RU2106520C1 - Diagnostic unit - Google Patents

Abstract

FIELD: means of diagnostics of ignition system of internal combustion engines for determining the technical condition of distributor-and- contact breaker. SUBSTANCE: the unit has base 1, bracket 2, bush 3, screws 4,6,9, L-shaped plate 5, support 7, scale 8, strip 10, fork 11, block 12, pointer 13, flexible thread 14, suspension 15, loads 16, post 17, stop 18, plate 20, post 21, lever 22 of vacuum governor 19, pin 23, spacers 24. EFFECT: enhanced efficiency. 2 cl, 2 dwg

Description

 The invention relates to diagnostic devices for the ignition system of internal combustion engines, namely, to diagnostic installations for determining the technical condition of the elements of the ignition interrupter-distributor.

 It is known that the technical condition of centrifugal regulators and vacuum regulators of distributor-breakers as well as its other elements is determined on stands with spark-arresters SPZ-6, SPZ-8 [1].

 For this, the case of the controlled breaker-distributor together with the vacuum regulator fixed on it is installed in a special clamp so that rotation from the stand motor through the coupling is transmitted to the drive shaft of the distributor-breaker.

 Then, at certain operating modes of the stand electric motor, various rarefaction values are successively created in the vacuum regulator (the rarefaction value is measured by a pressure gauge mounted on the stand) and the actual change in the ignition moment α is determined on a synchronoscope scale.

 The dependence α = f (P) is built. Compare the obtained dependence with the reference and make a conclusion about the technical condition of the vacuum regulator and the accuracy of its operation. Thus, the conclusion about the technical condition and accuracy of the vacuum regulator is made on the basis of the dependence α = f (P), which does not sufficiently reflect its real state, since, firstly, the reliability of the data for obtaining this dependence depends on the technical condition the stand itself and, secondly, the accuracy of these data is affected by the technical condition of the interrupter-distributor nodes, namely: the clearance in the rack of the drive rod of the vacuum regulator and the wear of the hole in the rod itself, the condition of the bearing of the movable layer us with a rack, the presence of lubricant in the bearing and others.

 Stands like SDR have other disadvantages. Therefore, it is advisable to diagnose and adjust the vacuum regulator to use a different characteristic - the dependence of the axial displacement S of the thrust on the magnitude of the force Q applied to it, S = f (Q).

 The closest analogue of the invention is a diagnostic unit [2].

 This installation contains a horizontally located base on which a device is mounted for installing a breaker-distributor with a clamp of the drive shaft of the centrifugal regulator, a graduated scale installed with the possibility of its movement and fixing in height, an arrow fixed to the leading part of the centrifugal regulator and a force generating mechanism.

 Diagnostic installation allows you to implement the characteristic of a centrifugal controller, namely the dependence of the rotation of the driven part of the shaft of the investigated breaker-distributor with the fixed leading part of it on the value of the moment applied to the said driven part of the shaft.

 This setting is used only for checking and adjusting the centrifugal ignition timing controller and is not suitable for similar work with the vacuum controller.

 In addition, it does not allow to obtain the dependence S = f (Q), it does not provide a fixed position of the breaker body when applying the turning force of the arrow mounted on the driven part of the centrifugal controller, it has a long process of fixing the leading part of the centrifugal controller, and also the difficulty in ensuring the same direction arrow turning forces (manually).

 The technical result of the invention is the development of a universal installation, which will, firstly, expand the functionality of the known installation by diagnosing and adjusting the vacuum regulators on it and, secondly, provide the possibility of quick readjustment during diagnostic and adjustment operations as the same type of interrupters valves, and similar operations for their various types (differing in height).

 This is achieved by the fact that in a diagnostic installation containing a base on which a fixture for fixing the diagnosed node is fixed, a graduated scale installed with the possibility of vertical movement in height and fixation, an arrow indicating the angle of rotation and a mechanism for creating force, the base is installed vertically, with one on its sides, a fixture is fixed for fixing the diagnosed node, and on the other, a L-shaped plate, with the possibility of moving along it, on the horizontal part of the L-shaped plate we have installed a graduated scale and a mechanism for creating effort, made in the form of a bar fixed on an L-shaped plate, on the lower side of which there is a rod with a stop, and on the upper there is a fork with a block enveloped by a flexible element connecting the arrow with a suspension carrying cylindrical loads with central through holes.

 To ensure diagnosis and adjustment of the vacuum regulator, the installation is equipped with a stand with a device for fixing the diagnosed assembly, the top end of the stand is pivotally connected to an arrow made in the form of a two-shouldered lever, one arm of which is made with the possibility of articulation with the lever of the vacuum regulator, and the second arm is connected with a flexible an element of the effort creation mechanism.

 In FIG. 1 shows the installation with a controlled distribution switch (PR) when checking its centrifugal regulator (CR); in FIG. 2 - the same when checking the vacuum regulator (BP).

 The diagnostic installation contains a base 1, the lower side of which is a clamp for mounting the installation on a workbench or table, on the other hand, a sleeve 3 is welded using an arm 2. It is designed for installation and fixing with screws 4 of the OL housing and the drive shaft.

 On the vertical part of the L-shaped plate 5, a cut-out is made which includes screws 6. The L-shaped plate 5 is fixed in a predetermined height position with the help of these screws. A stand 7 is attached to the horizontal part of the L-shaped plate 5, on which a scale 8 is mounted with the possibility of angular displacement. Here, a bracket 10 is attached, on which a fork 11 with a block 12 is mounted. A flexible thread 14 is attached to the index arrow 13 with a hook , on which the suspension 15 hangs with a load of 16. On the stand 17 with a possibility of rotation, an emphasis 18 is attached.

 To check BP 19 on the installation, it is first mounted on a plate 20 (Fig. 2), rigidly connected to the rack 21. Then, the lower part of the rack 21 is inserted into the socket of the sleeve 3 and the rack 21 is fixed with the screw 4 in the sleeve 3.

 An arrow 13 with a head is mounted on the upper part of the rack 21 for mounting the latter on the rack 21 with the possibility of rotation of the arrow. A pin 23 is inserted into the hole of the arrow 13 and the lever 22 of the BP.

 There is a diagnostic unit for checking and adjusting BP as follows.

 Before diagnosing the rack 21 together with the fastening on it BP 19 is installed in the socket of the sleeve 3 and fix the rack 21 with a screw 4.

 Then, an arrow 13 is mounted on the upper end of the strut 21 so that the hole at one end of the arrow coincides with the hole of the BP lever 22, and a pin 23 is inserted into these holes.

 After that, supporting the rack 21, release the screw 4 and rotate the rack 21 with the arrow 13 and BP 19 so that the second end of the arrow 13 with its tip coincides with the zero division of the scale 8.

Then the bar 10 from the position shown in figure 1, is transferred to a position at an angle of 90 ^o to one side of the horizontal part of the L-shaped plate 5, depending on the tested BP.

 With the help of the arrow 13 fixed on one side of the flexible thread 14 and weights 16, a moment is applied to the arrow. In this case, the force at the second end of the arrow is transmitted through the pin 23 to the lever 22 of the BP 19.

 Comparing the obtained value of the angle of rotation of the arrow 13 on a scale of 8 with the reference value of the angle for this type of BP, make a conclusion about the technical condition of BP. If necessary, adjust the BP, if the obtained value of the rotation angle of the arrow of the investigated BP does not match the reference value, for which special gaskets 24 are installed or removed.

 The experiments showed that the proposed universal installation allows to increase the accuracy of the adjustment of BP in comparison with known methods, as well as to increase the reliability of checking the tested nodes.

Claims (2)

 1. Diagnostic installation, comprising a base, a fixture for fixing the diagnosed node fixed on it, a graduated scale mounted on the base with the possibility of its vertical movement and fixation, a direction indicator arrow and a force generating mechanism, characterized in that the base is installed vertically, with one on its side, a fixture for fixing the test unit is fixed, and on the other a L-shaped plate with the ability to move along it, on the horizontal part of which there is a degree the scale and the mechanism for creating force, made in the form of a strap fixed on an L-shaped plate, on the lower side of which there is a rod with a stop, and on the top there is a fork with a block enveloped by a flexible element connecting the arrow with a suspension bearing cylindrical loads with central through holes.  2. Installation according to claim 1, characterized in that for checking and adjusting the vacuum regulators, it is equipped with a stand articulated with a device for fixing the diagnosed node, the upper end of the rack is pivotally connected to an arrow made in the form of a two-shouldered lever, one shoulder of which is made with the possibility of swivel with the lever of the vacuum regulator, and the second shoulder is connected to a flexible element of the mechanism for creating effort.

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