CN112682963B - Floor heating device based on intelligent home decoration - Google Patents

Abstract

The invention discloses a floor heating device based on intelligent home decoration, which comprises a wall-hanging furnace shell, an integrated interface slot arranged on the wall-hanging furnace shell, a safety cover plate rotatably connected to the wall-hanging furnace shell, a working bin arranged on the wall-hanging furnace shell, a circulating pump detachably arranged on the working bin, a control bin fixedly connected to the upper part of the circulating pump, a heating device fixedly connected to the working bin, a distribution valve, a temperature adjusting bin arranged below the distribution valve and a water storage bin communicated with the temperature adjusting bin, wherein the temperature adjusting bin is arranged below the distribution valve; the working bin comprises a safety box and a filtering device fixedly connected to the safety box; the first return pipe is fixedly connected with a functional valve of the safety box and is used for connecting the functional valve with the circulating pump; the invention is provided with the functional valve, realizes automatic water supplement in the circulating pipe so as to ensure the water pressure balance in the pipeline, and simultaneously, is provided with the filtering device, reduces the deposition of sediment in the pipeline, and reduces the pipeline blockage and the water source replacement times.

Description

Floor heating device based on intelligent home decoration

Technical Field

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to a floor heating device based on intelligent home furnishing decoration.

Background

The weather in northern cities is cold, and the heating modes in the homes of people are generally divided into two modes, namely, the cities of heating companies are adopted for unified heating, so that the problems of labor saving, high expenditure and inconvenient adjustment are solved; secondly, private independent heating is adopted, so that the heating device is flexible and can be opened or closed according to requirements; in recent years, along with the popularization of smart homes, more and more families select private household floor heating to heat in winter, in the whole floor heating device, a wall-mounted furnace is used as an energy center and plays a vital role, the existing wall-mounted furnaces on the market are eight-door, and generally consist of a water supply center, a heating center and a temperature adjusting center, however, a plurality of wall-mounted furnaces have defects, firstly, heating water in a floor heating pipeline can generate a large amount of precipitates in a repeated circulating process, circulating water needs to be replaced periodically, otherwise, the precipitates can be accumulated in the pipeline, so that blockage or breakage is caused, and great economic loss is caused; secondly, hot water can generate a large amount of water vapor in the circulation process, the pressure of the whole pipeline becomes unstable due to the water vapor in the pipeline, and meanwhile, heat transfer is problematic and needs to be discharged in time; thirdly, due to the discharge of water vapor, circulating water is lost, the water pressure in the pipeline is reduced, the flowing speed is reduced, the heat supply is influenced, and the circulating water needs to be added into the circulating pipeline in time; the prior art processes the problems regularly by manpower, which is time-consuming, labor-consuming and inconvenient.

Disclosure of Invention

The invention provides an intelligent full-automatic filtering and pressure supplementing floor heating device based on intelligent home decoration in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a floor heating device based on intelligent home decoration comprises a wall-hanging furnace shell, an integrated interface slot arranged on the wall-hanging furnace shell, a safety cover plate rotatably connected to the wall-hanging furnace shell, a working bin arranged on the wall-hanging furnace shell, a circulating pump detachably mounted on the working bin, a control bin fixedly connected to the upper part of the circulating pump, a heating device fixedly connected to the working bin, a distribution valve arranged below the heating device, a temperature regulating valve arranged below the distribution valve, and a water storage bin communicated with the temperature regulating valve; the working bin comprises a safety box and a filtering device fixedly connected to the safety box; the first return pipe is fixedly connected with a functional valve of the safety box and is used for connecting the functional valve with the circulating pump; the device comprises a functional bin fixedly connected with a first backflow pipe, a separation bin arranged on the upper part of the functional bin, an integration bin arranged on the lower part of the functional bin, an injection pipe fixedly connected to the bottom of the integration bin, a porous head fixedly connected to the injection pipe, an injection hole arranged on the porous head, a buoyancy plate slidably connected to the injection pipe, a baffle fixedly connected to the buoyancy plate, a starting hole arranged on the baffle, a liquid charging valve fixedly connected to the functional valve, a replenishing pipe fixedly connected to the liquid charging valve, a braking groove arranged on the liquid charging valve, a braking pipe slidably connected to the braking groove, a braking flange fixedly connected to the braking pipe, a shutoff valve fixedly connected to the braking pipe, a replenishing hole arranged on the braking pipe, a liquid charging groove arranged on the liquid charging valve, and an auxiliary valve fixedly connected to the liquid charging valve, The flow stopping device comprises a flow stopping rod fixedly connected with the shutoff valve and slidably connected with the auxiliary valve, a reset spring sleeved on the flow stopping rod, an air overflow valve arranged at the upper part of the functional valve, a flow baffle fixedly connected with the air overflow valve, a pressure valve slidably connected with the flow baffle, a pressure spring arranged at the rear side of the pressure valve, a spiral pressure increasing pipe fixedly connected with the air overflow valve, a check pipe connecting the air overflow valve and the brake groove and a delivery pipe fixedly connected with the integration bin; the replenishing pipe is communicated with a tap water pipe; the whole wall-mounted boiler has the operation principle that circulating water in a pipeline is heated by a heating device through a circulating pump, then water flow distribution is carried out through a distribution valve, one part of the circulating water enters a circulating pipeline to carry out indoor circulating heating, the other part of the circulating water enters a water storage bin to be used as daily household hot water, after heat release is carried out for a period of time, the circulating water returns to the circulating pump again to start a new round of heating heat release work, water vapor is inevitably generated in the circulating water in the continuous heating process, the circulating water moves in a pipeline along with water flow, when the circulating water enters a working bin through the circulating pump, the circulating water firstly passes through a jet pipe and then is jetted out through a jet hole of a porous head to enter a separation bin, bubbles mixed in the water flow are collected on the upper part of the separation bin in the separation bin, the water flow falls and is collected and integrated in the bin, and further flows into a filtering device through a guide pipe to be filtered, along with the water-vapor separation, more and more water vapor is generated at the upper part of the separation bin, the water level in the integration bin is gradually reduced under the pressure of the water vapor, the position of the buoyancy plate is reduced, further, tap water provides pressure in the supplement pipe, the brake pipe slides leftwards in the brake groove under the action of water pressure to drive the shutoff valve to move leftwards, the shutoff rod enters the starting hole to limit the baffle plate and the buoyancy plate, the tap water in the supplement pipe enters the rectification bin through the supplement hole and the auxiliary valve, the supplement pipe and the jet pipe simultaneously supply water and the water yield is kept unchanged due to the opening of the supplement pipe, so that the water storage capacity in the whole functional bin is increased, the water level in the integration bin is increased, the air pressure of the separation bin is gradually increased, the pressure valve slides rightwards, the overflow valve is opened, high-pressure gas at the upper part of the separation bin is released to the outside through the overflow valve and the spiral pressurization pipe, the water level in the functional bin is further high until all air in the separation bin is exhausted through the air relief valve, the water level submerges the air relief valve and enters the air relief valve, the water enters the brake groove through the check pipe, the stop valve cannot rise due to the fact that the baffle is blocked by the cut-off rod, the cut-off valve cannot be closed, the water pressure in the functional bin is further increased, further, the water pressure in the brake groove is increased, the brake flange drives the brake pipe to move rightwards, the cut-off valve moves rightwards, the replenishing hole is closed, the reset spring recovers, the cut-off rod exits from the starting hole and returns to the liquid filling valve, the buoyancy plate drives the baffle to rise and blocks the valve port of the liquid filling valve, the pressure in the functional valve is reduced, the air relief valve is closed, and primary air leakage and liquid replenishing are completed; the whole wall-mounted boiler is compact in structure, reasonable in layout and suitable for home installation; the design of the separation bin and the jet pipe can separate the gas and the water mixed in the circulating pipeline, the gas is gathered at the upper part, the circulating water is gathered in the integration bin, and the preparation work is prepared for discharging the gas in the next step; when the buoyancy plate and the baffle are in the upper positions, the baffle blocks an outlet of the liquid filling valve, the cutoff rod cannot slide out, the liquid filling valve is always in a closed state, when more and more gas is in the separation bin, the water level in the integration bin is pressed to fall, the buoyancy plate drives the baffle to fall until a starting hole is aligned with a valve port of the liquid filling valve to reach an alarm value, at the moment, the circulating water quantity in the pipeline is not enough to keep the water pressure and the flow rate in the pipeline in a stable state, the liquid filling valve starts to fill water, the water inflow in the integration bin is larger than the water outflow, the water level starts to rise, the air pressure in the separation bin starts to increase, and the air overflow valve is opened to release the gas; the buoyancy plate automatically senses and monitors the water level in the integrated bin, and once the water level is lower than a warning value, the air release work is automatically started through the baffle, so that the intelligent degree is high, and the step of manual air release is omitted; meanwhile, the baffle plate cut-off rod is matched to have a positive feedback regulation effect, once the liquid filling valve is opened, the baffle plate is fixed and cannot rise along with the water level until the air in the separation bin is completely emptied, the pressure is transmitted to the brake groove, the brake flange drives the cut-off valve to close, and the liquid filling valve is closed again by the baffle plate; the air in the separation bin can be completely emptied at one time, and the liquid filling valve is automatically closed again after air leakage is finished; the whole functional cabin is designed to synchronously deflate and replenish water, so that safety, intelligence and worry are saved, manual regular steam exhaust and water replenishment are not needed, and through the automatic closing design of the gas overflow valve, the amount of overflowed gas is equal to the amount of water replenished by the liquid filling valve, so that the water pressure in a circulating pipeline can be kept relatively stable, the pipeline fracture caused by overhigh pressure in the pipeline due to excessive manual water replenishment is avoided, and the safety of the whole floor heating system is ensured; the spiral pressure increasing pipe is designed, when liquid passes through the spiral pressure increasing pipe at a high speed, the pressure in the pipe can be suddenly increased, the pressure required for starting the brake pipe in the brake groove is smaller than the pressure for pushing the liquid out of the pressure increasing spiral pipe, therefore, when the liquid in the separation bin enters the overflow valve, the liquid can preferentially enter the brake groove to close the liquid filling valve, once the liquid filling valve is closed, the pressure in the separation bin is not increased, the water level in the spiral pressure increasing pipe stops rising, further, the overflow valve is closed under the action of the pressure spring, when the airflow passes through, the received influence can be ignored, the existence of the overflow valve increases the difficulty of the water flow flowing from the overflow valve to the outside, the starting priority of the brake groove is improved, almost no influence is generated on the gas passage, the water flow is prevented from flowing out of the overflow valve, and the waste of water resources is caused.

The filtering device comprises a filtering bin fixedly connected to the safety box, a filtering bin arranged at the upper part of the filtering bin, a filtering net fixedly connected to the filtering bin, a deposition bin arranged at the lower part of the filtering bin, a cleaning pipe connected with the deposition bin, a cleaning switch arranged on the cleaning pipe and a preheating pipe connected with the filtering bin; after the water flow is discharged from the functional bin, the water flow enters a filtering device, sediment in the water can be remained in a deposition bin under the action of a filter screen, the filtered circulating water enters a heating device through a filtering bin and a preheating pipe for heating circulation, and when the sediment in the deposition bin reaches a certain amount, a cleaning switch is turned on to discharge the sediment; through the upper and lower position distribution in deposit storehouse and filtration storehouse, make the precipitate gathering in the downside, need not open the timely clearance that filters the storehouse and can realize the precipitate, reduced the change number of times of filter screen, removed the step of dismantling from, avoided the precipitate adhesion on the pipeline inner wall, caused the condition of pipeline jam, protected the safety of pipeline.

The heating device comprises a combustion chamber fixedly connected with the working bin, a heat conduction pipe wound and sleeved on the periphery of the combustion chamber, a functional cover fixedly connected with the combustion chamber, a mixing bin arranged in the functional chamber, a fuel gas pipe communicated with the mixing chamber, an air outlet pipe arranged on the functional cover, an exhaust pipe communicated with the combustion chamber and a heat transfer pipe arranged on the exhaust pipe; the heat transfer pipe is spirally wound on the supplementary pipe; the heat conduction pipe is a copper pipe; one end of the heat conduction pipe is connected with the preheating pipe; the mixing bin can mix air and natural gas in advance, so that the combustion is more sufficient, and the situation that the toxic gas carbon monoxide is generated due to insufficient combustion, and the personal safety of a user is threatened can be avoided to a great extent; the heat transfer pipe can transfer the waste heat of the flue gas to the supplement pipe and preheat the cold tap water in advance, so that energy recovery is realized, and the energy-saving and environment-friendly effects are achieved; the effective heat transfer area of the round combustion chamber and the winding type heat conduction pipe is larger, and the heat transfer efficiency is higher;

The distribution valve comprises a distribution valve body connected with the outlet end of the heat conduction pipe, a distribution valve cover slidably connected with the distribution valve body, a distribution flange fixedly connected with the distribution valve cover, a distribution spring arranged at the rear side of the distribution flange, a water storage pipe connected with the bottom of the water storage bin and the middle part of the distribution valve, a heat supply pipe connected with the rear side of the distribution valve and the temperature adjusting bin, and a hot water pipe arranged at the lower part of the water storage bin; hot water flowing out of the heat conduction pipe enters the distribution valve and further flows into the water storage bin through the water storage pipe, when the water storage bin is full of water, the pressure of the left side part of the distribution flange is increased, the distribution spring is compressed, the distribution flange moves towards the right side, the heat supply pipe is communicated with the left side part of the distribution flange, and the hot water enters a circulating state; domestic hot water can be preferentially supplied through the distribution valve, and domestic hot water supply is guaranteed.

The temperature adjusting bin comprises an isolation bin fixedly connected with the temperature adjusting bin, a cold water pipe arranged at the lower part of the circulating pump, a cold water chamber arranged in the isolation bin, a hot water chamber connected with the hot water pipe, a water outlet valve arranged in the isolation bin, a distribution port arranged in the water outlet valve and a driving piece rotatably connected with the water outlet valve; the mixing bin is arranged in the temperature adjusting bin, and the circulating pipe is connected with the mixing bin; the water outlet valve can be driven to rotate by the rotation of the driving machine, so that the distribution port is driven to rotate, the proportion of cold water and hot water in the mixing bin is adjusted, and the temperature of water flow in the circulating pipeline is adjusted.

In summary, the invention has the following advantages: through setting up the functional valve, realize that automatic moisturizing is lost heart, intelligent degree is high, and is safe save worry. The water pressure in the protection pipeline is stable; through filtering the storehouse, in time filter the precipitate of aquatic and clear away, avoid piling up in the pipeline and cause the pipeline to block up.

Drawings

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

Fig. 2 is a schematic structural view of the security cover hidden in fig. 1.

Fig. 3 is a schematic structural view of fig. 1 with the safety cover plate and the water storage bin hidden.

Fig. 4 is a top view of the present invention.

Fig. 5 is a cross-sectional perspective view of fig. 4 taken along a-a.

Fig. 6 is an enlarged view of a portion a in fig. 5.

Fig. 7 is an enlarged view at B in fig. 6.

Fig. 8 is an enlarged view at C in fig. 6.

Fig. 9 is a cross-sectional perspective view along B-B of fig. 4.

Fig. 10 is a front view of the present invention.

Fig. 11 is a cross-sectional view taken along line C-C of fig. 10.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

As shown in fig. 1-11, a floor heating device based on smart home decoration comprises a wall-hanging stove housing 1, an integrated interface slot 11, a safety cover plate 12, a working bin 13, a circulating pump 14, a control bin 2, a heating device 3, a distribution valve 4, a temperature adjusting bin 5 and a water storage bin 6; the integrated interface slot 11 is arranged at the lower part of the wall-hanging stove shell 1; the safety cover plate 12 is rotatably connected to the hanging stove shell 1; the working bin 13 is arranged in the wall-hanging furnace shell 1; the circulating pump 14 is detachably arranged on the working bin 13; the control cabin 2 is fixedly connected to the upper part of the circulating pump 14; the heating device 3 is fixedly connected to the working bin 13; the distribution valve 4 is arranged below the heating device 3; the temperature adjusting bin 5 is arranged below the distribution valve 4; the water storage bin 6 is communicated with the temperature adjusting bin 5; the working chamber 13 comprises a safety tank 131, a filtering device 132, a function valve 133, a first return pipe 134, a function chamber 21, a separation chamber 22, an integration chamber 23, a jet pipe 24, a porous head 25, a jet hole 26, a buoyancy plate 27, a baffle plate 28, a starting hole 29, a liquid filling valve 210, a supplementary pipe 211, a braking groove 212, a braking pipe 213, a braking flange 214, a cut-off valve 215, a supplementary hole 216, a liquid filling groove 217, an auxiliary valve 218, a stop rod 219, a return spring 220, an overflow valve 221, a baffle plate 222, a pressure valve 223, a pressure spring 224, a spiral pressurization pipe 225, a return pipe 226 and a delivery pipe 227; the filtering device 132 is fixedly connected to the safety box 131; the function valve 133 is fixedly connected to the safety box 131; the first return pipe 134 connects the function valve 133 with the circulation pump 14; the functional cabin 21 is fixedly connected to the first return pipe 134; the separation bin 22 is arranged at the upper part of the functional bin 21; the integration bin 23 is arranged at the lower part of the functional bin 21; the jet pipe 24 is fixedly connected to the bottom of the integration bin 23; the porous head 25 is fixedly connected to the jet pipe 24; the jet hole 26 is arranged on the side of the porous head 25; the buoyancy plate 27 is slidably connected to the jet pipe 24; the baffle 28 is fixedly connected to the buoyancy plate 27; the starting hole 29 is arranged at one side of the baffle plate 28; the charging valve 210 is fixedly connected to the functional valve 133; the supplementary pipe 211 is fixedly connected to the charging valve 210; the brake groove 212 is arranged on the liquid charging valve 210; the brake pipe 213 is slidably connected to the brake groove 212; the brake flange 214 is fixedly connected to the brake pipe 213; the cut-off valve 215 is fixedly connected to the brake pipe 213; the supplementary hole 216 is arranged on the brake pipe 213; the liquid charging groove 217 is arranged on the liquid charging valve 210; the auxiliary valve 218 is fixedly connected to the charging valve 210; the shut-off rod 219 is fixedly connected to the shut-off valve 215 and slidably connected to the auxiliary valve 218; the reset spring 220 is sleeved on the intercepting rod 219; the air overflow valve 221 is arranged at the upper part of the functional valve 133; the flow baffle 222 is fixedly connected to the overflow valve 221; the pressure valve 223 is slidably connected to the baffle plate 222; the pressure spring 224 is arranged at the rear side of the pressure valve 223; the spiral pressure increasing pipe 225 is fixedly connected to the air overflow valve 221; the check pipe 226 connects the air relief valve 221 and the brake groove 212; the delivery pipe 227 is fixedly connected to the integration bin 23; the supplementary pipe 211 is communicated with a tap water pipe.

The filtering device 132 comprises a filtering bin 231, a filtering bin 232, a depositing bin 234, a filtering screen 233, a cleaning pipe 235, a cleaning switch 236 and a preheating pipe 237; the filtering bin 231 is fixedly connected to the safety box 131; the filtering bin 232 is arranged at the upper part of the filtering bin 231; the filter screen 233 is fixedly connected to the filter bin 231; the deposition bin 234 is arranged at the lower part of the filter bin 231; the cleaning pipe 235 is connected with the deposition bin 234; the cleaning switch 236 is arranged at the lower part of the cleaning pipe 235; the preheating pipe 237 is connected with the filtering bin 232.

The heating device 3 comprises a combustion chamber 31, a heat conducting pipe 32, a functional cover 33, a mixing bin 34, a gas pipe 35, an air pipe 36, an air outlet pipe 37, an exhaust pipe 38 and a heat conducting pipe 39; the combustion chamber 31 is fixedly connected with the working bin 13; the heat conducting pipe 32 is wound around the periphery of the combustion chamber 31; the functional cover 33 is fixedly connected to the combustion chamber 31; the mixing bin 34 is arranged in the functional chamber; the gas pipe 35 is communicated with the mixing chamber; the air pipe 36 is communicated with the mixing chamber; the air outlet pipe 37 is arranged on the functional cover 33; the exhaust pipe 38 is communicated with the combustion chamber 31; the heat transfer pipe 39 is arranged on the exhaust pipe 38 and is fixedly connected with the exhaust pipe; the heat transfer pipe 39 is spirally wound around the supplementary pipe 211; the heat conduction pipe 32 is a copper pipe; one end of the heat conduction pipe 32 is connected with a preheating pipe 237;

The distribution valve 4 comprises a distribution valve body 41, a distribution valve cover 42, a distribution flange 43, a distribution spring 44, a water storage pipe 45, a heat supply pipe 46 and a hot water pipe 47; the distribution valve body 41 is connected with the outlet end of the heat conduction pipe 32; the dispensing valve cover 42 is slidably connected to the dispensing valve body 41; the distribution flange 43 is fixedly connected to the distribution valve cover 42; the distribution spring 44 is arranged at the rear side of the distribution flange 43; the water storage pipe 45 is connected with the bottom of the water storage bin 6 and the middle part of the distribution valve 4; the heat supply pipe 46 is connected with the rear side of the distribution valve 4 and the temperature adjusting bin 5; the hot water pipe 47 is arranged at the lower part of the water storage bin 6.

The temperature adjusting bin 5 comprises an isolation bin 51, a cold water pipe 52, a hot water chamber 54, a water outlet valve 55, a distribution port 56, a driving piece 57, a mixing bin 58 and a circulating pipe 59; the isolation bin 51 is fixedly connected with the temperature adjusting bin 5; the cold water pipe 52 is arranged at the lower part of the circulating pump 14; the cold water chamber 53 is arranged at the right side of the isolation bin 51; the hot water chamber 54 is connected with the hot water pipe 47; the water outlet valve 55 is arranged at the lower part of the isolation bin 51; the distribution port 56 is arranged at the lower part of the water outlet valve 55; the driving member 57 is rotatably connected to the water outlet valve 55; the mixing chamber 58 is arranged at the lower part of the temperature adjusting bin 5; the circulation pipe 59 is connected to the mixing chamber 58.

The specific working process is as follows:

the operation principle of the whole wall-hanging stove is that circulating water in a pipeline is heated by a heating device 3 through a circulating pump 14, then water flow distribution is carried out through a distribution valve 4, one part of the circulating water enters a circulating pipe 59 for indoor circulating heating, the other part of the circulating water enters a water storage bin 6 to be used as daily household hot water, after heat release is carried out for a period of time, the circulating water returns to the circulating pump 14 again to start a new round of heating and heat release work, water vapor is inevitably generated in the circulating water in the continuous heating process, the circulating water moves in a pipeline along with water flow, when the circulating water enters a working bin 13 through the circulating pump 14, the circulating water firstly passes through a jet pipe 24 and then is jetted out through a jet hole 26 of a porous head 25 to enter a separation bin 22, bubbles in the separation bin 22 are gathered at the upper part of the separation bin 22, a water flow outlet pipe falls and is gathered in an integration bin 23, and further flows into a filtering device 132 through a guide pipe 227 for filtering, as the water-steam separation is carried out, more water steam is added at the upper part of the separation bin 22, the water level in the integration bin 23 is gradually reduced under the pressure of the water steam, the position of the buoyancy plate 27 is lowered, further, tap water provides pressure in the supplement pipe 211, under the action of the water pressure, the brake pipe 213 slides leftwards in the brake groove 212 to drive the cut-off valve 215 to move leftwards, the cut-off rod 219 enters the starting hole 29 to limit the baffle 28 and the buoyancy plate 27, the tap water in the supplement pipe 211 enters the rectification bin through the supplement hole 216 and the auxiliary valve 218, due to the opening of the supplement pipe 211, the supplement pipe 211 and the jet pipe 24 simultaneously supply water, while the water yield is kept unchanged, the water storage amount in the whole functional bin 21 is increased, the water level in the integration bin 23 is raised, the air pressure in the separation bin 22 is gradually increased, the pressure valve 223 slides rightwards, the overflow valve 221 is opened, the high-pressure gas at the upper part of the separation bin 22 is released to the outside through the overflow valve 221 and the spiral pressurization pipe 225, in the releasing process, the water level in the functional cabin 21 is further raised until all the air in the separating cabin 22 is exhausted through the air relief valve 221, the water level submerges the air relief valve 221 and enters the air relief valve 221, enters the brake groove 212 through the check pipe 226, because the baffle 28 is blocked by the intercepting rod 219 and cannot rise, the intercepting valve 215 cannot be closed, the water pressure in the functional cabin 21 is further increased, further, the water pressure in the brake groove 212 is increased, the brake flange 214 drives the brake pipe 213 to move rightwards, the intercepting valve 215 moves rightwards, the replenishing hole 216 is closed, the return spring 220 is restored, the intercepting rod 219 exits from the starting hole 29 and returns to the liquid replenishing valve 210, the buoyancy plate 27 drives the baffle 28 to rise, the blocking valve port of the liquid replenishing valve 210 is blocked, the pressure in the functional valve 133 is reduced, the air relief valve 221 is closed, and one-time air relief and replenishment is completed;

After the water flow comes out from the functional bin 21, the water flow enters the filtering device 132, under the action of the filtering net 233, the sediment in the water is remained in the deposition bin 234, the filtered circulating water enters the heating device 3 through the filtering bin 232 and the preheating pipe 237 for heating circulation, and when the sediment in the deposition bin 234 reaches a certain amount, the cleaning switch 236 is turned on to discharge the sediment;

hot water flowing out of the heat conduction pipe 32 enters the distribution valve 4 and further flows into the water storage bin 6 through the water storage pipe 45, when the water storage bin 6 is full of water, the pressure of the left side part of the distribution flange 43 is increased, the distribution spring 44 is compressed, the distribution flange 43 moves towards the right side, the heat supply pipe 46 is communicated with the left side part of the distribution flange 43, and the hot water enters a circulation state;

the rotation of the driving machine can drive the water outlet valve 55 to rotate, and further drive the distribution port 56 to rotate, so as to adjust the proportion of hot and cold water in the mixing chamber 58, and further adjust the temperature of water flow in the circulation pipe 59.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A floor heating device based on intelligent home decoration comprises a wall-hanging furnace shell (1), an integrated interface groove (11) arranged on the wall-hanging furnace shell (1), a safety cover plate (12) rotatably connected to the wall-hanging furnace shell (1), a working bin (13) arranged on the wall-hanging furnace shell (1), a circulating pump (14) detachably mounted on the working bin (13), a control bin (2) fixedly connected to the upper part of the circulating pump (14), a heating device (3) fixedly connected to the working bin (13), a distribution valve (4) arranged below the heating device (3), a temperature adjusting bin (5) arranged below the distribution valve (4), and a water storage bin (6) communicated with the temperature adjusting bin (5); the method is characterized in that: the working bin (13) comprises a safety box (131), a filtering device (132) fixedly connected with the safety box (131), a functional valve (133) fixedly connected with the safety box (131), a first return pipe (134) connected with the circulating pump (14), the functional valve (133) comprises a functional bin (21) fixedly connected with the first return pipe (134), a separation bin (22) arranged on the upper part of the functional bin (21), an integration bin (23) arranged on the lower part of the functional bin (21), a spray pipe (24) fixedly connected with the bottom of the integration bin (23), a porous head (25) fixedly connected with the spray pipe (24), a spray hole (26) arranged on the porous head (25), a floating plate (27) slidably connected with the spray pipe (24), a baffle plate (28) fixedly connected with the floating plate (27), The brake system comprises a starting hole (29) arranged in the baffle plate (28), a liquid filling valve (210) fixedly connected to the functional valve (133), a supplementary pipe (211) fixedly connected to the liquid filling valve (210), a brake groove (212) arranged in the liquid filling valve (210), a brake pipe (213) slidably connected to the brake groove (212), a brake flange (214) fixedly connected to the brake pipe (213), a shut-off valve (215) fixedly connected to the brake pipe (213), a supplementary hole (216) arranged in the brake pipe (213), a liquid filling groove (217) arranged in the liquid filling valve (210), an auxiliary valve (218) fixedly connected to the liquid filling valve (210), a shut-off valve (215) fixedly connected to the shut-off valve (215) and slidably connected to the auxiliary valve (218), a reset spring (220) sleeved on the shut-off valve (219), and an overflow valve (221) arranged on the upper part of the functional valve (133), The device comprises a flow baffle plate (222) fixedly connected with the overflow valve (221), a pressure valve (223) slidably connected with the flow baffle plate (222), a pressure spring (224) arranged at the rear side of the pressure valve (223), a spiral pressure pipe (225) fixedly connected with the overflow valve (221), a check pipe (226) connected with the overflow valve (221) and the brake groove (212), and a delivery pipe (227) fixedly connected with the integration bin (23); the supplementary pipe (211) is communicated with a tap water pipe.

2. The floor heating device based on intelligent home decoration according to claim 1, characterized in that: the filtering device (132) comprises a filtering bin (231) fixedly connected to the safety box (131), a filtering bin (232) arranged at the upper part of the filtering bin (231), a filtering net (233) fixedly connected to the filtering bin (231), a depositing bin (234) arranged at the lower part of the filtering bin (231), a cleaning pipe (235) connected with the depositing bin (234), a cleaning switch (236) arranged on the cleaning pipe (235) and a preheating pipe (237) connected with the filtering bin (232).

3. The floor heating device based on intelligent home decoration according to claim 2, characterized in that: the heating device (3) comprises a combustion chamber (31) fixedly connected with the working bin (13), a heat conduction pipe (32) wound and sleeved on the periphery of the combustion chamber (31), a functional cover (33) fixedly connected with the combustion chamber (31), a mixing bin (34) arranged on the functional cover, a gas pipe (35) communicated with the mixing bin (34), an air pipe (36) communicated with the mixing bin (34), an air outlet pipe (37) arranged on the functional cover (33), an exhaust pipe (38) communicated with the combustion chamber (31), and a heat conduction pipe (39) fixedly connected with the exhaust pipe (38); the heat transfer pipe (39) is spirally wound on the supplementary pipe (211); the heat conduction pipe (32) adopts a copper pipe; one end of the heat conduction pipe (32) is connected with the preheating pipe (237).

4. The floor heating device based on intelligent home decoration of claim 3, characterized in that: the distribution valve (4) comprises a distribution valve body (41) connected with the outlet end of the heat conduction pipe (32), a distribution valve cover (42) slidably connected with the distribution valve body (41), a distribution flange (43) fixedly connected with the distribution valve cover (42), a distribution spring (44) arranged on the rear side of the distribution flange (43), a water storage pipe (45) connected with the bottom of the water storage bin (6) and the middle part of the distribution valve (4), a heat supply pipe (46) connected with the rear side of the distribution valve (4) and the temperature regulation bin, and a hot water pipe (47) arranged on the lower part of the water storage bin (6).

5. The floor heating device based on intelligent home decoration of claim 4, characterized in that: the temperature adjusting bin (5) comprises an isolation bin (51) fixedly connected to the temperature adjusting bin (5), a cold water pipe (52) arranged at the lower part of the circulating pump (14), a cold water chamber (53) arranged on the isolation bin (51), a hot water chamber (54) connected with the hot water pipe (47), a water outlet valve (55) arranged on the isolation bin (51), a distribution port (56) arranged on the water outlet valve (55), a driving piece (57) rotatably connected with the water outlet valve (55), a mixing chamber (58) arranged on the temperature adjusting bin and a circulating pipe (59) connected with the mixing chamber (58).

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