching layer is flatly laid on the outer surface of the support structure layer and is fixedly connected with the support structure layer, and the diatom ooze layer is formed by attaching diatom oozes to the outer surface of the diatom ooze attaching layer; and a hanging sleeve part hung with the surface of the building wall is arranged on the inner surface of the supporting structure layer. The utility model discloses, diatom ooze unit can be prefabricated production in the mill, has avoided the field stirring and has waited processes such as diatom ooze drying; because diatom mud is not direct attached to building wall surface, so require lowly to building wall basic unit, compare to building wall surface treatment when directly attaching to building wall surface with diatom mud, the construction is simpler, and the time is shorter.

Description

Assembled diatom ooze wall

Technical Field

The utility model belongs to the interior decoration field, it is assembled diatom mud wall specifically.

Background

Diatom mud is an interior wall environment-friendly decorative material taking diatomite as a main raw material. The diatom ooze is free of pollution, is pure natural, has multiple functions of fire prevention and flame retardation, breath humidity adjustment, sound absorption and noise reduction, heat preservation and heat insulation, soft color and the like, and is incomparable with traditional coatings such as emulsion paint, wallpaper and the like. Just because the environmental protection and excellent functionality of diatom ooze are favored by indoor wall decoration. However, because the diatom ooze is powdery, at present, when the diatom ooze is used for decorating a wall surface, the diatom ooze needs to be stirred in a stirring container at a construction site, and then is coated on the surface of the building wall like emulsion paint, and the surface of the building wall to be coated needs to have the base layer smooth and firm and does not have the problems of pulverization, Raney, hollowing, falling off and the like, so the surface of the building wall needs to be treated before the diatom ooze is coated, and the construction period is prolonged. Moreover, in case the hollowing scheduling problem above appearing in building wall basic unit can cause the problem that the diatom ooze wall appears damaged, when reforming transform the repair, needs whole eradicateing original diatom ooze wall, paints again, and not only extravagant time limit for a project still incremental cost causes extravagantly and increases the building decoration rubbish.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an assembled diatom mud wall shortens site operation cycle, is convenient for maintain the maintenance.

The technical scheme adopted by the utility model is that the assembled diatom ooze wall surface is formed by assembling a plurality of diatom ooze units hung on the surface of a building wall; the diatom ooze unit comprises a diatom ooze layer, a diatom ooze attaching layer and a supporting structure layer from outside to inside in sequence; the diatom ooze attaching layer is flatly laid on the outer surface of the supporting structure layer and is fixedly connected with the supporting structure layer, and the diatom ooze layer is formed by attaching diatom oozes to the outer surface of the diatom ooze attaching layer; and a hanging sleeve part hung with the surface of the building wall is arranged on the inner surface of the supporting structure layer.

Further, the support structure layer is a support plate.

Further, the diatom ooze attaching layer is a mesh cloth.

Further, an interface agent layer formed by an interface agent is coated between the gridding cloth and the diatomite layer, and the diatomite layer is adhered to the gridding cloth through the interface agent layer.

Further, the hanging kit comprises a first hanging part, a second hanging part and a third hanging part; the first hanging piece is arranged on the support structure layer, and the third hanging piece is arranged on the building wall; and the hanging and connecting piece II is connected with the hanging and connecting piece I in a hanging and connecting way and is detachably connected with the hanging and connecting piece III.

Furthermore, the hanging part I is Z-shaped and comprises a mounting section I, a connecting section I and a hanging section I, wherein the mounting section I and the hanging section I are parallel to each other, the connecting section I is perpendicular to the mounting section I and the hanging section I, one end of the connecting section I is connected with the tail end of the mounting section I, and the other end of the connecting section I is connected with the top end of the hanging section I; the mounting section is fixed on the support structure layer through a connecting screw, and a hanging groove with a downward opening is formed by the inner surface of the support structure layer, the first connecting section and the hanging section in an enclosing mode.

Further, the hanging piece II comprises a mounting section II, a connecting section II and a hanging section II, the mounting section II and the hanging section II are parallel, the connecting section II is perpendicular to the mounting section II and the hanging section II, one end of the connecting section II is connected with the top end of the mounting section II, and the other end of the connecting section II is connected with the tail end of the hanging section II; the mounting section II is connected with the hanging piece through a connecting bolt in a three-phase mode, and the hanging section II extends into the hanging groove.

Furthermore, a connecting section II, a hanging section II and a hanging piece III surround the connecting section II to form an inserting groove with an upward opening; the tail end of the first hanging section extends into the insertion groove.

Furthermore, a first limit screw is arranged on the first hanging section, a second limit screw is arranged on the second hanging section, the first limit screw and the second limit screw are located in the hanging groove, and the first limit screw is located above the second limit screw.

The utility model has the advantages that: the assembled diatom ooze wall surface is formed by assembling diatom ooze units, the diatom ooze units can be prefabricated and produced in a factory and then transported to a construction site for assembly, so that the procedures of stirring in the construction site, waiting for drying of diatom ooze coated on the upper layer for coating diatom ooze on the lower layer and the like are avoided; and when diatom mud unit went on the wall, because diatom mud is not direct attached to building wall surface, so low to building wall basic unit requirement, building wall surface only need be under construction and articulate the relevant part of external member, compare building wall surface treatment when directly attaching to building wall surface with diatom mud, the construction is simpler, and the time is shorter. Just because the diatom ooze unit can be prefabricated and produced and the surface treatment of building wall is simpler for this assembled diatom ooze wall field operation's cycle obtains shortening greatly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a partially enlarged view of a portion a of fig. 1.

In the figure, a diatom ooze unit 1, a diatom ooze layer 11, an interface agent layer 12, a diatom ooze attachment layer 13, a support structure layer 14, a hanging kit 2, a hanging part I21, a mounting section I211, a connecting section I212, a hanging section I213, a hanging groove 214, a hanging part II 22, a mounting section II 221, a connecting section II 222, a hanging section II 223, an insertion groove 224, a hanging part III 23, a limit screw I24, a limit screw II 25 and a connecting bolt 26.

Detailed Description

The invention is further described below with reference to the following figures and examples:

the assembled diatom ooze wall surface is formed by assembling a plurality of diatom ooze units 1 hung on the surface of a building wall as shown in figure 1; the diatom ooze unit 1 comprises a diatom ooze layer 11, a diatom ooze attachment layer 13 and a support structure layer 14 from outside to inside in sequence; the diatom ooze attaching layer 13 is flatly laid on the outer surface of the support structure layer 14 and is fixedly connected with the support structure layer 14, and the diatom ooze layer 11 is formed by attaching diatom oozes to the outer surface of the diatom ooze attaching layer 13; and the inner surface of the supporting structure layer 14 is provided with a hanging sleeve 2 which is hung with the surface of the building wall.

This assembled diatom mud wall plays the supporting role through supporting structure layer 14 for diatom mud forms the slice that has certain shape, also plays the effect that the installation articulates external member 2 simultaneously, so that assemble with building wall. The support structure layer 14 may be a frame structure, a plate structure, a metal structure, a wood structure, or the like. The diatom ooze layer 11 is made of diatom ooze, and the diatom ooze attaching layer 13 is used for paving the diatom ooze layer 11 on the outer surface of the support structure layer 14. Lay diatom mud adhesion layer 13 at the surface of bearing structure layer 14, the adnexed problem of diatom mud of not being convenient for such as the surface of having avoided bearing structure layer 14 at first has great hole, and secondly, has increased the roughness of bearing structure layer 14 surface, more does benefit to diatom mud and adheres to formation diatom mud layer 11. The diatom ooze layer 11 is formed by adding water into diatom oozes, stirring and then coating the diatom ooze attaching layer 13, the surface of the formed diatom ooze layer 11 is a rough surface which is not smooth, so that when the diatom ooze units 1 are tightly assembled to enable the assembling seams to be as small as possible, the assembling seams are almost invisible, and the visual effect is not influenced.

The diatom ooze units 1 are assembled, so that the diatom ooze units 1 can be prefabricated in a factory and then transported to a construction site for assembly, and the procedures of stirring in the construction site, waiting for drying of diatom ooze coated on the upper layer for coating diatom ooze on the lower layer and the like are avoided; and when diatom mud unit 1 went on the wall, because diatom mud is not direct attached to building wall surface, so low to building wall basic unit's requirement, building wall surface only need be under construction articulate the relevant part of external member 2, compare building wall surface treatment when directly attaching to building wall surface with diatom mud, the construction is simpler, and the time is shorter. Just because diatom ooze unit 1 can prefabricate production and building wall surface treatment is simpler for this assembled diatom ooze wall site operation's cycle obtains shortening greatly.

Moreover, compared with the production of the diatom ooze units 1 which are directly arranged on the wall in a large area, the area of each diatom ooze unit 1 is reduced, the surface quality is more controllable during production, and the decorative effect can be better ensured; in addition, the surface performance of each diatom ooze unit 1 is not affected by the building wall, so the probability of breakage of the diatom ooze unit 1 caused by the defects of the building wall is small.

Finally, because this assembled diatom mud wall is assembled by diatom mud unit 1 and is formed, even if some diatom mud unit 1 is damaged, also only need demolish damaged diatom mud unit 1, and need not wholly to maintain to make things convenient for the maintenance, avoid extravagant.

The above embodiment shows that: the support structure layer 14 may be a frame structure or a plate structure. However, the frame structure has many hollowed-out areas, and even if the diatom ooze attaching layer 13 is provided, the frame structure hollowed-out areas may be deformed and the like due to long-term use or external force, so that the diatom ooze layer 11 may have an uneven structure. The plate structure is good to the support performance of diatom mud adhesion layer 13, can guarantee the quality of diatom mud layer 11, and simultaneously, plate structure processing preparation is easier than frame construction.

Diatom mud adheres to layer 13 and can be structure such as board, but in order to lighten weight, avoid under the weight effect, diatom mud adheres to the layer 13 and support structure layer 14 between be connected inefficacy, alleviate the whole weight of diatom mud unit 1 simultaneously, the field installation of being convenient for, it is preferred, diatom mud adheres to layer 13 and is the net cloth. The mesh cloth is light in weight, and meanwhile, the surface of the mesh cloth is rough, and the surface of the mesh cloth does not need to be subjected to roughness treatment independently.

In order to improve the bonding firmness of the diatom ooze layer 11 and the mesh cloth, it is preferable that an interface agent layer 12 formed by an interface agent is coated between the mesh cloth and the diatom ooze layer 11, and the diatom ooze layer 11 is adhered to the mesh cloth through the interface agent layer 12. In this structure, when the interface agent is coated between the mesh cloth and the diatom ooze layer 11, the interface agent permeates into the space between the mesh cloth and the support structure layer 14 through the pores of the mesh cloth, so that the diatom ooze attachment layer 13 is firmly bonded to the support structure layer 14. The diatom ooze is coated on the interface agent layer 12, so that the interface agent layer 12 firmly combines the diatom ooze layer 11 with the mesh cloth.

The hanging kit 2 can be a hanging hole formed in the inner surface of the support structure layer 14 and a support rod installed on a building wall, and the support rod is inserted into the hanging hole to realize installation and the like. Preferably, as shown in fig. 1 and 2, the hitching kit 2 comprises a first hitching member 21, a second hitching member 22 and a third hitching member 23; the hanging piece I21 is arranged on the support structure layer 14, and the hanging piece III 23 is arranged on the building wall; the second hanging piece 22 is connected with the first hanging piece 21 in a hanging mode and detachably connected with the third hanging piece 23.

This structure is hung union piece one 21 and is hung union piece three 23 and can make by unified standard, can guarantee to hang union piece one 21 and hang the unity of union piece three 23 to guarantee the precision of hanging union piece one 21 and the 14 installations of bearing structure layer, and hang union piece three 23 and install in the precision of building the cavity, the rethread changes the installation of hanging union piece two 22 etc. to diatom mud unit 1 and adjusts, has satisfied indoor wall decoration quality demand.

The hanging piece I21 can adopt a U-shaped hanging piece, but the installation of the hanging piece I and the supporting structure layer 14 is inconvenient. Preferably, the hanging piece I21 is Z-shaped and comprises a mounting section I211, a connecting section I212 and a hanging section I213, the mounting section I211 and the hanging section I213 are parallel to each other, the connecting section I212 is perpendicular to the mounting section I211 and the hanging section I213, one end of the connecting section I212 is connected with the tail end of the mounting section I211, and the other end of the connecting section I212 is connected with the top end of the hanging section I213; the first mounting section 211 is fixed to the structural support layer 14 by a connection screw, and is surrounded by the inner surface of the structural support layer 14, the first connection section 212 and the first hooking section 213 to form a hooking groove 214 with a downward opening.

The hanging piece I21 is simple in structure and easy to manufacture. The first mounting section 211 is fixed on the support structure layer 14 through a connecting screw, and the hanging groove 214 is formed by the inner surface of the support structure layer 14, the first connecting section 212 and the first hanging section 213 in a surrounding mode, so that the connecting part of the first mounting section and the support structure layer 14 and the hanging part of the second hanging part 22 are independent and do not interfere with each other, the mounting is convenient, and the mounting precision is guaranteed.

Similarly, the second hanging piece 22 comprises a second mounting section 221, a second connecting section 222 and a second hanging section 223, the second mounting section 221 and the second hanging section 223 are parallel to each other, the second connecting section 222 is perpendicular to the second mounting section 221 and the second hanging section 223, one end of the second connecting section 222 is connected with the top end of the second mounting section 221, and the other end of the second connecting section is connected with the tail end of the second hanging section 223; the second mounting section 221 is connected with a third hanging part 23 through a connecting bolt 26, and the second hanging section 223 extends into the hanging groove 214.

The hanging connection of the first hanging connection piece 21 and the second hanging connection piece 22 is realized by the fact that the second hanging connection section 223 extends into the hanging connection groove 214. When the hanging piece I21 is used specifically, the hanging piece II 22 is connected with the hanging piece III 23 through the connecting bolt 26, and finally the hanging piece I21 is hung on the hanging piece II 22.

In order to limit the first hanging section 213 and avoid the end of the first hanging section 213 from tilting and affecting the flatness of the wall surface, preferably, the second connecting section 222, the second hanging section 223 and the third hanging part 23 surround and form an insertion groove 224 with an upward opening; the end of the first hanging section 213 extends into the insertion groove 224.

In order to tightly press the hanging section I213 and the hanging section II 223 and prevent the assembled diatom ooze unit 1 from shaking, preferably, a limit screw I24 is arranged on the hanging section I213, a limit screw II 25 is arranged on the hanging section II 223, the limit screw I24 and the limit screw II 25 are positioned in the hanging groove 214, and the limit screw I24 is positioned above the limit screw II 25.

Claims (9)

1. Assembled diatom mud wall, its characterized in that: is formed by assembling a plurality of diatom ooze units (1) hung on the surface of a building wall; the diatom ooze unit (1) comprises a diatom ooze layer (11), a diatom ooze attachment layer (13) and a support structure layer (14) from outside to inside in sequence; the diatom ooze attaching layer (13) is flatly laid on the outer surface of the supporting structure layer (14) and is fixedly connected with the supporting structure layer (14), and the diatom ooze layer (11) is formed by attaching diatom oozes to the outer surface of the diatom ooze attaching layer (13); and a hanging sleeve (2) hung with the surface of the building wall is arranged on the inner surface of the support structure layer (14).

2. The fabricated diatom ooze wall surface of claim 1, wherein: the support structure layer (14) is a support plate.

3. The fabricated diatom ooze wall surface of claim 2, wherein: the diatom ooze attaching layer (13) is a mesh cloth.

4. The fabricated diatom ooze wall surface of claim 3, wherein: an interface agent layer (12) formed by an interface agent is coated between the gridding cloth and the diatom ooze layer (11), and the diatom ooze layer (11) is adhered to the gridding cloth through the interface agent layer (12).

5. The fabricated diatom ooze wall surface of any one of claims 1-4, wherein: the hanging kit (2) comprises a hanging piece I (21), a hanging piece II (22) and a hanging piece III (23); the hanging piece I (21) is arranged on the support structure layer (14), and the hanging piece III (23) is arranged on the building wall; and the hanging piece II (22) is connected with the hanging piece I (21) in a hanging manner and is detachably connected with the hanging piece III (23).

6. The fabricated diatom ooze wall surface of claim 5, wherein: the hanging piece I (21) is Z-shaped and comprises a mounting section I (211), a connecting section I (212) and a hanging section I (213), the mounting section I (211) and the hanging section I (213) are parallel to each other, the connecting section I (212) is perpendicular to the mounting section I (211) and the hanging section I (213), one end of the connecting section I (212) is connected with the tail end of the mounting section I (211), and the other end of the connecting section I (212) is connected with the top end of the hanging section I (213); the first mounting section (211) is fixed to the support structure layer (14) through a connecting screw, and a hanging groove (214) with a downward opening is formed by the inner surface of the support structure layer (14), the first connecting section (212) and the first hanging section (213) in a surrounding mode.

7. The fabricated diatom ooze wall surface of claim 6, wherein: the second hanging piece (22) comprises a second mounting section (221), a second connecting section (222) and a second hanging section (223), the second mounting section (221) and the second hanging section (223) are parallel to each other, the second connecting section (222) is perpendicular to the second mounting section (221) and the second hanging section (223), one end of the second connecting section is connected with the top end of the second mounting section (221), and the other end of the second connecting section is connected with the tail end of the second hanging section (223); the mounting section II (221) is connected with the hanging piece III (23) through a connecting bolt (26), and the hanging section II (223) extends into the hanging groove (214).

8. The fabricated diatom ooze wall surface of claim 7, wherein: a plug-in groove (224) with an upward opening is formed by the surrounding of the connecting section II (222), the hanging section II (223) and the hanging piece III (23); the tail end of the hanging section I (213) extends into the insertion groove (224).

9. The fabricated diatom ooze wall surface of claim 7, wherein: the first hanging section (213) is provided with a first limit screw (24), the second hanging section (223) is provided with a second limit screw (25), the first limit screw (24) and the second limit screw (25) are positioned in the hanging groove (214), and the first limit screw (24) is positioned above the second limit screw (25).

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