DE1258188B - Fuel injection pump for multi-cylinder internal combustion engines - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CI .:

F02m

German class: 46 c2-115 / 02

Number: 1258 188

File number: B 776131 a / 46 c2

Filing date: July 10, 1964

Open date: January 4, 1968

The invention relates to a fuel injection pump with an axially reciprocating and rotating Pump and distributor element for supplying a multi-cylinder internal combustion engine, in particular with light fuel. a single pump work area, wherein a control member for changing the effective pressure stroke of the pump and distributor member an overflow channel that is connected to the pump working space opens and thereby establishes a connection between the overflow channel and the pump inlet channel, which is separate from the overflow channel opens into the pump chamber.

In known pumps of this type, a control slide is used to change the effective pressure stroke used, namely the overflow channel through the spool during the last in his Size variable portion of the pressure stroke and the corresponding first portion of the suction stroke of the pump and distributor member is open.

With an injection pump of a slightly different type, it is known to arrange the control slide in such a way that that he the overflow channel during the first variable in size section of the Pressure stroke and the corresponding last section of the suction stroke of the pump and distributor member keeps open.

. The control of the effective pressure stroke by a control slide has the disadvantage that to the Precision in the production very high demands must be made, since the axial overlap length is very low for small injection quantities.

. According to the invention, this disadvantage is avoided in that a per se known surge valve controls the overflow channel and thereby during the first variable in size section of the pressure stroke of the pump and distributor member and the corresponding last section of the suction stroke holds the pump and distributor member open, d. H. the relief valve controls the start of delivery. This results in a very good "filling of the pump working space, which is particularly important for operation with Light fuel is beneficial.

In the known injection pump with this boost valve, however, the channel controlled by the boost valve serves as an inlet channel during the last section of the suction stroke and as an overflow channel during the first section of the pressure stroke. Only a section of the suction stroke is available to fill the pump working space. In addition, the direction of flow of the fuel through the surge valve must be in the bottom dead center of the fuel injection pump for multi-cylinder
Internal combustion engines

Applicant:

Robert Bosch G. m. B. H.,

7000 Stuttgart, Breitscheidstr. 4th

Named as inventor:

Dipl.-Phys. Dr. Heinrich Knapp,

7250 Leonberg-Silberberg;

Dipl.-Ing. Joachim Heiser, 7024 Bernhausen

Invert the pump piston. Since this valve is the only access to the pump working space, it has an effect the reversal of the flow direction has an adverse effect on the filling of the pump working space. at a further development of this known injection pump, a second surge valve is also available, which In the last section of the pressure stroke an overflow channel opens, which is separate from the pump inlet channel opens into the pump work space. In this arrangement, however, there is a connection between the overflow channel and the pump inlet channel within the pump not possible. Also is this arrangement is very complex.

In order to favor the abundance, it is expedient if the pump and distributor member is located on its pump work space side End portion having flow-favorable control grooves, which in the rotary movement of the pump and distributor member with the opening of the Work together inlet channel in the cylinder wall.

In the drawings, two exemplary embodiments of the subject matter of the invention are shown. It shows

F i g. 1 shows a longitudinal section through a fuel injection pump,

F i g. 2 shows a partial longitudinal section through another embodiment of a fuel injection pump.

In the housing 1 of a fuel injection pump for a four-cylinder internal combustion engine is a through an unillustrated drive shaft driven face cam disk 3 with four cams 4 is arranged, the track of which rests on rollers 5 which are mounted on bolts 6 in the housing 1. One axially pierced Pump and distributor member 7 has at its drive-side end a plug 8, on the Shoulder 8 α a spring plate 9 rests against which one end of a helical spring 10 presses which is is supported on a pump body 11, in which the

709 717/150

Pump and distributor member is arranged axially and rotatably. -A driving pin 12 will be the rotary movements of the cam disk 3 are transmitted to the pump and distributor member 7.

An overflow space 15 is provided in the housing 1. In this a stop ring 16 is housed, the one on the; The pump and distributor member is axially displaceable. For this purpose, the scope of the Stop ring 16 is provided with an annular groove in which a pin 19 engages, 4-way eccentric at the front end a bolt 20 is arranged. This bolt is transverse to the pump and distributor element in the housing 1 mounted and carries an operating lever 21 at its end protruding from the housing.

The pump and distributor member 7 has two lateral ones in the central section 17 of its axial bore Openings 18. A transverse web 16a of the stop ring 16 leads through these two openings. The rotary movements of the distributor member 7 are thus transmitted to the stop ring, which is used for this is used to control the opening time of a surge valve 22, which is in a section 17 of the axial bore of the distributor member pressed-in sleeve 22 a is displaceable. A spring 24 tends to be the surge valve close. The section of the axial bore denoted by 23 serves as an overflow channel.

A radial bore 25 in the distributor member 7 comes into connection with four outlet bores 26 in the pump housing 1 one after the other during one revolution of the distributor member, only one of which is shown. Each of these outlet bores leads to an outlet valve whose stationary seat part 26 a is clamped in the housing by an outlet nipple 26 & screwed into the housing and whose movable valve member 26 c is pressed onto its seat by a helical spring 26 d. This helical spring is supported on an inner shoulder of the outlet nipple 26 δ. From the outlet nipple 26 a line leads to an injection nozzle 26 e /.

In a designated 13 housing upper part, a pump inlet channel 27 is provided, which in the Drawn position of the pump and distributor member 7 via an annular groove 28 and four pairs of holes 29 with four flow-favorable control grooves 30 in connection, which in the pump work space 31 open. In the drawing, only two pairs of bores 29 and two control grooves are shown. At the annular groove 28 is also connected to an overflow channel 32.

The overflow space 15 is through bores 33 and 34 with the pump inlet channel 27 and the Overflow channel 32 in connection.

The pump described works as follows: The pump and distributor member 7 is drawn in the position which it occupies at the end of a suction stroke. The by a feed pump, not shown The fuel supplied flows from the pump inlet channel 27 on the one hand via the annular groove 28, the bores 29 27 produced via the overflow space 15. When turning the face cam disk 3 remains during of the first section of the pressure stroke, the overflow channel 23 is still open. At the same time, the radial bore 25 with one of the four outlet bores 26 in connection .. As soon as that closes, the pump piston delivers fuel through this outlet hole up to its top dead center to injection nozzle 26 /.

ίο With the operating lever 21, the axial Position of the stop ring 16 can be changed and thus the opening time of the opening valve 22. Depending the shorter this opening period, the greater that from the pump and distributor member to the outlet bores 26 Amount of fuel delivered.

During the intake stroke, the fuel therefore flows both via the control grooves 30 and via the overflow bore 23 into the pump work space 31. This ensures a very good filling of the pump work space achieved.

In the second exemplary embodiment in FIG. 2, this is the case here for reasons of saving in terms of overall height Stop ring marked 116 is not in the overflow space 115, but in the space 102 of the pump housing that accommodates the end cam disk 101 housed.

In the housing 101, analogously to FIG. 1, a End cam disk 103 arranged. A pump and distributor member 107 sits with its drive-side End on a plate 108. The pump and distributor member can be moved axially and rotatably in the housing 101 arranged. The rotary movements of the face cam disk are controlled by a driving pin 112 103 transferred to the plate 108 and from there by a further driving pin offset by 90 ° 108 a on the pump and distributor member 107.

The pump and distributor element is controlled by a helical spring acting via a spring plate 109 110 pressed against the plate 108 and this against the face cam disk 103.

In the space 102, a stop ring 116 is housed, which is axially on the pump and distributor member is movable. For this purpose, an annular groove is provided on the circumference of the stop ring into which a pin 119 engages, which is arranged eccentrically at the front end of a bolt 120.

As in the first example, the pump and distributor member is axially drilled through and on its drive-side end section has a transverse slot 118 a through which a transverse web 116 a of the stop ring protrudes. The stop ring is used to control the opening time of an opening valve 122, which can be displaced in a bushing 122 a pressed into the axial bore of the distributor member. In this exemplary embodiment, the surge valve does not sit on the transverse web 116 ″, but rather on a pin 116 b attached to this transverse web. A spring 124 tends to close the surge valve. In the embodiment of FIG. 1 takes place

and the control grooves 30 to the pump working space 31, 60 sealing between the overflow space and the space receiving the overflow space 15 and, on the other hand, via the bores 33 and 34, through the overflow space 15 and, since the surge valve is open with the plug 8, the pump and distributor member? Example according to Figure 2 the stem of the opening valve 122 the function of the stop 65

is, through the overflow channel 23 also into the pump working space.

The surge valve already has the overflow channel 23 during the last section of the suction stroke kept open and thereby a connection between the overflow channel and the pump inlet channel fens 8 takes over. This measure makes it possible to use the injection of light fuel to fill the space receiving the face cam disk with lubricating oil.

The operation of the second example is the same as that of the first example.

Claims (2)

Patent claims: 1.Fuel injection pump with an axially reciprocating and rotating pump and distributor member for supplying a multi-cylinder internal combustion engine, in particular with light fuel, from a single pump working space, with a control element for change of the effective pressure stroke of the pump and distributor member one with the pump working space communicating overflow channel opens and thereby a connection between the overflow channel and the pump inlet channel, which opens separately from the overflow channel into the pump working space, characterized in that that a per se known surge valve (22) controls the overflow channel (23) and during the first in its size variable section of the pressure stroke and the corresponding last section of the suction stroke of the pump and distributor member keeps open. 2. Fuel injection pump according to claim 1, characterized in that the pump and Distributor member (7) at its end section on the pump work space side, flow-favorable control grooves (30), which during the rotary movement of the pump and distributor member with the opening (29) of the inlet channel in the cylinder wall work together. Considered publications:
German Patent No. 814,968;
German Auslegeschrift No. 1156 606;
German utility model No. 1734 877;
French patent specification No. 1343 388. 1 sheet of drawings 709 717/150 12.67 © Bundesdruckerei Berlin