CN201627880U - Bevel gear actuating device - Google Patents

Abstract

The utility model relates to a bevel gear actuating device which comprises a quadrate shell. The shell is provided with an input side, a first output side and a second output side, wherein the first output side is vertical to the input side, the second output side is opposite to the first output side, and the first output side and the second output side are respectively provided with a first round opening and a second round opening; the first round opening and the second opening are strengthened in the mode of truncated cone shape or cylinder shape and form a bearing pedestal; the inner part of the shell forms a connecting sheet in which a bevel gear shaft is arranged; on the input side of the bevel gear shaft, one gear extends to be arranged on the bevel gear shaft in a suspending mode; a motor pinion which extends into the shell from the notch is meshed with the gear; the end part area of the bevel gear shaft is constructed into the bevel gear, a crown gear on the pinion shaft is meshed with the bevel gear shaft, and the part of the pinion shaft, which is positioned between the crown gear and the third bearing, is processed into a pinion which is meshed with an output gear on the output shaft.

Description

Bevel gearing

Technical field

The utility model relates to a kind of bevel gearing.

Background technique

FR 2 547 007 discloses a kind of bevel gearing.

The model utility content

Therefore the purpose of this utility model is, improves bevel gearing so that bevel gearing can assemble and move simple and reliablely.

The key character of the utility model aspect bevel gearing is: described bevel gearing comprises the housing that is square substantially; Described housing have input side, first outlet side vertical with described input side and with opposed second outlet side of described first outlet side; In described input side, be provided with the breach of perforation; On described input side, form annular reinforcing part around the breach of described perforation, in described annular reinforcing part, be provided with (a plurality of) tapped blind hole, can flange on described blind hole connect a driver element, as motor or retarder; Described first outlet side has first circular open and second circular open, described second outlet side has first circular open and second circular open, and bearing support is strengthened and formed to described first circular open and second circular open with truncated cone shape or columnar mode; Be constructed to have the top side of top cover with the opposed shell body wall of described input side, described input side is connected with described top side by the bottom side; Has the step at rounded angle with the opposed shell body wall in described bottom side, described step extends towards described input side from described top side, central authorities at described step are erected to stretch out a wall portion, and the free seamed edge of described wall portion is copied described step in the mode of the less shoulder height of setovering and formed; Described wall portion has manhole; Inside at described housing forms a connecting piece, forms the clutch shaft bearing seat and second bearing support in described connecting sheet in the opening that connects; The first bevel gear bearing and the second bevel gear bearing are set, the described first bevel gear bearing and second bevel gear bearing support cone gear shaft in the pass through openings of described connecting sheet in described clutch shaft bearing seat and described second bearing support; Described bevel gear shaft extends to described top side from described input side vertically; At the input side of described bevel gear shaft, the dress that overhangs on described bevel gear shaft/float is provided with a gear (fliegend), and described gear is connected rotationally by bevel gear key and described bevel gear shaft are anti-; Pass described breach and stretch into described housing interior motor pinion and described gear engagement; Bevel gear shaft is constructed to bevel gear at the end regions of top side; In first circular open of described first outlet side the 3rd bearing is set, in first circular open of described second outlet side second bearing is set, described second bearing and the 3rd bearing support pinion shaft in described housing; The anti-crown gear that is provided with rotationally between described second bearing and described the 3rd bearing, on described pinion shaft, this crown gear and the engagement of described bevel gear; Branch's section between described crown gear and described the 3rd bearing of described pinion shaft forms small gear; In second opening of described first outlet side, the output bearing is set, in second opening of described second outlet side, clutch shaft bearing is set; Described clutch shaft bearing and described output bearing are at described housing internal support output shaft; An anti-output gear, this output gear and the described pinion of being provided with rotationally on described output shaft.Its advantage is that described housing has installs all required openings, and highly stable.All axles and gear parts can both be installed simple and reliablely.

In a kind of more favourable mode of execution, in described housing and described top cover, form tapped through hole, be screwed into locking bolt or ventilation valve in described tapped through hole, wherein, these through holes form and make that described locking bolt and described ventilation valve can mutual alternative.Its advantage is, can assemble described bevel gearing simple and reliablely.Even the mounting point of ventilation valve or change bevel gearing is installed mistakenly, the place be changed or be set in place to ventilation valve also can simply.

In the more favourable mode of execution of another kind, described output shaft is constructed to solid shaft, and described output shaft stretches out from described first outlet side and/or described second outlet side with regional area.Its advantage is, two outlet sides is provided and output shaft can be installed simply.

In the more favourable mode of execution of another kind, described regional area has keyway and key.Its advantage is, can device to be driven be connected with described bevel gearing simple and reliablely, and fitting key simply.

In the more favourable mode of execution of another kind, described output shaft is constructed to hollow shaft.Its advantage is that bevel gearing can be used as plug-in type transmission device/socket joint type transmission device (Aufsteckgetriebe).Hollow shaft can pass two first circular opens and be installed simple and reliablely.

In the more favourable mode of execution of another kind, described housing forms the fringe region of strengthening around described top cover, the fringe region of described reinforcement continues to extend on the described bottom side of described input side of the connection of housing and described top side, described fringe region stretches out outside described bottom side and/or the top side, and described fringe region has through hole as possible fixed structure.Its advantage is that bevel gearing can be fixed when mounted well, thereby can be assembled simple and reliablely.Corresponding position can be fixed simple and reliablely or be installed in to bevel gearing self also.

In the more favourable mode of execution of another kind, second opening of described first outlet side and second outlet side is surrounded by the annular reinforced region of described housing in hull outside, described annular reinforced region has fixed structure, by means of described fixed structure around second opening of second opening of described first outlet side and/or described second outlet side, on described housing, fix a flange.Its advantage is, corresponding bearing can be installed simple and reliablely, and described bevel gearing can be connected on the device to be driven by simple and reliable ground flange.

In the more favourable mode of execution of another kind, described housing is made by cast iron.Its advantage is, can make described bevel gearing simple and reliablely.

In the more favourable mode of execution of another kind, described bearing is constructed to rolling bearing.Its advantage is, rolling bearing can be installed and supporting axle reliably simple and reliablely.

In the more favourable mode of execution of another kind, described bearing is constructed to tapered roller bearing, preferably, the described first bevel gear bearing and the second bevel gear bearing form " O " layout/back-to-back arrangement, described output bearing and described clutch shaft bearing form " X " layout/arrangement face-to-face, and described second bearing and described the 3rd bearing form " X " layout.Its advantage is that these bearings can be installed simple and reliablely, and axial force is absorbed reliably.

In the more favourable mode of execution of another kind, described gear is connected with corresponding axle in the mode of shape sealed (formschl ü ssig) and/or force closure (kraftschl ü ssig).Its advantage is, makes these gears reliable and/or be connected with corresponding axle with gap for a short time.

In the more favourable mode of execution of another kind, by means of second spacer tube, adjust pad, slotted nut, lock washer and/or banking stop and be adjusted in play between described bevel gear shaft and the described crown gear.Its advantage is, can regulate play simple and reliablely.Thereby can the described bevel gearing of simple and reliable ground installation and operation.

In the more favourable mode of execution of another kind, described first opening in described first outlet side and described second outlet side is by the sealing of first and second cover caps.Its advantage is that described bevel gear can be installed simple and reliablely, and each bearing is protected reliably.

In the more favourable mode of execution of another kind, described gear, described output gear and corresponding small gear have helical teeth, and described helical teeth preferable configuration is an involute tooth.Its advantage is that each tooth portion is engaged with each other reliably.

In the more favourable mode of execution of another kind, the axial position of described gear, described crown gear and described output gear fixes by means of stop ring and packing ring.Its advantage is, fixes corresponding parts reliably vertically by simple assembling.

Dependent claims has provided other advantages.The utility model is not limited to the characteristics combination of claim.Especially by offering the challenge and/or by offering the challenge compared with prior art, those skilled in the art can draw that other of claim and/or independent claim feature and/or specification feature and/or accompanying drawing feature are significant may compound modes.

Reference numerals list

1 motor pinion

2 gears

3 bevel gear shafts

4 crown gears

5 pinion shafts

6 output gears

7 output shafts

7a first output shaft

7b second output shaft

8 keys

9 Simmer rings

10 double-deck Simmer rings

11 output bearings

12 first stop rings

13 connecting sheets

17 first spacer tubes

19 run-out keies

20 ventilation valves

22 housings

23 annular reinforcing parts

25 clutch shaft bearings

29 Sealings

30 second bearings

31 crown gear keys

37 the 3rd bearings

39 second stop rings

42 first bevel gear bearings

43 bevel gear keys

45 second bevel gear bearings

59 locking bolts

80 second keys

83 first Sealings

84 second Sealings

88 the 3rd stop rings

89 output cover caps

100 top covers

101 closure studs

102 Sealings

113 slotted nuts

114 lock washers

115 the 4th stop rings

116 threaded fasteners

119 second spacer tubes

131 first cover caps

132 the 5th stop rings

133 packing rings

135 the 3rd Sealings

137 supporting elements

161 second cover caps

163 second packing rings

183 second Simmer rings

184 second double-deck Simmer rings

506 first adjust pad

521 second adjust pad

530 the 3rd adjust pad

533 the 4th adjust pad

536 the 5th adjust pad

542 the 6th adjust pad

Description of drawings

Describe mode of execution of the present utility model in detail below in conjunction with accompanying drawing.Described accompanying drawing is pure schematic:

Fig. 1 is the three-dimensional exploded view according to bevel gearing of the present utility model;

Fig. 2 is the sectional view of bevel gearing shown in Figure 1;

Fig. 3 is the partial sectional view of another mode of execution of bevel gearing;

Fig. 4 illustrates the sectional view perpendicular to section shown in Figure 2 of bevel gearing shown in Figure 1; And

Fig. 5 illustrates another mode of execution of bevel gearing with side view.

Embodiment

Fig. 1 illustrates a kind of bevel gearing with housing 22.This housing is preferably cast and is formed.The input side of housing 22 has the breach of perforation.The breach of this perforation is rounded.Housing 22 forms annular reinforcing part 23 around the breach of this perforation.This annular reinforcing part 23 is protruding with respect to the remaining surface of this input side.In annular reinforcing part 23, offer the blind hole that has internal thread.This annular reinforcing part 23 is used for flange and connects motor.

Opposed with input side is a top side as top cover 100.Top cover 100 is fixed on the housing 22 by means of closure stud 101.At this, between top cover 100 and housing 22, sandwich a Sealing 102.This top side also is connected with input side by the bottom side.Be provided with the fringe region of the thickening of housing 22 around top cover.The fringe region of this thickening extends to the bottom side from the top side.This fringe region stretches out outside described bottom side and the top side.Fastener can be passed the through hole in the fringe region.Thereby bevel gearing can be fixed on the corresponding device thereof.

Has the step of a rounding with the opposed shell body wall in bottom side.This step extends towards input side from the top side.In the central authorities of this shell body wall and this step, a wall portion is erected to stretch out from this shell body wall.The free seamed edge of this wall portion is with this step of less shoulder height biasing ground imitation (shape).This wall portion has manhole, but on this manhole hanging support for example suspension hook to transport bevel gearing.

Perpendicular to this input side, housing 22 have first outlet side and with opposed second outlet side of this first outlet side.

In housing 22 and top cover 100, form tapped through hole.Locking bolt 59 or ventilation valve 20 can be screwed into this internal thread.This internal thread, locking bolt 59 and ventilation valve 20 are designed to, and locking bolt 59 and ventilation valve 20 can be fixed in tapped arbitrary through hole of housing 22 or top cover 100.

In first outlet side and second outlet side, form first circular open and second circular open respectively.First circular open is strengthened by the truncated cone shape thickening part of the directed outside of housing.This thickening part has cylindrical internal surface.The cylindrical internal surface of the thickening part of this first outlet side is admitted an output bearing 11 as bearing support.Output bearing 11 the outer ring be bearing on first stop ring 12, first stop ring 12 snap in this cylindrical internal surface around groove in.Clutch shaft bearing 25 correspondingly is arranged in second outlet side.The outer ring of clutch shaft bearing 25 is being bearing on the 3rd stop ring 88 vertically towards adjusting pad 521 by second on the direction of input side.

Output bearing 11 and clutch shaft bearing 25 supportings one output shaft 7.Preferably, output bearing 11 and clutch shaft bearing 25 are tapered roller bearings, and this tapered roller bearing is installed in the housing 22 with " X " layout.Described tapered roller bearing is preferably respectively by 83, the 84 relative enclosure interior sealings of first and second Sealings.First and second Sealings 83,84 particularly are constructed to Ni Luosi seal ring (Nilos-Ring).As shown in Figure 2, the regional area 7a of output shaft 7 is stretched out outside the housing 22 by first outlet side.In mode of execution shown in Figure 3, the regional area 7b of output shaft 7 is stretched out by second outlet side.In regional area 7a, form the keyway of placing key 8, in regional area 7b, form the keyway of placing key 80.Be not output axle 7 outlet sides that stretch out first circular open by an output cover cap 89 sealings.

The opening that stays between output shaft 7 and housing 22 passes through Simmer ring 9 and/or double-deck Simmer ring 10 or one second Simmer ring 183 and/or second double-deck Simmer ring 184 sealings.

In the unshowned mode of execution of another kind, output shaft 7 is stretched out by first and second outlet sides.

Output gear 6 resists by means of run-out key 19 and is connected with output shaft 7 rotationally.In the axial direction, gear 6 is fixed by a shoulder in output shaft 7 in a side, and fixing by first spacer tube 17 that is arranged on the output shaft at opposite side.First spacer tube 17 is bearing on the inner ring of output bearing 11.The small gear zone engages of output gear 6 and pinion shaft 5.Pinion shaft 5 extends abreast with output shaft 7.Second bearing 30 and the 3rd bearing 37 are arranged in first and second outlet sides in the tubular reinforcing part of second circular open, and supporting pinion shaft 5.Preferably, second bearing 30 and the 3rd bearing 37 are tapered roller bearings, and it is installed in the housing with " X " layout.Second bearing, 30 preferred inner sealings by the 3rd Sealing 135 relative housings 22.The 3rd Sealing especially is constructed to the Ni Luosi seal ring.

One crown gear 4 is by means of crown gear key 31 anti-being bearing in rotationally on the pinion shaft 5.Fix by the shoulder of pinion shaft 5 and the inner ring of second bearing 30 vertically at crown gear, described shoulder produces by the small gear zone.Fig. 2 and Fig. 3 show two kinds of different mode of executions of crown gear 4 respectively, and wherein, the inclination angle in the tooth zone of crown gear 4 differs from one another.

The outer ring of the 3rd bearing 37 is bearing in supporting element 137 and first by second stop ring 39 vertically and adjusts on the pad 506.The inner ring of the 3rd bearing 37 is resisted against on another shoulder that passes through the formation of small gear zone of pinion shaft 5.Second circular open of first outlet side is by 131 sealings of first cover cap.

The outer ring of second bearing 30 adjusts pad 542 by the 6th and packing ring 133 is bearing on the 5th stop ring 132.The 5th stop ring 132 be arranged on second outlet side second circular open cylindrical internal surface around groove in.Second circular open of second outlet side is by 161 sealings of second cover cap.

In housing 22, the connecting sheet 13 of housing 22 is arranged in half one towards input side of housing 22 between first and second outlet sides.In the pass through openings of extending, offer two bearing supports perpendicular to this connecting sheet.These two bearing supports are admitted the first bevel gear bearing 42 and the second bevel gear bearing 45, and described first, second bevel gear bearing preferably is constructed to tapered roller bearing, and install according to " O " layout.The outer ring of the first and second bevel gear bearings 42,45 is bearing on the shoulder of pass through openings with facing with each other.The first and second bevel gear bearings 42,45 support cone gear shaft 3 in housing 22.Bevel gear shaft 3 is perpendicular to output shaft 7 and pinion shaft 5.The axis of the axis of bevel gear shaft 3 and pinion shaft 5 intersects on one point.On the direction of top side, bevel gear shaft 3 and bevel gear are arranged in the mode that overhangs.This bevel gear especially is constructed to helical bevel gear, and with the tooth zone engages of crown gear 4.Corresponding to the different mode of executions of Fig. 2 with the crown gear 4 shown in 3, two kinds of different mode of executions of this bevel gear shown in Figure 4.

One gear 2 is rotatably fixed on the bevel gear shaft 3 so that the mode that overhangs is anti-by means of bevel gear key 43.As shown in Figure 4, gear 2 vertically on the direction of input side, adjust pad 530, second packing ring 163 by the 3rd and snap in bevel gear shaft 3 around the 4th stop ring 115 supportings in the groove.As shown in Figure 1, gear 2 can pass through slotted nut 113, lock washer 114 and threaded fasteners 116 alternatively at input side and supports vertically.On the direction of top side, the inner ring of gear 2 by the second bevel gear bearing 45, be arranged on second spacer tube the 119, the 4th on the bevel gear shaft 3 and adjust the inner ring and the 5th of pad 533, the first bevel gear bearing 42 and adjust pad 536 and be bearing on the shoulder of this bevel gear shaft 3.By correspondingly selecting the 3rd to adjust pad 530, second packing ring 163, second spacer tube 119 and the 4th, the 5th adjustment pad 533,536, can be adjusted in the play between bevel gear and the crown gear.This has realized simple and reliable assembling and to the compensation of the manufacturing tolerances that may exist.So this bevel gearing can be worked safely and reliably.

Stretch into the motor pinion 1 and gear 2 engagements of housing 22 from input side.Motor pinion 1 can be connected with the motor shaft of motor, and this motor can be connected on the input side by flange.By small gear zone and the output gear 6 of correspondingly selecting motor pinion 1, gear 2, bevel gear, crown gear 4, pinion shaft 5, can realize the various velocity ratio of bevel gearing.

Be the closely spaced mode of execution of (realization) transmission device, gear 2, crown gear 4 and output gear 7 preferably are connected in the mode of force closure extraly with corresponding axle, and be especially bonding.

Fig. 5 shows another mode of execution of bevel gearing, and wherein, the shell area of reinforcement is surrounded first circular open of first and second outlet sides.The shell area of strengthening has hole arrangement and is designed to, and a flange can be threaded on housing 22.Advantageously, output shaft is constructed to hollow shaft in this case.Two of She Ji bevel gearing first openings can be sealed by vent cover like this, perhaps branch's section of sealing the hollow shaft that stretches out by the housing with this hole arrangement coupling by means of clamp ring.

Claims (18)

1. a bevel gearing comprises the housing that is square substantially, it is characterized in that,

Wherein, described housing have input side, first outlet side vertical with described input side and with opposed second outlet side of described first outlet side;

Wherein, in described input side, be provided with the breach of perforation;

Wherein, on described input side, form annular reinforcing part, in described annular reinforcing part, be provided with tapped blind hole, on described blind hole, can connect a driver element by flange around the breach of described perforation;

Wherein, described first outlet side has first circular open and second circular open, described second outlet side has first circular open and second circular open, and bearing support is strengthened and formed to described first circular open and second circular open with truncated cone shape or columnar mode;

Wherein, be constructed to have the top side of top cover with the opposed shell body wall of described input side, described input side is connected with described top side by the bottom side;

Wherein, has the step at rounded angle with the opposed shell body wall in described bottom side, described step extends towards described input side from described top side, central authorities at described step are erected to stretch out a wall portion, and the free seamed edge of described wall portion forms according to described step in the mode of the less shoulder height of setovering;

Wherein, described wall portion has manhole;

Wherein, form a connecting piece, in described connecting sheet, in the opening that connects, form the clutch shaft bearing seat and second bearing support in the inside of described housing;

Wherein, the first bevel gear bearing and the second bevel gear bearing are set in described clutch shaft bearing seat and described second bearing support, the described first bevel gear bearing and second bevel gear bearing support cone gear shaft in the pass through openings of described connecting sheet;

Wherein, described bevel gear shaft extends to described top side from described input side vertically;

Wherein, on the input side of described bevel gear shaft, a gear is set on described bevel gear shaft with overhanging, described gear is connected rotationally by bevel gear key and described bevel gear shaft are anti-;

Wherein, pass described breach and stretch into described housing interior motor pinion and described gear engagement;

Wherein, bevel gear shaft is constructed to bevel gear at the end regions of top side;

Wherein, in first circular open of described first outlet side the 3rd bearing is set, in first circular open of described second outlet side second bearing is set, described second bearing and the 3rd bearing support pinion shaft in described housing;

Wherein, the anti-crown gear that is provided with rotationally between described second bearing and described the 3rd bearing, on described pinion shaft, this crown gear and the engagement of described bevel gear;

Wherein, the branch's section between described crown gear and described the 3rd bearing of described pinion shaft forms small gear;

Wherein, in second opening of described first outlet side, the output bearing is set, in second opening of described second outlet side, clutch shaft bearing is set;

Wherein, described clutch shaft bearing and described output bearing are at described housing internal support output shaft;

Wherein, an anti-output gear, this output gear and the described pinion of being provided with rotationally on described output shaft.

2. bevel gearing according to claim 1 is characterized in that,

Described driver element is motor or retarder.

3. bevel gearing according to claim 1 is characterized in that,

Form tapped through hole in described housing and described top cover, be screwed into locking bolt or ventilation valve in described tapped through hole, wherein, these via design become to make that described locking bolt and described ventilation valve can mutual alternative.

4. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described output shaft is constructed to solid shaft, and described output shaft stretches out from described first outlet side and/or described second outlet side with regional area.

5. bevel gearing according to claim 4 is characterized in that,

Described regional area has keyway and key.

6. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described output shaft is constructed to hollow shaft.

7. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described housing forms the fringe region of strengthening around described top cover, and the fringe region of described reinforcement continues to extend on the described bottom side of described input side of the connection of housing and described top side,

Wherein, described fringe region stretches out outside described bottom side and/or the top side, and described fringe region has through hole as available fixed structure.

8. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Second opening of described first outlet side and second outlet side is surrounded by the annular reinforced region of described housing in hull outside, described annular reinforced region has fixed structure, by means of described fixed structure, fix a flange around second opening of described first outlet side and/or second opening of described second outlet side on described housing.

9. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described housing is made by cast iron.

10. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described bearing is constructed to rolling bearing.

11. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described bearing is constructed to tapered roller bearing.

12. bevel gearing according to claim 11 is characterized in that,

The described first bevel gear bearing and the second bevel gear bearing form " O " layout, and described output bearing and described clutch shaft bearing form " X " layout, and described second bearing and described the 3rd bearing form " X " layout.

13. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described each gear mode sealed with shape and/or force closure is connected with corresponding axle.

14. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

By means of second spacer tube, adjust pad, slotted nut, lock washer and/or banking stop and be adjusted in play between described bevel gear shaft and the described crown gear.

15. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described first opening in described first outlet side and described second outlet side is respectively by the sealing of first and second cover caps.

16. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

Described gear, described output gear and corresponding small gear have helical teeth.

17. bevel gearing according to claim 16 is characterized in that,

Described helical teeth is configured to involute tooth.

18. according to the described bevel gearing of one of claim 1-3, it is characterized in that,

The axial position of described gear, described crown gear and described output gear fixes by means of stop ring and packing ring.

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