CN215337147U - Device for glass tube thermal power generation - Google Patents

Abstract

The utility model relates to the technical field of glass tube thermal power generation, in particular to a device for glass tube thermal power generation, which improves the receiving effective area of a heat collecting tube by focusing and reflecting sunlight through a reflecting groove and has high working efficiency; the solar heat collector comprises a support frame, a lower main pipe, an upper main pipe, a plurality of heat collecting pipes, a circulating pipe and power generation equipment, wherein the support frame is provided with the lower main pipe and the upper main pipe; the multifunctional combined type solar water heater further comprises a plurality of light reflecting grooves, a plurality of bearings, a plurality of swing rods, a pull rod, a steering engine and a rocker, wherein the plurality of bearings are respectively installed on the outer side walls of the lower main pipe and the upper main pipe, two ends of the plurality of light reflecting grooves are respectively rotatably connected with the plurality of bearings, the swing rods are all installed on the side walls of the light reflecting grooves and are rotatably connected with the pull rod, the steering engine is installed on the side wall of the upper main pipe, and the steering engine is slidably connected with the left end of the pull rod through the rocker.

Description

Device for glass tube thermal power generation

Technical Field

The utility model relates to the technical field of glass tube thermal power generation, in particular to a device for glass tube thermal power generation.

Background

The device for glass tube thermal power generation is an auxiliary device for glass tube thermal power generation, and is widely used in the field of glass tube thermal power generation; the existing device for thermal power generation of the glass tube comprises a support frame, a lower header pipe, an upper header pipe, a plurality of heat collecting tubes, a circulating tube and power generation equipment, wherein the lower header pipe is installed at the bottom of the support frame, the upper header pipe is installed at the top of the support frame, the lower header pipe and the upper header pipe are both provided with a plurality of mounting holes, a water inlet is formed in the right end of the lower header pipe, a water outlet is formed in the right end of the upper header pipe, two ends of the plurality of heat collecting tubes are respectively communicated with the mounting holes of the lower header pipe and the upper header pipe, the input end of the circulating tube is communicated with the water outlet of the upper header pipe, the output end of the circulating tube is communicated with the water inlet hole of the lower header pipe, and the middle section of the circulating tube is connected into the power generation equipment; when the existing device for glass tube thermal power generation is used, firstly, equipment is installed in a place with sufficient sunlight irradiation, then, sufficient heat absorption liquid is injected into a lower main pipe, an upper main pipe, a plurality of heat collection pipes and a circulating pipe, then, the plurality of heat collection pipes absorb solar energy and convert the solar energy into heat energy, the heat absorption liquid rises to the upper main pipe after being heated, then, the heat energy is conveyed to power generation equipment through the circulating pipe, the power generation equipment absorbs the heat energy, converts the heat energy into electric energy and conveys the electric energy to a power grid, and the cooled heat absorption liquid flows back to the lower main pipe through the circulating pipe; the device for the existing glass tube thermal power generation is found in use, a plurality of heat collecting tubes are arranged and installed, and in order that the heat collecting tubes cannot be shielded, large gaps are arranged among the plurality of heat collecting tubes, so that the heat collecting tubes are large in occupied area and low in actual utilization rate, and the working efficiency of equipment is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a device for glass tube thermal power generation, which improves the receiving effective area of a heat collecting tube by focusing and reflecting sunlight through a reflecting groove and has high working efficiency of equipment.

The utility model discloses a device for thermal power generation of a glass tube, which comprises a support frame, a lower header pipe, an upper header pipe, a plurality of heat collecting tubes, a circulating tube and power generation equipment, wherein the lower header pipe is installed at the bottom of the support frame, the upper header pipe is installed at the top of the support frame, the lower header pipe and the upper header pipe are both provided with a plurality of installation holes, the right end of the lower header pipe is provided with a water inlet, the right end of the upper header pipe is provided with a water outlet, two ends of the plurality of heat collecting tubes are respectively communicated with the installation holes of the lower header pipe and the upper header pipe, the input end of the circulating tube is communicated with the water outlet of the upper header pipe, the output end of the circulating tube is communicated with the water inlet hole of the lower header pipe, and the middle section of the circulating tube is connected into the power generation equipment; still include a plurality of reflection of light grooves, a plurality of bearings, a plurality of pendulum rods, the pull rod, steering wheel and rocker, a plurality of reflection of light grooves all are provided with reflection of light concave surface, a plurality of bearings are installed respectively on house steward and the lateral wall of last house steward down, a plurality of bearings are installed with the thermal-collecting tube is concentric respectively, the both ends of a plurality of reflection of light grooves rotate with a plurality of bearings respectively and are connected, all install the pendulum rod on the lateral wall of reflection of light groove, a plurality of pendulum rods all rotate with the pull rod through the pivot and are connected, the steering wheel is installed on the lateral wall of last house steward, the output shaft of steering wheel is connected with the lower extreme of rocker, the upper portion of rocker sets up long spout, the long spout of rocker passes through round pin axle sliding connection with the left end of pull rod.

The device for glass tube thermal power generation further comprises a circulating pump, wherein the output end of the circulating pump is communicated with the water inlet of the circulating pump, the water outlet of the circulating pump is communicated with the water inlet of the lower header pipe through the circulating pipe, and the driving shaft of the circulating pump and the output shaft of the motor are concentrically arranged.

The device for glass tube thermal power generation comprises a heat engine, a generator, a flywheel and a connecting rod, wherein the heat engine is provided with a cylinder body, a piston and a piston rod, the middle section of a circulating pipe is wound on the outer surface of the cylinder body of the heat engine, the flywheel is arranged on a driving shaft of the generator, a rotating shaft is arranged on the flywheel, and the piston rod of the heat engine is connected with the rotating shaft of the flywheel through the connecting rod.

The device for the glass tube thermal power generation further comprises a plurality of radiating fins, and the plurality of radiating fins are mounted on the outer surface of the right section of the cylinder body of the thermomotor.

The device for the glass tube thermal power generation further comprises heat insulation cotton, the heat insulation cotton wraps the left section of the heat engine and the circulating tube wound on the left section, and heat insulation layers are arranged on the outer surfaces of other parts of the circulating tube.

The device for thermal power generation of the glass tube further comprises a flow valve, wherein the flow valve is installed on a circulating tube before entering power generation equipment and is connected with a controller through a line.

The device for thermal power generation of the glass tube further comprises a liquid storage tank, a pressure gauge and a water supplementing tube, wherein a liquid storage cavity is arranged inside the liquid storage tank, a heat insulation layer is arranged outside the liquid storage tank, the liquid storage cavity of the liquid storage tank is communicated with a circulating tube through a pipeline, the pressure gauge is arranged on the side wall of the liquid storage tank, the water supplementing tube is arranged on the upper end face of the liquid storage tank, the output end of the water supplementing tube extends into the liquid storage cavity, and a valve is arranged on the water supplementing tube.

Compared with the prior art, the utility model has the beneficial effects that: the steering wheel passes through the rocker and promotes the pull rod and remove, and a plurality of pendulum rods of linkage and a plurality of reflective tank are rotatory along a plurality of bearings, make a plurality of reflective tanks all the time towards the sun, make a plurality of reflective tank focus and reflection sunshine to a plurality of thermal-collecting tubes on, improve the effective area that a plurality of thermal-collecting tubes received sunshine and shine, improve equipment work efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of a front view configuration of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic structural diagram of a reflective groove, a bearing, a swing rod, a pull rod, a steering engine and a rocker;

in the drawings, the reference numbers: 1. a support frame; 2. a lower header pipe; 3. an upper header pipe; 4. a heat collecting pipe; 5. a circulation pipe; 6. a power generation device; 7. a light reflecting groove; 8. a bearing; 9. a swing rod; 10. a pull rod; 11. a steering engine; 12. a rocker; 13. a circulation pump; 14. a hot air engine; 15. a generator; 16. a flywheel; 17. a connecting rod; 18. a heat sink; 19. heat preservation cotton; 20. a flow valve; 21. a liquid storage tank; 22. a pressure gauge; 23. a water replenishing pipe.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 4, the device for thermal power generation by glass tubes of the present invention comprises a support frame 1, a lower header pipe 2, an upper header pipe 3, a plurality of heat collecting tubes 4, a circulating tube 5 and a power generation device 6, wherein the lower header pipe 2 is installed at the bottom of the support frame 1, the upper header pipe 3 is installed at the top of the support frame 1, the lower header pipe 2 and the upper header pipe 3 are both provided with a plurality of installation holes, the right end of the lower header pipe 2 is provided with a water inlet, the right end of the upper header pipe 3 is provided with a water outlet, two ends of the plurality of heat collecting tubes 4 are respectively communicated with the installation holes of the lower header pipe 2 and the upper header pipe 3, the input end of the circulating tube 5 is communicated with the water outlet of the upper header pipe 3, the output end of the circulating tube 5 is communicated with the water inlet of the lower header pipe 2, and the middle section of the circulating tube 5 is connected into the power generation device 6; the solar collector comprises a lower header pipe 2 and an upper header pipe 3, and is characterized by further comprising a plurality of reflection grooves 7, a plurality of bearings 8, a plurality of swing rods 9, a pull rod 10, a steering engine 11 and a rocker 12, wherein the reflection grooves 7 are provided with reflection concave surfaces, the bearings 8 are respectively installed on the outer side walls of the lower header pipe 2 and the upper header pipe 3, the bearings 8 are respectively installed concentrically with the collector pipe 4, two ends of the reflection grooves 7 are respectively rotatably connected with the bearings 8, the swing rods 9 are installed on the side walls of the reflection grooves 7, the swing rods 9 are rotatably connected with the pull rod 10 through rotating shafts, the steering engine 11 is installed on the side wall of the upper header pipe 3, an output shaft of the steering engine 11 is connected with the lower end of the rocker 12, the upper part of the rocker 12 is provided with a long chute, and the long chute of the rocker 12 is slidably connected with the left end of the pull rod 10 through a pin shaft; steering wheel 11 promotes pull rod 10 through rocker 12 and removes, and it is rotatory along a plurality of bearings 8 to link a plurality of pendulum rods 9 and a plurality of reflective troughs 7, makes a plurality of reflective troughs 7 face the sun all the time, makes a plurality of reflective troughs 7 focus and reflect sunshine to a plurality of thermal-collecting tubes 4 on, improves the effective area that a plurality of thermal-collecting tubes 4 received sunshine and shines, improve equipment work efficiency.

The device for glass tube thermal power generation further comprises a circulating pump 13, wherein the output end of the circulating pipe 5 is communicated with the water inlet of the circulating pump 13, the water outlet of the circulating pump 13 is communicated with the water inlet of the lower header pipe 2 through the circulating pipe 5, and the driving shaft of the circulating pump 13 and the output shaft of the motor are concentrically arranged; the heat absorption liquid in the system is pressurized and conveyed through the circulating pump 13, so that the heat absorption liquid can efficiently circulate at a constant speed, and the working efficiency of the equipment is improved.

According to the device for glass tube thermal power generation, the power generation equipment 6 further comprises a thermomotor 14, a generator 15, a flywheel 16 and a connecting rod 17, wherein the thermomotor 14 is provided with a cylinder body, a piston and a piston rod, the middle section of the circulating pipe 5 is wound on the outer surface of the cylinder body of the thermomotor 14, the flywheel 16 is installed on a driving shaft of the generator 15, a rotating shaft is arranged on the flywheel 16, and the piston rod of the thermomotor 14 is connected with the rotating shaft of the flywheel 16 through the connecting rod 17; the heat energy transferred by the circulating pipe 5 drives the piston of the heat engine 14 to reciprocate in the cylinder body of the heat engine 14, the piston and the piston rod drive the flywheel 16 and the connecting rod 17 to drive the rotor of the generator 15 to rotate for generating electricity, the heat energy conversion rate is high, the framework is simple, the cost is low, and the practicability of the equipment is improved.

The device for glass tube thermal power generation further comprises a plurality of cooling fins 18, wherein the plurality of cooling fins 18 are arranged on the outer surface of the right section of the cylinder body of the thermomotor 14; the heat dissipation area is increased by installing the heat dissipation fins 18, and the working efficiency of the heat engine 14 is improved.

The device for the thermal power generation of the glass tube further comprises heat insulation cotton 19, the heat insulation cotton 19 wraps the left section of the hot air engine 14 and the circulating tube 5 wound on the heat insulation cotton, and heat insulation layers are arranged on the outer surfaces of other parts of the circulating tube 5; the heat loss is reduced by arranging the heat insulation cotton 19 and the heat insulation layer of the circulating pipe 5, and the working efficiency is improved.

The device for the thermal power generation of the glass tube further comprises a flow valve 20, wherein the flow valve 20 is installed on the circulating pipe 5 before entering the power generation equipment 6, and the flow valve 20 is connected with a controller through a line; the flow of the heat absorption liquid is automatically adjusted through the flow valve 20, and meanwhile, the heat supply of the power generation equipment 6 is adjusted, so that the heat engine 14 and the power generator 15 are guaranteed to stably work, the power generation voltage is stable, and the stability is improved.

The device for the thermal power generation of the glass tube further comprises a liquid storage tank 21, a pressure gauge 22 and a water replenishing tube 23, wherein a liquid storage cavity is arranged inside the liquid storage tank 21, a heat insulation layer is arranged outside the liquid storage tank 21, the liquid storage cavity of the liquid storage tank 21 is communicated with a circulating tube 5 through a pipeline, the pressure gauge 22 is arranged on the side wall of the liquid storage tank 21, the water replenishing tube 23 is arranged on the upper end surface of the liquid storage tank 21, the output end of the water replenishing tube 23 extends into the liquid storage cavity, and a valve is arranged on the water replenishing tube 23; when the sunlight irradiation is strong, the heat absorption liquid is heated and expanded, the heat absorption liquid is stored in the liquid storage chamber of the liquid storage box 21, and when the sunlight irradiation is weakened, the heat absorption liquid with high temperature flows back from the pressure gauge 22 to provide heat, so that the solar energy utilization rate is improved.

The utility model relates to a device for glass tube thermal power generation, which is characterized in that when in work, equipment is firstly arranged at a place with sufficient sunlight irradiation, then a sufficient amount of heat absorption liquid is injected into a lower main pipe 2, an upper main pipe 3, a plurality of heat collection pipes 4 and a circulating pipe 5 through a water supplementing pipe 23, then the plurality of heat collection pipes 4 absorb solar energy and convert the solar energy into heat energy, the heat absorption liquid rises to the upper main pipe 3 after being heated, the flow of the heat absorption liquid is automatically adjusted through a flow valve 20, the heat energy is conveyed to a power generation device 6 through the circulating pipe 5, a piston of a heat engine 14 is driven by the heat energy transmitted by the circulating pipe 5 to reciprocate in a cylinder body of the heat engine 14, the piston and a piston rod drive a flywheel 16 and a connecting rod 17 to drive a rotor of a generator 15 to rotate and generate power and convey the power to a power grid, the heat absorption liquid after being cooled is pressurized and conveyed through a circulating pump 13 and flows back to the lower main pipe 2 through the circulating pipe 5, meanwhile a steering engine 11 pushes a pull rod 10 to move through a rocker 12, a plurality of pendulum rods 9 and a plurality of reflection of light groove 7 of linkage are rotatory along a plurality of bearings 8, make a plurality of reflection of light grooves 7 face the sun all the time, make a plurality of reflection of light grooves 7 focus and reflect sunshine to a plurality of thermal-collecting tubes 4 on can.

According to the device for the glass tube thermal power generation, the installation mode, the connection mode or the arrangement mode are common mechanical modes, and the device can be implemented as long as the beneficial effects of the device can be achieved; the heat collecting tube 4, the flow valve 20, the heat engine 14 and the generator 15 of the device for generating electricity by using glass tubes are purchased from the market, and technicians in the industry only need to install and operate the device according to the attached operating instructions.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A device for glass tube thermal power generation comprises a support frame (1), a lower header pipe (2), an upper header pipe (3), a plurality of heat collecting tubes (4), a circulating tube (5) and power generation equipment (6), wherein the lower header pipe (2) is installed at the bottom of the support frame (1), the upper header pipe (3) is installed at the top of the support frame (1), the lower header pipe (2) and the upper header pipe (3) are respectively provided with a plurality of mounting holes, the right end of the lower header pipe (2) is provided with a water inlet, the right end of the upper header pipe (3) is provided with a water outlet, two ends of the plurality of heat collecting tubes (4) are respectively communicated with the mounting holes of the lower header pipe (2) and the upper header pipe (3), the input end of the circulating tube (5) is communicated with the water outlet of the upper header pipe (3), the output end of the circulating tube (5) is communicated with the water inlet hole of the lower header pipe (2), and the middle section of the circulating tube (5) is connected into the power generation equipment (6); it is characterized by also comprising a plurality of light reflecting grooves (7), a plurality of bearings (8) and a plurality of swing rods (9), pull rod (10), steering wheel (11) and rocker (12), a plurality of reflection of light groove (7) all are provided with the reflection of light concave surface, a plurality of bearings (8) are installed respectively on the lateral wall of house steward (2) and last house steward (3) down, a plurality of bearings (8) are installed with thermal-collecting tube (4) are concentric respectively, the both ends of a plurality of reflection of light groove (7) are rotated with a plurality of bearings (8) respectively and are connected, all install pendulum rod (9) on the lateral wall of reflection of light groove (7), a plurality of pendulum rod (9) all rotate with pull rod (10) through the pivot and are connected, steering wheel (11) are installed on the lateral wall of last house steward (3), the output shaft of steering wheel (11) is connected with the lower extreme of rocker (12), the upper portion of rocker (12) sets up long spout, the long spout of rocker (12) passes through round pin axle sliding connection with the left end of pull rod (10).

2. The apparatus for glass tube thermal power generation according to claim 1, further comprising a circulation pump (13), an output end of the circulation pipe (5) being communicated with a water inlet of the circulation pump (13), a water outlet of the circulation pump (13) being communicated with a water inlet of the lower header pipe (2) through the circulation pipe (5), a driving shaft of the circulation pump (13) being installed concentrically with an output shaft of the motor.

3. The device for glass tube thermal power generation according to claim 2, wherein the power generation equipment (6) further comprises a heat engine (14), a power generator (15), a flywheel (16) and a connecting rod (17), the heat engine (14) is provided with a cylinder body, a piston and a piston rod, the middle section of the circulating pipe (5) is wound on the outer surface of the cylinder body of the heat engine (14), the flywheel (16) is installed on a driving shaft of the power generator (15), a rotating shaft is arranged on the flywheel (16), and the piston rod of the heat engine (14) is connected with the rotating shaft of the flywheel (16) through the connecting rod (17).

4. A glass tube thermal power generation apparatus according to claim 3, further comprising a plurality of heat radiating fins (18), wherein the plurality of heat radiating fins (18) are mounted on the outer surface of the right section of the cylinder body of the heat engine (14).

5. The device for glass tube thermal power generation according to claim 4, further comprising heat insulation cotton (19), wherein the heat insulation cotton (19) wraps the left section of the heat engine (14) and the circulating tube (5) wound thereon, and the outer surface of other parts of the circulating tube (5) is provided with a heat insulation layer.

6. A device for thermal generation of electricity by glass tubes according to claim 5, characterized in that it further comprises a flow valve (20), the flow valve (20) being installed on the circulation pipe (5) before entering the power generating equipment (6), the flow valve (20) being connected to the controller by a line.

7. The device for the thermal power generation of the glass tube as claimed in claim 6, further comprising a liquid storage tank (21), a pressure gauge (22) and a water replenishing pipe (23), wherein a liquid storage chamber is arranged inside the liquid storage tank (21), a heat insulation layer is arranged outside the liquid storage tank (21), the liquid storage chamber of the liquid storage tank (21) is communicated with the circulating pipe (5) through a pipeline, the pressure gauge (22) is arranged on the side wall of the liquid storage tank (21), the water replenishing pipe (23) is arranged on the upper end surface of the liquid storage tank (21), the output end of the water replenishing pipe (23) extends into the liquid storage chamber, and a valve is arranged on the water replenishing pipe (23).

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