CN201369630Y

CN201369630Y - Kick-type pneumo-electrical combining high-efficiency power device

Info

Publication number: CN201369630Y
Application number: CNU2009200114914U
Authority: CN
Inventors: 张巍群; 白秀珠
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-03-07
Filing date: 2009-03-07
Publication date: 2009-12-23
Anticipated expiration: 2019-03-07

Abstract

The utility model relates to a kick-type pneumo-electrical combining high-efficiency power device, which is provided with a sealed cavity filled with high-pressure gas. The kick-type pneumo-electrical combining high-efficiency power device is characterized in that the sealed cavity is internally provided with a motor consisting of a fixed shaft and a rotor; the outer edge of the rotor is distributed with blades uniformly; one end of the fixed shaft is fixed on an end cover at one side of the sealed cavity; the middle part of the fixed shaft is provided with a kick wheel; the outer edge of the kick wheel is distributed with guide blocks uniformly; the kick wheel is provided with a guide hole; the other side of the guide block, corresponding to the guide hole, is an inclined plane; the kick wheel is provided with a separating sleeve which is distributed with guide vanes uniformly at the outer edge; the sealed cavity is internally provided with a fixed wind wheel; the end cover at the other side of the sealed cavity is provided with an output shaft; a movable wind wheel is connected between the output shaft and the separating sleeve; the fan blades of the blades, the guide vanes, the fixed wind wheel and the movable wind wheel are respectively arranged in an inclined way; the inclining directions of the blades and the guide vanes are same; and the inclining directions of the fan blades on the fixed wind wheel and the movable wind wheel and the blades are reverse. The device can realize large-power output, improve efficiency and save energy.

Description

The backpulsing pneumoelectric is in conjunction with the effectively power device

Technical field

The utility model belongs to a kind of power take-off, particularly a kind of backpulsing pneumoelectric assembled highly-effective power set.

Background technology

The available dynamic device can be divided into Thermal Motor, hydraulic motor, wind motor and motor etc. by the energy that utilizes, and wherein motor is to use the most a kind of power set.The operating efficiency of motor is higher, and does not have flue dust, smell, and is free from environmental pollution, and noise is also less, therefore in each side extensive uses such as industrial and agricultural production, communications and transportation, national defence, commerce and household electrical appliance, medical appliance equipments.The electric energy but the work of motor places one's entire reliance upon, so consumed power is higher, particularly when motor connected than heavy load, power consumption was particularly outstanding.

Summary of the invention

The purpose of this utility model be to provide that a kind of power output is big, the backpulsing pneumoelectric of Synergistic and energy-saving is in conjunction with the effectively power device.

The utility model is achieved in that it has an inside to be full of the airtight cavity volume of gases at high pressure, its special character is: be provided with the motor that is made of dead axle and rotor in airtight cavity volume, be evenly equipped with blade in the rotor outer rim, dead axle one end is fixed on airtight cavity volume one side end cap, by Bearing Installation the recoil wheel is arranged at the dead axle middle part, outer rim at the recoil wheel is evenly equipped with guide pad, corresponding guide pad place is provided with the pilot hole of elbow shape respectively on the recoil wheel, inside and its external communications that pilot hole will recoil and take turns, the opposite side of corresponding pilot hole outlet is the inclined-plane on the guide pad, on the recoil wheel, be provided with the separation sleeve that is enclosed within the rotor outside, be evenly equipped with flow deflector in the separation sleeve outer rim, be provided with quiet wind wheel at airtight cavity volume inwall near recoil wheel place, on airtight cavity volume opposite side end cap, the output shaft that is connected by bearing with the dead axle other end is installed, between output shaft outer rim and separation sleeve inwall, is connected with moving wind wheel; Flabellum on described blade, flow deflector, quiet wind wheel and the moving wind wheel is in tilted layout respectively, and the incline direction of blade and flow deflector is identical, and the flabellum on quiet wind wheel and the moving wind wheel is opposite with the blade lean direction.

Above-mentioned backpulsing pneumoelectric is in conjunction with the effectively power device, and described airtight cavity volume is by a support and is fixed on the support end covers at two sides and constitutes.

Above-mentioned backpulsing pneumoelectric is in conjunction with the effectively power device, and the other end outer rim of corresponding recoil wheel is provided with directive wheel on separation sleeve, is evenly equipped with the fin of inclination in the directive wheel outer rim, and fin is identical with the incline direction of blade.

Above-mentioned backpulsing pneumoelectric is in conjunction with the effectively power device, and corresponding recoil wheel one end is provided with impeller in separation sleeve, and the blade on the impeller is opposite with the incline direction of rotor blade.

Above-mentioned backpulsing pneumoelectric is in conjunction with the effectively power device, and described quiet wind wheel is to be made of an overcoat and the flabellum that is distributed on the overcoat inner edge.

Above-mentioned backpulsing pneumoelectric is in conjunction with the effectively power device, and described moving wind wheel is the positioning sleeve that is not waited by two diameters that nest together and along the circumferential direction is distributed on two flabellums between the positioning sleeve and constitutes.

Above-mentioned backpulsing pneumoelectric is provided with sealing ring, to guarantee air-tightness in conjunction with the effectively power device between output shaft and airtight cavity volume opposite side end cap.

The utility model has the advantages that: owing to be full of gases at high pressure in the airtight cavity volume, behind the electric motor starting, the rotor rotation blows to the recoil wheel by rotor blade with gas simultaneously, gas enters recoil wheel exocoel by pilot hole, under the effect of guide pad, blow to flow deflector through quiet wind wheel, drive separation sleeve, moving wind wheel and output shaft by flow deflector and be rotated counterclockwise, realize power output; When the running of recoil wheel, pilot hole exports and can form vacuum simultaneously, make outside at a high speed injection of gases at high pressure in the pilot hole form recoil strength, thereby formed new powered separation sleeve and moving wind wheel, so this device can be realized high-power output, Synergistic and energy-saving.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is axle survey three-dimensional exploded views (removing support and both sides end cap) such as southwest of the present utility model;

Fig. 3 is axle survey three-dimensional exploded views (removing support and both sides end cap) such as the southeast of the present utility model.

Among the figure: support 1, injecting hole 101, flow deflector 2, quiet wind wheel 3, end cap 4, recoil wheel 5, guide pad 501, pilot hole 502, gland 6, dead axle 7, wire guide 701, rotor 8, impeller 9, blade 10, separation sleeve 11, stay bolt 12, directive wheel 13, fin 1301, moving wind wheel 14, output shaft 15, sealing ring 16.

Embodiment

As shown in the figure, the utility model has an inside to be full of the airtight cavity volume of gases at high pressure, and airtight cavity volume is by a support 1 and is fixed on support 1 end covers at two sides 4 by stay bolt 12 and nut and constitutes.In airtight cavity volume, be provided with the motor that constitutes by dead axle 7 and rotor 8, be laid with rotor 8 in rotor 8 outer rims and be the blade 10 of one, described dead axle 7 one ends are fixed on the end cap 4 on support 1 right side, be provided with wire guide 701 and be installed with motor down-lead in dead axle 7.Between rotor 8 and support 1 right side end cap 4, recoil wheel 5 is arranged at dead axle 7 middle parts by Bearing Installation, outer rim at recoil wheel 5 is evenly equipped with guide pad 501, corresponding guide pad 501 places are provided with the pilot hole 502 of elbow shape respectively on recoil wheel 5, pilot hole 502 will recoil wheel 5 inside and its external communications, the opposite side that corresponding pilot hole 502 exports on the guide pad 501 is the inclined-plane.Corresponding rotor 8 one sides are connected with separation sleeve 11 by bolt on recoil wheel 5, the along the circumferential direction uniform two circle flow deflectors 2 that are welded with at separation sleeve 11 outer rims middle part, by screw quiet wind wheel 3 is arranged at support 1 inwall between recoil wheel 5 and flow deflector 2, quiet wind wheel 3 is to be made of an overcoat and the flabellum that is distributed on the overcoat inner edge; The other end outer rim of corresponding recoil wheel 5 has directive wheel 13 by screw on separation sleeve 11, is evenly equipped with the fin 1301 of inclination in directive wheel 13 outer rims.Described rotor 8 is positioned at separation sleeve 11, by two cover bearings output shaft 15 is installed on support 1 left side end cap 4, and an end that is positioned at support 1 on the output shaft 15 is by the other end of Bearing Installation at dead axle 7; Between output shaft 15 outer rims and separation sleeve 11 inwalls, be connected with moving wind wheel 14, moving wind wheel 14 is the positioning sleeves that do not waited by two diameters that nest together and along the circumferential direction is distributed on two flabellums between the positioning sleeve and constitutes, move between wind wheel 14 and the output shaft 15 by be threaded, with separation sleeve 11 between be connected by screw.Flabellum on described blade 10, flow deflector 2, quiet wind wheel 3 and the moving wind wheel 14 is in tilted layout respectively, and blade 10, flow deflector 2 are identical with the incline direction of fin 1301, flabellum on quiet wind wheel 3 and the moving wind wheel 14 is opposite with blade 10 incline directions, present embodiment clockwise turns to example (as shown in Figure 2) with rotor 8, the blade 10 of rotor 8 counterclockwise tilts along dead axle 7 axle center, during with 8 rotations of realization rotor wind is taken turns 5 to recoil.Corresponding recoil wheel 5 one ends have impeller 9 by screw in separation sleeve 11, impeller 9 inner edges and dead axle 7 outer rim matched in clearance, and the blade on the impeller 9 is opposite with the incline direction of rotor 8 blades 10.Being provided with sealing ring 16 between the two cover bearings at support 1 left side end cap 4 on the output shaft 15, to guarantee air-tightness.There is gland 6 in the outside at support 1 both sides end cap 4 by bolt respectively, and described motor down-lead and output shaft 15 are passed by the gland 6 of correspondence respectively.Be provided with an injecting hole 101 on support 1 or end cap wall, present embodiment is an example to be located on the support wall, and is provided with sealing plug at injecting hole 101 places.

Connect the motor down-lead starter motor during work, rotor 8 turns clockwise simultaneously and by blade 10 gases at high pressure of separation sleeve 11 inner chambers to be blowed to recoil wheel 5, enter recoil wheel 5 exocoels by pilot hole 502, under the effect of guide pad 501, blow to flow deflector 2 through quiet wind wheel 3, drive separation sleeve 11 by flow deflector 2, moving wind wheel 14 and output shaft 15 are rotated counterclockwise, the output of realization power, because recoil wheel 5 fuses with separation sleeve 11 and flow deflector 2, therefore recoil wheel 5 also can rotate thereupon, when recoil wheel 5 runs up, pilot hole 502 exits can form vacuum, make the gases at high pressure in the pilot hole 502 outwards spray the formation recoil strength at a high speed, thereby formed new powered separation sleeve 11 and moving wind wheel 14; Gases at high pressure are got back to separation sleeve 11 inner chambers through flow deflector 2, directive wheel 13 and moving wind wheel 14 simultaneously, form circulation.

Claims

1, a kind of backpulsing pneumoelectric is in conjunction with the effectively power device, comprise that an inside is full of the airtight cavity volume of gases at high pressure, it is characterized in that: in airtight cavity volume, be provided with the motor that constitutes by dead axle and rotor, be evenly equipped with blade in the rotor outer rim, dead axle one end is fixed on airtight cavity volume one side end cap, by Bearing Installation the recoil wheel is arranged at the dead axle middle part, outer rim at the recoil wheel is evenly equipped with guide pad, corresponding guide pad place is provided with the pilot hole of elbow shape respectively on the recoil wheel, inside and its external communications that pilot hole will recoil and take turns, the opposite side of corresponding pilot hole outlet is the inclined-plane on the guide pad, on the recoil wheel, be provided with the separation sleeve that is enclosed within the rotor outside, be evenly equipped with flow deflector in the separation sleeve outer rim, be provided with quiet wind wheel at airtight cavity volume inwall near recoil wheel place, on airtight cavity volume opposite side end cap, the output shaft that is connected by bearing with the dead axle other end is installed, between output shaft outer rim and separation sleeve inwall, is connected with moving wind wheel; Flabellum on described blade, flow deflector, quiet wind wheel and the moving wind wheel is in tilted layout respectively, and the incline direction of blade and flow deflector is identical, and the flabellum on quiet wind wheel and the moving wind wheel is opposite with the blade lean direction.

2, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: described airtight cavity volume is by a support and is fixed on the support end covers at two sides and constitutes.

3, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: the other end outer rim of corresponding recoil wheel is provided with directive wheel on separation sleeve, is evenly equipped with the fin of inclination in the directive wheel outer rim, and fin is identical with the incline direction of blade.

4, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: corresponding recoil wheel one end is provided with impeller in separation sleeve, and the blade on the impeller is opposite with the incline direction of rotor blade.

5, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: described quiet wind wheel is to be made of an overcoat and the flabellum that is distributed on the overcoat inner edge.

6, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: described moving wind wheel is the positioning sleeve that is not waited by two diameters that nest together and along the circumferential direction is distributed on two flabellums between the positioning sleeve and constitutes.

7, backpulsing pneumoelectric according to claim 1 is characterized in that in conjunction with the effectively power device: be provided with sealing ring between output shaft and airtight cavity volume opposite side end cap.