CN209569119U - A kind of wind-driven generator of thermal energy storage function - Google Patents

Abstract

The utility model discloses a kind of wind-driven generators of thermal energy storage function, including heat insulation tank, generator thermal source mechanism, drainpipe, relief valve pipe and check valve, the heat insulation tank is connected with one end of air inlet insulating tube, and the other end of air inlet insulating tube is connected with generator thermal source mechanism, the drainpipe is mounted on the bottom end of heat insulation tank, and the side wall at the top of heat insulation tank is equipped with relief valve pipe, the bottom end of the heat insulation tank is equipped with motor, and motor is connected with the shaft being located inside heat insulation tank, and shaft is connected with stirring rod, the heat insulation tank is internally provided with cross bar, and regulation pipe is installed in heat insulation tank.The wind-driven generator of the thermal energy storage function, by heat caused by the air compressor machine and the generator thermal source mechanism that is constituted of compressed gas holding vessel in wind powered generator system, reasonably it is directed into heat insulation tank, ensure that the heat in generator thermal source mechanism can be by effective Collection utilization, it is more reasonable to design.

Description

A kind of wind-driven generator of thermal energy storage function

Technical field

The utility model relates to technical field of wind power generator, specially a kind of wind-driven generator of thermal energy storage function.

Background technique

Wind-driven generator be it is existing and apply very extensive new energy equipment, due to wind-driven generator electricity production rate with The use rate of relevant device often will appear unmatched situation, from the point of view of energy conservation and environmental protection, so can be in wind-force Compressed air is stored using energy storage device in generator, but existing wind-driven generator in actual use there is The shortcomings that heat energy utilization is unreasonable, and leading to the service efficiency of wind-driven generator can not further be promoted.In view of the above-mentioned problems, being badly in need of Innovative design is carried out on the basis of original wind-driven generator.

Utility model content

The purpose of this utility model is to provide a kind of wind-driven generators of thermal energy storage function, to solve above-mentioned background skill The problem of heat energy utilization is unreasonable, and leading to the service efficiency of wind-driven generator can not further be promoted is proposed in art.

To achieve the above object, the utility model provides the following technical solutions: a kind of wind-power electricity generation of thermal energy storage function Machine, including heat insulation tank, generator thermal source mechanism, drainpipe, relief valve pipe and check valve, the heat insulation tank and air inlet insulating tube One end is connected, and the other end of air inlet insulating tube is connected with generator thermal source mechanism, and the drainpipe is mounted on heat insulation tank Bottom end, and the side wall at the top of heat insulation tank is equipped with relief valve pipe, and the bottom end of the heat insulation tank is equipped with motor, and motor It is connected with the shaft being located inside heat insulation tank, and shaft is connected with stirring rod, the heat insulation tank is internally provided with cross Bar, and regulation pipe is installed in heat insulation tank.

Preferably, in heat insulation tank, the stirring rod is equidistantly symmetrically distributed under shaft the shaft vertical distribution Half section, and the upper section of shaft is to disconnect design, and the both ends of the shaft disconnected is connected with curved bar respectively.

Preferably, the curved bar is in "U" shaped structure, and middle section is rotatably connected to swivel becket, and the surface of swivel becket with Cross bar is fixedly connected.

Preferably, the end of the cross bar is connected with valve block, and valve block is coincide in transmission cylinder, and the end point of transmission cylinder It is connected with delivery pipe, the tail end of delivery pipe is mounted on the lower section of heat preservation tank level.

Preferably, the surface of the valve block and cross bar are rotation connection, and the transmission cylinder is mounted on heat insulation tank and the two It is connected, is mounted on check valve on the delivery pipe and air inlet insulating tube.

Preferably, one end of the regulation pipe is located at the lower section of liquid level in heat insulation tank, and the other end is located at the top of liquid level, and Its inner wall is hollow structure.

Compared with prior art, the utility model has the beneficial effects that the wind-driven generator of the thermal energy storage function:

1. by air compressor machine and the generator thermal source mechanism that is constituted of compressed gas holding vessel in wind powered generator system Generated heat, is reasonably directed into heat insulation tank, it is ensured that the heat in generator thermal source mechanism can be received effectively Collection utilizes, and it is more reasonable to design；

2. curved bar and shaft and cross bar is isostructural is used cooperatively, can by the operation of motor to high-temperature gas into Row conveying, while hot gas and water can be made to come into full contact with by way of stirring, it is ensured that the utilization efficiency of thermal energy.

Detailed description of the invention

Fig. 1 is the utility model positive structure diagram；

Fig. 2 is enlarged structure schematic diagram at A in the utility model Fig. 1；

Fig. 3 is that the utility model transmission cylinder just cuts open structural schematic diagram.

In figure: 1, heat insulation tank；2, air inlet insulating tube；3, generator thermal source mechanism；4, drainpipe；5, relief valve pipe；6, electric Motivation；7, shaft；71, curved bar；72, swivel becket；8, stirring rod；9, cross bar；91, valve block；92, transmission cylinder；93, delivery pipe；10, Check valve；11, regulation pipe.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of wind-driven generator of thermal energy storage function, Including heat insulation tank 1, air inlet insulating tube 2, generator thermal source mechanism 3, drainpipe 4, relief valve pipe 5, motor 6, shaft 7, curved bar 71, swivel becket 72, stirring rod 8, cross bar 9, valve block 91, transmission cylinder 92, delivery pipe 93, check valve 10 and regulation pipe 11, heat insulation tank 1 It is connected with one end of air inlet insulating tube 2, and the other end of air inlet insulating tube 2 is connected with generator thermal source mechanism 3, drainpipe 4 are mounted on the bottom end of heat insulation tank 1, and the side wall at 1 top of heat insulation tank is equipped with relief valve pipe 5, and the bottom end of heat insulation tank 1 is equipped with electricity Motivation 6, and motor 6 is connected with the shaft 7 being located inside heat insulation tank 1, and shaft 7 is connected with stirring rod 8, heat insulation tank 1 is internally provided with cross bar 9, and regulation pipe 11 is equipped in heat insulation tank 1.

For 7 vertical distribution of shaft in heat insulation tank 1, stirring rod 8 is equidistantly symmetrically distributed in the lower semisection of shaft 7, and shaft 7 Upper section be disconnect design, and disconnect 7 both ends of shaft be connected respectively with curved bar 71, curved bar 71 be in "U" shaped structure, Middle section is rotatably connected to swivel becket 72, and the surface of swivel becket 72 is fixedly connected with cross bar 9, and the operation of motor 6 will drive guarantor Shaft 7 in warm tank 1 rotates synchronously, and when water of the hot gas being passed through in heat insulation tank 1 inside with it contacts, can generate one to water The effect of heating, and the rotation of shaft 7 will drive that stirring rod 8 rotates together, stirring rod 8 can then drive heat by way of stirring Gas comes into full contact with water in heat insulation tank 1, it is ensured that the effect of heat energy utilization.

The end of cross bar 9 is connected with valve block 91, and valve block 91 is coincide in transmission cylinder 92, and the end point of transmission cylinder 92 with Delivery pipe 93 is connected, and the tail end of delivery pipe 93 is mounted on the lower section of liquid level in heat insulation tank 1, and surface and the cross bar 9 of valve block 91 are Rotation connection, transmission cylinder 92 is mounted on heat insulation tank 1 and the two is connected, and is mounted on delivery pipe 93 and air inlet insulating tube 2 Check valve 10, the rotation of shaft 7 can also drive curved bar 71 to rotate synchronously accordingly, involve induced effect in curved bar 71 at this time Under, the end point of cross bar 9 can be rotated on curved bar 71 by swivel becket 72, and cross bar 9 itself can also come up in the horizontal direction Return is dynamic, and the movement of cross bar 9 then will drive valve block 91 and slidably reciprocate in transmission cylinder 92, as shown in Fig. 3 and Fig. 1, when valve block 91 When being moved to the left, it is the air compressor machine and compressed gas holding vessel in wind powered generator system to generator thermal source mechanism 3(, two Person can generate heat at runtime, for existing equipment and technology) in heat then can be drawn to transmission by air inlet insulating tube 2 In cylinder 92, when valve block 91 moves right, the hot gas in transmission cylinder 92 can then enter in heat insulation tank 1 along delivery pipe 93 In water, hot gas can then heat water during contacting with water.

One end of regulation pipe 11 is located at the lower section of liquid level in heat insulation tank 1, and the other end is located at the top of liquid level, and its inner wall is Hollow structure, during gas transmission heating, part gas liquid can circulate from regulation pipe 11, and regulation pipe 11 is one and is used for Water flowing/liquid pipeline, and the tube wall of pipeline is vacuum structure, it is ensured that the heat insulation effect of regulation pipe 11, it is ensured that regulation pipe 11 The gas/liquid of middle circulation can be kept the temperature well.

Working principle: the operation of motor 6, the shaft 7 that will drive in heat insulation tank 1 are rotated synchronously, are passed through in heat insulation tank 1 When water of the hot gas inside with it contacts, the effect of a heating can be generated to water, and the rotation of shaft 7 will drive stirring rod 8 Rotation, stirring rod 8 then can drive hot gas to come into full contact with water in heat insulation tank 1 by way of stirring together, it is ensured that thermal energy is sharp Effect, the rotation of shaft 7 can also drive curved bar 71 to rotate synchronously accordingly, involve induced effect in curved bar 71 at this time Under, the end point of cross bar 9 can be rotated on curved bar 71 by swivel becket 72, and cross bar 9 itself can also come up in the horizontal direction Return is dynamic, and the movement of cross bar 9 then will drive valve block 91 and slidably reciprocate in transmission cylinder 92, as shown in Fig. 3 and Fig. 1, when valve block 91 When being moved to the left, it is the air compressor machine and compressed gas holding vessel in wind powered generator system to generator thermal source mechanism 3(, two Person can generate heat at runtime, for existing equipment and technology) in heat then can be drawn to transmission by air inlet insulating tube 2 In cylinder 92, when valve block 91 moves right, the hot gas in transmission cylinder 92 can then enter in heat insulation tank 1 along delivery pipe 93 In water, hot gas can then heat water during contacting with water.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of wind-driven generator of thermal energy storage function, including heat insulation tank (1), generator thermal source mechanism (3), drainpipe (4), Relief valve pipe (5) and check valve (10), it is characterised in that: the heat insulation tank (1) is connected with one end of air inlet insulating tube (2), And the other end of air inlet insulating tube (2) is connected with generator thermal source mechanism (3), the drainpipe (4) is mounted on heat insulation tank (1) Bottom end, and the side wall at the top of heat insulation tank (1) is equipped with relief valve pipe (5), and the bottom end of the heat insulation tank (1) is equipped with motor (6), and motor (6) is connected with the shaft (7) for being located at heat insulation tank (1) inside, and shaft (7) is connected with stirring rod (8) It connects, the heat insulation tank (1) is internally provided with cross bar (9), and regulation pipe (11) are equipped in heat insulation tank (1).

2. a kind of wind-driven generator of thermal energy storage function according to claim 1, it is characterised in that: the shaft (7) For vertical distribution in heat insulation tank (1), the stirring rod (8) is equidistantly symmetrically distributed in the lower semisection of shaft (7), and shaft (7) Upper section be disconnect design, and disconnect shaft (7) both ends be connected respectively with curved bar (71).

3. a kind of wind-driven generator of thermal energy storage function according to claim 2, it is characterised in that: the curved bar (71) In "U" shaped structure, middle section is rotatably connected to swivel becket (72), and the surface of swivel becket (72) is fixedly connected with cross bar (9).

4. a kind of wind-driven generator of thermal energy storage function according to claim 1, it is characterised in that: the cross bar (9) End be connected with valve block (91), valve block (91) is coincide in transmission cylinder (92), and the end point of transmission cylinder (92) and conveying Pipe (93) is connected, and the tail end of delivery pipe (93) is mounted on the lower section of heat insulation tank (1) interior liquid level.

5. a kind of wind-driven generator of thermal energy storage function according to claim 4, it is characterised in that: the valve block (91) Surface and cross bar (9) be rotation connection, the transmission cylinder (92) is mounted on heat insulation tank (1) and the two is connected, described defeated It send and is mounted on check valve (10) on pipe (93) and air inlet insulating tube (2).

6. a kind of wind-driven generator of thermal energy storage function according to claim 1, it is characterised in that: the regulation pipe (11) one end is located at the lower section of liquid level in heat insulation tank (1), and the other end is located at the top of liquid level, and its inner wall is hollow structure.