CN104534048A - Design method of transmission unit for fluid transfer device - Google Patents

Abstract

The invention relates to a design method of a transmission unit for a fluid transfer device. The design method is characterized in that a first belt wheel is arranged in the middle of a first support plate; a second belt wheel is arranged in the middle of the tail end of a second support plate; a third belt wheel is arranged in the middle of the head end of the second support plate; the second belt wheel and the third belt wheel are linked through a belt; the first belt wheel and the second belt wheel are linked through engaging a first gear to a second gear; the first belt wheel is connected with an external power source through a belt; the third belt wheel synchronously rotates with a crankshaft through key connection; the head end of a first support column is partially embedded into the first support plate; the tail end of the first support column is partially embedded into a cylinder; the tail end of the second support plate is detachably mounted on the first support plate; and the two ends of the second support column are both partially embedded into corresponding support plates. The design method realizes smooth distribution of one external power source to four piston units; and the transmission unit is convenient for mounting, and is stable in operation.

Description

The design method of the gear unit of fluid handling device

Technical field

The present invention relates to fluid handling device, particular but not exclusively relate to a kind of design method of gear unit of fluid handling device.

Background technique

The working principle of internal-combustion engine is roughly: piston moves downward, and mixed combustible gas body enters cylinder; Piston upwards compressing inflammable gas; Spark ignitor inflammable gas makes it explode, and the high temperature and high pressure gas after blast, to piston work done, makes piston down move, and the straight line motion of piston, by connecting rod, is converted to the rotary motion of bent axle by piston; Due to the effect of inertia, bent axle is rotated further, and the rotary motion of bent axle is converted to the straight line motion of piston by bent axle by connecting rod, piston upwards pushes waste gas, makes it discharge cylinder.In brief, air-breathing → compression → work done → exhaust.

For this reason, there has been proposed a kind of device utilizing the to-and-fro motion of piston to be shifted by fluid.Its working principle is the lift campaign utilizing piston, makes the containing cavities in cylinder form negative pressuren zone, under the effect of ambient pressure, external fluid is pressed into containing cavities by input channel; Utilize the downward motion of piston, make the fluid be accommodated in cylinder extrude containing cavities by output channel.

How to piston, piston to be moved reciprocatingly in containing cavities the power transmission in the external world.

Summary of the invention

Technical problem

How the power transmission in the external world is made piston to-and-fro motion in containing cavities to piston.

Technological scheme

The object of the invention is to solve the problem, and a kind of design method of gear unit of fluid handling device is provided.

For this reason, the invention provides a kind of design method of gear unit of fluid handling device, it comprises the first dunnage, second dunnage, 3rd dunnage, first gear, second gear, first belt wheel, second belt wheel, 3rd belt wheel, first supporting post, second supporting post, blade, belt, sleeve, at the middle part of the first dunnage, the first belt wheel is set, at the middle part of the end of the second dunnage, the second belt wheel is set, 3rd belt wheel is set at the middle part of the head end of the second dunnage, second belt wheel and the 3rd belt wheel are linked by belt, first belt wheel and the second belt wheel are linked by the first gear and the second gears meshing, first belt wheel is connected with extraneous power source by belt, 3rd belt wheel is rotated by key connecting and crankshaft-synchronous.Transferred by the heat distributed of blade by this device.

Particularly, make the first gear and the first belt wheel by key connecting synchronous axial system, make the second gear and the second belt wheel by key connecting synchronous axial system.

Particularly, the head end of the first supporting post is made removably to be partially submerged into the first dunnage, the end of the first supporting post is made removably to be partially submerged into cylinder body, make the end of the second dunnage be removably mounted in the first dunnage, three is fastened on cylinder body by screw bolt passes second dunnage, the first dunnage and the first supporting post; Make the two ends of the second supporting post dismountable connection first dunnage and the second dunnage respectively, and the two ends of the second supporting post are all partially submerged into corresponding dunnage, by bolt by fastening to the first dunnage, the second dunnage and the second supporting post.

Beneficial effect

Gear unit achieves and the external world power source is assigned to four piston units reposefully, and gear unit is installed convenient, stable, reasonable stress.

Accompanying drawing explanation

Reference accompanying drawing is in the explanation of the mode of execution provided as non-limiting example below, and the present invention and superiority thereof will be better understood, and accompanying drawing is as follows:

Fig. 1 is the exploded perspective view of the critical piece of fluid handling device disclosed by the invention;

Fig. 2 is the stereogram of the gear unit in Fig. 1;

Fig. 3 is the front view of the gear unit in Fig. 2;

Fig. 4 is the left view of the gear unit in Fig. 3;

Fig. 5 is the sectional view along A-A direction in Fig. 3;

Fig. 6 is the partial sectional view along B-B direction in Fig. 3;

Fig. 7 is the fragmentary perspective cross sectional view of gear unit;

Fig. 8 is the partial enlarged drawing at C place in Fig. 7;

Fig. 9 is the stereogram of the 3rd dunnage;

Figure 10 is the stereogram of the first dunnage;

Figure 11 is the exploded perspective view of gear unit;

Description of reference numerals

1. cylinder body; 2. switching unit; 3. trigger element; 4. piston unit; 401. piston; 402. connecting rod; 403. bent axle; 404. cylinder sleeve; 5. gear unit; 501. first dunnages; 502. second dunnages; 503. the 3rd dunnages; 504. first gears; 505. second gears; 506. first belt wheels; 507. second belt wheels; 508. the 3rd belt wheels; 509. first supporting posts; 510. second supporting posts; 511. blade; 512. first rotating shafts; 513. second rotating shafts; 514. counterbore; 515. sleeve; 6. entrance; 7. export.

Embodiment

Reference Fig. 1 is fluid handling device disclosed by the invention, and it comprises cylinder body 1, switching unit 2, trigger element 3, piston unit 4, gear unit 5.Be arranged on motor on base by power by belt transmission to gear unit 5, gear unit 5 by belt by power transmission to piston unit 4, piston unit 4 simultaneously also by power transmission to switching unit 2, realize fluid by switching unit 2 with the interlock of piston unit 4 to suck from the entrance 6 of transfer device, discharge from the outlet 7 of transfer device more afterwards.

In order to improve the transfer efficiency of device, described fluid handling device arranges four piston units, 4, four piston units 4 with the axis of spool for the uniform array of axis annular.Three input channels on cylinder body 1 four input channel and four output channels and three output channel chocks are sealed, transfer device only retains an input channel and an output channel, connect the entrance 6 of the head end formation transfer device of input channel with pipeline, connect the outlet 7 of the head end formation transfer device of output channel with pipeline.

The blade 511 that the heat produced after transfer device work is arranged by front end transfers.

With reference to Fig. 2, Fig. 3 and Figure 11, gear unit 5 is provided with the sleeve 515 of first dunnage 501, four the second dunnages 502, the 3rd dunnage 503, first gear 504, four the second gears 505, first belt wheel 506, four the second belt wheels 507, four the 3rd belt wheels 508, eight the first supporting posts, 509, four the second supporting posts, 510, blade 511, five bars of belts, several adjustment height.

Four the second dunnages 502 with the center line of the first dunnage 501 for axis annular uniform array, two mounting holes that first dunnage 501 end is arranged detachably connect with the first dunnage 501, the middle part of the end of the second dunnage 502 is provided with the second belt wheel 507, the middle part of the head end of the second dunnage 502 is provided with the 3rd belt wheel 508, second belt wheel 507 and the 3rd belt wheel 508 carries out geometric ratio transmission by belt.Second belt wheel 507 is coaxially arranged with the second gear 505, second gear 505 and the second belt wheel 507 realizes synchronous axial system by key connecting.

The middle part of the first dunnage 501 is provided with the first belt wheel 506, first belt wheel 506 and is coaxially arranged with the first gear 504, first gear 504 and the first belt wheel 506 realizes synchronous axial system by key connecting.

First belt wheel 506 and the second belt wheel 507 are engaged with the second gear 505 by the first gear 504 and realize linking, and velocity ratio is 2.First belt wheel 506 is connected with extraneous power source by belt, and velocity ratio is 2.3rd belt wheel 508 realizes geometric ratio by key connecting and bent axle and rotates, and by above-mentioned setting, the rotating ratio of final bent axle and motor is 4, by slowing down, make the exportable larger moment of torsion of bent axle to connecting rod, and then make piston obtain larger lift power and downforce, more merit can be made by convection cell.The heat that gear and belt transmission process produce is transferred by the blade 511 rotated, and blade 511 is by key connecting and the first belt wheel 506 synchronous axial system.

With reference to Fig. 6, the second rotating shaft 513 connecting the second belt wheel 507 and the second gear 505 runs through the second dunnage 502, two ends respective partial insertion first dunnage 501 and the 3rd dunnage 503 respectively of the second rotating shaft 513, such plan of establishment can limit the axial freedom of the second rotating shaft 513, eliminate extra spacing part, such as back-up ring or screw or nut.

The two ends connecting the first rotating shaft 512 of the first belt wheel 506 and the first gear 504 connect with the first dunnage 501 and the 3rd dunnage 503 each via bearing respectively, bearing and the first dunnage 501 or the 3rd dunnage 503 interference fit, bearing and the first rotating shaft 512 interference fit.Blade 511 is arranged on the first rotating shaft 512 near the 3rd dunnage 503 side, and is fastened in the first rotating shaft 512 by blade 511 by screw.

With reference to Fig. 7, first dunnage 501 and the 3rd dunnage 503 are detachably connected by the second supporting post 510, two ends respective partial insertion first dunnage 501 and the 3rd dunnage 503 respectively of the second supporting post 510, such design proposal can bring following advantage: 1. can limit the axial freedom of the second supporting post 510 and radial degrees of freedom, makes gear unit 5 avoid part displacement in the course of the work and cause device to shake.2. improve convenience during Assembly of the parts, the second supporting post 510 is placed quickly and easily by the prefabricated counterbore 514 in the first dunnage 501, then by counterbore 514(prefabricated in the 3rd dunnage 503 as Fig. 9) facilitate and be inserted in the second supporting post 510 rapidly.3. also play the supporting effect of the second supporting post 510 to greatest extent simultaneously, the part cylinder being inserted the first dunnage 501 or the 3rd dunnage 503 by the second supporting post 510 is supported each other, avoid the effect of fastening screw trip bolt by radial shear power, make screw only by axial pulling force effect.

With reference to Fig. 4 to Fig. 5, the space that first dunnage 501 and the 3rd dunnage 503 separate is used for arranging gear and belt wheel by the second supporting post 510, first gear 504 and the coplanar setting of the second gear 505, first belt wheel 506 and the second belt wheel 507 and the coplanar setting of the 3rd belt wheel 508, in order to realize coplanar setting by sleeve 515 to adjust the height of gear or belt wheel.

With reference to Fig. 7 to Fig. 8, first dunnage 501 is detachably connected with described cylinder body 1 by the first supporting post 509, two ends respective partial insertion first dunnage 501 and the described cylinder body 1 respectively of the first supporting post 509, first dunnage is provided with the counterbore 514 coordinated with the first supporting post, as shown in Figure 10, the advantage that such design proposal can be brought is described above.

Claims (5)

1. the design method of the gear unit of a fluid handling device, described gear unit comprises dunnage, gear, belt, it is characterized in that arranging the first belt wheel (506) at the middle part of first dunnage (501) of described gear unit (5), at the middle part of the end of the second dunnage (502), the second belt wheel (507) is set, 3rd belt wheel (508) is set at the middle part of the head end of the second dunnage (502), second belt wheel (507) and the 3rd belt wheel (508) are linked by belt, first belt wheel (506) and the second belt wheel (507) to be engaged with the second gear (505) by the first gear (504) link, first belt wheel (506) is connected with extraneous power source by belt, make the 3rd belt wheel (508) by key connecting and bent axle (403) synchronous axial system,

First belt wheel (506) is coaxially arranged with the first gear (504), and the first gear (504) and the first belt wheel (506) realize synchronous axial system by key connecting;

Second belt wheel (507) is coaxially arranged with the second gear (505), and the second gear (505) and the second belt wheel (507) realize synchronous axial system by key connecting;

The head end of the first supporting post (509) is made removably to be partially submerged into the first dunnage (501), the end of the first supporting post (509) is made removably to be partially submerged into cylinder body (1), make the end of the second dunnage (502) be removably mounted in the first dunnage (501), three is fastened on cylinder body (1) by screw bolt passes second dunnage (502), the first dunnage (501) and the first supporting post (509);

Make the two ends of the second supporting post (510) dismountable connection first dunnage (501) and the second dunnage (502) respectively, and the two ends of the second supporting post (510) are all partially submerged into corresponding dunnage, by bolt by fastening to the first dunnage (501), the second dunnage (502) and the second supporting post (510).

2. the design method of the gear unit of a kind of fluid handling device according to claim 1, it is characterized in that described gear unit is provided with first dunnage (501), four the second dunnages (502), 3rd dunnage (503), first gear (504), four the second gears (505), first belt wheel (506), four the second belt wheels (507), four the 3rd belt wheels (508), eight the first supporting posts (509), four the second supporting posts (510), a blade (511), article five, belt, the sleeve of multiple adjustment height, make four the second dunnages (502) be the even annular array of axis with the center line of the first dunnage (501), the first gear, the second gear, the first belt wheel, the second belt wheel, the 3rd belt wheel, the first supporting post, the second supporting post are arranged in gear unit by mounting type according to claim 1.

3. the design method of the gear unit of a kind of fluid handling device according to claim 2, it is characterized in that the velocity ratio of the first described gear and the first gear is that the 2, first belt wheel (506) is connected with extraneous power source by belt, velocity ratio is 2.

4. the design method of the gear unit of a kind of fluid handling device according to claim 1, it is characterized in that space that the first dunnage (501) and the 3rd dunnage (503) separate by described the second supporting post (510) is for arranging gear and belt wheel, make the first gear (504) and the second gear (505) coplanar setting, make the first belt wheel (506) and the second belt wheel (507) and the 3rd belt wheel (508) coplanar setting.

5. the design method of the gear unit of a kind of fluid handling device according to claim 1, it is characterized in that described the first dunnage (501) is provided with the counterbore (514) coordinated with the first supporting post, the 3rd dunnage is provided with the counterbore (514) coordinated with the second supporting post.