CN210341546U - Artificial turf system that can self-heating snow removing - Google Patents

Abstract

The utility model discloses an artificial turf system capable of automatically heating and removing snow, belonging to the technical field of artificial turf, comprising a base layer, a concrete layer, a shock-absorbing layer and an artificial turf layer which are sequentially laid from bottom to top, wherein a heating device is arranged between the shock-absorbing layer and the artificial turf layer; the heating device comprises a heating layer arranged between the damping layer and the artificial lawn, a cavity is formed in the heating layer, a water guide pipe is laid in the cavity, and one end of the water guide pipe extends out of the heating layer and is fixedly connected with a heating mechanism for introducing hot water into the water guide pipe; heating mechanism includes the heating furnace, and the bottom of heating furnace is provided with the ware of making firer, and the blast pipe that upwards extends the heating furnace is seted up at the middle part of heating furnace, forms the cavity between the upper portion of blast pipe and heating furnace, and the one end that the heating furnace is located the cavity bottom and is close to artificial turf layer has set firmly an outlet pipe, has set firmly solenoid valve and outlet pipe and aqueduct intercommunication on the outlet pipe, the utility model discloses have the effect of extension artificial turf's life.

Description

Artificial turf system that can self-heating snow removing

Technical Field

The utility model belongs to the technical field of artificial turf technique and specifically relates to an artificial turf system that can self-heating snow removing is related to.

Background

The artificial turf is divided into injection-molded artificial turf and woven artificial turf according to the production process. The injection molding artificial lawn adopts an injection molding process, plastic particles are extruded and molded in a mold at one time, and the lawn is bent by a bending technology, so that grass blades are regularly arranged at equal intervals and in equal quantity, and the grass blade heights are completely uniform. It is suitable for kindergarten, playground, balcony, greening, alluvial gold, etc. The woven lawn is made up by using synthetic fibre with imitation grass leaf form, and planting it in woven base cloth, and coating layer with fixing action on its back surface to make artificial lawn on the sports field, leisure field, golf field, garden floor and greening ground.

However, in cold winter, particularly in the north, the accumulated snow freezes the artificial turf, which results in the artificial turf being brittle and easily broken, and if the artificial turf is left snowed for a long time without processing the accumulated snow on the artificial turf, the grass filaments on the artificial turf are easily broken, which further affects the service life of the artificial turf.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can self-heating artificial turf system of snow removing is provided with heating device in artificial turf's bottom, and when heating device can pile up snow on the artificial turf layer, heats artificial turf, and the heating can make the snow on the artificial turf melt fast to extension artificial turf's life.

The above technical purpose of the present invention can be achieved by the following technical solutions:

an artificial turf system capable of automatically heating to remove snow comprises a base layer, a concrete layer, a damping layer and an artificial turf layer which are sequentially paved from bottom to top, wherein a heating device is arranged between the damping layer and the artificial turf layer; the heating device comprises a heating layer arranged between the damping layer and the artificial lawn, a cavity is formed in the heating layer, a water guide pipe is laid in the cavity, and one end of the water guide pipe extends out of the heating layer and is fixedly connected with a heating mechanism for introducing hot water into the water guide pipe; heating mechanism includes the heating furnace, the bottom of heating furnace is provided with the ware of making firer, the blast pipe that upwards extends the heating furnace is seted up at the middle part of heating furnace, form the cavity between the upper portion of blast pipe and heating furnace, the heating furnace is located the one end that the cavity bottom is close to artificial lawn layer and has set firmly a outlet pipe, solenoid valve and outlet pipe and aqueduct intercommunication have set firmly on the outlet pipe, be connected with control circuit on the heating furnace, control circuit can detect whether there is snow to pile up on the artificial lawn layer, when ground has snow to pile up, the work of ware is made in the control.

Through adopting above-mentioned scheme, whether control circuit detects and has the snow to pile up on the artificial turf, when detecting that there is the snow to pile up on the artificial turf, the work of control sparker heats the water in the cavity, and the water after the heating enters into the aqueduct through the outlet pipe, and hot water in the aqueduct can be with heat transfer artificial turf layer to make the last accumulational snow of artificial turf melt fast, thereby prolong artificial turf's life.

The utility model discloses further set up to: the control circuit comprises a detection unit, the detection unit detects whether the artificial lawn layer has accumulated snow or not, and the detection unit is a rain and snow sensor; the comparison unit is connected with the detection unit, receives the snow quantity value output by the detection unit, compares the received snow quantity value with a preset value, and outputs a high-level signal when the snow quantity value is larger than the preset value; and the control unit is connected with the signal comparison unit and controls the work of the lighter when receiving the high level signal output by the signal comparison unit.

By adopting the scheme, the rain and snow sensor can detect the accumulated snow on the artificial lawn layer in real time, and transmits the detected snow quantity value to the comparison unit, the comparison unit compares the received snow quantity value with the preset value, when the snow quantity value is greater than the preset value, the control unit outputs a high level signal to the control unit, and when the control unit receives the high level signal output by the signal comparison unit, the control unit controls the work of the firearm.

The utility model discloses further set up to: a temperature control circuit for controlling the opening of the electromagnetic valve is connected in the heating furnace; the temperature control circuit comprises a detection module, the detection module comprises a temperature sensor arranged in the cavity, and the temperature sensor detects the water temperature in the heating furnace and outputs the detected water temperature value; the comparison module comprises a first comparison unit and a second comparison unit; the first comparison unit is connected with the detection module and receives the water temperature value output by the detection module, compares the received temperature value with a minimum temperature preset value introduced into the water conduit, and outputs a first control signal when the temperature value is greater than the minimum temperature preset value; the second comparison unit is connected with the detection module and receives the water temperature value output by the detection module, compares the received temperature value with a highest temperature preset value introduced into the water conduit, and outputs a second control signal when the temperature value is greater than the highest preset value; the control module comprises a first temperature control unit and a second temperature control unit; the first temperature control unit is connected with the first comparison unit and receives a first control signal output by the first comparison unit, and when the first control signal output by the first comparison unit is received, the electromagnetic valve is controlled to be opened; the second temperature control unit is connected with the second comparison unit and receives a second control signal output by the second comparison unit, and when the second control signal output by the second comparison unit is received, the lighter is controlled to stop working.

Through adopting above-mentioned scheme, temperature sensor can detect the heating furnace in the temperature value after the water heating when the temperature value is greater than minimum default, control solenoid valve opens, can make the water in the chamber enter into the aqueduct, heat artificial turf, when temperature sensor detects the temperature value of the water in the stove and is greater than the highest default, control makes the power off of lighter, the stop heating, the temperature of guaranteeing through the aqueduct is in a definite value, prevent that the temperature is too high and damage artificial turf.

The utility model discloses further set up to: the water guide pipes are arranged in a snake shape in the cavity.

By adopting the scheme, the snakelike arrangement of the water guide pipes can increase the paths of the water guide pipes in the cavity, namely, the area of the water guide pipes for heating the heat conduction layer is increased, and the artificial turf is convenient to heat up rapidly.

The utility model discloses further set up to: the end of the water guide pipe far away from the water outlet pipe is a water outlet end, one end of the heating furnace, which is positioned at the top of the cavity and far away from the artificial turf layer, is fixedly provided with a water inlet pipe, and the water inlet pipe is communicated with the water outlet end of the water guide pipe.

Through adopting above-mentioned scheme, make through the aqueduct in backward flow to the cavity again, not only do not cause the waste of water resource, can also heat up rapidly to the water in the cavity.

The utility model discloses further set up to: and a heat conduction layer is arranged between the heating layer and the runway surface layer.

Through adopting above-mentioned scheme, the heat-conducting layer can separate runway surface course and aqueduct, and does not influence the heat of zone of heating and to artificial turf layer transmission, can also prevent to have the people to cause the damage to the zone of heating when moving on artificial turf.

The utility model discloses further set up to: and a plurality of supporting blocks are uniformly and fixedly arranged in the cavity.

By adopting the scheme, the supporting blocks play a supporting role in the heat conduction layer and the artificial turf layer, and the heat conduction layer is prevented from collapsing to damage the water guide pipe when the artificial turf layer is subjected to external force.

The utility model discloses further set up to: a plurality of flow guide grooves are uniformly formed in the top of the heat conducting layer.

By adopting the scheme, after the artificial turf is heated, a large amount of water can be formed after snow on the artificial turf is melted, and the diversion trench can prevent the water from permeating downwards and underground.

The utility model discloses further set up to: the heat-conducting layer is the arch setting, and drainage pipe has been seted up along its length direction to the lower both sides of heat-conducting layer.

By adopting the above scheme, the heat-conducting layer is the arch, can make the guiding gutter be the arch setting, is convenient for make the water that melts flow in to drainage pipe, is convenient for discharge water, prevents that water from permeating to the underground.

The utility model discloses further set up to: and a heat insulation layer is laid between the heating layer and the damping layer.

Through adopting above-mentioned scheme, the insulating layer can prevent that the steam in the heating layer from transmitting downwards, prevents that the heating layer from causing the damage to the buffer layer.

To sum up, the utility model discloses following beneficial effect has:

1. the heating layer is arranged between the damping layer and the artificial lawn layer, the cavity is formed in the heating layer, the aqueduct is laid in the cavity, one end of the aqueduct extends out of the heating layer and is fixedly connected with a heating mechanism which leads hot water into the aqueduct, the heating mechanism comprises a heating furnace, the bottom of the heating furnace is provided with a fire maker, the middle part of the heating furnace is provided with an exhaust pipe which extends upwards out of the heating furnace, a cavity is formed between the exhaust pipe and the upper part of the heating furnace, one end of the heating furnace, which is positioned at the bottom of the cavity and is close to the artificial lawn layer, is fixedly provided with a water outlet pipe, a solenoid valve is fixedly arranged on the water outlet pipe and is communicated with the aqueduct, the heating furnace is connected with a control circuit, the control circuit can detect whether accumulated snow is accumulated on the artificial lawn layer, when accumulated, the hot water in the water guide pipe can transfer heat to the artificial turf layer, so that accumulated snow on the artificial turf can be quickly melted, and the service life of the artificial turf is prolonged;

2. the water guide pipes are arranged in the cavity in a snake shape, and a large amount of water can be formed after snow on the artificial lawn is melted after the artificial lawn is heated, so that the water guide grooves can prevent the water from permeating downwards and underground;

3. through evenly having seted up a plurality of guiding gutters at the top of heat-conducting layer, the heat-conducting layer is the arch setting, and drainage pipe has been seted up along its length direction to the lower both sides of heat-conducting layer, and the heat-conducting layer is the arch, can make the guiding gutter be the arch setting, is convenient for make the water that melts to drainage pipe internal flow, is convenient for discharge water, prevents that water from permeating to the underground.

Drawings

FIG. 1 is an isometric view of an embodiment;

FIG. 2 is an exploded view of the embodiment;

FIG. 3 is a sectional view of the embodiment;

FIG. 4 is a schematic structural view of a thermally conductive layer;

FIG. 5 is a circuit diagram of a control circuit;

FIG. 6 is a partial circuit diagram of the control unit;

fig. 7 is a circuit diagram of a temperature control circuit.

In the figure, 1, base layer; 2. a concrete layer; 3. a shock-absorbing layer; 4. an artificial turf layer; 5. a heating device; 51. a heating layer; 511. a cavity; 512. a water conduit; 5121. a water outlet end; 5122. a support block; 52. a heating mechanism; 521. heating furnace; 5221. a lighter; 5222. a chamber; 5223. an exhaust pipe; 5224. a water outlet pipe; 5225. an electromagnetic valve; 5226. a water inlet pipe; 5227. a water inlet; 53. a heat conductive layer; 531. a diversion trench; 532. a water discharge pipeline; 54. a thermal insulation layer; 6. a control circuit; 61. a detection unit; 611. a rain and snow sensor; 62. a comparison unit; 63. a control unit; 7. a temperature control circuit; 71. a detection module; 711. a temperature sensor; 72. a comparison module; 721. a first comparing unit; 722. a second comparing unit; 73. a control module; 731. a first temperature control module; 732. and the second temperature control module.

Detailed Description

An artificial turf system capable of automatically heating to remove snow, which is shown in figure 1, comprises a base layer 1, a concrete layer 2, a damping layer 3 and an artificial turf layer 4 which are sequentially paved from bottom to top, and a heating device 5 for heating the artificial turf layer 4 is arranged between the damping layer 3 and the base layer 1. When snow is accumulated on the artificial lawn, the heating device 5 can heat the artificial lawn, so that the snow on the artificial lawn is quickly melted, and the service life of the artificial lawn is prolonged.

Referring to fig. 2 and 3, the heating device 5 includes a heating layer 51 disposed between the damping layer 3 and the artificial lawn, a cavity 511 is formed in the heating layer 51, a water conduit 512 arranged in a serpentine shape is laid in the cavity 511, one end of the water conduit 512 arranged in a serpentine shape extends out of the heating layer 51 and is fixedly connected with a heating mechanism 52 which leads hot water into the water conduit 512, the other end is a water outlet end 5121, and the water outlet end 5121 extends out from one end of the heating layer 51 far away from the heating mechanism 52. A heat conduction layer 53 is arranged between the heating layer 51 and the artificial turf layer 4, the heat conduction layer 53 can transmit hot air in the cavity 511 to the artificial turf layer 4, a plurality of supporting blocks 5122 are uniformly and fixedly arranged in the cavity 511, and the supporting blocks 5122 play a supporting role in the heat conduction layer 53 and the artificial turf layer 4 to prevent the heat conduction layer 53 from collapsing to damage the water guide pipe 512; a heat insulation layer 54 is laid between the heating layer 51 and the damping layer 3, and the heat insulation layer 54 can prevent hot air in the heating layer 51 from being transmitted downwards and prevent the heating layer 51 from damaging the damping layer 3.

Referring to fig. 4, after the artificial turf is heated, a large amount of water is formed after snow on the artificial turf melts, for water infiltration to the ground, a plurality of guiding gutters 531 are uniformly arranged at the top of the heat conducting layer 53, the heat conducting layer 53 is arranged in an arch shape, drainage pipes 532 are arranged on the two lower sides of the heat conducting layer 53 along the length direction of the heat conducting layer, the heat conducting layer 53 is in an arch shape, so that the guiding gutters 531 are arranged in an arch shape, melted water can flow into the drainage pipes 532 conveniently, water can be drained conveniently, and water infiltration to the ground is prevented.

Referring to fig. 3, the heating mechanism 52 includes a heating furnace 521, a fire maker 5221 is disposed at the bottom of the heating furnace 521, an exhaust pipe 5223 extending upward out of the heating furnace 521 is disposed in the middle of the heating furnace 521, a chamber 5222 is formed between the exhaust pipe 5223 and the upper portion of the heating furnace 521, a water outlet pipe 5224 is fixedly disposed at one end of the bottom of the chamber 5222 close to the artificial turf layer 4 of the heating furnace 521, an electromagnetic valve 5225 is fixedly disposed on the water outlet pipe 5224, the water outlet pipe 5224 is communicated with the water guide pipe 512, a water inlet pipe 5226 is fixedly disposed at one end of the top of the chamber 5222 far away from the artificial turf layer 4 of the heating furnace 521, and the water inlet pipe 5226 is communicated with the water outlet end 5121 of the water guide pipe 512.

Referring to fig. 5 and 6, a control circuit 6 for controlling the operation of the heating furnace 521 is connected to the heating furnace 521. The control circuit 6 includes a detection unit 61, a comparison unit 62, and a control unit 63. The detection unit 61 comprises a rain and snow sensor 611 arranged on the artificial lawn layer 4, the rain and snow sensor 611 can detect whether rain and snow are accumulated on the artificial lawn, and one end of the rain and snow sensor 611 is connected with the power supply VCC; the comparing unit 62 comprises a comparator T1 with a negative input end electrically connected to the rain and snow sensor 611, a preset value Vref1 is coupled in series between the comparator T1 and the rain and snow sensor 611 at the positive input end of the comparator T1, and the preset value Vref1 is the lowest snow value accumulated on the ground; the control unit 63 includes a resistor R2 and a transistor Q1 coupled in series to an output terminal of the comparator T1, an emitter of the transistor Q1 is coupled in series to the power source VCC and the resistor R3, a collector of the transistor Q1 is coupled in series to the electromagnetic coil KA1 and the resistor R4, and one end of the resistor R4 away from the transistor Q1 is grounded; the control unit 63 further includes a normally open contact KA1-1, a normally closed contact KA2-1 and a resistor R5 coupled in series to the power source VCC, wherein one end of the resistor R5 away from the power source VCC is grounded, and the igniter 5221 is coupled in series between the normally closed contact KA2-1 and the resistor R5. Rain and snow sensor 611 can real-time detection artificial turf layer 4 on the snow to the snow value that will detect transmits comparator T1, and comparator T1 compares the snow value with preset value Vref1, and when the snow value was greater than the preset value, triode Q1 switched on, and solenoid KA1 got the electricity, makes firearm 5221 switch on, can open heating furnace 521, heats the water in the heating furnace 521.

Referring to fig. 7, a temperature control circuit 7 is further connected in the heating furnace 521, the temperature control circuit 7 can detect the water temperature in the heating furnace 521, and when the water temperature is constant, the electromagnetic valve 5225 is controlled to be opened. The temperature control circuit 7 comprises a detection module 71, a comparison module 72 and a control module 73. The detection module 71 includes a temperature sensor 711 disposed in the chamber 5222, and one end of the temperature sensor 711 is connected to the power source VCC; the comparing module 72 includes a first comparing unit 721 and a second comparing unit 722, the first comparing unit 721 includes a comparator T2 having a positive input end electrically connected to the temperature sensor 711, a negative input end of the comparator T2 is coupled in series with a preset value Vref2, and the preset value Vref2 is the lowest value of the heated water; the second comparing unit 722 comprises a comparator T3 with a positive input end electrically connected with the temperature sensor 711, a negative input end of the comparator T3 is coupled with a preset value Vref3 in series, and the preset value Vref3 is the highest temperature value of the heated water; the control module 73 includes a first temperature control unit 731 and a second temperature control unit 732, the first temperature control unit 731 includes a transistor Q2 coupled in series to an output terminal of the comparator T2, an emitter of the transistor Q2 is coupled in series to a power source VCC and a resistor R6, the solenoid valve 5225 is coupled in series to a collector of the transistor Q1, and an end of the solenoid valve 5225 away from the transistor is grounded; the second temperature control unit 732 includes a transistor Q3 coupled in series to an output terminal of the comparator T3, an emitter of the transistor Q3 is coupled in series to a power source VCC and a resistor R7, a collector of the transistor Q3 is coupled in series to an electromagnetic coil KA2, and an end of the electromagnetic coil KA2 away from the transistor Q3 is grounded.

Referring to fig. 3 and 7, the temperature sensor 711 can detect a temperature value of water heated in the heating furnace 521, and transmit the detected temperature value to the comparator T2, the comparator T2 compares the received temperature value with a preset value Vref2, when the temperature value is greater than the preset value Vref2, the electromagnetic valve 5225 is controlled to be opened, that is, the water in the chamber 5222 can enter the water guiding pipe 512 to heat the artificial lawn, when the temperature sensor 711 detects that the temperature value of the water in the furnace is greater than the preset value Vref3, the electromagnetic coil KA2 is powered on, the normally closed contact KA2-1 is controlled to be disconnected, the power of the fire maker 5221 is cut off, and heating is stopped.

The use principle is as follows: the rain and snow sensor 611 can detect snow on the artificial turf layer 4 in real time, and transmits a detected snow value to the comparator T1, the comparator T1 compares the snow value with a preset value Vref1, when the snow value is larger than the preset value Vref1, the triode Q1 is conducted, the electromagnetic coil KA1 is powered on, the igniter 5221 is powered on, the heating furnace 521 can be opened, water in the heating furnace 521 is heated, the temperature sensor 711 can detect the temperature of the water in the heating furnace 521 after being heated, when the temperature value is larger than the preset value Vref2, the electromagnetic valve 5225 is controlled to be opened, water in the chamber 5222 can enter the water guide pipe 512, the artificial turf is heated, when the temperature sensor 711 detects that the temperature value of the water in the heating furnace is larger than the preset value Vref3, the electromagnetic coil KA2 is powered on, the normally closed KA contact 2-1 is controlled to be disconnected, the igniter 5221 is powered off, and.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides an artificial turf system that can self-heating snow removing, includes basic unit (1), concrete layer (2), buffer layer (3) and artificial turf layer (4) that lay in proper order from bottom to top, its characterized in that:

a heating device (5) is arranged between the shock absorption layer (3) and the artificial turf layer (4);

the heating device (5) comprises a heating layer (51) arranged between the damping layer (3) and the artificial lawn, a cavity (511) is formed in the heating layer (51), a water guide pipe (512) is laid in the cavity (511), and one end of the water guide pipe (512) extends out of the heating layer (51) and is fixedly connected with a heating mechanism (52) for introducing hot water into the water guide pipe (512);

heating mechanism (52) are including heating furnace (521), the bottom of heating furnace (521) is provided with sparker (5221), one blast pipe (5223) that upwards extends heating furnace (521) are seted up at the middle part of heating furnace (521), form cavity (5222) between blast pipe (5223) and the upper portion of heating furnace (521), heating furnace (521) are located the one end that cavity (5222) bottom is close to artificial turf layer (4) and have set firmly a outlet pipe (5224), set firmly solenoid valve (5225) and outlet pipe (5224) and aqueduct (512) intercommunication on outlet pipe (5224), be connected with control circuit (6) on heating furnace (521), control circuit (6) can detect whether there is snow to pile up on artificial turf layer (4), when the ground has snow to pile up, work of control sparker (5221).

2. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein:

the control circuit (6) comprises a detection unit (61), the detection unit (61) detects whether the artificial turf layer (4) has snow, and the detection unit (61) is provided with a rain and snow sensor (611);

the comparison unit (62), the comparison unit (62) is connected with the detection unit (61) and receives the snow quantity value output by the detection unit (61), compares the received snow quantity value with a preset value, and outputs a high-level signal when the snow quantity value is larger than the preset value;

and the control unit (63), the control unit (63) is connected with the signal comparison unit (62), and when receiving the high-level signal output by the signal comparison unit (62), the control unit controls the igniter (5221) to work.

3. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein:

a temperature control circuit (7) for controlling the opening of the electromagnetic valve (5225) is connected in the heating furnace (521);

the temperature control circuit (7) comprises a detection module (71), the detection module (71) comprises a temperature sensor (711) arranged in the cavity (5222), and the temperature sensor (711) detects the water temperature in the heating furnace (521) and outputs the detected water temperature value;

the comparison module (72) comprises a first comparison unit (721) and a second comparison unit (722);

the first comparison unit (721) is connected with the detection module (71) and receives the water temperature value output by the detection module (71), compares the received temperature value with the lowest temperature preset value introduced into the water guide pipe (512), and outputs a first control signal when the temperature value is greater than the lowest preset value;

the second comparison unit (722) is connected with the detection module (71) and receives the water temperature value output by the detection module (71), compares the received temperature value with the highest temperature preset value introduced into the water guide pipe (512), and outputs a second control signal when the temperature value is greater than the highest preset value;

the control module (73) comprises a first temperature control unit (731) and a second temperature control unit (732);

the first temperature control unit (731) is connected with the first comparison unit (721) and receives a first control signal output by the first comparison unit (721), and when the first control signal output by the first comparison unit (721) is received, the control electromagnetic valve (5225) is opened;

the second temperature control unit (732) is connected with the second comparison unit (722) and receives the second control signal output by the second comparison unit (722), and controls the igniter (5221) to stop working when receiving the second control signal output by the second comparison unit (722).

4. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein: the water guide pipes (512) are arranged in a serpentine shape in the cavity (511).

5. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein: the end of the water guide pipe (512) far away from the water outlet pipe (5224) is a water outlet end (5121), the end of the heating furnace (521) far away from the artificial turf layer (4) and positioned at the top of the cavity (5222) is fixedly provided with a water inlet pipe (5226), and the water inlet pipe (5226) is communicated with the water outlet end (5121) of the water guide pipe (512).

6. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein: and a heat conduction layer (53) is arranged between the heating layer (51) and the runway surface layer.

7. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein: a plurality of supporting blocks (5122) are uniformly and fixedly arranged in the cavity (511).

8. An artificial turf system capable of self-heating snow removal as claimed in claim 6 wherein: the top of the heat conducting layer (53) is uniformly provided with a plurality of flow guide grooves (531).

9. An artificial turf system capable of self-heating snow removal as claimed in claim 8 wherein: the heat conduction layer (53) is arranged in an arch shape, and drainage pipelines (532) are arranged on the two lower sides of the heat conduction layer (53) along the length direction of the heat conduction layer.

10. An artificial turf system capable of self-heating snow removal as claimed in claim 1 wherein: and a heat insulation layer (54) is laid between the heating layer (51) and the damping layer (3).

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