CN108800274B - Solar energy and geothermal energy combined heating mechanism - Google Patents

Abstract

The invention discloses a solar energy and geothermal energy composite heating mechanism, wherein one side of a mechanism body is provided with a power supply part, one end of the power supply part is connected with a heating part, one end of the heating part is connected with an indoor heating part, one side of the top of a ground source heat pump host is fixedly connected with a heating water supply pipe, the middle part of the heating water supply pipe is fixedly connected with a hot water tank water inlet pipe, one end of the hot water tank water inlet pipe is provided with a hot water tank, one end of the heating water supply pipe is fixedly connected with a floor heating coil water inlet pipe, one end of the floor heating coil water inlet pipe is provided with a water separator, one end of the water separator is provided with a floor heating coil, the other end of the heating water supply pipe is fixedly connected with a fan coil water inlet pipe, and one end of, the heat loss of hot water in the transmission process can be avoided, and the utilization rate of energy is improved.

Description

Solar energy and geothermal energy combined heating mechanism

Technical Field

The invention relates to the technical field of heating mechanisms, in particular to a solar and geothermal energy combined heating mechanism.

Background

At some large-scale public places, can use heating mechanism to heat usually winter, traditional heating mode mainly relies on fossil fuel as the heat supply energy, use cost is high not only, but also can cause serious pollution to the environment, current heating mode utilizes solar collector or geothermal energy to heat more, but solar collector conversion efficiency is lower, can not be fine carry out make full use of solar energy, and both all need the commercial power to provide the electric energy at the in-process of heating, and operating cost is higher, and limited factor is more, be unfavorable for going on of heating mechanism continuous operation.

Therefore, a solar and geothermal energy combined heating mechanism needs to be designed to solve such problems.

Disclosure of Invention

The invention aims to provide a solar and geothermal energy composite heating mechanism to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a solar energy and geothermal energy composite heating mechanism comprises a mechanism body, a power supply part, a heating part, an indoor heating part, a solar generator, a buried heat exchange pipe, a ground source heat pump host, a hot water tank, a ground heating coil, a fan coil, a heat exchange pipe water outlet pipeline, a water pump, a heating water supply pipe, a hot water tank water inlet pipe, a ground heating coil water inlet pipe, a water separator, a fan coil water inlet pipe, a hot water tank water return pipe, a water collector, a ground heating coil water return pipe, a fan coil water return pipe, a heating water return pipe, a heat exchange pipe water return pipeline, a base, an electric push rod, a control box, a containing box, trundles, a storage battery, an inverter, a programmable program controller, a wireless transceiving module, a Y355 motor, a rotating shaft, an electric cylinder, a sliding plate, a top fixing seat, a connecting rod, a bottom, The mechanism comprises a spring, a convex edge, a groove and balls, wherein the power supply part is arranged on one side of the mechanism body, the solar generator is arranged in the power supply part, the base is arranged at the bottom of the solar generator, the electric push rods are arranged on two sides of the top of the base, the control box is arranged at the top of the electric push rods, the groove is formed in the top end of the inner side of the control box, the balls are arranged in the groove, the Y355 motor is arranged in the middle of the inner part of the control box, the rotating shaft is fixedly connected to the top end of the Y355 motor, the storage box is arranged at the top of the rotating shaft, the grooves are formed in two sides of the inner part of the storage box, the spring is arranged at the top end of each groove, the sliding plate is fixedly connected to the bottom end of the spring, and the, the top fixing seats are installed on two sides of the bottom of the sliding plate, the connecting rod is installed in the middle of the top fixing seat, the bottom fixing seat is installed at the bottom end of the connecting rod, the sliding block is installed at the bottom of the bottom fixing seat, the solar cell panel is installed at one end of the sliding block, the sliding grooves are formed in two sides of the bottom end inside the containing box, the convex edge is arranged at the bottom end of the containing box, the MH-YLC rainfall sensor is installed at the top ends of two sides of the containing box, the storage battery is installed at one side of the Y355 motor, the inverter is installed at one side of the storage battery, the programmable program controller is installed at the other side of the Y355 motor, the wireless transceiver module is installed at one side of the programmable program controller, the trundles are installed at the bottom of the base, the ground source heat pump host is arranged in the heating part, one side of the bottom of the ground source heat pump host is fixedly connected with the heat exchange tube water outlet pipeline, the middle part of the heat exchange tube water outlet pipeline is provided with the water pump, the bottom end of the heat exchange tube water outlet pipeline is fixedly connected with the buried heat exchange tube, one end of the buried heat exchange tube is fixedly connected with the heat exchange tube water return pipeline, one end of the heating part is connected with the indoor heating part, one side of the top of the ground source heat pump host is fixedly connected with the heating water supply pipe, the middle part of the heating water supply pipe is fixedly connected with the hot water tank water inlet pipe, one end of the hot water tank water inlet pipe is provided with the hot water tank water return pipe, one end of the heating water supply pipe is fixedly connected with, the floor heating system is characterized in that the water distributor is installed at one end of the floor heating coil water inlet pipe, the floor heating coil is installed at one end of the water distributor, the water collector is installed at one end of the floor heating coil, one end of the water collector is fixedly connected with a floor heating coil water return pipe, the other end of the heating water supply pipe is fixedly connected with the fan coil water inlet pipe, the fan coil is installed at one end of the fan coil water inlet pipe, one end of the fan coil is fixedly connected with the fan coil water return pipe, the hot water tank water return pipe, the floor heating coil water return pipe and one end of the fan coil water return pipe are fixedly connected with the heating water return.

Further, the solar cell panel is electrically connected with the inverter, the inverter is electrically connected with the storage battery, the storage battery is electrically connected with the programmable controller, the wireless transceiver module and the MH-YLC rainfall sensor are electrically connected with the programmable controller, and the programmable controller is electrically connected with the ground source heat pump host, the water pump, the electric push rod, the Y355 motor and the electric cylinder.

Furthermore, the outer sides of the heating water supply pipe, the hot water tank water inlet pipe, the floor heating coil water inlet pipe and the fan coil water inlet pipe are all pasted with heat preservation layers.

Furthermore, a control terminal is arranged outside the mechanism body, and the programmable controller is connected with the control terminal through the wireless transceiving module.

Further, the storage box is fixedly connected with the Y355 motor through the rotating shaft.

Furthermore, the top fixing seat and the bottom fixing seat are hinged with the connecting rod.

Further, the sliding block and the sliding groove are matched for use.

Further, the containing box is fixedly connected with the MH-YLC rainfall sensor through a fastener.

Further, the sliding plate is elastically connected with the slot through the spring.

Further, the convex edge is connected with the groove through the ball.

Compared with the prior art, the invention has the beneficial effects that: the solar geothermal energy composite heating mechanism comprises a mechanism body, wherein a power supply part is arranged on one side of the mechanism body, a solar generator is arranged in the power supply part, a base is arranged at the bottom of the solar generator, electric push rods are arranged on two sides of the top of the base, a control box is arranged at the top of the electric push rods, a groove is formed in the top end of the inner side of the control box, balls are arranged in the groove, a Y355 motor is arranged in the middle of the inner part of the control box, a rotating shaft is fixedly connected to the top end of the Y355 motor, a containing box is arranged at the top of the rotating shaft and fixedly connected with the Y355 motor through the rotating shaft, and the Y355 motor can drive the containing box to rotate through the rotating shaft, so that the position of a solar cell panel can be adjusted flexibly and quickly, the solar cell panel can receive irradiation of sunlight to the maximum extent conveniently, the heating cost is reduced; the two sides of the interior of the containing box are provided with grooves, the top ends of the grooves are provided with springs, the bottom ends of the springs are fixedly connected with sliding plates, the sliding plates are elastically connected with the grooves through the springs, the sliding plates can move along the grooves under the action of an electric cylinder, and the springs can play a certain role in fixing and guiding the sliding plates, so that the lifting and descending stability of the sliding plates is ensured, and the working efficiency of the mechanism body is improved; the top of the sliding plate is hinged with an electric cylinder, the two sides of the bottom of the sliding plate are provided with top fixing seats, the middle part of the top fixing seat is provided with a connecting rod, the bottom end of the connecting rod is provided with a bottom fixing seat, and the top fixing seat and the bottom fixing seat are hinged with the connecting rod; the bottom of the bottom fixing seat is provided with the sliding block, one end of the sliding block is provided with the solar cell panel, the two sides of the bottom end in the containing box are provided with the sliding grooves, the sliding block and the sliding grooves are matched for use, the sliding is rapid and convenient to move, and the solar cell panel can be stretched and contained; the bottom end of the containing box is provided with the convex edge, and the convex edge is connected with the groove through the ball, so that the rotating flexibility and stability of the containing box are improved, meanwhile, the abrasion of the containing box is reduced, and the service life of the containing box is prolonged; the top ends of two sides of the containing box are provided with MH-YLC rainfall sensors, the containing box is fixedly connected with the MH-YLC rainfall sensors through fasteners, the MH-YLC rainfall sensors are used for monitoring the rainfall of the surrounding environment in real time, when the rainfall is higher than a set value, signals are sent to the programmable controller, the programmable controller immediately starts the electric cylinder to work after receiving the signals, the top fixing base immediately drives the bottom fixing base to move inwards through the connecting rod under the action of the sliding plate, the sliding block moves inwards along the sliding groove to contain the solar cell panel, sensitivity and rapidness are achieved, the risk that the solar cell panel is damaged due to being drenched is avoided, the service life of the solar cell panel is prolonged, and the later maintenance cost is reduced; a storage battery is arranged on one side of the Y355 motor, an inverter is arranged on one side of the storage battery, a programmable program controller is arranged on the other side of the Y355 motor, a wireless transceiving module is arranged on one side of the programmable program controller, a control terminal is arranged outside the mechanism body, the programmable program controller is connected with the control terminal through the wireless transceiving module, and the wireless transceiving module can transmit signals between the programmable program controller and the external control terminal mutually, so that a user can conveniently perform remote monitoring and management on the mechanism body, the mechanism is sensitive and efficient, the labor intensity is reduced, and the intelligent degree of the mechanism body is improved; the bottom of the base is provided with casters, one end of the power supply part is connected with a heating part, the interior of the heating part is provided with a ground source heat pump host, one side of the bottom of the ground source heat pump host is fixedly connected with a heat exchange tube outlet pipeline, the middle part of the heat exchange tube outlet pipeline is provided with a water pump, the bottom end of the heat exchange tube outlet pipeline is fixedly connected with a buried heat exchange tube, one end of the buried heat exchange tube is fixedly connected with a heat exchange tube return pipeline, one end of the heating part is connected with an indoor heating part, one side of the top of the ground source heat pump host is fixedly connected with a heating water supply pipe, the middle part of the heating water supply pipe is fixedly connected with a hot water tank inlet pipe, one end of the hot water tank inlet pipe is provided with a hot water tank return pipe, one, the water collector is arranged at one end of the floor heating coil, one end of the water collector is fixedly connected with a floor heating coil return pipe, the other end of the heating water supply pipe is fixedly connected with a fan coil water inlet pipe, and heat preservation layers are pasted on the outer sides of the heating water supply pipe, the hot water tank water inlet pipe, the floor heating coil water inlet pipe and the fan coil water inlet pipe, so that the floor heating coil water collector is simple and practical, heat loss of hot water in the transmission process can be avoided, and the utilization rate of; a fan coil is installed at one end of the fan coil water inlet pipe, a fan coil water return pipe is fixedly connected to one end of the fan coil, and a heating water return pipe is fixedly connected to one ends of the hot water tank water return pipe, the floor heating coil water return pipe and the fan coil water return pipe.

Drawings

FIG. 1 is a schematic diagram of a workflow configuration of the present invention;

FIG. 2 is a schematic view showing a connection structure of a heating unit and an indoor heating unit according to the present invention;

fig. 3 is a schematic diagram of the internal structure of the solar generator of the present invention;

FIG. 4 is a schematic view of the internal structure of the storage box of the present invention;

FIG. 5 is a schematic diagram of the structure of FIG. 3 at A in accordance with the present invention;

in the reference symbols: 1-a mechanism body; 2-a power supply section; 3-a heating part; 4-indoor heating part; 5-a solar generator; 6-burying a heat exchange pipe; 7-a ground source heat pump host; 8-a hot water tank; 9-a floor heating coil pipe; 10-a fan coil; 11-a water outlet pipeline of the heat exchange tube; 12-a water pump; 13-a heating water supply pipe; 14-water inlet pipe of hot water tank; 15-a floor heating coil water inlet pipe; 16-a water separator; 17-fan coil water inlet pipe; 18-a hot water tank return pipe; 19-a water collector; 20-a floor heating coil water return pipe; 21-fan coil return pipe; 22-a heating water return pipe; 23-a water return pipeline of the heat exchange pipe; 24-a base; 25-an electric push rod; 26-a control box; 27-a storage box; 28-a caster; 29-a storage battery; 30-an inverter; 31-a programmable program controller; 32-a wireless transceiver module; a 33-Y355 motor; 34-a rotating shaft; 35-an electric cylinder; 36-a slide plate; 37-top fixed seat; 38-connecting rod; 39-bottom fixing seat; 40-a slide block; 41-a chute; 42-solar panel; 43-slotting; a 44-MH-YLC rain sensor; 45-spring; 46-convex edge; 47-a groove; 48-ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a solar energy and geothermal energy compound heating mechanism comprises a mechanism body 1, a power supply part 2, a heating part 3, an indoor heating part 4, a solar generator 5, a buried heat exchange pipe 6, a ground source heat pump host 7, a hot water tank 8, a ground heating coil 9, a fan coil 10, a heat exchange pipe water outlet pipeline 11, a water pump 12, a heating water supply pipe 13, a hot water tank water inlet pipe 14, a ground heating coil water inlet pipe 15, a water separator 16, a fan coil water inlet pipe 17, a hot water tank water return pipe 18, a water collector 19, a ground heating coil water return pipe 20, a fan coil water return pipe 21, a heating water return pipe 22, a heat exchange pipe water return pipe 23, a base 24, an electric push rod 25, a control box 26, a containing box 27, trundles 28, a storage battery 29, an inverter 30, a programmable logic controller 31, a wireless transceiving module 32, a Y355 motor 33, a rotating shaft 34, The mechanism comprises a connecting rod 38, a bottom fixing seat 39, a sliding block 40, a sliding groove 41, a solar cell panel 42, a slot 43, an MH-YLC rainfall sensor 44, a spring 45, a convex edge 46, a groove 47 and balls 48, wherein a power supply part 2 is arranged on one side of the mechanism body 1, a solar power generator 5 is arranged in the power supply part 2, a base 24 is arranged at the bottom of the solar power generator 5, electric push rods 25 are arranged on two sides of the top of the base 24, a control box 26 is arranged at the top of the electric push rods 25, the groove 47 is formed in the top end of the inner side of the control box 26, the balls 48 are arranged in the groove 47, a Y355 motor 33 is arranged in the middle of the inner part of the control box 26, a rotating shaft 34 is fixedly connected to the top end of the Y355 motor 33, a containing box 27 is arranged at the top of the rotating shaft 34, the slot 43, the top of the sliding plate 36 is hinged with an electric cylinder 35, two sides of the bottom of the sliding plate 36 are provided with top fixing seats 37, the middle part of the top fixing seats 37 is provided with a connecting rod 38, the bottom end of the connecting rod 38 is provided with a bottom fixing seat 39, the bottom of the bottom fixing seat 39 is provided with a sliding block 40, one end of the sliding block 40 is provided with a solar cell panel 42, two sides of the bottom end inside the containing box 27 are provided with sliding chutes 41, the bottom end of the containing box 27 is provided with a convex edge 46, the top ends of two sides of the containing box 27 are provided with MH-YLC rainfall sensors 44, one side of the Y355 motor 33 is provided with a storage battery 29, one side of the storage battery 29 is provided with an inverter 30, the other side of the Y355 motor 33 is provided with a programmable controller 31, one, a ground source heat pump host 7 is installed inside the heating part 3, a heat exchange pipe water outlet pipeline 11 is fixedly connected to one side of the bottom of the ground source heat pump host 7, a water pump 12 is installed in the middle of the heat exchange pipe water outlet pipeline 11, a buried heat exchange pipe 6 is fixedly connected to the bottom end of the heat exchange pipe water outlet pipeline 11, a heat exchange pipe water return pipeline 23 is fixedly connected to one end of the buried heat exchange pipe 6, an indoor heating part 4 is connected to one end of the heating part 3, a heating water supply pipe 13 is fixedly connected to one side of the top of the ground source heat pump host 7, a hot water tank water inlet pipe 14 is fixedly connected to the middle of the heating water supply pipe 13, a hot water tank 8 is installed to one end of the hot water tank 14, a hot water tank water return pipeline 18 is fixedly connected to one side of the bottom of the hot water tank 8, the water collector 19 is installed to the one end of ground heating coil 9, the one end fixedly connected with ground heating coil wet return 20 of water collector 19, the other end fixedly connected with fan coil inlet tube 17 of heating delivery pipe 13, fan coil 10 is installed to the one end of fan coil inlet tube 17, the one end fixedly connected with fan coil wet return 21 of fan coil 10, the one end fixedly connected with heating wet return 22 of hot-water tank wet return 18, ground heating coil wet return 20 and fan coil wet return 21.

Further, the solar cell panel 42 is electrically connected with the inverter 30, the inverter 30 is electrically connected with the storage battery 29, the storage battery 29 is electrically connected with the programmable controller 31, the wireless transceiver module 32 and the MH-YLC rainfall sensor 44 are electrically connected with the programmable controller 31, the programmable controller 31 is electrically connected with the ground source heat pump host 7, the water pump 12, the electric push rod 25, the Y355 motor 33 and the electric cylinder 35, the solar cell panel 42 can convert solar energy into electric energy to be stored in the storage battery 29, the storage battery 29 can convert direct current into alternating current through the inverter 30, the storage battery 29 provides electric energy for the work of the programmable controller 31, the wireless transceiver module 32 and the MH-YLC rainfall sensor 44, the wireless transceiver module 32 can transmit signals between the programmable controller 31 and an external control terminal to each other, the MH-YLC rainfall sensor 44 can send the monitored information to the programmable controller 31 in real time, and the programmable controller 31 controls the work of the ground source heat pump host 7, the water pump 12, the electric push rod 25, the Y355 motor 33 and the electric cylinder 35.

Further, the heat preservation has all been pasted in the outside of heating delivery pipe 13, hot-water tank inlet tube 14, ground heating coil inlet tube 15 and fan coil inlet tube 17, and simple and practical can avoid hot water to take place heat loss at the process of transmission, has improved the utilization ratio of the energy.

Further, the outside of mechanism body 1 is provided with control terminal, and programmable controller 31 passes through wireless transceiver module 32 with control terminal and is connected, and wireless transceiver module 32 can carry out mutual transmission with the signal between programmable controller 31 and the external control terminal to make things convenient for the user of service to carry out remote monitoring and management to mechanism body 1, sensitive high-efficient, when reducing intensity of labour, also improved the intelligent degree of mechanism body 1.

Further, containing box 27 passes through axis of rotation 34 fixed connection with Y355 motor 33, and Y355 motor 33 can drive containing box 27 through axis of rotation 34 and rotate, and then realizes the regulation to solar cell panel 42 position, and is nimble swift, is convenient for make its furthest receive shining of sunlight, when improving energy conversion, also is convenient for guarantee the normal work of mechanism body 1, has reduced its heating cost.

Furthermore, the top fixing seat 37 and the bottom fixing seat 39 are hinged with the connecting rod 38, so that the structure is simple, the rotation is flexible, and the connection rod 38 can be unfolded and closed conveniently.

Further, the sliding block 40 and the sliding groove 41 are matched for use, the sliding is fast, the movement is convenient, and the stretching and the storage of the solar cell panel 42 can be realized.

Furthermore, the storage box 27 is fixedly connected with the MH-YLC rainfall sensor 44 through a fastening piece, the MH-YLC rainfall sensor 44 is used for monitoring the rainfall of the surrounding environment in real time, when the rainfall is higher than a set value, a signal is sent to the programmable controller 31, the programmable controller 31 immediately starts the electric cylinder 35 to work after receiving the signal, the top fixing seat 37 immediately drives the bottom fixing seat 39 to move inwards under the action of the sliding plate 36 through the connecting rod 38, the sliding block 40 moves inwards along the sliding groove 41 to store the solar cell panel 42, sensitivity and rapidness are achieved, the risk that the solar cell panel 42 is damaged due to being drenched is avoided, the service life of the solar cell panel is prolonged, and the later maintenance cost is reduced.

Further, the sliding plate 36 is elastically connected with the slot 43 through a spring 45, the sliding plate 36 can move along the slot 43 under the action of the electric cylinder 35, and the spring 45 can play a certain fixing and guiding role on the sliding plate 36, so that the rising and falling stability of the sliding plate is ensured, and the working efficiency of the mechanism body 1 is improved.

Furthermore, the convex edge 46 is connected with the groove 47 through the ball 48, so that the rotation flexibility and stability of the containing box 27 are improved, meanwhile, the abrasion to the containing box is reduced, and the service life of the containing box is prolonged.

The working principle is as follows: when the solar energy and geothermal energy compound heating mechanism is used, hot water in an underground heat exchange pipe 6 enters a ground source heat pump host 7 under the action of a water pump 12, one part of the hot water directly flows into a hot water tank 8 through a hot water tank inlet pipe 14 by a heating water supply pipe 13 to provide domestic hot water for users, the other part of the hot water enters a floor heating coil 9 and a fan coil 10 through a floor heating coil inlet pipe 15 and a fan coil inlet pipe 17 respectively to supply heat indoors, when the temperature of the hot water in the hot water tank 8 is lower than a set value, the residual hot water flows into a heating water return pipe 22 through a hot water tank water return pipe 18 and is mixed with warm water flowing back from the floor heating coil water return pipe 20 and the fan coil water return pipe 21, the residual hot water flows back into the ground source heat pump host 7 from the heating water return pipe 22 together, and flows back into the underground heat exchange pipe 6 again through a heat exchange pipe water return pipe 23 to exchange heat, the solar panel 42 can convert solar energy into electric energy to be stored in the storage battery 29, the storage battery 29 can convert direct current into alternating current through the inverter 30 to be used by the mechanism body 1, when the MH-YLC rainfall sensor 44 monitors that the rainfall of the surrounding environment is greater than a set value, a signal is sent to the programmable controller 31, the programmable controller 31 can immediately start the electric cylinder 35 to work after receiving the signal, the top fixing seat 37 immediately drives the bottom fixing seat 39 to move inwards through the connecting rod 38 under the action of the sliding plate 36, the sliding block 40 moves inwards along the sliding groove 41, and the solar panel 42 is stored at the moment. Low maintenance cost, long service life and high energy utilization rate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A solar geothermal energy composite heating mechanism comprises a mechanism body (1), a power supply part (2), a heating part (3), an indoor heating part (4), a solar generator (5), a buried heat exchange pipe (6), a ground source heat pump host (7), a hot water tank (8), a ground heating coil (9), a fan coil (10), a heat exchange pipe water outlet pipeline (11), a water pump (12), a heating water supply pipe (13), a hot water tank water inlet pipe (14), a ground heating coil water inlet pipe (15), a water distributor (16), a fan coil water inlet pipe (17), a hot water tank water return pipe (18), a water collector (19), a ground heating coil water return pipe (20), a fan coil water return pipe (21), a heating water return pipe (22), a heat exchange pipe water return pipeline (23), a base (24), an electric push rod (25), a control box (26), a storage box (27), castors (28), Battery (29), dc-to-ac converter (30), programmable controller (31), wireless transceiver module (32), Y355 motor (33), axis of rotation (34), electronic jar (35), slide (36), top fixing base (37), connecting rod (38), bottom fixing base (39), slider (40), spout (41), solar cell panel (42), fluting (43), MH-YLC rainfall sensor (44), spring (45), protruding edge (46), recess (47) and ball (48), its characterized in that: the mechanism is characterized in that the power supply part (2) is arranged on one side of the mechanism body (1), the solar generator (5) is arranged inside the power supply part (2), the base (24) is arranged at the bottom of the solar generator (5), the electric push rod (25) is arranged on two sides of the top of the base (24), the control box (26) is arranged on the top of the electric push rod (25), the groove (47) is formed in the top end of the inner side of the control box (26), the ball (48) is arranged inside the groove (47), the Y355 motor (33) is arranged in the middle of the inside of the control box (26), the rotating shaft (34) is fixedly connected to the top end of the Y355 motor (33), the containing box (27) is arranged on the top of the rotating shaft (34), and the slots (43) are formed in two sides of the inside of the containing box (27), the top end of the groove (43) is provided with the spring (45), the bottom end of the spring (45) is fixedly connected with the sliding plate (36), the top of the sliding plate (36) is hinged with the electric cylinder (35), the top fixing seats (37) are installed on two sides of the bottom of the sliding plate (36), the connecting rod (38) is installed in the middle of the top fixing seats (37), the bottom fixing seats (39) are installed at the bottom end of the connecting rod (38), the sliding block (40) is installed at the bottom of the bottom fixing seats (39), the solar cell panel (42) is installed at one end of the sliding block (40), the sliding grooves (41) are arranged on two sides of the inner bottom end of the containing box (27), the convex edges (46) are arranged at the bottom end of the containing box (27), and the MH-YLC rainfall sensor (44) is installed on the top ends of two sides of, install one side of Y355 motor (33) battery (29), install one side of battery (29) inverter (30), install the opposite side of Y355 motor (33) programmable controller (31), install one side of programmable controller (31) wireless transceiver module (32), install the bottom of base (24) truckle (28), the one end of power supply portion (2) is connected with heating portion (3), the internally mounted of heating portion (3) has ground source heat pump host computer (7), one side fixedly connected with of ground source heat pump host computer (7) bottom heat exchange tube outlet conduit (11), the mid-mounting of heat exchange tube outlet conduit (11) has water pump (12), the bottom fixedly connected with of heat exchange tube outlet conduit (11) bury heat exchange tube (6), the underground heat exchange pipe (6) is fixedly connected with the heat exchange pipe water return pipeline (23), one end of the heating part (3) is connected with the indoor heating part (4), one side of the top of the ground source heat pump host (7) is fixedly connected with the heating water supply pipe (13), the middle of the heating water supply pipe (13) is fixedly connected with the hot water tank water inlet pipe (14), one end of the hot water tank water inlet pipe (14) is provided with the hot water tank (8), one side of the bottom of the hot water tank (8) is fixedly connected with the hot water tank water return pipe (18), one end of the heating water supply pipe (13) is fixedly connected with the floor heating coil water inlet pipe (15), one end of the floor heating coil water inlet pipe (15) is provided with the water distributor (16), one end of the water distributor (16) is provided with the floor heating coil (9), one end of the floor heating coil (9, one end of the water collector (19) is fixedly connected with the ground heating coil water return pipe (20), the other end of the heating water supply pipe (13) is fixedly connected with the fan coil water inlet pipe (17), one end of the fan coil water inlet pipe (17) is provided with the fan coil (10), one end of the fan coil (10) is fixedly connected with the fan coil water return pipe (21), and one ends of the hot water tank water return pipe (18), the ground heating coil water return pipe (20) and the fan coil water return pipe (21) are fixedly connected with the heating water return pipe (22); the convex edge (46) is connected with the groove (47) through the ball (48); the containing box (27) is fixedly connected with the MH-YLC rainfall sensor (44) through a fastener; the sliding plate (36) is elastically connected with the slot (43) through the spring (45).

2. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: the solar cell panel (42) is electrically connected with the inverter (30), the inverter (30) is electrically connected with the storage battery (29), the storage battery (29) is electrically connected with the programmable controller (31), the wireless transceiver module (32) and the MH-YLC rainfall sensor (44) are electrically connected with the programmable controller (31), and the programmable controller (31) is electrically connected with the ground source heat pump host (7), the water pump (12), the electric push rod (25), the Y355 motor (33) and the electric cylinder (35).

3. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: and heat preservation layers are adhered to the outer sides of the heating water supply pipe (13), the hot water tank water inlet pipe (14), the floor heating coil water inlet pipe (15) and the fan coil water inlet pipe (17).

4. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: the mechanism is characterized in that a control terminal is arranged outside the mechanism body (1), and the programmable program controller (31) is connected with the control terminal through the wireless transceiving module (32).

5. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: the storage box (27) and the Y355 motor (33) are fixedly connected through the rotating shaft (34).

6. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: the top fixing seat (37) and the bottom fixing seat (39) are hinged with the connecting rod (38).

7. The solar-geothermal energy composite heating mechanism according to claim 1, wherein: the sliding block (40) and the sliding groove (41) are matched for use.

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