CN1065933A - Upper dead center automatic detecting-positioning method and equipment - Google Patents

Abstract

Internal combustion engine upper dead center automatic detecting-positioning method and equipment, the characteristics of its method are to determine the position of Piston Compression stroke upper dead center with the maximum displacement value of piston and pairing crank angle value, and its equipment comprises that mainly butt joint clamp device, the high precision of floating type no gap transmission do not have two helical pitch worm gears of gap transmission, stepper motor, circle grating, floating type displacement measuring device, photoelectric sensor and computing machine.This invention automaticity height, good reliability, upper dead center bearing accuracy≤± 0.3 °, working method is various, can satisfy the needs of the various different situations in production scene.

Description

Upper dead center automatic detecting-positioning method and equipment

The present invention relates to internal combustion engine upper dead center online automatic detection localization method and equipment that a kind of industry spot is used,, can accurately be positioned the internal combustion engine first cylinder piston in the assembling upper dead center of pressure stroke by this kind method and apparatus.

In the internal combustion engine assembling process, the adjustment of high pressure fuel pump valve injection timing opening angle is as benchmark with the first cylinder Piston Compression stroke upper dead center, therefore, before the adjustment injection pump is installed, the upper dead center of pressure stroke must be at first the first cylinder piston accurately be positioned, otherwise the complete machine performance of internal combustion engine will be influenced.

Detection and location for the internal combustion engine pressure stroke upper dead center in the assembling, domesticly generally realize by mode manually, be that the tester is under the cooperation of measuring instruments such as clock gauge, observation and experience according to oneself are determined, not only work efficiency is low for this mode, labour intensity is big, and bearing accuracy poor, be difficult to reach technological requirement.Cummins Motor Co. has used a kind of automatic detecting-positioning method and equipment, this method judges with magnetoelectric sensor whether centering determines that piston closes on the state of pressure stroke upper dead center for recessed round mark on internal combustion (IC) engine camshaft gear and the crankshaft toothed wheel, only determine the position of Piston Compression stroke upper dead center with the maximum displacement value in the piston moving process, and be worth desired value as control piston location upper dead center with this, the drive source that rotates as bent axle with servomotor in its equipment, and its driving head adopts finger to dock and drive its rotation with bent axle, can't eliminate the influence of transmission intermediate gap, so reliability, bearing accuracy has problems inevitably.

The objective of the invention is to overcome the deficiencies in the prior art, the online detection and location method and apparatus of internal combustion engine upper dead center of a kind of automaticity height, bearing accuracy height, good reliability is provided.

Method provided by the present invention, each step preface all can be carried out under the control of computing machine automatically, be characterized in determining that with the reflective marker and the photoelectric sensor of internal combustion (IC) engine camshaft gear spoke outer face specific location piston closes on the state of pressure stroke upper dead center, determine the position of Piston Compression stroke upper dead center with the corner value of maximum displacement value in the piston moving process and pairing bent axle, and with this two the value as the localizing objects value, control piston is positioned upper dead center.

Mainly comprise butt joint clamp device, reducer casing, motor and driving power thereof, hydraulic pressure moving platform, wing base, circle grating and circle grating instrument, photoelectric sensor, AC/DC changeover switch, displacement measuring device, displacement transducer and displacement meter, column, Hydraulic Station and computing machine according to the custom-designed equipment of said method.Wing base and column are support unit, they are installed in the both sides of internal combustion engine transmission line respectively, the carriage saddle and the wing base of hydraulic pressure moving platform connect firmly, the worktable of hydraulic pressure moving platform is installed butt joint clamp device and reducer casing, motor is contained on the reducer casing, the input shaft and the motor of reducer casing link, the output shaft two ends of reducer casing respectively with dock clamp device and the circle grating link.Displacement transducer is installed on the displacement measuring device, and displacement measuring device and photoelectric sensor are fixed on the column.The output terminal of photoelectric sensor directly and input end and computer link, the output terminal of justifying grating and displacement transducer links by justifying grating instrument and displacement meter and input end and computer respectively, the driving power of the output termination motor of computing machine and each hydraulic control valve of Hydraulic Station, Hydraulic Station links by oil pipe and hydraulic pressure moving platform, the oil cylinder that docks in clamp device and the displacement measuring device.In this equipment, photoelectric sensor is used for determining that piston closes on the state of pressure stroke upper dead center, and circle grating and circle grating instrument are used for measuring the corner value of bent axle, and displacement transducer and displacement meter are used for measuring the shift value of piston.

Concrete step preface of the present invention and structure are provided by following embodiment and accompanying drawing thereof.

Fig. 1 is the upper dead center automatic detecting-positioning method of the proposition according to the present invention and the schematic diagram of equipment; Fig. 2 is the structure diagram of the automatic detection and location equipment of upper dead center; Fig. 3 is the structural drawing of butt joint clamp device; Fig. 4 is the structural drawing of the docking mechanism of butt joint clamp device; Fig. 5 is the structural drawing of reducer casing; Fig. 6 is the structural drawing of displacement measuring device; Fig. 7 is that the A of displacement measuring device is to partial view; Fig. 8 is the C-C cut-open view of displacement measuring device; Fig. 9 is the E-E cut-open view of displacement measuring device; Figure 10 is that the G of displacement measuring device is to view.

Describe in detail according to the upper dead center automatic detecting-positioning method of the present invention's proposition and the concrete step preface and the structure of equipment below in conjunction with accompanying drawing.

As shown in Figure 1, the upper dead center automatic detecting-positioning method is undertaken by following step preface under the control of computing machine:

(1) butt joint clamp device in the detection and location equipment and the bent axle automatic butt of carrying the internal combustion engine that puts in place, then, the rotation of butt joint clamp device, finger enters the pin-shifting hole of crankshaft end automatically in 180 °, and drive crankshaft rotating, after treating that bent axle rotates more than 200 degree, the resilient sleeve endoporus clamps bent axle again;

(2) the displacement measuring device automatic in-position in the detection and location equipment is positioned the cylinder deck of internal combustion engine first cylinder;

(3) the butt joint clamp device drives the bent axle quick rotation, when the reflective marker that pastes when ad-hoc location place, cam shaft gear spoke outer face enters the area of illumination of the photoelectric sensor in the detection and location equipment, show that piston has closed on the pressure stroke upper dead center, photoelectric sensor promptly sends signal to computing machine, its control bent axle is become slowly run;

(4) in the process after piston low speed is through the pressure stroke before top dead center, measure the displacement meter of piston displacement value and the round grating instrument of measurement crank angle value and be defeated by the signal of computing machine simultaneously by triggering sampling simultaneously, after data processing, can obtain the corner value of the maximum displacement value and the pairing bent axle of piston, and be positioned the desired value of upper dead center with this two value as control piston;

(5) piston is through the pressure stroke after top dead center, bent axle continues with quick rotation, when piston closes on the pressure stroke upper dead center once more, under the control of photosignal, slowly run once more, when the corner value of piston displacement value and bent axle all satisfy set near the precision of localizing objects value the time, show that piston is sitting at the pressure stroke upper dead center, computing machine sends instruction immediately and makes the drive unit braking, show simultaneously to print and detect and locator data, and, illustrate to locate and finish with sound and light alarm.

As shown in Figure 1 and Figure 2, the wing base (1) of the automatic detection and location equipment of upper dead center and column (10) are installed in the both sides of internal combustion engine transmission line respectively, and they are support unit, are used to install other parts.Wing base (1) support hydraulic slide unit (3), circle grating (4), reducer casing (5), motor (6) and butt joint clamp device (7).The carriage saddle of hydraulic pressure moving platform (3) and wing base (1) connect firmly, the worktable of hydraulic pressure moving platform (3), butt joint clamp device (7) and reducer casing (5) are installed, motor (6) is contained on the reducer casing (5), the input shaft of reducer casing (5) links by shaft coupling and motor (6), output shaft one end of reducer casing (5) by shaft coupling with dock clamp device (7) and link, the other end links by the key light grid axle of spring coupling with circle grating (4), and the indication grating and the housing of circle grating (4) are fixed on the flange of reducer casing casing (38).Column (10) supporting displacement transducer (8), displacement measuring device (9) and photoelectric sensor (11), displacement transducer (8) is installed on the displacement measuring device (9), displacement measuring device (9) is fixed in the positive top of column (10), and photoelectric sensor (11) is fixed in the middle part of column (10).Hydraulic Station (2) and switch board independently are placed in internal combustion engine transmission line both sides respectively, and instrument and meter and electric elements such as computing machine (STD bus machine, PC), motor drive power supply, AC/DC changeover switch, circle grating instrument and digital displacement meter are housed in the switch board.The output terminal of photoelectric sensor (11) directly and the computing machine input end link, the output terminal of justifying grating (4) and displacement transducer (8) links by justifying grating instrument and digital displacement meter and input end and computer respectively, the driving power of the output termination motor (6) of computing machine and each hydraulic control valve of Hydraulic Station (2), Hydraulic Station (2) links by oil pipe and hydraulic pressure moving platform (3), the oil cylinder that docks in clamp device (7) and the displacement measuring device (9).In order to adapt to the various situations in the industry spot assembling, this equipment also is provided with button station (12), and to make things convenient for the manual debugging of equipment, button station (12) are installed in wing base (1) side.For vibration damping, wing base (1) and column (10) bottom all are equipped with vibration pad (13).

As shown in Figure 3, Figure 4, butt joint clamp device (7) be floating type butt joint clamp device, and it comprises and is driven docking mechanism that part dock, clamps the clamp system, the hydraulic pressure force transmission mechanism of controlling clamp system work that are driven part, can makes docking mechanism, clamp system realize the relocation mechanism of translation and swing, main supporting mass (22), auxiliary bearing body (30) simultaneously and makes the bearing of above-mentioned each mechanism's realization rotation.The docking mechanism and the clamp system of this device are designed to one, docking mechanism has designed self-centering dock and two kinds of structures of finger dock, clamp system is a liquid plastics centering clamped-in style structure, is made up of butt junction body (16), resilient sleeve (14), lining (15), liquid plastics (31), straight pin (32), finger spring (33), finger (34).The guiding conical surface of resilient sleeve (14) front end and endoporus thereof form centering dock structure, the finger (34) that install the endoporus of resilient sleeve (14) and butt junction body (16) and lining (15) bottom forms finger dock structure, pin-shifting hole has 4, wherein finger (34) has been installed in two holes, two holes are as standby hole in addition, in order to prevent that lining (15) from rotating, and is equipped with straight pin (32) in the standby hole.The hydraulic pressure force transmission mechanism is made up of the extension bar (18) that one-way cylinder, traveller (17) and an end are equipped with steel ball, one-way cylinder comprises taper thread long tube joint (19) and the end cap (21) that cylinder body (25), piston (24), y-shaped ring (20), bearing seal spacer (23), oil-feed and oil return are used, for simplified structure, back V-shaped groove dish in cylinder body (25) and the relocation mechanism is designed to a part, and the outer face design of end cap (21) has the axle that shaft coupling is installed.Relocation mechanism is that cross V-shaped groove dish is paid structure, by preceding V-shaped groove dish (29), back V-shaped groove dish (25), cross V-shaped groove dish (27), cross slotted disk cover (28) and steel ball (25) are formed, preceding V-shaped groove dish (29), have radially v-depression on the end face of back V-shaped groove dish (25), the v-depression of preceding V-shaped groove dish (29) has also designed the sphere step, the two ends of cross V-shaped groove dish (27) all have radially v-depression, and two v-depressions are vertical mutually, the no v-depression end and the butt junction body (16) of preceding V-shaped groove dish (29) connect firmly, cross slotted disk cover (28) on the cylindrical gland of cross V-shaped groove dish (27), steel ball (26) is contained in the two ends v-depression of cross V-shaped groove dish (27), steel ball connection heart line in the v-depression of two ends intersects vertically, and the centre of sphere of sphere step is positioned on this intersection point.The parts of each mechanism are assembled in the following manner in this device: the butt junction body (16) of having installed the butt joint clamping element, preceding V-shaped groove dish (29), the cylinder body (25) of cross V-shaped groove dish (27) and one-way cylinder (also being back V-shaped groove dish) is installed on main supporting mass (22) and the auxiliary bearing body (30), and formation monolithic construction, traveller (17) is positioned at the centre of butt junction body (16) and pastes mutually with liquid plastics (31), the center pit of V-shaped groove dish (29) before extension bar (18) is positioned at, it has the steel ball end to head on traveller (17), the piston rod of other end order effect oil cylinder, the extruding force that piston (24) motion is produced passes to liquid plastics, force resilient sleeve (14) endoporus to shrink and clamp and be driven part, bearing is installed in preceding V-shaped groove dish (29) respectively, one-way cylinder cylinder body (25), the shaft shoulder place of the sphere step of preceding V-shaped groove dish (29) and back V-shaped groove dish (25).In order to regulate end play and to offset clamp system, docking mechanism because of from the sagging additional torque that causes on the axle that is driven part that is pressed in of weight, auxiliary bearing body (30) front end is equipped with ring flange, it is provided with the two circles governor motion be made up of adjustment screw, compression spring and guide pillar of totally 12 covers.The butt joint clamp device of this kind structure has stirs the function that adds the centering clamping, therefore both can reduce the pressure of one-way cylinder, with the friction torque that reduces y-shaped ring, the utilization factor that improves motor output torque, can realize not having the gap transmission again; Relocation mechanism floats the axial line translation in any direction simultaneously and the swing of docking mechanism and clamp system, and amount of floating can reach ± 2 millimeters, therefore, the part positioning error is big, the main frame alignment error is bigger even be driven, clamping easily also can achieve a butt joint.

As shown in Figure 5, reducer casing (5) moves axially governor motion by casing (38), worm screw (41), worm gear (42), oil distributor (43), bearing (39), (44) and worm screw and forms for the two helical pitch worm gears of the high precision of no gap transmission.The lead angle design of worm screw (41) is in the self-locking scope; Worm screw moves axially governor motion and comprises steel bushing (35), round nut (36) (40), anti-rotation stop screw (37), steel bushing (35) forms one-piece construction with bearing (39), and round nut (36) (40), anti-rotation stop screw (37) are used for steel bushing (35) moving and the location on casing (38).When the gap occurring and need adjust, unclamp round nut (36) and anti-rotation stop screw (37), slewing circle nut (40) along clockwise direction, steel bushing (35) can drive worm screw (41) by bearing (39) and move axially to the right to eliminate the gap.Therefore, this reducer casing can realize that high precision do not have gap transmission and hi-Fix, and governor motion is simple in structure, dependable performance, easy to use.Worm shaft is an input shaft, and worm-wheel shaft is an output shaft.

As Fig. 6, Fig. 7, Fig. 8, Fig. 9, shown in Figure 10, displacement measuring device is made up of oil cylinder (46), the supporting of cylinder cover (47), sealing shroud (48), self-locking mechanism, guiding mechanism, pressure head, displacement transducer latch mechanism and micro-adjusting mechanism, the guide rail (58) of oil cylinder (46), cylinder cover supporting (47) and guiding mechanism is fixed on the column (10), sealing shroud (48) is close to the end face installation of cylinder cover supporting (47), and the piston rod of pressure head and oil cylinder (46) links.Pressure head is the pressure head that floats, comprise pressure head body (55), pressing head seat (56), compression spring (51), screw (52), packing ring (53) and limited block (50), screw (52) and packing ring (53) are connected into one to pressure head body (55), pressing head seat (56), pressure head body (55) by the gap between hole above it and the pressing head seat (56) and be installed in pressure head body (55) and pressing head seat (56) on compression spring (51) realize to float, limited block (50) is fixed on the upper surface of pressing head seat (56).The lower surface of pressure head body (55) is equipped with three locating pieces (54), and the upper surface is equipped with guide pole (59), and displacement transducer (8) also is mounted thereon; The ring flange lateral surface of pressure head body (55) is equipped with slide block (57), and the guiding mechanism that this slide block and guide rail (58) are formed can guarantee that the point position of displacement transducer is constant.In this device, when being in the extreme higher position, pressure head prevents that its downslide from being to guarantee by self-locking mechanism, self-locking mechanism is by steel ball (60), traveller (61), spring (62), set screw (63), stop screw (64) and spacing supporting (49) formation that above part is installed, spacing supporting (49) is close to the end face of sealing shroud (48) and is installed, when pressure head rises to highest position, traveller (61) makes steel ball (60) automatically drop in the V-shaped groove of limited block (50) under the effect of spring (62), by regulating spring (62), make elastic positioning device produce self-locking, thereby realize not having the auto-lock function that glides; Simultaneously, this self-locking mechanism does not influence the decline of pressure head, after pressure head descends, can guarantee that also steel ball (60) does not contact with piston rod.The latch mechanism of displacement transducer (8) is made up of high-head knurling screw (67), tangential gripping sleeve (66) (65), above part is installed on the pressure head body (55), during locking, the extruding force that relies on high-head knurling screw (67) to produce makes tangential gripping sleeve (66) (65) hold displacement transducer (8) tightly along cambered surface.The micro-adjusting mechanism of displacement transducer (8) is made up of screw rod (74), lock sleeve (73), nut (72) (70) (68), fine setting supporting (71) and packing ring (69), during fine setting, unclamp the latch mechanism of displacement transducer (8) earlier, setting nut (72) can be realized the fine motion up and down of displacement transducer (8) then, displacement transducer (8) is locked after regulating again.The displacement measuring device of this kind structure neither can weigh the internal combustion engine cylinders end face wounded, can guarantee again on it that displacement transducer measuring staff of installing is vertical with cylinder deck constant with point position, thus make to be measured with column on the alignment error of each parts do not influence accuracy of detection.

In order to guarantee accuracy of detection, improve the reliability of complete machine, the motor (6) that drives the rotation of reducer casing worm shaft is selected stepper motor for use.

In order to get rid of the harmful effect that external interference causes in test and the control procedure, computer software has the function that the input signal online data is handled, and if any maloperation, can remind operating personnel to correct by display and buzzer.

Because each device and the parts of component devices have above-mentioned performance, when the ratio of gear of reducer casing was 1: 30, stepper motor can make I. C. engine crankshaft with the rotation of 0.02 °/step, is enough to guarantee ± 0.3 ° measurement and positioning accuracy request.

The key technical indexes of present embodiment is as follows:

Upper dead center bearing accuracy＜± 0.3 ° (crank angle)

Displacement transducer precision ± 0.5 μ m

Circle grating precision ± 25 rads

Noise＜75dB(A)

Equipment work beat 2.25 minutes

The present invention has the following advantages:

Equipment have manually, monocycle Automatic Cycle and three kinds of working methods of Automatic Cycle, adaptability is strong.

2. detection and location precision height, upper dead center bearing accuracy＜± 0.3 °.

3. good reliability, stepper motor, photoelectric sensor, reflective marker coupled computer software processes make equipment not be prone to misoperation.Even artificial maloperation (as pasting wrong reflective marker position) is arranged, also has the function of reminding operating personnel to correct a mistake.

4. price is low, for introduce 1/5 of purposes equipment price of the same race from Cummins Motor Co..

Structure of the present invention is not limited to the foregoing description, and its protection domain is determined by claim.

Claims (4)

1, a kind of automatic detecting-positioning method of internal combustion engine upper dead center, under the control of computing machine, carry out, it is characterized in that determining that with the reflective marker and the photoelectric sensor of internal combustion (IC) engine camshaft gear spoke outer face specific location piston closes on the state of pressure stroke upper dead center, determine the position of Piston Compression stroke upper dead center with the corner value of maximum displacement value in the piston moving process and pairing bent axle, and with this two the value as the localizing objects value, control piston is positioned upper dead center.

2, detection and location method according to claim 1 is characterized in that being undertaken by following step preface:

1. the bent axle automatic butt of the internal combustion engine that in rotation, puts in place of the butt joint clamp device in the detection and location equipment and with its clamping with conveying;

2. the displacement measuring device automatic in-position in the detection and location equipment is positioned the cylinder deck of internal combustion engine first cylinder;

3. dock clamp device and drive the bent axle quick rotation, when the reflective marker that pastes when ad-hoc location place, cam shaft gear spoke outer face enters the area of illumination of the photoelectric sensor in the detection and location equipment, show that piston has closed on the pressure stroke upper dead center, photoelectric sensor promptly sends signal to computing machine, its control bent axle is become slowly run;

4. in the process after piston low speed is through the pressure stroke before top dead center, measure the displacement meter of piston displacement value and the round grating instrument of measurement crank angle value and be defeated by the signal of computing machine simultaneously by triggering sampling simultaneously, after data processing, can obtain the corner value of the maximum displacement value and the pairing bent axle of piston, and with the desired value of this two value as control piston location upper dead center;

5. piston is through the pressure stroke after top dead center, bent axle continues with quick rotation, when closing on the pressure stroke upper dead center once more, piston under the control of photosignal, slowly runs once more, when the corner value of piston displacement value and bent axle all satisfy set near the precision of localizing objects value the time, show that piston is sitting at the pressure stroke upper dead center, send instructions immediately accessory drive braking of computing machine shows simultaneously to print and detects and locator data, and, illustrate to locate and finish with sound and light alarm.

3, a kind of method according to claim 1 and custom-designed detection and location equipment, comprise butt joint clamp device (7), reducer casing (5), motor (6) and driving power thereof, hydraulic pressure moving platform (3), wing base (1), displacement measuring device (9), displacement transducer (8) and displacement meter thereof, column (10), Hydraulic Station (2) and computing machine, it is characterized in that also comprising photoelectric sensor (11), AC/DC changeover switch, circle grating (4) and circle grating instrument thereof, wing base (1) and column (10) are support unit, they are installed in the both sides of internal combustion engine transmission line respectively, the carriage saddle of hydraulic pressure moving platform (3) and wing base (1) connect firmly, the worktable of hydraulic pressure moving platform (3) is installed butt joint clamp device (7), reducer casing (5), motor (6) is contained on the reducer casing (5), the input shaft of reducer casing (5) and motor (6) link, the output shaft two ends of reducer casing (5) respectively with dock clamp device (7) and the circle grating (4) link, displacement transducer (8) is installed on the displacement measuring device (9), displacement measuring device (9) and photoelectric sensor (11) are fixed on the column (10), the output terminal of photoelectric sensor (11) directly and input end and computer link, the output terminal of justifying grating (4) and displacement transducer (8) links by justifying grating instrument and displacement meter and input end and computer respectively, the driving power of the output termination motor (6) of computing machine and each hydraulic control valve of Hydraulic Station (2), Hydraulic Station (2) is by oil pipe and hydraulic pressure moving platform (3), oil cylinder in butt joint clamp device (7) and the displacement measuring device (9) links.

4, detection and location equipment according to claim 3 is characterized in that:

1. docking clamp device (7) is floating type butt joint clamp device, its relocation mechanism is that cross V-shaped groove dish is paid structure, by preceding V-shaped groove dish (29), back V-shaped groove dish (25), cross V-shaped groove dish (27), cross slotted disk cover (28) and steel ball (26) are formed, preceding V-shaped groove dish (29), have radially v-depression on the end face of back V-shaped groove dish (25), the v-depression end of preceding V-shaped groove dish (29) has also designed the sphere step, the two ends of cross V-shaped groove dish (27) all have radially v-depression, and two v-depressions are vertical mutually, before V-shaped groove dish (29) no v-depression end with dock clamp device in the butt joint clamp device in butt junction body (16) connect firmly, back V-shaped groove dish (25) is designed to a part with cylinder block in docking clamp device, cross slotted disk cover (28) on the cylindrical gland of cross V-shaped groove dish (27), steel ball (26) is contained in the two ends v-depression of cross V-shaped groove dish (27), steel ball connection heart line in the v-depression of two ends intersects vertically, and the centre of sphere of sphere step is positioned on this intersection point;

2. reducer casing (5) is two helical pitch worm gears, moves axially governor motion by casing (38), worm screw (41), worm gear (42) and worm screw and forms, and worm shaft is an input shaft, and worm-wheel shaft is an output shaft;

3. motor (6) is a stepper motor;

4. the pressure head that is used to locate in the displacement measuring device (9) is the pressure head that floats, it comprises pressure head body (55), pressing head seat (56), compression spring (51), screw (52), packing ring (53) and limited block (50), screw (52) and packing ring (53) are coupled to one to pressure head body (55), pressing head seat (56), pressure head body (55) by the gap between hole above it and the pressing head seat (56) and be installed in pressure head body (55) and pressing head seat (56) on compression spring (51) realize to float, limited block (50) connects firmly the upper surface in pressing head seat (56).

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