CN109914741B - Floor heating installation structure and method thereof - Google Patents

Abstract

The invention relates to a floor heating installation structure and a method thereof, and the technical scheme is that the floor heating installation structure comprises a floor body, wherein a heat transfer layer and an installation layer are sequentially arranged on the lower surface of the floor body from top to bottom, a floor heating pipeline is laid between the heat transfer layer and the installation layer, a fixing groove is formed in the floor body, a connecting groove is formed in the corresponding position of the installation layer and comprises an inlet groove and a locking groove which are communicated with each other, the cross-sectional area of the inlet groove is smaller than that of the locking groove, the inlet groove is positioned above the locking groove and communicated with the upper surface of the installation layer, a fixing piece is inserted in the fixing groove and comprises a fixing rod, a rotating head, a rotating shaft and a locking block, the fixing head and the locking block are respectively and fixedly connected with two ends of the rotating shaft, the rotating shaft penetrates into the fixing rod and is rotatably connected, the latch segment with get into groove looks adaptation, reach the effect of floor heating pipeline of being convenient for overhaul.

Description

Floor heating installation structure and method thereof

Technical Field

The invention relates to the technical field of floor heating, in particular to a floor heating installation structure and a method thereof.

Background

With the development of scientific technology, the traditional heating technology is changed, and the bottom surface heating is a popular trend, so that the floor heating is carried out at the same time. The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, and the heating purpose is achieved by conducting from bottom to top by utilizing the law of heat storage and upward radiation of the floor.

The existing Chinese patent with reference to publication number CN106150024A discloses a floor heating floor structure, which comprises a bottom plate and a panel arranged above the bottom plate, wherein a plurality of floor heating pipelines are arranged in a heat conducting cavity formed between the bottom plate and the panel, tenons and mortises are correspondingly arranged at the edges of four sides between the bottom plate and the panel, a base plate is fixed on the top surface of the bottom plate, and the floor heating pipelines are fixed on the top surface of the base plate. Above-mentioned floor heating structure can stop floor heating pipe's heat to tenon, tongue-and-groove and base plate diffusion, makes the heat all to the panel diffusion, has improved floor heating pipe's heat conduction efficiency.

The above prior art solutions have the following drawbacks: when the ground heating pipeline breaks down and needs to be overhauled, because the ground heating pipeline is sealed to be set up in the heat conduction intracavity, need destroy bottom plate and panel and just can overhaul, lead to ground heating pipeline's maintenance very inconvenient.

Disclosure of Invention

The invention aims to provide a floor heating installation structure and a floor heating installation method, which are convenient for overhauling a floor heating pipeline under the condition that a floor structure is not damaged.

The technical purpose of the invention is realized by the following technical scheme:

a floor heating installation structure comprises a floor body, wherein a heat transfer layer and an installation layer are sequentially arranged on the lower surface of the floor body from top to bottom, a floor heating pipeline is laid between the heat transfer layer and the installation layer, a fixing groove is formed in the floor body and sequentially penetrates through the floor body and the heat transfer layer from top to bottom, a connecting groove is formed in the corresponding position of the installation layer and comprises an inlet groove and a locking groove which are communicated with each other, the cross-sectional area of the inlet groove is smaller than that of the locking groove, the inlet groove is located above the locking groove and communicated with the upper surface of the installation layer, a fixing piece is inserted in the fixing groove and comprises a fixing rod, a rotating head, a rotating shaft and a locking block, the fixing head and the locking block are respectively and fixedly connected to two ends of the rotating shaft, the rotating shaft penetrates into the fixing rod and is rotatably connected with the, the locking block is matched with the entering groove.

Through above-mentioned technical scheme, the heat that ground heating pipe produced can be absorbed by the heat transfer layer, then transmits the floor body for the floor body can heat. When the floor heating system is installed, firstly, the floor heating pipeline is laid on the upper surface of the installation layer, then the heat transfer layer and the floor body are sequentially covered on the upper surface of the installation layer, then the fixing piece is inserted into the floor body from the fixing groove, the rotating head is positioned above the floor body, when the bottom end of the fixing rod reaches the entering groove, the locking block enters the locking groove from the entering groove, then the rotating head is rotated, the rotating head drives the locking block to rotate ninety degrees through the rotating shaft, the locking block is staggered with the entering groove, so that the floor body and the heat transfer layer can be installed in a clamping way with the installation layer through the fixing piece, when the floor heating pipeline needs to be maintained, the rotating head is rotated by ninety degrees in the opposite direction, after the locking block is aligned with the entering groove, the locking block is pulled out from the entering groove, so that the installation layer, the floor body and the heat transfer layer can fall off, the floor heating pipeline overhauling operation is very simple and convenient, the floor body is not needed to be damaged, the floor can be reused after overhauling is finished, and the maintenance cost is reduced.

The invention is further configured to: the bottom of locking groove is fixed and is provided with a plurality of springs, and the top fixed connection of a plurality of springs has the horizontally to butt joint the piece.

Through the technical scheme, when the erection floor, insert the latch segment behind the locking inslot portion, the latch segment can the butt on the butt piece, and compression spring, when rotatory rotation head again, the rotation head can drive the latch segment and rotate together, make latch segment and locking groove stagger, the elasticity restoring force that produces after the spring pressurized can make the latch segment butt on the installation layer inner wall of locking groove top, thereby improved the floor body, the connection compactness between heat transfer layer and the installation layer, holistic stability has been improved.

The invention is further configured to: the shutoff groove with the fixed slot intercommunication is seted up at the top on floor, is provided with the shutoff piece of looks adaptation in the shutoff groove, and the upper surface of shutoff piece and the upper surface parallel and level of floor body, has seted up a plurality of injecting glue grooves on the circumferential surface of shutoff piece, and the injecting glue groove extends to the half thickness department of shutoff piece downwards from the upper surface of shutoff piece, and the injecting glue groove extends towards the direction slope that is close to the shutoff piece center.

Through the technical scheme, the plugging block is inserted and is located the shutoff inslot and make the rotor obtain effective protection, and the upper surface of plugging block and the upper surface parallel and level of floor body, make the upper surface of floor body level, it is pleasing to the eye degree is higher, can pour into building glue into toward the glue injection inslot, make to form stable fixed connection between plugging block and the floor body, prevent that the plugging block from being taken out, and the glue injection groove extends to the half thickness department of plugging block from the upper surface downwardly extending of plugging block, and the glue injection groove inclines towards the central direction that is close to the plugging block, can prevent during consequently the injecting glue that glue from entering into the upper surface of rotor, when guaranteeing that glue can form the bonding complex between plugging block and the floor body, also make glue obtain the storage, ensure that the volume of glue that bonds is enough.

The invention is further configured to: the lower fixed surface of shutoff piece is provided with the inserted block, and the slot with inserted block looks adaptation is seted up to the upper surface of rotating the head.

Through above-mentioned technical scheme, the inserted block inserts inside the slot for form the cooperation of pegging graft between plugging block and the rotating head, the rotating head can not take place to rotate easily, thereby has improved the installation stability of plugging block.

The invention is further configured to: the heat transfer layer comprises a heat preservation layer, a heat separation layer and a heat absorption layer which are sequentially arranged from top to bottom.

Through the technical scheme, the heat transfer layer is used for transferring heat, so that the heat generated by the floor heating pipeline can be better transferred to the floor body, the heat absorption layer is in direct contact with the floor heating pipeline, the heat generated by the floor heating pipeline can be directly transferred to the heat absorption layer, the heat generated by the floor heating pipeline can be quickly and uniformly conveyed upwards, and the heat distribution layer is arranged above the heat absorption layer, so that the heat absorbed by the heat absorption layer can be more uniformly distributed and upwards transferred, and the heat distribution of the floor body is more uniform; the heat preservation layer can more evenly transmit the heat transmitted to the floor body, and the phenomenon that the floor body is unevenly heated, and local arching deformation and the like are avoided.

The invention is further configured to: the heat preservation layer is made of aluminum alloy.

Through above-mentioned technical scheme, the material of aluminum alloy is harder to heat conductivility is better, consequently uses the aluminum alloy as the material of heat preservation layer, can improve thermal utilization rate for the floor body with the heat transfer that ground heating pipe produced fast for the floor body.

The invention is further configured to: the heat-separating layer is made of aluminum alloy, the interior of the heat-separating layer is hollow, reinforcing ribs with zigzag sections are fixedly arranged in the heat-separating layer, and the upper surface and the lower surface of the heat-separating layer are arranged in a porous mode.

Through above-mentioned technical scheme, the heat distribution layer can be further transmitted the absorptive heat of heat-absorbing layer, because the heat conductivity of aluminum alloy is higher, and the inside cavity of heat distribution layer, upper and lower surface fretwork, consequently, the absorptive heat of heat-absorbing layer can enter into heat distribution layer inside and gather and redistribute, more even when making the heat continue upwards to transmit, the heating of floor body is more even, user's travelling comfort is higher, and the strengthening rib can play the effect of strengthening to the heat distribution layer, increase of service life.

The invention is further configured to: the heat absorption layer is provided with an upper half groove matched with the floor heating pipeline, the corresponding position of the mounting layer is provided with a lower half groove matched with the floor heating pipeline, the upper half groove and the lower half groove are mutually covered and coated around the floor heating pipeline, and the heat absorption layer is provided with a plurality of air holes communicated with the upper half groove.

Through above-mentioned technical scheme, the setting up of first groove and second groove makes floor heating pipe can obtain effectual installation protection, avoids the floor body to lead to the fact great pressure to floor heating pipe when using, has further prolonged floor heating pipe's life.

The invention is further configured to: the lower surface that the heat transfer layer was kept away from on the installation layer is provided with the heat insulation layer, and the heat insulation layer is the heat insulation layer of rock wool material.

Through above-mentioned technical scheme, the heat insulation layer of rock wool material can the significantly reduced ground heating pipeline's heat towards the direction transmission of keeping away from the floor body to make thermal scattering and disappearing less, improved heat utilization rate.

The invention is further configured to: a construction method of a floor heating installation structure comprises the following steps:

s1, pouring concrete on the ground, and splicing a heat insulation layer on the concrete;

s2, splicing the upper surface of the heat insulation layer to form an installation layer, wherein the lower half grooves of the upper surface of the installation layer are communicated with each other, the installation layer and the heat insulation layer are bonded by glue, and then clamping the floor heating pipeline into the lower half grooves;

s3, sequentially mounting a heat absorption layer, a heat separation layer, a heat preservation layer and a floor body on the upper surface of the mounting layer from bottom to top, then enabling the fixing piece to penetrate through the fixing groove and the connecting groove from top to bottom, enabling the locking block to abut against the abutting block, inserting a screwdriver into the inserting groove when the rotating head abuts against the lower surface of the plugging groove, enabling the rotating head to rotate ninety degrees, and enabling the rotating head to drive the locking block to rotate ninety degrees, so that the locking block is clamped in the locking groove;

s4, plugging the plugging block into the plugging groove, inserting the plugging block into the slot, and injecting building glue into the glue injection groove to enable the plugging block to plug the plugging groove;

and S5, fixing the four corners of the same floor body by using fixing pieces.

By the technical scheme, the heat insulation layer is firstly bonded on the ground through the concrete when the floor heating pipeline is installed, so that the heat loss can be reduced when the floor heating pipeline is used, then gluing an installation layer on the heat insulation layer and laying a floor heating pipeline, then stacking the heat absorption layer, the heat separation layer, the heat preservation layer and the floor body above the installation layer one by one from bottom to top, the fixing pieces are inserted for connection, the connection of the fixing pieces enables the floor body to be free from using excessive glue and concrete during installation, the raw material cost is reduced, the staggered clamping matching of the locking blocks and the locking grooves is adopted, on one hand, the mutual connection procedure among the multilayer structures is reduced, make the installation on whole ground heating and floor quick, high-efficient more, on the other hand also makes multilayer structure more than the installation layer can convenient to detach, is convenient for overhaul work when the local heating pipeline breaks down.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the floor body and the heat transfer layer can be quickly detached from the mounting layer by arranging the fixing piece, so that the floor is convenient to overhaul when the local heating pipeline fails;

2. the heat absorption layer, the heat separation layer and the heat preservation layer are arranged on the mounting layer from bottom to top, so that the heat distribution uniformity of the floor heating pipeline can be greatly improved, and the comfort of a user is higher;

3. one side of the installation layer close to the ground is provided with the heat insulation layer, so that heat loss is reduced, and the heat utilization rate is further improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is an exploded view of the fastener;

fig. 6 is a schematic structural view of a block.

Reference numerals: 1. a floor body; 11. fixing grooves; 111. plugging the groove; 112. a plugging block; 1121. injecting glue groove; 1122. inserting a block; 2. a heat transfer layer; 21. a heat preservation layer; 22. heat separating layer; 221. reinforcing ribs; 23. a heat absorbing layer; 231. an upper half groove; 232. air holes are formed; 3. mounting a layer; 31. connecting grooves; 311. entering a groove; 312. a locking groove; 3121. a spring; 3122. a butting block; 32. a lower half tank; 4. a fixing member; 41. fixing the rod; 42. rotating the head; 421. a slot; 422. a rotating shaft; 43. a locking block; 5. a heat insulating layer; 6. floor heating pipeline.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1

The utility model provides a warm up mounting structure, as shown in fig. 1, include from last to the floor body 1 that sets gradually down, heat transfer layer 2, installation layer 3 and heat insulation layer 5, heat insulation layer 5 bonds subaerial through the concrete, installation layer 3 bonds on heat insulation layer 5 through glue, the four corners position department of floor body 1 is provided with four group's mountings 4, mounting 4 is from last to passing floor body 1 down, form with installation layer 3 behind the heat transfer layer 2 and can dismantle fixed connection, and be provided with between installation layer 3 and heat transfer layer 2 and warm up pipeline 6, when warm up pipeline 6 and break down, can dismantle the structure more than installation layer 3 as an organic whole, consequently, warm up pipeline 6's maintenance is changed more conveniently.

Referring to fig. 2 and 5, the floor body 1 is provided with a fixing groove 11 vertically penetrating through itself, the fixing groove 11 also penetrates through the heat transfer layer 2, and a connecting groove 31 communicating with the fixing groove 11 is provided at a corresponding position of the installation layer 3. Referring to fig. 4, the coupling groove 31 includes an entry groove 311 and a locking groove 312, wherein the entry groove 311 communicates with the upper surface of the mounting layer 3, the locking groove 312 is positioned below the entry groove 311 and communicates with the entry groove 311, the entry groove 311 and the fixing groove 11 have the same size, the cross-sectional size of the locking groove 312 is larger than that of the entry groove 311, so that the entire coupling groove 31 is formed in a convex shape, the fixing member 4 includes a fixing lever 41, a rotating head 42, and a locking block 43, the fixing lever 41 is inserted into the coupling groove 31 from the fixing groove 11, and the fixed link 41 is matched with the fixed slot 11 and the connecting slot 31, a rotating shaft 422 is arranged inside the fixed link 41, the rotating shaft 422 is inserted inside the fixed link 41 and is rotatably connected with the fixed link 41, the rotating head 42 is positioned at one end of the fixed link 41 close to the upper surface of the floor body 1, the locking block 43 is positioned at one end of the fixed link 41 close to the locking slot 312, and the rotating head 42 and the locking block 43 are respectively fixedly connected with two ends of the rotating shaft 422. The locking block 43 is located inside the locking groove 312, the locking block 43 and the fixing rod 41 are both in a rectangular parallelepiped shape with the same cross section, and the rotating head 42 is in a disc shape. When carrying out the floor installation, at first after installing the installation layer 3, lay floor heating pipe 6 on installation layer 3, then insert fixed slot 11 with dead lever 41 from last inside to locking groove 312 down, rotatory head 42 that rotates after that, head 42 rotates through axis of rotation 422 drive latch segment 43 and rotates together, make latch segment 43 rotate in locking groove 312 to latch segment 43 stagger each other with spread groove 31, ensure that latch segment 43 can not drop from spread groove 31, thereby with floor body 1, heat transfer layer 2 forms the joint with installation layer 3 and fixes. When needs overhaul ground heating duct 6, only need rotatory head 42 of rotating for head 42 of rotating drives latch segment 43 and rotates to align the cooperation back with spread groove 31, can take out the chucking piece from the lock groove 312 promptly, therefore can dismantle floor body 1 and heat transfer layer 2 get off, is convenient for overhaul ground heating duct 6.

As shown in fig. 5, a slot 421 is formed on the upper surface of the rotating head 42, and a tool such as a screwdriver can be inserted into the slot 421 to drive the rotating head 42 to rotate.

As shown in fig. 2, the heat transfer layer 2 includes a heat retention layer 21, a heat separation layer 22 and a heat absorption layer 23 which are sequentially arranged from top to bottom, wherein the heat retention layer 21 and the heat separation layer 22 are made of aluminum alloy, a plurality of air holes 232 which vertically penetrate through the heat absorption layer 23 are formed in the heat absorption layer 23, the heat separation layer 22 is hollow, and a plurality of sets of reinforcing ribs 221 made of aluminum alloy are fixedly arranged in the heat separation layer 22. The heat that ground heating pipe 6 produced can pass heat-absorbing layer 23 and reach heat-insulating layer 22 through bleeder vent 232, aluminum alloy's heat-insulating layer 22 heat conductivity is higher, the heat conduction effect is good, make the heat can pass through heat-insulating layer 22 and transmit heat-preserving layer 21 fast and evenly, heat-insulating layer 21's heat conductivity is also higher, consequently, can be fast with the heat, transmit floor body 1 evenly, thereby make floor body 1's heating more even, heat-absorbing layer 23 and heat-preserving layer 21 can avoid ground heating pipe 6 directly to contact with floor body 1, prevent that ground heating pipe 6 from being scalded or warp by high temperature, prolong floor body 1's life.

As shown in fig. 2, the lower surface of the heat absorbing layer 23 is provided with a semicircular arc-shaped upper half groove 231, the upper half groove 231 is communicated with the air holes 232, the upper half groove 231 is arranged in a snake-shaped winding manner on the lower surface of the heat absorbing layer 23, the corresponding position of the mounting layer 3 is provided with a lower half groove 32 matched with the upper half groove 231, and the floor heating pipeline 6 is mounted between the upper half groove 231 and the lower half groove 32, so that the floor heating pipeline 6 is higher in stability and is not easy to damage.

With reference to fig. 2 and 4, a plurality of springs 3121 are fixedly disposed at the bottom of the locking groove 312, an abutting block 3122 is fixedly disposed at the top end of the plurality of springs 3121, the locking block 43 is inserted into the locking groove 312, the locking block 43 abuts against the abutting block 3122, and after the locking block 43 is rotated, the locking block 43 is clamped between the abutting block 3122 and the upper surface of the locking groove 312 due to the elastic force of the springs 3121, so that the installation stability of the floor body 1 is improved.

As shown in fig. 3, the floor body 1 is communicated with a blocking groove 111 above the fixing groove 11, the cross-sectional area of the blocking groove 111 is larger than that of the fixing groove 11, after installation, the rotating head 42 is located in the blocking groove 111, a blocking block 112 for sealing is inserted in the blocking groove 111, an insertion block 1122 matched with the insertion groove 421 is fixedly arranged on the lower surface of the blocking block 112, and when the blocking block 112 is inserted in the blocking groove 111, the upper surface of the blocking block 112 is flush with the upper surface of the floor body 1.

Referring to fig. 6, a plurality of glue injection grooves 1121 are formed in the circumferential surface of the blocking block 112, and the plurality of glue injection grooves 1121 are disposed along the circumference of the blocking block 112 at equal central angles, preferably four glue injection grooves 1121 are provided in this embodiment, an opening at the upper end of each glue injection groove 1121 penetrates through the floor body 1, each glue injection groove 1121 extends to a half of the depth of the blocking block 112 along the depth direction of the blocking block 112, the size of each glue injection groove 1121 gradually increases from top to bottom, and each glue injection groove 1121 extends obliquely towards the direction close to the center of the blocking block 112, after the blocking block 112 is blocked in the blocking groove 111, glue is injected into each glue injection groove 1121, so that a stable bonding fit is formed between the blocking block 112 and the blocking groove 111, and the overall installation stability of the floor is improved.

The implementation principle of the embodiment is as follows: when the floor and the floor heating are installed, firstly, a layer of concrete is poured on the ground, then the heat insulation layer 5 is installed on the ground, after the concrete is hardened, the installation layer 3 is adhered on the heat insulation layer 5 by glue, then the floor heating pipeline 6 is installed in the upper half groove 231, then the heat absorption layer 23, the heat distribution layer 22, the heat preservation layer 21 and the floor body 1 are sequentially installed on the installation layer 3 from top to bottom, finally, the fixing rod 41 is inserted into the fixing groove 11, the locking block 43 is parallel to the fixing rod 41 when the fixing rod is inserted, after the locking block 43 enters the locking groove 312, the locking block 43 is inserted into the slot 421 by using a screwdriver, the rotating head 42 is rotated, the rotating head 42 drives the locking block 43 to rotate through the rotating shaft 422, so that the locking block 43 rotates to be staggered with the fixing groove 11, at the moment, the locking block 43 abuts against the abutting block 3122, the locking block 43 is clamped by the elastic force of the, after installation, the blocking block 112 is blocked in the blocking groove 111, and glue is injected into the glue injection groove 1121, so that the blocking block 112 and the floor body 1 are stably fixed. When the floor heating pipeline 6 needs to be overhauled, the blocking block 112 is taken out of the blocking groove 111, then the rotating head 42 is rotated to enable the locking block 43 to be separated from the locking groove 312, the floor body 1 and the heat transfer layer 2 can be separated from the installation layer 3, the floor heating pipeline 6 is quite convenient to overhaul, and the floor body 1 cannot be damaged.

Example 2

A construction method of a floor heating installation structure comprises the following steps:

s1, pouring concrete on the ground, and splicing the heat insulation layer 5 on the concrete;

s2, splicing the upper surface of the heat insulation layer 5 to form the installation layer 3, wherein the lower half grooves 32 on the upper surface of the installation layer 3 are communicated with each other, the installation layer 3 is bonded with the heat insulation layer 5 through glue, and then the floor heating pipeline 6 is clamped into the lower half grooves 32;

s3, sequentially installing the heat absorption layer 23, the heat separation layer 22, the heat preservation layer 21 and the floor body 1 on the upper surface of the installation layer 3 from bottom to top, then enabling the fixing piece 4 to penetrate through the fixing groove 11 and the connecting groove 31 from top to bottom, enabling the locking block 43 to abut against the abutting block 3122, inserting a screwdriver into the inserting groove 421 when the rotating head 42 abuts against the lower surface of the plugging groove 111, enabling the rotating head 42 to rotate ninety degrees, and enabling the rotating head 42 to drive the locking block 43 to rotate ninety degrees, so that the locking block 43 is clamped in the locking groove 312;

s4, plugging the plugging block 112 into the plugging groove 111, inserting the plug 1122 into the slot 421, and injecting building glue into the glue injection groove 1121 to plug the plugging block 112 into the plugging groove 111;

and S5, fixing the four corners of the same floor body 1 by using the fixing pieces 4.

When in installation, the heat insulation layer 5 is firstly bonded on the ground through concrete, so that the floor heating pipeline 6 can reduce the heat loss when in use, then gluing the installation layer 3 on the heat insulation layer 5 and laying the floor heating pipeline 6, then stacking the heat absorption layer 23, the heat separation layer 22, the heat preservation layer 21 and the floor body 1 above the installation layer 3 one by one from bottom to top, the fixing pieces 4 are inserted for connection, the connection of the fixing pieces 4 ensures that the floor body 1 does not need to use excessive glue and concrete during the installation, the raw material cost is reduced, the staggered clamping matching of the locking blocks 43 and the locking grooves 312 is adopted, on one hand, the mutual connection process among the multilayer structures is reduced, make the installation on whole ground heating and floor quick, high-efficient more, on the other hand also makes the multilayer structure more than the installation layer 3 can convenient to detach, is convenient for overhaul work when the local heating pipeline 6 breaks down.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. A floor heating installation structure, comprising a floor body (1), characterized in that: the lower surface of floor body (1) is from last to having set gradually heat transfer layer (2) and installation layer (3) down, floor heating pipe (6) have been laid between heat transfer layer (2) and installation layer (3), set up fixed slot (11) on floor body (1), fixed slot (11) from the top down passes floor body (1) and heat transfer layer (2) in proper order, connecting groove (31) have been seted up to the corresponding position department of installation layer (3), connecting groove (31) are including entering groove (311) and locking groove (312) that communicate each other, the cross-sectional area that gets into groove (311) is less than the cross-sectional area of locking groove (312), and get into the top that groove (311) is located locking groove (312), and get into the upper surface intercommunication of groove (311) and installation layer (3), fixed slot (11) interpolation is equipped with mounting (4), mounting (4) include dead lever (41), rotate head (42), The rotating head (42) and the locking block (43) are respectively and fixedly connected to two ends of the rotating shaft (422), the rotating shaft (422) penetrates into the fixing rod (41) and is rotatably connected with the fixing rod (41), the fixing rod (41) is matched with the fixing groove (11), and the locking block (43) is matched with the entering groove (311); the floor comprises a floor body (1), wherein the top of the floor body (1) is provided with a blocking groove (111) communicated with a fixing groove (11), the blocking groove (111) is internally provided with a blocking block (112) matched with the floor body, the upper surface of the blocking block (112) is flush with the upper surface of the floor body (1), the circumferential surface of the blocking block (112) is provided with a plurality of glue injection grooves (1121), the glue injection grooves (1121) extend downwards from the upper surface of the blocking block (112) to a half thickness of the blocking block (112), and the glue injection grooves (1121) extend obliquely towards a direction close to the center of the blocking block (112); the lower surface of the plugging block (112) is fixedly provided with an inserting block (1122), and the upper surface of the rotating head (42) is provided with a slot (421) matched with the inserting block (1122).

2. A floor heating installation structure as set forth in claim 1, wherein: the bottom of the locking groove (312) is fixedly provided with a plurality of springs (3121), and the top ends of the springs (3121) are fixedly connected with a horizontal abutting block (3122).

3. A floor heating installation structure as set forth in claim 1, wherein: the heat transfer layer (2) comprises a heat preservation layer (21), a heat separation layer (22) and a heat absorption layer (23) which are sequentially arranged from top to bottom.

4. A floor heating installation structure as set forth in claim 3, wherein: the heat preservation layer (21) is made of an aluminum alloy material and is used as the heat preservation layer (21).

5. A floor heating installation structure as set forth in claim 3, wherein: the heat-distributing layer (22) is made of aluminum alloy, the interior of the heat-distributing layer (22) is hollow, reinforcing ribs (221) with the cross sections being in a broken line shape are fixedly arranged in the heat-distributing layer (22), and the upper surface and the lower surface of the heat-distributing layer (22) are arranged in a porous shape.

6. A floor heating installation structure as set forth in claim 3, wherein: the heat absorption layer (23) is provided with an upper half groove (231) matched with the floor heating pipeline (6), the corresponding position of the mounting layer (3) is provided with a lower half groove (32) matched with the floor heating pipeline (6), the upper half groove (231) and the lower half groove (32) are mutually covered and coated around the floor heating pipeline (6), and the heat absorption layer (23) is provided with a plurality of air holes (232) communicated with the upper half groove (231).

7. A floor heating installation structure as set forth in claim 1, wherein: the lower surface of heat transfer layer (2) is kept away from in installation layer (3) is provided with heat insulation layer (5), and heat insulation layer (5) are rock wool material heat insulation layer (5).

8. A construction method of a floor heating installation structure according to any one of claims 2 to 7, wherein: the method comprises the following steps:

s1, pouring concrete on the ground, and splicing a heat insulation layer (5) on the concrete;

s2, splicing the upper surface of the heat insulation layer (5) to form an installation layer (3), wherein the lower half grooves (32) on the upper surface of the installation layer (3) are communicated with each other, the installation layer (3) and the heat insulation layer (5) are bonded by glue, and then the floor heating pipeline (6) is clamped into the lower half grooves (32);

s3, sequentially installing a heat absorption layer (23), a heat separation layer (22), a heat preservation layer (21) and a floor body (1) on the upper surface of an installation layer (3) from bottom to top, then enabling a fixing piece (4) to penetrate through a fixing groove (11) and a connecting groove (31) from top to bottom, enabling a locking block (43) to abut against a butting block (3122), inserting a screwdriver into a slot (421) when a rotating head (42) abuts against the lower surface of a plugging groove (111), enabling the rotating head (42) to rotate ninety degrees, enabling the rotating head (42) to drive the locking block (43) to rotate ninety degrees, and enabling the locking block (43) to be clamped in a locking groove (312);

s4, plugging the plugging block (112) into the plugging groove (111), inserting the inserting block (1122) into the inserting groove (421), and injecting building glue into the glue injection groove (1121) to enable the plugging block (112) to plug the plugging groove (111);

s5, fixing the four corners of the same floor body (1) by using the fixing pieces (4).

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