CN219494207U - Ecological heating system - Google Patents

Abstract

The utility model relates to the technical field of energy, and particularly discloses an ecological heating system; the device comprises a heat carrying module group, a water tank, a heat exchange coil pipe, two support columns, a support plate, a guide plate, a spray pipe, a plurality of spray heads, a power motor, a power seat and a power threaded rod; the utility model solves the problem that the heat exchange coil of an ecological heating system is inconvenient for staff to clean the heat exchange coil in a second water tank in the prior art.

Description

Ecological heating system

Technical Field

The application relates to the technical field of energy, and particularly discloses an ecological heating system.

Background

The ecological heat supply system can collect low-grade heat sources in the air and convert the low-grade heat sources into high-grade heat sources, and the heat supply mode has wide application prospects in rural areas and remote areas.

In the prior art, as disclosed in chinese patent No. CN216667799U, a distributed ecological heating system includes: a thermal handling module; a water tower having a first water tank and a second water tank; the input end of the first valve is connected with the output end of the heat transfer module, and the two output ends of the first valve are respectively connected with the heat exchange coils in the first water tank and the second water tank; the two input ends of the loop are respectively connected with the heat exchange coils in the first water tank and the second water tank, and the second end of the loop is connected with the heat carrying module; the first end of the water injection pipeline is used for being connected with a water source, and the two second ends of the water injection pipeline are respectively connected with the first water tank and the second water tank; the first water pipe is connected with the first water tank at a first end and is connected with a water terminal at a second end, and a first water pump is arranged on the first water pipe; the floor heating pipeline group is used for being connected with floor heating equipment, and a second water pump is arranged on the floor heating pipeline group; the two ends of the connecting pipeline are respectively connected with the first water pump and the floor heating pipeline group; and the controller is used for carrying out data interaction with the first valve, the first water pump and the second water pump.

The heat exchange coil of the ecological heat supply system is easy to adhere to a large amount of impurities in hot water after being used in the second water tank for a long time, the impurities can be in the hot water, and the hot water can also be attached to the heat exchange coil through the ground heating pipeline, when the impurities are adhered to the heat exchange coil, the heat exchange between the heat exchange coil and water in the second water tank is easy to be blocked, the time for heating the water in the second water tank to a preset temperature is increased, and therefore the heating efficiency of the heat exchange coil on the water in the second water tank is reduced, namely the heating efficiency of the ecological heat supply system is reduced, and the heat exchange coil is arranged inside the second water tank, so that the heat exchange coil is inconvenient for workers to clean the water.

The inventor has provided an ecological heating system in order to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide an ecological heat supply system, which aims to solve the problem that a heat exchange coil of the ecological heat supply system is inconvenient for staff to clean the heat exchange coil inside a second water tank.

In order to achieve the above object, the basic scheme of the present utility model provides an ecological heating system: the floor heating system comprises a heat carrying module group, a first valve, a second valve, a water tank, a heat exchange coil, a floor heating mechanism and a cleaning mechanism, wherein the cleaning mechanism comprises two support columns, a support plate, a guide plate, a power unit and a cleaning unit, the cleaning unit comprises a hose, a spray pipe and a plurality of spray heads, and the power unit comprises a power motor, a power seat and a power threaded rod;

the first valve and the equal one end fixed connection heat transport module group of second valve, the other end fixed connection heat exchange coil, the heat exchange coil is fixed in the water tank, two support column homogeneous ends are fixed on the water tank top surface, the other end is fixed on the backup pad bottom surface, power motor fixed connection backup pad top surface, the power seat is fixed on the support column, the motor shaft of power motor is connected to power threaded rod one end fixed connection, the other end passes the backup pad and rotates and connect the power seat, deflector sliding connection two support columns, and threaded connection power threaded rod, shower one end is fixed on the deflector, a plurality of shower nozzles of other end fixed connection, and the bottom is sealed, hose fixed connection shower top, the wash hole has been seted up on the water tank top surface, a plurality of shower nozzles and shower all are located the wash hole, ground warm up mechanism fixed connection water tank, fixedly provided with blow off pipe on the water tank bottom surface, blow off pipe bottom fixed be provided with the blow off valve.

Compared with the prior art, the principle and effect of the utility model are as follows:

1. the principle is as follows: when the heat exchange coil is to be cleaned, a worker firstly operates the first valve, the second valve and the floor heating mechanism, the first valve, the second valve and the floor heating mechanism are closed, then the blow-down valve is opened to discharge water in the water tank, the power motor is started again, the power motor rotates together with the power threaded rod, the power threaded rod rotates relatively with the guide plate, the guide plate moves downwards with the hose, the spray pipe and the spray heads until the spray heads penetrate downwards through the cleaning holes and enter the water tank, the hose is externally connected with the water supply equipment (such as a water pump), the worker can start the water supply equipment to supply water to the hose, the hose can discharge water into the spray pipe, the spray pipe discharges water through the spray heads, the spray heads can downwards enter the heat exchange coil, water spray cleaning is carried out on the heat exchange coil, the water pressure sprayed by the plurality of spray heads is higher, the impurities attached to the heat exchange coil can be impacted greatly, the impurities can be washed away from the heat exchange coil by water, the water pressure can be in the bearing range of the heat exchange coil, after the plurality of spray heads finish cleaning the heat exchange coil downwards, a worker starts a power motor to reverse, the power motor can reverse with a power threaded rod, the power threaded rod can rotate relatively with a guide plate, the guide plate can move upwards with a hose, a spray pipe and the plurality of spray heads, the plurality of spray heads can move upwards inside the heat exchange coil, water is sprayed and cleaned again until the plurality of spray heads are far away from the heat exchange coil, the worker can stop the water supply equipment to the plurality of spray heads, after the plurality of spray heads continue to move upwards away from a water tank, the worker stops the action of the power motor, the heat exchange coil can be cleaned;

2. the cleaning mechanism provided by the utility model has the advantages that a worker can carry out water spraying cleaning with larger water pressure on the heat exchange coil outside the water tank, so that the problem that the heat exchange coil of the ecological heat supply system is inconvenient for the worker to clean the heat exchange coil inside the second water tank is avoided, the influence caused by attached sundries after the heat exchange coil is used for a long time is reduced, and the heat exchange efficiency of the heat exchange coil after the heat exchange coil is used for a long time is improved;

3. the ecological heat supply system provided by the utility model is provided with the power unit, so that a worker can be prevented from directly moving the spray pipe and the spray heads, the spray heads can be ensured to downwards move into the inner side of the heat exchange coil, and the physical consumption of the worker is reduced

4. The ecological heat supply system provided by the utility model is provided with the first valve and the second valve, so that the heat exchange coil pipe does not need to exchange heat when being cleaned, and the waste of heat of the heat pump module group is avoided.

Further, the ground warm mechanism includes first heating pipe, third valve, ground warm water pump, ground heating pipe, fourth valve, connecting pipe and second heating pipe, first heating pipe one end fixed connection water tank, other end fixed connection third valve, third valve fixed connection connecting pipe, ground warm water pump one end fixed connection connecting pipe, other end fixed connection ground heating pipe, second heating pipe fixed connection water tank side, fourth valve one end fixed connection second heating pipe, other end fixed connection ground heating pipe.

Compared with the prior art, the utility model has the following effects: the first heating pipe, the third valve, the second heating pipe and the fourth valve can isolate the floor heating pipe from the water tank when the heat exchange coil pipe is cleaned, so that the waste of water in the floor heating pipe is avoided, and the floor heating water pump can enable water in the water tank to quickly enter the floor heating pipe.

Further, shielding mechanism is still included, and shielding mechanism includes shielding plate and closing plate, and the shielding plate is fixed on the shower bottom surface, and the closing plate is fixed on the shielding plate top surface, and the top surface in the butt water tank.

Compared with the prior art, the utility model has the following effects: the shielding plate and the sealing plate can prevent water in the water tank from leaking from the cleaning hole, and can also prevent external sundries from entering the water tank from the cleaning hole to pollute the water, so that the safety of the water in the water tank is improved.

Further, still include rabbling mechanism, rabbling mechanism includes agitator motor, (mixing) shaft, stirring seat and a plurality of stirring unit, and the stirring unit includes puddler and stirring board, and agitator motor fixed connection water tank top surface, stirring seat are fixed on the water tank medial surface, and offered the agitated vessel on the top surface, and the motor shaft of agitator motor is connected to (mixing) shaft one end fixed connection, and the other end passes the water tank roof and rotates and connect the agitated vessel, and a plurality of puddler homogeneous ends are fixed on the (mixing) shaft, other end fixed connection stirring board.

Compared with the prior art, the utility model has the following effects:

1. the stirring motor can provide power for the stirring shaft, so that the labor intensity of workers is reduced, the stirring seat can limit and support the stirring shaft, and the phenomenon that the stirring shaft shakes too much in the stirring process is avoided;

2. the water in the water tank can be stirred by the stirring units, so that the water in the water tank can be quickly contacted with the heat exchange coil, the time for the heat exchange coil to heat the water in the water tank to a preset temperature is shortened, and the heat supply efficiency of the ecological heat supply system is improved.

Further, the stirring mechanism further comprises a wear-resistant sleeve, wherein the wear-resistant sleeve is fixed on the stirring shaft and is rotationally connected with the stirring hole.

Compared with the prior art, the utility model has the following effects: the wear-resisting sleeve is fixed on the stirring shaft, and the stirring hole is rotationally connected, so that friction between the stirring shaft and the stirring seat can be reduced, and the service life of the stirring shaft is prolonged.

Further, still include heating mechanism, heating mechanism includes electric heating rod, temperature sensor and control module, and electric heating rod and temperature sensor all fixed connection water tank medial surface, control module fixed connection water tank lateral surface, and electric connection temperature sensor and electric heating rod.

Compared with the prior art, the utility model has the following effects: the electric heating rod can assist in heating water in the water tank when the heating temperature of the heat exchange coil pipe to the water tank is insufficient, so that the heating efficiency of the ecological heating system is improved, the temperature sensor and the control module can detect the water temperature in the water tank, and the electric heating rod is automatically controlled to heat when the water temperature is insufficient, so that the water temperature in the water tank can be kept in a preset range.

Further, the water tank comprises four supporting rods, and the four supporting rods are fixed on the bottom surface of the water tank.

Compared with the prior art, the utility model has the following effects: four bracing pieces are all fixed on the water tank bottom surface, can avoid the direct contact of water tank and ground, have reduced subaerial debris and have destroyed the water tank, have increased the life of water tank.

Further, the water tank further comprises a heat preservation layer, wherein the heat preservation layer is fixed on four side faces, the top face and the bottom face of the water tank, and the bottom face of the water tank is funnel-shaped.

Compared with the prior art, the utility model has the following effects:

1. the heat preservation layers are fixed on the four side surfaces, the top surface and the bottom surface of the water tank, so that the loss of water temperature in the water tank can be reduced, and the heat supply loss of the heat pump module group is reduced;

2. the bottom surface of the water tank is funnel-shaped, sundries in the process of cleaning the heat exchange coil can be gathered right above the sewage draining pipe, the sewage draining pipe can be conveniently and rapidly discharged out of sundries on the inner bottom surface of the water tank, and cleaning efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of an ecological heating system in accordance with the present utility model;

FIG. 2 is a cross-sectional view of FIG. 1;

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

fig. 4 is a partial enlarged view of a portion B in fig. 2.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the hot side transportation module group 1, the second valve 2, the first valve 3, the heat exchange coil 4, the water inlet pipe 5, the stirring motor 6, the stirring shaft 7, the supporting column 8, the supporting plate 9, the guide plate 10, the hose 11, the power motor 12, the power threaded rod 13, the spray pipe 14, the power seat 15, the spray head 16, the heat insulation layer 17, the fourth valve 18, the floor heating pipe 19, the third valve 20, the floor heating water pump 21, the control module 22, the electric heating rod 23, the blow-down pipe 24, the blow-down valve 25, the stirring plate 26, the temperature sensor 27, the water tank 28, the sealing plate 29, the shielding plate 30, the wear-resisting sleeve 31 and the stirring seat 32.

Embodiment one:

the specific implementation process of the utility model comprises the following steps: an ecological heat supply system comprises a heat carrying module group, a first valve 3, a second valve 2, a water tank 28, a heat exchange coil 4, a floor heating mechanism and a cleaning mechanism, wherein the cleaning mechanism comprises two support columns 8, a support plate 9, a guide plate 10, a power unit and a cleaning unit, the cleaning unit comprises a hose 11, a spray pipe 14 and a plurality of spray heads 16, and the power unit comprises a power motor 12, a power seat 15 and a power threaded rod 13;

the first valve 3 and the second valve 2 are fixedly connected with the heat carrying module group at the uniform end, the other end is fixedly connected with the heat exchange coil 4, the heat exchange coil 4 is fixed in the water tank 28, the uniform ends of the two supporting columns 8 are fixed on the top surface of the water tank 28, the other end is fixed on the bottom surface of the supporting plate 9, the power motor 12 is fixedly connected with the top surface of the supporting plate 9, the power seat 15 is fixed on the supporting columns 8, one end of the power threaded rod 13 is fixedly connected with a motor shaft of the power motor 12, the other end penetrates through the supporting plate 9 and is rotationally connected with the power seat 15, the guide plate 10 is slidingly connected with the two supporting columns 8, the threaded connection power threaded rod 13, one end of the spray pipe 14 is fixed on the guide plate 10, the other end is fixedly connected with a plurality of spray heads 16, the bottom ends are closed, the hose 11 is fixedly connected with the top end of the spray pipe 14, cleaning holes are formed in the top surface of the water tank 28, the spray heads 16 and the spray pipe 14 are all positioned in the cleaning holes, the ground heating structure is fixedly connected with the water tank 28, the drain pipe 24 is fixedly arranged on the bottom surface of the water tank 28, and the drain valve 25 is fixedly arranged at the bottom of the drain pipe 24.

When the heat exchange coil 4 is to be cleaned, a worker firstly operates the first valve 3, the second valve 2 and the floor heating mechanism, the first valve 3, the second valve 2 and the floor heating mechanism are closed, then the drain valve 25 is opened to drain water in the water tank 28, the power motor 12 is started, the power motor 12 rotates together with the power threaded rod 13, the power threaded rod 13 rotates relatively with the guide plate 10, the guide plate 10 moves downwards with the hose 11, the spray pipe 14 and the spray heads 16 until the spray heads 16 penetrate downwards through the cleaning holes and enter the water tank 28, the hose 11 is externally connected with a water supply device (such as a water pump), the worker can start the water supply device to supply water to the hose 11, the hose 11 can drain water into the spray pipe 14, the spray pipe 14 can drain water through the spray heads 16, and then the spray heads 16 can downwards enter the heat exchange coil 4, and water spray cleaning is carried out on the heat exchange coil 4, the water pressure sprayed by the spray heads 16 is higher, the impurities attached to the heat exchange coil 4 can be impacted greatly, the impurities can be washed away from the heat exchange coil 4 by water, the water pressure can be within the bearing range of the heat exchange coil 4, after the spray heads 16 finish downward cleaning of the heat exchange coil 4, a worker starts the power motor 12 to rotate reversely, the power motor 12 can rotate along with the power threaded rod 13, the power threaded rod 13 can rotate relatively with the guide plate 10, the guide plate 10 can move upwards along with the hose 11, the spray pipes 14 and the spray heads 16, the spray heads 16 can move upwards inside the heat exchange coil 4, water spray cleaning is carried out on the heat exchange coil 4 again until the spray heads 16 are far away from the heat exchange coil 4, after the spray heads 16 continue to be upwards far away from the water tank 28, the worker stops the action of the power motor 12, the heat exchange coil 4 can be cleaned, when the ground heating mechanism is required to supply heat, the worker starts the heat pump module group 1, a heat pump medium of the heat pump module group 1 enters the heat exchange coil 4 through the first valve 3, the heat pump medium enters the heat pump module group 1 through the second valve 2 after heat exchange is carried out between the heat exchange tube and water in the water tank 28, the ground heating mechanism can be started by the worker after the water in the water tank 28 is heated to a preset temperature by the heat exchange coil 4, the ground heating mechanism supplies hot water in the water tank 28 to a room for heating, the heat pump module group 1 can be an air source heat pump, the part of the heat exchange coil 4 exposed outside the water tank 28 can be fixedly provided with the glass wool heat preservation layer 17, four power rods are fixedly arranged on the top surface of the support plate 9, the four power rods are fixedly connected with the power motor 12, the side surface of the water tank 28 is fixedly provided with the heat preservation layer 17, and the water inlet pipe 28 can be filled with water in the water tank 28.

Embodiment two:

the difference from the first embodiment is that:

as shown in fig. 1 and 2, the geothermal mechanism comprises a first heat supply pipe, a third valve 20, a geothermal water pump 21, a geothermal pipe 19, a fourth valve 18, a connecting pipe and a second heat supply pipe, wherein one end of the first heat supply pipe is fixedly connected with a water tank 28, the other end of the first heat supply pipe is fixedly connected with the third valve 20, the third valve 20 is fixedly connected with the connecting pipe, one end of the geothermal water pump 21 is fixedly connected with the connecting pipe, the other end of the geothermal pipe 19 is fixedly connected with the side surface of the second heat supply pipe, one end of the fourth valve 18 is fixedly connected with the second heat supply pipe, and the other end of the fourth valve is fixedly connected with the geothermal pipe 19.

When the water temperature in the water tank 28 reaches the preset temperature, the third valve 20 and the fourth valve 18 are opened by a worker, the floor heating water pump 21 is started, the floor heating water pump 21 can discharge the hot water in the water tank 28 into the floor heating pipe 19 from the third valve 20, heat is supplied to a resident room, and then the hot water in the floor heating pipe 19 is discharged into the water tank 28 from the fourth valve 18 for continuous heating, and only the third valve 20 and the fourth valve 18 are required to be closed when the floor heating mechanism is closed.

Embodiment III:

the difference from the first embodiment is that:

as shown in fig. 2 and 3, the ecological heating system further comprises a shielding mechanism, wherein the shielding mechanism comprises a shielding plate 30 and a sealing plate 29, the shielding plate 30 is fixed on the bottom surface of the spray pipe 14, and the sealing plate 29 is fixed on the top surface of the shielding plate 30 and abuts against the inner top surface of the water tank 28.

The shielding plate 30 and the sealing plate 29 can prevent water in the water tank 28 from leaking from the cleaning hole, and can also prevent external impurities from entering the water tank 28 from the cleaning hole to pollute the water, so that the safety of the water in the water tank 28 is improved, and the sealing plate 29 can be made of butyl rubber.

Embodiment four:

the difference from the first embodiment is that:

an ecological heating system, as shown in fig. 1, fig. 2 and fig. 4, still include rabbling mechanism, rabbling mechanism includes agitator motor 6, (mixing) shaft 7, agitator seat 32 and a plurality of stirring unit, the stirring unit includes puddler and stirring board 26, agitator motor 6 fixed connection water tank 28 top surface, agitator seat 32 is fixed on water tank 28 medial surface, and the stirred pore has been seted up on the top surface, the motor shaft of agitator motor 6 is connected to (mixing) shaft 7 one end fixed, the other end passes water tank 28 roof and rotates and connect the stirred pore, a plurality of puddler homogeneous ends are fixed on (mixing) shaft 7, other end fixed connection stirring board 26.

When the water in the water tank 28 is to be stirred, a worker starts the stirring motor 6, the stirring motor 6 rotates with the stirring shaft 7, a plurality of stirring rods and a plurality of stirring plates 26, four stirring columns are fixedly arranged on the top surface of the water tank 28, and the four stirring columns are fixedly connected with the stirring motor 6.

Fifth embodiment:

the difference from the fourth embodiment is that:

as shown in fig. 2 and 4, the stirring mechanism further comprises a wear-resistant sleeve 31, wherein the wear-resistant sleeve 31 is fixed on the stirring shaft 7 and is rotatably connected with the stirring hole.

The wear-resistant sleeve 31 is fixed on the stirring shaft 7, and the stirring holes are rotationally connected, so that friction between the stirring shaft 7 and the stirring seat 32 can be reduced, the service life of the stirring shaft 7 is prolonged, and the wear-resistant sleeve 31 can be a stainless steel wear-resistant sleeve 31.

Example six:

the difference from the first embodiment is that:

an ecological heating system is shown in fig. 1 and 2, and further comprises a heating mechanism, wherein the heating mechanism comprises an electric heating rod 23, a temperature sensor 27 and a control module 22, the electric heating rod 23 and the temperature sensor 27 are fixedly connected with the inner side surface of a water tank 28, the control module 22 is fixedly connected with the outer side surface of the water tank 28, and the temperature sensor 27 and the electric heating rod 23 are electrically connected.

When the water temperature in the water tank 28 is lower than the preset range, the temperature sensor 27 can detect and transmit a signal to the control module 22, the control module 22 can control the electric heating rod 23 to heat the water in the water tank 28, and when the temperature sensor 27 detects that the water in the water tank 28 reaches the preset temperature range, the temperature sensor 27 can transmit a signal to the control module 22, the control module 22 can control the electric heating rod 23 to stop heating the water in the water tank 28, and the control module 22 can be a single chip microcomputer.

Embodiment seven:

the difference from the first embodiment is that:

an ecological heating system, as shown in fig. 1 and 2, further includes four support bars, each of which is fixed to the bottom surface of the water tank 28.

Four bracing pieces are all fixed on the water tank 28 bottom surface, can avoid the direct contact of water tank 28 and ground, have reduced subaerial debris and have destroyed water tank 28, have increased water tank 28's life, can scribble waterproof coating on four bracing piece surfaces.

Example eight:

the difference from the first embodiment is that:

an ecological heating system, as shown in fig. 1 and 2, further comprises a heat insulation layer 17, wherein the heat insulation layer 17 is fixed on four sides, a top surface and a bottom surface of the water tank 28, and the bottom surface of the water tank 28 is funnel-shaped.

The heat preservation layer 17 can reduce the loss of water temperature in the water tank 28, and reduce the heat supply loss of the hot side transportation module group 1; the bottom surface of the water tank 28 is funnel-shaped, so that the cleaning efficiency can be improved, and the heat preservation layer 17 can be made of glass wool.

When the ecological heating system works, a worker firstly operates the first valve 3, the second valve 2 and the floor heating mechanism, the first valve 3, the second valve 2 and the floor heating mechanism are closed, then the blow-down valve 25 is opened to drain water in the water tank 28, the power motor 12 is started, the power motor 12 rotates together with the power threaded rod 13, the power threaded rod 13 rotates relative to the guide plate 10, the guide plate 10 moves downwards with the hose 11, the spray pipes 14 and the spray heads 16 until the spray heads 16 penetrate downwards through cleaning holes and enter the water tank 28, the hose 11 is externally connected with a water supply device (such as a water pump), the worker can start the water supply device to supply water to the hose 11, the hose 11 can drain water into the spray pipes 14, the spray pipes 14 drain water through the spray heads 16, then the spray heads 16 can downwards enter the heat exchange coil 4, and water spray cleaning is carried out on the heat exchange coil 4, the water pressure sprayed by the spray heads 16 is higher, the impurities attached to the heat exchange coil 4 can be impacted greatly, the impurities can be washed away from the heat exchange coil 4 by water, the water pressure can be within the bearing range of the heat exchange coil 4, after the spray heads 16 finish downward cleaning of the heat exchange coil 4, a worker starts the power motor 12 to rotate reversely, the power motor 12 can rotate along with the power threaded rod 13, the power threaded rod 13 can rotate relatively with the guide plate 10, the guide plate 10 can move upwards along with the hose 11, the spray pipes 14 and the spray heads 16, the spray heads 16 can move upwards inside the heat exchange coil 4, water spray cleaning is carried out on the heat exchange coil 4 again until the spray heads 16 are far away from the heat exchange coil 4, the staff can stop water supply equipment and supply water to a plurality of shower nozzles 16, keep away from the water tank 28 in a plurality of shower nozzles 16 and keep away from the action of the power motor 12, can accomplish the clearance to heat exchange coil 4, when want to warm up the mechanism to supply heat, the staff starts the group of heat group transport module 1 earlier, let the heat group transport medium of group transport module 1 get into in the heat exchange coil 4 through first valve 3, the heat group transport medium can get into in the group transport module 1 through the second valve 2 after carrying out heat exchange with the water in the water tank 28, after the water in water tank 28 case is heated to predetermined temperature by heat exchange coil 4, the staff can start warm up the mechanism, let warm up the mechanism supply the room with the hot water in the water tank 28 and supply heat.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, one of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (8)

1. An ecological heating system, characterized in that: the floor heating system comprises a heat carrying module group, a first valve, a second valve, a water tank, a heat exchange coil, a floor heating mechanism and a cleaning mechanism, wherein the cleaning mechanism comprises two support columns, a support plate, a guide plate, a power unit and a cleaning unit, the cleaning unit comprises a hose, a spray pipe and a plurality of spray heads, and the power unit comprises a power motor, a power seat and a power threaded rod;

the first valve and the equal one end fixed connection heat transport module group of second valve, the other end fixed connection heat exchange coil, the heat exchange coil is fixed in the water tank, two support column homogeneous ends are fixed on the water tank top surface, the other end is fixed on the backup pad bottom surface, power motor fixed connection backup pad top surface, the power seat is fixed on the support column, the motor shaft of power motor is connected to power threaded rod one end fixed connection, the other end passes the backup pad and rotates and connect the power seat, deflector sliding connection two support columns, and threaded connection power threaded rod, shower one end is fixed on the deflector, a plurality of shower nozzles of other end fixed connection, and the bottom is sealed, hose fixed connection shower top, the wash hole has been seted up on the water tank top surface, a plurality of shower nozzles and shower all are located the wash hole, ground warm up mechanism fixed connection water tank, fixedly provided with blow off pipe on the water tank bottom surface, blow off pipe bottom fixed be provided with the blow off valve.

2. An ecological heating system as claimed in claim 1, characterized in that: the ground heating mechanism comprises a first heating pipe, a third valve, a ground heating water pump, a ground heating pipe, a fourth valve, a connecting pipe and a second heating pipe, wherein one end of the first heating pipe is fixedly connected with a water tank, the other end of the first heating pipe is fixedly connected with the third valve, the third valve is fixedly connected with the connecting pipe, one end of the ground heating water pump is fixedly connected with the connecting pipe, the other end of the ground heating water pump is fixedly connected with the ground heating pipe, the side surface of the water tank is fixedly connected with the second heating pipe, one end of the fourth valve is fixedly connected with the ground heating pipe, and the other end of the fourth valve is fixedly connected with the ground heating pipe.

3. An ecological heating system as claimed in claim 1, characterized in that: still include shielding mechanism, shielding mechanism includes shielding plate and closing plate, and the shielding plate is fixed on the shower bottom surface, and the closing plate is fixed on the shielding plate top surface, and the top surface in the butt water tank.

4. An ecological heating system as claimed in claim 1, characterized in that: still include rabbling mechanism, rabbling mechanism includes agitator motor, (mixing) shaft, stirring seat and a plurality of stirring unit, and the stirring unit includes puddler and stirring board, and agitator motor fixed connection water tank top surface, the stirring seat is fixed on the water tank medial surface, and has seted up the agitated hole on the top surface, and the motor shaft of agitator motor is connected to (mixing) shaft one end fixed connection, and the other end passes the water tank roof and rotates to connect the agitated hole, and a plurality of puddler homogeneous ends are fixed on the (mixing) shaft, other end fixed connection stirring board.

5. An ecological heating system as claimed in claim 4, characterized in that: the stirring mechanism further comprises a wear-resistant sleeve, wherein the wear-resistant sleeve is fixed on the stirring shaft and is rotationally connected with the stirring hole.

6. An ecological heating system as claimed in claim 1, characterized in that: the heating device comprises a water tank, and is characterized by further comprising a heating mechanism, wherein the heating mechanism comprises an electric heating rod, a temperature sensor and a control module, the electric heating rod and the temperature sensor are fixedly connected with the inner side surface of the water tank, the control module is fixedly connected with the outer side surface of the water tank, and the temperature sensor and the electric heating rod are electrically connected.

7. An ecological heating system as claimed in claim 1, characterized in that: the water tank also comprises four supporting rods which are fixed on the bottom surface of the water tank.

8. An ecological heating system as claimed in claim 1, characterized in that: the water tank is characterized by further comprising an insulating layer, wherein the insulating layer is fixed on four sides, the top surface and the bottom surface of the water tank, and the bottom surface of the water tank is funnel-shaped.