CN113417435A - Assembly type inorganic matter overhead floor heating module mounting structure - Google Patents

Abstract

The invention discloses an assembly type inorganic matter overhead floor heating module mounting structure, which comprises: ground support, the warm module in cement base, ground heating coil and ground decorative board, four edges department that the warm module in cement base is set up to the ground support, the warm module locking of cement base that the ground support will splice each other through the retaining member, the warm module of cement base is last to be provided with a plurality of parallel arrangement's first pipe groove of burying and a plurality of parallel arrangement's second pipe groove of burying, ground heating coil is laid in the latticed pipe groove structure of burying that a plurality of first pipe grooves of burying and a plurality of second pipe groove of burying form, the intersection that first pipe groove and second buried pipe groove is provided with the positioning seat, the positioning seat includes 4 locating pieces, a right angle that first pipe groove and second buried pipe groove of burying intersection formed is corresponded to a locating piece. Compared with the prior art, the ground heating pipe paved on the ground heating module is effectively positioned, the structural strength of the ground support is improved, and the structural stability of the overhead ground is ensured.

Description

Assembly type inorganic matter overhead floor heating module mounting structure

Technical Field

The invention belongs to the field of overhead ground heating, and particularly relates to an assembly type inorganic matter overhead ground heating module mounting structure.

Background

The pavement of the indoor floor of the existing building is usually to install an empty slab surface layer after a leveling layer and a supporting layer are arranged on a concrete floor slab, and sometimes a sound insulation layer, a heat insulation layer and the like are additionally arranged according to specific requirements. If a floor heating mode is adopted, the overhead ground is generally composed of a ground support, a floor heating module layer and a surface layer, and the floor heating pipes are laid on the floor heating module layer.

The module layer is warmed up by a plurality of now and is formed by the module amalgamation, and the ground heating coil is fixed a position through burying the pipe socket on the module of warming up. In order to guarantee the intensity of the floor heating module, the depth of the pipe burying groove is not enough, and the whole embedding of the floor heating pipe can not be buried in the pipe burying groove, so that the positioning effect of the floor heating pipe is poor, especially, the intersection of two pipe burying grooves perpendicular to each other is lack of the positioning of the floor heating pipe, and the deformation of the floor heating pipe is easily caused. In addition, the structural strength of current ground support is not enough, takes place to warp easily, and then leads to the structural stability on whole overhead ground not enough.

Disclosure of Invention

The invention aims to: the utility model provides a module mounting structure warms up in assembled inorganic matter is maked somebody a mere figurehead, effectively fixes a position the ground heating coil of laying on the floor heating module, improves the structural strength of ground support simultaneously, guarantees the structural stability on formula of makeing somebody a mere figurehead ground.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an assembly type inorganic matter aerial floor heating module mounting structure, includes: the floor support is fixedly installed on the ground, the floor support is arranged at four corners of the cement base heating module, the floor support locks the mutually spliced cement base heating modules through locking parts, a plurality of cement base heating modules are spliced to form a floor heating layer, a plurality of first pipe embedding grooves arranged in parallel and a plurality of second pipe embedding grooves arranged in parallel are arranged on the cement base heating modules, the first pipe embedding grooves are perpendicular to the second pipe embedding grooves, the floor heating pipes are laid in a grid-shaped pipe embedding groove structure formed by the plurality of first pipe embedding grooves and the plurality of second pipe embedding grooves, a positioning seat is arranged at the intersection of the first pipe embedding grooves and the second pipe embedding grooves and comprises 4 positioning blocks, one positioning seat corresponds to a right angle formed by the intersection of the first pipe embedding grooves and the second pipe embedding grooves, and the floor facing board is fixedly installed on the floor heating layer, a plurality of floor veneers are spliced to form a floor surface layer.

As a further description of the above technical solution:

still be provided with the corner arch on the warm module in cement base, edge arch and central authorities are protruding, the corner arch is 90 degrees fan-shaped columns, the edge arch is 180 degrees fan-shaped columns, central authorities' arch is cylindricly, the corner arch sets up four edges at the warm module in cement base, be provided with a plurality of edge arch that the equidistance was arranged between two corner archs on the warm module in cement base side, be provided with the central authorities arch that a plurality of equidistance was arranged between two edge archs that correspond on the warm module in cement base opposite side.

As a further description of the above technical solution:

the top of the central bulge is provided with an arc-shaped groove.

As a further description of the above technical solution:

the ground support further comprises a supporting piece and a supporting seat, the bottom of a connecting pipe of the supporting piece is in threaded connection with a threaded connection column of the supporting seat, corners of the cement-based floor heating module are placed on a supporting plate of the supporting piece, 4 partition plates which are circumferentially arranged at equal intervals are arranged on the supporting plate, the partition plates are perpendicular to the supporting plate, and the locking piece is in threaded connection with the top of the connecting pipe.

As a further description of the above technical solution:

the retaining member includes screw rod and block, and block fixed mounting is in screw rod one end, and screw rod threaded connection is in the connecting tube, is provided with the step face that the position corresponds the block on the corner arch.

As a further description of the above technical solution:

the layer board includes bottom plate and panel, and bottom plate fixed mounting is on the connecting pipe, and the panel joint is on the bottom plate, and the through-hole on the panel is worn to locate by the connecting pipe, and baffle fixed mounting is on the panel.

As a further description of the above technical solution:

the back of panel is provided with and holds the chamber, and the bottom plate joint is holding the intracavity, holds still to be provided with a plurality of plug column on the chamber bottom surface, is provided with the jack that the position corresponds plug column on the bottom plate.

As a further description of the above technical solution:

the number of the inserting columns is 4, and one inserting column is correspondingly arranged below one partition plate.

As a further description of the above technical solution:

the supporting seat further comprises a substrate and a protective sleeve, the substrate is fixedly installed on the ground, the protective sleeve is fixedly installed on the substrate, the protective sleeve and the threaded connecting column are coaxially arranged, and the diameter of the protective sleeve is larger than that of the threaded connecting column.

As a further description of the above technical solution:

the base plate is also provided with a raised reinforcing rib.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. when the overhead floor heating is installed, the ground support is fixedly installed on the ground, the ground support is arranged at four corners of the cement base heating modules, the cement base heating modules which are spliced with each other are locked by the ground support through the locking piece, the cement base heating modules are spliced to form a floor heating layer, the floor heating pipes are laid in a latticed pipe burying groove structure formed by the plurality of first pipe burying grooves and the plurality of second pipe burying grooves, and finally, the ground veneer is laid on the floor heating layer to form a floor surface layer. When ground heating coil was laid on warm up the layer, bury the preliminary location of chase structure through latticed, bury the intersection of chase and second at first simultaneously and set up the positioning seat, extra fixes a position ground heating coil, and the side of locating piece supports on ground heating coil, and the ground heating coil of laying on the module is warmed up in effective location prevents that ground heating coil warp.

2. According to the invention, the installation height of the cement-based floor heating module is adjustable through the ground support, and in order to improve the structural strength of the ground support and ensure the structural stability of the overhead ground, on one hand, when the bottom of the connecting pipe of the bearing piece is in threaded connection with the threaded connecting post of the supporting seat, the connecting pipe is arranged in a gap between the protective sleeve and the threaded connecting post on the supporting seat, the protective sleeve can ensure the connection effect of the bearing piece and the supporting seat, the deformation resistance of the ground support is improved, the structural strength of the ground support is improved, and the structural stability of the overhead ground is ensured; on the other hand, the reinforcing ribs are arranged on the base plate, so that the base plate is prevented from deforming, the structural strength of the ground support is further improved, and the structural stability of the overhead ground is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an assembled inorganic overhead ground heating module mounting structure in which a ground heating pipe is not laid.

Fig. 2 is a schematic view of a structure splitting of an assembly type inorganic matter overhead floor heating module mounting structure.

Fig. 3 is a node diagram of an installation structure of an assembled inorganic overhead floor heating module.

Fig. 4 is a schematic structural diagram of a cement-based floor heating module in an assembly type inorganic overhead floor heating module mounting structure.

Fig. 5 is a schematic structural view of a ground support in an assembly type inorganic matter overhead floor heating module installation structure.

Fig. 6 is a sectional view of a ground support in an assembled inorganic overhead floor heating module installation structure.

Fig. 7 is a schematic view of a structure disassembly of a ground support in an assembly type inorganic matter overhead floor heating module mounting structure.

Illustration of the drawings:

1. a ground support; 11. a locking member; 111. a screw; 112. capping; 12. a support member; 121. a connecting pipe; 122. a support plate; 1221. a base plate; 1222. a panel; 12221. an accommodating chamber; 12222. inserting the column; 13. a supporting seat; 131. a threaded connection post; 132. a substrate; 1321. reinforcing ribs; 133. protecting the sleeve; 14. a partition plate; 2. a cement base heating module; 21. a first pipe burying groove; 22. the corners are raised; 23. the edge is raised; 24. a central boss; 241. a groove; 3. a ground heating pipe; 4. a floor veneer; 5. positioning seats; 51. and (5) positioning the blocks.

Detailed Description

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 it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an assembly type inorganic matter aerial floor heating module mounting structure, includes: the floor heating system comprises a floor support 1, cement base heating modules 2, floor heating pipes 3 and a floor veneer 4, wherein the floor support 1 is fixedly installed on the floor, the floor support 1 is arranged at four corners of the cement base heating modules 2, the floor support 1 locks the cement base heating modules 2 which are spliced with each other through locking parts 11, a plurality of cement base heating modules 2 are spliced to form a floor heating layer, a plurality of first pipe embedding grooves 21 which are arranged in parallel and a plurality of second pipe embedding grooves which are arranged in parallel are arranged on the cement base heating modules 2, the first pipe embedding grooves 21 are vertical to the second pipe embedding grooves, the floor heating pipes 3 are laid in a grid pipe embedding groove structure formed by the plurality of first pipe embedding grooves 21 and the plurality of second pipe embedding grooves, a positioning seat 5 is arranged at the intersection of the first pipe embedding grooves 21 and the second pipe embedding grooves, the positioning seat 5 comprises 4 positioning blocks 51, and one positioning block 51 corresponds to a right angle formed by the intersection of the first pipe embedding grooves 21 and the second pipe embedding grooves, the floor veneer 4 is fixedly installed on the floor heating layer, and the floor veneer 4 of a plurality of floor forms the floor surface layer in a splicing manner. One positioning block 51 has two mutually perpendicular side faces, one side face corresponds to the first pipe embedding groove 21, the other side face corresponds to the second pipe embedding groove, and the side face abuts against the ground heating pipe 3 in the first pipe embedding groove 21 or the second pipe embedding groove.

Still be provided with corner arch 22 on the warm module 2 of cement base, edge arch 23 and central bulge 24, corner arch 22 is 90 degrees fan-shaped column, edge arch 23 is 180 degrees fan-shaped column, central bulge 24 is cylindricly, corner arch 22 sets up four edges at the warm module 2 of cement base, be provided with a plurality of edge arch 23 that the equidistance was arranged between two corner archs 22 on the warm module 2 side of cement base, be provided with the central bulge 24 that a plurality of equidistance was arranged between two corresponding edge archs 23 on the warm module 2 opposite side of cement base. The corner bulges 22, the edge bulges 23 and the central bulge 24 are abutted against the lower part of the ground veneer 4, support is provided for the ground veneer 4, and the ground heating pipe 3 is positioned by matching with a latticed pipe embedding groove structure formed by a plurality of first pipe embedding grooves 21 and a plurality of second pipe embedding grooves and the positioning seat 5.

The top of the central bulge 24 is provided with an arc-shaped groove 241, the surface of the edge bulge 23 is also provided with an arc-shaped recess, and the edge bulges 23 at the splicing parts of the two cement-based warm modules 2 are combined to form the central bulge 24 with a complete shape. Recess 241 and the protruding 23 of edge on the protruding 24 of central authorities are sunken, under the condition that does not influence the effect of supporting to ground decorative board 4, reduce the weight of cement base ground heating module 2, reduce the burden of ground support 1, improve the structural stability on overhead formula ground.

The ground support 1 further comprises a support 12 and a support base 13, the bottom of a connecting pipe 121 of the support 12 is in threaded connection with a threaded connection column 131 of the support base 13, corners of the cement base warm module 2 are placed on a supporting plate 122 of the support 12, 4 partition plates 14 which are circumferentially arranged at equal intervals are arranged on the supporting plate 122, the partition plates 14 are perpendicular to the supporting plate 122, and a locking member 11 is in threaded connection with the top of the connecting pipe 121. The warm module 2 in cement base realizes that installation height is adjustable through ground support 1, and is specific: the mounting height of the supporting plate 122 is controlled by adjusting the connection length of the connecting pipe 121 and the threaded connecting column 131, so that the mounting height of the cement-based floor heating module 2 is adjusted

The locking member 11 comprises a screw 111 and a cap 112, the cap 112 is fixedly mounted at one end of the screw 111, the screw 111 is in threaded connection with the connecting pipe 121, and the corner protrusions 22 are provided with step surfaces 221 corresponding to the cap 112 in position. The arrangement of the cover cap 112 can compress the corners of the cement base warming modules 2, so that the cement base warming modules 2 are more firmly arranged on the ground support 1, the step surfaces 221 on the corner bulges 22 can realize the countersunk installation of the locking pieces 11, and the installation of the ground veneer 4 is prevented from being influenced.

The supporting plate 122 includes a bottom plate 1221 and a panel 1222, the bottom plate 1221 is fixedly installed on the connecting pipe 121, the panel 1222 is clamped on the bottom plate 1221, the connecting pipe 121 is inserted into a through hole of the panel 1222, and the partition 14 is fixedly installed on the panel 1222. The back of panel 1222 is provided with and holds chamber 12221, and bottom plate 1221 joint still is provided with a plurality of peg 12222 on holding chamber 12221 in holding chamber 12221, is provided with the jack that the position corresponds peg 12222 on the bottom plate 1221. The panel 1222 is removable, and for a fragile partition 14 on the tray 122, the partition 14 is disposed on the removable panel 1222 for easy replacement.

The number of the plug posts 12222 is 4, and one plug post 12222 is correspondingly arranged below one partition plate 14, so that the bottom plate 1221 and the panel 1222 are firmly installed.

The supporting seat 13 further comprises a base plate 132 and a protecting sleeve 133, the base plate 132 is fixedly installed on the ground, the protecting sleeve 133 is fixedly installed on the base plate 132, the protecting sleeve 133 and the threaded connecting column 131 are coaxially arranged, and the diameter of the protecting sleeve 133 is larger than that of the threaded connecting column 131. When connecting pipe 121 bottom threaded connection was on threaded connection post 131, connecting pipe 121 sets up in the space between protective sleeve 133 and threaded connection post 131, guarantees bearing 12 and supporting seat 13 connection effect, improves the resistance to deformation ability of ground support 1, improves the structural strength of ground support, guarantees the structural stability on overhead formula ground.

The base plate 132 is further provided with a raised reinforcing rib 1321, the base plate 132 can be prevented from deforming due to the arrangement of the reinforcing rib 1321, the structural strength of the ground support is further improved, and the structural stability of the overhead ground is guaranteed.

The working principle is as follows: when the installation of heating up makedly, with ground support fixed mounting subaerial earlier, the ground support sets up four edges of the warm module in cement base, the module locking is warmed up to the cement base that the ground support will splice each other through the retaining member, the layer warms up in the warm module amalgamation formation of a plurality of cement base, ground heating coil is laid in the latticed buried pipe groove structure that a plurality of first buried pipe groove and a plurality of second buried pipe groove of saying form, lay the ground decorative board on the layer at last warms up, form the floor surface course. When ground heating coil was laid on warm up the layer, bury the preliminary location of chase structure through latticed, bury the intersection of chase and second at first simultaneously and set up the positioning seat, extra fixes a position ground heating coil, and the side of locating piece supports on ground heating coil, and the ground heating coil of laying on the module is warmed up in effective location prevents that ground heating coil warp. The cement-based floor heating module realizes adjustable installation height through the ground support, and in order to improve the structural strength of the ground support and ensure the structural stability of the overhead ground, on one hand, when the bottom of a connecting pipe of the bearing piece is in threaded connection with a threaded connecting column of the supporting seat, the connecting pipe is arranged in a gap between a protective sleeve and the threaded connecting column on the supporting seat, the protective sleeve can ensure the connection effect of the bearing piece and the supporting seat, improve the deformation resistance of the ground support, improve the structural strength of the ground support and ensure the structural stability of the overhead ground; on the other hand, the reinforcing ribs are arranged on the base plate, so that the base plate is prevented from deforming, the structural strength of the ground support is further improved, and the structural stability of the overhead ground is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides an assembly type inorganic matter module mounting structure that warms up that makedly, its characterized in that includes: the floor heating module comprises a floor support (1), a cement-based floor heating module (2), floor heating pipes (3) and a floor veneer (4), wherein the floor support (1) is fixedly installed on the floor, the floor support (1) is arranged at four corners of the cement-based floor heating module (2), the floor support (1) locks the cement-based floor heating modules (2) which are mutually spliced through locking pieces (11), a plurality of the cement-based floor heating modules (2) are spliced to form a floor heating layer, a plurality of first pipe embedding grooves (21) which are arranged in parallel and a plurality of second pipe embedding grooves which are arranged in parallel are arranged on the cement-based floor heating module (2), the first pipe embedding grooves (21) are perpendicular to the second pipe embedding grooves, the floor heating pipes (3) are laid in a plurality of grid pipe embedding groove structures formed by the first pipe embedding grooves (21) and the second pipe embedding grooves, the intersection of the first pipe burying groove (21) and the second pipe burying groove is provided with a positioning seat (5), the positioning seat (5) comprises 4 positioning blocks (51), one positioning block (51) corresponds to a right angle formed by the intersection of the first pipe burying groove (21) and the second pipe burying groove, the ground veneer (4) is fixedly installed on the ground heating layer, and the ground veneer (4) is spliced to form a floor surface layer.

2. The mounting structure of an assembled inorganic overhead floor heating module according to claim 1, it is characterized in that corner bulges (22), edge bulges (23) and a central bulge (24) are also arranged on the cement-based floor heating module (2), the corner bulges (22) are in a 90-degree fan-shaped column shape, the edge bulges (23) are in a 180-degree fan-shaped column shape, the central bulge (24) is cylindrical, the corner bulges (22) are arranged at four corners of the cement-based floor heating module (2), a plurality of edge bulges (23) which are arranged at equal intervals are arranged between the two corner bulges (22) on one side edge of the cement base warming module (2), a plurality of central bulges (24) which are arranged at equal intervals are arranged between two corresponding edge bulges (23) on the opposite side edges of the cement base heating module (2).

3. An assembly type inorganic overhead floor heating module installation structure as set forth in claim 2, wherein the top of the central protrusion (24) is provided with an arc-shaped groove (241).

4. An assembly type inorganic overhead ground heating module installation structure as claimed in claim 2, wherein the ground bracket (1) further comprises a support member (12) and a support base (13), the bottom of the connecting pipe (121) of the support member (12) is screwed on the screw connecting column (131) of the support base (13), the corner of the cement base heating module (2) is placed on the supporting plate (122) of the support member (12), 4 partition plates (14) are arranged on the supporting plate (122) at equal intervals in the circumferential direction, the partition plates (14) are perpendicular to the supporting plate (122), and the locking member (11) is screwed on the top of the connecting pipe (121).

5. The assembly type inorganic overhead floor heating module installation structure of claim 4, wherein the locking member (11) comprises a screw (111) and a cap (112), the cap (112) is fixedly installed at one end of the screw (111), the screw (111) is screwed in the connecting pipe (121), and a step surface (221) corresponding to the cap (112) in position is provided on the corner protrusion (22).

6. An assembly type inorganic overhead floor heating module mounting structure as claimed in claim 4, wherein the supporting plate (122) comprises a bottom plate (1221) and a panel (1222), the bottom plate (1221) is fixedly mounted on the connecting pipe (121), the panel (1222) is clamped on the bottom plate (1221), the connecting pipe (121) is inserted through the through hole of the panel (1222), and the partition plate (14) is fixedly mounted on the panel (1222).

7. The assembly type inorganic overhead floor heating module mounting structure as claimed in claim 6, wherein an accommodating cavity (12221) is formed in the back of the panel (1222), the bottom plate (1221) is clamped in the accommodating cavity (12221), a plurality of inserting columns (12222) are further arranged on the bottom surface of the accommodating cavity (12221), and inserting holes corresponding to the inserting columns (12222) in position are formed in the bottom plate (1221).

8. An assembly type inorganic overhead floor heating module installation structure as claimed in claim 7, wherein the number of the inserting columns (12222) is 4, and one inserting column (12222) is correspondingly disposed under one partition plate (14).

9. An assembly type inorganic overhead floor heating module installation structure as claimed in claim 4, wherein the supporting base (13) further comprises a base plate (132) and a protective sleeve (133), the base plate (132) is fixedly installed on the ground, the protective sleeve (133) is fixedly installed on the base plate (132), the protective sleeve (133) and the threaded connection column (131) are coaxially arranged, and the diameter of the protective sleeve (133) is larger than that of the threaded connection column (131).

10. An assembly type inorganic overhead floor heating module installation structure as claimed in claim 9, wherein the base plate (132) is further provided with a raised reinforcing rib (1321).

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