CN110645622B - Energy-saving electric floor heating system with drying function - Google Patents

Abstract

The invention relates to an energy-saving electric floor heating system with a drying function, which comprises a temperature controller, a floor, a steel wire mesh, a heating device, a base layer, a drying mechanism and four walls, wherein the heating device comprises a plurality of support plates and a plurality of heating mechanisms, each heating mechanism comprises a heating box, a lifting component, a cable, a power supply, a lifting plate, two conductive blocks and two contact components, each drying mechanism comprises an air inlet component and an air outlet component, the energy-saving electric floor heating system with the drying function divides a plurality of heating areas below the floor, realizes regional heating of main areas of user activities on the floor by controlling each heating mechanism, avoids excessive electric energy consumption on the whole floor, realizes energy conservation and environmental protection, and can discharge moisture between the steel wire mesh and the base layer and introduce dry air through the drying mechanism, avoids the moisture from influencing the operation of the heating mechanisms, the stable operation of the system is ensured through drying, so that the practicability of the system is improved.

Description

Energy-saving electric floor heating system with drying function

Technical Field

The invention relates to the field of heating systems, in particular to an energy-saving electric floor heating system with a drying function.

Background

The electric floor heating is a heating mode that a heating cable with the allowable working temperature upper limit of 65 ℃ on the outer surface is buried in a floor, the heating cable is used as a heat source to heat the floor or a ceramic tile, and a temperature controller is used for controlling the room temperature or the ground temperature to realize ground radiation heating, and has the advantages of comfort, energy conservation, environmental protection, flexibility, no need of maintenance and the like.

However, in the existing electric floor heating system, the heating cable is usually laid entirely under the floor, when heating is performed, the heating cable with a long length is electrified, so that the cable can heat the whole indoor floor, when the heating mode is adopted, although the heating of the whole floor can be realized, people usually move within a fixed moving range, at some corner positions or other positions (such as under a sofa, a tea table or a bed), people are difficult to move at the position at ordinary times, when the heating cable performs heating on the position, extra electric energy consumption is obviously increased, furthermore, when the ground is wet due to various reasons (such as water is sprinkled to clean the ground and water is accidentally splashed on the ground), water flow can penetrate under the floor, the heating cable in the electric floor heating system is corroded, various faults of the electric floor heating system occur, and the system is abnormal in use, and then the practicality of the current electric floor heating system is reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, an energy-saving electric floor heating system with a drying function is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: an energy-saving electric floor heating system with a drying function comprises a temperature controller, a floor, a steel wire mesh, a heating device, a base layer, a drying mechanism and four walls, wherein the four walls are sequentially and fixedly connected end to end, the floor, the steel wire mesh, the heating device and the base layer are sequentially arranged between the four walls from top to bottom, the temperature controller is fixed on one of the walls, a PLC is arranged in the temperature controller, the heating device comprises a plurality of support plates and a plurality of heating mechanisms, each heating mechanism is sequentially positioned between two adjacent support plates, and the support plates are fixed between the steel wire mesh and the base layer;

the heating mechanism comprises a heating box, a lifting component, a cable, a power supply, a lifting plate, two conductive blocks and two contact components, the heating box is fixed below the steel wire mesh, two ends of the cable are fixedly connected with the two conductive blocks respectively, the conductive blocks are located below the heating box, the center of the cable is located in the heating box, the lifting component is arranged below the heating box and is in transmission connection with the lifting plate, the two contact components are located at two ends of the lifting plate respectively, the contact components correspond to the conductive blocks one by one, each contact component comprises a conductive plate and a telescopic unit, the conductive plate is connected with the lifting plate through the telescopic unit, the power supply is fixed on the lifting plate, and two ends of the power supply are connected with the two conductive plates respectively;

the drying mechanism comprises an air inlet assembly and an air outlet assembly, the air inlet assembly and the air outlet assembly are respectively connected with two opposite walls, the air inlet assembly comprises a drying unit, an air inlet pipe and a plurality of dehumidifying pipes, the drying unit is arranged on the wall and connected with one end of the air inlet pipe, the other end of the air inlet pipe penetrates through the wall and is arranged between a steel wire mesh and a basic layer, the dehumidifying pipes are uniformly distributed at one end of the air inlet pipe, which is far away from the wall, the air outlet assembly comprises an air outlet pipe, a sealing unit and a plurality of dehumidifying pipes, the sealing unit is arranged on the wall and connected with one end of the air outlet pipe, the other end of the air outlet pipe penetrates through the wall and is arranged between the steel wire mesh and the basic layer, the dehumidifying pipes are uniformly distributed at one end of the air outlet pipe, which is far away from the wall, and the number of the dehumidifying pipes are equal to the number of the heating mechanism, dehumidification pipe and dehumidification pipe all with heating mechanism one-to-one, be equipped with first valve and first fan in the dehumidification pipe, be equipped with second valve and second fan in the dehumidification pipe, first valve, second valve, first fan and second fan all are connected with the PLC electricity.

Preferably, in order to achieve good contact between the conductive block and the conductive plate, the telescopic unit includes a first spring and an orientation rod, the orientation rod is fixed below the conductive plate, the lifting plate is sleeved on the orientation rod, the conductive plate is connected with the lifting plate through the first spring, and the first spring is in a compressed state.

Preferably, in order to drive the lifting plate to move up and down, the lifting assembly comprises a motor and two lifting units, the motor is electrically connected with the PLC, the motor is located between the two lifting units, each lifting unit comprises a bearing, a lead screw, a moving block and a support rod, the motor and the bearings are fixed below the heating box, the motor is in transmission connection with one end of the lead screw, the other end of the lead screw is arranged in the bearing, the moving block is sleeved on the lead screw, a thread matched with the lead screw is arranged at the connecting position of the moving block and the lead screw, and the moving block is hinged to the lifting plate through the support rod.

Preferably, the heating mechanism further includes a first hygrometer electrically connected to the PLC in order to detect the humidity of the air under the heating box.

As preferred, in order to realize the drying process to the air, drying unit includes drying box, support element, apron and income trachea, the intake pipe communicates with one side on drying box's upper portion, it fixes the below at drying box to go into the trachea, the apron lid is established on drying box, support element is connected with the apron transmission, infrared fluorescent tube, third fan and two supporting networks in the drying box, the below at the intake pipe is fixed to the supporting network, the third fan is located the below of supporting network, infrared fluorescent tube is located the top of supporting network, infrared fluorescent tube and third fan all are connected with the PLC electricity.

Preferably, in order to accelerate the drying of the silica gel drying agent between the two drying nets, a reflecting plate is arranged above the infrared lamp tube.

Preferably, in order to prevent dust from entering the drying box, the bottom end of the air inlet pipe is provided with a filter screen.

Preferably, in order to realize the lifting movement of the cover plate, the supporting unit comprises an air cylinder, the air cylinder is electrically connected with the PLC, a cylinder body of the air cylinder is fixed on the drying box, and the top end of an air rod of the air cylinder is fixed below the cover plate.

Preferably, in order to facilitate the detection of whether the silica gel desiccant between the two supporting nets is saturated, a second hygrometer is arranged in the air inlet pipe and is electrically connected with the PLC.

Preferably, in order to realize the sealing of the outlet pipe, the sealing unit comprises a sealing plate, a support and two second springs, the sealing plate covers one end, close to the wall, of the outlet pipe, the support is U-shaped, two ends of the support are fixed to the wall, the sealing plate is sleeved at two ends of the support, two ends of the sealing plate are connected with the wall through the two second springs respectively, and the second springs are in a stretching state.

The energy-saving electric floor heating system with the drying function has the advantages that the lower part of the floor is divided into a plurality of heating areas, the heating mechanisms are controlled to realize regional heating of main areas where users move on the floor, excessive electric energy consumption in heating of the whole floor is avoided, energy conservation and environmental protection are realized, in addition, moisture between the steel wire mesh and the base layer can be discharged and dry air is introduced through the drying mechanism, the influence of the moisture on the operation of the heating mechanisms is avoided, the stable operation of the system is guaranteed through drying, and therefore the practicability of the system is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of an energy-saving electric floor heating system with a drying function according to the present invention;

fig. 2 is a schematic structural diagram of a heating mechanism of the energy-saving electric floor heating system with the drying function of the invention;

FIG. 3 is an enlarged view of portion A of FIG. 1;

fig. 4 is a schematic structural diagram of a drying unit of the energy-saving electric floor heating system with the drying function of the invention;

in the figure: 1. the temperature controller comprises a temperature controller, 2, a floor, 3, a steel wire mesh, 4, a base layer, 5, a wall, 6, a support plate, 7, a heating box, 8, a cable, 9, a power supply, 10, a lifting plate, 11, a conductive block, 12, a conductive plate, 13, an air inlet pipe, 14, a dehumidification pipe, 15, an air outlet pipe, 16, a dehumidification pipe, 17, a first fan, 18, a second fan, 19, a first spring, 20, a directional rod, 21, a motor, 22, a bearing, 23, a lead screw, 24, a moving block, 25, a support rod, 26, a first hygrometer, 27, a drying box, 28, a cover plate, 29, an air inlet pipe, 30, an infrared lamp tube, 31, a second spring, 32, a third fan, 33, a support net, 34, a light reflecting plate, 35, a filter screen, 36, an air cylinder, 37, a second hygrometer, 38, a sealing plate and 39, and a support.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1, an energy-saving electric floor heating system with a drying function comprises a temperature controller 1, a floor 2, a steel wire mesh 3, a heating device, a base layer 4, a drying mechanism and four walls 5, wherein the four walls 5 are sequentially and fixedly connected end to end, the floor 2, the steel wire mesh 3, the heating device and the base layer 4 are sequentially arranged between the four walls 5 from top to bottom, the temperature controller 1 is fixed on one of the walls 5, a PLC is arranged in the temperature controller 1, the heating device comprises a plurality of support plates 6 and a plurality of heating mechanisms, each heating mechanism is sequentially arranged between two adjacent support plates 6, and the support plates 6 are fixed between the steel wire mesh 3 and the base layer 4;

a PLC, i.e., a programmable logic controller, which employs a programmable memory for storing therein a program, executing instructions for user-oriented operations such as logic operation, sequence control, timing, counting, and arithmetic operation, and controlling various types of machines or production processes through digital or analog input/output, is essentially a computer dedicated for industrial control, has a hardware structure substantially the same as that of a microcomputer, and is generally used for data processing and instruction reception and output for realizing central control.

In the electric floor heating system, a surrounding space is formed by four walls 5, a floor 2 is fixed between the four walls 5, the lower part of the floor 2 is prevented from being damaged by excessive extrusion by a steel wire mesh 3, the heating device is supported by a base layer 4 at the lowest part, in the heating device, the space surrounded by the four walls 5 is divided into a plurality of independent areas while the steel wire mesh 3 is supported by a support plate 6, the floor 2 is heated by a heating mechanism in the area so as to be convenient for heating indoor people, when a user uses the electric floor heating system, the operation of some heating mechanisms can be controlled according to the moving range, the frequent moving areas of people on the floor 2 are heated, the whole floor 2 is prevented from being heated, the consumed electric energy is reduced, the energy conservation and the environmental protection of the electric floor heating system are realized, moisture between the steel wire mesh 3 and the base layer 4 can be removed by utilizing a drying mechanism, the moisture between the steel wire mesh 3 and the base layer 4 is prevented from corroding the cable 8 in the heating mechanism, and the normal use of the electric floor heating system is further guaranteed.

As shown in fig. 2, the heating mechanism includes a heating box 7, a lifting assembly, a cable 8, a power supply 9, a lifting plate 10, two conductive blocks 11 and two contact assemblies, the heating box 7 is fixed below the steel wire mesh 3, two ends of the cable 8 are respectively fixedly connected with the two conductive blocks 11, the conductive block 11 is positioned below the heating box 7, the center of the cable 8 is positioned in the heating box 7, the lifting component is arranged below the heating box 7, the lifting component is in transmission connection with the lifting plate 10, the two contact components are respectively positioned at the two ends of the lifting plate 10, the contact assemblies correspond to the conductive blocks 11 one by one, the contact assemblies include a conductive plate 12 and a telescopic unit, the conducting plates 12 are connected with the lifting plate 10 through telescopic units, the power supply 9 is fixed on the lifting plate 10, and two ends of the power supply 9 are respectively connected with the two conducting plates 12;

in the heating mechanism, the position of heating box 7 is fixed, center part with cable 8 sets up in heating box 7, the below that heating box 7 was stretched out at cable 8's both ends is connected with conducting block 11, cable 8 is in the outage state this moment, when needing cable 8 circular telegram to heat floor 2, PLC control lifting unit starts, drive lifter plate 10 rebound, make in the contact assembly at lifter plate 10 both ends, it supports and leans on conducting block 11 to drive the conducting block 12 through flexible unit, through conducting block 11 and conducting block 12 in close contact with, make power 9 supply power to the cable 8 who is in the circular telegram return circuit, heat supply is carried out to floor 2 of top after cable 8 generates heat, make floor 2's temperature rise, cover people's indoor environment.

As shown in fig. 1-2, the drying mechanism includes an air inlet assembly and an air outlet assembly, the air inlet assembly and the air outlet assembly are respectively connected with two opposite walls 5, the air inlet assembly includes a drying unit, an air inlet pipe 13 and a plurality of dehumidifying pipes 14, the drying unit is disposed on the wall 5, the drying unit is connected with one end of the air inlet pipe 13, the other end of the air inlet pipe 13 penetrates through the wall 5 and is disposed between the steel wire mesh 3 and the base layer 4, the dehumidifying pipes 14 are uniformly distributed at one end of the air inlet pipe 13 far away from the wall 5, the air outlet assembly includes an air outlet pipe 15, a sealing unit and a plurality of dehumidifying pipes 16, the sealing unit is disposed on the wall 5, the sealing unit is connected with one end of the air outlet pipe 15, the other end of the air outlet pipe 15 penetrates through the wall 5 and is disposed between the steel wire mesh 3 and the base layer 4, the dehumidifying pipes 16 are uniformly distributed at one end of the air outlet pipe 15 far away from the wall 5, the quantity of dehumidification pipe 14 and the quantity of dehumidification pipe 16 all equal with heating mechanism's quantity, dehumidification pipe 14 and dehumidification pipe 16 all with heating mechanism one-to-one, be equipped with first valve and first fan 17 in the dehumidification pipe 14, be equipped with second valve and second fan 18 in the dehumidification pipe 16, first valve, second valve, first fan 17 and second fan 18 all are connected with the PLC electricity.

When dehumidifying between wire net 3 and the basic unit 4 that heating mechanism located, utilize the subassembly of giving vent to anger to take out the moisture between wire net 3 and the basic unit 4 to introduce dry air between wire net 3 and the basic unit 4 through the subassembly that admits air. When dehumidifying the region that heating mechanism located, the first valve in PLC control dehumidification pipe 14 is opened, first fan 17 starts, introduce the outside air through dry unit in intake pipe 13 and carry out the drying, dry air enters into the region that heating mechanism located through dehumidification pipe 14, the second valve in PLC control dehumidification pipe 16 is opened simultaneously, second fan 18 starts, pass through outlet duct 15 discharge with the regional moisture of heating mechanism place, moisture is after the discharge, outlet duct 15 is blocked up to sealed unit, avoid the dust to get into in outlet duct 15. So, through taking away moist air to introduce outside air, guarantee that the regional moisture free corrosion heating mechanism's that heating mechanism is located part between wire net 3 and the basic unit 4, be convenient for this electric underfloor heating system safe and reliable's operation.

Preferably, in order to achieve good contact between the conductive block 11 and the conductive plate 12, the telescopic unit includes a first spring 19 and an orientation rod 20, the orientation rod 20 is fixed below the conductive plate 12, the lifting plate 10 is sleeved on the orientation rod 20, the conductive plate 12 is connected with the lifting plate 10 through the first spring 19, and the first spring 19 is in a compressed state. Lifter plate 10 lasts the rebound, drives current conducting plate 12 and conducting block 11 and extrudes, and compression spring utilizes directional pole 20 to make current conducting plate 12 and power supply board remain parallel throughout, through compression state's spring extrusion current conducting plate 12 for current conducting plate 12 and conducting block 11 carry out closely good contact, and the power 9 of being convenient for is circular telegram to the cable 8 in the heating box 7.

As shown in fig. 2, the lifting assembly includes a motor 21 and two lifting units, the motor 21 is electrically connected to the PLC, the motor 21 is located between the two lifting units, the lifting unit includes a bearing 22, a lead screw 23, a moving block 24 and a supporting rod 25, the motor 21 and the bearing 22 are both fixed below the heating box 7, the motor 21 is in transmission connection with one end of the lead screw 23, the other end of the lead screw 23 is arranged in the bearing 22, the moving block 24 is sleeved on the lead screw 23, a connecting portion of the moving block 24 and the lead screw 23 is provided with a thread matching with the lead screw 23, and the moving block 24 is hinged to the lifting plate 10 through the supporting rod 25.

The PLC control motor 21 is started to drive the lead screws 23 in the lifting units on the two sides to stably rotate under the supporting effect of the bearings 22, the lead screws 23 act on the moving blocks 24 through threads, the moving blocks 24 move up and down along the axis of the lead screws 23, and then the supporting rods 25 act on the lifting plate 10, so that the lifting plate 10 moves up and down.

Preferably, the heating mechanism further includes a first hygrometer 26 in order to detect the humidity of the air under the heater box 7, and the first hygrometer 26 is electrically connected to the PLC. Utilize first hygrometer 26 to detect the air humidity of heating box 7 below to give PLC with humidity data transfer, when PLC detected humidity data when too high, the first valve in the dehumidification pipe 14 in this region of control was opened, and the second valve in the dehumidification pipe 16 is opened, and first fan 17 starts simultaneously, introduces the dry air in the intake pipe 13, and second fan 18 starts, passes through outlet duct 15 with humid air and discharges.

As shown in fig. 3, the drying unit includes a drying box 27, a supporting unit, a cover plate 28 and an air inlet pipe 29, the air inlet pipe 13 is communicated with one side of the upper portion of the drying box 27, the air inlet pipe 29 is fixed below the drying box 27, the cover plate 28 covers the drying box 27, the supporting unit is in transmission connection with the cover plate 28, an infrared lamp tube 30, a third fan 32 and two supporting nets 33 are arranged in the drying box 27, the supporting nets 33 are fixed below the air inlet pipe 13, the third fan 32 is arranged below the supporting nets 33, the infrared lamp tube 30 is arranged above the supporting nets 33, and the infrared lamp tube 30 and the third fan 32 are electrically connected with the PLC.

In the drying unit, the third fan 32 starts, generate the air current, outside air enters into the drying box 27 through the income trachea 29 of below, place the silica gel drier between two braced nets 33 of drying box 27, after being used for the air of dry entering drying box 27, discharge dry air into between wire net 3 and the basic layer 4 through intake pipe 13, after the silica gel drier absorbs moisture saturation, the braced unit drives apron 28 and rises, the infrared fluorescent tube 30 of PLC control starts, heat the silica gel drier through the radiation infrared ray, be convenient for the moisture in the silica gel drier volatilizees, make the silica gel drier resume drying capacity, then the braced unit drives apron 28 and moves down, utilize apron 28 to block up drying box 27, after the third fan 32 starts, the accessible resumes the silica gel drier of drying capacity and continues to dry the air that gets into.

Preferably, in order to accelerate the drying of the silica gel desiccant between the two drying nets, a reflector 34 is disposed above the infrared lamp tube 30. The infrared radiation to the silica gel desiccant between the drying nets is enhanced by the reflector 34, so that the silica gel desiccant can be rapidly heated, and the moisture absorbed by the silica gel desiccant can be discharged.

Preferably, in order to prevent ash from entering the drying box 27, the bottom end of the air inlet pipe 29 is provided with a filter screen 35. The external dust is prevented from entering the drying box 27 through the air inlet pipe 29 by the filter 35.

Preferably, in order to realize the lifting movement of the cover plate 28, the supporting unit includes an air cylinder 36, the air cylinder 36 is electrically connected to the PLC, a cylinder body of the air cylinder 36 is fixed on the drying box 27, and a top end of an air rod of the air cylinder 36 is fixed below the cover plate 28. The PLC controls the cylinder 36 to be started, so that the cylinder body of the cylinder 36 can be changed, the air rod of the cylinder 36 is moved, and the cover plate 28 is driven to move up and down.

Preferably, in order to detect whether the silica gel desiccant between the two supporting nets 33 is saturated, a second hygrometer 37 is arranged in the air inlet pipe 13, and the second hygrometer 37 is electrically connected with the PLC. Utilize second hygrometer 37 to detect the air humidity that flows in intake pipe 13 to give PLC with humidity data transfer, when PLC detected humidity data too big, show that the silica gel drier absorbs the saturation, PLC control support unit drove apron 28 and shifts up this moment, utilizes infrared fluorescent tube 30 radiation infrared ray, dries the silica gel drier.

As shown in fig. 4, the sealing unit includes a sealing plate 38, a bracket 39 and two second springs 31, the sealing plate 38 covers one end of the outlet pipe 15 close to the wall 5, the bracket 39 is U-shaped, two ends of the bracket 39 are fixed on the wall 5, the sealing plate 38 is sleeved on two ends of the bracket 39, two ends of the sealing plate 38 are respectively connected with the wall 5 through the two second springs 31, and the second springs 31 are in a stretched state.

When the air outlet pipe 15 is not exhausted, the spring in a stretching state acts on the sealing plate 38, so that the sealing plate 38 blocks the air outlet pipe 15 to prevent dust from entering the air outlet pipe 15, and when the air outlet pipe 15 is exhausted by moisture, the moisture acts on the sealing plate 38 to push the sealing plate 38 to be far away from the wall 5, so that the moisture is conveniently exhausted from the air outlet pipe 15.

This electric floor heating system moves in the time, can be according to user self home range, adjust the running state of each heating mechanism, through lifting unit control lifter plate 10 rebound, make power 9 supply power to cable 8 through contact assembly, realize the regional heating to the main home range of user on floor 2, avoid consuming too much electric energy to whole floor 2 heating, realize energy-concerving and environment-protective, moreover, conveniently discharge the moisture between wire net 3 and the basal layer 4 through the subassembly of giving vent to anger, utilize the subassembly of admitting air to introduce dry air, avoid the moisture to corrode the part in the heating mechanism, guarantee the operation of heating mechanism safe and reliable, the practicality of this electric floor heating has been improved.

Compared with the prior art, this energy-saving electric underfloor heating system with drying function is through dividing a plurality of heating regions with 2 below on the floor, through controlling each heating mechanism, realize carrying out regional heating to the main area of user's activity on 2, avoid heating whole floor 2 and consume too much electric energy, realize energy-concerving and environment-protective, moreover, can discharge the moisture between wire net 3 and the basic layer 4 and introduce dry air through drying mechanism, avoid the moisture to influence the operation of heating mechanism, the steady operation of this system has been ensured through the drying, thereby the practicality of this system has been improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. An energy-saving electric floor heating system with a drying function comprises a heating device and a basic layer (4), and is characterized by further comprising a temperature controller (1), a floor (2), a steel wire mesh (3), a drying mechanism and four walls (5), wherein the four walls (5) are sequentially and fixedly connected end to end, the floor (2), the steel wire mesh (3), the heating device and the basic layer (4) are sequentially arranged between the four walls (5) from top to bottom, the temperature controller (1) is fixed on one of the walls (5), a PLC is arranged in the temperature controller (1), the heating device comprises a plurality of support plates (6) and a plurality of heating mechanisms, each heating mechanism is sequentially positioned between two adjacent support plates (6), and the support plates (6) are fixed between the steel wire mesh (3) and the basic layer (4);

the heating mechanism comprises a heating box (7), a lifting component, a cable (8), a power supply (9), a lifting plate (10), two conductive blocks (11) and two contact components, wherein the heating box (7) is fixed below a steel wire mesh (3), two ends of the cable (8) are fixedly connected with the two conductive blocks (11) respectively, the conductive blocks (11) are located below the heating box (7), the center of the cable (8) is located in the heating box (7), the lifting component is arranged below the heating box (7), the lifting component is in transmission connection with the lifting plate (10), the two contact components are located at two ends of the lifting plate (10) respectively, the contact components correspond to the conductive blocks (11) one by one, each contact component comprises a conductive plate (12) and a telescopic unit, the conductive plate (12) is connected with the lifting plate (10) through the telescopic unit, the power supply (9) is fixed on the lifting plate (10), and two ends of the power supply (9) are respectively connected with the two conductive plates (12);

the drying mechanism comprises an air inlet assembly and an air outlet assembly, the air inlet assembly and the air outlet assembly are respectively connected with two opposite walls (5), the air inlet assembly comprises a drying unit, an air inlet pipe (13) and a plurality of dehumidifying pipes (14), the drying unit is arranged on the wall (5), the drying unit is connected with one end of the air inlet pipe (13), the other end of the air inlet pipe (13) penetrates through the wall (5) to be arranged between a steel wire mesh (3) and a basic layer (4), the dehumidifying pipes (14) are uniformly distributed at one end, far away from the wall (5), of the air inlet pipe (13), the air outlet assembly comprises an air outlet pipe (15), a sealing unit and a plurality of dehumidifying pipes (16), the sealing unit is arranged on the wall (5), the sealing unit is connected with one end of the air outlet pipe (15), the other end of the air outlet pipe (15) penetrates through the wall (5) to be arranged between the steel wire mesh (3) and the basic layer (4), the utility model discloses a dehumidification pipe, including dehumidification pipe (16), dehumidification pipe (16) and dehumidification pipe (16), the one end of keeping away from wall (5) of outlet duct (15) evenly distributed, the quantity of dehumidification pipe (14) and the quantity of dehumidification pipe (16) all equal with heating mechanism's quantity, dehumidification pipe (14) and dehumidification pipe (16) all with heating mechanism one-to-one, be equipped with first valve and first fan (17) in dehumidification pipe (14), be equipped with second valve and second fan (18) in dehumidification pipe (16), first valve, second valve, first fan (17) and second fan (18) all are connected with the PLC electricity.

2. The energy-saving electric floor heating system with drying function of claim 1, characterized in that the telescopic unit comprises a first spring (19) and an orientation rod (20), the orientation rod (20) is fixed below the conductive plate (12), the lifting plate (10) is sleeved on the orientation rod (20), the conductive plate (12) is connected with the lifting plate (10) through the first spring (19), and the first spring (19) is in a compressed state.

3. The energy-saving electric floor heating system with drying function as claimed in claim 1, the lifting component comprises a motor (21) and two lifting units, the motor (21) is electrically connected with the PLC, the motor (21) is positioned between the two lifting units, the lifting units comprise bearings (22), lead screws (23), moving blocks (24) and supporting rods (25), the motor (21) and the bearing (22) are both fixed below the heating box (7), the motor (21) is in transmission connection with one end of a screw rod (23), the other end of the screw rod (23) is arranged in a bearing (22), the moving block (24) is sleeved on the screw rod (23), the connecting part of the moving block (24) and the screw rod (23) is provided with a thread matched with the screw rod (23), the moving block (24) is hinged with the lifting plate (10) through a support rod (25).

4. The energy-saving electric floor heating system with drying function according to claim 1, characterized in that the heating mechanism further comprises a first hygrometer (26), and the first hygrometer (26) is electrically connected with the PLC.

5. The energy-saving electric floor heating system with drying function as claimed in claim 1, the drying unit comprises a drying box (27), a supporting unit, a cover plate (28) and an air inlet pipe (29), the air inlet pipe (13) is communicated with one side of the upper part of the drying box (27), the air inlet pipe (29) is fixed below the drying box (27), the cover plate (28) is covered on the drying box (27), the supporting unit is in transmission connection with the cover plate (28), an infrared lamp tube (30), a third fan (32) and two supporting nets (33) in the drying box (27), the supporting net (33) is fixed below the air inlet pipe (13), the third fan (32) is positioned below the supporting net (33), the infrared lamp tube (30) is positioned above the supporting net (33), and the infrared lamp tube (30) and the third fan (32) are electrically connected with the PLC.

6. The energy-saving electric floor heating system with drying function as claimed in claim 5, wherein a reflector (34) is disposed above the infrared lamp tube (30).

7. The energy-saving electric floor heating system with drying function as claimed in claim 5, wherein a filter screen (35) is provided at the bottom end of the air inlet pipe (29).

8. The energy-saving electric floor heating system with drying function as claimed in claim 5, wherein the supporting unit comprises an air cylinder (36), the air cylinder (36) is electrically connected with the PLC, a cylinder body of the air cylinder (36) is fixed on the drying box (27), and a top end of an air rod of the air cylinder (36) is fixed below the cover plate (28).

9. The energy-saving electric floor heating system with drying function as claimed in claim 1, wherein a second hygrometer (37) is arranged in the air inlet pipe (13), and the second hygrometer (37) is electrically connected with the PLC.

10. The energy-saving electric floor heating system with the drying function of claim 1, wherein the sealing unit comprises a sealing plate (38), a bracket (39) and two second springs (31), the sealing plate (38) covers one end of the air outlet pipe (15) close to the wall (5), the bracket (39) is U-shaped, two ends of the bracket (39) are fixed on the wall (5), the sealing plate (38) is sleeved at two ends of the bracket (39), two ends of the sealing plate (38) are respectively connected with the wall (5) through the two second springs (31), and the second springs (31) are in a stretching state.

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