CN212104960U - Anti-deformation waste composite floor - Google Patents

Abstract

The utility model discloses a waste composite floor of preapring for an unfavorable turn of events shape, including waste sandwich layer (1), the upside of waste sandwich layer (1) is equipped with panel (2), the downside of waste sandwich layer (1) is equipped with bottom plate (3), panel (2) and bottom plate (3) all are equipped with a plurality of shock attenuation strip (31) that stretch into in waste sandwich layer (1), the tip of shock attenuation strip (31) is equipped with metal fixture block (32), metal fixture block (32) are located waste sandwich layer (1), be equipped with a plurality of magnetic paths (33) that attract with metal fixture block (32) in waste sandwich layer (1); the right side of the panel (2) is provided with a rubber layer (41), and the left side of the panel (2) is provided with a sound insulation plate (42) matched with the rubber layer (41). The utility model has the characteristics of improve floor intensity, non-deformable, increase of service life.

Description

Anti-deformation waste composite floor

Technical Field

The utility model relates to a composite floor, especially a discarded object composite floor who preapres for an unfavorable turn of events shape.

Background

With the protection of the ecological environment and the increasing importance of the full utilization of resources, at present, more and more industries recycle wastes, and in the floor industry, the floor is prepared by using the wastes, such as straws, corn stalks, straws or wooden wastes. The floor made of waste is often made by extrusion or hot pressing, although the cost is reduced, the strength is not high enough, the bearing effect is weak, and in the using process, due to the change of environment or the corrosion of moisture, the deformation of the wood board is easy to cause under the adverse environment for a long time, the using quality is reduced, and the service life is shortened.

Therefore, the floor prepared by the existing wastes has the problems of low strength, easy deformation and short service life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a waste composite floor who preapres for an unfavorable turn of events shape. The utility model has the characteristics of improve floor intensity, non-deformable, increase of service life.

The technical scheme of the utility model: an anti-deformation waste composite floor comprises a waste core layer, wherein a panel is arranged on the upper side of the waste core layer, a bottom plate is arranged on the lower side of the waste core layer, a plurality of shock absorption strips extending into the waste core layer are arranged on the panel and the bottom plate, metal clamping blocks are arranged at the end parts of the shock absorption strips and located in the waste core layer, and a plurality of magnetic blocks attracted with the metal clamping blocks are arranged in the waste core layer; the right side of panel is equipped with the rubber layer, and the left side of panel is equipped with the acoustic celotex board that matches with the rubber layer.

In the waste composite floor who preapress an unfavorable turn of events shape, the outer apex angle department on rubber layer is the inclined plane, and the top on rubber layer is flat mutually with the top of panel, and one side top of acoustic celotex board is equipped with the lug with the inclined plane assorted on rubber layer, and the opposite side of acoustic celotex board is equipped with the connecting strip that stretches into panel, discarded object sandwich layer and bottom plate respectively.

In the anti-deformation waste composite floor, the cross sections of the metal clamping blocks and the magnetic blocks are trapezoidal, and the suction surfaces of the metal clamping blocks and the magnetic blocks are larger.

In the anti-deformation waste composite floor, the waste core layer is internally provided with mounting grooves which are respectively matched with the damping strips, the metal clamping blocks and the magnetic blocks.

In the above anti-deformation composite floor made of waste, the bottom of the bottom plate is provided with a waterproof layer extending to the bottom of the rubber layer and the bottom of the sound insulation plate.

Compared with the prior art, the waste core layer is made of waste, the connection among the panel, the bottom plate and the waste core layer is firmer through the connection of the damping strips, the metal clamping blocks and the magnetic blocks, the strength and the stability of the whole floor are improved, the service life is prolonged, the floor is prevented from being warped and deformed, the damping effect is achieved, and the use comfort level is improved; the cooperation sets up rubber layer and acoustic celotex board at the lateral part, and the side on protection floor reduces the deformation gap when the floor concatenation, improves the concatenation compactness, effectively strengthens the shape ability of preapring for an unfavorable turn of events on floor.

Therefore, the utility model has the characteristics of improve floor intensity, non-deformable, increase of service life.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The labels in the figures are: 1. a waste core layer; 11. mounting grooves; 2. a panel; 3. a base plate; 31. a shock absorbing bar; 32. a metal fixture block; 33. a magnetic block; 41. a rubber layer; 411. an inclined surface; 42. a sound insulating board; 421. a bump; 43. a connecting strip; 5. and a waterproof layer.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given.

As shown in fig. 1, the anti-deformation waste composite floor comprises a waste core layer 1, wherein a panel 2 is arranged on the upper side of the waste core layer 1, a bottom plate 3 is arranged on the lower side of the waste core layer 1, a plurality of shock absorption strips 31 extending into the waste core layer 1 are arranged on the panel 2 and the bottom plate 3, metal clamping blocks 32 are arranged at the end parts of the shock absorption strips 31, the metal clamping blocks 32 are positioned in the waste core layer 1, and a plurality of magnetic blocks 33 attracted with the metal clamping blocks 32 are arranged in the waste core layer 1; the right side of the panel 2 is provided with a rubber layer 41, and the left side of the panel 2 is provided with a sound insulation board 42 matched with the rubber layer 41.

The outer top corner of the rubber layer 41 is an inclined surface 411, the top of the rubber layer 41 is flush with the top of the panel 2, the top of one side of the sound insulation board 42 is provided with a bump 421 matched with the inclined surface 411 of the rubber layer 41, and the other side of the sound insulation board 42 is provided with a connecting strip 43 respectively extending into the panel 2, the waste core layer 1 and the bottom plate 3. The design of the top connection between the sound insulation board 42 and the rubber layer 41 not only plays a role in guiding when the composite floor is spliced, improves the smoothness and accuracy of splicing, but also ensures that the composite floor is more tightly and stably connected.

The cross sections of the metal fixture block 32 and the magnetic block 33 are both trapezoidal, and the attraction surface of the metal fixture block 32 and the magnetic block 33 is a larger trapezoidal surface. The design improves the suction strength of the metal clamping block 32 and the magnetic block 33, and improves the connection strength between the panel 2, the bottom plate 3 and the waste core layer 1.

The waste core layer 1 is internally provided with an installation groove 11 which is respectively matched with the damping strip 31, the metal clamping block 32 and the magnetic block 33.

The bottom of the bottom plate 3 is provided with a waterproof layer 5 extending to the bottom of the rubber layer 41 and the bottom of the sound insulation plate 42.

The working principle is as follows: the method comprises the steps of manufacturing a waste core layer 1 by using straws, waste wood materials and the like, installing a magnetic block 33, connecting a panel 2 and a bottom plate 3 with the waste core layer 1 through a damping strip 31 and a metal clamping block 32, fixing the panel and the bottom plate by using fixing glue, stabilizing the waste core layer 1, sealing a side part by using a protective plate or a paint layer, arranging a rubber layer 41, a sound insulation plate 42 and a waterproof layer 5, and protecting the floor. When the floor is installed and spliced, the rubber layer 41 and the sound insulation board 42 are mutually extruded and tightly attached, installation gaps are reduced, installation stability is improved, arching deformation of the floor is reduced, and deformation prevention capacity is improved. Utilize shock attenuation strip 31 to connect panel 2 respectively, discarded object sandwich layer 1 and bottom plate 3, not only have the shock attenuation cushioning effect, experience and feel, and prevent the perk on floor, the overall structure stability on floor has been improved, and prolonged service life has still set up the cross-section and has adsorbed for trapezoidal metal fixture block 32 and the cooperation of the magnetic path 33 in discarded object sandwich layer 1, improve the intensity and the stability of discarded object sandwich layer 1 on the one hand, reduce and warp, on the other hand makes panel 2, be connected more firmly between bottom plate 3 and the discarded object sandwich layer 1.

Claims (5)

1. The utility model provides a waste composite floor who preapres for an unfavorable turn of events shape which characterized in that: the waste core layer comprises a waste core layer (1), a panel (2) is arranged on the upper side of the waste core layer (1), a bottom plate (3) is arranged on the lower side of the waste core layer (1), a plurality of shock absorption strips (31) extending into the waste core layer (1) are arranged on the panel (2) and the bottom plate (3), metal clamping blocks (32) are arranged at the end parts of the shock absorption strips (31), the metal clamping blocks (32) are located in the waste core layer (1), and a plurality of magnetic blocks (33) attracted with the metal clamping blocks (32) are arranged in the waste core layer (1); the right side of the panel (2) is provided with a rubber layer (41), and the left side of the panel (2) is provided with a sound insulation plate (42) matched with the rubber layer (41).

2. The anti-deformation waste composite floor as claimed in claim 1, wherein: the outer apex angle department of rubber layer (41) is inclined plane (411), and the top of rubber layer (41) is flat mutually with the top of panel (2), and one side top of acoustic celotex board (42) is equipped with inclined plane (411) assorted lug (421) of rubber layer (41), and the opposite side of acoustic celotex board (42) is equipped with connecting strip (43) that stretch into panel (2), discarded object sandwich layer (1) and bottom plate (3) respectively.

3. The anti-deformation waste composite floor as claimed in claim 1, wherein: the cross sections of the metal clamping block (32) and the magnetic block (33) are in a trapezoid shape, and the attraction surface of the metal clamping block (32) and the magnetic block (33) is a larger surface.

4. The anti-deformation waste composite floor as claimed in claim 1, wherein: the waste core layer (1) is internally provided with mounting grooves (11) which are respectively matched with the damping strips (31), the metal clamping blocks (32) and the magnetic blocks (33).

5. The anti-deformation waste composite floor as claimed in claim 1, wherein: and a waterproof layer (5) extending to the bottom of the rubber layer (41) and the bottom of the sound insulation board (42) is arranged at the bottom of the bottom plate (3).

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