DE10001916A1 - Hydraulic circuit for infinitely variable change speed gear has feed pump to supply pressure medium through first filter, and then through second filter and cooler - Google Patents

Abstract

Circuit has hydraulic (2) and mechanical power branch, and pressure medium feed pump (6). Below defined pressure level, medium flows through a filter (10) behind the pump, and above that level, the medium is supplied directly to feeders for lubrication of the transmission (22). If the medium flows through the first filter, it also passes through a second filter (20) and a cooler (21) behind it. A third filter (7) is located in front of the feed pump.

Description

The invention relates to a hydraulic circuit in a continuously variable transmission according to the one in the upper part handle of claim 1 defined in more detail.

With continuously variable transmissions, which are made of egg nem hydraulic power branch and a mechanical Often there is only one feed pump to compensate for leaks in the hydraulic power branch and for pressure medium supply to the actuating devices of the mechanical power branch and for lubrication and Cooling of the components used in the transmission. The gearbox housing often serves as a pressure medium reservoir.

DE 196 41 723 A1 discloses, in particular in FIG. 8, a continuously variable transmission in which a feed pump conveys pressure medium from an oil reservoir through a filter element and subsequently supplies a hydraulic power branch and a mechanical power branch with pressure medium. Since the installation space for the transmission is very limited and overheating of the transmission must be avoided during operation of the transmission, it is necessary to cool the pressure medium and to filter it sufficiently. If the gearbox serves as an oil reservoir, the pressure medium can also mix with the abrasion in the gearbox and must be filtered. Since the space for a filter is limited, the filter area cannot be made large enough.

The present invention is based on the object a hydraulic circuit in a continuously adjustable To create gears in which the pressure medium, which from a feed pump to a hydraulic and a me chan performance is promoted, sufficient ge cools and is filtered.

The object underlying the invention is achieved by one, also the characteristic features of the main claim having generic hydraulic circuit in one Infinitely variable gearbox solved.

According to the invention, a feed pump sucks, preferably from a gearbox, pressure medium and promotes the ses pressure medium through a first filter unit, which the Feed pump is arranged downstream. After passing the first filter unit is the pressure medium on the one hand to the hydraulic power branch to compensate for the leaks and on the other hand to the actuators of the mecha African power branch and a second filter unit, which is related to a cooler. After the pressure medium has flowed through the cooler the pressure medium feeds for lubrication of the transmission fed to cool and to the components of the transmission lubricate. To protect the feed pump from contamination To protect pressure medium, a filter element between arranged the pressure medium reservoir and the feed pump his. Since the first filter element and the second filter element ment of the feed pump are arranged downstream, be there is the possibility of contamination of the pressure medium or with increased viscosity of the pressure medium due to tie fer temperatures that a permissible pressure in the filter element is exceeded. To the first filter element at depth  Temperatures and thus high viscosity of the pressure medium To protect against impermissibly high pressures is a valve arranged which is below a certain temperature levels the feed to the first filter element with the Ab Flow of the first filter element connects. When reached This connection becomes again at a defined temperature interrupted. This ensures that below one certain temperature at not yet inadmissibly high ver dirty filter element of the hydraulic power branch is sufficiently supplied with pressure medium. If the ver dirty filter element and above a defined one Temperature is between the first filter element and the Feeds for lubricating the gearbox are a valve orders which above a defined pressure level Pressure medium supply to the first filter element directly with connects the feeds for lubrication of the gear to the first filter element before impermissibly high pressures protect. A valve is on in front of the second filter element ordered, which ensures that the hydraulic Lei branch and the actuators of the mechani power branch with sufficient pressure of the pressure with be supplied and thus closes the supply to second filter element whenever a previously defined pressure level is fallen below. Because the second filter element arranged upstream of the cooler and the cooler must also be protected against impermissibly high pressures a valve arranged in front of the second filter element, wel The feed to the second filter element is always included the drain of the cooler connects if a previously defined t pressure level is exceeded. So with one Valve the second filter element and the cooler before inadmissible protected against high pressures. By adding the second filter element is arranged downstream of the first filter element,  becomes an improved by increasing the filter area Purity of the pressure medium reached without the construction space of the first filter element is exceeded because the second filter element at a point in or outside of Gear can be arranged on which sufficient Space is available. Around the filter elements and the cooler even with dirty feeds for lubricating the Ge To protect the drive sufficiently, there is a valve between the feeds for lubricating the gearbox and the suction arranged side of the feed pump, which above a defined pressure levels when feeding for lubrication of the gearbox this with the suction side of the feed pump binds. The cooler and the filter can thus by a Valve are protected.

This ensures that the pressure medium is sufficient is filtered and cooled accordingly, and the filter elements and the cooler even at low temperatures or at excessive temperatures casual high degree of pollution from excessive pressures protects. To ensure sufficient lubricant for the gearbox To be able to supply, the pressure medium, which for hy drastic power branch is supplied and not the Compensates for leakage in the hydraulic power branch after Leaving the hydraulic power branch again before fed second filter element, making it after flow men of the second filter element and the cooler to the zu guides to lubricate the gearbox and thus additionally cools and lubricates the components of the transmission.

Further features can be found in the description of the figures to take.  

Show it:

Fig. 1 shows a power split transmission with a hydraulic power branch and a mechanical power branch, preferably for driving an agricultural vehicle and

Fig. 2 shows a section of a hydraulic circuit for the transmission shown in Fig. 2.

Fig. 1

A power split transmission 1 consists of a hydraulic power branch 2 and a mechanical lei stungszweig 3 , which are driven by a drive shaft 4 and the power is added up and this summed power is supplied to an output shaft 5 .

Fig. 2

A feed pump 6 sucks pressure medium from a pressure medium reservoir 8 via a filter element 7 . The feed pump 6 sucks this pressure medium through a line 9 and conveys it to a first filter element 10 , to a valve 11 and to a valve 12 . Below a certain pressure level, the valve 12 and above a certain temperature level, the valve 11 is closed, so that the pressure medium flows through the first filter element 10 . After leaving the first filter element 10, the pressure medium conveyed to the hydraulic power branch 2, to compensate for leakage, and to adjust the hydrau metallic power branch 2 via the line. 13 In order to protect the closed circuit 14 from overheating, part of the pressure medium is fed out of the low pressure side via line 15 and fed to line 16 . Between the line 16 and the line 17 , a valve 18 is arranged, which ensures that the hydraulic Lei stungszweig 2 and the actuators of the mechanical power branch's, which are supplied by line 19 with pressure medium, get sufficiently high pressure of the medium . Pressure line which flows through valve 18 and pressure medium from line 15 are thus added up in line 16 and fed to a second filter element 20 . The second filter element 20 is connected to a cooler 21 , which cools the pressure medium. After leaving the cooler 21 , the pressure medium is fed directly to feed lubrication of the gear 22 . Thus, the transmission is lubricated and cooled by a sufficiently large Druckmit telstrom, since the pressure medium from the hydraulic power branch 2 is also supplied to the feeds for lubricating the transmission 22 . The cooler 21 and the second filter element 20 are protected against impermissibly high pressures via a common valve 23 . The Ven valve 23 connects the line 16 with the feeds for lubricating the gear 22 whenever a previously defined pressure level is exceeded before the two-th filter element 20 . Thus, in order to protect the cooler 21 and the second filter element 20 against impermissibly high pressures, only a single valve 23 is required. With high viscosity or contaminated feeds for lubricating the gear 22 , the pressure in front of the feeds for lubricating the gear 22 increases . If this pressure exceeds a previously defined pressure level, the valve 24 opens and connects the feeds for lubricating the gear 22 directly to the suction side of the feed pump 6 , so that the cooler 21 protects the second filter element 20 and the first filter element 10 from impermissibly high pressure peaks are.

If the first filter element 10 is contaminated, a valve 12 connects the feeds for lubricating the gear 22 directly to the delivery side of the feed pump 9 above a previously defined pressure level. Below a previously defined temperature level in order to protect the first filter element 10 , a valve 11 connects the delivery side of the feed pump 9 to the line 13 .

In that the second filter element 20 is arranged downstream of the first filter element 10 , the pressure is sufficiently cleaned and the installation space of the first filter element is not inadmissibly exceeded. By arranging the second filter element 20 upstream of the cooler 21 , it is possible to protect the cooler and the second filter element 20 from impermissibly high pressures with a valve 23 . By supplying pressure medium from the hydraulic power branch 2 to the line 16 again via the line 15 , the transmission is adequately supplied with lubricant and coolant via the feeds for lubricating the transmission 22 .

reference numeral

1

Power split transmission

2

hydraulic power branch

3rd

mechanical power branch

4

drive shaft

5

Output shaft

6

Feed pump

7

Filter element

8th

Pressure medium reservoir

9

management

10th

first filter element

11

Valve

12th

Valve

13

management

14

closed circle

15

management

16

management

17th

management

18th

Valve

19th

management

20th

second filter element

21

cooler

22

Feeders

23

Valve

24th

Valve

Claims (6)

1. Hydraulic circuit with a continuously variable transmission, with a hydraulic power branch ( 2 ) and a mechanical power branch ( 3 ), in which a feed pump ( 6 ) promotes pressure medium to compensate for leaks in the hydraulic power branch ( 2 ) and actuation devices of the mechanical Power branch ( 3 ) to supply with pressure medium and to lubricate and cool components of the transmission, the feed pump ( 6 ) being arranged downstream of a fil terelement ( 10 , 20 ), characterized in that a first filter element ( 10 ) connected downstream of the feed pump a defined pressure level is flowed through and above a certain pressure level the pumped pressure medium is fed directly to the lubrication of the gearbox ( 22 ), whereby when flowing through the first filter element ( 10 ), a second filter element ( 20 ), which is the first filter element ( 10 ) is arranged downstream, and a Cooler ( 21 ), which is arranged downstream of the second filter element ( 20 ), flows through below a defined pressure level, and above a defined pressure level, the pumped pressure medium after flowing through the first filter element ( 10 ) direct feeds for lubricating the gear ( 22 ) is fed. 2. Hydraulic circuit in a continuously variable transmission according to claim 1, characterized in that a filter element ( 7 ) of the feed pump is arranged pre switches. 3. Hydraulic circuit in a continuously variable transmission according to claim 1, characterized in that pressure medium after flowing through the first Fil terelements ( 10 ) the hydraulic power branch ( 2 ) and the second filter element ( 20 ) is supplied, with a supply of the first filter element ( 10 ) is connected below a defined temperature with a drain ( 13 ) of the first filter element. 4. Hydraulic circuit in a continuously variable transmission according to claim 3, characterized in that a Ven valve ( 18 ) is arranged in front of the second filter element ( 20 ), which at a defined pressure level the inflow ( 16 ) to the second filter element ( 20 ) throttles far that this defined pressure level is not undercut. 5. Hydraulic circuit in a continuously variable transmission according to claim 1, characterized in that the supply for lubricating the gearbox bes ( 22 ) is connected above a defined pressure level with an inflow to the feed pump. 6. Hydraulic circuit in a continuously variable transmission according to claim 1, characterized in that the hydraulic power branch ( 2 ) supplied pressure medium after leaving the hydraulic Lei stungszweigs ( 2 ) is fed to the second filter element ( 20 ).