Composite damping solid wood floor
Technical Field The invention relates to the technical field of, building floors, in particular to a composite damping solid. wood floor. Background Art Along with the development of the indoor, decoration technology, the full solid wood, floor is gradually, becoming a bottleneck that, restricts the application of the solid wood floor. due to the problem that wood consumption is large, the expansion and shrinkage deformation of the wood floor is obvious, and the corrosion is obvious. A mold for manufacturing a CN101392592B, composite floor board and 2010.12.08 a method for manufacturing a composite floor board by using the same are disclosed in the Japanese Patent Laid-Open(, KOKAI), and the wood board and the: plastic PVC- wood board are respectively placed in the concave parts of the, cover PVC plate ;b, and PVC the base through a, screw compressor to extrude, the polyurethane foam material PVC into a space surrounded by the wood board and the mold,c, PVC ;d. The polyurethane foam is injected between the base layer and the surface layer by using the, manufacturing method in the prior art, but, the foaming material has a. connecting, effect difference between the base layer and the surface, layer through the polyurethane foaming material. Content of the invention In order to solve the, above-mentioned problems, an object of the present invention is, to provide a composite shock-absorbing solid wood floor, which solves the problem that a, and connecting effect is poor between a foaming material. and a surface layer of a base layer of a composite floor in the prior art and is unfavorable for indoor diffusion of floor heating. The invention discloses a composite type damping solid wood floor. The composite type shock-absorbing solid wood floor comprises a solid, wood board PVC made from, top-down layering, a floor surface, of the solid wood board is provided with a concave-convex structure, and the lower board surface of PVC the solid wood board is connected with the upper; board surface of the rubber layer. The rubber layer and PVC the board layer are provided with heat conduction holes, which penetrate through the thickness direction PVC of the board, and the heat conduction holes are communicated with the lower board surface of the board layer and the. lower board surface of the solid board. The utility model: not only utilizes the elasticity of the rubber layer, to form the damping and buffering effect on the solid wood, board of the upper layer, but also avoids the problem that, the ground heating heat can not be effectively transmitted to the; room due to poor thermal PVC conductivity of the rubber layer, PVC . Furthermore, the heat- conducting holes are uniformly distributed. on the rubber layer and PVC the metal layer board layer. Further, the, fiber fabric is a polyester fiber net, or a glass. fiber net. Further, hot-pressing molding, of, the rubber layer and the fiber fabric with the PVC. sheet-shaped board layer is further preferable. Further, the hot-press molding 160 °C temperature 200 °C, is in a range 5MPa of from about sup .1 10MPa.3.1-sup .1-1-sup.sup.sup. Further, the, concave-convex structure is a plurality of strip-shaped protrusions arranged at parallel intervals, on the lower plate surface of the solid wood board, and the strip-shaped. protrusions extend along the length direction of the solid wood board. Furthermore, a plurality of, strip-shaped grooves are arranged on the upper surface of the, rubber layer corresponding to the strip-shaped protrusions, and the strip-shaped protrusions and the strip-shaped grooves are in concave- convex cooperation with each other. Furthermore, the, heat-conducting holes are correspondingly formed in the strip- shaped grooves of the rubber layer, and the plurality of heat-conducting holes. are distributed at equal intervals along the extending direction of the strip-shaped grooves. Further, the edge of PVC, the sheet metal plate PVC layer is provided with a surrounding, edge of the upper plate surface higher than the upper plate plate; layer, and the inner part of the surrounding edge forms a containing space for installation of the rubber layer. An upper portion of the enclosing edge and a corresponding edge portion of the, solid wood plate are adhered and connected with the connecting rod, and the outer side of the surrounding edge is provided with a clamping. structure. Further, the, clamping connection structure comprises a clamping joint and, a clamping groove, wherein the clamping joint PVC and the clamping groove are respectively, arranged at the corresponding side edge positions of the two composite damping solid wood floors . and the clamping joints of the two adjacent composite damping solid wood floors are correspondingly clamped and matched with the clamping grooves. Description of drawings The cross-1 sectional schematic diagram of the composite damping solid wood floor 1 in the concrete embodiment of the composite damping solid wood floor of the present invention; is shown in FIGS. The three-2 dimensional 1 schematic view PVC of the; board layer shown in FIGS. The three-3 dimensional 1 schematic view of the composite (shock-absorbing solid-wood). floor board of FIGS. In the figure :1-, the, 10- heat- 2-PVC conducting holes, 20- of the, 21- strip, 22--shaped, 23- projections, 24- of the, 3- wood, 30- plates and, 4- the heat- conducting holes of the strip-shaped projections of the wood plates are arranged along the joint grooves of the joint of the two connectors. Mode of execution The following examples are used to, illustrate the present invention, but are not intended to limit. the. scope of the present invention . The composite shock-1, absorbing solid wood floor disclosed by the invention comprises 1 a solid 3 wood board, a rubber layer and a plurality of strip-shaped 1, protrusions 3 arranged PVC on the 2, lower board surface of, the solid wood board in, the present embodiment. 1, 1 10, 10 1 . A plurality of, strip-shaped 10 grooves are formed between, the lower plate 10 surface of the solid wood board, and, the 3 lower board surface of the rubber 10 layer of the strip-30, shaped groove 10 (II) 30, and. the strip 1-shaped grooves are formed 3 on the upper plate surface of, the solid wood 1 board 10, and 3 30, 1 3, 30 30, 1 3. In the present 3 embodiment, the temperature PVC of the 2 polyester fiber web at which delamination occurs between, the 3, layer of the PVC rubber layer 2 and the, upper surface of the, layer of the polyester fiber is 4, set to the 4 temperature at which 3 the PVC thermal compression 2 molding, is performed by the press, molding press for the three persons, in the present embodiment 180 °C, 6MPa, 4, PVC 2 3, 3 PVC 2 . 3, 180 °C, 3. In other embodiments, the, hot pressing temperature of the polyester, fiber web and the rubber layer, may not be limited by any of, the values of between about-about-about 200 °C- about,sup .1-sup.sup. 180 °C, 160 °C 180 °C, 180 °C, PVC, 6MPa, 5MPa 6MPa, 6MPa 10MPa, PVC. In order to, further improve the heat conduction effect of the shock 3-PVC absorbing solid 2 wood floor, the heat conduction holes of the 20, lower plate 20 surface PVC of the 2 solid wood board and the ground 1 are evenly distributed, through the 20 heat conduction holes. 3 PVC 2, 20 3 30, 30 20 1, 20 1, 1, 3 1, 3, 20. In the present embodiment, PVC the board layer is made of, polyvinyl chloride, as, a main component and is, bonded to, the, corresponding, edge portion of the. solid wood board by, a die pressing machine, in PVC the mold pressing process 1, at the same 24, height as that 21 of the peripheral. edge PVC part of 2 the board layer. PVC 2 21, 21 3 24, 21 1 3 21 1 3, PVC 2 21, 3, PVC 2. At the, PVC same time 2, the 21 elastic supporting effect of 3 the rubber layers of, the composite shock-absorbing 1 solid wood floors is not, reduced due to 3 the long-term stress of, PVC the rubber layers and the 3 elastic supporting 1 effect of the rubber, layers. 21 . 22 23, 22 23 PVC 2, 22 PVC 2, 23 2. The shape of 22 PVC the PVC head 2 of the, connecting 23 section is greater 2 than the, thickness of the connecting section, and the head 22 of the 23 connecting section has. a thickness, greater than 22 that of the connecting section, and, the head of the connecting section has a, thickness 23 greater than that of 22 the connecting section, 22 23; PVC 2. In order to be able to use different use requirements of the fiber, fabric of the present invention, the, fiber fabric of the present invention is, not only limited to the polyester fiber net, but, also can be replaced PVC by a fiberglass mesh or a fiberglass mesh. The above description is merely a preferred embodiment of the present, invention, and it should be pointed out that those modifications, and substitutions can be made to those skilled in the, art without departing from the technical, principles of the present invention, and these improvements and substitutions should. also be considered to be within the scope of protection of the present invention. The invention provides a composite damping solid wood floor, and relates to the field of building floors. The composite damping solid wood floor comprises a solid wood plate, a rubber layer and a PVCplate layer which are arranged layer by layer from top to bottom. A concave-convex structure is arranged on the lower plate face of the solid wood plate, and the lower plate face of the solid wood plate and the upper plate face of the rubber layer are bonded, and fabrics are clamped between the lower plate face of the rubber layer and the upper plate face of the PVC plate layer. Heat conducting holes penetrating in the plate thickness direction are formed in the rubber layer and the PVC plate layer, and the heat conducting holes communicate with the lower plate face of the PVC plate layer andthe lower plate face of the solid wood plate. The function of improving the integrity and strength of the PVC plate layer and the rubber layer is achieved, the problem of layering caused by the insufficient connecting strength between the rubber layer and the PLVC plate layer is avoided, and the elasticity of the rubber layer is utilized for achieving a damping and buffering function on the solidwood plate on the upper layer; and the problem that due to the fact that the heat conductivity of the rubber layer is poor, the heat of underfloor heating cannot be effectively transferred into a roomis avoided, and the dual needs of vibration reduction and heat conduction are both met. 1.The composite type shock-absorbing solid, wood floor is, characterized in that the composite shock- absorbing solid PVC wood floor, is characterized in that the lower surface of, the solid wood board is provided with a concave-convex structure, and the lower board surface of the PVC solid wood board is connected with the upper board; surface of the rubber layer. The rubber layer and PVC the board layer are provided with heat conduction holes, which penetrate through the thickness direction PVC of the board, and the heat conduction holes are communicated with the lower board surface of the board layer and the. lower board surface of the solid board. 2.The composite shock-absorbing according to Claim 1, solid wood floor, is characterized in that the heat-conducting holes are uniformly. distributed on the rubber layer PVC and the metal layer board layer. 3.The composite type shock-according to Claim 1, absorbing solid wood, floor is characterized in that the fiber, fabric is a polyester fiber net or a. glass fiber net. 4.The composite 3 type shock-absorbing solid wood according to Claim 1 or 2, floor board as, described in, the utility model PVC is characterized in that a fiber fabric of the rubber layer and a fiber fabric of the wood floor. board are hot-pressed and formed by the board layer. 5.The composite type shock according to Claim 4,absorbing solid, wood floor is characterized in 160 °C that the hot-200 °C, pressing forming temperature is 5MPa 10MPa. in a range of from about sup .1-5. sup .1-sup. 6.The composite 3 type shock-absorbing solid wood floor according to Claim 1 or 2, according to, the invention is characterized in that the concave-convex structure is a plurality of strip,shaped bulges arranged on the lower surface of the solid wood board in parallel intervals, and the strip.shaped protrusions extend along the length direction of the solid wood board. 7.The composite damping solid wood according to Claim 1, floor is characterized, in that a plurality of strip-shaped grooves are arranged on the upper, surface of the rubber layer corresponding to the strip-shaped protrusions, and the strip-shaped protrusions and the strip-shaped grooves are in concave.convex cooperation with each other. 8.The composite shock-absorbing according to Claim 6, solid wood floor, is characterized in that the heat-conducting holes are correspondingly, formed in the strip-shaped grooves of the rubber layer, and the plurality of heat.conducting holes are distributed at equal intervals along the extending direction of the strip-shaped grooves. 9.The composite type shock-absorbing solid wood floor according to Claim 1 or 2, board according 3, to PVC the invention is characterized in PVC that the edge of the board,shaped board layer is provided with a surrounding edge which is; higher than the upper plate surface of the board layer, and the inner part of the surrounding edge forms a containing space for installation of the rubber layer. An upper portion of the enclosing edge and a corresponding edge portion of the, solid wood plate are adhered and connected with the connecting rod, and the outer side of the surrounding edge is provided with a clamping. structure. 10.The composite damping solid wood according to Claim 9, floor is characterized, in that the clamping joint and the clamping, groove of the composite damping solid wood floor PVC are respectively arranged at the corresponding, side edge positions of the two composite damping solid wood floors, and the clamping. joints and the clamping grooves of the two adjacent composite damping solid wood floors are correspondingly clamped and matched with each other.