CN210239048U - Outdoor engineering is with shape solid wood floor of preapring for an unfavorable turn of events - Google Patents

Abstract

The application discloses outdoor engineering is with preapring for an unfavorable turn of events shape solid wood floor, include the floor block, set up in the non-slip structure on floor block surface, set up in the balanced structure of floor block bottom surface, non-slip structure includes that the multichannel runs through the non-slip groove that floor block length direction set up, the non-slip groove includes a pair of cell wall, tank bottom, the cell wall with form 35-50 acute angle contained angle α between the surface place plane of floor block, can comparatively high-efficiently six applying paint layer with a brush at the floor block with a brush, and paint layer is even, complete, full play paint layer is to the guard action on outdoor solid wood floor to the adaptation satisfies the production requirement of the outer solid wood floor of engineering user.

Description

Outdoor engineering is with shape solid wood floor of preapring for an unfavorable turn of events

Technical Field

The application relates to the technical field of outdoor wooden paving materials, in particular to an anti-deformation solid wood floor for outdoor engineering.

Background

An outdoor wooden floor is an outdoor floor paving material made of solid wood materials. Outdoor use environment is worse than indoor environment, therefore, outdoor solid wood floor must be coated with paint on six sides uniformly to provide protection for solid wood material in weather resistance, corrosion resistance, environmental humidity change influence and the like.

Outdoor solid wood floor among the prior art adopts field installation, on-the-spot mopping mostly, has the work efficiency low, the unstable problem of mopping effect. For example, chinese patent CN200920287015.5 discloses an outdoor wood floor, which comprises a plurality of grooves connected to form a wave-shaped anti-slip structure. This structure has better anti-skidding effect to can prevent ponding in the anti-skidding structure betterly. However, the groove of the structure is r-shaped, so that the phenomenon of improper brushing can occur when paint is brushed, and the protection of a paint layer on an outdoor solid wood floor is weakened; when repeatedly brushing paint for many times to ensure that the paint is brushed in place at each position of the groove, the paint is easy to be deposited at the bottom of the groove, the depth of the groove is reduced, and the anti-skid effect is influenced. Therefore, the structure has relatively low working efficiency and unsatisfactory painting effect no matter in factory painting or on-site painting.

The consumption of the engineering user external solid wood floor is large, the paint needs to be efficiently and continuously coated, and obviously, the existing outdoor solid wood floor structure cannot meet the production requirement of the engineering user external solid wood floor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem to a deformation wood floor is prevented with outdoor engineering is provided, it can comparatively high-efficiently brush with a brush the paint layer on six faces of floor block, and the paint layer is even, complete, full play paint layer is to the guard action on outdoor wood floor, thereby adapts to and satisfies the production requirement of the outer wood floor of engineering user.

In order to realize the above-mentioned purpose, the utility model provides an outdoor engineering is with preventing deformation solid wood floor, include the floor block, set up in the non-slip structure on floor block surface, set up in the balanced structure of floor block bottom surface, non-slip structure includes that the multichannel runs through the non-slip groove that floor block length direction set up, non-slip groove includes a pair of cell wall, tank bottom, the cell wall with form 35-50 acute angle contained angle α between the surface place plane of floor block.

Borrow by above-mentioned structure, the outdoor engineering of this application is prevented deforming solid wood floor through setting up the adjustment antiskid groove into the structure including antiskid tank wall, antiskid tank bottom, and set up the antiskid tank wall into the slope, and is special, forms 35-50 acute angle contained angle between the plane with the surface place of floor block. So that:

firstly, the painting tool can be contacted with the anti-skid groove wall and the anti-skid groove bottom, and a complete and continuous paint layer can be formed on the anti-skid groove wall and the anti-skid groove bottom through one-time painting, so that the painting efficiency is improved;

secondly, the thicknesses of the paint layers formed on the anti-skid groove wall and the anti-skid groove bottom are relatively uniform, so that the anti-skid effect of the anti-skid structure is not influenced;

finally, compared with the structure of the r-shaped groove, the structure of the inverted trapezoidal groove can adopt a rubber roller with lower rigidity to brush paint, so that both manual roller coating and mechanical roller coating can be used for manufacturing at least a paint layer on the surface of the anti-deformation solid wood floor for engineering in the technical scheme, and painting in a factory can be realized.

Preferably, the bottom of the antiskid groove is a circular arc bottom surface.

Preferably, the groove depth of the anti-skid groove is consistent with the arc radius of the bottom of the anti-skid groove.

Preferably, the anti-slip structure comprises a plurality of anti-slip groove groups, each anti-slip groove group comprises 2 anti-slip grooves, and the anti-slip grooves are arranged adjacent to the anti-slip groove groups at intervals.

Preferably, the balance structure includes at least two balance grooves, the balance grooves include a first balance groove opened on the bottom surface of the floor block and a second balance groove communicated with the first balance groove, and the width of the first balance groove is larger than that of the second balance groove.

Preferably, the first balance groove is a flared groove, and includes a pair of first balance groove walls and a first balance groove bottom communicated with the second balance groove.

Preferably, the first groove wall forms an acute included angle β of 35-50 degrees with the plane of the bottom surface of the floor board.

Preferably, the groove depth of the first balance groove is 3mm to 6 mm.

Preferably, the deformation-preventing solid wood floor for outdoor engineering comprises a pair of mounting grooves and fixing parts, wherein the mounting grooves are formed in the surface of the floor block and are positioned on two sides of the anti-skid structure, the fixing parts are matched with the mounting grooves, a plurality of screw holes are formed in the mounting grooves, each screw hole comprises a countersunk section and a guide section, the countersunk section is formed in the bottom surface of the corresponding mounting groove, the guide section is communicated with the countersunk section, the inner diameter of the guide section is smaller than that of the countersunk section, and each fixing part comprises a metal nail and a plug body, the diameter of the plug body is in interference fit with the inner diameter; after assembly, the plug body is positioned above the head of the metal nail, and the top surface of the plug body and the bottom surface of the mounting groove form a complete plane.

Preferably, the guide section penetrates through the floor board in the thickness direction, the metal nail is a screw, the plug body is fixedly sleeved on the head of the metal nail, and the top surface of the plug body is provided with a cross groove.

According to the anti-deformation solid wood floor for outdoor engineering, the anti-slip groove is adjusted to be of a structure comprising the anti-slip groove wall and the anti-slip groove bottom, the anti-slip groove wall is inclined, and particularly, an acute included angle of 35-50 degrees is formed between the anti-slip groove wall and the plane where the surface of the floor block is located. Therefore, the painting tool can be contacted with the anti-skid groove wall and the anti-skid groove bottom, and a complete and continuous paint layer can be formed on the anti-skid groove wall and the anti-skid groove bottom through one-time painting, so that the painting efficiency is improved; the paint layers are relatively uniform in thickness formed on the anti-skid groove wall and the anti-skid groove bottom, so that the anti-skid effect of the anti-skid structure is not influenced; meanwhile, compared with the structure of the r-shaped groove, the structure of the inverted trapezoidal groove can adopt a rubber roller with lower rigidity to brush paint, so that both manual roller coating and mechanical roller coating can be used for manufacturing at least a paint layer on the surface of the anti-deformation solid wood floor for engineering in the technical scheme, and painting in a factory can be realized.

Further, through setting up the balanced structure into two segmentations, thereby be close to the first balanced groove of the bottom surface one side of floor block and can be makeed into wide and shallow shape, and the second balanced groove can be makeed into narrow and dark shape, thereby satisfying "the balanced groove should have certain degree of depth and can fully reach the condition of alleviating the deformation that the wood material anisotropy caused", simultaneously with anti-skidding structure the same, the mopping instrument can with cell wall, tank bottom contact, can form complete, continuous paint layer on cell wall, tank bottom through once mopping, paint brushing efficiency has been improved, even artifical roller coat and mechanical roller coat also can be applicable to the preparation of the paint layer of the engineering of this application technical scheme is with the bottom surface of shape solid wood floor of preapring for an unfavorable turn of events, thereby can realize the factory mopping.

Furthermore, through the setting of cock body to can realize the mopping in the factory, the cock body through the metal peg top after the nailing seals the nail hole, guarantees the integrality on paint layer, thereby can the full play paint layer to outdoor solid wood floor's guard action.

Specific embodiments of the present application are disclosed in detail with reference to the following description and drawings, indicating the manner in which the principles of the application may be employed. It should be understood that the embodiments of the present application are not so limited in scope. The embodiments of the application include many variations, modifications and equivalents within the spirit and scope of the appended claims.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural view of an anti-deformation solid wood floor for outdoor engineering according to an embodiment of the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is another schematic structural view of a fixing member according to an embodiment of the present application;

FIG. 5 is a top view of a plug body of an embodiment of the present application;

in the drawings: 100-floor block, 200-anti-slip structure, 300-balance structure, 400-mounting groove, 500-fixing component, 210-anti-slip groove wall, 220-anti-slip groove bottom, 310-first balance groove, 320-second balance groove, 311-first balance groove wall, 312-first balance groove bottom, 410-counter sink segment, 420-guide segment, 510-metal nail, 520-plug body.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

Referring to fig. 1, the anti-deformation solid wood floor for outdoor engineering comprises a floor block 100, an anti-slip structure 200 arranged on the surface of the floor block 100, and a balance structure 300 arranged on the bottom surface of the floor block 100, wherein the anti-slip structure 200 comprises a plurality of anti-slip grooves arranged in the length direction of the floor block 100, each anti-slip groove comprises a pair of anti-slip groove walls 210 and an anti-slip groove bottom 220 connected with the pair of anti-slip groove walls 210, and an acute included angle α of 35-50 degrees is formed between the anti-slip groove walls 210 and the plane of the surface of the floor block 100.

By means of the structure, the anti-deformation solid wood floor for outdoor engineering is characterized in that the anti-slip groove is adjusted to be of a structure comprising the anti-slip groove wall 210 and the anti-slip groove bottom 220, the anti-slip groove wall 210 is inclined, and particularly, an acute included angle of 35-50 degrees is formed between the anti-slip groove wall and the plane where the surface of the floor block 100 is located. Therefore, the painting tool can be fully contacted with the anti-skid groove wall 210 and the anti-skid groove bottom 220, and a complete and continuous paint layer can be formed on the anti-skid groove wall 210 and the anti-skid groove bottom 220 through one-time painting, so that the painting efficiency is improved; the thicknesses of the paint layers formed on the anti-skid groove wall 210 and the anti-skid groove bottom 220 are relatively uniform, so that the anti-skid effect of the anti-skid structure 200 is not influenced; meanwhile, compared with the structure of the r-shaped groove, the structure of the inverted trapezoidal groove can be painted by adopting a rubber roller with lower rigidity. To engineering user's outer solid wood floor, whether can influence its production efficiency at the factory mopping, through anti-skidding structure 200's improvement, artifical roller coat and mechanical roller coat all can be used to this application technical scheme's engineering with the preparation of the paint layer of shape solid wood floor, at least surface of preapring for an unfavorable turn of events, can realize the factory mopping to satisfy outdoor engineering with the production requirement of shape solid wood floor of preapring for an unfavorable turn of events.

Specifically, referring to fig. 2, the bottom 220 of the anti-slip groove is a circular arc bottom, and the depth of the anti-slip groove is equal to the radius of the circular arc of the bottom 220 of the anti-slip groove, for example, the depth of the anti-slip groove is 3mm ± 0.2mm, the wall 210 of the anti-slip groove forms an acute included angle α of 45 ° with the plane of the surface of the floor board 100, and the radius of the circular arc of the bottom 220 of the anti-slip groove is 3mm ± 0.2 mm.

In this embodiment, the anti-slip structure 200 includes a plurality of anti-slip groove sets, each of the anti-slip groove sets includes 2 to 3 anti-slip grooves, and adjacent anti-slip groove sets are spaced apart from each other. The advantage that sets up like this is, the antiskid function in antiskid groove on average, when guaranteeing anti-skidding effect, reduces the quantity that sets up in antiskid groove.

Referring back to fig. 1, the balance structure 300 includes at least 2 balance grooves symmetrically disposed, the balance grooves including a first balance groove 310 opened to the bottom surface of the floor panel 100, a second balance groove 320 communicated with the first balance groove 310, the first balance groove 310 having a groove width greater than that of the second balance groove 320. more specifically, the first balance groove 310 is a flared groove including a pair of first balance groove walls 311, a first balance groove bottom 312 communicated with the second balance groove 320, the first balance groove 310 having a groove depth of 3mm to 6mm, the first balance groove wall 311 forming an acute angle β of 35 ° to 50 ° with the plane of the bottom surface of the floor panel 100, the second balance groove 320 having a deep groove disposed at a middle portion in a width direction of the first balance groove 310. for example, the first balance groove 310 has a groove depth of 5mm, the first balance groove wall 311 forms an acute angle β of 45 ° with the plane of the bottom surface of the floor panel 100, the first balance groove 310 has a width of 30mm, and the second balance groove 310 has a groove width of 5mm and a depth of 6 mm.

Through the arrangement of the structure, the first balance groove 310 close to one side of the bottom surface of the floor block 100 can be made into a wide and shallow shape, and the second balance groove 320 can be made into a narrow and deep shape, so that the condition that the balance groove has a certain depth to fully relieve the deformation caused by the anisotropy of the solid wood material is met, meanwhile, the paint brushing tool can be contacted with the groove wall and the groove bottom in the same way as an anti-skidding structure, a complete and continuous paint layer can be formed on the groove wall and the groove bottom through one-time paint brushing, the paint brushing efficiency is improved, even the manual roller painting and the mechanical roller painting can be suitable for manufacturing the paint layer on the bottom surface of the anti-deformation solid wood floor for engineering of the technical scheme, and the paint brushing in a factory can be realized. When the floor block is suitable for manual roll coating or mechanical roll coating, the rubber roller enables part of paint to flow into the second balance groove 320 under the abutting pressure, a paint layer is formed on the side wall of the second balance groove 320, certain paint is deposited at the bottom of the second balance groove 320, the floor block 100 can be protected from the outside, the paint has toughness, and the deformation prevention effect of the second balance groove 320 is not influenced.

Referring to fig. 1 and 3, the anti-deformation solid wood floor for outdoor engineering includes a pair of installation grooves 400 opened on the surface of the floor block 100 and located at both sides of the anti-slip structure 200, and fixing members 500 engaged with the installation grooves 400. A plurality of screw holes (for example, 3 to 4 screw holes are formed in the length direction of the mounting groove 400) are formed in the mounting groove 400, and each screw hole includes a countersunk head section 410 which is formed in the bottom surface of the mounting groove 400, and a guide section 420 which is communicated with the countersunk head section 410 and has an inner diameter smaller than that of the countersunk head section 410. In this embodiment, the fixing member 500 includes a metal nail 510, and a plug body 520 with a diameter that is arranged in an interference fit with the inner diameter of the countersunk head section 410. During assembly, the floor boards 100 are firstly placed on the keel structure, then the metal nails 510 are inserted into the guide sections 420, and the metal nails are inserted into the keel structure through knocking and other modes, so that the installation of the floor boards 100 and the keel structure is completed. After assembly, the head of the metal nail 510 is positioned in the countersink 410, and the plug body 520 is inserted into the countersink 410, and at this time, the top surface of the plug body 520 and the bottom surface of the mounting groove 400 form a complete plane. The plug body 520 may be a wooden cylindrical plug painted with paint, or a wood-plastic cylindrical plug manufactured to have a color identical or close to the color of the paint of the floor panel 100. The plug body 520 and the countersunk head section 410 are in interference fit, and the interference is 0.05mm-0.2mm (preferably 0.1 mm).

Another possible embodiment is shown in fig. 1, 4 and 5, in which the keel structure is a metal keel, and the floor boards 100 are fixedly installed by screw connection therebetween. At this time, the guide section 420 is disposed to penetrate the thickness direction of the floor panel 100, the metal nail 510 is a screw, the plug body 520 is fixedly fitted over the head of the metal nail 510, and the top surface of the plug body 520 has a cross-shaped groove. For the convenience of production and manufacture, the plug body 520 is a wood-plastic cylindrical plug with the color consistent with or close to the paint color of the floor board 100 and is sleeved on the head of the metal nail 510 in an integrally formed manner.

In the technical scheme of this application embodiment, through the setting of cock body 520 to can realize at factory's mopping, close the nail eye through cock body 520 at metal peg 510 top behind the nailing, guarantee the integrality on paint layer, thereby can the full play paint layer to the guard action on outdoor solid wood floor.

In this embodiment, the anti-slip structure 200, the balance structure 300, and the mounting groove 400 are all formed by routing, the screw holes are formed by secondary drilling, and the surfaces and the bottom surfaces of the anti-slip structure 200, the balance structure 300, the mounting groove 400 and the floor block 100 are all transited by circular arc chamfers.

It is to be understood that the above description is intended to be illustrative, and not restrictive. Many embodiments and many applications other than the examples provided will be apparent to those of skill in the art upon reading the above description.

Claims (10)

1. The utility model provides an outdoor engineering is with preapring for an unfavorable turn of events shape solid wood floor, includes floor block (100), sets up in anti-skidding structure (200) on floor block (100) surface, set up in balanced structure (300) of floor block (100) bottom surface, its characterized in that, anti-skidding structure (200) run through including the multichannel the antiskid groove that floor block (100) length direction set up, the antiskid groove includes a pair of antiskid cell wall (210), antiskid tank bottom (220), antiskid cell wall (210) with form 35-50 acute angle contained angle α between the surface place plane of floor block (100).

2. The outdoor engineering deformation-resistant solid wood floor according to claim 1, wherein the bottom (220) of the non-slip groove is a circular bottom.

3. The outdoor engineering deformation-prevention solid wood floor according to claim 2, wherein the groove depth of the anti-slip groove is consistent with the arc radius of the anti-slip groove bottom (220).

4. The outdoor engineering deformation-prevention solid wood floor according to claim 1, wherein the anti-slip structure (200) comprises a plurality of anti-slip groove sets, each anti-slip groove set comprises 2 anti-slip grooves, and the anti-slip groove sets are arranged at intervals.

5. The outdoor engineering deformation-resistant solid wood flooring according to claim 1, wherein the balance structure (300) comprises at least 2 balance grooves, the balance grooves comprise a first balance groove (310) opened at the bottom surface of the floor block (100), and a second balance groove (320) communicated with the first balance groove (310), and the width of the first balance groove (310) is larger than that of the second balance groove (320).

6. The outdoor engineering deformation-resistant solid wood floor according to claim 5, wherein the first balance groove (310) is a flared groove, and comprises a pair of first balance groove walls (311), and a first balance groove bottom (312) communicated with the second balance groove (320).

7. The anti-deformation solid wood floor for outdoor engineering as claimed in claim 6, wherein the first balance groove wall (311) forms an acute included angle β of 35-50 ° with the plane of the bottom surface of the floor block (100).

8. The outdoor engineering deformation-resistant solid wood flooring according to claim 6 or 7, wherein the first balance groove (310) has a groove depth of 3mm to 6 mm.

9. The outdoor engineering deformation-prevention solid wood floor as claimed in claim 1, wherein the outdoor engineering deformation-prevention solid wood floor comprises a pair of installation grooves (400) which are arranged on the surface of the floor block (100) and located on two sides of the anti-slip structure (200), and a fixing component (500) which is matched with the installation grooves (400), a plurality of screw holes are arranged in the installation grooves (400), the screw holes comprise countersunk sections (410) which are arranged on the bottom surfaces of the installation grooves (400), and guide sections (420) which are communicated with the countersunk sections (410) and have inner diameters smaller than that of the countersunk sections (410), and the fixing component (500) comprises metal nails (510) and plugs (520) which have diameters matched with the inner diameters of the countersunk sections (410) in an interference manner; after assembly, the plug body (520) is positioned above the head of the metal nail (510), and the top surface of the plug body and the bottom surface of the mounting groove (400) form a complete plane.

10. The outdoor engineering deformation-resistant solid wood floor according to claim 9, wherein the guide section (420) is disposed through the thickness direction of the floor block (100), the metal nail (510) is a screw, the plug body (520) is fixedly sleeved on the head of the metal nail (510), and the top surface of the plug body (520) is provided with a cross groove.

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