CN209233768U - A kind of energy conservation electrical storage type distributed new generating equipment - Google Patents

Abstract

The utility model discloses a kind of energy saving electrical storage type distributed new generating equipments, including the shell that generates electricity, magnetic suspending wind turbine generator has been bolted in the top exterior walls of the power generation shell, the same horizontal positioned support plate is bolted in power generation shell two sides top inner wall, and the top side outer wall of support plate has been connected by screw to processor, support frame has been bolted in the power generation shell two sides and one end outer wall, and solar panel has been bolted far from the side outer wall of power generation shell in support frame, and the inner wall of mounting groove has been connected by screw to semiconductor chilling plate.In the utility model, by being provided with solar panel and magnetic suspending wind turbine generator, generating equipment can be made to can use wind energy, and it can also generate electricity in rainy days and night, improve generating efficiency, solar panel slant setting increases the transmission area of sunlight and improves generating efficiency.

Description

An energy-saving and storage-type distributed new energy power generation equipment

technical field

The utility model relates to the technical field of new energy power generation equipment, in particular to an energy-saving and storage type distributed new energy power generation equipment.

Background technique

New energy, also known as unconventional energy, refers to various energy forms other than traditional energy, and refers to energy that has just begun to be developed and utilized or is being actively researched and yet to be promoted.

For example, solar energy, geothermal energy, wind energy, ocean energy, biomass energy and nuclear fusion energy are all new energy sources. New energy power generation equipment is mechanical equipment that converts the above energy into electrical energy, but now people generally use solar energy. To generate power, but in rainy days and nights, the power generation equipment cannot be powered, which reduces the power generation efficiency, and the current power generation equipment has poor heat dissipation effect, which is not conducive to internal heat dissipation of the equipment, and reduces the service life of the power generation equipment.

Utility model content

The purpose of the utility model is to solve the shortcomings in the prior art, and propose an energy-saving and storage type distributed new energy generating equipment, which can effectively solve the problems raised by the background technology.

In order to achieve the above object, the utility model adopts the following technical solutions:

An energy-saving and storage-type distributed new energy power generation equipment, including a power generation housing, the top outer wall of the power generation housing is connected with a magnetic levitation wind generator through bolts, and the top inner walls on both sides of the power generation housing are connected with the same wind power generator through bolts. The support plate is placed horizontally, and the outer wall on the top side of the support plate is connected to the processor by screws, and the two sides and one end of the power generation housing are connected to the support frame by bolts, and the support frame is far away from the outer wall on the side of the power generation housing The solar panel is connected by bolts, the bottom outer wall of the power generation housing is provided with an installation groove, and the inner wall of the installation groove is connected with a semiconductor cooling chip through screws, and the bottom outer wall of the power generation housing is welded with a protective shell, and the protection The inner wall of the housing is connected with a cooling fan through bolts, the inner wall of the bottom side of the power generation housing is connected with a battery through bolts, and the inner wall of one side of the power generation housing is connected with a temperature sensor through screws, and the other end of the power generation housing is connected with a temperature sensor. The outer wall is connected with a water storage tank through bolts, and the bottom inner wall of the water storage tank is connected with a water pump through bolts, and the bottom outer wall at one end of the water storage tank is connected with an observation window through screws, and the output end of the water pump is connected with an outlet pipe through a flange. And the end of the outlet pipe away from the water pump is connected with a hose through a flange, and the outer wall of the other end of the power generation housing is connected with a display screen through bolts.

Preferably, heat dissipation fins distributed equidistantly are plugged into the outer wall of the other end of the power generation housing, and the heat dissipation fins are located below the display screen.

Preferably, the outer wall on the other side of the other end of the power generation casing is connected with equidistant three-hole sockets and two-hole sockets by screws, and the other end of the power generation casing on the other side of the outer wall is hinged with a protective cover.

Preferably, the outer walls at the four corners of the bottom of the power generation housing are all connected with casters by bolts.

Preferably, the outer walls at both ends of the bottom of the two support frames are connected with electric telescopic rods by bolts, and the bottom outer walls of the four electric telescopic rods are all connected with support blocks by bolts.

Preferably, the temperature sensor is electrically connected to the signal input terminal of the processor through a signal line.

Preferably, the semiconductor refrigerating sheet, the electric telescopic rod, the cooling fan, the display screen and the water pump are all connected to switches through wires, and the switches are electrically connected to the processor through wires.

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

1. By providing heat dissipation fins, the power generation equipment working inside the power generation shell can be dissipated. A temperature sensor, processor, semiconductor cooling sheet and cooling fan are installed to cool the equipment with a higher temperature inside the power generation shell. Heat dissipation, improve heat dissipation efficiency, and prevent external dust from entering the power generation casing, thereby improving the service life of the power generation equipment.

2. By installing solar panels and magnetic levitation wind generators, the power generation equipment can use wind energy, and can also generate power in rainy days and nights, which improves the power generation efficiency.

3. It is easy to move the device by setting casters. It is equipped with electric telescopic rods and support blocks to fix the device on the working ground. It is equipped with water storage tanks, pumps, hoses and nozzles, which can control the solar panels and cooling fins. The surface is cleaned to improve the heat dissipation efficiency of the heat dissipation fins and the power generation efficiency of the solar panel.

Description of drawings

Fig. 1 is a schematic cross-sectional structure diagram of the energy-saving and storage type distributed new energy generating equipment proposed by the utility model.

Fig. 2 is a front structural schematic diagram of the energy-saving and storage-type distributed new energy generating equipment proposed by the utility model.

Fig. 3 is a structural schematic diagram of the water storage tank of the energy-saving and storage-type distributed new energy generating equipment proposed by the utility model.

Fig. 4 is a top view structural diagram of the energy-saving and storage type distributed new energy generating equipment proposed by the utility model.

In the figure: 1 solar panel, 2 support frame, 3 electric telescopic rod, 4 storage battery, 5 semiconductor cooling sheet, 6 cooling fan, 7 protective shell, 8 caster, 9 support block, 10 power generation shell, 11 temperature sensor, 12 support plate, 13 maglev wind generator, 14 processor, 15 hose, 16 water storage tank, 17 observation window, 18 cooling fins, 19 protective cover, 20 display screen, 21 water outlet pipe, 22 water pump.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example.

Referring to Figures 1-4, an energy-saving and storage-type distributed new energy power generation equipment includes a power generation housing 10, the top outer wall of the power generation housing 10 is connected with a magnetic levitation wind generator 13 through bolts, and the top inner walls of the power generation housing 10 are The same horizontal support plate 12 is connected by bolts, and the outer wall of the top side of the support plate 12 is connected with the processor 14 by screws, and the two sides and the outer wall of one end of the power generation housing 10 are connected with the support frame 2 by bolts, and the support The outer wall of the frame 2 away from the power generation housing 10 is connected with the solar panel 1 by bolts, the bottom outer wall of the power generation housing 10 is provided with a mounting groove, and the inner wall of the mounting groove is connected with a semiconductor cooling chip 5 by screws, and the power generation housing 10 The outer wall of the bottom of the housing 7 is welded with a protective shell 7, and the inner wall of the protective shell 7 is connected with a cooling fan 6 by bolts. 4. The inner wall of one side of the power generation housing 10 is connected with a temperature sensor 11 by screws, the temperature sensor 11 is located below the support plate 12, and the outer wall of the other end of the power generation housing 10 is connected with a water storage tank 16 by bolts, and the water storage tank 16 The inner wall of the bottom is connected with a water pump 22 by bolts, the outer wall of the bottom of one end of the water storage tank 16 is connected with an observation window 17 by screws, the output end of the water pump 22 is connected with a water outlet pipe 21 through a flange, and the end of the water outlet pipe 21 away from the water pump 22 passes through A hose 15 is connected to the flange, and the outer wall of one end of the hose 15 away from the water outlet pipe 21 is connected with a nozzle through a flange, and the outer wall of the other end of the power generation housing 10 is connected with a display screen 20 through bolts.

In the utility model, the outer wall of the other end of the power generation housing 10 is plugged with heat dissipation fins 18 distributed equidistantly, and the heat dissipation fins 18 are located below the display screen 20, and the outer wall of the other end of the power generation housing 10 is connected by screws. Three-hole sockets and two-hole sockets are equidistantly distributed, and the outer wall on the other side of the other end of the power generation housing 10 is hinged with a protective cover 19, and the protective cover 19 is located outside the three-hole socket and the two-hole socket. The outer walls at the four corners of the bottom are all connected with casters 8 by bolts, and the outer walls at both ends of the bottom of the two support frames 2 are connected with electric telescopic rods 3 by bolts. The bottom outer wall of the telescopic rod 3 is connected with a support block 9 by bolts, and the bottom outer wall of the support block 9 is welded with bumps distributed equidistantly. The temperature sensor 11 is electrically connected with the signal input end of the processor 14 through a signal line. The sheet 5, the electric telescopic rod 3, the cooling fan 6, the display screen 20 and the water pump 22 are all connected with switches through wires, and the switches are electrically connected with the processor 14 through wires.

Working principle: when working, move the device to the working place through the casters 8, then turn on the electric telescopic rod 3 through the switch, fix the power generation housing 10 through the support block 9, and then the solar panel 1 and the magnetic levitation wind generator 13, when working The power generation equipment inside the power generation housing 10 is radiated through the cooling fins 18, and then when the temperature sensor 11 detects that the internal temperature of the power generation equipment 10 reaches a set value, the processor 14 controls the semiconductor cooling fin 5 and the heat dissipation fan 6 to open, To quickly dissipate heat inside the power generation housing 10 , the staff can regularly clean the surfaces of the solar cell panel 1 and the cooling fins 18 through the nozzle on the hose 15 .

The above is only a preferred embodiment of the utility model, but the scope of protection of the utility model is not limited thereto. The equivalent replacement or change of the new technical solution and the concept of the utility model shall be covered by the protection scope of the utility model.

Claims (7)

1. a kind of energy conservation electrical storage type distributed new generating equipment, including power generation shell (10), which is characterized in that the power generation The top exterior walls of shell (10) have been bolted magnetic suspending wind turbine generator (13), (10) two lateral roof of power generation shell The same horizontal positioned support plate (12) is bolted in inner wall, and the top side outer wall of support plate (12) passes through spiral shell Nail is connected with processor (14), and the power generation shell (10) two sides and one end outer wall have been bolted support frame (2), and Support frame (2) has been bolted solar panel (1) far from the side outer wall of power generation shell (10), the power generation shell (10) bottom outer wall offers mounting groove, and the inner wall of mounting groove has been connected by screw to semiconductor chilling plate (5), the hair The bottom outer wall of electric shell (10) is welded with protective casing (7), and radiation air has been bolted in the inner wall of protective casing (7) It fans (6), the bottom side inner wall of power generation shell (10) has been bolted battery (4), and the shell (10) one that generates electricity Side inner wall has been connected by screw to temperature sensor (11), and power generation shell (10) other end side outer wall is bolted Have water tank (16), and the bottom interior wall of water tank (16) has been bolted suction pump (22), the water tank (16) one End bottom outer wall has been connected by screw to observation window (17), and the output end of the suction pump (22) has outlet pipe by flanged joint (21), and outlet pipe (21) has hose (15) far from the one end of suction pump (22) by flanged joint, the power generation shell (10) Display screen (20) have been bolted in other end outer wall.

2. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that the hair Electric shell (10) other end outer wall is plugged with the radiating fin (18) equidistantly distributed, and radiating fin (18) is located at display screen (20) lower section.

3. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that the hair Electric shell (10) other end other side outer wall is connected by screw to the Three-hole socket equidistantly distributed and two spring hole scokets, and generates electricity Shell (10) other end other side outer wall is hinged with protection cap (19) by hinge.

4. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that the hair Castor (8) have been bolted in the bottom four corners outer wall of electric shell (10).

5. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that two institutes The bottom both ends outer wall for stating support frame (2) has been bolted electric telescopic rod (3), and four electric telescopic rods (3) Supporting block (9) have been bolted in bottom outer wall.

6. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that the temperature Sensor (11) are spent to be electrically connected by signal wire and the signal input part of processor (14).

7. a kind of energy saving electrical storage type distributed new generating equipment according to claim 1, which is characterized in that described half Conductor cooling piece (5), electric telescopic rod (3), radiator fan (6), display screen (20) are connected by conducting wire with suction pump (22) There is switch, and switchs and be electrically connected by conducting wire and processor (14).