CN208965966U - A kind of slim floor of anti-stress - Google Patents

Abstract

The utility model discloses a kind of anti-slim floors of stress, including plate body (1), plate body (1) with a thickness of 10~16mm, plate body (1) back side is evenly distributed with multiple lateral back-troughs (2) perpendicular to plate body (1) length direction, plate body (1) surrounding side wall is equipped with the first wear-resisting paint layer (8), plate body front and back is equipped with the second wear-resisting paint layer (9), is equipped with the waterproofing membrane layer (3) being located on plate body (1) back side and two sides long side on the outside of lateral back-trough (2)；It is described transverse direction back-trough (2) with a thickness of 2mm, the depth of lateral back-trough (2) is the one third of plate body (1) thickness, spacing between adjacent transverse back-trough (2) is identical, and plate body (1) short side side wall is identical as the spacing between adjacent transverse back-trough (2) to the spacing between lateral back-trough (2).The utility model has the characteristics that low production cost, good operating stability and long service life.

Description

A kind of slim floor of anti-stress

Technical field

The utility model relates to a kind of slim solid wooden floor board, especially a kind of slim floor of anti-stress.

Background technique

Slim floor be it is a kind of processed through novel process, premised on ensuring floor stability, thickness be less than on the market A kind of pure solid wooden floor board of conventional floor 18mm-22mm thickness；It slim floor can be in fine fitment two compared to traditional solid sawn floor When secondary transformation, directly replace in original house type with a thickness of the reinforced composite floorboard of 8~15mm or solid wooden compound floor；And because of its energy It is enough to have the advantages that save raw material and reduce cost, then it is more and more extensive to be used in the solid wooden floor board of different occasions.But by In slim floor compared to traditional solid wooden floor board can because thickness variation caused by its non-deformability reduction, lead to slim floor The stress that will receive external environment generation in use causes the different degrees of of slim floor wet to rise and drying shrinkage shape At warpage, to affect the using effect of user and reduce the service life of itself；Also, slim floor can also be because of resistance The reduction of shape ability causes the increase of its change in size amplitude in production, causes producer to need in processing former using floor is increased The size of material guarantees the dimensional accuracy of its finished product, to improve the processing cost on slim floor.Further, since slim floor The fluctuating lifting of itself moisture content, leads to slim floor caused by being more easier when in use because of external environment compared to conventional floor Its moisture content is unable to maintain that in range of balance after long-term use, is being cracked or is being deformed to further improve slim floor Hidden danger.Therefore, existing slim floor has that poor work stability, service life are short.

Utility model content

The purpose of the utility model is to provide a kind of anti-slim floors of stress.Its low, the operation is stable with production cost Property good and long service life the characteristics of.

The technical solution of the utility model includes: a kind of slim floor of anti-stress, including plate body, plate body with a thickness of 10~ 16mm, the plate body back side are evenly distributed with multiple lateral back-troughs perpendicular to plate body length direction, and plate body surrounding side wall is equipped with first Wear-resisting paint layer, plate body front and back are equipped with the second wear-resisting paint layer, are equipped on the outside of lateral back-trough long positioned at the plate body back side and two sides Waterproofing membrane layer on side；The transverse direction back-trough with a thickness of 2mm, the depth of lateral back-trough is the one third of plate body thickness, phase Spacing between adjacent transverse direction back-trough is identical, and plate body short side side wall is to the spacing between lateral back-trough and between adjacent transverse back-trough Spacing is identical.

In a kind of anti-slim floor of stress above-mentioned, it is female that the two sides long side of the plate body is respectively equipped with mutually matched first Slot and the first public slot, the two sides short side of plate body are respectively equipped with mutually matched second female groove and the second public slot.

In a kind of anti-slim floor of stress above-mentioned, the waterproofing membrane layer includes the first waterproofing membrane layer interconnected, Two waterproofing membrane layers and third waterproofing membrane layer, first waterproofing membrane layer cover on the plate body side wall close to the first public slot side, Second waterproofing membrane layer covers at the plate body back side, and the third waterproofing membrane layer covers the plate body between the first female groove and the back side On side wall.

In a kind of anti-slim floor of stress above-mentioned, the waterproofing membrane layer be PE waterproofing membrane layer, waterproofing membrane layer with a thickness of 0.07~0.08mm.

In a kind of anti-slim floor of stress above-mentioned, the first wear-resisting paint layer is aqueous paint layer, second wear resistant paint Layer is UV paint layer.

Compared with prior art, the utility model can effectively be dropped by the cooperation of waterproofing membrane layer and multiple lateral back-troughs Warpage and monolithic angularity of the low plate body in production and use, and the water-cut variation amplitude of plate body when in use is reduced, To make the utility model have good job stability and service life, and water-cut variation amplitude can be with after reduction The utility model is set to be able to maintain the optimal value of itself moisture content performance in different external environments, to further increase this The service life of utility model, and the warpage of plate body and monolithic angularity reduce can also effectively improve its production at Product rate, to reduce the production cost of the utility model；Lateral back-trough and waterproofing membrane layer can also reduce floor and produce and making The size changing rate of used time, so that user be facilitated the size Control of board finished product and the ruler of plate body raw material to be saved over the ground in processing Very little cost local protuberance or generates noise when trampling caused by floor is also avoided that because of environmental change when in use, further Improve stability when the utility model at work and production cost；Prevented by the first waterproofing membrane layer interconnected, second Damp film layer and third waterproofing membrane layer, can make waterproofing membrane layer can reduce the surface area of itself while guaranteeing its protection effect simultaneously Facilitate the processing of worker, to further reduced the production cost of the utility model.In addition, the utility model is also according to plate The size of body and the thickness optimization parameters of lateral back-trough and waterproofing membrane layer, make the phase interworking of lateral back-trough and waterproofing membrane layer Close the resistance to deformation and protection effect that can further increase plate body；Pass through the cooperation energy of the first wear-resisting paint layer and the second wear-resisting paint layer The external environment influence caused by plate body after long-term use is enough further decreased, to slow down plate body containing during the work time The variation of water rate.So the utility model has the characteristics that good operating stability, long service life.

Detailed description of the invention

Fig. 1 is the bottom view of the utility model；

Fig. 2 is the A of Fig. 1 to cross-sectional view；

Fig. 3 is the B of Fig. 1 to cross-sectional view.

The label in accompanying drawing is: 1- plate body, 2- transverse direction back-trough, 3- waterproofing membrane layer, the first female groove of 4-, the public slot of 5- first, 6- Second female groove, the public slot of 7- second, the wear-resisting paint layer of 8- first, the wear-resisting paint layer of 9- second, the first waterproofing membrane layer of 301-, 302- second Waterproofing membrane layer, 303- third waterproofing membrane layer.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and examples, but is not intended as to the utility model The foundation of limitation.

Embodiment.A kind of slim floor of anti-stress is constituted as shown in Figure 1, include plate body 1, plate body 1 with a thickness of 10~ 16mm, 1 back side of plate body are evenly distributed with multiple lateral back-troughs 2 perpendicular to 1 length direction of plate body, and 1 surrounding side wall of plate body is equipped with First wear-resisting paint layer 8, plate body front and back are equipped with the second wear-resisting paint layer 9, are equipped on the outside of lateral back-trough 2 and are located at 1 back side of plate body With the waterproofing membrane layer 3 in the long side of two sides；The transverse direction back-trough 2 with a thickness of 2mm, the depth of lateral back-trough 2 is 1 thickness of plate body One third, the spacing between adjacent transverse back-trough 2 is identical, 1 short side side wall of plate body between lateral back-trough 2 spacing with it is adjacent Spacing between lateral back-trough 2 is identical.

The two sides long side of the plate body 1 is respectively equipped with mutually matched first female groove 4 and the first public slot 5, the two sides of plate body 1 Short side is respectively equipped with mutually matched second female groove 6 and the second public slot 7.

The waterproofing membrane layer 3 includes that the first waterproofing membrane layer 301 interconnected, the second waterproofing membrane layer 302 and third are moisture-proof Film layer 303, first waterproofing membrane layer 301 cover on 1 side wall of plate body close to the first 5 side of public slot, and described second is moisture-proof Film layer 302 covers at 1 back side of plate body, and the third waterproofing membrane layer 303 covers the plate body 1 between the first female groove 4 and the back side On side wall, it is wear-resisting that first waterproofing membrane layer 301, the second waterproofing membrane layer 302 and third waterproofing membrane layer 303 are arranged at first Paint layer 8 and the second wear-resisting 9 outside of paint layer.

The waterproofing membrane layer 3 be PE waterproofing membrane layer, waterproofing membrane layer 3 with a thickness of 0.07~0.08mm.

The first wear-resisting paint layer 8 is aqueous paint layer, and the second wear-resisting paint layer 9 is UV paint layer.

It, can be with working principle of the utility model is: cooperation of the utility model by waterproofing membrane layer and multiple lateral back-troughs Warpage and monolithic angularity of the plate body in production and use is effectively reduced, and reduces the water-cut variation of plate body when in use Amplitude, and make the utility model that there is good job stability and service life.Lateral back-trough and waterproofing membrane layer can also drop Size changing rate of the low-floor in production and use makes to reduce the utility model ground board raw material required in processing Local protuberance or noise is led to the problem of when trampling caused by used time is also avoided that because of change in size, further improve this reality With novel job stability and production cost.Warpage, monolithic angularity and the water-cut variation amplitude of plate body are after reduction Can also be effectively reduced the utility model processing when deformation, problem of Cracking, so as to improve producer production when at Product rate and the production cost for reducing it.

Experimental example: for the utility model with every 48 Pometia spp materials, the plank having a size of 910*118*15mm is one group pair Than experimental group, 6 groups of comparative experiments groups are set altogether；Then by shown in table 1, corresponding knot is arranged to each group comparative experiments group respectively Structure, then it is carried out it is wet rise or drying shrinkage processing, experimental period be 6 months, measure experimental result after processing.

The structure and treatment process of 1 different experiments example group of table

Influence of the different process to template: the utility model is according to " GB/T 15036.2-2009 solid wooden floor board second Point detection method " described in detection method the angularity of different comparative experiments groups is detected.And according to " GB/T 15036.1-2009 solid wooden floor board first part technical requirements " in examination criteria (width direction convexity warp degree≤0.2%, it is recessed Angularity≤0.15；Length direction convexity warp degree≤1%, concave warp degree≤0.5%), with floor width direction convexity warp degree≤ 0.2%, concave warp degree≤0.15%, length direction monolithic convexity warp degree≤0.5%, when concave warp degree≤0.25% is standard Value, only reaches one of them and then thinks template warpage.

Testing result is as shown in table 2 and table 3: warpage is that the quantity of warpage plank in every group of comparative experiments group accounts for sum The ratio of (48).The wet warpage decline 8.33% of rising in floor with lateral back-trough, it is 44.44% that performance, which optimizes amplitude, single Piece angularity decline 0.08%, it is 26.67% that performance, which optimizes amplitude,.Drying shrinkage warpage decline 6.25%, performance optimization amplitude are 42.86%, monolithic angularity decline 0.07%, it is 26.92% that performance, which optimizes amplitude,.

The wet warpage decline 20.83% of rising in floor with waterproofing membrane layer, it is 66.67% that performance, which optimizes amplitude, and monolithic is stuck up Curvature decline 0.13%, it is 37.14% that performance, which optimizes amplitude,.Drying shrinkage warpage decline 10.42%, performance optimization amplitude are 55.56%, monolithic angularity decline 0.14%, it is 42.42% that performance, which optimizes amplitude,.

Experimental result it is found that lateral back-trough and waterproofing membrane layer can to effectively improve the work of the utility model when in use steady Qualitative and service life.

The different comparative experiments groups of table 2 are in wet rise that treated warpage and the comparison of monolithic angularity

The different comparative experiments groups of table 3 are in drying shrinkage treated warpage and the comparison of monolithic angularity

Influence of the different process to moisture content and change in size: the utility model rise to each group comparative experiments group wet or Size and moisture content after drying shrinkage are detected, and testing result is as shown in table 4 and table 5: wet to rise or the drying shrinkage coefficient of stability=size There is change rate/water-cut variation * 100% floor of lateral back-trough to rise that treated wet moisture content ascensional range has dropped 0.3%, it is 10% (in six months experimentations, peak 15.01%), change in size amplitude that performance, which optimizes amplitude, 0.16% is had dropped, it is 15.69% (peak 26.31%) that performance, which optimizes amplitude, and the wet coefficient of stability that rises rises 0.02, It is 6.32% that performance, which optimizes amplitude,.In drying shrinkage, treated that moisture content fall has dropped on floor with lateral back-trough 0.03%, it is 1.43% (peak 8.61%) that performance, which optimizes amplitude,；Change in size amplitude has dropped 0.08%, performance optimization Amplitude is 10.53% (peak 20.41%)；The drying shrinkage coefficient of stability rises 0.03, and it is 9.09% that performance, which optimizes amplitude,.? When testing the 110-125 days, there is its size changing rate of floor, aqueous forthright of the less lateral back-trough in the floor of lateral back-trough It can optimize and reach maximum value, begin to decline later, and is basicly stable after 150 days.Experimental result it is found that lateral back-trough to floor The coefficient of stability influence smaller, but can effectively delay the change in size of floor during the work time, to improve the work on floor Stability.

Floor with waterproofing membrane layer rises that treated moisture content ascensional range has dropped 1. 36% wet, performance optimization Amplitude is 33.42%；Change in size amplitude has dropped 0.6%, and it is 41.10% that performance, which optimizes amplitude,；Wet coefficient of stability rising of rising 0.04, it is 11.52% that performance, which optimizes amplitude,.Floor with waterproofing membrane layer is under drying shrinkage treated moisture content fall 1% is dropped, it is 30.64% that performance, which optimizes amplitude,；Change in size amplitude has dropped 0.4%, and it is 37.04% that performance, which optimizes amplitude,； The drying shrinkage coefficient of stability rises 0.03, and it is 9.09% that performance, which optimizes amplitude,.Experimental result is it is found that waterproofing membrane layer can effectively slow down The change in size amplitude and water-cut variation amplitude of floor during the work time, to improve the job stability of the utility model And service life.

The different comparative experiments groups of table 4 are in wet rise that treated size changing rate and moisture content comparison

The different comparative experiments groups of table 5 are in drying shrinkage treated size changing rate and moisture content comparison

From above-mentioned experiment it is found that the utility model, which passes through, can be effectively reduced floor with lateral back-trough and waterproofing membrane layer Size changing rate, warpage, buckling amplitude and water-cut variation amplitude in different environments have the utility model good Structural stability and non-deformability, and make floor in use and can slow down the heave amplitude of its moisture content, thus The utility model is set to have the characteristics that low production cost, good operating stability and long service life.

Claims (5)

1. a kind of slim floor of anti-stress, it is characterised in that: including plate body (1), plate body (1) with a thickness of 10~16mm, plate body (1) back side is evenly distributed with multiple lateral back-troughs (2) perpendicular to plate body (1) length direction, and plate body (1) surrounding side wall is equipped with the One wear-resisting paint layer (8), plate body front and back are equipped with the second wear-resisting paint layer (9), are equipped on the outside of lateral back-trough (2) and are located at plate body (1) waterproofing membrane layer (3) on the back side and two sides long side；It is described transverse direction back-trough (2) with a thickness of 2mm, the depth of lateral back-trough (2) For the one third of plate body (1) thickness, the spacing between adjacent transverse back-trough (2) is identical, and plate body (1) short side side wall is to laterally carrying on the back Spacing between slot (2) is identical as the spacing between adjacent transverse back-trough (2).

2. a kind of anti-slim floor of stress according to claim 1, it is characterised in that: the two sides long side of the plate body (1) It is respectively equipped with mutually matched first female groove (4) and the first public slot (5), the two sides short side of plate body (1) is respectively equipped with mutual cooperation The second female groove (6) and the second public slot (7).

3. a kind of anti-slim floor of stress according to claim 2, it is characterised in that: the waterproofing membrane layer (3) includes phase The first waterproofing membrane layer (301), the second waterproofing membrane layer (302) and the third waterproofing membrane layer (303) to connect, first damp-proof membrane Layer (301) covers on plate body (1) side wall close to first public slot (5) side, and second waterproofing membrane layer (302) covers in plate Body (1) back side, the third waterproofing membrane layer (303) cover on plate body (1) side wall between the first female groove (4) and the back side.

4. a kind of anti-slim floor of stress according to claim 1, it is characterised in that: the waterproofing membrane layer (3) is anti-for PE Damp film layer, waterproofing membrane layer (3) with a thickness of 0.07~0.08mm.

5. a kind of anti-slim floor of stress according to claim 1, it is characterised in that: the first wear-resisting paint layer (8) is Aqueous paint layer, the second wear-resisting paint layer (9) are UV paint layer.