CN111947203B - Floor heating structure convenient for dehumidification and installation method thereof - Google Patents

Abstract

The invention discloses a floor heating structure convenient for dehumidification and an installation method thereof, comprising a water storage tank, wherein a communicating water pipe, a water return pipe, a drain pipe and a dehumidification pipe are communicated with the tank body, a heating plate is embedded in the side wall of the tank body, and a filter screen plate is fixedly arranged in the tank body; a floor heating pipe isolation cover is arranged on the outer side of the floor heating pipe; the outlet end of the floor heating pipe close to the wet discharging pipe is arranged in the hollow isolation cylinder body, the bottom of the concave block is fixedly provided with a drainage pump three-switch, and the bottom of the push rod is fixedly provided with a floating ball. The invention provides a floor heating structure convenient for dehumidification, which can prevent a floor heating pipe from being frozen, can automatically dehumidify when water leakage and excessive moisture of the floor heating pipe generate excessive accumulated water, can filter the discharged water through a filter screen plate in a water storage tank under the above conditions, and can recycle the water.

Description

Floor heating structure convenient for dehumidification and installation method thereof

Technical Field

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

Background

In the prior art, a water floor heating dehumidifying structure with the application number of 201821380335.0 comprises a floor layer, a heat preservation layer, a fine sand concrete layer and a floor layer, wherein a heating pipe is arranged between the heat preservation layer and the fine sand concrete layer; the floor layer is provided with a water storage tank, the floor layer inclines towards the water storage tank, a gas permeable pipe penetrating through the heat insulation layer, the fine sand concrete layer and the floor layer is arranged in the water storage tank, and a water guide pipe used for communicating a vacuum pump is arranged in the middle of the gas permeable pipe; a gap is arranged between the pipe orifice of the ventilation pipe and the pipe orifice of the water guide pipe and the water storage tank, so that water enters the water storage tank and is guided out from the water guide pipe; the water guide pipe is connected with a vacuum pump, the vacuum pump works, external gas enters the water storage tank through the gas transmission pipe, and water in the water storage tank is guided out through the water guide pipe; compared with the prior art, the water is collected in the water storage tank, the water is led out through the water guide pipe, the air is introduced through the air permeability pipe, the air circulation is good, and the water drainage effect is improved.

However, in the using process, the method still has obvious defects: 1. the water storage tank in the device can only be used for receiving water generated by seepage or damage of the heating pipe, but the water can not be automatically discharged, and the device also needs manual regular maintenance and water discharge, so that the device is inconvenient to use; 2. when the weather is cold, if the floor heating is not used, the residual water in the floor heating pipe is easy to freeze and expand, so that the floor heating pipe is broken, huge and tedious maintenance work is brought, the time consumption and the cost for replacement are high, and the device can not effectively solve the problem; 3. the water in the floor heating pipe needs to be filtered, otherwise, impurities and the like in the floor heating pipe are easy to block and difficult to clean, so that the water circulation in the floor heating pipe is affected, the heat supply effect is reduced, and the device cannot effectively solve the problem and has limited functions.

Disclosure of Invention

The invention aims to provide a floor heating structure convenient for dehumidification and an installation method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a floor heating structure convenient to dehumidification, includes the water storage tank, the water storage tank includes box and case lid, case lid detachably sets up on the box, fixedly on the outer wall of box be provided with touch panel and PLC controller, the intercommunication is provided with intercommunication water pipe, wet return, drain pipe and wet drain on the box, be provided with valve one on the intercommunication water pipe, the embedded heating plate that is provided with in the lateral wall of box, be provided with first temperature sensor on the diapire of box, fixedly be provided with the filter screen plate in the box, wet return and wet drain set up in the top of filter screen plate, intercommunication water pipe and drain pipe set up in the below of filter screen plate, be provided with the rotating electrical machines on the case lid, the output of rotating electrical machines is fixedly provided with the pivot, the pivot extends to the inside one end of box fixedly provided with scraper blade, scraper blade and filter screen plate contact;

the drain pipe is communicated with the water collecting and collecting device, a drain pump I and a valve II are arranged on the drain pipe, a second temperature sensor is arranged on the outer wall of the water collecting and collecting device, the water collecting and collecting device is communicated with a ground heating pipe through a heating inlet pipeline, the ground heating pipe is reversely communicated with the water collecting and collecting device through a heating outlet pipeline, a water return pipe is communicated with the heating inlet pipeline, a valve III is arranged on the water return pipe, a valve IV and a circulating pump are arranged on the heating inlet pipeline, a valve V and a blowing pump are arranged on the heating outlet pipeline, and a valve VI is arranged on the moisture removing pipe;

The floor heating pipe is paved in a fine sand concrete layer, a floor heating pipe isolation cover is arranged on the outer side of the floor heating pipe, a mirror reflection film, an extrusion molding board layer and a structural layer are sequentially arranged below the fine sand concrete layer, and a leveling layer and a floor layer are sequentially arranged above the fine sand concrete layer;

The utility model discloses a wet pipe of floor heating coil, including hollow isolation barrel, drain pump, slide, spring, the slide is kept away from to be provided with the spring between the bottom of slide and concave type piece, the one end that has the spring is fixed to be provided with the push rod in the slide, the fixed floater that is provided with in bottom of push rod, be provided with the drain pump III on the drain pipe in the hollow isolation barrel.

Preferably, a filter screen shell is arranged on the box cover, and the rotary motor is arranged in the filter screen shell.

Preferably, a second drainage pump is arranged on the heating inlet pipeline.

Preferably, the outside of the floor heating pipe is provided with a clip which is provided in the floor heating pipe shield and extends to the specular reflection film and the extruded sheet layer.

Preferably, a limiting block is fixedly arranged at one end, far away from the three switches of the drainage pump, of the concave block.

Based on the installation method of the floor heating structure convenient for dehumidification, the method comprises the following steps of:

step one: sequentially paving an extrusion molding plate layer and a specular reflection film above the structural layer;

step two: paving a floor heating pipe on the mirror reflection film, fixing the floor heating pipe through a clamp, and inserting the clamp into the mirror reflection film and the extrusion molding plate layer;

step three: a floor heating pipe isolation cover is fixedly arranged on the outer side of the floor heating pipe, and a hollow isolation cylinder body is arranged at the outlet end of the floor heating pipe close to the moisture discharging pipe;

step four: a fine sand concrete layer is poured and arranged between the ground heating pipe isolation covers, so that the height of the fine sand concrete layer is larger than that of the ground heating pipe isolation covers and smaller than that of the hollow isolation cylinder, a leveling layer and a floor layer are sequentially arranged above the fine sand concrete layer, and the floor layer is flush with the top of the hollow isolation cylinder after the fine sand concrete layer is paved;

step five: a moisture discharging pipe is arranged in the hollow isolation cylinder body in a sealing and communicating way, and the moisture discharging pipe is communicated with the inside of the box body of the water storage box;

Step six: two ends of the ground heating pipe are respectively communicated with a heating inlet pipeline and a heating outlet pipeline, and the heating inlet pipeline and the heating outlet pipeline are respectively communicated with the water collecting device;

Step seven: a water return pipe is communicated between the tank body of the water storage tank and the heating inlet pipeline, and a water discharge pipe is communicated between the tank body of the water storage tank and the water collecting device.

Compared with the prior art, the invention has the beneficial effects that:

1. The water collecting and distributing device is provided with the second temperature sensor, when the second temperature sensor detects that the external environment temperature is lower than a preset value, the information is fed back to the PLC, if the ground heating device is not in a working state at the moment, the PLC controls the air pump, the water discharging pump II and the valve III to be opened, other valves and devices are closed, water in the ground heating pipe is further conveyed into the water storage tank for temporary storage, the ground heating pipe is prevented from being damaged due to freezing expansion, and when the water collecting and distributing device is used, the heating plate can be started to melt and defrost the frozen water in the water storage tank, and then the water is guided to the ground heating pipe for normal use, so that the problem that a traditional ground heating pipe structure is easy to freeze and damage in cold days is effectively solved;

2. The ground heating pipe is arranged in the ground heating pipe isolation cover, when the ground heating pipe is damaged and leaked or the moisture in the ground heating pipe isolation cover is overlarge, the three switches of the drainage pump are automatically triggered along with the rising of the water level so as to control the three starting of the drainage pump, the six valves are controlled to be opened through the PLC controller, and then the moisture in the ground heating pipe isolation cover is timely discharged into the water storage tank, so that the convenience of automatic drainage is realized, and the water can be reused;

3. The water storage tank is internally provided with the filter screen plate, and when water in the ground heating pipe enters the water storage tank through the water return pipe for preventing the ground heating pipe from freezing or the moisture discharge pipe for discharging the ground heating pipe isolation cover, the filter screen plate can filter the water body, so that the inside of the ground heating pipe is prevented from being blocked by impurities.

The invention provides a floor heating structure convenient for dehumidification, when a floor heating device is not used in cold days, water in a floor heating pipe can be automatically discharged into a water storage tank, the floor heating pipe is prevented from being frozen, the floor heating structure can be normally used after being heated and thawed when the floor heating pipe is used, water can be automatically dehumidified when water leakage and excessive moisture are caused by excessive water accumulation of the floor heating pipe, the discharged water can be filtered through a filter screen plate in the water storage tank under the above-mentioned conditions, impurities can be prevented from blocking the filter screen plate, the water can be recycled, and the installation method of the floor heating structure convenient for dehumidification is more energy-saving, is simple to operate and is very worth popularizing.

Drawings

FIG. 1 is a schematic diagram of the overall structure connection relationship of the present invention;

FIG. 2 is a schematic cross-sectional view of a water reservoir according to the present invention;

FIG. 3 is a schematic view of a sectional structure of a floor heating pipe installation position according to the present invention;

fig. 4 is an enlarged view of fig. 3 at a in accordance with the present invention.

In the figure: 1 water storage tank, 2 box, 3 case lid, 4 touch panel, 5PLC controller, 6 intercommunication water pipe, 7 valve one, 8 heating plate, 9 first temperature sensor, 10 filter screen plate, 11 rotating electrical machines, 12 filter screen shell, 13 pivot, 14 scraper blade, 15 wet return, 16 drain pipe, 17 wet drain pipe, 18 water collector, 19 drain pump one, 20 valve two, 21 second temperature sensor, 22 heating inlet pipeline, 23 ground heating pipe, 24 heating outlet pipeline, 25 valve three, 26 valve four, 27 circulating pump, 28 drain pump two, 29 valve five, 30 drum pump, 31 valve six, 32 fine sand concrete layer, 33 ground heating pipe isolation cover, 34 specular reflection film, 35 extruded sheet layer, 36 structural layers, 37 leveling layer, 38 ground sheet layer, 39 staple, 40 hollow isolation cylinder, 41 concave type block, 42 drain pump three switch, 43 slide, 44 spring, 45 push rod, 46, 47 stopper, 48 drain pump three.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the present invention provides a technical solution:

The floor heating structure convenient for dehumidification comprises a water storage tank 1, wherein the water storage tank 1 comprises a tank body 2 and a tank cover 3, the tank cover 3 is detachably arranged on the tank body 2, a touch panel 4 and a PLC controller 5 are fixedly arranged on the outer wall of the tank body 2, the PLC controller 5 can be controlled through the touch panel 4, the PLC controller 5 can receive information transmitted by the touch panel 4, a first temperature sensor 9, a second temperature sensor 21 and a drain pump three switch 42, and can also control the working states of a valve I7, a heating plate 8, a rotating motor 11, a drain pump I19, a valve II 20, a valve III 25, a valve IV 26, a circulating pump 27, a drain pump II 28, a valve V29, a gas-blowing pump 30, a valve VI 31 and a drain pump III 48, a communicating water pipe 6, a water return pipe 15, a drain pipe 16 and a drain pipe 17 are arranged on the tank body 2 in a communicating manner, the valve I7 is arranged on the communicating water pipe 6, the heating plate 8 is arranged in the side wall of the box body 2 in an embedded manner, the heating plate 8 is used for thawing the water body in the box body 2, the first temperature sensor 9 is arranged on the bottom wall of the box body 2, the first temperature sensor 9 can measure the temperature of the water body in the box body 2, the measurement result can be displayed on the touch panel 4, alternatively, when the first temperature sensor 9 detects that the temperature is close to the freezing value, the heating plate 8 can be automatically controlled to be started through the PLC controller 5 until the first temperature sensor 9 detects that the temperature reaches the preset temperature, the filter screen plate 10 is fixedly arranged in the box body 2, the water return pipe 15 and the moisture discharge pipe 17 are arranged above the filter screen plate 10, the communicating water pipe 6 and the drain pipe 16 are arranged below the filter screen plate 10, the water return pipe 15 is used for draining the water body for preventing the ground heating pipe 23 from being frozen, the wet pipe 17 of arranging is used for leaking water to ground heating coil 23 or when the inside moisture of ground heating coil cage 33 is too big and produce ponding too much, carry out the water drainage, filter screen plate 10 then can filter the water that flows out in wet pipe 17 to wet 15 and the wet pipe of returning, both can filter these waters and carry out reuse, it is more energy-conserving, also can avoid ground heating coil 23 inside to be blockked up by the impurity in the water, be provided with rotating electrical machines 11 on case lid 3, the fixed pivot 13 that is provided with of output of rotating electrical machines 11, the fixed scraper blade 14 that is provided with of one end that the pivot 13 extends to the inside of box 2, scraper blade 14 contacts with filter screen plate 10, rotating electrical machines 11 can drive scraper blade 14 through pivot 13, and then strike off the impurity that adheres to on the filter screen plate 10, influence normal use after avoiding filter screen plate 10 to be blockked up.

The drain pipe 16 is communicated with the water collecting and distributing device 18, the drain pipe 16 is provided with a drain pump 19 and a valve two 20, the outer wall of the water collecting and distributing device 18 is provided with a second temperature sensor 21, the second temperature sensor 21 is used for monitoring the external temperature, the water collecting and distributing device 18 is communicated with the ground heating pipe 23 through the heating inlet pipe 22, the ground heating pipe 23 is reversely communicated with the water collecting and distributing device 18 through the heating outlet pipe 24, the water return pipe 15 is communicated with the heating inlet pipe 22, the water return pipe 15 is provided with a valve three 25, the heating inlet pipe 22 is provided with a valve four 26 and a circulating pump 27, the circulating pump 27 is used for promoting the water circulation of the heating inlet pipe 22, the ground heating pipe 23 and the heating outlet pipe 24 to supply heat, the heating outlet pipe 24 is provided with a valve five 29 and a blowing pump 30, the blowing pump 30 is used for blowing air into the ground heating pipe 23, and further promoting the water discharge inside the ground heating pipe 23, and the moisture discharge pipe 17 is provided with a valve six 31.

The floor heating pipe 23 is laid in the fine sand concrete layer 32, the outer side of the floor heating pipe 23 is provided with a floor heating pipe isolation cover 33, a mirror reflection film 34, an extruded sheet layer 35 and a structural layer 36 are sequentially arranged below the fine sand concrete layer 32, the mirror reflection film 34 can improve heating effect, and a leveling layer 37 and a floor layer 38 are sequentially arranged above the fine sand concrete layer 32.

The outlet end of the floor heating pipe 23 close to the wet discharging pipe 17 is arranged in the hollow isolation cylinder 40, the hollow isolation cylinder 40 is communicated with the wet discharging pipe 17, a concave block 41 is fixedly arranged in the hollow isolation cylinder 40, a drain pump three switch 42 is fixedly arranged at the bottom of the concave block 41, the drain pump three switch 42 is connected with a drain pump three 48 through signals, a sliding plate 43 is movably arranged in the concave block 41, the sliding plate 43 can move up and down in the concave block 41, a spring 44 is connected between the sliding plate 43 and the bottom of the concave block 41, a push rod 45 is fixedly arranged at one end, far away from the spring 44, of the sliding plate 43, a floating ball 46 is fixedly arranged at the bottom of the push rod 45, and if water exists in the floor heating pipe isolation cover 33, the position of the floating ball 46 can rise and fall along with the rising and falling of a liquid level, and the drain pump three 48 is arranged on the wet discharging pipe 17.

As a preferred option, the cover 3 is provided with a filter screen shell 12, the rotary electric machine 11 is arranged in the filter screen shell 12, and the filter screen shell 12 can prevent dust accumulation of the rotary electric machine 11 and facilitate heat dissipation and ventilation of the rotary electric machine 11.

As a preferred example, the second drain pump 28 is disposed on the heating inlet duct 22, and the second drain pump 28 may improve the drainage efficiency.

As one preferable example, the outside of the floor heating pipe 23 is provided with a clip 39, and the clip 39 is provided in the floor heating pipe insulation cover 33 and extends to the specular reflection film 34 and the extruded sheet layer 35, and the clip 39 can fix the floor heating pipe 23 more firmly, avoiding displacement of the floor heating pipe 23.

Preferably, a stopper 47 is fixedly arranged at one end of the concave block 41 away from the drain pump three switch 42, and the stopper 47 is arranged to prevent the sliding plate 43 from being separated from the concave block 41 during movement.

A mounting method based on a floor heating structure convenient for dehumidification comprises the following steps:

step one: the extruded sheet layer 35 and the mirror reflection film 34 are sequentially paved above the structural layer 36, and the arrangement of the mirror reflection film 34 can better collect heat, so that the heating effect of the floor heating pipe 23 is improved;

step two: the floor heating pipe 23 is paved on the mirror reflection film 34, the floor heating pipe 23 is fixed through the clamp 39, and the clamp 39 is inserted into the mirror reflection film 34 and the extruded sheet layer 35;

Step three: a floor heating pipe isolation cover 33 is fixedly arranged on the outer side of the floor heating pipe 23, and a hollow isolation cylinder 40 is arranged at the outlet end of the floor heating pipe 23 close to the moisture discharging pipe 17;

Step four: a fine sand concrete layer 32 is poured and arranged between the ground heating pipe isolation covers 33, so that the height of the fine sand concrete layer 32 is larger than that of the ground heating pipe isolation covers 33 and smaller than that of the hollow isolation cylinder 40, a leveling layer 37 and a floor layer 38 are sequentially arranged above the fine sand concrete layer 32, and the floor layer 38 is flush with the top of the hollow isolation cylinder 40 after being paved;

step five: a moisture discharging pipe 17 is arranged in the hollow isolation cylinder 40 in a sealing and communicating way, the moisture discharging pipe 17 is communicated with the inside of the box body 2 of the water storage box 1, and the moisture discharging pipe 17 is used for draining moisture when the ground heating pipe 23 leaks water or the moisture in the ground heating pipe isolation cover 33 is too high;

step six: two ends of the ground heating pipe 23 are respectively communicated with a heating inlet pipeline 22 and a heating outlet pipeline 24, and the heating inlet pipeline 22 and the heating outlet pipeline 24 are respectively communicated with the water collecting device 18;

Step seven: a water return pipe 15 is communicated between the tank body 2 of the water storage tank 1 and the heating inlet pipeline 22, the water return pipe 15 is used for conducting water body drainage for preventing the ground heating pipe 23 from freezing, a water discharge pipe 16 is communicated between the tank body 2 of the water storage tank 1 and the water collecting and distributing device 18, and the water discharge pipe 16 is used for guiding water in the water storage tank 1 to the water collecting and distributing device 18.

Example 1: when the weather is cold, when the second temperature sensor 21 detects that the external environment temperature is lower than a preset value, the information is fed back to the PLC controller 5, if the floor heating equipment is not in a working state at the moment, the PLC controller 5 can control the air pump 30, the water discharge pump 28 and the valve III 25 to be opened, other valves and pump body equipment are closed, water in the floor heating pipe 23 is further conveyed into the box body 2 of the water storage box 1 through the water return pipe 15 for temporary storage, the floor heating pipe 23 is prevented from being damaged due to expansion of freezing, when the water cooling pipe is needed to be used, the heating plate 8 in the box body 2 can be started, frozen water in the box body 2 is melted and thawed until the first temperature sensor 9 detects that the temperature reaches the preset value, then the air discharge pump 30, the water discharge pump 28 and the valve III 25 can be closed, the water discharge pump 19 and the valve II 20 are opened, the water flow is guided to the water diversity 18, and the valve IV 26 and the valve V29 are opened, and the water can be guided to the floor heating pipe 23 for normal use, and the problem that the traditional floor heating pipe 23 is easy to be damaged on days is effectively solved.

Example 2: when the ground heating pipe 23 is damaged and leaked or the moisture in the ground heating pipe isolation cover 33 is overlarge, along with the rising of the water level, the floating ball 46 rises, the sliding plate 43 is driven to rise through the push rod 45, the three drainage pump switch 42 is triggered, the three drainage pump switch 48 is started, the PLC controller 5 can control the valve six 31 to be opened, the moisture in the ground heating pipe isolation cover 33 is timely discharged into the box body 2 of the water storage box 1 through the moisture discharging pipe 17, the quick and automatic moisture discharging is achieved, the water can be recycled, the energy is saved, and further, after the three drainage pump switch 42 is triggered, the three drainage pump switch 48 can be controlled to be turned off in a delayed mode, or a delay relay is used for controlling the three drainage pump switch 48 to be turned off in a delayed mode, and the moisture is guaranteed to be discharged completely.

Example 3: in the above two embodiments, after the water in the water return pipe 15 and the moisture removing pipe 17 enters the box 2, the water can be filtered by the filter screen plate 10 firstly, so that the water led out by preventing icing can be prevented from being frozen out, the floor heating pipe 23 can be filtered and mixed simultaneously, and then can be used continuously after the impurity is removed, and the water in the moisture removing pipe 17 can be reused after being filtered, so that the energy is saved, the use cost is reduced, and the water recycling device is more convenient, simple and efficient.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a warm up structure convenient to row wet, includes water storage tank (1), its characterized in that: the water storage tank (1) comprises a tank body (2) and a tank cover (3), the tank cover (3) is detachably arranged on the tank body (2), a touch panel (4) and a PLC (programmable logic controller) controller (5) are fixedly arranged on the outer wall of the tank body (2), a water communication pipe (6), a water return pipe (15), a water drain pipe (16) and a moisture drain pipe (17) are communicated with each other on the tank body (2), a valve I (7) is arranged on the water communication pipe (6), a heating plate (8) is embedded in the side wall of the tank body (2), a first temperature sensor (9) is arranged on the bottom wall of the tank body (2), a filter screen plate (10) is fixedly arranged in the tank body (2), the water return pipe (15) and the moisture drain pipe (17) are arranged above the filter screen plate (10), a rotary motor (11) is arranged on the tank cover (3), an output end (11) of the rotary motor is fixedly provided with a rotary shaft (13), and the rotary shaft (14) is fixedly arranged at one end of the rotary shaft (14) and is fixedly connected with the rotary shaft (14) of the rotary shaft (14);

The water collecting and draining device is characterized in that the water draining pipe (16) is communicated with the water collecting and draining device (18), a first draining pump (19) and a second valve (20) are arranged on the water draining pipe (16), a second temperature sensor (21) is arranged on the outer wall of the water collecting and draining device (18), the water collecting and draining device (18) is communicated with a ground heating pipe (23) through a heating inlet pipeline (22), the ground heating pipe (23) is reversely communicated with the water collecting and draining device (18) through a heating outlet pipeline (24), a third valve (25) is arranged on the water returning pipe (15), a fourth valve (26) and a circulating pump (27) are arranged on the heating inlet pipeline (22), a fifth valve (29) and a blast pump (30) are arranged on the heating outlet pipeline (24), and a sixth valve (31) is arranged on the moisture draining pipe (17);

the floor heating pipe (23) is paved in a fine sand concrete layer (32), a floor heating pipe isolation cover (33) is arranged on the outer side of the floor heating pipe (23), a mirror reflection film (34), an extrusion molding plate layer (35) and a structural layer (36) are sequentially arranged below the fine sand concrete layer (32), and a leveling layer (37) and a floor layer (38) are sequentially arranged above the fine sand concrete layer (32);

The floor heating pipe (23) outlet end close to the wet discharging pipe (17) is arranged in a hollow isolation cylinder body (40), the hollow isolation cylinder body (40) is communicated with the wet discharging pipe (17), a concave block (41) is fixedly arranged in the hollow isolation cylinder body (40), a drainage pump three switch (42) is fixedly arranged at the bottom of the concave block (41), a sliding plate (43) is movably arranged in the concave block (41), a spring (44) is connected between the sliding plate (43) and the bottom of the concave block (41), a push rod (45) is fixedly arranged at one end, far away from the spring (44), of the sliding plate (43), a floating ball (46) is fixedly arranged at the bottom of the push rod (45), and a drainage pump three (48) is arranged on the wet discharging pipe (17);

A second drainage pump (28) is arranged on the heating inlet pipeline (22), and a limiting block (47) is fixedly arranged at one end of the concave block (41) far away from the third drainage pump switch (42);

When the second temperature sensor (21) detects that the external environment temperature is lower than a preset value, the information is fed back to the PLC (5), if the floor heating equipment is not in a working state at the moment, the PLC (5) controls the air pump (30), the drainage pump II (28) and the valve III (25) to be opened, other valves and pump body equipment to be closed, and then water in the floor heating pipe (23) is conveyed to the box body (2) of the water storage box (1) through the water return pipe (15) for temporary storage;

When the ground heating pipe (23) is damaged and leaked or the moisture in the ground heating pipe isolation cover (33) is overlarge, along with the rising of the water level, the floating ball (46) also rises, the sliding plate (43) is driven to rise through the push rod (45) and the three switch (42) of the drainage pump is triggered, so that the three (48) of the drainage pump is started, the six (31) of the valve can be controlled to be opened by the PLC (5), and then the moisture in the ground heating pipe isolation cover (33) is timely discharged into the box body (2) of the water storage box (1) through the moisture discharging pipe (17).

2. The floor heating structure facilitating dehumidification according to claim 1, wherein: the box cover (3) is provided with a filter screen shell (12), and the rotating motor (11) is arranged in the filter screen shell (12).

3. The floor heating structure facilitating dehumidification according to claim 1, wherein: the outside of ground heating coil (23) is provided with staple (39), staple (39) set up in ground heating coil cage (33) and extend to specular reflection membrane (34) and extruded sheet layer (35).

4. A method for installing a floor heating structure facilitating dehumidification based on any one of claims 1 to 3, characterized in that: the method comprises the following steps:

step one: sequentially paving an extruded sheet layer (35) and a specular reflection film (34) above the structural layer (36);

Step two: a floor heating pipe (23) is paved on the mirror reflection film (34), the floor heating pipe (23) is fixed through a clamp nail (39), and the clamp nail (39) is inserted into the mirror reflection film (34) and the extruded sheet layer (35);

Step three: a floor heating pipe isolation cover (33) is fixedly arranged on the outer side of the floor heating pipe (23), and a hollow isolation cylinder body (40) is arranged at the outlet end of the floor heating pipe (23) close to the moisture discharging pipe (17);

Step four: a fine sand concrete layer (32) is poured and arranged between the ground heating pipe isolation covers (33), so that the height of the fine sand concrete layer (32) is larger than that of the ground heating pipe isolation covers (33) and smaller than that of the hollow isolation cylinder (40), a leveling layer (37) and a floor layer (38) are sequentially arranged above the fine sand concrete layer (32), and the floor layer (38) is flush with the top of the hollow isolation cylinder (40) after being paved;

step five: a moisture discharging pipe (17) is arranged in the hollow isolation cylinder body (40) in a sealing and communicating manner, the moisture discharging pipe (17) is communicated with the inside of the box body (2) of the water storage box (1), and the moisture discharging pipe (17) is used for draining moisture when the floor heating pipe (23) leaks water or the moisture in the floor heating pipe isolation cover (33) is overlarge;

step six: two ends of a ground heating pipe (23) are respectively communicated with a heating inlet pipeline (22) and a heating outlet pipeline (24), and the heating inlet pipeline (22) and the heating outlet pipeline (24) are respectively communicated with a water collecting device (18);

step seven: a water return pipe (15) is communicated between a tank body (2) of the water storage tank (1) and a heating inlet pipeline (22), and a water discharge pipe (16) is communicated between the tank body (2) of the water storage tank (1) and a water collecting device (18).