CN111088880A - Laminated wood standing wood elastic floor and manufacturing method thereof - Google Patents

Abstract

The invention discloses a laminated wood standing elastic floor and a manufacturing method thereof. The floor base material is connected with the base material through the connecting piece, the male groove and the female groove are fastened and locked, the floor after pavement is suspended or slightly suspended, when external force acts, the floor is elastically deformed and has recoil force, and when the external force is relieved, the floor is restored to the original normal state.

Description

Laminated wood standing wood elastic floor and manufacturing method thereof

Technical Field

The invention belongs to the technical field of floors, and particularly relates to a laminated wood standing wood elastic floor and a manufacturing method thereof.

Background

With the improvement of living standard of people, the market demand for personalized and functional decorative materials is continuously increasing. The floor is an important decorative material, and the wooden floor belongs to a medium-high grade product in the floor board because of the characteristics of beautiful appearance, nature, comfortable foot feeling and the like. But the wooden floor on the existing market is mostly formed by radial processing of wood and is in a strip shape, the connection mode adopts the same-direction splicing of a tenon-and-mortise structure, so that the floor is not enough in overall variability after being paved and slightly low in impact resistance, and in addition, the product trend is larger due to the great homogeneity of the processing mode, and the diversified requirements of the existing market cannot be met.

Disclosure of Invention

The invention aims to provide a laminated wood standing wood elastic floor with good pressure resistance and impact toughness.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

the utility model provides a laminated wood founds wooden resilient floor, includes the substrate, the substrate is formed by the horizontal concatenation of a plurality of vertical timber units, the grain direction of timber unit is vertical.

The traditional elastic floor is of a laminated structure, the properties of all layers are different, the connection states of the layers are different, and the transverse stress, the compression resistance, the impact toughness and the resilience of wood serving as a floor base material are greatly restricted.

The wood units are arranged horizontally, and the wood grain direction is vertical, so that the laminated wood is formed. The wood unit is stressed vertically, and has strong pressure resistance, good impact toughness and good rebound resilience.

Further, the bending resistance of the wood units in the vertical direction is stronger than the bending resistance in the transverse direction.

The traditional elastic floor adopts the transverse stress of wood, and the bending resistance of the traditional elastic floor is weaker. The invention adopts the vertical direction stress of the wood, has stronger bending resistance and meets the performance requirement of the elastic floor.

Further, the wood unit section is hexagonal.

The wood units with hexagonal sections are transversely arranged to form the laminated wood with the honeycomb structure. On the one hand, the splicing assembly is simple, and on the other hand, the structure of the laminated wood is stable.

Further, the cross section of the wood unit is fourteen-sided polygon.

The cross-section is the horizontal range of the timber unit of fourteen-sided shape and forms the laminated wood, makes the area of contact between timber unit and the timber unit become more and enlarges on the one hand, makes on the one hand there are more mutual block contact site between timber unit and the timber unit, all makes the laminated wood structure that forms more firm.

Furthermore, the fourteen-edge shape has two parallel sides, two groups of saw-tooth sides, the length of the saw-tooth sides is the same, and the saw teeth at the middle part are protruded relative to the saw teeth at the two sides.

The area that the structure of zigzag makes mutual contact between timber unit and the timber unit more enlarges, and the position of mutual block is more, and the contact is inseparabler for the laminated wood structure that forms is more firm.

Further, the wood unit is formed by cutting and processing rotary-cut wood processing residues.

The wood rotary-cut processing residues, which are generally cylindrical wood cores, no longer have conventional utilizable values and are often used as firewood. The wood rotary-cut processing residues are cut to form a hexagon or a fourteen-sided polygon, and then are spliced into the laminated wood, so that the waste resources are reused.

Further, the wood unit is formed by cutting small-diameter wood.

The small diameter timber is timber with small diameter, generally small timber which is not grown yet, or branches of large diameter timber. The small-diameter wood is difficult to apply in the field of conventional wood processing, is generally used as waste or as firewood, and has extremely low utilization value. The invention cuts the small diameter wood to form a hexagon or a fourteen-sided polygon, and then splices the small diameter wood into the integrated wood, thereby reusing the waste resources.

Furthermore, the laminated wood standing wood elastic floor also comprises a connecting piece, wherein a female groove is formed in the connecting piece, and a male groove matched with the female groove is formed in the base material; the number of the base materials is a plurality, and each base material is installed on the connecting piece through the matching of the male groove and the female groove so that the base materials are spliced together.

Through being provided with female groove on the connecting piece, be provided with public groove on the substrate, public groove and female groove matched with mode make things convenient for being connected and block between floor substrate and substrate, have improved the degree of freedom of assembling on floor, make things convenient for the floor to mat formation.

Furthermore, the bottom surface of the base material arranged on the connecting piece and the bottom surface of the connecting piece are vertically spaced by 0.5-10 mm.

The connector may have a base that supports the substrate such that the bottom surface of the substrate is spaced a distance above and below the bottom surface of the connector. When the floor is installed, the base material is suspended.

The connecting piece has the base, no longer need fossil fragments when the floor is mated formation, and base and ground direct contact make the laminated wood found wooden resilient floor be suspension or little unsettled state, can play waterproof effect, also can strengthen the elasticity on floor simultaneously, the elasticity foot feel on reinforcing floor.

Further, the connecting piece is a plastic lock catch.

Further, the length of the base material is 100-1000 mm, and the width is 50-300 mm.

Further, the thickness of the base material is 10-40 mm.

Furthermore, the depth of the male groove is 6-20 mm, and the height of the male groove is 5-20 mm.

Further, the thickness of the base is 0.5-10 mm.

The invention also provides a manufacturing method of the laminated wood standing wood elastic floor, which comprises the following steps:

transversely arranging the wood units, and preparing the laminated wood through gluing, assembling and curing molding;

and (3) transversely sawing the integrated material, and performing one or more of planing, sanding, corrosion prevention and coating to obtain the base material.

The wood units are transversely arranged, glued, assembled and cured to form the laminated wood, so that the wood units are tightly and firmly bonded, the laminated wood is firm and high in strength, the laminated wood is transversely sawed and subjected to one or more of planing, sanding, corrosion prevention and coating to prepare the base material, and the wood units are stressed longitudinally, high in pressure resistance, good in impact toughness and good in rebound resilience in the using process of the floor.

Meanwhile, in the use process of the floor, the wood units are stressed little or basically not stressed, the bonding impact between the wood units is little or basically not influenced, the structure of the laminated wood is further protected, and the use durability of the floor is improved.

Further, the preparation method of the integrated-material standing wood elastic floor also comprises the following steps:

and processing a male groove on the base material, and processing a female groove matched with the male groove on the connecting piece.

Through the mode that public groove and female groove matched with, improved the degree of freedom of assembling on floor, make things convenient for the mating formation on floor.

The floor base material is connected with the base material through a connecting piece, and the male groove and the female groove are fastened and locked, so that the paved floor is in a suspended or slightly suspended state. When the external force is applied, the floor forms elastic deformation and has recoil force, and when the external force is removed, the floor returns to the original normal state.

Has the advantages that:

1. the wood units are arranged horizontally, and the wood grain direction is vertical, so that the laminated wood is formed. The wood units are stressed in the vertical direction, the compression resistance is strong, the impact toughness is good, the rebound resilience is good, and the compression resistance, the impact toughness and the rebound resilience of the floor base material are obviously enhanced.

2. The base material is formed by splicing the wood units, so that the size of the base material is not limited by the inherent size of wood, and the base material can be expanded as required.

3. The cross section of the wood unit is hexagonal or fourteen-sided, so that the contact area between the wood unit and the wood unit is increased, and the formed laminated wood structure is more stable due to more mutually clamped contact parts between the wood unit and the wood unit.

4. The wood unit can be processed by using wood processing residues or small-diameter wood, has wide material sources, reuses waste resources, improves the utilization rate of wood resources and increases the added value of the wood.

5. The base materials of the floor are connected by the connecting piece, and the male groove and the female groove are fastened and locked, so that the paved floor is in a suspended or slightly suspended state. When an external force is applied (for example, a person steps on the floor), the floor is elastically deformed and has a recoil force, and when the external force is relieved (for example, when the person leaves), the floor is restored to the original normal state.

6. According to the laminated wood standing elastic floor, the wood units are transversely arranged, and the laminated wood is prepared by gluing, assembling and curing molding, so that the wood units are tightly and firmly bonded, the laminated wood is firm, and the strength is high; the integrated wood is transversely sawed and subjected to one or more of planing, sanding, corrosion prevention and coating to prepare the base material, so that the wood units are stressed longitudinally, and have strong pressure resistance, good impact toughness and good rebound resilience in the use process of the floor.

Meanwhile, in the use process of the floor, the wood units are stressed little or basically not stressed, the bonding impact between the wood units is little or basically not influenced, the structure of the laminated wood is further protected, and the use durability of the floor is improved.

7. The integrated material standing wood elastic floor can show the divergent natural growth texture of the wood, has formed integrated structure patterns, enhances the attractiveness and wear resistance of the floor, and can avoid the floor painting process.

Drawings

FIG. 1 is a schematic structural diagram of a base material of a laminated wood resilient floor;

FIG. 2 is a schematic top view of a base material of the laminated wood resilient floor;

FIG. 3 is a schematic front view of a base material of the laminated wood resilient floor;

FIG. 4 is a schematic structural diagram of a base material of a laminated wood resilient floor;

FIG. 5 is a schematic top view of the base material of the laminated wood resilient floor;

FIG. 6 is a schematic cross-sectional view of a wood unit;

of these, 10 substrates, 20 wood units.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

The utility model provides a laminated wood founds wooden resilient floor, includes the substrate, and the substrate is formed by the horizontal concatenation of a plurality of vertical timber units, and the grain direction of timber unit is vertical.

Wood is mainly composed of wood fibers, and the bundle-like fiber cells of the wood are vertically connected and horizontally stacked along the wood, which determines the anisotropy of the wood. The vertical compressive capacity of the wood is stronger, the impact toughness is better, and the rebound resilience is better.

In the field of floors, in a conventional wood using mode, wood is sawn into boards or blocks and is mainly stressed transversely, and the compression resistance, impact toughness and resilience of the wood are poor. Moreover, the conventional small-diameter wood or wood processing residues can not be processed and utilized any more.

In the embodiment, the wood units are transversely arranged and stressed in the vertical direction, and the floor base material has good compression resistance, impact toughness and rebound resilience, so that the requirement of the elastic floor is met.

Example 2

As shown in fig. 1, 2 and 3, the laminated wood standing elastic floor comprises a base material 10, wherein the base material 10 is formed by transversely splicing a plurality of vertical wood units 20, and the wood grain directions of the wood units 20 are vertical.

The bending resistance of the wood elements 20 in the vertical direction is stronger than that in the lateral direction.

The traditional elastic floor adopts the transverse stress of wood, and the bending resistance of the traditional elastic floor is weaker. The embodiment adopts the vertical direction stress of wood, and the bending resistance is stronger, thereby meeting the performance requirement of the elastic floor.

The wood elements 20 have a hexagonal cross-section.

The wood units with hexagonal sections are transversely arranged to form the laminated wood with the honeycomb structure. The contact area between the wood units is increased, one wood unit is surrounded and fixed by six surrounding wood units at the same time, and the structure of the laminated wood is stable. Meanwhile, the hexagon is of a symmetrical structure, and the laminated wood is simple and convenient to splice and assemble.

Example 3

As shown in fig. 4 and 5, the laminated wood standing elastic floor comprises a base material 10, wherein the base material 10 is formed by transversely splicing a plurality of vertical wood units 20, and the wood grain directions of the wood units 20 are vertical.

The bending resistance of the wood elements 20 in the vertical direction is stronger than that in the lateral direction.

The traditional elastic floor adopts the transverse stress of wood, and the bending resistance of the traditional elastic floor is weaker. The embodiment adopts the vertical direction stress of wood, and the bending resistance is stronger, thereby meeting the performance requirement of the elastic floor.

The wood units 20 have a fourteen-sided polygonal cross-section.

The cross-section is the horizontal range of the timber unit of fourteen-sided shape and forms the laminated wood, makes the area of contact between timber unit and the timber unit become more and enlarges on the one hand, makes on the one hand there are more mutual block contact site between timber unit and the timber unit, all makes the laminated wood structure that forms more firm.

Example 4

As shown in fig. 6, the cross section of the wood unit is fourteen-sided polygon, which has two parallel sides, side D1E1 and side L1M1 are parallel, and two groups of zigzag sides, one group of side M1N1P1A1B1C1D1 is zigzag, one group of side E1F1G1H1J1K1L1 is zigzag, the lengths of the zigzag sides are the same, the length of side M1N1 and side P1A1 is the same, the length of side A1B1 and side C1D1 is the same, the zigzag at the middle part is convex in sequence relative to the zigzag at the two side parts, and the zigzag at the middle part is A1 convex zigzag with respect to the apexes of the two side parts, N1 and C1.

The area that the structure of zigzag makes mutual contact between timber unit and the timber unit more enlarges, and the position of mutual block is more, and the contact is inseparabler for the laminated wood structure that forms is more firm.

Example 5

On the basis of example 1, wood units were cut from rotary-cut wood processing residues.

The wood rotary-cut processing residues, which are generally cylindrical wood cores, no longer have conventional utilizable values and are often used as firewood. The wood rotary-cut processing residues are cut to form a hexagon or a fourteen-sided polygon, and then are spliced into the laminated wood, so that the waste resources are reused.

Example 6

In addition to example 1, the wood unit was cut from a small-diameter wood.

The small diameter timber is timber with small diameter, generally small timber which is not grown yet, or branches of large diameter timber. The small-diameter wood is difficult to apply in the field of conventional wood processing, is generally used as waste or as firewood, and has extremely low utilization value. The invention cuts the small diameter wood to form a hexagon or a fourteen-sided polygon, and then splices the small diameter wood into the integrated wood, thereby reusing the waste resources.

Example 7

On the basis of the embodiment 1, the laminated wood standing wood elastic floor comprises a connecting piece, wherein a female groove is formed in the connecting piece, and a male groove matched with the female groove is formed in a base material; the number of the base materials is a plurality, and each base material is installed on the connecting piece through the matching of the male groove and the female groove so that the base materials are spliced together.

Through being provided with female groove on the connecting piece, be provided with public groove on the substrate, public groove and female groove matched with mode make things convenient for being connected and block between floor substrate and substrate, have improved the degree of freedom of assembling on floor, make things convenient for the floor to mat formation.

When the floor is paved, the floor base materials and the base materials are spliced together through the connecting pieces, materials such as keels are paved under the floor, the laminated wood vertical wood elastic floor is in a suspended or slightly suspended state, when external force acts (such as a person steps on the floor), the floor forms elastic deformation and has recoil force, and when the external force is relieved (such as the person leaves), the floor is restored to the original normal state. Meanwhile, the waterproof function can be achieved.

Example 8

In example 7, the bottom surface of the base material attached to the connector and the bottom surface of the connector are spaced from each other by 0.5 to 10 mm.

The connector may have a base that supports the substrate such that the bottom surface of the substrate is spaced a distance above and below the bottom surface of the connector. When the floor is installed, the base material is suspended.

The connecting piece has the base, no longer need fossil fragments when the floor is mated formation, base (connecting piece bottom surface) and ground direct contact, the bottom surface of substrate and the bottom surface interval of connecting piece, make the laminated wood found wooden resilient floor be suspension or little unsettled state, when the exogenic action (for example people step on), the floor forms elastic deformation, has recoil force, when external force removes the back (for example when people leave), the floor resumes original normal condition. The floor can play a role in water resistance while enhancing the elasticity of the floor and the elastic foot feeling of the floor.

The connecting piece is a plastic lock catch.

The plastic lock catch is widely available in materials, easy to manufacture and low in price, and has excellent performance, the shape and the style of the plastic lock catch can be customized according to needs, and the plastic lock catch has excellent toughness and strength and can further enhance the elasticity of the floor.

Example 9

The length of the base material of the laminated wood standing timber elastic floor is 100-1000 mm, and the width of the base material is 50-300 mm.

The thickness of the base material is 10-40 mm.

The depth of the male groove is 6-20 mm, and the height is 5-20 mm.

The base thickness of the connecting piece is 0.5-10 mm.

The sizes are the optimal parameter ranges of the laminated wood standing wood elastic floor, and can adapt to most practical use and construction environments. However, the dimensions of the parameters of the laminated wood standing timber elastic floor board of the invention are not limited by the above dimensional parameters, and can be customized and expanded according to specific requirements.

Example 10

A manufacturing method of a laminated wood standing wood elastic floor comprises the following steps:

transversely arranging the wood units, and preparing the laminated wood through gluing, assembling and curing molding;

and (3) transversely sawing the integrated material, and performing one or more of planing, sanding, corrosion prevention and coating to obtain the base material.

The wood units are transversely arranged, glued, assembled and cured to form the laminated wood, so that the wood units are tightly and firmly bonded, the laminated wood is firm and high in strength, the laminated wood is transversely sawed and subjected to planing, sanding, corrosion prevention or coating treatment to prepare the base material, and the wood units are stressed longitudinally, high in pressure resistance, good in impact toughness and good in rebound resilience in the using process of the floor.

Meanwhile, in the use process of the floor, the wood units are stressed little or basically not stressed, the bonding impact between the wood units is little or basically not influenced, the structure of the laminated wood is further protected, and the use durability of the floor is improved.

Example 11

On the basis of the embodiment 10, the preparation method of the integrated-material standing wood elastic floor further comprises the following steps:

and processing a male groove on the base material, and processing a female groove matched with the male groove on the connecting piece.

Through the mode that public groove and female groove matched with, improved the degree of freedom of assembling on floor, make things convenient for the mating formation on floor.

The floor base material is connected with the base material through a connecting piece, and the male groove and the female groove are fastened and locked, so that the paved floor is in a suspended or slightly suspended state. When an external force is applied (for example, a person steps on the floor), the floor is elastically deformed and has a recoil force, and when the external force is relieved (for example, when the person leaves), the floor is restored to the original normal state.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a laminated wood founds wooden resilient floor which characterized in that, includes the substrate, the substrate is formed by the horizontal concatenation of a plurality of vertical timber units, the grain direction of timber unit is vertical.

2. The laminated wood stumpage resilient floor as claimed in claim 1, wherein the wood units have a bending resistance in the vertical direction that is stronger than a bending resistance in the transverse direction.

3. The laminated wood standing timber elastic floor as claimed in claim 1, wherein the wood units have a hexagonal cross section.

4. The laminated wood resilient floor as claimed in claim 1, wherein the cross-section of the wood units is fourteen-sided polygon, the fourteen-sided polygon has two parallel sides and two sets of saw-tooth sides, the saw-tooth sides have the same length, and the saw-teeth of the middle portion are protruded in sequence relative to the saw-teeth of the two side portions.

5. The laminated wood resilient floor as claimed in claim 1, wherein the wood units are cut from rotary-cut wood processing residues.

6. The laminated wood resilient floor as claimed in claim 1, wherein the wood units are cut from small-diameter wood.

7. The laminated wood standing wood elastic floor as claimed in claim 1, further comprising a connector, wherein the connector is provided with a female groove, and the base material is provided with a male groove adapted to the female groove; the number of the base materials is a plurality, and each base material is installed on the connecting piece through the matching of the male groove and the female groove so that the base materials are spliced together.

8. The laminated wood standing timber elastic floor as claimed in claim 7, wherein the bottom surface of the base material installed on the connecting member is spaced from the bottom surface of the connecting member by 0.5 to 10 mm.

9. A method for manufacturing a laminated wood standing timber elastic floor, which is used for manufacturing the laminated wood standing timber elastic floor as claimed in any one of the claims 1 to 8, and is characterized by comprising the following steps:

transversely arranging the wood units, and preparing the laminated wood through gluing, assembling and curing molding;

and (3) transversely sawing the integrated material, and performing one or more of planing, sanding, corrosion prevention and coating to obtain the base material.

10. The method for preparing the laminated wood standing timber elastic floor as claimed in claim 9, further comprising the steps of:

and processing a male groove on the base material, and processing a female groove matched with the male groove on the connecting piece.

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