CN205173481U - Hydraulic machinery - Google Patents

Abstract

The utility model relates to a hydraulic machinery, especially hydraulic coupling have: take driven just driving cone (30) of blade and driven or fixed inferior driving cone (15) of taking the blade, they construct jointly that at least one anchor ring appears, with working medium or working chamber (20) that can fill with working medium, at least one drive shaft (18) and/or output shaft (4), this drive shaft and/or output shaft is connected with driving cone (30) and/or inferior driving cone (15) transmission just or bear the weight of at the beginning of driving cone and/or inferior driving cone, at least one casing (3), it surrounds just driving cone (30) and/or inferior driving cone (15), at least one shaft seal circle (26), it is with drive shaft (18) and/or output shaft (4) relative casing (3) or the member with relative speed looks counter shaft (4, 18) rotation is sealed relatively, its characterized in that, at least one shaft seal circle (26) have a plurality of seal lip (27) of arranging in proper order along the axial direction of drive shaft (18) or output shaft (4).

Description

Hydraulic machine

Technical field

The utility model relates to a kind of hydraulic machine, especially fluid coupling.

Background technique

Because hydraulic machine utilizes liquid, (such as oil or water) runs as working medium, and not only there is the component of rotation but also there is component that is fixing or that rotate with different rotating speeds, so need corresponding radial ringed gap in sealing hydraulic machine.If such as hydraulic machine, especially fluid coupling run using water as working medium, and the component had to support rotation and with the bearing of grease lubrication simultaneously, so use the bearing of grease lubrication must be protected in case water of infiltration.

Fig. 1 illustrates bearing seal conventional in fluid coupling, wherein, utilizes two bearings to be bearing in housing 3 by the output shaft of fluid coupling.Two bearings must be protected in case working medium, especially water infiltrate.Two bearing reference characters 1 and 2 mark, and are bearing in axle 4 marks in housing 3.Illustrate only the half of axle 4.

The bearing 1 kept left covers with the lid 5 of annular, and this lid has the inner ring 5.1 rotated around axle 4 and the outer ring 5.2 be screwed in regularly on housing 3.Between inner ring and outer ring, be provided with radial gap 6, it has the different seal elements of in axial direction locating successively.Bearing 1 (left) is provided with the first radial shaft seals circle 7, is and then so-called load shedding portion 8.Load shedding portion 8 introduces the groove in outer ring 5.2, and it has the hole for deriving the water that may enter.

From bearing 1 outwards, after load shedding portion 8, be provided with the second radial shaft seals circle 9, followed by being the 3rd radial shaft seals circle 10.Even if therefore guarantee that water can not arrive bearing 1 when the 3rd radial shaft seals circle 10 and the second radial shaft seals circle 9 wear and tear during the working time of fluid coupling.

Except the seal element in the radial gap 6 mentioned, in the illustrated embodiment, another radial seal gap 11 that will seal also is provided with at the radially outer of radial gap 6, it is swelled by the axis rotated around axle 4 and the outer circumferential face of outer ring 5.2 limits, and is provided with the labyrinth 12 for sealing in this radial seal gap.Therefore, this labyrinth 12 is prepended to water flowing towards the direction of bearing 1 from active chamber.

In the second bearing 2, be provided with Sealing equally between axle 4 and housing 3, the seal prevents dirty and water from infiltrating housing 3 from outside towards the direction of bearing 2.The seal has felt washer 13 and the 4th radial shaft seals circle 14.

Therefore, although (grease may wash out by water from bearing in case less desirable water enters to achieve reliably isolation bearing by multiple seal element of locating successively, this causes bearing wear ahead of time), but there is following demand, that is, safer as far as possible and cost implements the sealing to bearing lowlyer.

Model utility content

Therefore, task of the present utility model is, a kind of hydraulic machine, especially fluid coupling are described, wherein, better and cost implements live axle or output shaft relative to housing or the sealing relative to the component rotated relative to axle with relative rotation speed lowlyer.

Solved by a kind of hydraulic machine according to task of the present utility model, it has:

Driven just step cone of 1.1 band blades and the driven or fixing secondary wheel of band blade, described just step cone and described secondary wheel jointly construct at least one toroid, to fill with working medium or can with the active chamber of working medium filling;

1.2 at least one live axle and/or output shafts, described live axle and/or described output shaft and described just step cone and/or described secondary wheel are in and are in transmission connection, or carry described just step cone and/or described secondary wheel;

1.3 at least one housing, at least one housing described surrounds described just step cone and/or described secondary wheel;

1.4 at least one Simmer ring, described live axle and/or described output shaft seal relative to described housing or relative to the component rotated relative to axle with relative rotation speed by least one Simmer ring described;

Wherein,

At least one Simmer ring described in 1.5 has multiple sealing lip arranged successively along the axial direction of described live axle or output shaft.

According to the hydraulic machine being especially embodied as fluid coupling of the present utility model, there is driven just step cone of at least one band blade and the driven or fixing secondary wheel of band blade.At least one just step cone and at least one secondary wheel jointly construct at least one toroid, with working medium (especially oil or water) or can with the active chamber of working medium (especially oil or water) filling, in this active chamber, by the hydraulic circular flowing driving just step cone to produce working medium, by the hydraulic circular flowing of this working medium, driving power or torque are passed to secondary wheel from first step cone.

Be provided with at least one live axle to drive at least one just step cone.In addition, when secondary wheel is embodied as the gear of band blade of rotation equally, also output shaft is provided with.Live axle and first step cone are in and are in transmission connection or carry this first step cone, and output shaft and secondary wheel are in and are in transmission connection or carry this secondary wheel.

Hydraulic machine has the housing surrounding just step cone and/or secondary wheel in addition.At this advantageously, first step cone and secondary wheel self can have case cover, or are connected with this case cover, and case cover surrounds another gear corresponding, and is therefore embodied as the case cover of rotation.This case cover can be configured to the so-called housing of hydraulic machine.But according to the mode of execution of alternative, the case cover being additional to rotation is also provided with fixing housing, so it surrounds the case cover that rotates and is called as the housing of hydraulic machine.

In addition, be provided with at least one Simmer ring, such as, or be provided with multiple Simmer ring, live axle and/or output shaft seal relative to housing or relative to other components rotated relative to corresponding axle with relative rotation speed by one or more Simmer ring, seal relative to the case cover of the rotation mentioned.

According to the utility model, at least one Simmer ring has multiple sealing lip arranged successively along the axial direction of live axle or output shaft.

Sealing especially reliably can be realized, the radial shaft seals circle that its on side two of describing in the prior art before such as instead of are outer and radial shaft seals circle on another side and felt washer by arranging according to multiple sealing lip of the present utility model.In addition, can by reducing the heat input in sealing and eroded area according to Simmer ring of the present utility model.

Particularly advantageously, Simmer ring have two or three or more the sealing lip to arrange successively, wherein, three sealing lips are verified is more suitably mode of execution.

Advantageously, all sealing lips and Simmer ring are integrally made.

Preferably, sealing lip and especially all Simmer rings can be made up of PTFE (Polytetrafluorethylen teflon).A kind of mode of execution is arranged, and only sealing lip is made up of PTFE, and remaining Simmer ring is made up of other materials, especially plastics.

According to a kind of mode of execution, in the recess of Simmer ring being inserted axle (live axle or output shaft) or housing (in other words with the component that relative rotation speed rotates) or groove, and particularly advantageously, Simmer ring clamps relative to the convex shoulder of recess by being connected to collar on housing or axle, that especially tighten.At this, groove or recess need not directly be introduced in axle or housing, but it also can be set in the component be arranged on housing or axle, such as, in the inner ring of the lid of the covering bearing mentioned in the prior art or outer ring.

According to the particularly advantageous mode of execution of one, between the component that axle rotates, at least one other seal element is provided with by seal according to Simmer ring of the present utility model radial gap at axle and with relative rotation speed in other words between axle with housing, especially at least one other seal ring, its Simmer ring that is preposition or that be placed on for sealing radial gap.This other seal ring such as may be embodied as with in order to cross-over connection radial gap by the radial shaft seals circle of sealing lip that spring force loads.Sealing lip especially may be embodied as PTFE sealing lip, and seal ring may be embodied as film Simmer ring.

Advantageously, bearing, especially rolling bearing side is positioned at together with the seal element that Simmer ring of the present utility model is especially other with this, by this bearing, axle (live axle and/or output shaft) is bearing in housing or in the component that rotates relative to axle with relative rotation speed.

According to a kind of mode of execution of the present utility model, axle (live axle and/or output shaft) has Simmer ring that is multiple, especially two multiple sealing lips arranged successively of band, wherein, especially each Simmer ring is positioned in the region of an axial end portion of axle respectively, and/or is positioned at bearing side respectively.

Preferably, the multi-sealed lip of Simmer ring is with following length and advantageously can implement to elastic bending, namely, make its complete cross-over connection axle with the axle in other words between housing and with the radial gap of relative rotation speed between the component that axle rotates, and abut in especially in the case of an elastic deformation on the opposite face of radial gap.

Hydraulic machine such as may be embodied as the two coupler of fluid power, that is, it has two active chambers be preferably in axial direction arranged side by side.At this, first step cone can construct the half of two active chambers respectively, and secondary wheel can construct two active chambers corresponding second half.

Hydraulic machine, especially fluid coupling are advantageously embodied as fills controlled machinery or coupler, that is, active chamber can with working medium filling more or less, takes turns to the torque or driving power that secondary wheel transmits to adjust targetedly from elementary.

According to a kind of mode of execution, the axial seal of cross-over connection radial gap can be preposition or be placed on axial sealing ring.

Accompanying drawing explanation

Exemplarily the utility model should be described with accompanying drawing below in conjunction with the embodiments.Wherein:

Fig. 1 illustrates the Sealing according to prior art;

Fig. 2 illustrates the axial, cross-sectional view of band according to the two coupler of the fluid power of shaft seal of the present utility model;

Fig. 3 illustrates the detailed drawing of the shaft seal in Fig. 2.

Embodiment

The two coupler of fluid power shown in Figure 2, it has fixing frame 3.Axle 4 is bearing in housing 3 by two bearings 1 and 2, and wherein, in the embodiment shown, axle 4 is embodied as the output shaft of the secondary wheel 15 of carrying fluid coupling.In the embodiment shown, two blade wheel rims 16 are screwed on the flange 17 of axle 4, and these two blade wheel rims are located with back-to-back arrangement and jointly constructed secondary wheel 15.

First step cone 30 is carried by live axle 18 in the embodiment shown, and there are two blade wheel rims 19, these two blade wheel rims 19 surround two blade wheel rims 16 in the axial direction between which as follows, namely, make each blade wheel rim 19 in axial direction opposed with blade wheel rim 16, and construct active chamber 20 respectively.The filling of active chamber 20 is realized by inflow part 21, and working medium flows out from fluid coupling by back pressure pump 22.

Clutch shaft bearing 1 is sealed by the first Sealing 23 on the side facing active chamber 20, and the second bearing 2 is sealed by the second Sealing 24 rising on the side (namely towards the side of surrounding environment orientation) deviating from active chamber 20.Two Sealings all should stop water to enter, and also should stop dirty entering in the second Sealing 24.First Sealing 23 has ventilating part, also can describe this ventilating part in detail subsequently and mark these ventilating parts with 25.Ventilating part 25 is formed by the passage in housing 3, and this passage passes in the first Sealing 23 and to lead to housing 3 outside.

Fig. 3 illustrates two Sealings 23 and 24 now in detail.First Sealing 23 (its protection clutch shaft bearing 1 infiltrates from active chamber with waterproof) gauge goes out radial gap 6 and has according to the description shown in starting the lid 5 being with inner ring 5.1 and outer ring 5.2.From clutch shaft bearing 1 towards the direction of active chamber (not shown), namely the first radial shaft seals circle 7 is provided with on the contrary with the flow direction of the imagination of working medium (especially water), followed by being the load shedding portion 8 being axially positioned on its side.Load shedding portion 8 (groove in outer ring 5.2) is ventilated by the ventilating part 25 shown in Fig. 2, and being about to the water infiltrated in groove is derived by ventilating part 25.

On side, load shedding portion 8, the side deviating from bearing 1 is provided with the Simmer ring 26 implemented according to the utility model, and it is with multiple sealing lip 27 of locating successively.In the embodiment shown, three sealing lips of in axial direction locating successively 27 are provided with.

Simmer ring 26 is inserted in the recess of outer ring 5.2, and clamps by the convex shoulder of the recess in collar 28 relatively outer ring 5.2.Sealing lip 27 has following length, that is, make on its outer circumferential face abutting in inner ring 5.1 deviously.

Collar 28 is screwed on outer ring 5.2 in side.In addition, the axial seal 29 for anti-soil is provided with in the side of outer ring 5.2.

Also be noted that, compared with the corresponding radial shaft seals circle of the prior art according to Fig. 1, the first radial shaft seals circle 7 is oppositely installed, thus opening is pointed out from bearing 1.This opening can with grease-filled.

In addition, labyrinth 12 is prepended to the first Sealing 23, the outer radial periphery face of this labyrinth sealed outer ring 5.2 and the axis of axle 4 swell between radial seal gap 11.

Second seal ring 24 has the lid 5 be screwed on housing 3 equally, and itself and axle 4 go out radial gap 6 in both sides gauge.Go out to send from bearing 2, first the radial shaft seals circle 14 of the 4th radial shaft seals circle 14 corresponding to Fig. 1 is provided with in radial gap 6, but according to the utility model, followed by there being Simmer ring 26, it is with multiple sealing lip 27, is three sealing lips 27 equally at it.

This Simmer ring 26 is also clipped in the axial direction between the convex shoulder of recess and collar 28 in both sides in the recess of lid 5.

Claims (20)

1. a hydraulic machine, has:

Driven just step cone (30) of 1.1 band blades and the driven or fixing secondary wheel (15) of band blade, described just step cone and described secondary wheel jointly construct at least one toroid, with working medium filling or can with the active chamber of working medium filling (20);

1.2 at least one live axle (18) and/or output shaft (4), described live axle and/or described output shaft and described just step cone (30) and/or described secondary wheel (15) are in and are in transmission connection, or carry described just step cone and/or described secondary wheel;

1.3 at least one housing (3), at least one housing described surrounds described just step cone (30) and/or described secondary wheel (15);

1.4 at least one Simmer ring (26), described live axle (18) and/or described output shaft (4) seal relative to described housing (3) or relative to the component rotated relative to axle (4,18) with relative rotation speed by least one Simmer ring described;

It is characterized in that,

At least one Simmer ring (26) described in 1.5 has multiple sealing lip (27) arranged successively along the axial direction of described live axle (18) or output shaft (4).

2. hydraulic machine according to claim 1, is characterized in that, described hydraulic machine is fluid coupling.

3. hydraulic machine according to claim 1 and 2, is characterized in that, described Simmer ring (26) have two or three or more the sealing lip (27) to arrange successively.

4. hydraulic machine according to claim 1 and 2, is characterized in that, all sealing lips (27) are all integrally made with described Simmer ring (26).

5. hydraulic machine according to claim 4, is characterized in that, described sealing lip (27) is made up of PTFE.

6. hydraulic machine according to claim 1 and 2, is characterized in that, in the recess that described Simmer ring (26) inserts described axle (4,18) or described housing (3) or groove.

7. hydraulic machine according to claim 6, it is characterized in that, described Simmer ring (26) clamps between the convex shoulder and the collar (28) being connected on described housing (3) or described axle (4,18) of described recess.

8. hydraulic machine according to claim 7, is characterized in that, described collar (28) is tightened on described housing (3) or described axle (4,18).

9. hydraulic machine according to claim 1 and 2, it is characterized in that, described axle (4,18) and described housing (3) or described with the radial gap (6) that by described Simmer ring (26) sealed of relative rotation speed between the component that axle (4,18) rotates in preposition or after be equipped with at least one other seal element, for sealing described radial gap (6).

10. hydraulic machine according to claim 9, is characterized in that, at least one other seal element described is at least one other seal ring.

11. hydraulic machines according to claim 10, it is characterized in that, described other seal ring is embodied as radial shaft seals circle (7,14), and described radial shaft seals circle has in order to radial gap described in cross-over connection (6) by the sealing lip that spring force loads.

12. hydraulic machines according to claim 1 and 2, it is characterized in that, described Simmer ring (26) is positioned at bearing (1,2) side, by described bearing, described axle (4,18) is bearing in described housing (3) or the described component rotated relative to axle (4,18) with relative rotation speed.

13. hydraulic machines according to claim 12, is characterized in that, described bearing (1,2) is rolling bearing.

14. hydraulic machines according to claim 9, it is characterized in that, described Simmer ring (26) is positioned at bearing (1,2) side together with described other seal element, by described bearing, described axle (4,18) is bearing in described housing (3) or the described component rotated relative to axle (4,18) with relative rotation speed.

15. hydraulic machines according to claim 14, is characterized in that, described bearing (1,2) is rolling bearing.

16. hydraulic machines according to claim 1 and 2, it is characterized in that, described axle (4,18) has the Simmer ring (26) of the multiple sealing lip (27) arranged successively of multiple band, wherein, each Simmer ring (26) is positioned in the region of an axial end portion of described axle (4,18) respectively, and/or is positioned at bearing (1,2) side respectively.

17. hydraulic machines according to claim 16, is characterized in that, described axle (4,18) has two Simmer rings (26).

18. hydraulic machines according to claim 1 and 2, it is characterized in that, described sealing lip (27) is axle (4,18) and described housing (3) or described with the radial gap (6) of relative rotation speed between the component that axle (4,18) rotates described in cross-over connection completely, and abuts on the opposite face of described radial gap (6).

19. hydraulic machines according to claim 18, is characterized in that, described sealing lip (27) abuts on the opposite face of described radial gap (6) in the case of an elastic deformation.

20. hydraulic machines according to claim 1 and 2, is characterized in that, described hydraulic machine is configured to the two coupler of fluid power, and the two coupler of described fluid power has two active chambers be in axial direction arranged side by side (20).