CN103821684A - Rotating connecting lever type power machine - Google Patents

Abstract

The invention relates to power machinery, in particular to a rotating connecting lever type power machine which comprises boxes, telescopic seal pipes, box covers, moving wheels, a main power disc, connecting levers, a slide rod shaft, slide blocks, slide rods and an output shaft, wherein a cavity in each telescopic seal pipe is a closed cavity, the closed cavity in each telescopic seal pipe is internally filled with a liquid material, the outer sides of the box covers are provided with the moving wheels abutted against the slide rods, one end of each slide rod is hinged and mounted on the slide rod shaft, the other end of each slide rod is provided with a chute, each slide block is hinged to the main power disc by the corresponding connecting lever and is arranged in the chute of each corresponding slide rod, the output shaft is vertically mounted at the center of the main power disc, the central axis of the output shaft and that of the slide rod shaft are separated by a distance, one ends of step shafts of the connecting levers are connected with different transmission mechanisms after passing through the main power disc, and the closed cavities of the telescopic seal pipes can be mutually independent and can also be mutually communicated by one communicating pipe. The rotating connecting lever type power machine is simple in structure, pollution-free and beneficial to environment protection.

Description

A kind of revolution bent-arm power engine

Technical field

The present invention relates to dynamic power machine, specifically a kind of revolution bent-arm power engine.

Background technique

Existing power engine is mostly take combustible mineral as the energy, and the natural resources of these combustible minerals is limited, along with the continuous expansion of application and the use amount of power engine, must accelerate the consumption to these limited resources, meanwhile, the running of power engine also can be discharged the gas harmful to Man & Nature, causes environmental pollution, cost is high, big energy-consuming.

Summary of the invention

The object of the present invention is to provide a kind of revolution bent-arm power engine, simple in structure, do not pollute, be beneficial to environmental protection.

The object of the invention is to be achieved through the following technical solutions:

A kind of revolution bent-arm power engine, comprise casing, flexible sealed pipe, case lid, castor, active force dish, connecting lever, sliding pole axis, slide block, slide bar and output shaft, wherein casing is arranged on the sidewall of active force dish, flexible sealed pipe and case lid are all installed in each casing, and each case lid is installed in flexible sealed pipe one end away from tank floor, die cavity in flexible sealed pipe is airtight die cavity, and all fill liquid substance in the airtight die cavity of flexible sealed pipe, outside at each case lid is all provided with castor, castor offsets with slide bar respectively, one end of each slide bar is hinged on sliding pole axis, the other end is provided with chute, described sliding pole axis is perpendicular to the setting of described active force dish and be fixedly mounted on the matrix of equipment, slide block is hinged on described active force dish by connecting lever respectively, and be arranged at respectively in the chute of each slide bar, active force dish is provided with output shaft in the side away from casing, described output shaft is vertically mounted on place of described active force disk center, the segment distance L of being separated by between described output shaft and the central axis of described sliding pole axis, slide block is arranged on respectively optical axis one end of each connecting lever, and multidiameter shaft one end of each connecting lever is connected with driving mechanism through after described active force dish.

Multidiameter shaft one end of connecting lever is connected with gear drive through after described active force dish, described gear drive comprises central gear, Jie's gear and planetary pinion, wherein central gear is arranged on the matrix of equipment, output shaft passes the matrix of described center sprocket wheel and equipment rotationally, planetary pinion is arranged on respectively on the multidiameter shaft of each connecting lever, Jie's gear is arranged on described active force dish by Jie's gear shaft respectively, described central gear, Jie's gear and planetary pinion engage successively, and described central gear is identical with the planetary number of teeth.

The airtight die cavity of each flexible sealed pipe is separate.

The airtight die cavity of each flexible sealed pipe interconnected by connecting tube, and a side that at described active force dish casing is installed is provided with a circular connecting tube, and the airtight die cavity of each flexible sealed pipe is connected with described connecting tube by a straight tube respectively.

Multidiameter shaft one end of described connecting lever is connected with chain wheel driving mechanism through after described active force dish, described chain wheel driving mechanism comprises center sprocket wheel, chain and planet sprocket, wherein center sprocket wheel is arranged on the matrix of equipment, output shaft passes the matrix of described center sprocket wheel and equipment rotationally, planet sprocket is arranged on respectively on the multidiameter shaft of each connecting lever, described center sprocket wheel is connected by chain with planet sprocket, and the tooth number of described center sprocket wheel and planet sprocket is identical.

The airtight die cavity of each flexible sealed pipe is separate.

The airtight die cavity of each flexible sealed pipe interconnected by connecting tube, and a side that at described active force dish casing is installed is provided with a circular connecting tube, and the airtight die cavity of each flexible sealed pipe is connected with described connecting tube by a straight tube respectively.

Multidiameter shaft one end of described connecting lever is connected with power plate mechanism through after described active force dish, described power plate mechanism comprises pedestal, secondary power plate wheel, secondary power plate and disc crank, wherein pedestal is arranged on the matrix of equipment, output shaft passes the matrix of described pedestal and equipment rotationally, disc crank is arranged on respectively on the multidiameter shaft of each connecting lever, the inner edge place of described secondary power plate is provided with secondary power plate wheel, secondary power plate is arranged on described pedestal by secondary power plate wheel, each disc crank is provided with coupling shaft, and coupling shaft is set on secondary power plate; Described disc crank Kong center equates to the distance at pedestal center with output shaft center with distance in the heart in coupling shaft.

The airtight die cavity of each flexible sealed pipe is separate.

The airtight die cavity of each flexible sealed pipe interconnected by connecting tube, and a side that at described active force dish casing is installed is provided with a circular connecting tube, and the airtight die cavity of each flexible sealed pipe is connected with described connecting tube by a straight tube respectively.

Advantage of the present invention and good effect are:

1, the present invention can not produce people or naturally harmful gas, does not pollute, and is conducive to environmental protection.

2, the present invention is simple in structure, and cost of production is low.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention 1,

Fig. 2 is A-A view in Fig. 1,

Fig. 3 is structural representation when the present invention is provided with connecting tube in Fig. 1,

Fig. 4 is B-B view in Fig. 3,

Fig. 5 is the structural representation of the embodiment of the present invention 2,

Fig. 6 is C-C view in Fig. 5,

Fig. 7 is structural representation when the present invention is provided with connecting tube in Fig. 5,

Fig. 8 is D-D view in Fig. 7,

Fig. 9 is the structural representation of the embodiment of the present invention 3,

Figure 10 is E-E view in Fig. 9,

Figure 11 is structural representation when the present invention is provided with connecting tube in Fig. 9,

Figure 12 is F-F view in Figure 11.

Wherein, 1 is casing, and 2 is flexible sealed pipe, and 3 is case lid, and 4 is castor, gear centered by 5,6 is active force dish, and 7 is planetary pinion, and 8 is connecting lever, and 9 is sliding pole axis, 10 is slide block, and 11 is slide bar, and 12 is Jie's gear shaft, and 13 is Jie's gear, and 14 is output shaft, 15 is optical axis, and 16 is connecting tube, sprocket wheel centered by 17, and 18 is chain, 19 is planet sprocket, and 20 is pedestal, and 21 is secondary power plate wheel, and 22 is secondary power plate, 23 is disc crank, and 24 is multidiameter shaft, and 25 is connecting plate, and 26 is coupling shaft.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described.

The present invention includes casing 1, flexible sealed pipe 2, case lid 3, castor 4, active force dish 6, connecting lever 8, sliding pole axis 9, slide block 10, slide bar 11 and output shaft 14, wherein casing 1 is arranged on the sidewall of active force dish 6, flexible sealed pipe 2 and case lid 3 are all installed in each casing 1, and each case lid 3 is installed in flexible sealed pipe 2 one end away from casing 1 bottom surface, die cavity in flexible sealed pipe 2 is airtight die cavity, and has all filled liquid substance in the airtight die cavity of flexible sealed pipe 2.Outside at each case lid 3 is all provided with castor 4, and castor 4 offsets with slide bar 11 respectively, so that the volume of the airtight die cavity of flexible sealed pipe 2 changes.

Slide bar 11 is arranged at described active force dish 6 and is provided with a side of casing 1, and being parallel to described active force dish 6 arranges, also be provided with the slide block 10 and the sliding pole axis 9 that match with slide bar 11 in this side, wherein said sliding pole axis 9 arranges and is fixedly mounted on the matrix of equipment perpendicular to described active force dish 6, and 10 of slide blocks are hinged on described active force dish 6 by connecting lever 8 respectively.One end of slide bar 11 is hingedly mounted on described sliding pole axis 9, and the other end of slide bar 11 is provided with chute, and slide block 10 is arranged in the chute of described slide bar 11, and when mechanism works, slide block 10 can relatively move in described chute.Each connecting lever 8 comprises an optical axis 15 and a multidiameter shaft 24, and described optical axis 15 and multidiameter shaft 24 are arranged at respectively connecting plate 25 both sides of connecting lever 8, and slide block 10 is arranged on the optical axis 15 of connecting lever 8, and 24 of the multidiameter shafts of connecting lever 8 pass described active force dish 6.Along looking perpendicular to the direction of described active force dish 6, the casing 1 corresponding with each slide bar 11, its center line equates to the slide block 10 distance between center line L2 that are arranged in these slide bar 11 chutes with this casing 1 center line to the distance L 1 between described sliding pole axis 9 central axis, the central axis of described sliding pole axis 9 is the gyration center of slide bar 11, and slide bar 11 quantity and casing 1 quantity match.

Active force dish 6 is provided with output shaft 14 in the side away from casing 1, and described output shaft 14 is vertically mounted on described active force dish 6 centers, and the segment distance L of being separated by between described output shaft 14 and the central axis of described sliding pole axis 9, and L is greater than zero.The center line of output shaft 14 is the gyration center of casing 1.

The multidiameter shaft 24 of described connecting lever 8, through after described active force dish 6, is connected from different driving mechanisms.

Embodiment 1

As shown in Fig. 1～4, in the present embodiment, the multidiameter shaft 24 of connecting lever 8 is connected with gear drive through after described active force dish 6, described gear drive comprises central gear 5, Jie's gear 13 and planetary pinion 7, wherein central gear 5 is arranged on the matrix of equipment, output shaft 14 passes the matrix of described central gear 5 and equipment rotationally, planetary pinion 7 is arranged on respectively on the multidiameter shaft 24 of each connecting lever 8, Jie's gear 13 is arranged on described active force dish 6 by Jie's gear shaft 12 respectively, described central gear 5, Jie's gear 13 and planetary pinion 7 engage successively, described central gear 5 is identical with the number of teeth of planetary pinion 7.

The airtight die cavity of each flexible sealed pipe 2 can be separate as shown in Fig. 1～2, also can as shown in Fig. 3～4, interconnect by a connecting tube 16, a side that at described active force dish 6 casing 1 is installed is provided with a circular connecting tube 16, the airtight die cavity of each flexible sealed pipe 2 is connected with described connecting tube 16 by a straight tube respectively, make the airtight die cavity of the flexible sealed pipe 2 in each casing 1 interconnect described connecting tube 16, in the airtight die cavity of described connecting tube 16 and flexible sealed pipe 2, all fill liquid substance, in the present embodiment, described liquid substance is water.

Embodiment 2

As shown in Fig. 5～8, in the present embodiment, the multidiameter shaft 24 of connecting lever 8 is connected with chain wheel driving mechanism through after described active force dish 6, described chain wheel driving mechanism comprises center sprocket wheel 17, chain 18 and planet sprocket 19, wherein center sprocket wheel 17 is arranged on the matrix of equipment, output shaft 14 passes the matrix of described center sprocket wheel 17 and equipment rotationally, planet sprocket 19 is arranged on respectively on the multidiameter shaft 24 of each connecting lever 8, described center sprocket wheel 17 is connected by chain 18 with planet sprocket 19, and the tooth number of described center sprocket wheel 17 and planet sprocket 19 is identical.

The airtight die cavity of each flexible sealed pipe 2 can be separate as shown in Fig. 5～6, also can as shown in Fig. 7～8, interconnect by a connecting tube 16, concrete structure is: the side that casing 1 is installed at described active force dish 6 is provided with a circular connecting tube 16, the airtight die cavity of each flexible sealed pipe 2 is connected with described connecting tube 16 by a straight tube respectively, make the airtight die cavity of the flexible sealed pipe 2 in each casing 1 interconnect described connecting tube 16, in the airtight die cavity of described connecting tube 16 and flexible sealed pipe 2, all fill liquid substance, in the present embodiment, described liquid substance is water.

Embodiment 3

As shown in Fig. 9～12, in the present embodiment, the multidiameter shaft 24 of connecting lever 8 is connected with power plate mechanism through after described active force dish 6, described power plate mechanism comprises pedestal 20, secondary power plate wheel 21, secondary power plate 22 and disc crank 23, wherein pedestal 20 is arranged on the matrix of equipment, output shaft 14 passes the matrix of described pedestal 20 and equipment rotationally, disc crank 23 is arranged on respectively on the multidiameter shaft 24 of each connecting lever 8, the inner edge place of described secondary power plate 22 is provided with secondary power plate wheel 21, secondary power plate 22 is arranged on described pedestal 20 by secondary power plate wheel 21, each disc crank 23 is provided with coupling shaft 26, described coupling shaft is set on secondary power plate 22, described disc crank 23Kong center equates to the distance at pedestal 20 centers with output shaft 14 centers with distance in the heart in coupling shaft 26.

The airtight die cavity of each flexible sealed pipe 2 can be separate as shown in Fig. 9～10, also can as shown in Figure 11～12, interconnect by a connecting tube 16, concrete structure is: the side that casing 1 is installed at described active force dish 6 is provided with a circular connecting tube 16, the airtight die cavity of each flexible sealed pipe 2 is connected with described connecting tube 16 by a straight tube respectively, make the airtight die cavity of the flexible sealed pipe 2 in each casing 1 interconnect described connecting tube 16, in the airtight die cavity of described connecting tube 16 and flexible sealed pipe 2, all fill liquid substance, in the present embodiment, described liquid substance is water.

Claims (10)

1. a revolution bent-arm power engine, it is characterized in that: comprise casing (1), flexible sealed pipe (2), case lid (3), castor (4), active force dish (6), connecting lever (8), sliding pole axis (9), slide block (10), slide bar (11) and output shaft (14), wherein casing (1) is arranged on the sidewall of active force dish (6), flexible sealed pipe (2) and case lid (3) are all installed in each casing (1), and each case lid (3) is installed in flexible sealed pipe (2) one end away from casing (1) bottom surface, die cavity in flexible sealed pipe (2) is airtight die cavity, and all fill liquid substance in the airtight die cavity of flexible sealed pipe (2), in the outside of each case lid (3), castor (4) is all installed, castor (4) offsets with slide bar (11) respectively, one end of each slide bar (11) is hinged on sliding pole axis (9), the other end is provided with chute, described sliding pole axis (9) arranges and is fixedly mounted on the matrix of equipment perpendicular to described active force dish (6), slide block (10) is hinged on described active force dish (6) by connecting lever (8) respectively, and be arranged at respectively in the chute of each slide bar (11), active force dish (6) is being provided with output shaft (14) away from a side of casing (1), described output shaft (14) is vertically mounted on described active force dish (6) center, the segment distance L of being separated by between the central axis of described output shaft (14) and described sliding pole axis (9), slide block (10) is arranged on respectively optical axis (15) one end of each connecting lever (8), and multidiameter shaft (24) one end of each connecting lever (8) is connected with driving mechanism through after described active force dish (6).

2. revolution bent-arm power engine according to claim 1, it is characterized in that: multidiameter shaft (24) one end of connecting lever (8) is connected with gear drive through after described active force dish (6), described gear drive comprises central gear (5), Jie's gear (13) and planetary pinion (7), wherein central gear (5) is arranged on the matrix of equipment, output shaft (14) passes the matrix of described center sprocket wheel (17) and equipment rotationally, planetary pinion (7) is arranged on respectively on the multidiameter shaft (24) of each connecting lever (8), Jie's gear (13) is arranged on described active force dish (6) by Jie's gear shaft (12) respectively, described central gear (5), Jie's gear (13) and planetary pinion (7) engage successively, described central gear (5) is identical with the number of teeth of planetary pinion (7).

3. revolution bent-arm power engine according to claim 2, is characterized in that: the airtight die cavity of each flexible sealed pipe (2) is separate.

4. revolution bent-arm power engine according to claim 2, it is characterized in that: the airtight die cavity of each flexible sealed pipe (2) interconnected by connecting tube (16), a side that at described active force dish (6) casing (1) is installed is provided with a circular connecting tube (16), and the airtight die cavity of each flexible sealed pipe (2) is connected with described connecting tube (16) by a straight tube respectively.

5. revolution bent-arm power engine according to claim 1, it is characterized in that: multidiameter shaft (24) one end of described connecting lever (8) is connected with chain wheel driving mechanism through after described active force dish (6), described chain wheel driving mechanism comprises center sprocket wheel (17), chain (18) and planet sprocket (19), wherein center sprocket wheel (17) is arranged on the matrix of equipment, output shaft (14) passes the matrix of described center sprocket wheel (17) and equipment rotationally, planet sprocket (19) is arranged on respectively on the multidiameter shaft (24) of each connecting lever (8), described center sprocket wheel (17) is connected by chain (18) with planet sprocket (19), described center sprocket wheel (17) is identical with the tooth number of planet sprocket (19).

6. revolution bent-arm power engine according to claim 5, is characterized in that: the airtight die cavity of each flexible sealed pipe (2) is separate.

7. revolution bent-arm power engine according to claim 5, it is characterized in that: the airtight die cavity of each flexible sealed pipe (2) interconnected by connecting tube (16), a side that at described active force dish (6) casing (1) is installed is provided with a circular connecting tube (16), and the airtight die cavity of each flexible sealed pipe (2) is connected with described connecting tube (16) by a straight tube respectively.

8. revolution bent-arm power engine according to claim 1, it is characterized in that: multidiameter shaft (24) one end of described connecting lever (8) is connected with power plate mechanism through after described active force dish (6), described power plate mechanism comprises pedestal (20), secondary power plate wheel (21), secondary power plate (22) and disc crank (23), wherein pedestal (20) is arranged on the matrix of equipment, output shaft (14) passes the matrix of described pedestal (20) and equipment rotationally, disc crank (23) is arranged on respectively on the multidiameter shaft (24) of each connecting lever (8), the inner edge place of described secondary power plate (22) is provided with secondary power plate wheel (21), secondary power plate (22) is arranged on described pedestal by secondary power plate wheel (21), each disc crank (23) is provided with coupling shaft (26), coupling shaft (26) is set on secondary power plate (22), described disc crank (23) Kong center equates to the distance at pedestal (20) center with output shaft (14) center with distance in the heart in coupling shaft (26).

9. revolution bent-arm power engine according to claim 8, is characterized in that: the airtight die cavity of each flexible sealed pipe (2) is separate.

10. revolution bent-arm power engine according to claim 8, it is characterized in that: the airtight die cavity of each flexible sealed pipe (2) interconnected by connecting tube (16), a side that at described active force dish (6) casing (1) is installed is provided with a circular connecting tube (16), and the airtight die cavity of each flexible sealed pipe (2) is connected with described connecting tube (16) by a straight tube respectively.

Images