CN212613532U - Mounting structure is laid on assembled indoor ground - Google Patents

Abstract

The utility model relates to an assembly type indoor ground laying and mounting structure, which belongs to the technical field of assembly type ground, and particularly comprises a ground panel, a floor heating module and a supporting and leveling component for supporting the floor heating module, wherein a balance layer is laid on the floor heating module, and the ground panel is laid on the balance layer; the floor heating module is mainly formed by assembling a plurality of floor heating components, each floor heating component mainly comprises a floor heating base box, a heat insulation plate and a floor heating pipe, the heat insulation plates are laid in the floor heating base box, zigzag fixing grooves are formed in the heat insulation plates, the floor heating pipes are fixed in the fixing grooves, pipe penetrating holes for the floor heating pipes to penetrate through are formed in the periphery of the floor heating base box, a floor heating cover plate covers the floor heating base box, U-shaped fixing clamps for fixing the floor heating cover plate are further arranged on the periphery of the floor heating base box, and four corners of adjacent floor heating base boxes are supported and fixed through supporting and leveling components; the utility model discloses simple structure, the construction is simple, convenient, and the bearing capacity is big, durability and wholeness are good.

Description

Mounting structure is laid on assembled indoor ground

Technical Field

The utility model relates to an installation structure is laid to indoor ground of assembled belongs to assembled ground technical field.

Background

The assembly type decoration is also called industrial decoration, and is a decoration process that parts and components produced in the industrial mode are constructed by industrial workers according to a standardized procedure by adopting a dry-type construction method through a reliable assembly mode. The assembled decoration ground structure needs to consider the flatness of the ground, the joint treatment of components and the convenience of installation. Among the prior art, ground is laid and is adopted wet operation more, and ground warms up and need design alone, and it is big to occupy the laying space, and required material is various and the installation is troublesome, need field processing when meetting the non-standard condition, wastes time and takes a lot of work and waste material. The tradition warms up to lay and is the ground that once only accomplished conceals the engineering, nevertheless because differences such as on-the-spot supervision dynamics and workman's quality, reasons such as density of pipe interval when warm up the installation can lead to warm up to accomplish the effect uneven, in the use, in case take place the phenomenon such as heating pipe leaks, overhauls and gets up unusual trouble, also must destroy the architectural surface during the maintenance.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem that prior art exists, the utility model provides a simple structure, the construction is simple, convenient, and the bearing capacity is big, durability and the indoor ground of wholeness are good lays mounting structure.

In order to achieve the purpose, the technical scheme adopted by the utility model is that the assembled indoor ground laying and mounting structure comprises a ground panel, a floor heating module and a supporting and leveling component for supporting the floor heating module, wherein a balance layer is laid on the floor heating module, and the ground panel is laid on the balance layer;

the floor heating module is mainly formed by assembling a plurality of floor heating assemblies, each floor heating assembly is mainly composed of a floor heating base box, a heat insulation plate and a floor heating pipe, the heat insulation plates are paved in the floor heating base box, zigzag fixing grooves are formed in the heat insulation plates, the floor heating pipes are fixed in the fixing grooves, pipe penetrating holes for the floor heating pipes to penetrate through are formed in the periphery of the floor heating base box, a floor heating cover plate covers the floor heating base box, U-shaped fixing clamps for fixing the floor heating cover plate are further arranged on the periphery of the floor heating base box, and four corners of the adjacent floor heating base boxes are supported and fixed through supporting and leveling assemblies;

the supporting and leveling assembly mainly comprises an adjusting screw, a floor heating supporting block and a base plate, wherein the base plate is fixed at the bottom of the adjusting screw, a threaded hole is formed in the center of the bottom of the floor heating supporting block, the adjusting screw is installed in the threaded hole, and a base box connecting piece used for fixing a floor heating base box is installed at the top of the floor heating supporting block.

Preferably, the floor heating base box is of a rectangular or square structure and is formed by bending a galvanized steel plate, the floor heating cover plate is a calcium silicate plate, and the balance layer is a calcium silicate plate or a cement fiberboard.

Preferably, base box connecting piece mainly comprises lower U template and top board, it is fixed with the connecting block to warm up on the supporting shoe, the connecting block is located warm up between the base box, the U template is detained on the connecting block down, just warm up the box limit cartridge of base box under in the U template, the top board sets up U template top down, the both sides of top board are pressed on the apron warms up, lower U template and top board pass through the fix with screw on the connecting block.

Preferably, the middle part of the upper pressure plate is provided with a connecting groove, and the screw is arranged in the connecting groove.

Preferably, the base box connecting piece mainly comprises a lower U-shaped plate and connecting screws, a cross-shaped supporting block is arranged on each floor heating supporting block, the cross-shaped supporting blocks are located at four connecting positions of the floor heating base boxes, the lower U-shaped plates are buckled on two sides of each cross-shaped supporting block respectively, the box edges of the floor heating base boxes are inserted into the lower U-shaped plates, and the connecting screws penetrate through the lower U-shaped plates and the box edges of the two adjacent floor heating base boxes.

Compared with the prior art, the utility model discloses technical effect below having.

1. The utility model discloses well ground built on stilts layer installation is convenient, and the leveling is convenient, through adjusting ground level, can look for water slope on ground, also can make ground level.

2. The utility model discloses by standard module prefabricated construction, it is convenient to be under construction, warms up to arrange convenient nimble, requires the end to workman's technical ability, and each interval size is by part size decision, construction standard.

3. The utility model discloses no heating pipe cloth drainage layer in the middle of, save out built on stilts height, be suitable for the built on stilts requirement of low, need not the room of dish ground heating coil, also be suitable for the overhead layer room that has the same floor drainage demand. Can use with the built on stilts module cooperation of ground warms up, satisfy the indoor ground basic unit of various requirements and lay, the construction is swift convenient.

4. The utility model discloses standardized the distance between the built on stilts module, made built on stilts module pass through parts assembly construction connection fixed, built on stilts module apron should not separate with the base box, and the connection between the built on stilts module is more firm, and is low to construction worker technical requirement, and the installation is swift.

5. The utility model arranges water and electricity pipelines in the overhead layer, and has high integration degree; the leveling layer has self-adaptive capacity and thoroughly replaces plastering leveling; the veneer is compatible with traditional ground materials, and the ground effect is guaranteed. All parts are from the industrial lean manufacturing, any secondary cutting is not needed on the spot, all parts are physically connected, the rapid assembly, the rapid leveling and the complete disassembly can be realized, the whole process is operated by a dry method, and the device is free from noise, dust and garbage.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the utility model discloses a floor heating module's mounting structure schematic diagram in the embodiment one.

Fig. 3 is a schematic view of an installation structure of a support leveling assembly according to a first embodiment of the present invention.

Fig. 4 is the utility model discloses a floor heating module's structural schematic diagram in the embodiment one.

Fig. 5 is the utility model provides a structural schematic of ground heating supporting shoe in the first.

Fig. 6 is the utility model discloses a floor heating module's mounting structure schematic diagram in two.

Fig. 7 is a schematic view of an installation structure of the supporting and leveling assembly according to the second embodiment of the present invention.

Fig. 8 is the utility model discloses a floor heating supporting shoe's structural schematic diagram in the second embodiment.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

As shown in figure 1, an installation structure is laid to assembled indoor ground, including ground panel 1, ground heating module 2 and be used for supporting the support leveling subassembly 3 of ground heating module, ground heating module 2 upper berth is equipped with balanced layer 4, and balanced layer 4 upper berth is equipped with ground panel 1.

Ground heating base box 7 is the rectangle structure in this embodiment, and is formed by the galvanized steel sheet bending, and balanced layer 4 is calcium silicate board or cement fiberboard. The floor heating module is supported on the ground through the supporting and leveling component 3, so that an overhead space is formed at the bottom of the floor heating module, and the floor heating module is simple and convenient to mount.

As shown in fig. 2 and 4, the floor heating module 2 is mainly assembled by a plurality of floor heating assemblies 6 to form, the floor heating assemblies 6 are mainly composed of a floor heating base box 7, heat insulation boards 8 and floor heating pipes 9 are arranged in the floor heating base box 7, fixing grooves 10 which are meandered and meandered are formed in the heat insulation boards 8, the floor heating pipes 9 are fixed in the fixing grooves 10, pipe penetrating holes 11 which are used for the floor heating pipes to penetrate are formed in the periphery of the floor heating base box 7, a floor heating cover plate 12 is covered on the floor heating base box 7, the floor heating cover plate 12 is a calcium silicate plate, U-shaped fixing clamps 13 which are used for fixing the floor heating cover plate are further arranged around the floor heating base box 7, and the four corners of the adjacent floor heating base box 7 are fixedly supported by supporting leveling assemblies.

Ground heating base box 7 is bent by galvanized steel sheet and is formed, installs on supporting leveling subassembly 3, and inside cavity composite insulation board 8 provides space and screens for arranging of ground heating coil 9, and ground heating base box 7 arranges the trompil according to ground heating coil 9, conveniently warms up the calandria connection between the module. Have above the heated board 8 for fixed ground heating coil 9's fixed slot 10, can make different shapes according to the condition of arranging of ground heating coil 9, ground heating coil 9 arranges the coil pipe according to the arch, lays swiftly, the installation effectiveness is high. The heat preservation board 8 is preferably made of polystyrene foam boards, has a good heat preservation function, enables the heat of the floor heating pipe not to be transferred downwards, avoids heat waste and ensures heating efficiency. Ground heating base box 7 and heated board 8 form at the mill complex, and above-mentioned ground heating cover plate 12 of laying, ground heating cover plate can through the bolt fastening limit on ground heating base box, also can be through the long limit both sides fluting of ground heating cover plate 12 for fixed U type fixing clip 13 makes the finish after the installation of U type fixing clip no longer than ground heating cover plate 12's surface. The floor heating cover plate 12 is made of calcium silicate plates, plays a role in supporting the overhead ground, and protects the floor heating modules below the floor heating cover plate from being stressed uniformly. The floor heating cover plate 12 is paved with a balance layer which can be made of materials such as calcium silicate boards or cement fiber boards, the distributed floor heating pipelines are protected from deformation and failure caused by pressure on the ground, and a floor finish coat can be directly paved on the balance layer.

As shown in fig. 3 to 5, the supporting and leveling assembly 3 is mainly composed of an adjusting screw 14, a floor heating support block 15 and a base plate 16, the base plate 16 is fixed at the bottom of the adjusting screw 14, a threaded hole 17 is formed in the center of the bottom of the floor heating support block 15, the adjusting screw 14 is installed in the threaded hole 17, and a base box connecting piece for fixing a floor heating base box is installed at the top of the floor heating support block 15.

The base box connecting piece mainly comprises a lower U-shaped plate 18 and an upper pressing plate 19, a connecting block 20 is fixed on the floor heating supporting block 15, the connecting block 20 is located between the floor heating base boxes 7, the lower U-shaped plate 18 is buckled on the connecting block 20, the box edges of the floor heating base boxes 7 are inserted into the lower U-shaped plate 18, the upper pressing plate 19 is arranged at the top of the lower U-shaped plate 18, two sides of the upper pressing plate 19 are pressed on the floor heating cover plate 12, and the lower U-shaped plate 18 and the upper pressing plate 19 are fixed on the connecting block 20 through screws.

The floor heating support block 15 in this embodiment is preferably integrally formed by plastic materials. The top sets up connecting block 20 for distance between the module is makeed somebody a mere figurehead to the fixed, makes the installation more neat standard, for the module thermal expansion reservation deformation space that warms up. The center of the floor heating supporting block 15 is provided with a threaded hole 17. The lower part of the floor heating supporting block 15 is in a triangular structure form, so that structural strength is provided for supporting the overhead module, and the pressure of the ground and the overhead module is stably transmitted to the ground feet. The center of the floor heating support block 15 is provided with a threaded hole 17, a flange nut is compounded on the lower portion of the threaded hole 17, the flange nut is matched with the adjusting screw 14, a straight groove is formed in the upper end port of the adjusting screw 14, an acting point is provided for a screwdriver, the adjusting screw 14 is adjusted through a bolt hole in a rotating mode, and the horizontal height of the overhead module is adjusted. The lower part of the adjusting screw 14 is compounded with a base plate 16, the base plate 16 is a round opening supporting piece, the contact surface of the ground foot and the structural ground is enlarged, and the stability of the overhead module is improved.

The base plate 16 is matched with the floor heating support block 15 when used at the middle position, and is matched with a nut welded on the floor heating base box 7 when used at the corner position. By adjusting the horizontal height of the ground, the water slope can be found on the ground, and the ground can be leveled. The middle part of the upper pressure plate 19 is provided with a connecting groove 21, and a screw is arranged in the connecting groove 21 to ensure that the screw part protrudes out of the surface of the floor heating cover plate 12.

The lower U-shaped plate 18 is formed by bending metal with holes, the length of the lower U-shaped plate is consistent with that of the connecting block 20, and the width of the lower U-shaped plate is the width of the space between adjacent floor heating modules. Two screw holes of the adaptive screws are arranged above the lower U-shaped plate 18 and matched with the screw holes in the connecting block 20, and the lower U-shaped plate is fixedly connected with the screw holes through screws. Lower U template 18 blocks ground heating base box side when the installation, fixes two ground heating modules. The connecting piece standardizes the distance between the floor heating modules, so that the two floor heating modules are more stably connected.

The upper pressing plate 19 is formed by bending an inwards-sunken perforated metal sheet, two sides of the upper pressing plate 19 extend to side grooves of the floor heating cover plate to clamp the floor heating cover plate, and the installation surface of the floor heating cover plate cannot exceed the finish surface of the overhead floor heating cover plate. The lower U-shaped plate 18 and the upper pressing plate 19 are fixed through screws, so that the floor heating cover plate and the base box are not prone to being separated and moved, and the purpose of fixing the overhead module is achieved.

During the specific construction time, the steel plate is provided with a plurality of grooves,

1. and cleaning the original ground, and arranging the overhead modules according to drawings and numbering sequences, wherein the overhead modules are horizontally stacked. Paying off to determine the finished ground height, calculating the height of the overhead layer, and determining the height model of the used adjusting screw 14.

2. And paying off to determine the position of the overhead module and determine the position of the adjusting screw 14.

3. The floor heating modules are laid from a side wall, one side of the wall is fixed with a row of wedges on the wall surface according to the ground overhead height and the partition wall distance, and the wedges can prevent the floor heating modules from loosening and shaking when the floor heating modules are arranged.

4. And installing a floor heating module and adjusting the level of the module through an adjusting screw rod 14.

5. And laying the ground heating pipes according to the drawing, wherein the ground heating pipes are laid below the overhead layer and are coiled into the ground heating overhead module from the side wing holes of the base box of the ground heating overhead module at the laying starting point. One pass of the pipeline lays the entire space with no interface allowed between them.

6. And after the floor heating pipes are laid, installing a floor heating cover plate.

7. The floor heating cover plate is laid and fixed by the base box connecting piece. Make whole indoor ground heating built on stilts module or slim built on stilts module part form wholly, accomplish basic unit and lay.

8. And (5) checking the flatness of the overhead base layer, and using an infrared level meter to match with a tape measure to accurately adjust the levelness. Preferably, the gap between the overhead module and the wall body is filled with foam rubber, and the base adhesive tape is attached to the gap of the cover plate between the overhead module and the wall body, so that the flexible connection between the overhead modules is increased.

9. Cleaning the base layer, and laying a calcium silicate board or cement fiberboard balance layer.

10 when the wood floor is laid, a cushion layer is laid on the balance layer, and then the wood floor is laid.

11. When the stone ceramic tile is laid, a cement fiberboard balance layer is preferably used, and the stone ceramic tile is laid on the balance layer by using a ceramic tile binder.

12. When laying rooms with waterproof requirements such as a toilet and the like, an integrated waterproof chassis is laid on the balance layer, and then the waterproof tile adhesive is used for laying the stone tiles.

13. And (5) decorating seams of the ceramic tiles to finish paving the decorative floor.

Example two

As shown in fig. 6 to 8, the floor heating module in this embodiment is a square structure, the base box connecting piece mainly comprises a lower U-shaped plate 18 and connecting screws 22, the floor heating supporting block 15 is provided with a cross-shaped supporting block 5, the cross-shaped supporting block 5 is located at the joint of four floor heating base boxes 7, the lower U-shaped plates 18 are respectively buckled at two sides of the cross-shaped supporting block 5, the box edge of the floor heating base box 7 is inserted into the lower U-shaped plate 18, and the connecting screws penetrate through the lower U-shaped plate 18 and the box edges of the two adjacent floor heating base boxes 7. The floor heating support block is provided with a cross-shaped support block, and the cross-shaped support block and the box edge of the floor heating base box 7 are fixed together through a connecting screw 22 by a lower U-shaped plate.

Example three

In the embodiment, the floor heating cover plate can be directly placed in the floor heating base box indoors without floor heating, and then the floor heating cover plate is supported on the supporting leveling component 3 to form a supporting plane of the floor.

The utility model discloses well module assembly construction, it is convenient to be under construction, warms up to arrange convenient nimble, requires the end to workman's technical ability, and each interval size is by part size decision, construction standard.

The foregoing is considered as illustrative and not restrictive of the preferred embodiments of the invention, and any modifications, equivalents and improvements made within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (5)

1. The utility model provides an installation structure is laid to assembled indoor ground, includes the ground board, its characterized in that: the floor heating module is paved with a balance layer, and a ground board is paved on the balance layer;

the floor heating module is mainly formed by assembling a plurality of floor heating assemblies, each floor heating assembly is mainly composed of a floor heating base box, a heat insulation plate and a floor heating pipe, the heat insulation plates are paved in the floor heating base box, zigzag fixing grooves are formed in the heat insulation plates, the floor heating pipes are fixed in the fixing grooves, pipe penetrating holes for the floor heating pipes to penetrate through are formed in the periphery of the floor heating base box, a floor heating cover plate covers the floor heating base box, U-shaped fixing clamps for fixing the floor heating cover plate are further arranged on the periphery of the floor heating base box, and four corners of the adjacent floor heating base boxes are supported and fixed through supporting and leveling assemblies;

the supporting and leveling assembly mainly comprises an adjusting screw, a floor heating supporting block and a base plate, wherein the base plate is fixed at the bottom of the adjusting screw, a threaded hole is formed in the center of the bottom of the floor heating supporting block, the adjusting screw is installed in the threaded hole, and a base box connecting piece used for fixing a floor heating base box is installed at the top of the floor heating supporting block.

2. The fabricated indoor floor-laying installation structure of claim 1, wherein: the floor heating base box is of a rectangular or square structure and is formed by bending a galvanized steel plate, the floor heating cover plate is a calcium silicate plate, and the balance layer is a calcium silicate plate or a cement fiberboard.

3. The fabricated indoor floor-laying installation structure of claim 1, wherein: the base box connecting piece mainly comprises lower U template and top board, it is fixed with the connecting block to warm up on the supporting shoe, the connecting block is located warm up between the base box, lower U template is detained on the connecting block, just warm up the box limit cartridge of base box under in the U template, the top board sets up U template top down, the both sides of top board are pressed on warm up the apron, lower U template and top board pass through the fix with screw on the connecting block.

4. A fabricated indoor floor-laying installation structure according to claim 3, wherein: the middle part of the upper pressure plate is provided with a connecting groove, and the screw is arranged in the connecting groove.

5. The fabricated indoor floor-laying installation structure of claim 1, wherein: the base box connecting piece mainly comprises a lower U-shaped plate and connecting screws, a cross-shaped supporting block is arranged on the floor heating supporting block, the cross-shaped supporting block is located at four connecting positions of the floor heating base box, the lower U-shaped plates are buckled on two sides of the cross-shaped supporting block respectively, the box edge of the floor heating base box is inserted into the lower U-shaped plate, and the connecting screws penetrate through the lower U-shaped plate and the box edges of the two adjacent floor heating base boxes.

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