DE3500310A1 - Hydraulic system for variable-delivery pumps - Google Patents

Abstract

A hydraulic system has a variable-delivery pump for supplying load circuits and a feed pump for supplying a feed circuit. The feed pump draws the hydraulic fluid from a reservoir. The pressure side of the feed pump is connected to the suction side of the variable-delivery pump. Arranged in the suction line of the variable-delivery pump is a liquid-jet pump which is directly connected to a fluid reservoir via a bypass line and can thus supply the suction side of the variable-delivery pump with an additional volumetric flow of pressure fluid while bypassing the feed pump.

Description

Hydraulic system for regulating pumps

The invention relates to a hydraulic system for variable speed pumps according to the preamble of claim 1.

Such hydraulic systems are used, for example, to supply the regulating pumps the load circuits of agricultural tractors are increasingly being used. Here it is particularly important to ensure that the supply security of the control pump with sufficiently pressurized volume flows of sufficient fluid content constantly is guaranteed because the control pumps are very sensitive to pressures that are too low react on the suction side.

In known hydraulic systems, the capacitive design takes place with a constant flow rate working feed pump, for which usually a simple one Gear pump is used in such a way that it is able to the The control pump needs to be completely supplied with feed fluid, even in heavy-duty applications. When using agricultural tractors on a farm, however, only occurs in Exceptional situations the case that the power requested by the control pump those. Maximum performance reached. The capacity requirements necessary for known hydraulic systems at their Speuisekreis lead to comparatively large-sized dining yu ..? en, which cause correspondingly high costs. In addition, occur especially in standby mode the control indicator, o. h. In staging operation with very little load polling from the control pump, unnecessarily high hydraulic losses in the feed circuit.

The invention is therefore based on the object of the generic Hydraulic system for regulating pumps cerart that the feed pump of the system can be designed energetically favorable, with uenno cn it is guaranteed that the control pump is constantly supplied with sufficient suction pressures and volume flows will.

This task is made possible by the characteristics in the characterizing part of the Claim 1 solved. with such a design of the hydraulic system can the dimensions of the feed pump are made so that their capacity is only is still designed for a so-called base load range, while any Peak requirements of the regulating pump by the liquid jet pump in connection covered with the bypass line.

In order for the hydraulic system and a transmission system, which consists of lubrication and cooling circuit consists of providing only one fluid household, wherein the fluid, for example hydraulic oil, acts as a lubricant, cooling medium and pressure fluid, is a training according to claim 2 advantageous because accordingly is only a feed circuit to supply the Hyiraulik and transmission system and thus also only one feed pump is required.

In systems of this type with a common hydraulic fluid balance it is possible that the hydraulic oil is not only due to abrasion due to wear and tear, in particular is also contaminated by coarse metal particles, which in the event of switching errors during the operation of the transmission can arise, a training according to claim 3 ensures that the hydraulic oil to avoid premature wear and total failure of the regulating pump and also to protect the less sensitive feed pump is adequately cleaned while it is being conveyed by the pumps. The liquid jet pump on the suction side of the regulating pump also serves to compensate for pressure drops, which occur in the bypass line due to the suction filtering.

A training according to claim 4 is particularly advantageous, because this makes the control pump against ze-. also occurring in the feed pump Wear secured.

A training according to claim 5 enables application of the invention Hydraulic system for gearboxes which, due to their high power density, have a Pressure lubrication of the gear components also has an oil cooling system for discharge the heat loss need. The arrangement of the oil cooling system is expedient here downstream, d. H. on the pressure side of the feed pump.

An embodiment of the invention is described below with reference to a schematic Drawing explained in more detail.

The figure shows a block diagram of an inventive measure Hydraulic system.

A feed pump 5 supplies various load circuits via a control pump 12 16 and immediately a Schr.Ier and cooling circuit for a gear 15. From one Hydraulic reservoir 1 leads ei suction line section 2 to a filter 3, in the hydraulic fluid of impurities caused by wear in the. different Sections of the hydraulic system and possibly occurring in the transmission Switching errors arise, is cleaned. The branches off behind the filter Suction line section 2 into a suction line section 4 and a bypass line 10.

The suction line section 4 leads to a feed pump 5.

This feed pump 5 is a simple gear pump in terms of level which a constant volume flow is made available on its pressure side. In the pressure line 6, which forms the pressure side of the feed pump 5, there is a cooling system 7 arranged, through which the hydraulic fluid stored during the cooling of the transmission Heat is withdrawn. Behind the cooling system 7, the pressure line 6 branches into a feed line 8 to the transmission 15, and an intake line 9, seren we terer course will be described later.

The supply line 8 leads to the transmission 15, which is read via the supply line supplies the lubricant or cooling medium required for lubrication and cooling will. After passing through the transmission 15, the fluid is through the return line 17 fed back to the fluid reservoir 1.

In the further course of the suction line 9, via which the control pump 13 is supplied, is upstream of the control pump pe 13 a liquid jet pump 12, or a jector, arranged through the or the suction line 9 an additional Volume flow can be fed through the bypass line 1G, if the from the Pressure line 6 in the suction line 9 flying volume flow n he liquid jet pump 12 builds up a negative pressure that is sufficiently large, Ü the shut-off valve 11 i cer Open bypass line 10, after which a cie feed pump 5 bypasses There is a connection between the liquid jet pump 12 and the suction line section 2 The suction line 9 leads to the control pump 13, which is carried on a drive shaft 19 the feed pump 5 is arranged. The regulating pump is supplied via its pressure line 14 13 the hydraulic load claw 16 of the agricultural tractor, for example a lifting device, a winch or the like, with which to operate the respective Work device necessary pressure fluid flow.

After passing through the load circuits, the hydraulic fluid enters a return line 18, via which it is returned to the fluid reservoir 1.

In the standby mode of the regulating pump 13, he is not a regulating pump Hydraulic fluid taken from the pressure line # of the feed circuit. This standby mode covers up to 70% of the entire period of use in agricultural tractors. During this period, all hydraulic fluid for the supply of lubrication is available and cooling of the transmission system available. The arranged in the bypass line 10 Check valve 11 prevents hydraulic fluid from escaping from the pressure line 6 of the feed pump. 5 Via the suction line 9 and the bypass line OK into the suction line 4 of the feed pump «Can get back.

If the hydraulic load circuits 16 of the tractor mi full of Power can be charged, d. H. at the full delivery rate of the control pump 13, is queried through ie suction line 9 more pressure fluid than from the feed circuit for Can be provided. In this case, the liquid jet pump kicks in 12 in action. As soon as the pressure in the suction line c of the Reg lu .. 13 falls, develops from the ejector nozzle of the liquid jet pump 12, a pressure fluid jet, the arises due to the pumping action of the liquid jet pump 12.

This results in a pressure reduction in cem downstream of the check valve 11 arranged section of the bypass line 10, which leads to the check valve 11 opens, whereby a line connection between the liquid jet pump 12 and Fluid reservoir 1 arises, dIe via the bypass line 10, the filtering 3 and the Suction line 2 is running. That is, the control pump 13 can by surrounding the feed pump 5 think of your additional fluid requirements directly from the fluid reservoir.

This ensures a 100% supply to the control pump 13. The jet pump 12 lowers the lower caused by the suction filtering 3 pressure in the bypass line 10 to a tolerable level for the control pump 14.

By matching the aspect ratio accordingly the ejector nozzle and the lubricating orifices can be guaranteed that the for the The amount of fluid available in the lubrication and cooling circuit is never less than a permissible one Minimum drops.

With increasing contamination of the suction filter 3 increases with a given flow rate of suction negative pressure.

This has the effect that the liquid jet pump with increasing contamination 12 is less and less able to control the negative pressure in the suction line of the feed circuit towards a level that is permissible for the control pump to decrease. When exceeded a certain degree of contamination therefore the check valve 11 does not open more about suction line 2, 4. The hydraulic load circuits are depending on the ratio of the ejector cross-section to the lubricating orifice cross-section continues to be supplied in the feeder, so that important safety functions, such as 3.

the steering or the hydraulic auxiliary circuits cer gear shift on are supplied. By means of a priority circuit within the regulating pump 13 then less important hydraulic consumers, such as directional control valves or power lifts Agricultural tractor, no longer supplied. In this way, the 5 others receive unequivocal feedback on the operating status of the hydraulic system.

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Claims (5)

Claims 1. Hydraulic system for supplying load circuits Lurch a control pump and a feed circuit through a feed pump, which the hydraulic fluid sucks in from a fluid reservoir, the control pump with on its suction side the pressure side of the feed circuit is in connection, characterized by a liquid jet pump (12), which is arranged on the suction side (9) of the control pump (13) and by means of a volume flow from the feed circuit to the control pump (13) via a bypass line (10) bypassing the feed pump (5) directly from the fluid reservoir (1) hydraulic fluid and the regulating pump (13) makes it available. 2. Hydraulic system according to claim 1, characterized in that the Supply circuit supplies a lubrication and cooling circuit for the transmission (15). 3. Hydraulic system according to claim 1 or 2, characterized in that that in the suction line (2) of the liquid jet pump (12) and the feed pump (5) a filter (3) is arranged. 4. Hydraulic system according to claim 1 or 3, characterized in that that on the pressure side of the feed pump (5) upstream of the control pump (13) a filtering is arranged. 5. Hydraulic system according to one of claims 1 to 4, characterized in that that a cooling system (7) is arranged on the pressure side of the feed pump (5).