KR102112637B1 - Assembly device for cam shaft - Google Patents

Abstract

The disclosure disclosed herein relates to the provision of a camshaft installed in an engine block and a stroke measuring device that accurately and quickly determines the normal position of the cam.
According to one embodiment of the content disclosed in the present specification, the stroke measuring device has a housing in which one end is formed in a cylindrical shape in which the inner space is open toward the bottom, and the other end is extended toward the top and then a portion of the rim is extended toward the outside. , A lifting unit including a jig disposed in the interior space and slidingly moving toward an upper or lower portion, and a sensor unit configured to insert a portion of the housing from the upper end of the housing into the interior space to detect the approaching jig, The housing is inserted toward the camshaft from the top of the engine block, and the lifting part is in close contact with the cam formed on the camshaft to raise or lower the jig according to the rotation of the cam.

Description

Stroke measuring device for marine engines {ASSEMBLY DEVICE FOR CAM SHAFT}

The disclosure disclosed herein relates to a stroke measuring device, and more particularly, to a stroke measuring device that determines whether a cam shaft is normally installed by detecting a jig rising or falling according to the rotation of the cam shaft.

Unless otherwise indicated herein, the content described in this section is not prior art to the claims of this application and is not admitted to be prior art by inclusion in this section.

In general, ship engines are relatively bulky compared to automobiles, so the camshaft is moved toward the engine block using a lift and the camshaft suspended from the lift is inserted into the engine block.

In addition, when the camshaft assembled to the engine block is misaligned, the fuel injection is poor and the engine is badly vibrated because the fuel injection and exhaust are not smoothly performed, and the output of the engine is deteriorated, thereby reducing the durability of the entire engine.

However, the engine used in the ship has a very high camshaft weight, and it is difficult to adjust the camshaft through simple operation. Therefore, the angle of the camshaft and the installation position of the camshaft must be accurately measured in advance.

In this regard, Korean Patent Publication No. 10-1221200 discloses a cam timing measuring device for a medium-speed diesel engine, and Korean Patent Publication No. 10-1708230 discloses an operation durability inspection device for each cam sensor and a test method thereof. have.

However, the existing inventions do not disclose the invention for quickly measuring the centering of the camshaft and the timing of the cam through a simple configuration.

Korean Registered Patent Publication No. 10-1221200 Korean Registered Patent Publication No. 10-1708230

It is to provide a stroke measuring device for accurately and quickly discriminating the camshaft installed on the engine block and the normal position of the cam.

In addition, it is obvious that other technical problems may be derived from the following description, not limited to the technical problems as described above.

According to one embodiment of the disclosed content, the stroke measuring device has a housing formed at one end with a cylindrical shape in which the inner space is open toward the bottom, and the other end extending toward the top and then extending a portion of the rim toward the outside. An elevation unit including a jig disposed in a space and slidingly moving toward an upper or lower portion, and a sensor unit configured to insert and insert a portion of the housing from the upper end of the housing into the inner space to detect the approaching jig. It is inserted toward the camshaft from the top of the engine block, and the lifting part is in close contact with the cam formed in the camshaft, and the jig is raised or lowered according to the rotation of the cam.

In addition, the elevating portion is formed in a cylindrical shape so that the ring connected to one end of the jig is movable up and down in the sliding space between the outer surface and the inner surface, and a cylindrical case and one end tightly coupled to the inner surface of the housing Silver may further include a spring formed in close contact with the ring and the other end extending toward the upper portion to be in close contact with the inner surface of the case corresponding to the upper portion of the sliding space.

In addition, further comprising an angle measuring unit for measuring the rotation angle of the cam shaft by engaging the flywheel coupled to the cam shaft from the outside of the engine block, the angle measuring unit is the cam shaft at the time when the sensor unit detects the jig The rotation angle of can be measured and compared with the rotation angle previously measured in a state where the camshaft is normally installed.

Also, the sensor unit may generate sound or light when the jig is sensed.

In addition, the elevating portion may further include a sliding portion formed in a container shape slidingly moving upward or downward while surrounding the jig inside the housing and a roller coupled to be detachable or attachable to the lower portion of the sliding portion. have.

In addition, the stroke measuring device may further include a spring formed to be in close contact with the upper surface of the sliding portion, and the other end extending toward the upper portion to be in close contact with the bottom surface of the protruding portion on the inner surface of the other end of the housing.

According to an embodiment disclosed in the present specification, the stroke measuring device has an advantage of easily determining whether or not the camshaft is normally installed by installing a jig-inserted elevator unit, a housing, and a sensor unit after installing the camshaft on the engine block. .

In addition, the stroke measuring device can conveniently measure the rising or falling distance of the jig through the proximity sensor that generates sound or light when the jig is sensed, and the angle measuring unit that measures the rotation angle of the camshaft.

In addition, since the effects of the present invention described above are naturally exerted by the composition of the contents regardless of whether the inventor recognizes them or not, the above-described effects are only a few effects according to the contents described, and all effects that the inventors grasp or exist. It should not be admitted that it is written.

In addition, the effects of the present invention will have to be further understood by the overall description of the specification, even if it is not described in an explicit sentence, those skilled in the art to which the described content belongs may have such an effect through this specification. If it can be recognized as an effect, it should be regarded as the effect described in this specification.

1 is a perspective view of a stroke measuring device according to an embodiment of the content disclosed herein.
Figure 2 is an exploded perspective view of the stroke measuring device of Figure 1;
3 is an exploded perspective view showing an example of another state of the stroke measuring apparatus of FIG. 1;
Figure 4 is a cross-sectional view showing the drive of the stroke measuring device by cutting along the line I-I 'of Figure 2
Figure 5 is a cross-sectional view showing the drive of the stroke measuring device by cutting along the line I-I 'of Figure 2
Figure 6 is a perspective view and a cross-sectional view of the housing of the stroke measuring device according to another embodiment of the content disclosed herein.

Hereinafter, the configuration, operation, and effect of the stroke measuring apparatus according to the preferred embodiment will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, and the size of each component does not reflect the actual size, and the same reference numerals refer to the same components throughout the specification. Reference numerals for the same components in the individual drawings will be omitted.

1 shows a perspective view of a stroke measuring device according to an embodiment of the content disclosed herein. FIG. 2 is an exploded perspective view of the stroke measuring device of FIG. 1. 3 is an exploded perspective view showing an example of another state of the stroke measuring apparatus of FIG. 1.

1 to 3, the stroke measuring device 100 includes a housing 200, a lifting unit 400, a sensor unit 600 and an angle measuring unit 800.

The stroke measuring device 100 is installed in the space where the engine plunger is inserted and measures the rotation angle of the camshaft 20 corresponding to a portion that rises as much as possible according to the rotation of the cam 22 formed in the camshaft 20. It can be determined whether the camshaft 20 is normally installed on the engine block 10.

The housing 200 is formed in a cylindrical shape with an inner space open toward the bottom and a portion of the rim extending toward the outside after extending toward the top, so that the bottom surface of the other end rim is the upper surface of the engine block 10 Is coupled to.

The lifting part 400 includes a case 420, a spring 430, a jig 440, and a roller 450.

The lifting part 400 is coupled to enable an elastic sliding movement from the inner space of the housing 200 toward the upper or lower side, and repeats the rising or falling periodically according to the rotation of the cam 22.

Specifically, the case 420 is formed in a cylindrical shape in close contact with the inner surface of the housing 200 in the lower portion of the inner space of the housing 200, the center is hollow so that one end of the jig 440 slides upward or downward 30 is formed.

Between the outer surface of the case 420 and the inner surface located in the hollow 30, a sliding space 422 extending in a cylindrical shape toward the upper and lower portions is formed, and a sliding space 422 on the inner surface of the case 420. And the sliding groove 424 of the elongated shape extending up and down to connect the hollow 30 is formed to face each other with the hollow 30 therebetween.

The jig 440 includes a ring 442.

One end of the jig 440 penetrates through the hollow 30 and extends toward the bottom to be in close contact with the outer surface of the cam 22 through the roller 450, and the other end extends by a predetermined distance toward the top, and then the case ( At the top of 420), the outer surface maintains an expanded cylindrical shape and extends toward the top.

One end of the ring 442 is coupled with the outer surface of the jig 440 on both sides of one end surface of the jig 440 inserted into the hollow 30, the other end is a sliding space 422 through the adjacent sliding groove 424 It is extended to and connected to each other in a ring shape surrounding one end of the jig 440 in the sliding space 422.

Therefore, the ring 442 is capable of sliding from the sliding space 422 toward the top or bottom according to the movement of the jig 440 upward or downward, and the sliding groove 424 can stably move up and down.

In addition, the ring 442 is guided to move up or down along the inner surface of the case 420 in the sliding space 422 so that the jig 440 inclines in one direction during the upper or lower movement of the jig 440. prevent.

  One end of the spring 430 is in close contact with the upper surface of the ring 442 in the interior of the sliding space 422, the other end is extended toward the top and in close contact with the case 420, the jig 440 moves toward the top When it is compressed, it generates elastic force toward the bottom.

Therefore, as one end of the jig 440 moves toward the upper or lower portion according to the rotation of the cam 22, it maintains a state in close contact with the outer surface of the cam 22, so the jig 440 according to the rotation angle of the cam 22 ) The rise or fall height will remain consistent.

On the other hand, both ends of the rotating shaft of the roller 450 are coupled to be rotatable with supports extending from the bottom surface of the jig 440 toward the bottom, and torsion sensors in the form of plates are coupled to each of the supports, It is possible to detect a state in which the roller 450 is in close contact with the nose 23 formed at the deflected position of the cam 22.

For example, when the roller 450 is in close contact with the inclined surfaces on both sides of the nose 23, the measured value of the torsion sensor is measured because the inclined surface presses the roller 450 and the force to raise the jig 440 is relatively strong. When the roller 450 is relatively high and the contact value of the torsion sensor is relatively low when the roller 450 is in close contact with the nose 23, it is possible to detect the moment when the roller 450 is in close contact with the nose 23.

The sensor unit 600 is formed such that a portion of one end is inserted into the inner space of the housing 200 from the other end of the housing 200 and the other end extends toward an upper part spaced apart from the housing 200.

The sensor unit 600 detects that the other end of the jig 440 rising or falling in the interior space of the housing 200 through the proximity sensor reaches an adjacent position, and is connected to the sensor unit 600 through the detected signal. The speaker 900 or the lighting 920 is driven to emit sound or light.

Through the speaker 900 or the light 920 connected to the sensor unit 600, the operator can grasp that the jig 440 is in an elevated state, and through the continuous rotation of the camshaft 20, the jig 440 is reciprocated. It is possible to grasp the rotation angle of the camshaft 20 accordingly.

The angle measurement unit 800 is exposed to the outside of the engine block 10 and is formed to engage the flywheel 30 coupled with the camshaft 20 to measure the rotation angle of the camshaft 20.

The angle measurement unit 800 measures the rotation angle of the gear meshed on one side of the flywheel 30, and is connected to the sensor unit 600 and generated by the sensor unit 600 while the camshaft 20 continuously rotates. Through the rotation angle of the camshaft 20 rotated between the detected signals, it is possible to grasp the rotation angle during the jig 440 rising or falling.

For example, if the rotation angle of the camshaft 20 rotated between the detection signals generated by the sensor unit 600 is divided in half, the rising or falling distance of the jig 440 may be measured.

 In addition, if the measured rotation angle is similar to each other by comparing the rotation angle measured while the camshaft 20 is normally installed in the engine block 10, it is possible to determine whether or not the camshaft 20 is normally installed.

4 is a cross-sectional view showing the operation of the stroke measuring device by cutting along the line I-I 'of Figure 2; 5 is a cross-sectional view showing the operation of the stroke measuring device cut along the line I-I 'of FIG.

4 and 5, with the nose 23 of the cam 22 positioned toward the bottom, the roller 450 and the jig 440 are disposed at a relatively lower position, and the spring 430 is relaxed Is disposed in the sliding space 422.

At this time, the other end of the jig 440 and one end bottom surface of the sensor unit 600 are arranged to be spaced apart by a relatively high distance, and the sensor unit 600 is mounted on a plate-shaped mount placed on the other end of the housing 200. .

When the nose 23 is in close contact with the roller 450 by the rotation of the camshaft 20, the roller 450 and the jig 440 move toward the upper portion, and the spring 430 rotates the sliding space 422. It is disposed in a compressed state between 442 and case 420.

At this time, the other end of the jig 440 and the one end bottom surface of the sensor unit 600 are separated by a relatively low distance, and the sensor unit 600 has at least a state in which the camshaft 20 is normally coupled to the engine block 10. When the jig 440 reaches the range of the normal position 55 or higher, the detection signal of the jig 440 is generated.

 Therefore, the operator of the camshaft 20 is installed in the engine block 10, the installation position 50 and the jig 440 of the jig 440 in a state where the nose 23 is positioned toward the lower side The rotation angle of the camshaft 20 corresponding between the measurement positions 52 may be measured through the angle measurement unit 800.

In addition, the camshaft measured while the jig 440 moves up and down between the installation position 50 and the normal position 55 while the camshaft 20 is normally installed is the rotation angle of the measured camshaft 20. Compared to the rotation angle of 20), it is possible to conveniently determine whether or not the camshaft 20 is normally installed.

6 is a perspective view and a cross-sectional view of the housing of the stroke measuring device according to another embodiment of the content disclosed herein.

Since the stroke measuring device 120 according to the present embodiment is substantially the same as the stroke measuring device 120 of FIGS. 1 to 5, except for the housing 300, the height adjusting part 500, and the lifting part 700, The same reference number and name are used and duplicate description is omitted.

As shown in FIG. 6, the stroke measuring device 120 includes a housing 300, a height adjusting part 500, and a lifting part 700.

One end of the housing 300 is formed in a cylindrical shape in which the inner space is open toward the bottom, and the other end is formed so that a portion of the rim extends toward the outside after extending toward the top, and the inner surface of the rim is also moved toward the inside by a predetermined distance. It is extended to form a ring-shaped protrusion.

The height adjustment unit 500 includes a motor 510, a gear 520, a rack gear 530, and a lifting plate 540.

The height adjustment unit 500 is disposed on the upper portion of the engine block 10 at a position adjacent to the sensor unit 600, and a portion capable of moving up and down is combined with the sensor unit 600 to control the sensor unit 600 through operator control. ) Is adjustable.

The motor 510 is formed in front of one side of the sensor unit 600, and the drive shaft extends toward one side of the sensor unit 600, and the gear 520 is disposed so that the threaded outer side faces the sensor unit 600. Combined.

The lag gear 530 is disposed between the gear 520 and the sensor unit 600, and the threads formed on one side engage with the gear 520 and slide toward the upper or lower side according to the driving of the motor 510.

The lifting plate 540 is formed to surround a portion of the edge of the upper surface of the other end of the housing 300 in an arc shape, and the bottom surface of the nut protruding to the outside of the sensor unit 600 is in close contact with the upper surface of the lifting plate 540 It is mounted on the upper portion of the lifting plate (540).

The lifting plate 540 is coupled to the other side of the lag gear 530, and when the gear 520 rotates by the normal rotation driving of the motor 510, the lek gear 530 and the lifting plate 540 rise, and the motor The lek gear 530 and the lifting plate 540 descend by the reverse rotation driving of 510.

Accordingly, the operator is easy to adjust the sensing distance of the sensor unit 600 through the driving of the height adjustment unit 500, and accurately elevates the lift plate 540 connected through the gear 520 and the lag gear 530. Alternatively, it is possible to precisely adjust the sensing distance of the sensor unit 600 by descending.

The lifting part 700 includes a sliding part 710, a spring 720, and a jig 730.

The sliding part 710 has one end formed in a circular plate shape in which the inner surface and the outer surface of the housing 300 are in close contact with the upper part of the roller 450, and the other end has a portion of one end of the inner surface of the housing 300. It is in close contact with and extends toward the top and is formed in a container shape in which the inner space is opened toward the top.

The other end of the sliding portion 710 is extended to be spaced a predetermined distance from the other edge of the housing 300, and is disposed to be able to slide upward or downward in the inner space of the housing 300.

One end of the spring 720 is in close contact with the other end edge of the sliding portion 710, the other end is extended toward the top and is in close contact with the bottom surface of the protrusion formed on the inner surface of the other end of the housing 300.

The jig 730 is inserted into and fixed in the inner space of the sliding part 710, and when the roller 450 moves toward the upper part by the rotation of the cam 22, the sliding part 710 and the jig 730 move the upper part. The spring 720 is compressed while moving toward it.

When the nose 23 of the cam 22 descends due to the continuous rotation of the cam 22, the sliding portion 710 and the jig 730 descend by the elastic force of the spring 720, and the roller 450 moves the cam 22 ) And descends in close contact with the outer surface.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but the embodiments described in the specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and represent all technical spirits of the present invention. It should be understood that there may be various equivalents and modifications that can replace them at the time of application. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and ranges of the claims It should be construed that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

100, 120: stroke measuring device
200, 300: housing 400, 700: lift
500: height adjustment unit 600: sensor unit
800: angle measuring unit

Claims (6)

One end is formed in a cylindrical shape in which the inner space is opened toward the bottom, the other end is extended toward the top, and then a portion of the rim is extended toward the outside;
A jig disposed in the interior space and slidingly moving toward the top or bottom, formed in a cylindrical shape, and the ring connected to one end of the jig in the sliding space between the outer surface and the inner surface is disposed to be movable up and down, and of the housing Cylindrical case tightly coupled to the inner surface, one end in the sliding space is in close contact with the ring and the other end is extended toward the upper side of the spring corresponding to the upper side of the sliding space and the bottom surface of the jig A lifting unit including; a roller coupled to be rotatable with supports extending toward the lower portion;
A sensor unit configured to form a nut on the outside from the other end of the housing, and partially disposed to be inserted into the interior space to sense the jig approaching; And
The motor formed on the upper portion of the housing, a gear coupled to the drive shaft of the motor, a lag gear connected to the gear and slidingly moved upward or downward according to the rotation of the gear, and between the other end of the housing and the nut Includes; a height adjustment portion formed to surround a portion of the edge of the upper surface of the other end of the housing in an arc shape and includes a lift plate coupled with the lag gear;
The housing is inserted toward the camshaft from the top of the engine block, the lifting part is in close contact with the cam formed on the camshaft to raise or lower the jig according to the rotation of the cam,
A twist sensor is coupled to each of the supports, and when the roller is in close contact with the inclined surfaces on both sides of the nose formed in the cam, the measured value is relatively high by the force to raise the jig, and when the roller is in close contact with the nose, the Stroke measuring device, characterized in that for detecting that the roller is in close contact with the nose through a relatively low measurement value.
delete According to claim 1,
Further comprising; an angle measurement unit for measuring the rotation angle of the cam shaft by engaging a flywheel coupled to the cam shaft from the outside of the engine block;
The angle measurement unit measures the rotation angle of the camshaft at the time when the sensor unit senses the jig, and compares the previously measured rotation angle with the camshaft installed normally.
According to claim 3, The sensor unit,
Stroke measuring device, characterized in that for generating the sound or light when detecting the jig.


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