阅读说明：本技术 一种自动旋转发电机组 (Automatic rotating generator set ) 是由 唐兴 于 2018-07-16 设计创作，主要内容包括：本发明提供了一种自动旋转发电机组,其机架内部设置有储存腔体,储存腔体以其中心的转动轴为支点在机架内部转动,所述储存腔体的外周设置九个外钢体,所述外钢体内部的空间与储存腔体内部连通,所述外钢体另一端端面设置滑动部；所述机架设置有下轨道和上轨道,所述滑动部在储存腔体转动时分别与所述上轨道和下轨道滑动连接；储存腔体内部设置有流动体,所述流动体随储存腔体转动而下落至位于机架下半部分的多个内钢体中,并驱动所述滑动部向远离外钢体的方向移动,滑动部在流动体的驱动下,沿下轨道表面滑动,所述外钢体在滑动部的带动下转动,进而带动所述储存腔体转动；以解决现有的发电装置污染大、适用性差、设备建设条件要求高等缺陷。(The invention provides an automatic rotary generator set, wherein a storage cavity is arranged in a rack, the storage cavity rotates in the rack by taking a rotating shaft at the center of the storage cavity as a fulcrum, nine outer steel bodies are arranged on the periphery of the storage cavity, the space in the outer steel bodies is communicated with the interior of the storage cavity, and a sliding part is arranged on the end face of the other end of each outer steel body; the rack is provided with a lower rail and an upper rail, and the sliding part is respectively connected with the upper rail and the lower rail in a sliding manner when the storage cavity rotates; the movable body is arranged in the storage cavity, falls into a plurality of inner steel bodies positioned at the lower half part of the rack along with the rotation of the storage cavity and drives the sliding part to move towards the direction far away from the outer steel bodies, the sliding part slides along the surface of a lower track under the driving of the movable body, and the outer steel bodies are driven by the sliding part to rotate so as to drive the storage cavity to rotate; the defects that the existing power generation device is large in pollution, poor in applicability, high in equipment construction condition requirement and the like are overcome.)

1. An automatic rotatory generating set which characterized in that: the storage cavity rotates inside the rack by taking the rotating shaft as a fulcrum, nine outer steel bodies are uniformly arranged on the peripheral edge of the storage cavity, an inner steel body is formed in the space inside the outer steel bodies, the nine outer steel bodies extend along the direction far away from the storage cavity and form a structure with the same volume as each inner steel body, the space inside the outer steel bodies is communicated with the inside of the storage cavity, and a sliding part is arranged on the end face of the other end of each outer steel body;

the lower half part of the rack is provided with a lower rail, the upper half part of the rack is provided with an upper rail, and the sliding part is axially far away from or close to the outer steel body along the inner steel body when the storage cavity rotates and is respectively connected with the upper rail and the lower rail in a sliding manner;

the rotating shaft is arranged close to the lower part of one side edge of the rack, the rotating shaft deviates from the center of the rack to form an eccentric shaft of the rack, a lower track at the shortest distance from the rotating shaft is a lower track starting end, a lower track at the longest distance from the rotating shaft is a lower track terminating end, an upper track at the shortest distance from the rotating shaft is an upper track terminating end, and an upper track at the longest distance from the rotating shaft is an upper track starting end;

when the rotating shaft rotates, the sliding part is gradually far away from the outer steel body along the direction that the starting end of the lower rail is close to the terminating end of the lower rail and slides on the surface of the lower rail; the sliding part is gradually close to the outer steel body along the direction that the starting end of the upper rail approaches the ending end of the upper rail and slides on the surface of the upper rail;

the movable body is arranged in the storage cavity, falls into a plurality of inner steel bodies positioned on the lower half part of the rack along with the rotation of the storage cavity and drives the sliding part to move in the direction far away from the outer steel bodies, the sliding part slides along the surface of a lower rail under the driving of the movable body, and the outer steel bodies are driven by the sliding part to rotate so as to drive the storage cavity to rotate;

the middle part of frame one side is provided with the hydraulic pump, store the cavity and rotate under the drive of hydraulic pump and the drive of outer steel body.

2. The automatic rotary generator set of claim 1, wherein: the sliding part is connected with the inner surface of the lower rail in a sliding manner, and the sliding part is connected with the outer surface of the upper rail in a sliding manner;

the radius width of the lower track is gradually enlarged from the starting end of the lower track to the ending end of the lower track;

the radius width of the upper track is gradually enlarged from the ending end of the upper track to the starting end of the upper track;

the radius width of any point on the upper track is smaller than that of any point on the lower track.

3. The automatic rotary generator set of claim 1 or 2, wherein: the inside piston spare that is provided with of outer steel body, the piston spare with the inner wall connection of outer steel body, the output of piston spare with the sliding part is connected, the input of piston spare with the body contact that flows, and the body that flows whereabouts extremely the direction of keeping away from the axis of rotation is removed under the drive of the kinetic energy that produces during the input, the output is in the direction of keeping away from the axis of rotation removes under the drive of input, and drives the sliding part stretches out outer steel body.

4. The automatic rotary generator set of claim 3, wherein: the output end of the piston piece is provided with a pressure connecting rod, and the other end of the pressure connecting rod extends out of the lower end face of the outer steel body and then is vertically connected with the upper surface of the sliding part;

the output end of the piston piece around the pressure connecting rod is provided with four guide rods, and the other ends of the four guide rods extend out of the lower end face of the outer steel body and then are vertically connected with the upper surface of the sliding part.

5. The automatic rotary generator set of claim 4, wherein: when the sliding part is positioned at the starting end of the lower rail, the pressure connecting rod and the guide rod extend into the outer steel body, the input end of the piston piece is positioned at the upper half part of the inner steel body, when the sliding part is positioned at the terminating end of the lower rail, the pressure connecting rod and the guide rod extend out of the outer steel body, and the input end of the piston piece is positioned at the lower half part of the inner steel body;

the sliding part is located when going up the track initiating terminal, pressure connecting rod and guide bar stretch out outer steel body, the input of piston spare is located the lower half of interior steel body, the sliding part is located when going up the track termination end, pressure connecting rod and guide bar stretch into outer steel body, piston spare input is located first half of interior steel body.

6. The automatic rotary generator set of claim 5, wherein: the sliding part includes balance plate, set square, balance bridge and gyro wheel, the balance plate is established the top of sliding part, the lower surface of balance plate is equipped with the set square of two position symmetries, rotate on the set square and connect the balance bridge, the both ends of balance bridge length direction are provided with the gyro wheel respectively.

7. The automatic rotary generator set of claim 6, wherein: the upper surface of balance plate connects pressure connecting rod and four simultaneously the guide bar, the set-square is established immediately the balance plate lower surface, the set-square middle part sets up the center pin, the center of balance bridge with the center pin connection makes the balance bridge rotates along the center pin, the gyro wheel is established on the outside surface of balance bridge.

8. The automatic rotary generator set of claim 6 or 7, wherein: the sliding part further comprises a valve core, the valve core is arranged on a balance plate between the two triangular plates, one end of the valve core is provided with a gas wheel, the other end of the valve core penetrates through the balance plate and then is connected with a gas pipe, the gas pipe penetrates through the pressure connecting rod, one end of the gas pipe, which is far away from the valve core, is provided with a gas pipe plug, and the gas pipe plug is connected with the piston piece;

the surface of the output end of the piston piece is provided with a through hole, and the air pipe plug is arranged in the through hole and is in sealing connection with the through hole;

when the gas turbine sinks, the gas pipe plug extends out of the through hole, so that the inner steel body communicated with the storage cavity is in a non-sealing state, and when the sliding part extends into the inner steel body along the direction gradually approaching to the outer steel body, the gas in the inner steel body is discharged through the through hole while the piston part acts.

9. The automatic rotary generator set of claim 8, wherein: the middle part of the upper rail is provided with a valve rail, when the sliding part slides on the surface of the upper rail, the gas wheel slides on the valve rail, the gas wheel is guided by the valve rail to contract downwards, and then the gas pipe is driven to extend into the inner steel body in the direction close to the rotating shaft, so that the gas pipe plug penetrates out of the through hole.

10. The automatic rotary generator set of claim 9, wherein: nine connect the running gear simultaneously on the outer steel body, the power generation facility is connected to the running gear block, the outer steel body of drive rotates when storing the cavity and rotate, and then drives the running gear, power generation facility is in the normal running fit with running gear down and is generated electricity.

Technical Field

The invention relates to the technical field of rotary generators, in particular to an automatic rotary generator set.

Background

The existing power generation projects in China mainly comprise five power generation projects,

1. thermal power generation, which is the earliest power generation method in the world and has the largest energy demand in the current environment, is the most environmentally-friendly situation, so that thermal power generation not only seriously pollutes surrounding areas, but also seriously affects the health of factory workers.

2. Hydroelectric power generation has low adaptability, and plant sites need to be established in mountainous areas or special areas generally, so that although the pollution of hydroelectric power generation is low, the requirement on energy is high, the popularization type is poor, and the requirement on increasing power consumption in the development of modern society cannot be met.

3. Wind power generation and water power generation are the same, adaptability is poor, power generation is unstable, requirements for environment are high, popularization cannot be achieved, investment cost is high, return is low, and generated energy cannot meet increasing power utilization requirements of people.

4. The nuclear power generation has high efficiency and high capacity, but due to the undeveloped power generation mode in the prior art, the power generation mode has many defects, the construction period is long, the environment is polluted, meanwhile, the potential safety hazard is great, and the popularization and the use are not facilitated.

5. Solar power generation is the best and most environment-friendly power generation mode at present, but due to the defects of the prior art, the mode has serious energy loss, the utilization rate of power generation equipment is low, the service life is short, the occupied area is large, and the capacity is low and unstable under the limitation of the prior art, so that the power generation equipment cannot be industrialized.

Disclosure of Invention

The invention is made in view of the above problems, and provides an automatic rotating power generation device, so as to improve the defects of environmental pollution, low capacity, poor applicability, unstable power generation and the like in the prior art, specifically, the device comprises a rack, wherein a storage cavity is arranged in the rack, a rotating shaft is arranged at the center of the storage cavity, the storage cavity rotates in the rack by taking the rotating shaft as a fulcrum, nine outer steel bodies are uniformly arranged at the peripheral edge of the storage cavity, an inner steel body is formed in the space inside the outer steel bodies, the nine outer steel bodies respectively extend in the direction away from the storage cavity and form a structure with equal volume of each inner steel body, the space inside the outer steel bodies is communicated with the inside of the storage cavity, and a sliding part is arranged on the end face of the other end of each outer steel body;

the lower half part of the rack is provided with a lower rail, the upper half part of the rack is provided with an upper rail, and the sliding part is axially far away from or close to the outer steel body along the inner steel body when the storage cavity rotates and is respectively connected with the upper rail and the lower rail in a sliding manner;

the rotating shaft is arranged close to the lower part of one side edge of the rack, the rotating shaft deviates from the center of the rack to form an eccentric shaft of the rack, a lower track at the shortest distance from the rotating shaft is a lower track starting end, a lower track at the longest distance from the rotating shaft is a lower track terminating end, an upper track at the shortest distance from the rotating shaft is an upper track terminating end, and an upper track at the longest distance from the rotating shaft is an upper track starting end;

when the rotating shaft rotates, the sliding part is gradually far away from the outer steel body along the direction that the starting end of the lower rail is close to the terminating end of the lower rail and slides on the surface of the lower rail; the sliding part is gradually close to the outer steel body along the direction that the starting end of the upper rail approaches the ending end of the upper rail and slides on the surface of the upper rail;

the movable body is arranged in the storage cavity, falls into a plurality of inner steel bodies positioned on the lower half part of the rack along with the rotation of the storage cavity and drives the sliding part to move in the direction far away from the outer steel bodies, the sliding part slides along the surface of a lower rail under the driving of the movable body, and the outer steel bodies are driven by the sliding part to rotate so as to drive the storage cavity to rotate;

the middle part of frame one side is provided with the hydraulic pump, store the cavity and rotate under the drive of hydraulic pump and the drive of outer steel body.

Preferably, the sliding part is connected with the inner surface of the lower rail in a sliding manner, and the sliding part is connected with the outer surface of the upper rail in a sliding manner;

the radius width of the lower track is gradually enlarged from the starting end of the lower track to the ending end of the lower track;

the radius width of the upper track is gradually enlarged from the ending end of the upper track to the starting end of the upper track;

the radius width of any point on the upper track is smaller than that of any point on the lower track.

Preferably, the inside piston spare that is provided with of outer steel body, the piston spare with the inner wall connection of outer steel body, the output of piston spare with the sliding part is connected, the input of piston spare with the body contact that flows, and the body that flows falls extremely the direction of keeping away from the axis of rotation is removed under the drive of the kinetic energy that produces during the input, the output is in the direction of keeping away from the axis of rotation removes under the drive of input, and drives the sliding part stretches out outer steel body.

Preferably, the output end of the piston piece is provided with a pressure connecting rod, and the other end of the pressure connecting rod extends out of the lower end face of the outer steel body and then is vertically connected with the upper surface of the sliding part;

the output end of the piston piece around the pressure connecting rod is provided with four guide rods, and the other ends of the four guide rods extend out of the lower end face of the outer steel body and then are vertically connected with the upper surface of the sliding part.

Preferably, when the sliding part is located at the starting end of the lower rail, the pressure connecting rod and the guide rod extend into the outer steel body, the input end of the piston part is located at the upper half part of the inner steel body, when the sliding part is located at the terminating end of the lower rail, the pressure connecting rod and the guide rod extend out of the outer steel body, and the input end of the piston part is located at the lower half part of the inner steel body;

the sliding part is located when going up the track initiating terminal, pressure connecting rod and guide bar stretch out outer steel body, the input of piston spare is located the lower half of interior steel body, the sliding part is located when going up the track termination end, pressure connecting rod and guide bar stretch into outer steel body, piston spare input is located first half of interior steel body.

Preferably, the sliding part includes balance plate, set-square, balance bridge and gyro wheel, the balance plate is established the top of sliding part, the lower surface of balance plate is equipped with the set-square of two position symmetries, rotate on the set-square and connect the balance bridge, the both ends of balance bridge length direction are provided with the gyro wheel respectively.

Preferably, the upper surface of balance plate connects pressure connecting rod and four simultaneously the guide bar, the set-square is established immediately the balance plate lower surface, the set-square middle part sets up the center pin, the center of balance bridge with the center pin connection makes the balance bridge rotates along the center pin, the gyro wheel is established on the outside surface of balance bridge.

Preferably, the sliding part further comprises a valve core, the valve core is arranged on a balance plate between the two triangular plates, one end of the valve core is provided with an air wheel, the other end of the valve core penetrates through the balance plate and then is connected with an air pipe, the air pipe penetrates through the pressure connecting rod, one end of the air pipe, far away from the valve core, is provided with an air pipe plug, and the air pipe plug is connected with the piston piece;

the surface of the output end of the piston piece is provided with a through hole, and the air pipe plug is arranged in the through hole and is in sealing connection with the through hole;

when the gas turbine sinks, the gas pipe plug extends out of the through hole, so that the inner steel body communicated with the storage cavity is in a non-sealing state, and when the sliding part extends into the inner steel body along the direction gradually approaching to the outer steel body, the gas in the inner steel body is discharged through the through hole while the piston part acts.

Preferably, a valve track is arranged in the middle of the upper track, when the sliding part slides on the surface of the upper track, the air wheel slides on the valve track, the air wheel contracts downwards under the guidance of the valve track, and then the air pipe is driven to extend into the inner steel body in the direction close to the rotating shaft, so that the air pipe plug penetrates out of the through hole.

Preferably, nine outer steel bodies are simultaneously connected with rotating gears, the rotating gears are clamped and connected with a power generation device, the outer steel bodies are driven to rotate when the storage cavities rotate, and then the rotating gears are driven, and the power generation device generates power under the rotating matching of the power generation device and the rotating gears.

The invention has the beneficial effects that:

the automatic rotary power generation device with the structure has the advantages that the required external energy is low under the driving of the flow body, the whole device is environment-friendly, and the surrounding environment is not polluted, meanwhile, the flow body is arranged in the storage cavity, the flow body falls into the inner steel body from the inside to push the sliding part to slide along the track, the movement of the sliding part is limited by the track, the double stable rotating effect is ensured, the device is rotated to drive the external power generator to move, and the electric energy is generated, therefore, the device with the technical scheme has high applicability, can be suitable for any environment, cannot be popularized due to environmental limitation, has good sealing performance and is not influenced by the surrounding environment, and the inside of the device can be exhausted through the through hole under the condition that the sliding part shrinks towards the direction of the rotating shaft under the condition that the sealing performance is good through the arrangement of the valve core, the falling speed of the flowing body is accelerated, and the normal operation of the equipment is ensured, so that the equipment in the technical scheme rotates under the driving of the kinetic energy generated by the flowing body in the equipment, which is incomparable with the prior art and has a good prospect.

Drawings

The invention is further illustrated by means of the attached drawings, the examples of which are not to be construed as limiting the invention in any way.

Fig. 1 is a schematic structural diagram of an automatic rotary generator set according to an embodiment.

Fig. 2 is a schematic structural diagram of the automatic rotary generator set of the embodiment.

FIG. 3 is a schematic view of the internal structure of the outer steel body of the embodiment.

FIG. 4 is a schematic view of the valve orbit of the embodiment in contact with the gas wheel.

Fig. 5 is a schematic structural view of the roller of the embodiment when sliding on the upper rail.

Fig. 1, 2, 3, 4, and 5 include:

1-a frame;

11-frame plate;

2-a storage chamber;

21-rotating shaft;

3-outer steel body;

4-sliding part;

41-balance plate;

42-set square;

43-balance bridge;

44-roller;

45-central axis;

46-valve core;

47-gas wheel;

48-trachea;

49-tracheal plug;

5-lower track;

51-lower track start;

52-lower track termination;

6-upper track;

61-start of upper track;

62-upper track termination;

7-a fluid;

8-a piston member;

81-pressure link;

82-guide bar;

83-output terminal;

84-input terminal;

85-through hole;

9-valve orbit;

10-rotating gear.

Detailed Description

The invention is further described with reference to the following examples: