CN104534048B - The assemble method of the gear unit of fluid handling device - Google Patents

Abstract

Present invention relates particularly to the assemble method of the gear unit of fluid handling device, it is characterized in that setting the first belt wheel at the middle part of the first supporting plate, at the middle part of the end of the second supporting plate, the second belt wheel is set, at the middle part of the head end of the second supporting plate, the 3rd belt wheel is set, the second belt wheel and the 3rd belt wheel is set to be linked by belt, the first belt wheel and the second belt wheel is engaged linkage with second gear by first gear, the first belt wheel is coupled by belt with extraneous power source；The 3rd belt wheel is set to be rotated by key connecting and crankshaft-synchronous；The head end portion of the first support column is embedded in the first supporting plate, the end section of the first support column is embedded in cylinder body, the end of the second supporting plate is removably mounted in the first supporting plate；The two ends of the second support column are made to be partially submerged into corresponding supporting plate.This assemble method is realized smoothly is assigned to four piston units by an extraneous power source, and gear unit installs facility, stable.

Description

The assemble method of the gear unit of fluid handling device

Technical field

The present invention relates to fluid handling device, particular but not exclusively it is related to a kind of gear unit of fluid handling device Assemble method.

Background technology

The operation principle of internal combustion engine is about：Piston is moved downward, and mixed combustible gas body enters cylinder；Piston upwards Compressing inflammable gas；Spark ignitor fuel gas makes it explode, and the high temperature and high pressure gas after blast make piston to piston work done Down move, the linear motion of piston is converted to the rotary motion of bent axle by piston by connecting rod；It is bent due to the effect of inertia Axle is rotated further, and bent axle is converted to the rotary motion of bent axle by connecting rod the linear motion of piston, and piston pushes waste gas upwards, It is set to discharge cylinder.In brief, air-breathing → compression → work done → exhaust.

Therefore, there has been proposed the device that fluid is shifted in a kind of reciprocating motion of utilization piston.Its operation principle is profit With the lifting campaign of piston, make the containing cavities formation negative pressuren zone in cylinder, in the presence of ambient pressure, external fluid is passed through Input channel is pressed into containing cavities；Using the downward motion of piston, make to be accommodated in the fluid in cylinder and receipts are extruded by output channel Receive chamber.

How to piston piston is set to be moved reciprocatingly in containing cavities extraneous power transmission.

The content of the invention

Technical problem

How to piston piston is set to be moved back and forth in containing cavities extraneous power transmission.

Technical scheme

It is an object of the invention to solve the above problems, and provide a kind of assembling of the gear unit of fluid handling device Method.

Therefore, the present invention provides a kind of assemble method of the gear unit of fluid handling device, it includes the first support Plate, the second supporting plate, the 3rd supporting plate, first gear, second gear, the first belt wheel, the second belt wheel, the 3rd belt wheel, first Dagger, the second support column, blade, belt, sleeve, set the first belt wheel, in the second supporting plate at the middle part of the first supporting plate The middle part of end sets the second belt wheel, sets the 3rd belt wheel at the middle part of the head end of the second supporting plate, makes the second belt wheel and the 3rd Belt wheel is linked by belt, the first belt wheel and the second belt wheel is engaged linkage with second gear by first gear, is made first band Wheel is coupled by belt with extraneous power source；The 3rd belt wheel is set to be rotated by key connecting and crankshaft-synchronous.It incite somebody to action this by blade The heat distributed of device is transferred.

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

Specifically, the head end of the first support column is removably partially submerged into the first supporting plate, make the end of the first support column End be removably partially submerged into cylinder body, the end of the second supporting plate is removably mounted in the first supporting plate, by bolt according to It is secondary to pass through the second supporting plate, the first supporting plate and the first support column and three is fastened on cylinder body；Make the two of the second support column End the first supporting plate of dismountable connection and the 3rd supporting plate, and the two ends of the second support column are partially submerged into corresponding branch respectively Fagging, is fastened the first supporting plate, the 3rd supporting plate and the second support column by bolt.

Beneficial effect

Gear unit is realized smoothly is assigned to four piston units by an extraneous power source, and gear unit is installed It is convenient, stable, reasonable stress.

Brief description of the drawings

It is of the invention and its excellent below in reference to accompanying drawing in the explanation of the embodiment provided as non-limiting example More property will be better understood that 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 directions in Fig. 3；

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

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

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

Fig. 9 is the stereogram of the 3rd supporting plate；

Figure 10 is the stereogram of the first supporting plate；

Figure 11 is the exploded perspective view of gear unit；

Description of reference numerals

1. cylinder body；2. switch unit；3. trigger element；4. piston unit；5. gear unit；501. first supporting plates； 502. second supporting plates；503. the 3rd supporting plates；504. first gear；505. second gear；506. first belt wheels；507. second Belt wheel；508. the 3rd belt wheels；509. first support columns；510. second support columns；511. blade；512. first rotating shaft；513. the Two rotating shafts；514. counterbore；515. sleeve；6. entrance；7. outlet.

Embodiment

Reference picture 1 is fluid handling device disclosed by the invention, and it includes cylinder body 1, switch unit 2, trigger element 3, work Fill in unit 4, gear unit 5.Motor on base is by power by belt transmission to gear unit 5, and gear unit 5 leads to Belt is crossed by power transmission to piston unit 4, piston unit 4 passes through switch unit simultaneously also by power transmission to switch unit 2 2 realize that fluid is sucked from the entrance 6 of transfer device with the linkage of piston unit 4, are discharged again from the outlet 7 of transfer device afterwards.

In order to improve the transfer efficiency of device, the fluid handling device sets four piston units 4, four piston units 4 by axis of the axis of valve element the uniform array of annular.By three in four input channels and four output channels on cylinder body 1 Input channel and three output channels are sealed with chock, and transfer device only retains an input channel and an output channel, are used The entrance 6 of the head end formation transfer device of pipeline connection input channel, the head end formation transfer dress of output channel is coupled with pipeline The outlet 7 put.

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

Reference picture 2, Fig. 3 and Figure 11, gear unit 5 be provided with first supporting plate 501, four the second supporting plates 502, One the 3rd supporting plate 503, first gear 504, four second gears 505, the first belt wheel 506, four second bands Wheel 507, four the 3rd belt wheels 508, eight the first support columns 509, four the second support column 510, blade 511, five articles of skins The sleeve 515 of band, several adjustment height.

Four the second supporting plates 502 annular uniform array, the first supporting plate by axis of the center line of the first supporting plate 501 Two mounting holes that 501 ends are set detachably couple with the first supporting plate 501, are set in the middle part of the end of the second supporting plate 502 It is equipped with the middle part of the second belt wheel 507, the head end of the second supporting plate 502 and is provided with the 3rd belt wheel 508, the second belt wheel 507 and the 3rd Belt wheel 508 is carried out etc. than being driven by belt.Second belt wheel 507 is coaxially arranged with second gear 505, second gear 505 and Two belt wheels 507 realize synchronous axial system by key connecting.

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

First belt wheel 506 and the second belt wheel 507 engage realization linkage, transmission with second gear 505 by first gear 504 Than for 2.First belt wheel 506 is coupled by belt with extraneous power source, and gearratio is 2.3rd belt wheel 508 by key connecting with Bent axle realization etc. is than rotating, by above-mentioned setting, and the rotating ratio of final bent axle and motor is 4, passes through and slows down so that bent axle can Larger moment of torsion is exported to connecting rod, and then piston is obtained larger lifting power and lower pressure, more work(can be made to fluid.Tooth The heat that wheel and belt transmission process are produced is transferred by the blade 511 of rotation, and blade 511 passes through key connecting and the first belt wheel 506 synchronous axial systems.

Reference picture 6, the second rotating shaft 513 of the second belt wheel 507 of connection and second gear 505 runs through the second supporting plate 502, the Respective partial insertion the first supporting plate 501 and the 3rd supporting plate 503 are distinguished in the two ends of two rotating shafts 513, and such plan of establishment can The axial freedom of the second rotating shaft 513 is limited, extra spacing part, such as back-up ring or screw or nut is eliminated.

Couple the two ends of first rotating shaft 512 of the first belt wheel 506 and first gear 504 respectively each via bearing and first The supporting plate 503 of supporting plate 501 and the 3rd couples, and bearing is interference fitted with the first supporting plate 501 or the 3rd supporting plate 503, axle Hold and be interference fitted with first rotating shaft 512.Blade 511 is arranged on first rotating shaft 512 close to the side of the 3rd supporting plate 503, and passes through spiral shell Blade 511 is fastened in first rotating shaft 512 by nail.

Reference picture 7, the first supporting plate 501 and the 3rd supporting plate 503 pass through the second detachably connection, second of support column 510 Respective partial insertion the first supporting plate 501 and the 3rd supporting plate 503 are distinguished in the two ends of support column 510, and such assembling scheme can Produce the advantage that：1. the axial freedom and the radial direction free degree of the second support column 510 can be limited so that gear unit 5 is in work Part displacement is avoided during work and causes device to shake.2. convenience when improving component assembly, can pass through the first support Prefabricated counterbore 514 on plate 501 quickly and easily places the second support column 510, then by counterbore prefabricated in the 3rd supporting plate 503 514（Such as Fig. 9）Easily and quickly it is inserted in the second support column 510.3. the second support column 510 is also played to greatest extent simultaneously Supporting role, the part cylinder for inserting the first supporting plate 501 or the 3rd supporting plate 503 by the second support column 510 is supported Each other, it is to avoid trip bolt is acted on by radial shear power so that screw is only by the pulling force effect of axial direction.

Reference picture 4 is to Fig. 5, and the space that the second support column 510 separates the first supporting plate 501 and the 3rd supporting plate 503 is used In setting gear and belt wheel, first gear 504 and second gear 505 is coplanar sets, the first belt wheel 506 and the second belt wheel 507 and The coplanar setting of 3rd belt wheel 508, in order to realize that coplanar setting can adjust the height of gear or belt wheel by sleeve 515.

Reference picture 7 to Fig. 8, the first supporting plate 501 is detachably coupled by the first support column 509 with the cylinder body 1, and first The two ends of support column 509 distinguish be provided with respective the first supporting plate of partial insertion 501 and the cylinder body 1, the first supporting plate with The counterbore 514 that first support column coordinates, as shown in Figure 10, the advantage that such assembling scheme can be brought is as described above.

Claims (5)

1. a kind of assemble method of the gear unit of fluid handling device, the gear unit includes supporting plate, gear, skin Band, it is characterised in that in the gear unit（5）The first supporting plate（501）Middle part set the first belt wheel（506）, second Supporting plate（502）End middle part set the second belt wheel（507）, in the second supporting plate（502）The middle part of head end set the Three belt wheels（508）, make the second belt wheel（507）With the 3rd belt wheel（508）Linked by belt, make the first belt wheel（506）With second Belt wheel（507）Pass through first gear（504）With second gear（505）Engagement linkage, makes the first belt wheel（506）By belt and outside The power source connection on boundary；Make the 3rd belt wheel（508）Rotated by key connecting and crankshaft-synchronous；

First belt wheel（506）It is coaxially arranged with first gear（504）, first gear（504）With the first belt wheel（506）By bonded Connect and realize synchronous axial system；

Second belt wheel（507）It is coaxially arranged with second gear（505）, second gear（505）With the second belt wheel（507）By bonded Connect and realize synchronous axial system；

Make the first support column（509）Head end be removably partially submerged into the first supporting plate（501）, make the first support column（509） End be removably partially submerged into cylinder body（1）, make the second supporting plate（502）End be removably mounted on the first supporting plate （501）On, by the supporting plate of screw bolt passes second（502）, the first supporting plate（501）And first support column（509）And by three Person is fastened on cylinder body（1）On；

Make the second support column（510）Two ends the first supporting plate of dismountable connection respectively（501）With the 3rd supporting plate（503）, And second support column（510）Two ends be partially submerged into corresponding supporting plate, by bolt by the first supporting plate（501）, the 3rd Supporting plate（503）And second support column（510）Fastening.

2. a kind of assemble method of the gear unit of fluid handling device according to claim 1, it is characterised in that institute The gear unit stated is provided with first supporting plate（501）, four the second supporting plates（502）, the 3rd supporting plate （503）, a first gear（504）, four second gears（505）, first belt wheel（506）, four the second belt wheels （507）, four the 3rd belt wheels（508）, eight the first support columns（509）, four the second support columns（510）, a blade （511）, five bars belt, the sleeves of multiple adjustment height；Make four the second supporting plates（502）With the first supporting plate（501）In Heart line is the uniform annular array of axis.

3. a kind of assemble method of the gear unit of fluid handling device according to claim 2, it is characterised in that institute The first gear and the gearratio of second gear stated are 2, the first belt wheel（506）Coupled by belt with extraneous power source, passed Dynamic ratio is 2.

4. a kind of assemble method of the gear unit of fluid handling device according to claim 1, it is characterised in that institute The second support column stated（510）By the first supporting plate（501）With the 3rd supporting plate（503）The space separated be used for set gear and Belt wheel, makes first gear（504）And second gear（505）It is coplanar to set, make the first belt wheel（506）With the second belt wheel（507）And 3rd belt wheel（508）It is coplanar to set.

5. a kind of assemble method of the gear unit of fluid handling device according to claim 1, it is characterised in that institute The first supporting plate stated（501）It is provided with the counterbore coordinated with the first support column（514）, the 3rd supporting plate is provided with and second The counterbore that dagger coordinates（514）.