SU1618902A1 - Rig for determining coordinates of orifices of jet nozzle atomizer - Google Patents

Abstract

The invention relates to mechanical engineering, namely for testing fuel equipment of diesel engines, and improves the accuracy of determining the coordinates of the axis of the nozzles of the splitters. The stand contains a fuel pump 1 with a drive 2, a discharge line 7 with a pneumatic 16 14 pressure stabilization device 8, connected to pump 1 on one side and to sprayer 9 on the other, clamping device 10, target 27, and measuring instruments. The target is made in the form of an angular wedge directed toward the atomizer with guide elements for fuel flow located on opposite sides of the wedge. The measuring devices are made in the form of a linear position meter for the atomizer and at least two angular position meters for the atomizer. The clamping device 10 is installed with the possibility of changing its spatial position relative to the target 27. The scales 14 and 17 of the measuring devices are fixed on the stand, and the sensitive elements 13 and 18 are mounted on the clamping device 10, 2 C. p. f-ly, 2 ill. Yu g

Description

The invention relates to equipment for testing fuel cell components and can be used to determine the coordinates of the nozzle orifice of a diesel engine injector nozzle.

The purpose of the invention is to improve the accuracy of determining the coordinates and ease of maintenance.

Figure 1 shows the kinematic layout of the stand; Fig. 2 is a diagram for determining the angular and linear coordinates of a nozzle orifice.

The stand contains a fuel pump 1 with a drive 2, a fuel tank, which is also the base 3 of the stand, a clamping device 4 and an additional target 5, which is made as a plane with a mesh degree scale and is mounted on the base 3. In the center of the additional target 5 there is a mark 6 On the one hand, the injection line 7 is connected via the pressure-stabilizing device 8 to the pump 1, and to the tested sprayer 9 on the other. The measuring elements of the control devices are rigidly fixed to the clamping device 10. (c) devices for measuring the angular coordinates / 3 and a and the linear coordinate z.

The device for measuring the angular coordinates / 3 is fixed on a bracket 11, which can be rotated by means of a worm gear 12 and is made in the form of a nonius 13 and a scale 14 mounted on a stand.

The device for measuring the angular coordinate a is made in the form of a spindle 15, which is turned by means of a worm gear 16 to the desired angle. The measuring device consists of a degree scale 17 fixed on the stand and a nonius 18 fixed on the spindle.

The spindle 15, besides turns, can perform a linear movement along its axis by means of a screw pair 19. For measuring the linear movement, use the linear movement indicator 20 associated with the spindle 15, in which the channel 21 is made to supply the working fluid from the discharge line 7 to the spray gun under test 9 with a geometrical axis 22. The nebulizer 9 contains a nozzle orifice 23 with a geometrical axis 24 and a test orifice 25. A spindle 26 is made on the spindle 15. A target 27 is placed between the additional target 5 and spray 9 and is made in the form directed toward the spray 9 of the acute wedge 28. On

opposite sides of the wedge are guiding elements for fuel flow, made in the form of tubes 29 with an oblique cut. Additional target 27

mounted in the pivot ring 30 on the hinge axes 31, which allows the target 27 to fold back to the position shown in figure 2 by dashed lines. Figure 2 also shows the plane Hi, parallel to the plane of the end of the atomizer body, and the plane On passing through the axis 22 of the atomizer and the axis 24 of the nozzle orifice 23. The measuring devices of the stand are structurally attached to its base

axis 32 passing through the point-mark of the additional target 5 and the edge of the wedge 28 of the target 27 lying in the plane Ha.

The stand is designed to determine the coordinates of the nozzle holes 23 of the spray gun 9, provided that the axes 22 and 24 respectively of the spray gun and the nozzle hole are located in the same plane Ha.

The geometric coordinates of the nozzle orifice of the atomizer nozzle are defined by two angular coordinates ft and one linear coordinate z (Fig. 2), where a is the angle formed by the projection of the geometrical axis 24 on the plane Ж and straight AB connecting the intersection points

axes 22 and 26 with the Hi plane; (3) the angle between the geometrical axes 22 and 24, respectively, of the atomizer 9 and the nozzle opening 23; z is the distance between the end of the spray housing 9 and the intersection point of the axes 22 and 24.

The coordinates of the nozzle orifices are determined as follows.

On the spindle 15 install the sprayer 9. At the same time, the mark 26 of the spindle 15

combined with the control hole 25. Diesel fuel is pumped through pump 1 to sprayer 9, and due to the maintenance of a certain pressure in the discharge line 7

expires from the nozzle outlet 23 in the subcritical high-speed rechme, i.e. with a sufficiently small head ensuring the laminar flow of fuel in the channel of the nozzle orifice.

The target 27 is located in the immediate vicinity of the nozzle hole 23. The wedge 28 is transferred to the working position (its tip is up), and, the position of the jaw 15 is changed, the jet is divided,

flowing out of the nozzle orifice 23, into two streams.

The equality of costs in the flow between them indicates the exact location of the top of the wedge 28 of the target on the axis 24

nozzle hole 23 and, therefore, on the base axis 32 of the stand.

The equality of flow rates is determined visually, but a more accurate flow metering device can be used.

Thus, after combining the axis 24 of the nozzle orifice with the base axis 32 of the scale of the measuring instruments, the angular values of a and / 7 and the linear dimension z will be shown.

The mesh degree scale of the additional target 5 makes it possible to solve the inverse problem, namely, determine the deviation of its axis 24 from the calculated one using the known structural coordinates of the nozzle orifice. Thus, quality control or selective selection of single-type nozzles can be carried out.

Claims (3)

Claim 1. A stand for determining the coordinates of the nozzles of the nozzle of the sprayer, containing a fuel pump with a drive, a discharge line connected to the pump, a clamping device for fixing the test distributor, a target oriented relative to the axis of the nozzle holes, and measuring instruments, characterized by , in order to increase accuracy and increase serviceability, the stand is equipped five YU 15 0 five 0 a tag located on the clamping fixture and a fuel pressure stabilization device placed in the discharge line, the clamping fixture is installed with the possibility of changing its position relative to the target, the measuring instruments are made in the form of a linear displacement meter and at least two angular displacement meters, and the target is oriented relative to vertical axis and is made in the form of an acute-angled wedge, having guide elements for fuel flow, located opposite opolozhnyh relatively acute wedge faces sides, wherein the measuring scale devices are rigidly fixed on the stand, and sensors measuring instrument - in a jig, 2. A stand according to claim 1, characterized in that the guiding elements for the fuel drain are made in the form of tubes with an oblique cut. 3. Stand on PP. 1 and 2, characterized in that, in order to expand the functionality, the stand is equipped with an additional target, made in the form of a graded grid with a label oriented relative to the target and located at a greater distance from the sprayer than the target. FIG 2