CN102705194B - Vertical-axis wind-power air compressor - Google Patents

Abstract

The invention discloses a vertical-axis wind-power air compressor which comprises a driving shaft, an air compressor body, a wind power regulating device and a decompression regulation valve. The driving shaft (1) is vertically arranged on the ground via a support. The air compressor body (3) comprises a plurality of air cylinders (33), and the pressure air generated by the air cylinders (33) is transmitted to an air storage room (4) via connecting pipes (5). The wind power regulating device (6) is connected with the decompression regulation valve (7) and used for controlling the on/off of the decompression regulation valve (7). The decompression regulation valve (7) is communicated with the connecting pipes (5) via a decompression pipe (8), and the connecting pipes (5) are connected with parts of the air cylinders (33). The vertical-axis wind-power air compressor is capable of working in breeze condition and generating compressed air, thus utilization rate of the air compressor is improved, and adaptability of the air compressor to environment is further improved.

Description

A kind of vertical shaft wind-power air press

Technical field

The present invention relates to wind-powered machine technical field, particularly a kind of vertical shaft wind-power air press that utilizes wind-force to carry out air energy storage.

Background technique

Wind energy is as the free of contamination green energy resource of one, and reserves are large, distribute wide, and be a kind of development potentiality renewable energy sources greatly.Utilize wind energy, the wind energy that first moving air will be had is transformed into mechanical rotation function, this just needs the effect of wind energy conversion system, utilize wind energy conversion system to drive air compressor to carry out pressurized air, then pressurized air is carried out to storage application in irrigation by pumping or other technical field, make full use of the effect of wind energy.Traditional compressor is all by motor or diesel engine or petrol engine drive, and power consumption is large, befouling environment.

In Chinese patent CN 2575335Y, a kind of revolution speed control mechanism for revolutable is disclosed, this revolution speed control mechanism for revolutable connects air cylinder by blower fan by air pipe and forms, described blower fan is horizontal axis blower fan or vertical shaft cylindrical fan, by fan blade, speed increaser, compression pump shaft is formed by connecting, wherein, the front end of the horizontal axis of described horizontal axis blower fan connects fan blade by flexible rod, speed increaser connects on horizontal axis, compression pump shaft connects speed increaser, the other end that connects the air pipe of compressor pump is communicated with air cylinder, on the vertical shaft of described vertical shaft cylindrical fan, connect cartridge type fan blade, its axle lower end connects speed increaser, compression pump shaft connects speed increaser, the air pipe that connects compressor pump is communicated with air cylinder.

Realizing in process of the present invention, inventor finds that prior art at least exists following shortcoming:

Compared with the wind energy conversion system of upright shaft wind motor and horizontal axis, upright shaft wind motor exists and starts difficult problem, but once after upright shaft wind motor starts up, the influence factor of its wind-engaging is less.Above-mentioned patent documentation is applicable to small wind compressor, because small wind turbine needs less wind-force can make its rotation in the time starting or while operation, and for large-scale or medium-sized revolution speed control mechanism for revolutable, because its diameter of propeller blade is larger, and drive more cylinder above, especially the in the situation that of gentle breeze, be difficult to start or make it keep normal running state.Need in this case to adopt certain measure to reduce the operating load of driving wheel, make it in gentle breeze, also can keep normal work.

In above-mentioned patent documentation, do not disclose in addition the concrete structure of air compressor, therefore cannot know it obtains pressurized gas by which kind of means.

Summary of the invention

Technical problem to be solved by this invention is: the startup of solution air press under gentle breeze is difficult or move difficult problem, makes air press under breeze conditions, be convenient to start and obtain pressurized gas, for use such as irrigations by pumping.

For achieving the above object, the invention provides vertical shaft wind-power air press, described technological scheme is as follows: live axle; Vertically be arranged on ground by support;

Air compressor, it comprises multiple cylinders, the pressed gas that described cylinder produces is delivered to gas storage chamber through connecting tube;

It is characterized in that, described air press also comprises: wind regulating device and decompression control valve, described wind regulating device connects with described decompression control valve, for controlling the keying of described decompression control valve, described decompression control valve is connected with the connecting tube that the described cylinder of same part is connected by pressure relief pipe.

Described wind regulating device is a main drive wheel, and described main drive wheel is nested with the bottom of being fixed on described live axle;

Described decompression control valve comprises:

One running shaft, its rotatable being fixed on a support, moulding one follower on described running shaft, described main drive wheel drives described follower rotation, form the vent of perforation along the axis of described running shaft, in described running shaft, be provided with a valve pocket being connected with described vent;

Centrifugal opening/closing mechanism, connects with described valve pocket, for controlling the break-make of described vent with ambient atmosphere;

Connecting joint, is arranged at the end of described running shaft, and forms rotary seal connection with described running shaft, and described connecting joint is provided with the suction tude being connected with described vent, and described pressure relief pipe is communicated with described suction tude.

Described centrifugal opening/closing mechanism comprises:

Piston, is placed in described valve pocket, forms the adjustment hole being communicated with described vent on it;

Piston rod, perpendicular to described running shaft setting, one end of described piston rod is fixedly connected with described piston through described running shaft, and its other end arranges a centrifugal-block;

On described piston rod, be nested with a Returnning spring, one end of described Returnning spring is fixedly connected with described running shaft, and its other end is fixed on described piston rod.

Further, described centrifugal opening/closing mechanism also comprises: a balanced connecting rod, and described balanced connecting rod is symmetricly set in the both sides of described running shaft with described piston rod, and one end of described balanced connecting rod is flexibly connected with described running shaft, and its other end arranges an equilibrium block;

On described piston rod, be nested with a Returnning spring, one end of described Returnning spring is fixedly connected with described running shaft, and its other end is fixed on described balanced connecting rod.

Preferably, described air compressor also comprises a driving wheel, described driving wheel is nested with and is fixed on described live axle, in the drive surface of described driving wheel, form closed rail structure, the piston rod effect end of described cylinder is constrained in the rail structure of described driving wheel, and slide along described rail structure, described live axle is arranged at the center of described rail structure, perpendicular to being also provided with a connecting rod guide mechanism on the axial direction of described cylinder piston rod, described connecting rod guide mechanism rolls and connects with described piston rod.

Further preferably, described connecting rod guide mechanism comprises multiple upper saw pulleys, and described upper saw pulley is fixed on by connecting rod on the inboard wall of cylinder block of described cylinder; Multiple described upper saw pulleys are distributed on the excircle of described piston rod, and roll and connect with described piston rod.

Preferably, described rail structure is formed by connecting by multistage arc-shaped slide rail head and the tail, and arc-shaped slide rail forms a concavo-convex closed rail structure distributing alternately after connecting described in multistage;

Described arc-shaped slide rail comprises up exhaust arc-shaped slide rail and descending air-breathing arc-shaped slide rail, described exhaust arc-shaped slide rail and air-breathing arc-shaped slide rail are formed by connecting by evagination arc section, straightway and indent arc section respectively, described straightway is tangent with described evagination arc section and indent arc section respectively, the end of described evagination arc section is corresponding to the top dead center position of described cylinder, and the end of described indent arc section is corresponding to the bottom dead center position of described cylinder.

Further preferably, described rail structure takes shape on the circle end face of described driving wheel, described arc-shaped slide rail is the groove taking shape on described driving wheel circle end face, one side of described groove forms anticreep retainer, the effect end of described piston rod is provided with a bearing, and described bearing is placed in described groove, and retrained by described anticreep retainer, when described driving wheel rotation, the bearing that is arranged at described piston rod effect end is done periodically to-and-fro motion around described arc-shaped slide rail.

The beneficial effect of technological scheme provided by the invention is:

1) the present invention has increased wind regulating device and decompression control valve on wind-force press machine, decompression control valve is wherein connected with the connecting tube that the described cylinder of same part is connected by pressure relief pipe, when wind-force press machine is during in gentle breeze, piston rod in wind regulating device makes piston reset under the effect of Returnning spring, and then the adjustment hole of realizing on piston is communicated with described vent, now, the pressed gas that partial cylinders produces is entered the vent of running shaft by relief tube, and then make partial pressure gas obtain outer row, this part cylinder is in unloaded state, this has greatly reduced the operating load of driving wheel to a certain extent, make press machine keep normal working, otherwise, when under the environment of wind-force press machine in larger wind speed, make it produce the higher air of pressure in order to make full use of wind-force press machine, when rotating, centrifugal-block now produces larger centrifugal force, piston rod overcomes the elastic force of Returnning spring and pulls piston outwards to move under the effect of centrifugal force, adjustment hole on piston misplaces with the vent of running shaft, and then vent is isolated with ambient atmosphere, and then makes more cylinder keep normally working and producing pressurized gas.

2) for the ease of realizing the startup of air press, the present invention can make partial cylinders in no-load running state under the environment of gentle breeze, the gas discharging that partial cylinders produces is to atmosphere, the inside and outside air pressure balance that keeps of cylinder, the suffered load of driving wheel is now less, is convenient to realize the startup under breeze conditions.

Brief description of the drawings

In order to be illustrated more clearly in the technological scheme in the embodiment of the present invention, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is vertical shaft wind-power air press structural representation provided by the present invention;

Fig. 2 is the decompression control valve enlarged view of A portion in Fig. 1;

Fig. 3 is the centrifugal opening/closing mechanism structural representation in Fig. 1;

Fig. 4 is the air compressor structure schematic diagram in Fig. 1;

Fig. 5 is the A-A cross section structure schematic diagram in Fig. 4;

Fig. 6 is the B-B cross section structure schematic diagram in Fig. 1;

Fig. 7 is the structural drawing of driving wheel provided by the present invention;

Fig. 8 is a kind of upright shaft wind motor structural representation without upright post type provided by the invention;

Fig. 9 is a kind of upright shaft wind motor structural representation that has upright post type provided by the invention;

Figure 10 is the upright shaft wind motor structural representation that another kind provided by the invention has upright post type.

In figure: 1-live axle, 2-arc-shaped slide rail, 21-evagination arc section, 22-straightway, 23-indent arc section;

3-air compressor, 31-casing, 32-driving wheel, 321-groove, 322-anticreep retainer, 33-cylinder, 331-piston rod, 332-bearing, 4-gas storage chamber, 5-connecting tube, 6-wind regulating device;

7-decompression control valve, 71-running shaft, 711-follower, 712-vent, 713-valve pocket, the centrifugal opening/closing mechanism of 72-, 721-piston, 7211-adjustment hole, 722-piston rod, 7221-centrifugal-block, 7222-Returnning spring, 723-balanced connecting rod, 7231-equilibrium block, 7232-Returnning spring, 73-connecting joint, 731-suction tude;

8-pressure relief pipe, 9-connecting rod guide mechanism, 91-upper saw pulley, 92-connecting rod, 10-fan blade, 101-bearing support, 20-sealing gland element.

Embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Figure 1 shows that a kind of vertical shaft wind-power air press structure provided by the present invention, comprise the compositions such as fan blade 10, live axle 1 and air compressor 3.

Live axle 1; Vertically be arranged on ground by support;

Air compressor 3, it comprises: casing 31, driving wheel 32 and multiple cylinder 33, described cylinder 33 is arranged on described casing 31, and described driving wheel 32 is arranged in described casing 31 and is nested with and is fixed on described live axle 1;

Gas storage chamber 4, it is communicated with the outlet pipe on described cylinder 33 is corresponding by connecting tube 5, in air press, be also provided with wind regulating device 6 and decompression control valve 7, wind regulating device 6 connects with described decompression control valve 7, for controlling the keying of described decompression control valve 7, the connecting tube 5 that described decompression control valve 7 is connected by the described cylinder 33 of pressure relief pipe 8 and same part is connected.

Wind regulating device 6 is wherein a main drive wheel, and described main drive wheel is nested with the bottom of being fixed on described live axle 1, rotates together with live axle.

The structural drawing that Figure 2 shows that decompression control valve 7, it comprises: running shaft, centrifugal opening/closing mechanism and connecting joint.

The bottom of running shaft 71 is arranged in bearing support 101, and be rotatably connected with described bearing support 101, upper end moulding one follower 711 of running shaft 71, described main drive wheel drives described follower 711 to rotate, form the vent 712 of perforation along the axis of running shaft 71, in described running shaft 71, be provided with the valve pocket 713 being connected with described vent 712, the main drive wheel here and follower can directly adopt the kind of drive of gear engagement, the two can be also belt pulley, carry out transmission of power by belt, also can adopt the kind of drive of other form;

Centrifugal opening/closing mechanism 72 is connected with described valve pocket 713, for controlling the break-make of described vent 712 with ambient atmosphere, and connecting joint 73 is arranged at the end of described running shaft 71, and connect with forming rotary seal between running shaft 71, the lower end of running shaft 71 is connected by sealing gland element 20 with connecting joint 73, connecting joint 73 is provided with the suction tude 731 being connected with described vent 712, and pressure relief pipe 8 is communicated with suction tude 731.

As shown in Figure 3, it is composed as follows for centrifugal opening/closing mechanism 72 wherein:

Piston 721, is placed in described valve pocket 713, forms the adjustment hole 7211 that same vent 712 is communicated with on it;

Piston rod 722, arranges perpendicular to described running shaft 71, and one end of piston rod 722 is fixedly connected with piston 721 through running shaft 71, and its other end arranges a centrifugal-block 7221.

On piston rod 722, be nested with a Returnning spring 7222, one end of described Returnning spring 7222 is fixedly connected with described running shaft 71, and its other end is fixed on piston rod 722.

In order to reduce the vibrations of operation, increase the stability of running, preferably also be provided with balanced connecting rod 723 at centrifugal opening/closing mechanism 72, balanced connecting rod 723 and piston rod 722 are symmetricly set in the both sides of described running shaft 71, one end of balanced connecting rod 723 is flexibly connected with running shaft 71, and its other end arranges an equilibrium block 7231, is nested with a Returnning spring 7232 on piston rod, one end of Returnning spring 7232 is fixedly connected with running shaft 71, and its other end is fixed on balanced connecting rod 723.

When wind-force press machine is during in gentle breeze, piston rod 722 in wind regulating device 6 makes piston 721 reset under the effect of Returnning spring 7222, and then the adjustment hole 7211 of realizing on piston 721 is communicated with described vent 712, now, the pressed gas that partial cylinders 33 produces is entered the vent 712 of running shaft 71 by relief tube 8, and then make partial pressure gas obtain outer row, this part cylinder 33 is in unloaded state, the load that this has greatly reduced driving wheel 32 to a certain extent, makes air press keep normal work; Otherwise, when under the environment of wind-force press machine in larger wind speed, in order to make wind-force press machine produce the higher air of pressure, centrifugal-block 7221 rotations produce centrifugal force, piston rod 722 overcomes the elastic force of Returnning spring 7232 and pulls piston 721 to move under the effect of centrifugal force, adjustment hole 7211 on piston 721 misplaces with the vent 712 of running shaft 71, and then vent 712 is isolated with ambient atmosphere, and the pressed gas producing in cylinder 33 is delivered in gas storage chamber 4 by connecting pipeline.

In order to realize the steady speedup operation of air compressor, driving wheel 32 of the present invention is in the drive surface of driving wheel 32, to form closed rail structure, the piston rod 331 effect ends of cylinder 33 are constrained in the rail structure of driving wheel 32, and slide along described rail structure, live axle 1 is arranged at the center of described rail structure, on axial direction perpendicular to described cylinder 33 piston rods 331, be also provided with a connecting rod guide mechanism 9, connecting rod guide mechanism 9 rolls and connects with piston rod 331.

Fig. 5 is the sectional view of connecting rod guide mechanism, and in conjunction with Fig. 4, connecting rod guide mechanism 9 comprises multiple upper saw pulleys 91, and upper saw pulley 91 is fixed on by connecting rod 92 on the inboard wall of cylinder block of cylinder 33; Multiple upper saw pulleys 91 are distributed on the excircle of piston rod 331, and roll and connect with piston rod 331.

Rail structure wherein as shown in Figure 6 and Figure 7.

Rail structure is formed by connecting by multistage arc-shaped slide rail 2 head and the tail, after multistage arc-shaped slide rail 2 connects, forms a concavo-convex closed rail structure distributing alternately; Wherein arc-shaped slide rail 2 comprises up exhaust arc-shaped slide rail and descending air-breathing arc-shaped slide rail, exhaust arc-shaped slide rail and air-breathing arc-shaped slide rail are connect and are formed by evagination arc section 21, straightway 22 and indent arc section 23 respectively, straightway is tangent with described evagination arc section 21 and indent arc section 23 respectively, the end of evagination arc section 21 is corresponding to the top dead center position of cylinder 33, and the end of indent arc section 23 is corresponding to the bottom dead center position of cylinder 33.

See Fig. 6, rail structure takes shape on the circle end face of driving wheel 32, arc-shaped slide rail 2 is for taking shape in the groove 321 on driving wheel 32 circle end faces, one side of groove 321 forms anticreep retainer 322, the effect end of piston rod 331 is provided with a bearing 332, bearing 332 is placed in groove 321, and retrained by described anticreep retainer 322, when driving wheel 32 rotates, the bearing 332 that is arranged at piston rod 331 effect ends is done periodically to-and-fro motion around arc-shaped slide rail 2, this rail structure and connecting rod guide mechanism combine, stability that can well control cylinder, thereby reach the object of stablizing speedup.

In addition, a kind of upright shaft wind motor structure without upright post type provided by the invention, as shown in Figure 8;

Other two kinds of upright shaft wind motor structures that have a upright post type are also provided, as shown in Figure 9 and Figure 10.

The invention described above embodiment's sequence number, just to describing, does not represent embodiment's quality.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (7)

1. a vertical shaft wind-power air press, comprising:

Live axle (1); Vertically be arranged on ground by support (10);

Air compressor (3), it comprises multiple cylinders (33), the pressed gas that described cylinder (33) produces is delivered to gas storage chamber (4) through connecting tube (5);

Described air press also comprises: wind regulating device (6) and decompression control valve (7), described wind regulating device (6) connects with described decompression control valve (7), be used for controlling the keying of described decompression control valve (7), the connecting tube (5) that described decompression control valve (7) is connected with the described cylinder of same part (33) by pressure relief pipe (8) is connected; It is characterized in that,

Described wind regulating device (6) is a main drive wheel, and described main drive wheel is nested with the bottom of being fixed on described live axle (1);

Described decompression control valve (7) comprising:

One running shaft (71), its rotatable being fixed on a support, upper moulding one follower (711) of described running shaft (71), described main drive wheel drives described follower (711) rotation, form the vent (712) of perforation along the axis of described running shaft (71), in described running shaft (71), be provided with the valve pocket (713) being connected with described vent (712);

Centrifugal opening/closing mechanism (72), connects with described valve pocket (713), for controlling the break-make of described vent (712) with ambient atmosphere;

Connecting joint (73), be arranged at the end of described running shaft (71), and form rotary seal connection with described running shaft (71), described connecting joint (73) is provided with the suction tude (731) being connected with described vent (712), and described pressure relief pipe (8) is communicated with described suction tude (731).

2. to remove the vertical shaft wind-power air press described in 1 according to right, it is characterized in that,

Described centrifugal opening/closing mechanism (72) comprising:

Piston (721), is placed in described valve pocket (713), forms the adjustment hole (7211) being communicated with described vent (712) on it;

Piston rod (722), arranges perpendicular to described running shaft (71), and one end of described piston rod (722) is fixedly connected with described piston (721) through described running shaft (71), and its other end arranges a centrifugal-block (7221);

On described piston rod (722), be nested with a Returnning spring (7222), one end of described Returnning spring (7222) is fixedly connected with described running shaft (71), and its other end is fixed on described piston rod (722).

3. vertical shaft wind-power air press according to claim 2, is characterized in that,

Described centrifugal opening/closing mechanism (72) also comprises: a balanced connecting rod (723), described balanced connecting rod (723) and described piston rod (722) are symmetricly set in the both sides of described running shaft (71), one end of described balanced connecting rod (723) is flexibly connected with described running shaft (71), and its other end arranges an equilibrium block (7231);

On described piston rod, be nested with a Returnning spring (7232), one end of described Returnning spring (7232) is fixedly connected with described running shaft (71), and its other end is fixed on described balanced connecting rod (723).

4. according to the arbitrary described vertical shaft wind-power air press of claim 1-3, it is characterized in that,

Described air compressor (3) also comprises a driving wheel (32), described driving wheel (32) is nested with and is fixed on described live axle, in the drive surface of described driving wheel (32), form closed rail structure, piston rod (331) the effect end of described cylinder (33) is constrained in the rail structure of described driving wheel (32), and slide along described rail structure, described live axle (1) is arranged at the center of described rail structure, on axial direction perpendicular to described cylinder (33) piston rod (331), be also provided with a connecting rod guide mechanism (9), described connecting rod guide mechanism (9) rolls and connects with described piston rod (331).

5. vertical shaft wind-power air press according to claim 4, is characterized in that,

Described connecting rod guide mechanism (9) comprises multiple upper saw pulleys (91), and described upper saw pulley (91) is fixed on the inboard wall of cylinder block of described cylinder (33) by connecting rod (92); Multiple described upper saw pulleys (91) are distributed on the excircle of described piston rod (331), and roll and connect with described piston rod (331).

6. vertical shaft wind-power air press according to claim 5, is characterized in that,

Described rail structure is formed by connecting by multistage arc-shaped slide rail (2) head and the tail, and arc-shaped slide rail (2) forms a concavo-convex closed rail structure distributing alternately after connecting described in multistage;

Described arc-shaped slide rail (2) comprises up exhaust arc-shaped slide rail and descending air-breathing arc-shaped slide rail, described exhaust arc-shaped slide rail and air-breathing arc-shaped slide rail are formed by connecting by evagination arc section (21), straightway (22) and indent arc section (23) respectively, described straightway is tangent with described evagination arc section (21) and indent arc section (23) respectively, the end of described evagination arc section (21) is corresponding to the top dead center position of described cylinder (33), and the end of described indent arc section (23) is corresponding to the bottom dead center position of described cylinder (33).

7. vertical shaft wind-power air press according to claim 6, is characterized in that,

Described rail structure takes shape on the circle end face of described driving wheel (32), described arc-shaped slide rail (2) is for taking shape in the groove (321) on described driving wheel (32) circle end face, one side of described groove (321) forms anticreep retainer (322), the effect end of described piston rod (331) is provided with a bearing (332), described bearing (332) is placed in described groove (321), and retrained by described anticreep retainer (322), when described driving wheel (32) rotation, the bearing (332) that is arranged at described piston rod (331) effect end is done periodically to-and-fro motion around described arc-shaped slide rail (2).