CN113250413A - Assembled ground and installation method - Google Patents

Abstract

The invention relates to and discloses an assembled ground and an installation method. Relates to the technical field of architectural decoration. The device specifically comprises bearing base plates, adjusting pins and fixing devices, wherein the bottoms of the adjusting pins are abutted to the ground, the tops of the adjusting pins are used for bearing two adjacent bearing base plates, the fixing devices are used for fixing the bearing base plates on the adjusting pins, and the adjusting pins are used for leveling the two adjacent bearing base plates when the heights of the adjusting pins are adjusted; the bearing substrate is characterized by also comprising a balance layer covering the bearing substrate and a surface layer covering the balance layer. According to the invention, one end of each of two adjacent bearing base plates is carried on the adjusting foot, the bearing base plates are fixed on the adjusting foot through the fixing device, the bottom of the adjusting foot is abutted against the ground, then the height of the adjusting foot is adjusted, the leveling of the two adjacent bearing base plates is realized, finally, a balance layer made of a cement fiber board is covered on the bearing base plates, and tiles or wood floors are paved on the cement fiber board to be used as panels, so that the laying of the assembled ground is completed.

Description

Assembled ground and installation method

Technical Field

The invention relates to the technical field of architectural decoration, in particular to an assembled ground and an installation method.

Background

With the increasing demands of people on materials and living and the pursuit of higher quality and comfortable space, people have higher and higher requirements on indoor decoration, such as pavement decoration of solid wood geothermal floors, composite floors and reinforced floors, because the ground is fluctuated after the ground is poured in the building construction, the ground flatness is quite poor, and the error of 1-8 cm is usually even larger, at this time, if the floor is directly paved, the following problems can occur; the air rattle, namely the sound produced when the foot steps on the floor, can further cause the damage of the lock catch, thereby damaging the floor; the wall corner always gets ash when the ash is blown out, and the wall corner cannot be cleaned completely. If the ground strength is not enough, the floor can be kicked off by foot, and dust can extend out from the corner after the floor is paved, so that the floor is very troublesome to clean and difficult to remedy. Therefore, when the floor is paved, ground leveling is needed.

Chinese patent CN211396436U, published Japanese 2020-09-01 disclose an assembly type ground, which comprises a ground module body, wherein the ground module body is fixedly arranged on a support keel through a sealing structure, and the support keel is connected with a side keel through a connecting piece; the second connecting part is arranged on the side keel, and a second sealing structure matched with the second connecting part is arranged on the second connecting part; be equipped with third connecting portion, fourth connecting portion and spacing portion on the connecting piece, spacing portion is used for tentatively injecing the relation of connection of two fossil fragments, and third connecting portion and fourth connecting portion are used for connecting two fixed mutually perpendicular's fossil fragments. The utility model provides a pair of assembled ground, simple structure, it is rationally distributed, be convenient for install fast and dismantle, can be used to the space that has water such as kitchen through the effectual waterproof of seal structure moreover. However, the fabricated floor is leveled by cement, the flatness of the floor is poor, and large errors exist.

Disclosure of Invention

The invention aims to provide an assembly type ground and an installation method thereof, aiming at the defects of the prior art, so that ground leveling can be performed, and paving and pasting of the assembly type ground can be quickly and conveniently realized.

The invention provides an assembled floor, which comprises bearing substrates, adjusting feet and a fixing device, wherein the bottoms of the adjusting feet are abutted against the floor, the tops of the adjusting feet are used for bearing two adjacent bearing substrates, the fixing device is used for fixing the bearing substrates on the adjusting feet, and the adjusting feet are used for leveling the two adjacent bearing substrates when the heights of the adjusting feet are adjusted; the bearing substrate is characterized by further comprising a balance layer covering the bearing substrate and a surface layer covering the balance layer.

Furthermore, bearing substrate both ends all are equipped with connecting portion, still include one end and one bearing substrate's connecting portion joint, the other end and adjacent another bearing substrate's connecting buckle of connecting portion joint.

Further, the connecting portion inboard is equipped with cylindrical arch, connect buckle both ends inboard be equipped with cylindrical protruding complex cylindrical recess.

Furthermore, the adjusting foot comprises a supporting foot used for being abutted against the ground, a base used for being in threaded connection with the supporting foot, and an adjusting device used for rotating the supporting foot and adjusting the height of the base on the supporting foot; the base is provided with a supporting platform for supporting two adjacent bearing substrates and a screwed part screwed with the supporting legs.

Furthermore, the supporting leg comprises an abutting part abutting against the ground and a stud arranged on the abutting part and used for being in threaded connection with the threaded part.

Further, still include the gasket, be equipped with on the gasket and supply the recess of butt portion grafting, butt portion with the recess rotates to be connected.

Furthermore, adjusting device is including locating the regulation hole at stud top, and with regulation hole cooperation, be used for rotating the adjustment instrument of supporting legs, be equipped with on the spiro union portion run through the base, be used for with stud complex screw hole, the screw hole runs through spiro union portion.

Furthermore, fixing device is including locating separately two locking screw modules at supporting platform both ends to and one end run through the bearing substrate, with two self-tapping screws of locking screw module complex.

Further, the locking nail module comprises a reinforcing block with a cavity arranged in the middle and openings at two ends of the cavity, and a limiting block which is inserted into the cavity and matched with the self-tapping screw, wherein the limiting block is in interference fit with the cavity, the reinforcing block is made of metal, and the limiting block is made of plastic.

A method of installing a fabricated floor, comprising the steps of:

s1: carrying the bearing substrate on the adjusting pin base to enable the plate edge to abut against the locking pin module of the adjusting pin;

s2: the connecting buckles are clamped into the connecting parts of two adjacent bearing substrates from the front end and the rear end of the bearing substrate to fix the bearing substrates;

s3: self-tapping screws are driven into the grooves of the two adjacent bearing substrates, penetrate through the bearing substrates and are driven into the locking screw modules of the adjusting pins, and the bearing substrates and the adjusting pins are locked;

s4: leveling two adjacent bearing base plates by adjusting the height of the adjusting feet;

s5: covering a balance layer on the bearing substrate;

s6: and paving a surface layer on the balance layer.

The assembled ground and the installation method have the following gain effects:

(1) the assembled ground is characterized in that one end of each of two adjacent bearing base plates is carried on an adjusting foot, the bearing base plates are fixed on the adjusting feet through fixing devices, the bottoms of the adjusting feet are abutted to the ground, then the heights of the adjusting feet are adjusted, leveling of the two adjacent bearing base plates is achieved, finally a balance layer made of a cement fiber board is covered on the bearing base plates, ceramic tiles or wood floors are paved on the cement fiber board to serve as panels, and paving of the assembled ground is completed;

(2) this load-bearing substrate both ends on assembled ground all are equipped with connecting portion, still include the connecting buckle of connecting portion joint of one end and a load-bearing substrate, the connecting portion joint of the other end and another adjacent load-bearing substrate. Connecting buckles are clamped into the connecting parts of the two adjacent bearing substrates from the front ends and the rear ends of the two adjacent bearing substrates to fix the bearing substrates, in the application, although the bearing substrates are fixed on the adjusting pins by a fixing device, the two adjacent bearing substrates are further fixed by the connecting buckles, so that the stability of the structure can be enhanced, and the service life of the fabricated floor is prolonged;

(3) this connecting portion inboard on assembled ground is equipped with cylindrical arch, connect buckle both ends inboard be equipped with cylindrical protruding complex cylindrical recess. The cylindrical protrusions are arranged on the inner sides of the connecting parts, the cylindrical grooves are arranged on the inner sides of the two ends of the connecting buckle, when the connecting buckle is clamped with the two adjacent bearing substrates, the cylindrical grooves are matched with the cylindrical protrusions, the clamping strength of the connecting buckle and the connecting parts can be enhanced, the fixing effect of the connecting buckle on the two adjacent bearing substrates is better, the cylindrical protrusions can limit the cylindrical grooves, and the connecting buckle and the two adjacent bearing substrates can be clamped conveniently;

(4) the adjusting foot of the assembly type ground comprises a supporting foot used for being abutted against the ground, a base used for being in threaded connection with the supporting foot, and an adjusting device used for rotating the supporting foot and adjusting the height of the base on the supporting foot; the base is provided with a supporting platform for supporting two adjacent bearing substrates and a screwed part screwed with the supporting legs. According to the leveling device, the threaded connection part of the base is in threaded connection with the supporting legs, the bottoms of the supporting legs are abutted to the ground, when the supporting legs are rotated, the height of the base on the supporting legs can be adjusted, and the base is provided with the supporting platform for supporting two adjacent base plates, so that when the height of the base on the supporting legs is adjusted, the two adjacent bearing base plates can be leveled;

(5) the support leg of the assembly type ground comprises an abutting part abutting against the ground and a stud arranged on the abutting part and used for being in threaded connection with a threaded part. When the adjusting foot is used, the abutting part of the supporting foot is placed on the ground, and is in threaded connection with the threaded connection part of the base through the stud vertically arranged on the abutting part;

(6) this adjusting device on assembled ground is including locating the regulation hole at double-screw bolt top to and with the regulation hole cooperation, be used for rotating the adjustment tool of supporting legs, the screw connection portion is run through to the screw hole. In this application, set up the regulation hole through the top at the double-screw bolt, and the screw thread portion runs through screw thread portion in the screw thread portion's screw thread portion, and after the double-screw bolt carries out the spiro union from the bottom of base and screw thread portion like this, the regulation hole was followed the double-screw bolt and is got into in the screw hole of screw thread portion, and the rethread adjusting tool is inserted from the top of screw hole, cooperates with the regulation hole, realizes the rotation of supporting legs. The adjusting device is arranged in such a way, so that the supporting legs can rotate at the top of the base, if the supporting legs rotate at the bottom of the base, on the other hand, the operating space is small, the implementation is inconvenient, and on the other hand, when the adjusting legs are arranged between two adjacent bearing base plates, the supporting legs can also be rotated from the bottom of the base to cause difficulty, so that the leveling of the bearing base plates is difficult to realize;

(7) the adjusting hole on the assembly type ground is an inner hexagonal threaded hole, and the adjusting tool is a hexagonal wrench. Establish the regulation hole into the interior hexagonal screw hole that can supply interior hexagonal spanner to insert, just so can carry out the rotation of screw rod in the spiro union portion through hexagonal spanner, thereby realize the regulation of base height on the supporting legs, it adopts interior hexagonal screw hole because there are six contact surfaces between interior hexagonal screw thread and the hexagonal spanner, the atress is abundant and be difficult to damage, prevent to twist several times later the screw thread just to damage, and hexagonal spanner is very common bolt extracting tool again, find very easily, so this kind of mode also easy to carry out.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements.

FIG. 1 is an exploded view of the installation of a balancing layer and a facing of a fabricated surface and method of installation in accordance with an embodiment of the present invention;

FIG. 2 is an exploded view of the installation of the connector clip of the fabricated floor and method of installation of the present invention;

FIG. 3 is an installation elevation view of a fabricated floor and method of installation according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an adjustment foot of the fabricated floor and installation method according to the embodiment of the present invention;

FIG. 5 is a bottom view of an adjustment foot of the fabricated floor and method of installation of the present invention;

FIG. 6 is a schematic structural diagram of a base of the fabricated floor and installation method of the present invention;

fig. 7 is a schematic structural diagram of a supporting foot of the fabricated floor and the installation method according to the embodiment of the invention.

In the figure: 1. a load-bearing substrate; 11. a connecting portion; 111. a cylindrical protrusion; 2. adjusting the foot; 21. supporting legs; 211. an abutting portion; 212. a stud; 213. an adjustment hole; 22. a base; 221. a support platform; 222. a locking pin module; 2221. a reinforcing block; 2222. a limiting block; 223. a screw connection part; 2231. a threaded hole; 23. a gasket; 24. a self-tapping screw; 3. a balancing layer; 4. a surface layer; 5. connecting a buckle; 51. a cylindrical recess.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts will fall within the protection scope of the present invention.

The assembled ground comprises bearing substrates 1, adjusting feet 2 and fixing devices, wherein the bottoms of the adjusting feet are abutted to the ground, the tops of the adjusting feet 2 are used for bearing two adjacent bearing substrates 1, the fixing devices are used for fixing the bearing substrates 1 on the adjusting feet 2, and the adjusting feet 2 are used for leveling two adjacent bearing substrates 1 when the heights of the adjusting feet are adjusted; the bearing substrate comprises a bearing substrate 1, a balance layer 3 and a surface layer 4, wherein the bearing substrate 1 is covered with the balance layer 3, and the specific effects are shown in figure 1. In this application, carry on adjusting foot 2 through the one end with two adjacent bearing substrate 1, rethread fixing device fixes bearing substrate 1 on adjusting foot 2, adjust the bottom and the ground butt of foot 2, then highly adjust adjusting foot 2 self, realize two adjacent bearing substrate 1's leveling, cover balanced layer 3 that cement fiberboard was done on bearing substrate 1 at last, spread tiling or timber apron as surface course 4 on cement fiberboard, accomplish laying on fabricated floor.

In this embodiment, the two ends of the load-bearing substrate 1 are both provided with the connecting portion 11, and the load-bearing substrate further includes a connecting buckle 5 having one end connected with the connecting portion 11 of one load-bearing substrate 1 in a clamping manner and the other end connected with the connecting portion 11 of another adjacent load-bearing substrate 1 in a clamping manner, and the specific effects are shown in fig. 1, fig. 2 and fig. 3. Will connect buckle 5 from two adjacent bearing substrate 1 around both ends card go into two bearing substrate 1's connecting portion 11, fix bearing substrate 1, in this application, although there has been fixing device to fix bearing substrate 1 on adjusting foot 2, but further fix two adjacent bearing substrate 1 through connecting buckle 5, can strengthen the stability of this structure to strengthen the life on this assembled ground.

In this embodiment, the inner side of the connecting portion 11 is provided with a cylindrical protrusion 111, and the inner sides of the two ends of the connecting buckle 5 are provided with a cylindrical groove 51 matched with the cylindrical protrusion 111, and the specific effects are shown in fig. 2 and fig. 3. Be equipped with cylindrical protrusion 111 in connecting portion 11 inboard, be equipped with cylindrical recess 51 in 5 both ends inboards of connector clip, when connector clip 5 carries out the joint with two adjacent bearing substrate 1, cylindrical recess 51 cooperates with cylindrical protrusion 111, not only can strengthen the intensity of connector clip 5 and connecting portion 11 joint, thereby make connector clip 5 better to two adjacent bearing substrate 1's fixed effect, cylindrical protrusion 111 can play the effect spacing to cylindrical recess 51 moreover, more make things convenient for connector clip 5 and two adjacent bearing substrate 1's joint.

The adjusting foot 2 comprises a supporting foot 21 used for being abutted against the ground, a base 22 used for being screwed with the supporting foot 21, and adjusting devices used for rotating the supporting foot 21 and adjusting the height of the base 22 on the supporting foot 21; the base 22 is provided with a supporting platform 221 for supporting two adjacent load-bearing substrates 1, and a screwing part 223 screwed with the supporting foot 21, as shown in fig. 4, 5 and 6. This application carries out the spiro union with supporting legs 21 through the spiro union portion 223 of base 22, and the bottom and the ground butt of supporting legs 21, when rotating supporting legs 21, can adjust the height of base 22 on supporting legs 21, and base 22 is equipped with the supporting platform 221 that is used for carrying out the support to two adjacent base plates, consequently when adjusting the height of base 22 on supporting legs 21, just can realize the leveling to two adjacent bearing substrate 1.

In the present embodiment, the supporting leg 21 includes an abutting portion 211 abutting against the ground, and a stud 212 disposed on the abutting portion 211 for being screwed with the screwing portion 223, as shown in fig. 6. When the adjusting foot 2 is used, the abutting part 211 of the supporting foot 21 is placed on the ground, the stud 212 vertically arranged on the abutting part 211 is screwed with the screwing part 223 of the base 22, when the stud 212 is rotated, the abutting part 211 is already abutted with the ground, so that the stud 212 cannot move downwards, and only the height of the base 22 on the stud 212 is changed, thereby leveling the substrate fixed on the base 22.

In this embodiment, the stud 212 is provided with an external thread, and the screwing portion 223 is provided with a threaded hole 2231 penetrating through the base 22 and configured to be matched with the external thread, as shown in fig. 5 and 6. In order to screw the stud 212 and the screw portion 223, there are two embodiments, one is to provide a threaded hole 2231 on the stud 212, provide an external thread on the screw portion 223, and screw the screw portion 223 and the stud 212 through the matching of the external thread on the screw portion 223 and the internal thread on the stud 212, and the other is to provide an external thread on the stud 212, provide an internal thread on the screw portion 223, and screw the screw portion 223 and the stud 212 through the matching of the internal thread of the screw portion 223 and the external thread of the stud 212. Compared with the former embodiment, the second embodiment is more practical in the present application because if the stud 212 is provided with an internal thread and the screw part 223 is provided with an external thread, since the stud 212 is screwed with the screw part 223 from the bottom of the base 22, the screw part 223 can only be arranged at the bottom of the base 22, and the bearing substrate 1 is fixed at the top of the base 22, which may result in the height of the applied bearing substrate 1 being too high, and in the actual floor-applying process, the too high height of the bearing substrate 1 may not only affect the appearance of the applied floor, but also may cause the applied bearing substrate 1 to be unstable, and in the second embodiment, the screw part 223 is provided with an internal thread, so long as the internal thread hole 2231 of the screw part 223 penetrates through the base 22, the screw connection of the stud 212 from the bottom of the base 22 to the screw part 223 may be realized, and the screw part 223 does not necessarily need to be arranged at the bottom of the base 22, therefore, the structure of the application has more choices, and the practicability of the application is enhanced.

The gasket 23 is further included, a groove for inserting the abutting portion 211 is formed in the gasket 23, and the abutting portion 211 is rotatably connected with the groove. The bottom of the abutting part 211 is provided with a gasket 23, the gasket 23 is provided with a groove for the abutting part 211 to be inserted, and the abutting part 211 is rotatably connected with the groove, so the gasket 23 is arranged between the abutting part 211 and the ground, on one hand, because the section diameter of the gasket 23 is larger than that of the abutting part 211, the abutting part 211 is inserted into the gasket 23 through the abutting of the gasket 23 and the ground, the contact area between the supporting leg 21 and the ground can be enlarged, so the structure of the adjusting leg 2 is more stable when in use, and the section diameter of the abutting part 211 is not directly enlarged, so that the supporting leg 21 is more portable, and the installation and the practicability are convenient; on the other hand, if the abutting portion 211 is in direct contact with the ground, the supporting leg 21 is rotated to level the bearing substrate 1, the ground is soft, the abutting portion 211 can be inserted into the ground when rotated, the leveling effect of the adjusting leg 2 on the bearing substrate 1 is influenced, the supporting leg 21 can be more difficult to rotate, the gasket 23 abuts against the ground, the gasket 23 does not need to rotate when leveled, the abutting portion 211 is rotatably connected with the groove of the gasket 23, the rotation of the supporting leg 21 cannot be influenced, a rolling bearing can be arranged between the abutting portion 211 and the groove, and the supporting leg 21 can be more conveniently rotated.

In this embodiment, the gasket 23 is made of hard rubber, plastic, or the like. The gasket 23 is used for supporting the supporting leg 21 to a certain extent, and therefore the material of the gasket needs to be made of hard rubber or plastic and other materials with certain strength, so that the structural strength of the bearing base plate 1 is guaranteed, and the gasket 23 is prevented from being damaged under the extrusion of the bearing base plate 1, and the use of the bearing base plate is prevented from being influenced.

The adjusting device comprises an adjusting hole 213 formed in the top of the stud 212 and an adjusting tool matched with the adjusting hole 213 and used for rotating the supporting leg 21, and a threaded hole 2231 penetrates through the threaded portion 223, with the specific effects as shown in fig. 5 and 7. In this application, the adjusting hole 213 is disposed at the top of the stud 212, and the threaded portion 223 penetrates through the threaded hole 2231 of the threaded portion 223, so that after the stud 212 is threaded with the threaded portion 223 from the bottom of the base 22, the adjusting hole 213 enters the threaded hole 2231 of the threaded portion 223 along with the stud 212, and then is inserted from the top of the threaded hole 2231 by an adjusting tool to be matched with the adjusting hole 213, thereby realizing the rotation of the supporting leg 21. The advantage of arranging the adjusting device in this way is that the support foot 21 can be rotated at the top of the base 22, and if the support foot 21 is rotated at the bottom of the base 22, on the other hand, the operating space is small, which is inconvenient to implement, and on the other hand, when the adjusting foot 2 is installed between two adjacent load-bearing base plates 1, it will also cause difficulty in rotating the support foot 21 from the bottom of the base 22, thereby making the leveling of the load-bearing base plate 1 difficult to achieve.

The adjusting hole 213 is a hexagonal socket 2231, and the adjusting tool is a hexagonal wrench, which has the specific effect shown in fig. 7. Set up regulation hole 213 into the interior hexagonal screw hole 2231 that can supply the interior hexagonal spanner to insert, just so can carry out the rotation of screw rod in spiro union portion 223 through the hexagonal spanner, thereby realize the regulation of base 22 height on supporting legs 21, it adopts interior hexagonal screw hole 2231 because there are six contact surfaces between interior hexagonal screw thread and the hexagonal spanner, the atress is abundant and be difficult to damage, prevent to twist the screw thread just to damage after several times, and the hexagonal spanner is very common bolt extracting tool again, find very easily, so this kind of mode also easy to carry out.

The fixing device includes two locking screw modules 222 respectively disposed at two ends of the supporting platform 221, and two tapping screws 24 having one end penetrating through the load-bearing substrate 1 and being matched with the locking screw modules 222, as shown in fig. 3 and 6. The two opposite ends of the supporting platform 221 are respectively provided with a locking screw module 222 for fixing the two adjacent bearing substrates 1, when the supporting platform is installed, the two adjacent bearing substrates 1 are respectively placed at the other two ends of the supporting platform 221, which are not provided with the locking screw modules 222, and then one end of the tapping screw 24 penetrates through the bearing substrates 1 and then is in threaded connection with the locking screw modules 222, so that the bearing substrates 1 are fixed on the supporting platform 221.

The locking module 222 includes a reinforcing block 2221 with a cavity in the middle and two open ends of the cavity, and a limiting block 2222 inserted into the cavity and used for cooperating with the tapping screw 24, the limiting block 2222 is in interference fit with the cavity, the reinforcing block 2221 is made of metal, the limiting block 2222 is made of plastic, and the specific effects are shown in fig. 6. The locking nail module 222 is composed of a reinforcing block 2221 with a cavity in the middle and openings at two ends of the cavity and a limiting block 2222 inserted into the cavity of the reinforcing block 2221, the limiting block 2222 and the cavity are in interference fit, so that the limiting block 2222 inserted into the cavity cannot move in the reinforcing block 2221, when the bearing substrate 1 is installed, one end of the tapping screw 24 penetrates through the bearing substrate 1 and is then screwed with the limiting block 2222 in the locking nail module 222, and the bearing substrate 1 is fixed on the base 22. The nail locking module 222 is formed by two parts, namely, the reinforcing block 2221 and the limiting block 2222, so that the reinforcing block 2221 and the limiting block 2222 can be made of two different materials, in order to ensure the stability of fixing the bearing substrate 1, the reinforcing block 2221 is made of a metal material, the metal material has stronger hardness, the structural strength of the structure can be enhanced, the limiting block 2222 is made of a plastic material, the hardness of the plastic material is lower than that of the metal material, and the self-tapping screw 24 can be screwed with the limiting block 2222 conveniently. The arrangement has two advantages, and on the other hand, the processing cost of the adjusting foot 2 can be reduced, because the metal material is more expensive than the plastic material, if the locking pin module 222 is made of the plastic material, the stability of the connection between the bearing substrate 1 and the base 22 cannot be ensured, and if the locking pin module 222 is made of the metal material, the cost is too high; on the other hand, even if material cost is not counted, in order to guarantee the stability that the bearing substrate 1 is connected with the base 22, all adopt the metal material to make the locking screw module 222, still can lead to self-tapping screw 24 to carry out the spiro union with the locking screw module 222, because self-tapping screw 24 is also the metal material, can't pierce through the locking screw module 222 of metal material, consequently need tap in advance on the locking screw module 222 and bore with self-tapping screw 24 complex screw hole 2231, this has undoubtedly increased difficulty and cost for this processing of adjusting foot 2.

The length of the stud 212 is equal to the length of the threaded portion 223. In the present application, the height adjustment of the base 22 on the supporting leg 21 is realized by screwing the stud 212 and the screwing portion 223, so the height adjustment range of the base 22 depends on the length of the stud 212, but if the length of the stud 212 is set to be too long and far beyond the length of the screwing portion 223, the stud 212 may protrude from a gap between two adjacent bearing substrates 1 when the bearing substrates 1 are installed, which causes difficulty in the next installation and is also easy to cause unsafe factors, and if the length of the stud 212 is too short, the adjustment range of the base 22 is limited, so in the present application, the length of the screwing portion 223 may be designed reasonably, and then the length of the stud 212 is set to be equal to the length of the screwing portion 223, so that the adjustment range of the base 22 is ensured, and at the same time, other installations are not affected.

A method of installing a fabricated floor, comprising the steps of:

s1: carrying the bearing substrate on a base of the adjusting pin to enable the plate edge to abut against the locking pin module of the adjusting pin;

s2: determining a nailing position from the exposed nail locking module, and clamping the connecting buckles into the connecting parts of two adjacent bearing substrates from the front end and the rear end of the bearing substrate to fix the bearing substrates;

s3: self-tapping screws are driven into the grooves of the two adjacent bearing substrates, penetrate through the bearing substrates and are driven into the locking screw modules of the adjusting pins, and the bearing substrates and the adjusting pins are locked;

s4: leveling two adjacent bearing base plates by adjusting the height of the adjusting feet;

s5: covering a balance layer on the bearing substrate;

s6: and paving a surface layer on the balance layer.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An assembled floor, comprising: the device comprises a bearing base plate (1), adjusting feet (2) with the bottoms abutted to the ground and the tops used for bearing two adjacent bearing base plates (1), and fixing devices used for fixing the bearing base plates (1) on the adjusting feet (2), wherein the adjusting feet (2) level two adjacent bearing base plates (1) when the height of the adjusting feet is adjusted; the bearing substrate is characterized by further comprising a balance layer (3) covering the bearing substrate (1) and a surface layer (4) covering the balance layer (3).

2. A fabricated floor as in claim 1, wherein: bearing substrate (1) both ends all are equipped with connecting portion (11), still include one end and one connecting portion (11) joint, the other end and adjacent another of bearing substrate (1) connecting buckle (5) of connecting portion (11) joint of bearing substrate (1).

3. A fabricated floor as claimed in claim 2, wherein: connecting portion (11) inboard is equipped with cylindrical protrusion (111), connect buckle (5) both ends inboard be equipped with cylindrical protrusion (111) complex cylindrical recess (51).

4. A fabricated floor as in claim 1, wherein: the adjusting foot (2) comprises a supporting foot (21) used for being abutted against the ground, a base (22) used for being screwed with the supporting foot (21), and an adjusting device used for rotating the supporting foot (21) and adjusting the height of the base (22) on the supporting foot (21); the base (22) is provided with two adjacent supporting platforms (221) for supporting the bearing substrate (1) and a screwed part (223) screwed with the supporting legs (21).

5. A fabricated floor as claimed in claim 4, wherein: the supporting leg (21) comprises a butting part (211) which is butted with the ground, and a stud (212) which is arranged on the butting part (211) and is used for being screwed with the screwing part (223).

6. A fabricated floor as claimed in claim 5, wherein: still include gasket (23), be equipped with on gasket (23) and supply butt portion (211) the recess of pegging graft, butt portion (211) with the recess is rotated and is connected.

7. A fabricated floor as claimed in claim 5, wherein: adjusting device is including locating regulation hole (213) at double-screw bolt (212) top, and with regulation hole (213) cooperation, be used for rotating the adjustment instrument of supporting legs (21), be equipped with on spiro union portion (223) and run through base (22), be used for with double-screw bolt (212) complex screw hole (2231), screw hole (2231) runs through spiro union portion (223).

8. A fabricated floor as claimed in claim 4, wherein: the fixing device comprises two locking screw modules (222) which are respectively arranged at two ends of the supporting platform (221), and two self-tapping screws (24) with one ends penetrating through the bearing substrate (1) and matched with the locking screw modules (222).

9. A fabricated floor as in claim 8, wherein: the locking nail module (222) comprises a reinforcing block (2221) which is provided with a cavity in the middle and is provided with openings at two ends of the cavity, and a limiting block (2222) which is inserted into the cavity and is matched with the self-tapping screw (24), wherein the limiting block (2222) is in interference fit with the cavity, the reinforcing block (2221) is made of metal materials, and the limiting block (2222) is made of plastic materials.

10. A method of installing a fabricated floor comprising the steps of:

s1: carrying the bearing substrate on the adjusting pin base to enable the plate edge to abut against the locking pin module of the adjusting pin;

s2: the connecting buckles are clamped into the connecting parts of two adjacent bearing substrates from the front end and the rear end of the bearing substrate to fix the bearing substrates;

s3: self-tapping screws are driven into the grooves of the two adjacent bearing substrates, penetrate through the bearing substrates and are driven into the locking screw modules of the adjusting pins, and the bearing substrates and the adjusting pins are locked;

s4: leveling two adjacent bearing base plates by adjusting the height of the adjusting feet;

s5: covering a balance layer on the bearing substrate;

s6: and paving a surface layer on the balance layer.

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