CN218492952U - Kitchen assembled composite ceramic tile large plate ground mounting system - Google Patents

Abstract

The utility model relates to an assembled ground technical field especially relates to a compound ceramic tile large plate ground installation system of kitchen assembled. The floor comprises adjusting feet, a leveling keel, a base plate and a floor, wherein two ends of the floor along the length direction of the leveling keel are protruded out of two ends of the base plate, so that an L-shaped groove is formed between the back surface of the floor and the side surface of the base plate; the mounting system further comprises a mounting keel, the mounting keel comprises a mounting plate connected with the adjusting foot and bearing plates arranged at two ends of the mounting plate along the length direction of the leveling keel; the bearing plate is inserted into the groove and is abutted against the back face of the floor. In this application, add the installation fossil fragments, connect the assembled installation that realizes the floor through the cooperation of installation fossil fragments and recess and fix, need not the use of cement, have the installation convenient, environmental protection, follow-up dismantlement easy maintenance's characteristics.

Description

Kitchen assembly type composite ceramic tile large plate ground installation system

Technical Field

The utility model relates to an assembled ground technical field especially relates to a compound ceramic tile large plate ground installation system of kitchen assembled.

Background

The current decoration industry is developing towards the direction of industrialized modularized installation, generally speaking, the ground decoration is a decoration method commonly adopted in indoor design, and can increase the layering sense of indoor space and play a role in beautifying decoration; before the ground is paved, the ground needs to be leveled for installation. The traditional leveling method adopts common cement mortar, the cement mortar treatment mode has the problems of more wet operation, long construction period, complex process, large workload, large construction site pollution, easy occurrence of hollowing, cracking and the like on the ground, difficulty in later maintenance and repair and the like, and difficulty in meeting the requirements of assembly decoration development. Meanwhile, as the national requirements for environmental protection are higher and higher, the traditional decoration industry is greatly influenced, the national mandatory requirements reduce the exploitation of gravels, so that the price of decoration materials is continuously increased, and the assembly type decoration is produced at the right moment in order to change the condition at the present stage. Because the construction is carried out in a dry operation mode, the consumption of the cement mortar is reduced, even the ground can be completely decorated without the cement mortar, the construction time can be shortened, and the pollution to the environment is reduced.

The patent document with publication number CN112031327A discloses such a floor tile pavement structure based on leveling overhead ground, which includes a leveling structure, pavement fasteners and floor tiles; the leveling structure is used for being installed on the ground and forming a leveling surface with adjustable height on the ground; the paving fastener is used for being fixed above the flat structure, and is matched with the floor tile cushion layer to form an installation structure for supporting and positioning the floor tiles above the flat structure; the floor tile is laid on the paving fastener. Patent document No. CN216428901U discloses such an assembled built on stilts ground mounting system, relates to the field of built on stilts ground, and includes a base plate, a support bracket and a plurality of keels, wherein the keels are used for being arranged in a crossed manner to form at least one mounting frame, the base plate is used for being mounted in the mounting frame, the support bracket is arranged below the keels and used for supporting the keels, and the keels are provided with limiting structures for limiting the movement of the base plate in the vertical direction.

It can be seen that in the existing fabricated ground, the keel frame is always installed on the adjusting foot, then the base layer is installed on the keel frame, and then the floor is installed on the base layer. Before the floor is installed, the base layer is already in a flat state, in order to ensure the fixation of the floor on the base layer, the floor and the base layer are connected through adhesive or cement, and the width of a splicing gap between the floors is manually controlled in the process of laying the floor. The assembled structure in the assembled ground is only aimed at adjusting feet, the keel frame and the base layer structure, but the assembled installation of the floor is not realized, and the problems of low installation efficiency, environmental pollution and difficult follow-up disassembly and maintenance exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the above problem and provides a kitchen assembled composite ceramic tile big board ground installation system.

The technical scheme of the utility model for solving the problems is that, a kitchen assembly type composite ceramic tile large plate ground installation system is provided, which comprises a plurality of adjusting feet arranged on the original ground, a leveling keel arranged between two adjacent adjusting feet, a basal plate arranged on the leveling keel and a floor arranged on the basal plate, wherein two ends of the floor along the length direction of the leveling keel are protruded out of two ends of the basal plate, so that an L-shaped groove is formed between the back surface of the floor and the side surface of the basal plate; the mounting system also comprises a mounting keel, and the mounting keel comprises a mounting plate connected with the adjusting foot and bearing plates arranged at two ends of the mounting plate along the length direction of the leveling keel; the bearing plate is inserted into the groove, and the bearing plate is abutted to the back surface of the floor.

As the utility model discloses a preferred, two the tip of accepting the board is equipped with the hem board respectively, the hem board with the side butt of base plate.

As the utility model discloses a preferred, still including set up in the reinforcement section bar in the recess, the reinforcement section bar include with floor back connection's first connecting plate, with the second connecting plate that the base plate side is connected.

As the utility model discloses a preferred, still include with the parallel and level board in floor, the base plate set up in between floor and the parallel and level board, the parallel and level board along the both ends protrusion of fossil fragments length direction of making level in the both ends of base plate.

As a preferred embodiment of the present invention, the reinforcing section bar further includes a third connecting plate connected to the top surface of the parallel and level plate, the first connecting plate, the second connecting plate, and the third connecting plate are integrally formed.

As the utility model discloses a preferred, adjust the foot and include base and supporting seat, the base is connected with original ground, the base is equipped with has the internal screw thread sleeve, the supporting seat include with sleeve threaded connection's screw rod, make level fossil fragments with installation fossil fragments all with the screw rod is connected.

As the utility model discloses an optimization, be equipped with the mounting structure who is used for installing installation fossil fragments and keel of making level on the screw rod, mounting structure is including setting up in the central plate of screw rod terminal surface, set up in the central plate along the border panel of the both ends of keel length direction of making level, the central plate is located the horizontal plane and is higher than the horizontal plane that border panel is located, connect through the extension board between central plate and the border panel; the leveling keel comprises a top plate, and the end part of the top plate is lapped on the peripheral plate; the mounting plate of the mounting keel is connected with the central plate.

As the utility model discloses a preferred, the mounting panel with accept between the board through the steady piece of U type and connect, the steady piece include with the perpendicular first reinforced portion of connecting of mounting panel, with accept the perpendicular connecting portion of connecting of board and connect the second reinforced portion of first reinforced portion and connecting portion, first reinforced portion with the extension board butt, the second reinforced portion with all around board butt.

As the utility model discloses a preferred, all the edges of the border panel include the supporting part, set up in the joint portion at supporting part perpendicular to keel length direction both ends of making level, form the joint between supporting part and the joint portion, the keel of making level still including set up in the curb plate at roof both ends, the roof overlap joint in on the supporting part, the curb plate insert locate in the joint.

As the utility model discloses a preferred, well core plate center is equipped with ring portion, ring portion for well core plate body to the direction protrusion of base, in order well core plate one side that is close to the base forms the bulge loop, the screw rod inserts in the bulge loop.

The utility model has the advantages that:

1. in this application, add the installation fossil fragments, it is fixed to connect the assembled installation that realizes the floor through the cooperation of installation fossil fragments and recess, need not the use of cement, has the installation convenient, environmental protection, follow-up dismantlement easy maintenance's characteristics. Meanwhile, when the floor is installed in an assembly mode, a splicing gap is naturally formed between two floors installed on one installation keel, the width of the splicing gap does not need to be controlled manually, and the consistency of the width of the whole splicing gap of the assembly type floor is guaranteed.

2. In this application, through reforming transform the regulation foot for installation fossil fragments and the fossil fragments of making level all can install to adjusting on the foot, and the installation of installation fossil fragments and the fossil fragments of making level do not influence each other, effectively guarantee the planarization of the fossil fragments of making level and the support intensity of installation fossil fragments.

2. The ground system of this application is full assembled mounting structure, has effectively improved the efficiency of construction, has reduced the construction pollution.

Drawings

FIG. 1 is a top plan view of a kitchen fabricated composite tile floor mounting system;

FIG. 2 is a front view of a kitchen fabricated composite tile floor mounting system;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a bottom view of a kitchen fabricated composite tile floor mounting system;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a schematic structural view of an adjustable foot top view in a kitchen fabricated composite tile floor mounting system;

FIG. 7 is a schematic view of a bottom view of a composite ceramic tile floor mounted system for adjusting the angle of view of the feet in a kitchen;

in the figure: adjusting foot 1, base 11, first backstop ring 111a, second backstop ring 111b, supporting seat 12, well core plate 121, ring portion 121a, all around board 122, supporting part 122a, joint portion 122b, extension board 123, keel 2 of leveling, base plate 3, recess 31, floor 4, parallel and level board 41, installation fossil fragments 5, mounting panel 51, accept board 52, hem board 53, steady 54, reinforcement section bar 6.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

The utility model provides a compound ceramic tile large plate ground installation system of kitchen assembled, as shown in fig. 1 and fig. 2, includes a plurality of regulation feet 1 that set up in original ground, set up the fossil fragments 2 of making level between two adjacent regulation feet 1, set up the basal plate 3 on the fossil fragments 2 of making level and set up floor 4 on basal plate 3. As shown in figure 3, the floor board assembly further comprises an installation keel 5 arranged on the adjusting foot 1 for realizing the assembly type installation of the floor board 4, and as shown in figure 4, the installation keel 5 and the leveling keel 2 are perpendicular to each other to form a keel frame structure together. For convenience of explanation, the direction parallel to the length of the leveling keel 2 is called a "row", the direction perpendicular to the length of the leveling keel 2 is called a "column", and a leveling keel 2 is arranged between adjacent adjusting feet 1 in a plurality of adjusting feet 1 in the same row; a plurality of adjusting feet 1 on the same row are connected through a mounting keel 5.

When the adjustable foot is installed, firstly, the adjustable foot 1 is installed on the original ground, and the adjustable feet 1 are evenly distributed on the original ground. The adjusting feet 1 are height-adjustable structures, and because the original ground has the problem of unevenness, the top surfaces of the adjusting feet 1 arranged at different positions on the original ground can be positioned on the same horizontal plane by adjusting the height of the adjusting feet 1, and the horizontal planes of the top surfaces of the adjusting feet 1 are the finding planes of the assembled ground.

The structure of the height-adjustable adjusting foot 1 can be various, in this embodiment, as shown in fig. 6 and 7, the adjusting foot 1 includes a base 11 and a supporting seat 12, and both the base 11 and the supporting seat 12 are made of metal members, so as to ensure the supporting strength and the fire-proof performance of the fabricated floor. Base 11 is connected with original ground, and base 11 is equipped with the sleeve that has the internal thread, and supporting seat 12 includes the screw rod with sleeve threaded connection and sets up in the mounting structure of screw rod tip, and the length direction of sleeve and screw rod all is perpendicular with original ground. Based on this, the distance of the mounting structure to the original ground can be adjusted by rotating the screw. The mounting structure is used for subsequently mounting the leveling keel 2 and the mounting keel 5, in order to match the mutually perpendicular mounting of the leveling keel 2 and the mounting keel 5, the mounting structure comprises a central plate 121 arranged on the end face of the screw rod, and peripheral plates 122 arranged at the two ends of the central plate 121 along the length direction of the leveling keel 2, wherein the central plate 121 is used for mounting the mounting keel 5, and the peripheral plates 122 are used for mounting the leveling keel 2.

When the adjusting foot 1 is installed, the base 11 is usually firstly fixed with the original ground, and then the height is adjusted, and due to the fact that the height is adjusted through the rotation of the screw rod, when the height is adjusted to a proper position, the direction of the installation structure is not matched with the installation of the subsequent leveling keel 2 and the installation keel 5. Therefore, a mounting hole is formed in the center of the base 11, and the sleeve passes through the mounting hole, as shown in fig. 6 and 7, the sleeve is sleeved with a first stop ring 111a and a second stop ring 111b, and the first stop ring 111a and the second stop ring 111b are respectively abutted against both surfaces of the base 11. The first and second stop rings 111a, 111b ensure the fixation of the sleeve to the base 1, but do not affect the rotation of the sleeve. When the height of the adjusting foot 1 is adjusted to a proper position, the arrangement direction of the mounting structure can be adjusted by rotating the sleeve.

Further, since the second stop ring 111b protrudes from the base 11, in order to ensure the stability of the base 11, as shown in fig. 7, the base 11 includes a base mounting plate for disposing the mounting hole, and a base supporting plate disposed on a side of the base mounting plate close to the original ground, the base supporting plate is preferably a circular side plate and is mounted on a side edge of the base mounting plate, and the height of the base supporting plate is preferably consistent with the height of the second stop ring 111 b. Base 11 is fixed through the base mounting panel with being connected on original ground and is realized, for example can pass through bolted connection with base mounting panel and original ground, consequently preferably sets up a plurality of through-holes that are used for the mounting screw on the base mounting panel, in order to guarantee installation stability, a plurality of through-holes use base mounting panel center as the center, be cyclic annular even setting. The shape of base mounting panel is not restricted, but based on the through-hole of annular setting, in order to guarantee base mounting panel's equilibrium, base mounting panel chooses for use to be circular.

In addition, as shown in fig. 6, in order to avoid the deformation of the base mounting plate, the base mounting plate is divided into a circular mounting center portion for providing the mounting hole and a ring-shaped mounting peripheral portion for providing the through hole in a direction radiating outward from the center, an annular buffer portion is provided between the mounting center portion and the mounting peripheral portion, the mounting center portion is flush with the mounting peripheral portion, and the buffer portion protrudes in a direction approaching the support base 12, so that the mutual influence between the mounting center portion and the mounting peripheral portion which are subjected to different forces is alleviated. Furthermore, a reinforcing rib is arranged on one surface of the mounting peripheral part close to the supporting seat 12, and the length direction of the reinforcing rib is consistent with the radial direction taking the center of the base 11 as the center; the reinforcing ribs are connected with the buffer part, and at least one through hole is arranged between every two adjacent reinforcing ribs.

After the adjusting foot 1 is installed, the leveling keel 2 is installed. The leveling keel 2 can be C type, U type, several types, L type, square tube type, etc. commonly used in the market, and it has a roof and one at least and sets up in the curb plate of roof tip, for example as shown in fig. 5, has adopted square tube type's leveling keel 2 in this embodiment, and it is the tubulose by four board concatenation, takes its arbitrary plate as its roof, and what this roof both ends were is the curb plate promptly. During installation, the two ends of the top plate of the leveling keel 2 along the length direction are respectively lapped on the peripheral plates 122 of the two adjusting feet 1, and the leveling keel 2 is directly installed flatly on the premise that the adjusting feet 1 are leveled.

In order to further improve the installation strength of the leveling keel 2, the peripheral plate 122 is modified in the present embodiment, as shown in fig. 5, the peripheral plate 122 includes a supporting portion 122a and clamping portions 122b disposed at two ends of the supporting portion 122a perpendicular to the length direction of the leveling keel 2, and a clamping seam is formed between the supporting portion 122a and the clamping portions 122 b. When the device is installed, the top plate is lapped on the supporting part 122a, and the side plate is inserted into the clamping seam. Preferably set up supporting part 122a place horizontal plane and be less than joint portion 122b place horizontal plane, further preferably set up vertical distance between supporting part 122a and the joint portion 122b and be unanimous with the thickness of the 2 top plates of fossil fragments of making level, so make level fossil fragments 2 and accomplish the installation back, the top surface of the fossil fragments 2 of making level and joint portion 122b just in time on the coplanar, form a flush face, the steady installation of follow-up base plate 3 isotructures of being convenient for.

After the installation of the leveling keel 2, only one installation keel 5 is installed first, this installation keel 5 preferably being installed on the most lateral row of adjustment feet 1. The structure of the installation keel 5 is shown as black filling section bar in fig. 3, and comprises an installation plate 51 connected with the central plate 121 and bearing plates 52 arranged at two ends of the installation plate 51 along the length direction of the leveling keel 2, preferably, a plurality of adjustment feet 1 in the same row are connected with the installation plate 51 of one installation keel 5, the installation plate 51 and the central plate 121 can be installed through screws, and the bearing plates 52 are used as connecting members for the assembly installation of the subsequent floor 4.

At this time, since the peripheral plates 122 are provided at both ends of the central plate 121, if the central plate 121 and the peripheral plates 122 are on the same plane and the mounting plate 51 and the receiving plate 52 are also on the same plane, the receiving plate 52 directly contacts the peripheral plates 122, and it is difficult to subsequently perform the function of the fabricated floor 4. Therefore, it is necessary to raise the level of the receiving plate 52 or lower the level of the peripheral plate 122. As shown in the diagonal filler section in fig. 3, in the present embodiment, the central plate 121 is disposed at a level higher than the peripheral plate 122, and the central plate 121 and the peripheral plate 122 are connected by the extension plate 123.

Under the condition of this mounting structure, if the mounting plate 51 and the receiving plate 52 are on the same plane, after the mounting plate 51 is mounted, the receiving plate 52 is suspended on the peripheral plate 122, and the receiving plate 52 is subsequently used for mounting and receiving the floor 4, and there is a problem that the receiving plate 52 and the mounting plate 51 are easily broken, therefore, in this embodiment, the mounting plate 51 and the receiving plate 52 are connected by the U-shaped fixing member 54, the fixing member 54 includes a first fixing portion vertically connected with the mounting plate 51, a connecting portion vertically connected with the receiving plate 52, and a second fixing portion connecting the first fixing portion and the connecting portion, the first fixing portion abuts against the extension plate 123, and the second fixing portion abuts against the peripheral plate 122.

After one of the best side installation keels 5 is installed, the installation on the ground is stopped, and the base plate 3 and the floor 4 are connected into a whole, which is marked as a whole floor. As shown in fig. 3, the length of the floor 4 along the length direction of the leveling keel 2 is approximately the distance between the central points of the central plates 121 of the two adjacent adjusting feet 1, and the width of the splicing gap between the two floors 4 can be controlled by controlling the length of the floor 4; and the length of the base layer board 3 is smaller than that of the floor 4. The floor 4 and the base plate 3 are overlapped together, and during the overlapping, a little adhesive can be applied between the floor and the base plate to improve the connection strength, or not. The central axis of the control floor 4 and the central axis of the base plate 3 are on the same vertical plane, so that both ends of the control floor 4 protrude out of both ends of the base plate 3, and an L-shaped groove 31 is formed between the back surface of the control floor 4 and the side surface of the base plate 3. The groove 31 is used for matching with the installation keel 5 later, in order to match the strength of the installation keel 5, a reinforcing section bar 6 is usually arranged in the groove 31, the reinforcing section bar 6 is like a point filling section bar in figure 3 and comprises a first connecting plate connected with the back surface of the floor 4 and a second connecting plate connected with the side surface of the base plate 3, the material of the reinforcing section bar 6 is consistent with that of the installation keel 5, on one hand, the base plate 3 and the floor 4 can be fixed together, and on the other hand, the strength of the groove 31 is enhanced.

In addition, in assembled ground, the base plate 3 is the overlap joint on the fossil fragments 2 of making level, this application is for forming recess 31, the length of base plate 3 has been reduced, make the base plate 3 when follow-up installation, main overlap joint is at the mid portion of the fossil fragments 2 of making level, the tip part of the fossil fragments 2 both ends overlap joint on board 122 all around does not have the overlap joint of base plate 3, at this moment, the mid portion that appears in the fossil fragments 2 of making level receives decurrent pressure, the tip part receives the phenomenon of ascending holding power, cause the easy problem of buckling between fossil fragments 2 mid portion of making level and the tip part. Therefore, this embodiment still includes the parallel plate 41 with floor 4, and base plate 3 sets up between floor 4 and parallel plate 41, and parallel plate 41 all has the overlap joint of parallel plate 41 along leveling 2 length direction's both ends protrusion in base plate 3's both ends of fossil fragments 2, the atress of fossil fragments 2 of leveling relatively even. Meanwhile, with the flush plates 41, the base plate 3 can be a hollow plate instead of an integral plate or a plurality of single plates vertical to the floor 4, so that the cost is reduced. The use of cooperation flush plate 41, reinforced section bar 6 still includes the third connecting plate of being connected with flush plate 41 top surface, first connecting plate, second connecting plate, third connecting plate integrated into one piece.

And then, laying the floor, placing the integral floor on the leveling keel 2, inserting the groove 31 at one end of the integral floor into the receiving plate 52 of the installed installation keel 5, enabling the receiving plate 52 to be abutted against the back of the floor 4 in the integral floor, and applying an adhesive for filling if the receiving plate 52 cannot be completely attached to the back of the floor 4. Meanwhile, in order to improve the connection strength between the receiving plates 52 and the concave groove 31, the end portions of the two receiving plates 52 are respectively provided with a folded plate 53 vertically, the folded plates 53 are abutted against the side surface of the base plate 3, and similarly, an adhesive may be applied to fill the space between the two. Then, inserting a mounting keel 5 into the groove 31 at the other end of the integral floor, fixing the mounting plate 51 of the mounting keel 5 with the central plate 121 of the adjusting foot 1 after inserting, and so on, and sequentially mounting the integral floor and the mounting keel 5 to complete the mounting of the fabricated floor.

In addition, based on the above structure, it can be seen that, as for the mounting structure of the adjustment foot 1, the center thereof receives the upward supporting force of the screw, and the two ends thereof receive the downward pressure of the keel, the mounting structure is easily deformed. In order to avoid the deformation of the installation structure, in this embodiment, the deformation of the joint between the peripheral plate 122 and the central plate 121 is relieved by the above-described structure in which the peripheral plate 122 is located at a level lower than that of the central plate 121. Secondly, the deformation of the central plate 121 itself needs to be relieved, as shown in fig. 7, a convex ring is disposed on the back of the central plate 121, that is, on the side of the central plate 121 close to the base 11, and the screw is inserted into the convex ring, so that when the end of the central plate 121 is deformed downward by pressure, the convex ring is driven to deform, and the deformation tendency is stopped by the insertion of the screw, so that the deformation of the central plate 121 can be stopped. Meanwhile, internal threads can be arranged in the convex ring to be in threaded connection with the screw, and the direction of the threaded connection between the convex ring and the screw is opposite to the direction of the threaded connection between the convex ring and the screw sleeve. At this moment, on the one hand, the mode of can dismantling the connection is convenient for the change of impaired part, and on the other hand, the trend that the bulge loop warp can strengthen being connected between bulge loop and the screw rod on the contrary, improves the connection effect. Such a convex ring may be disposed on the central plate 121 in any manner, in this embodiment, as shown in fig. 6, the central plate 121 is provided with a circular ring 121a at the center, the circular ring 121a protrudes toward the base 11 relative to the body of the central plate 121, so as to form the convex ring on the side of the central plate 121 close to the base 11, on one hand, the material cost is reduced, on the other hand, a concave ring is formed on the side of the central plate 121 far from the base 1, the central plate 121 is provided with a force releasing groove communicated with the concave ring, and the concave ring and the force releasing groove play a role of buffering, and the central plate 121 is prevented from cracking. Considering the force direction of the central plate 121, the force-releasing slots are in the shape of a strip, and the length direction of the force-releasing slots is perpendicular to the straight line direction of the center points of the two peripheral plates 122.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a big board ground installation system of kitchen assembled composite ceramic tile, includes a plurality of regulation feet (1) that set up in original ground, set up in two adjacent regulation feet (1) between fossil fragments (2) of making level, set up in basal plate (3) on the fossil fragments (2) of making level and set up in floor (4) on basal plate (3), its characterized in that: two ends of the floor (4) along the length direction of the leveling keel (2) protrude out of two ends of the base plate (3), so that an L-shaped groove (31) is formed between the back surface of the floor (4) and the side surface of the base plate (3); the mounting system further comprises a mounting keel (5), wherein the mounting keel (5) comprises a mounting plate (51) connected with the adjusting foot (1) and bearing plates (52) arranged at two ends of the mounting plate (51) along the length direction of the leveling keel (2); the receiving plate (52) is inserted into the groove (31), and the receiving plate (52) is abutted against the back surface of the floor (4).

2. The kitchen fabricated composite tile floor mounting system of claim 1, wherein: the end parts of the two bearing plates (52) are respectively provided with a folded plate (53), and the folded plates (53) are abutted against the side surface of the base plate (3).

3. The kitchen fabricated composite tile floor mounting system of claim 1, wherein: the floor is characterized by further comprising a reinforcing section bar (6) arranged in the groove (31), wherein the reinforcing section bar (6) comprises a first connecting plate connected with the back surface of the floor (4) and a second connecting plate connected with the side surface of the base plate (3).

4. A kitchen fabricated composite tile floor mounting system as claimed in claim 3 wherein: still include with parallel flush plate (41) on floor (4), base plate (3) set up in between floor (4) and flush plate (41), flush plate (41) along the both ends protrusion in the both ends of leveling fossil fragments (2) length direction in base plate (3).

5. A kitchen fabricated composite tile floor mounting system as claimed in claim 4 wherein: the reinforced section bar (6) further comprises a third connecting plate connected with the top surface of the flush plate (41), and the first connecting plate, the second connecting plate and the third connecting plate are integrally formed.

6. The kitchen fabricated composite tile floor mounting system of claim 1, wherein: adjust foot (1) including base (11) and supporting seat (12), base (11) are connected with original ground, base (11) are equipped with and have the internal screw thread sleeve, supporting seat (12) be equipped with sleeve threaded connection's screw rod, make level fossil fragments (2) with installation fossil fragments (5) all with the screw rod is connected.

7. The kitchen fabricated composite tile floor mounting system of claim 6, wherein: the screw is provided with a mounting structure for mounting the mounting keel (5) and the leveling keel (2), the mounting structure comprises a central plate (121) arranged on the end face of the screw and peripheral plates (122) arranged at two ends of the central plate (121) along the length direction of the leveling keel (2), the horizontal plane of the central plate (121) is higher than the horizontal plane of the peripheral plates (122), and the central plate (121) and the peripheral plates (122) are connected through extension plates (123); the leveling keel (2) comprises a top plate, and the end part of the top plate is lapped on the peripheral plate (122); the mounting plate (51) of the mounting keel (5) is connected with the central plate (121).

8. The kitchen fabricated composite tile floor mounting system of claim 7, wherein: the mounting panel (51) with accept and connect between the board (52) through firm piece (54) of U type, firm piece (54) including with mounting panel (51) perpendicular connection the first reinforced portion, with accept the connecting portion that board (52) perpendicular connection, and connect the second reinforced portion of first reinforced portion and connecting portion, first reinforced portion with extension board (123) butt, the second reinforced portion with all edge plate (122) butt.

9. The kitchen fabricated composite tile floor mounting system of claim 7, wherein: all edge plates (122) include supporting part (122 a), set up in supporting part (122 a) perpendicular to make level joint portion (122 b) at fossil fragments (2) length direction both ends, form the joint seam between supporting part (122 a) and joint portion (122 b), make level fossil fragments (2) still including set up in the curb plate at roof both ends, the roof overlap joint in on supporting part (122 a), the curb plate is inserted and is located in the joint seam.

10. The kitchen fabricated composite tile floor mounting system of claim 7, wherein: the center of the central plate (121) is provided with a circular ring part (121 a), the circular ring part (121 a) protrudes towards the direction of the base (11) relative to the body of the central plate (121) so as to form a convex ring on one surface of the central plate (121) close to the base (11), and the screw rod is inserted into the convex ring.

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