Light self-insulation composite floor
Technical Field
The invention relates to the field of floors, in particular to a light self-insulation composite floor.
Background
With the improvement of living standard, decoration industry is more and more prosperous, and decoration materials aiming at the living needs of people are more and more appeared on the market. The decoration material comprises a floor decoration material, wherein floor tiles, self-leveling wood floors and the like are arranged in the decoration material, the wood floors comprise solid wood floors and composite floors, and the wood floors have various functionalities along with improvement of household functions.
Aiming at the current light self-insulation composite floor, a relative scheme is made aiming at the following problems:
need keep warm among present light self preservation temperature laminate flooring, keep warm and involve laying of circuit, the electric wire is laid in the bottom plate, but the floor is laying difficult repacking or the maintenance of carrying out the circuit after complete, need carry out the detection of circuit when circuit fault appears in the heat preservation, be convenient for detect out which section circuit goes wrong, so the inspection of circuit is carried out to difficult accuracy under the timber apron, need lift the floor and examine, waste time and energy, cause the timber apron to damage again easily.
Disclosure of Invention
The invention mainly aims to overcome the defects of the prior art and provide a light self-insulation composite floor.
The invention is realized by adopting the following technical scheme: a light self-insulation composite floor structurally comprises a balance layer, an insulation layer and a decoration layer, wherein the balance layer is connected to the bottom of the insulation layer through gluing; the heat-insulating layer is provided with mounting grooves and connecting plates, the mounting grooves are embedded in two ends of the heat-insulating layer, and the connecting plates are connected with the mounting grooves in an embedded mode; the decorative layer is equipped with pusher, maintenance ware, the pusher inlays locates the decorative layer upper surface, maintenance ware is located on the decorative layer surface, maintenance ware is equipped with maintenance groove, closing plate, wire drawer, wire way, maintenance groove inlays locates the decorative layer upper surface, the closing plate inlays locates maintenance groove top, the wire drawer inlays locates in the maintenance groove, the wire way inlays locates inside the heat preservation.
As optimization, be equipped with wire grip, wire grip on the heat preservation of mounting groove top, the wire grip inlays to be located inside the wire grip, the wire grip is 2.
As an optimization, the wire drawing groove is provided with a wire drawing avoiding groove, the wire drawing avoiding groove is connected between the wire drawing device and the maintenance device, the wire drawing avoiding groove is a circular groove, and the number of the wire drawing avoiding grooves is 2.
As optimization, the wire stretcher is equipped with motor, spool, kelly, acts as go-between, the wire stretcher bottom is located to the motor, the kelly outside is located to the spool, the kelly inlays and locates inside the spool, act as go-between and connect in wire stretcher and maintenance ware, the motor is 2, the spool is the metal material, the kelly is 2, the acting as go-between is the metal material.
As optimization, the pusher is equipped with propelling movement groove, depression bar, the propelling movement groove inlays and locates the decorative layer upper surface, the depression bar inlays and locates inside the propelling movement groove, the propelling movement groove is the circular recess of cavity, the propelling movement groove is 2, the depression bar is circular shaft-like, the depression bar is the metal material.
As optimization, the propelling movement groove is equipped with the iron sheet, the iron sheet inlays and locates inside the propelling movement groove, the iron sheet is circular structure, the iron sheet is the metal material.
Preferably, the pressing rod is provided with a pressing plate and a spring, the pressing plate is welded at the top of the pressing rod, the spring is arranged outside the pressing rod, the pressing plate is made of metal, the pressing plate is of a circular plate-shaped structure, stripes are arranged on the upper surface of the pressing plate, and the spring is made of metal.
As an optimization, the enclosed plate is equipped with antislip strip, cardboard, the antislip strip distributes in the enclosed plate upper surface, the cardboard is inlayed and is located inside the maintenance groove, the antislip strip is for the metal material, the cardboard is rectangle platelike structure, the cardboard is timber matter.
As optimization, the wire drawing device is equipped with wire drawing head, gib block, the wire drawing head inlays to be located and overhauls the inslot portion, the gib block inlays to be located and draws wire head below, it is the metal material to draw the wire head, it is circular structure to draw the wire head, the gib block is 2, the gib block is the plastics material.
As optimization, the wire way is equipped with reset spring, wiring pipe, reset spring connects between wire way and wiring pipe, the wiring pipe inlays and locates inside the wire way, reset spring is the metal material, reset spring horizontally connect in the wire way, the wiring pipe is circular tubular structure, the wiring pipe is the plastics material, wiring pipe length is 100 mm.
Advantageous effects
When the light self-insulation composite floor provided by the invention works:
the decorative layer is provided with a pusher and an overhaul device, the push rod 301 is pushed by squeezing the push groove 300, so that the wire puller 201 in the wire-pulling groove 200 is squeezed, the wire puller 201 is triggered to work, so that components in the wire groove 313 are pulled to reach a proper position, then the sealing plate 311 on the top of the overhaul groove 310 is opened, the wire puller 312 is pushed to clamp the wire by pushing the wire puller 312, and then the wire puller 312 is pulled to pull the wire out of the wire groove 313 and the overhaul groove 310 for detection and maintenance;
by arranging the pressing rod which is provided with the pressing plate and the spring, the pressing plate G on the pressing rod 301 is extruded to enable the pressing rod 301 to move downwards, the spring H is extruded in the moving process, and the pressing plate G is prevented from crushing the pushing groove 300 through the buffering of the iron sheet F;
by arranging the wire puller which is provided with the motor, the spool, the clamping rod and the pull wire, when the pressing rod 301 is pressed downwards, the clamping rod D is pressed, so that the sawteeth on the clamping rod D move downwards to be separated from the engagement with the sawteeth on the inner wall of the spool C, the spool C is driven by the motor B to drive the spool C to rotate, and the pull wire is pulled to move;
by arranging the wire way which is provided with the return spring and the wiring pipe, when the spool C rotates, the stay wire E is pulled to be coiled, when the stay wire E is coiled, the wiring pipe N is pulled to be horizontally displaced in the wire way 313, and meanwhile, the return spring M is pulled to be stretched, so that the return spring M is in a tight state, and the wiring pipe N is pulled to the other end of the wire way 313 and is also arranged right below the maintenance groove 310;
by arranging the sealing plate which is provided with the anti-slip strips and the clamping plate, the sealing plate 311 is pushed by clamping the anti-slip strips I, so that the clamping plate J is clamped in the maintenance groove 310, the maintenance groove 310 is opened, and the wire puller 312 is exposed;
through being equipped with a wire puller, the wire puller is equipped with wire pulling head, hook strip, pulls out the wire pulling head K at wire puller 312 top through the extrusion to with hook strip L pushing down, in the wiring pipe N of impressing, because hook strip L has certain softness, open to the outside when crowded wiring pipe N, catch on and resume the vertical condition behind the electric wire, wire pulling head K is pulled out in the pulling this moment, can stimulate hook strip L and drive the electric wire and pull out wire way 313 and overhaul groove 310, the electric wire of being convenient for detects and overhauls.
Compared with the prior art, the invention has the beneficial effects that: can carry out the downward extrusion through the depression bar that promotes propelling movement inslot portion, thereby promote the kelly on the wire stretcher to break away from the control to the spool, make the spool rotate under the drive of motor, thereby the crimple is acted as go-between, the pulling wiring pipe moves in the wire way, thereby make the wiring pipe stimulate under the maintenance groove, through the hook strip embedding wiring pipe on the wire puller, the electric wire is clinched, pull out the wire puller under the fixed of hook strip, pull out wire way and maintenance groove with the electric wire, thereby conveniently detect and maintain the circuit, therefore just need not lift the floor and carry out extensive maintenance, time saving and labor saving, the timber apron has also been protected simultaneously and not received unnecessary damage.
Drawings
Fig. 1 is a schematic structural view of a light self-insulation composite floor board of the invention.
Fig. 2 is an enlarged schematic structural view of the connecting plate of the present invention.
FIG. 3 is an enlarged view of the mounting groove of the present invention.
Fig. 4 is a schematic top surface structure of the decorative layer of the present invention.
Fig. 5 is a schematic top surface structure of the decorative layer of the present invention.
FIG. 6 is a schematic top view of the mounting groove of the present invention.
Fig. 7 is a schematic view of the internal structure of the trunking of the present invention.
Fig. 8 is a schematic view of the internal structure of the wire puller of the present invention.
Fig. 9 is a schematic top view of the bobbin of the present invention.
Fig. 10 is a schematic view of the internal structure of the push chute of the present invention.
Fig. 11 is an enlarged schematic view of the service device of the present invention.
Fig. 12 is a top view of the service trough of the present invention.
FIG. 13 is an enlarged schematic view of the closure panel of the present invention.
Fig. 14 is an enlarged structural schematic diagram of the wire drawer of the present invention.
Fig. 15 is a schematic view of the internal structure of the wire way of the present invention.
In the figure: balance layer 1, heat preservation 2, decorative layer 3, the substrate layer 10, mounting groove 20, connecting plate 21, pusher 30, overhaul ware 31, wire-drawing groove 200, wire grip 201, the groove A is dodged in the acting as go-between, motor B, spool C, kelly D, the E that acts as go-between, propelling movement groove 300, depression bar 301, iron sheet F, clamp plate G, spring H, overhaul groove 310, closing plate 311, wire drawer 312, wire way 313, antislip strip I, cardboard J, wire drawer head K, gib L, reset spring M, wiring pipe N.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Referring to fig. 1-15, the present invention provides a technical solution of a light self-insulation composite floor: the heat-insulation board structurally comprises a balance layer 1, a heat-insulation layer 2 and a decoration layer 3, wherein the balance layer 1 is connected to the bottom of the heat-insulation layer 2 through gluing, the heat-insulation layer 2 is arranged between the balance layer 1 and the decoration layer 3, the decoration layer 3 is connected to the upper surface of the heat-insulation layer 2 through gluing, the balance layer 1 is provided with a base material layer 10, and the base material layer 10 is connected between the balance layer 1 and the heat-insulation layer 2 through gluing; the heat-insulating layer 2 is provided with mounting grooves 20 and connecting plates 21, the mounting grooves 20 are embedded at two ends of the heat-insulating layer 2, and the connecting plates 21 are connected with the mounting grooves 20 in an embedded manner; the decorative layer 3 is provided with a pusher 30 and an overhaul device 31, the pusher 30 is embedded on the upper surface of the decorative layer 3, the overhaul device 31 is arranged on the surface of the decorative layer 3, a wire drawing groove 200 and a wire drawing device 201 are arranged on the heat preservation layer above the mounting groove 20, the wire drawing device 201 is embedded inside the wire drawing groove 200, the wire drawing groove 200 is used for laying a circuit, the wire drawing device 201 is used for driving the circuit to move, the wire drawing groove 200 is provided with a wire drawing avoiding groove A, the wire drawing avoiding groove A is connected between the wire drawing device 201 and the overhaul device 31, the wire drawing avoiding groove A is used for assisting the wire drawing E to pull back and forth in the horizontal direction, the wire drawing device 201 is provided with a motor B, a bobbin C, a clamping rod D and a wire drawing E, the motor B is arranged at the bottom of the wire drawing device 201, the bobbin C is arranged outside the clamping rod D, the clamping rod D is embedded inside the bobbin C, the wire drawing E is connected, the motor B is used for driving the bobbin to rotate C, the bobbin C is used for driving the stay wire E to be rolled or released in the rotating process, the stay wire E is used for driving the wiring pipe N to horizontally displace, the pusher 30 is provided with a push groove 300 and a press rod 301, the push groove 300 is embedded in the upper surface of the decorative layer 3, the press rod 301 is embedded in the push groove 300, the push groove 300 is used for assisting the press rod 301 to move up and down, the press rod 301 is used for pushing the stay wire 201 to work, the push groove 300 is provided with an iron sheet F, the iron sheet F is embedded in the push groove 300 and used for buffering the pressure of the press rod 301 on the push groove 300 to prevent the push groove 300 from being damaged, the press rod 301 is provided with a press plate G and a spring H, the press plate G is welded at the top of the press rod 301, the spring H is arranged outside the press rod 301, and the press plate G is used for assisting the press rod 301, the pressing plate G is used for preventing dust and garbage from entering the pushing groove 300, the spring H is used for driving the pressing rod 301 to elastically return, the maintenance device 31 is provided with a maintenance groove 310, a closing plate 311, a wire pulling device 312 and a wire groove 313, the maintenance groove 310 is embedded in the upper surface of the decoration layer 3, the closing plate 311 is embedded in the top of the maintenance groove 310, the wire pulling device 312 is embedded in the maintenance groove 310, the wire groove 313 is embedded in the heat preservation layer 2, the closing plate 311 is made of wood, the closing plate 311 is the same as the floor in color and pattern, the maintenance groove 310 is used for detecting and maintaining wires in the wire groove 313, the closing plate 311 is used for preventing dust and garbage from entering the maintenance groove 310, the wire pulling device 312 is used for pulling wires in the wire groove 313 out of the maintenance groove 310 for detection or maintenance, the closing plate 311 is provided with an anti-slip strip I and a clamping plate J, the anti-slip strips I are distributed on the upper surface of the closing plate 311, the clamping plate J is embedded in the maintenance groove 310, the anti-slip strips I are used for assisting in opening the closing plate 311, the clamping plate J is used for embedding the closing plate 311 in the maintenance groove 310, the wire drawing device 312 is provided with a wire drawing head K and a hook strip L, the wire drawing head K is embedded in the maintenance groove 310, the hook strip L is embedded below the wire drawing head K, the wire drawing head K is used for fixing the hook strip L and assisting in drawing the hook strip L, the hook strip L is used for hooking an electric wire so as to draw the electric wire out of the wire groove 313, the wire groove 313 is provided with a reset spring M and a wiring pipe N, the reset spring M is connected between the wire groove 313 and the wiring pipe N, the wiring pipe N is embedded in the wire groove 313, the reset spring M is used for driving the wiring pipe N to horizontally displace in the wire groove 313, the wiring pipe N is used for laying electric wires.
When the wire drawing groove is used, the pressing rod 301 is pushed by squeezing the pushing groove 300, so that the wire drawing device 201 in the wire drawing groove 200 is squeezed, the wire drawing device 201 is triggered to work, so that components in the wire groove 313 are drawn to reach a proper position, the closing plate 311 at the top of the maintenance groove 310 is opened, the wire drawing device 312 clamps the wire by pushing the wire drawing device 312, the wire drawing device 312 is pulled out of the wire groove 313 and the maintenance groove 310, and detection and maintenance are carried out; the pressing rod 301 moves downwards by extruding the pressing plate G on the pressing rod 301, the spring H is extruded in the moving process, and the pressing plate G is prevented from crushing the pushing groove 300 by buffering of the iron sheet F; when the pressing rod 301 is pressed downwards, the clamping rod D is pressed, so that the sawteeth on the clamping rod D move downwards to be separated from the engagement with the sawteeth on the inner wall of the bobbin C, and the bobbin C is driven by the motor B to drive the bobbin C to rotate; when the spool C rotates, the stay wire E is pulled to be curled, when the stay wire E is curled, the wiring pipe N is pulled to horizontally displace in the wire groove 313, and the return spring M is pulled to be stretched, so that the return spring M is in a tight state, the wiring pipe N is pulled to the other end of the wire groove 313, and is also right below the maintenance groove 310; the sealing plate 311 is pushed by clamping the anti-skid strip I, so that the clamping plate J is clamped in the maintenance groove 310, the maintenance groove 310 is opened, and the wire puller 312 is exposed; the wire drawing head K at the top of the wire drawing device 312 is extruded, so that the hook strip L is pressed downwards and pressed into the wiring pipe N, the hook strip L has certain softness, the hook strip L is opened outwards when being extruded into the wiring pipe N, the vertical state is recovered after the wire is hooked, the wire drawing head K is pulled at the moment, the hook strip L can be pulled to drive the wire to draw out the wire groove 313 and the maintenance groove 310, and the wire is convenient to detect and maintain.
Compared with the prior art, the invention has the technical progress that:
can carry out the downward extrusion through the depression bar that promotes propelling movement inslot portion, thereby promote the kelly on the wire stretcher to break away from the control to the spool, make the spool rotate under the drive of motor, thereby the crimple is acted as go-between, the pulling wiring pipe moves in the wire way, thereby make the wiring pipe stimulate under the maintenance groove, through the hook strip embedding wiring pipe on the wire puller, the electric wire is clinched, pull out the wire puller under the fixed of hook strip, pull out wire way and maintenance groove with the electric wire, thereby conveniently detect and maintain the circuit, therefore just need not lift the floor and carry out extensive maintenance, time saving and labor saving, the timber apron has also been protected simultaneously and not received unnecessary damage.