CN210568792U - Indoor heating device based on new forms of energy - Google Patents

Abstract

The utility model provides an indoor heating device based on new forms of energy, including the storage water tank, fixed pipe, heating head, heating core, water level temperature detect the plate structure, adjustable power generation frame structure, atmospheric pressure detection exhaust pipe structure, mounting plate, heating control switch, water circulation control switch, inlet tube, sealed lid, suction pump, the pipe that absorbs water, connecting pipe, stay tube and communicating pipe, fixed pipe bolted connection in the inside left lower part of storage water tank. The utility model discloses the setting of backup pad, water level pipe, protection rope, fin, mounting bracket, thermometer and installation piece is favorable to observing the water level in the heating plant, utilizes the fin can just dispel the heat to the inside of heating plant when the heating plant stops working simultaneously; the bottom plate, the bracing piece, the connecting axle, the locking bolt, the mounting panel, the pivot, mounting bolt and solar panel's setting is favorable to adjusting solar panel's angle.

Description

Indoor heating device based on new forms of energy

Technical Field

The utility model belongs to the technical field of the heating, especially, relate to an indoor heating device based on new forms of energy.

Background

At present, the heating is carried out in vast rural areas by adopting a fossil fuel combustion mode, so that the atmospheric pollution is caused, and therefore, the rural areas carry out large-scale coal-to-electricity and coal-to-gas engineering, but the thermal performance of the rural enclosure structure is generally poor, so that the installed capacity of a heat pump and a gas wall hanging furnace is large, the operation power consumption and the gas consumption are high, especially when the outside air temperature is low at night, the indoor thermal comfort can not meet the requirement, and the energy-saving modification cost of the whole rural enclosure structure is high.

The invention discloses a heating device which is CN208871702U, and the invention provides a heating device which comprises a heat source, a heat preservation water tank, a circulating water pump and a room, wherein the heat source, the heat preservation water tank and the circulating water pump are sequentially connected in series through a water supply pipe and are respectively arranged outside the room, a sleeping cabin and an indoor heat dissipation device are respectively arranged inside the room, an indoor heat dissipation device is arranged inside the sleeping cabin, the indoor heat dissipation device and the indoor heat dissipation device are respectively connected with the circulating water pump and the heat preservation water tank through the water supply pipe and a water return pipe, and the heat preservation water tank is connected with the heat source through the water return pipe. However, the existing indoor heating device also has the problems that the water level in the heating device is inconvenient to observe, the angle of the solar panel is inconvenient to adjust, and the starting eye of the heating device is inconvenient to detect and discharge.

Therefore, the invention of an indoor heating device based on new energy is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an indoor heating device based on new forms of energy to solve the inconvenient water level to in the heating device of current indoor heating device and observe, inconvenient angle to solar panel is adjusted and inconvenient to the problem that heating device's dazzling detected and discharged. An indoor heating device based on new energy comprises a water storage tank, a fixing pipe, a heating head, a heating core, a water level temperature detection plate structure, an adjustable power generation frame structure, an air pressure detection exhaust pipe structure, a fastening plate, a heating control switch, a water circulation control switch, a water inlet pipe, a sealing cover, a water suction pump, a water suction pipe, a connecting pipe, a supporting pipe and a communicating pipe, wherein the fixing pipe is connected to the lower part of the left side in the water storage tank through a bolt; the heating head is connected to the left side of the fixed pipe through a bolt; the heating core is connected to the upper part of the right side of the fixed pipe through a bolt; the water level temperature detection plate is arranged in the middle of the front surface of the water storage tank in a structure; the adjustable power generation frame structure is arranged in the middle of the upper surface of the water storage tank; the air pressure detection exhaust pipe structure is arranged at the upper part of the right side of the water storage tank; the fastening plate is connected to the upper part of the right side of the front surface of the water storage tank through a bolt; the heating control switch and the water circulation control switch are sequentially embedded in the middle of the front surface of the fastening plate from left to right; the water inlet pipe is in threaded connection with the left side of the upper surface of the water storage tank; the sealing cover is buckled on the upper part of the water inlet pipe; the water suction pump is connected to the middle position of the left side of the water storage tank through a bolt; the water suction pipe is in threaded connection with the middle position of the bottom of the water suction pump; one end of the connecting pipe is in threaded connection with the lower part of the water suction pipe, and the other end of the connecting pipe is in threaded connection with the lower part of the left side of the water storage tank; the supporting pipe is in threaded connection with the middle position of the upper surface of the water suction pump; one end of the communicating pipe is in threaded connection with the upper part of the supporting pipe, and the other end of the communicating pipe is in threaded connection with the upper part of the left side of the water storage tank; the water level temperature detection plate structure comprises a supporting plate, a water level pipe, a protection rope, a radiating fin, a mounting frame, a thermometer and a mounting plate, wherein the water level pipe is embedded in the middle position of the left side of the front surface of the supporting plate; the protective ropes are respectively glued at the four corners of the middle position of the front surface of the supporting plate; the radiating fin is glued in the middle of the front surface of the mounting fin; the mounting frame is connected to the right side of the front surface of the supporting plate through bolts; the thermometer is connected to the left side inside the mounting frame through bolts; the mounting piece is glued at the joint of the protection rope and the protection rope.

Preferably, the water storage tank is communicated with the water inlet pipe; the water storage tank is communicated with the connecting pipe; the connecting pipe is communicated with the water suction pipe; the water suction pipe is communicated with a water suction pump; the water suction pump is communicated with the supporting tube; the supporting tube is communicated with the communicating tube; the communicating pipe is communicated with the water storage tank.

Preferably, the water storage tank is a stainless steel tank; and the outer surface of the water storage tank and the inner surface of the water storage tank are respectively coated with an anti-rust paint layer.

Preferably, the water level pipe body is made of an acrylic transparent plastic pipe; scale lines are marked on the left side of the front surface of the water level pipe; the zero scale of the scale mark is arranged at the lower part of the left side of the front surface of the water level pipe.

Preferably, the heat radiating fins are made of aluminum alloy sheets.

Preferably, the adjustable power generation frame structure comprises a bottom plate, a support rod, a connecting shaft, a locking bolt, a mounting plate, a rotating shaft, a mounting bolt and a solar panel, wherein the support rod is connected to the right side of the rear surface of the bottom plate through the connecting shaft; the locking bolt is in threaded connection with the connecting position of the bottom plate and the connecting shaft through threaded connection of the bottom plate; the mounting plate is connected to the upper part of the front surface of the support rod through a rotating shaft; the mounting bolt is in threaded connection with the connecting position of the supporting rod and the rotating shaft.

Preferably, the lower part of the left side of the mounting plate is connected with the solar panel through a bolt.

Preferably, the joints of the bottom plate and the connecting shaft and the joints of the supporting rods and the rotating shaft are respectively provided with a rubber ring; the rubber rings are respectively embedded on the outer wall of the connecting shaft and at the connecting position of the rotating shaft.

Preferably, the air pressure detection exhaust pipe structure comprises a dredging pipe, an air pressure meter, a fastening pipe, a sleeve, a protection pipe and an exhaust pipe, wherein the air pressure meter is in threaded connection with the lower part of the dredging pipe; the fastening pipe is in threaded connection with the lower part of the barometer; the sleeve is in threaded connection with the right side of the fastening pipe; the protective pipe is in threaded connection with the right side of the sleeve; the exhaust pipe is in threaded connection with the right side of the protective pipe.

Preferably, the dredging pipe is communicated with an air pressure meter; the barometer is communicated with the fastening pipe; the fastening pipe is communicated with the sleeve; the sleeve is communicated with the protective pipe; the protective pipe is communicated with the exhaust pipe.

Preferably, the dredging pipe and the fastening pipe are respectively stainless steel hoses.

Preferably, the support plate is connected with the water storage tank through bolts; the bottom plate is connected with the water storage tank through bolts; the dredging pipe is in threaded connection with the water storage tank; the water storage tanks are communicated.

Preferably, the solar panel is electrically connected with the heating control switch and the water circulation control switch respectively; the heating control switch is respectively and electrically connected with the fixed tube and the heating head; the water circulation control switch is electrically connected with the water suction pump.

Preferably, the solar panel is a solar panel with a type TYNB-1; the heating head is a heating head with model number HZ 2018061911; the heating core is particularly a heating core with the model of HCT-80; the heating control switch and the water circulation control switch are switches with the model number of SB16 respectively; the water suction pump is specifically a water suction pump with the model number of 370-E; the thermometer is a thermometer with a model number DY; the barometer is a Y-100 barometer.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, backup pad, water level pipe, protection rope, fin, mounting bracket, the setting of thermometer and installation piece is favorable to the water level in the heating plant to observe, utilizes the fin can just dispel the heat to the inside of heating plant when the heating plant stop work simultaneously.

2. The utility model discloses in, bottom plate, bracing piece, connecting axle, locking bolt, mounting panel, pivot, mounting bolt and solar panel's setting is favorable to adjusting solar panel's angle.

3. The utility model discloses in, dredging pipe, barometer, fastening pipe, the sleeve pipe, the setting of protecting tube and blast pipe is favorable to detecting and discharging the inside atmospheric pressure of heating device.

4. In the utility model, the water storage tank is communicated with the water inlet pipe; the water storage tank is communicated with the connecting pipe; the connecting pipe is communicated with the water suction pipe; the water suction pipe is communicated with a water suction pump; the water suction pump is communicated with the supporting tube; the supporting tube is communicated with the communicating tube; the communicating pipe is communicated with the water storage tank, and is favorable for filling and circulating the water resource for heating.

5. In the utility model, the water storage tank is a stainless steel tank; the outer surface of the water storage tank and the inner surface of the water storage tank are respectively coated with an anti-rust paint layer, so that the water storage tank is prevented from being rusted and damaged.

6. In the utility model, the water level pipe body is made of acrylic transparent plastic pipe; scale lines are marked on the left side of the front surface of the water level pipe; the zero scale of the scale mark is arranged on the lower part of the left side of the front surface of the water level pipe, so that the water level inside the heating device can be detected.

7. The utility model discloses in, the fin specifically adopt the aluminum alloy piece, be favorable to dispelling the heat to heating device's inside.

8. In the utility model, the joints of the bottom plate and the connecting shaft and the joints of the supporting rods and the rotating shaft are respectively provided with rubber rings; the rubber rings are respectively embedded on the outer wall of the connecting shaft and at the connecting position of the rotating shaft, so that the connecting shaft and the rotating shaft can be prevented from being worn and damaged for a long time.

Drawings

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

Fig. 2 is a schematic structural diagram of the water level temperature detecting plate structure of the present invention.

Fig. 3 is a schematic structural diagram of the adjustable power generation frame structure of the present invention.

Fig. 4 is a schematic structural diagram of the air pressure detecting exhaust pipe structure of the present invention.

In the figure:

1. a water storage tank; 2. a fixed tube; 3. a heating head; 4. heating the core; 5. a water level temperature detection plate structure; 51. a support plate; 52. a water level pipe; 53. a protective rope; 54. a heat sink; 55. a mounting frame; 56. a thermometer; 57. mounting a sheet; 6. the structure of the power generation frame can be adjusted; 61. a base plate; 62. a support bar; 63. a connecting shaft; 64. locking the bolt; 65. mounting a plate; 66. a rotating shaft; 67. installing a bolt; 68. a solar panel; 7. an air pressure detection exhaust pipe structure; 71. dredging the pipe; 72. a barometer; 73. fastening the tube; 74. a sleeve; 75. a protective tube; 76. an exhaust pipe; 8. a fastening plate; 9. a heating control switch; 10. a water circulation control switch; 11. a water inlet pipe; 12. a sealing cover; 13. a water suction pump; 14. a suction pipe; 15. a connecting pipe; 16. supporting a tube; 17. a communication pipe is provided.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 4

The utility model provides an indoor heating device based on new forms of energy, including storage water tank 1, fixed pipe 2, heating head 3, heating core 4, water level temperature detection plate structure 5, adjustable power generation frame structure 6, atmospheric pressure detection blast pipe structure 7, mounting plate 8, heating control switch 9, hydrologic cycle control switch 10, inlet tube 11, sealed lid 12, suction pump 13, suction pipe 14, connecting pipe 15, stay tube 16 and communicating pipe 17, fixed pipe 2 bolted connection in the left lower part of storage water tank 1 inside; the heating head 3 is connected to the left side of the fixed pipe 2 through a bolt; the heating core 4 is connected to the upper part of the right side of the fixed pipe 2 through a bolt; the water level temperature detection plate structure 5 is arranged in the middle of the front surface of the water storage tank 1; the adjustable power generation frame structure 6 is arranged in the middle of the upper surface of the water storage tank 1; the air pressure detection exhaust pipe structure 7 is arranged at the upper part of the right side of the water storage tank 1; the fastening plate 8 is connected to the upper part of the right side of the front surface of the water storage tank 1 through bolts; the heating control switch 9 and the water circulation control switch 10 are sequentially embedded in the middle of the front surface of the fastening plate 8 from left to right; the water inlet pipe 11 is in threaded connection with the left side of the upper surface of the water storage tank 1; the sealing cover 12 is buckled on the upper part of the water inlet pipe 11; the water suction pump 13 is connected to the middle position of the left side of the water storage tank 1 through a bolt; the water suction pipe 14 is in threaded connection with the middle position of the bottom of the water suction pump 13; one end of the connecting pipe 15 is in threaded connection with the lower part of the water suction pipe 14, and the other end of the connecting pipe is in threaded connection with the lower part of the left side of the water storage tank 1; the supporting pipe 16 is in threaded connection with the middle position of the upper surface of the water suction pump 13; one end of the communicating pipe 17 is in threaded connection with the upper part of the supporting pipe 16, and the other end of the communicating pipe is in threaded connection with the upper part of the left side of the water storage tank 1; the water level and temperature detection plate structure 5 comprises a support plate 51, a water level pipe 52, a protection rope 53, a cooling fin 54, a mounting frame 55, a thermometer 56 and a mounting plate 57, wherein the water level pipe 52 is embedded in the middle position of the left side of the front surface of the support plate 51; the protective ropes 53 are respectively glued at the four corners of the middle position of the front surface of the supporting plate 51; the radiating fins 54 are glued to the middle positions of the front surfaces of the mounting fins 57; the mounting bracket 55 is bolted on the right side of the front surface of the support plate 51; the thermometer 56 is bolted on the left side inside the mounting frame 55; the mounting piece 57 is glued at the joint of the protective rope 53 and the protective rope 53.

In the above embodiment, specifically, the water storage tank 1 is communicated with the water inlet pipe 11; the water storage tank 1 is communicated with a connecting pipe 15; the connecting pipe 15 is communicated with the water suction pipe 14; the water suction pipe 14 is communicated with a water suction pump 13; the water suction pump 13 is communicated with a support pipe 16; the supporting tube 16 is communicated with a communicating tube 17; the communicating pipe 17 is communicated with the water storage tank 1.

In the above embodiment, specifically, the water storage tank 1 specifically adopts a stainless steel tank; the outer surface of the water storage tank 1 and the inner surface of the water storage tank 1 are respectively coated with an anti-rust paint layer.

In the above embodiment, the water level pipe 52 is made of acrylic transparent plastic pipe; scale marks are marked on the left side of the front surface of the water level pipe 52; the zero scale of the scale lines is provided at the lower portion of the left side of the front surface of the water level pipe 52.

In the above embodiment, specifically, the heat sink 54 is specifically made of an aluminum alloy sheet.

In the above embodiment, specifically, the adjustable power generation frame structure 6 includes a bottom plate 61, a support rod 62, a connecting shaft 63, a locking bolt 64, a mounting plate 65, a rotating shaft 66, a mounting bolt 67 and a solar panel 68, wherein the support rod 62 is connected to the right side of the rear surface of the bottom plate 61 through the connecting shaft 63; the locking bolt 64 is in threaded connection with the bottom plate 61 at the joint of the bottom plate 61 and the connecting shaft 63; the mounting plate 65 is connected to the upper part of the front surface of the support bar 62 through a rotating shaft 66; the mounting bolt 67 is screwed at the joint of the support bar 62 and the rotating shaft 66.

In the above embodiment, specifically, the solar panel 68 is bolted to the lower portion of the left side of the mounting plate 65.

In the above embodiment, specifically, the joints of the bottom plate 61 and the connecting shaft 63 and the joints of the supporting rods 62 and the rotating shaft 66 are respectively provided with rubber rings; the rubber rings are respectively embedded at the connecting positions of the outer wall of the connecting shaft 63 and the rotating shaft 66.

In the above embodiment, specifically, the air pressure detecting exhaust pipe structure 7 includes a dredging pipe 71, an air pressure gauge 72, a fastening pipe 73, a sleeve 74, a protection pipe 75 and an exhaust pipe 76, wherein the air pressure gauge 72 is screwed on the lower portion of the dredging pipe 71; the fastening pipe 73 is in threaded connection with the lower part of the barometer 72; the sleeve 74 is in threaded connection with the right side of the fastening pipe 73; the protective pipe 75 is connected to the right side of the sleeve 74 in a threaded manner; the exhaust pipe 76 is screwed to the right side of the protection pipe 75.

In the above embodiment, specifically, the dredging pipe 71 is communicated with the barometer 72; the barometer 72 is communicated with the fastening pipe 73; the fastening tube 73 is communicated with the sleeve 74; the sleeve 74 is communicated with a protective pipe 75; the shielding pipe 75 is communicated with an exhaust pipe 76.

In the above embodiment, specifically, the dredging pipe 71 and the fastening pipe 73 are stainless steel hoses, respectively.

In the above embodiment, specifically, the support plate 51 is connected to the water storage tank 1 by bolts; the bottom plate 61 is connected with the water storage tank 1 through bolts; the dredging pipe 71 is in threaded connection with the water storage tank 1; the water storage tanks 1 are communicated.

In the above embodiment, specifically, the solar panel 68 is electrically connected to the heating control switch 9 and the water circulation control switch 10 respectively; the heating control switch 9 is respectively and electrically connected with the fixed tube 2 and the heating head 3; the water circulation control switch 10 is electrically connected with a water suction pump 13.

In the above embodiment, the solar panel 68 is a solar panel with a model of TYNB-1; the heating head 3 is a heating head with model number HZ 2018061911; the heating core 4 is a heating core with the model of HCT-80; the heating control switch 9 and the water circulation control switch 10 are switches with the model number of SB16 respectively; the water suction pump 13 is a water suction pump with the model number of 370-E; the thermometer 56 is a thermometer with model number DY; the barometer 72 is a Y-100 barometer.

Principle of operation

When the utility model is used, firstly, the water storage tank 1 is placed at an indoor position needing heating, then the solar panel 68 is arranged outdoors through a conducting wire, then the sealing cover 12 is opened, then external water resource is poured into the water storage tank 1 through the water inlet pipe 11, then the heating control switch 9 is pressed down to respectively start the heating head 3 and the heating core 4 to start working, namely, the water source in the water storage tank 1 can be heated, then the water circulation control switch 10 is pressed down to start the water suction pump 13 to suck out the water source in the water suction pump 13 through the connecting pipe 15, then the water source in the water storage tank 1 can be circulated through the communicating pipe 17 again, then the mounting bolt 67 is loosened to adjust the mounting plate 65, namely, the angle of the solar panel 68 can be adjusted, the mounting bolt 67 can be locked after the adjustment is finished, in the process of heating the water source in the water storage tank 1, the water level in the water storage tank 1, meanwhile, the temperature inside the room can be detected by the thermometer 56, and if the air pressure inside the water storage tank 1 is detected to be too high by the air pressure gauge 72, the gas inside the water storage tank 1 can be discharged by the exhaust pipe 76.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The indoor heating device based on the new energy is characterized by comprising a water storage tank (1), a fixed pipe (2), a heating head (3), a heating core (4), a water level temperature detection plate structure (5), an adjustable power generation frame structure (6), an air pressure detection exhaust pipe structure (7), a fastening plate (8), a heating control switch (9), a water circulation control switch (10), a water inlet pipe (11), a sealing cover (12), a water suction pump (13), a water suction pipe (14), a connecting pipe (15), a supporting pipe (16) and a communicating pipe (17), wherein the fixed pipe (2) is connected to the lower part of the left side inside the water storage tank (1) through bolts; the heating head (3) is connected to the left side of the fixed pipe (2) through a bolt; the heating core (4) is connected to the upper part of the right side of the fixed pipe (2) through a bolt; the water level temperature detection plate structure (5) is arranged in the middle of the front surface of the water storage tank (1); the adjustable power generation frame structure (6) is arranged in the middle of the upper surface of the water storage tank (1); the air pressure detection exhaust pipe structure (7) is arranged at the upper part of the right side of the water storage tank (1); the fastening plate (8) is connected to the upper part of the right side of the front surface of the water storage tank (1) through bolts; the heating control switch (9) and the water circulation control switch (10) are sequentially embedded in the middle of the front surface of the fastening plate (8) from left to right; the water inlet pipe (11) is in threaded connection with the left side of the upper surface of the water storage tank (1); the sealing cover (12) is buckled on the upper part of the water inlet pipe (11); the water suction pump (13) is connected to the middle position of the left side of the water storage tank (1) through a bolt; the water suction pipe (14) is in threaded connection with the middle position of the bottom of the water suction pump (13); one end of the connecting pipe (15) is in threaded connection with the lower part of the water suction pipe (14), and the other end of the connecting pipe is in threaded connection with the lower part of the left side of the water storage tank (1); the supporting pipe (16) is in threaded connection with the middle position of the upper surface of the water suction pump (13); one end of the communicating pipe (17) is in threaded connection with the upper part of the supporting pipe (16), and the other end of the communicating pipe is in threaded connection with the upper part of the left side of the water storage tank (1); the water level temperature detection plate structure (5) comprises a supporting plate (51), a water level pipe (52), a protection rope (53), a radiating fin (54), a mounting frame (55), a thermometer (56) and a mounting piece (57), wherein the water level pipe (52) is embedded in the middle position of the left side of the front surface of the supporting plate (51); the protective ropes (53) are respectively glued at the four corners of the middle position of the front surface of the supporting plate (51); the radiating fin (54) is glued at the middle position of the front surface of the mounting fin (57); the mounting rack (55) is connected to the right side of the front surface of the supporting plate (51) through bolts; the thermometer (56) is connected to the left side inside the mounting frame (55) through bolts; the mounting piece (57) is glued at the joint of the protective rope (53) and the protective rope (53).

2. The indoor heating apparatus based on new energy according to claim 1, wherein the water storage tank (1) is communicated with the water inlet pipe (11); the water storage tank (1) is communicated with a connecting pipe (15); the connecting pipe (15) is communicated with the water suction pipe (14); the water suction pipe (14) is communicated with the water suction pump (13); the water suction pump (13) is communicated with the support pipe (16); the supporting tube (16) is communicated with the communicating tube (17); the communicating pipe (17) is communicated with the water storage tank (1).

3. The indoor heating device based on new energy according to claim 1, characterized in that the water storage tank (1) is a stainless steel tank; the outer surface of the water storage tank (1) and the inner surface of the water storage tank (1) are respectively coated with an anti-rust paint layer.

4. The indoor heating device based on new energy according to claim 1, wherein the water level pipe (52) is made of acrylic transparent plastic pipe; scale marks are marked on the left side of the front surface of the water level pipe (52); the zero scale of the scale mark is arranged at the lower part of the left side of the front surface of the water level pipe (52).

5. The indoor heating system based on new energy resources as claimed in claim 1, wherein the heat dissipation sheet (54) is made of aluminum alloy sheet.

6. The indoor heating device based on new energy according to claim 1, wherein the adjustable power generation frame structure (6) comprises a bottom plate (61), a support rod (62), a connecting shaft (63), a locking bolt (64), a mounting plate (65), a rotating shaft (66), a mounting bolt (67) and a solar panel (68), wherein the support rod (62) is connected to the right side of the rear surface of the bottom plate (61) through the connecting shaft (63); the locking bolt (64) is in threaded connection with the connecting position of the bottom plate (61) and the connecting shaft (63) at the threaded connection of the bottom plate (61); the mounting plate (65) is connected to the upper part of the front surface of the support rod (62) through a rotating shaft (66); the mounting bolt (67) is in threaded connection with the connecting position of the support rod (62) and the rotating shaft (66).

7. The indoor heating system based on new energy as claimed in claim 6, wherein the lower portion of the left side of the mounting plate (65) is bolted with a solar panel (68).

8. The indoor heating device based on new energy according to claim 6, wherein rubber rings are respectively arranged at the joint of the bottom plate (61) and the connecting shaft (63) and the joint of the support rod (62) and the rotating shaft (66); the rubber rings are respectively embedded at the connecting positions of the outer wall of the connecting shaft (63) and the rotating shaft (66).

9. The indoor heating device based on new energy according to claim 1, wherein the air pressure detection exhaust pipe structure (7) comprises a dredging pipe (71), an air pressure gauge (72), a fastening pipe (73), a sleeve pipe (74), a protection pipe (75) and an exhaust pipe (76), wherein the air pressure gauge (72) is screwed on the lower part of the dredging pipe (71); the fastening pipe (73) is in threaded connection with the lower part of the barometer (72); the sleeve (74) is in threaded connection with the right side of the fastening pipe (73); the protective pipe (75) is in threaded connection with the right side of the sleeve (74); the exhaust pipe (76) is in threaded connection with the right side of the protective pipe (75).

10. The indoor heating device based on new energy resources as claimed in claim 9, wherein the dredging pipe (71) is communicated with an air pressure gauge (72); the barometer (72) is communicated with the fastening pipe (73); the fastening pipe (73) is communicated with the sleeve (74); the sleeve (74) is communicated with the protective pipe (75); the protective pipe (75) is communicated with the exhaust pipe (76).

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