GB2071206A - Hydraulic pump drive unit - Google Patents

Abstract

A hydraulic pump drive unit for use with an engine 14 having a drive shaft 16 in which the drive unit is adapted to be secured to the rear end of the engine comprises a housing 18, 24 for securing to the engine and having an aperture for receiving the drive shaft 16 therethrough. A first gear 26 is rotatably carried within the housing and, in use, is coaxially secured to the drive shaft. A second gear 42 is also rotatably carried within the housing in a spaced and parallel relationship to the first gear 26 to be drived thereby. In use the second gear 42 is coupled to a hydraulic pump 46. Oil flows into a reservoir 68 and is maintained at a predetermined level by a dam 70. <IMAGE>

Description

SPECIFICATION Hydraulic pump drive This invention relates to hydraulic pump drives and more particularly to a hydraulic pump drive arranged to be secured to the rear of the engine.

The use of hydraulic pumps in conjunction with internal combustion engines, or the like, has become more and more prevalent in modern times to provide power for accessories or as an assist for brakes and steering for automobiles for instance.

Such hydraulic pumps are driven by the engine and for this purpose a hydraulic pump drive rotatably couples the hydraulic pump to the engine.

These previously known hydraulic pump and hydraulic pump drives have been typically mounted at the front of the engine. Only so many pumps can be mounted to the front of the engine, however, and as the number of pumps in use on an engine increases some means will have to be provided to mount at least some of the pumps to the rear of the engine.

Hydraulic pumps and their associated drive occupy a great deal of space at the forward end of the engine. In modern automobiles and other vehicles, engine compartment space at the front of the engine is limited so that elimination of the hydraulic pump and its drive from the front of the engine for this reason would be an important advantage.

Further, with hydraulic pumps and their drives at the forward end of the engine they are exposed to damage in the event of a collision or the like.

The repair or replacement of either the hydraulic pump or its drive is not only expensive, but also time consuming. Moreover, damage to the hydraulic pump may render the vehicle inoperable.

Thus again it would be advantageous to place at least the more important and more expensive hydraulic pumps at the rear of the engine.

An object of the present invention is to provide a hydraulic pump drive which is mounted at the rear end of the engine.

According to the invention in a hydraulic pump drive for use in conjunction with an engine having a drive shaft, said pump drive comprises a housing secured to the rear of said engine, a driving means rotatably carried by said housing and coaxially secured to said drive shaft, a driven means rotatably carried in said housing so that said driving means rotatably drives said driven means, and means for securing a hydraulic pump to said driven means.

Preferably said driven means comprises a second gear which meshingly engages said first gear.

As will become hereinafter more apparent, the pump drive of the present invention may be of relatively narrow construction and, in addition, may include a mounting flange for a clutch, torque converter or the like. Moreover, the pump drive housing may include a mounting portion particularly adapted for a starter motor.

A better understanding of the present invention will be had upon reference to the following detailed description when read in conjunction with the accompanying drawing, wherein like reference characters refer to like parts throughout the several views, and in which: Fig. 1 is a cross-sectional view showing the hydraulic pump drive of the present invention; and Fig. 2 is a partial cross-sectional view taken substantially along line 2-2 in Figure 2, with parts removed and broken away for clarity.

With reference to the drawing, the hydraulic pump drive 10 of the present invention is thereshown as being secured to the rear 12 of an in line engine 14. The engine 14 is preferably an internal combustion engine but in any case rotatably drives a drive shaft 1 6.

The pump drive 10 further includes a mounting plate 1 8 secured to the rear 12 of the engine 14 in any conventional manner such as by bolts 20. An aperture 22 in the mounting plate 1 8 registers with the drive shaft 1 6 and cover housing 24 in turn is secured over and onto the mounting plate 18.

A spur gear 26 and a fly wheel 28 are respectively coaxially secured to the drive shaft 1 6 by bolt members 30 or the like so that the spur gear 26 is contained substantially within the housing 24 while the fly wheel 28 is exposed at the rearward end 32 of the pump drive 10. An annular oil seal 34 is provided between the cover housing 24 and the hub of the spur gear 26 in order to retain oil within the housing 24 as will be hereinafter described in greater detail.

A bearing adapter 36 having a mounting recess 38 is secured to the mounting plate 1 8 at a point radially spaced from the drive shaft 1 6. The bearing adapter 36 rotatably supports a second spur gear 42 by bearings 40. Snap rings 44 axially retain the spur gear 42 to the bearing adapter 36.

The spur gear 42 meshingly engages the first spur gear 26 so that a rotation of the first spur gear 26 rotatably drives the second spur gear 42.

A hydraulic pump 46 having a driven shaft 48, the rotation of which drives the pump 46, is mounted within the recess 38 on the bearing adapter 36. Although any conventional means may be used, preferably the shaft 48 is splined into the hub 50 of the second spur gear 42 as shown at 52. In this manner, the second spur gear 42 rotatably drives the hydraulic pump 46.

Preferably the housing 24 includes a mounting flange 54 with an aperture 56 radially spaced from the drive shaft 1 6 for mounting a starter motor 57 having a drive gear 60 thereto. A ring gear 58, may, for example, be formed around the outer periphery of the fly wheel 28 for selective engagement with the drive gear 60 of the starter motor 57.

Preferably an annular abutment surface 64 is provided coaxially with the engine drive shaft 1 6 on the rear surface 32 of the cover housing 24.

The annular surface 64 provides a convenient mounting pocket for a clutch, a torque convertor or the like.

Although any conventional lubrication system may be used to lubricate the hydraulic pump drive 10 of the present invention, preferably the oil flow through the rear main engine bearing 66 provides the lubrication for the drive 10. This oil is thrown radially outward by centrifugal force as it strikes the first spur gear 26 thus lubricating not only the first spur gear 26 but also the second spur gear 42. The oil then flows downwardly due to gravity to a reservoir 68 formed in the base of the housing 24. Preferably a small dam 70 is formed in the housing 24 and the oil returns to the engine oil sump by an appropriate passageway 71 . The dam 70 also serves to maintain the predetermined level of oil in the reservoir 68 to provide immediate lubrication of the spur gears 26 and 42 upon engine start up.

Although the hydraulic pump 10 of the present invention has been described as utilizing a pair of meshing spur gears 26 and 42 to provide the driving engagement between the engine drive shaft 1 6 and the hydraulic pump 46, it should be apparent to those skilled in the art that a chain and sprocket arrangement (not shown) between the drive shaft 16 and the hydraulic pump 46 may be substituted for the meshing spur gears 26 and 42 while remaining within the scope of the present invention.

Provision has been made to accommodate the starting motor because these are commonly mounted to the rear of the engine.

It can thus be seen that the hydraulic pump drive 10 of the present invention provides a simple, inexpensive and yet totally effective means for drivingly connecting a hydraulic pump to the engine drive shaft. Moreover, the drive 10 of the present invention is secured at the rear end of the engine, rather than the front, thus not only conserving engine compartment space at the front of the engine, but also protecting the hydraulic pump and drive from damage in the event of a collision or other type of accident. The pump drive 10 in addition receives adequate lubrication from the engine oil and is virtually maintenance free.

Claims (7)

1. A hydraulic pump drive for use in conjunction with an engine having a drive shaft, said pump drive comprising a housing secured to the rear of said engine, a driving means rotatably carried by said housing and coaxially secured to said drive shaft, a driven means rotatably carried in said housing so that said driving means rotatably drives said driven means, and means for securing a hydraulic pump to said driven means.

2. A pump drive according to Claim 1, wherein said driving means comprises a first gear and said driven means comprises a second gear which meshingly engages said first gear.

3. A pump drive according to Claim 2, wherein said first and second gears and spur gears have spaced and parallel axes of rotation.

4. A pump drive according to Claim 1,2 or 3.

comprising a fly wheel coaxially secured to said driving means.

5. A pump drive according to Claim 4, wherein said fly wheel includes a ring gear formed around its outer periphery and wherein said housing includes a mounting portion for mounting a starter motor thereto, said starter motor having a gear which selectively meshingly engages with said ring gear.

6. A pump drive according to any one of the preceding claims, including a lubricant reservoir formed in the base of said housing.

7. A hydraulic pump drive for use in conjunction with an engine having a drive shaft substantially as described with reference to the drawings.

7. A pump drive according to Claim 6, comprising means for supplying lubricant from said engine to said housing, and means for returning the lubricant in excess of a predetermined amount from said housing to said engine.

8. A pump drive according to Claim 7, wherein said last mentioned means comprises a dam formed in said reservoir and a passageway from one side of the dam to the engine.

9. A pump drive according to Claim 4 or 5, wherein said fly wheel and said driving means are secured to the drive shaft by means of at least one axial bolt member extending through registering bores in said fly wheel in said driving means, said bolt member threadably engaging a threaded bore in said drive shaft.

10. A hydraulic pump drive for use with an engine having a drive shaft substantially as described with reference to the drawings.

New claims or amendments to claims filed on 24Apr.1981.

Superseded claims 1 to 10 New or amended claims:

1. A hydraulic pump drive for use in conjunction with an engine having a drive shaft, said pump drive comprising: a housing secured to the rear of said engine, driving means rotatably carried by said housing and coaxially secured to said drive shaft.

driven means rotatably carried in said housing so that said driving means rotatably drives said driven means, means for securing a hydraulic pump to said driven means, said housing having a base and a reservoir formed in said base for containing a lubricant, and means for supplying lubricant from said engine to said housing and said housing having a reservoir for containing said lubricant, wherein said last-mentioned means comprises a dam formed in said reservoir and a passageway from one side of the dam to the engine.

2. A pump drive according to claim 1, wherein said driving means comprises a first gear and said driven means comprises a second gear which meshingly engages said first gear.

3. A pump drive according to claim 2, wherein said first and second gears are spur gears having spaced and parallel axes of rotation.

4. A pump drive according to claim 1 , and including a fly wheel coaxially secured to said driving means.

5. A pump drive according to claim 4. wherein said fly wheel includes a ring gear formed around its outer periphery and wherein said housing includes a mounting portion for mounting a starter motor thereto, said starter motor having a gear which selectively meshingly engages with said ring gear.

6. A pump drive according to claim 4, wherein said fly wheel and said driving means are secured to the drive shaft by means of at least one axial bolt member extending through resistering bores in said fly wheel and said driving means, said bolt member threadably engaging a threaded bore in said drive shaft.