DE3339077C2 - - Google Patents

Description

State of the art

The invention is based on a displacement sensor of the type of the main claim.

It is known from DE-AS 12 65 489, the position of a linearly adjustable control rod of a fuel injection pump with the help of a potentiometer. Here is made up of a linear resistance section Use a grinder that is linear along with the rule rod is moved, a measuring voltage tapped. The thus disclosed path sensors for the control rod path is however outside the fuel injection pump arranged and required because of its construction spatially complex construction. For the setting and the Alignment of the encoder must disadvantageously the Ge the housing of the fuel injection pump.  

By DE patent application D 13 059 IXb / 42b, laid out on December 24, 1953, an electrical measuring device is also known, with the help of which machine parts run out of rotation to be measured. This measuring device has a sensor which is attached to a lid, which has an opening in the circumferential part receiving housing closes. The sensor is thereby through the opening in the immediate vicinity of the circulating Brought part. Inductive or capacitive is then using the Sensor the state of the rotating shaft or the rotating part measured.

Through the book by Richter and Voss, components of precision engineering, 1957, pages 122, 126, it is known to use wedge connections as releasable To provide connections between two components, including taper pins Use come, which are non-positive due to small cone angles secure yourself.

DE-AS 10 62 942 is also a measuring device known, with the help of a radial gap to one circumferential part is measured. Here is a measuring coil Iron core radially through a housing wall opening near the brought surrounding part and secured by a screw.

From DE-GM 75 14 107 a measuring device is also known to detect a gap between two work rolls of a roll stand serves. This measuring device has a bell-shaped Probe on which is slidably arranged on a hollow mandrel is and brought into an adjustable measuring position can be.

The object of the invention is to provide a displacement sensor according to the genus of Claim 1 further so that this under Berück consideration of the unavoidable construction tolerances for fuel injection pump and extremely high accuracy requirements the reason adjustment of displacement sensors in this area bar and in the set position even when the usual high shaking stresses in internal combustion engines and Injection pumps can be securely fixed.

This object is achieved by the features of the characteristic character of claim 1 solved. The solution has the Advantage that they are a very robust version of the Weggeberbefesti allowable with a secure adjustability and fixability. The type of fixation ensures that this no subsequent changes to the set position of the Can cause displacement. Here is the setting of the location fixed encoder part in its assignment to the movable encoder part closed fuel injection pump or when closed Housing that accommodates the displacement sensor is possible.

By the measures listed in the other subclaims advantageous developments of the solution specified in the main claim possible, with their advantages based on the description of the attached drawing. Patented design Claim 5, the displacement sensor has a small rotary potentiometer known design and it is as a moving part on the housing of the Only one encoder is provided, so that bearing and sealing problems to seal the encoder housing on a  Minimum are limited. In the embodiment according to the invention it is of course also possible to use any other encoder, such as e.g. B. inductive sensors, short-circuit ring sensors, proximity sensors or Hall to use effect generator.  

drawing

An embodiment of the invention is in the drawing shown and is described in more detail in the following description explained.

It shows

Fig. 1 is a basic representation of the travel sensor according to the invention,

Fig. 2 is a circuit diagram of the travel sensor according to the invention,

Fig. 3 are partial sections through an embodiment of the displacement sensor according to the invention,

FIG. 4 shows a section through a plane of the exemplary embodiment and perpendicular to the view shown in FIG. 3

Fig. 5 shows a partial section through the carrier plate for the resistance track and the contact track.

Description of the embodiment

In Fig. 1, a part of an actuator 1 is shown, the z. B. can be an intermediate piece of a control rod of a fuel injection pump. This actuator performs a linear movement with amounts x. The current position of this actuator is detected with the help of a encoder 2 . This has an operating lever 4 with the length L, which engages at its extreme end in a clutch 5 of the actuator and about a pivot point 6 , the z. B. on a shaft 7 ( Fig. 3) is pivotable. The clutch 5 allows a precise guidance of the end of the actuating lever in the direction of movement of the actuator and a displacement of the end of the actuating lever perpendicular to the movement of the actuator. The hitch be z. B. out as a fork, as a groove or slot and the end of the actuating lever has a ball 8 , a pin or a joint.

Rigid with the actuating lever 4 is a lever 10 which is pivotable about the same pivot point or the shaft 7 and which has a grinder 11 at its end. The lever 10 is made of insulation material or the grinder 11 is mounted on the lever 10 in an insulated manner. The grinder 11 is in constant contact with a resistance track 12 , which is part of a resistance path of the displacement sensor. The resistance path is so wide that with the possible pivoting movement of the lever 10 the grinder remains in contact with the resistance path. The resistance track has a linear extension and has a fixed contact 14 at one end and a sliding contact 15 at the other end. The resistance path is a resistance path, consisting of a base resistance R _o , which directly adjoins the fixed contact, an adjoining resistance path region R _v , in which the wiper 11 is effective, and a path resistance region R a, which then closes _, as a comparison resistance to the multiplicative influence on the path signal picked up on the grinder 11 . The Kontaktierun conditions 14 and 15 are connected to a voltage source U _o sen, advantageously being selected as the mass of the displaceable con tact, which can be moved via an adjusting screw 16 . A voltage U (y) can then be removed between ground and grinder 11 , which represents a value for the position of the grinder 11 on the resistance path R _v or for the position of the adjusting member 1 .

In Fig. 2, an equivalent circuit of the arrangement shown in Fig. 1 is given, a conventional resistor being connected upstream of a resistor R _o in the form of part of the resistance track and a conventional variable resistor being used instead of the resistor track part R _a . In such a solution, the design can be reduced, in particular in the longitudinal extent of the resistance 12 .

With the described device, the manipulated variable x of the actuator is first converted into an angle of rotation α and this angle of rotation is linearized again by scanning a voltage value on a linear resistance track. In otherwise usual rotary potentiometers used as displacement sensors, the resistance path is circular in accordance with the pivoting movement of the lever 10 , such that each angle of rotation α is assigned a corresponding resistance value of the resistance path. The output signal of such a potentiometer must, however, if it is used for the detection of a linear movement x, be linearized again with complex means. Such measures are advantageously not necessary with the configuration according to the invention.

In a conventional manner, for scanning the voltage value on the resistance track 12, a contact track 17 can be assigned in parallel and the grinder 11 can be connected to a second grinder 19 , which is also arranged on the lever 10 and is in constant contact with the contact track 17 . In FIG. 4, an embodiment of the displacement sensor is shown in partial section. This essentially consists of a housing 21 , in the interior of which a carrier plate 22 made of insulating material is arranged. A resistance path in the form of the resistance path 12 shown in FIG. 1 is applied to the carrier plate. At one end, this has the contact 14 , the voltage supply according to FIG. 5 takes place via a conductor 23 which is cast into the carrier plate and the other end of which is tightly guided through a cover 24 of the housing 21 at position 25 to the outside. A corresponding contact 26 has one end of the contact sheet 17 also applied to the support plate 22 with a corresponding connection at the point 25 of the cover 24 .

The displaceable contact 15 can be either connected to ground in this implementation or attached insulated on a sliding member 28 and connected by a conductor with a connection at point 25 a related party. The resistance track is advantageously made of electrically conductive plastic, which considerably reduces the frictional resistance and wear.

The lever 10 is made in the embodiment of Fig. 4 and Fig. 3 of insulating plastic material and molded onto the end of the shaft 7. This is in plastic bushings 29 , which are inserted into the cover 24 of the housing, is mounted and leads out of the housing, where it is firmly connected at the other end with the actuating lever 4 . This engages with a ball head 30 at its end in a groove 31 of the actuator 1 .

A particularly advantageous embodiment of the displacement sensor 2 according to the invention consists in its type of attachment and assignment to the actuator and in the possibility of adjustment without having to open the cover of the housing. For this purpose, a cylindrical pin 32 is integrally formed on the housing, which can be inserted into a corresponding fitting hole 33 of a wall 34 and can be moved there. The wall 34 can be the wall of a fuel injection pump, inside which there is fuel or oil. Even if the inside of the pump is not completely filled with fuel or oil, a corresponding liquid mist may occur when operating a fuel injection pump, which would be suitable to disrupt the functioning of a displacement sensor of the type of a potentiometer. The housing 21 of the encoder according to the Invention is however tightly closed by the cover 24 and the implementation of the shaft 7 through the cover is z. B. tightly designed by a round cord ring 35 .

The bore 33 is a through hole through the wall 34 , so that here, too, the inserted end of the pin 32 is advantageously provided with a round cord ring 36 , which ensures a corresponding sealing device.

The cylindrical pin 32 has a longitudinal bore 38 which has an internal thread and opens into the interior of the housing 21 . The extreme end of the cylindrical pin has a slot 39 which allows the pin to be spread outward.

A screw 41 is screwed into the thread of the longitudinal bore 38 , its end protruding into the interior of the housing 21 and carrying the sliding member 28 there . By turning the screw 41 with the aid of a tool introduced into the longitudinal bore 38, the contacting 15 can now be moved on the resistance track 12 without the housing of the displacement sensor 2 or the housing of the fuel injection pump having to be opened. Instead of the sliding member 28 , a variable resistance of a different design can of course also be adjusted. In addition to this multiplicative adjustment with the help of the contact 15 , the described configuration can also be used for an additive adjustment, the assignment of the shaft 7 in the displacement direction x of the actuator being able to be changed. Here, the cylindrical pin 32 is displaced in the bore 33 and fixed in its desired position by screwing a screw 42 into the bore 38 , which has a conical head 43 and with this, when screwing the screw 42, the slotted end of the cylindrical pin spreads. To protect against contamination, the outer end of the through hole 33 can be closed ver with a cap 44 .

In order to prevent rotation of the housing 21 about a displacement of the housing about the axis of the cylindrical pin 32 , the housing is additionally z. B. guided by a pin 46 . This is preferable to a solution in which the pin is prismatic or has a guide groove, since there are larger sealing problems.

Claims (8)

1. displacement sensor for detecting positions of a linearly adjustable actuator of a fuel injection pump, with a movable actuator part ( 11 ) actuated by the actuator ( 1 ) and with a stationary transmitter part ( 12 ) which is arranged on a carrier ( 21 ), which in turn is on a wall ( 34 ) of the actuator ( 1 ) and the displacement sensor ( 2 ) receiving the housing, characterized in that the carrier ( 21 ) has a cylindrical pin ( 32 ) which receives the pin ( 32 ) in a , With its longitudinal axis in the adjustment direction of the actuator ( 1 ) aligned through hole ( 33 ) in the aforementioned wall ( 34 ) for setting a predetermined assignment of the fixed encoder part ( 12 ) to the actuator ( 1 ) coupled to the movable encoder part ( 11 ) slidably guided and in the set position by spreading on the pin ( 32 ) can be fixed, for which purpose in the pin ( 32 ) from its the outside of the go The end facing a slot ( 39 ) separating this end and a longitudinal bore ( 38 ) provided with an inner cone and a thread are introduced, and a screw ( 42 ) provided with a conical end section ( 43 ) can be screwed into the longitudinal bore ( 38 ). 2. Travel sensor according to claim 1, characterized in that the carrier ( 21 ) of the travel sensor ( 2 ) by a radial distance from the pin ( 32 ) attached, a longitudinal displacement of the carrier ( 21 ) permitting pin guide ( 46 ) is secured against rotation. 3. displacement sensor according to claim 1 or 2, characterized in that the displacement sensor is arranged in an at least partially filled with liquid space within the housing ( 34 ) and the pin in the through hole ( 33 ) is sealed to the outside. 4. Position sensor according to one of the preceding claims, characterized in that an adjusting device ( 41 , 28 , 15 ) is provided on the stationary part of the position sensor, through which a comparison of the signal emitted by the position sensor can be made and that the setting device through the longitudinal bore ( 38 ) can be actuated in the pin. 5. Position sensor according to claim 4, characterized in that the fixed sensor part has a on the carrier ( 21 ) arranged resistance path ( 12 ) which is at least part of a circuit between the poles of a voltage source switched resistance path and in contact with a grinder ( 11th ), which forms at least part of the movable encoder part and at which a voltage corresponding to the position of the actuator can be removed, and that a lever ( 10 ) carrying the grinder and the resistance path ( 12 ) are arranged in a liquid-tight encoder housing ( 21 ) are, the lever ( 10 ) sits on a shaft ( 7 ) which is tightly guided through a wall ( 24 ) of the encoder housing ( 21 ) and at the outer end has a Be actuating lever ( 4 ) which with the actuator ( 1 ) can be coupled. 6. Position sensor according to claim 5, characterized in that the effective total resistance of the resistance path (R _o , R _v , 12 , R _a ) can be changed by the adjusting device ( 28 , 15 ) on the position sensor. 7. Position sensor according to claim 6, characterized in that the adjusting device consists of a on the resistance track ( 12 ) adjustable grinder ( 15 ) which is one of the contacts limiting the effective resistance path. 8. Position sensor according to claim 7, characterized in that the longitudinal bore ( 38 ) in the cylindrical pin ( 32 ) is designed as a threaded bore in which a screw ( 41 ) can be rotated, the inside of the housing ( 21 ) projecting end with the grinder ( 15 ) is coupled.