CN112393709A - Detection method of roughness detection system of cast aluminum disc for automobile - Google Patents

Abstract

The invention relates to a detection method of a roughness detection system of an automobile cast aluminum disc. The roughness detecting system of cast aluminum disc for car includes locating component and determine module, locating component includes positioning bottom plate and locating rack, positioning bottom plate is fixed in subaerially, the locating rack is fixed in aslope on the positioning bottom plate, be formed with the screens space on the locating rack, the screens space is used for the card to hold cast aluminum disc for car, determine module includes mounting bracket, revolving cylinder, lift cylinder, supports and holds piece and sensor, the protruding one side of locating the mounting bracket, revolving cylinder install in on the mounting bracket, support and hold the piece connect in on the lift cylinder to support hold in on the global of cast aluminum disc for car. The roughness detection system of the cast aluminum disc for the automobile is convenient to use.

Description

Detection method of roughness detection system of cast aluminum disc for automobile

Technical Field

The invention relates to a detection method of a roughness detection system of an automobile cast aluminum disc.

Background

Surface roughness is typically caused by the machining method used and other factors, such as friction between the tool and the surface of the part during machining, plastic deformation of the surface layer metal during chip separation, and high frequency vibrations in the process system. For roughness inspection of workpieces, such as cast aluminum disc workpieces for automobiles, precision instruments are generally used for inspection. However, the detection process of the precision instrument has many steps and is complicated, and the product which does not need precise detection is inconvenient to use.

Disclosure of Invention

Therefore, a detection method of the roughness detection system of the cast aluminum disc for the automobile, which is convenient to use, is needed.

The roughness detection system for the cast aluminum disc for the automobile comprises a positioning component and a detection component, wherein the positioning component comprises a positioning bottom plate and a positioning frame, the positioning bottom plate is fixed on the ground, the positioning frame is obliquely fixed on the positioning bottom plate, a clamping space is formed on the positioning frame and used for clamping the cast aluminum disc for the automobile, the detection component comprises a mounting frame, a rotary cylinder, a lifting cylinder, a supporting block and a sensor, the mounting frame is convexly arranged on one side of the positioning frame, the rotary cylinder is arranged on the mounting frame, the lifting cylinder is connected with the rotary cylinder, the supporting block is connected to the lifting cylinder and is supported on the peripheral surface of the cast aluminum disc for the automobile, the sensor is arranged on the supporting block, and the sensor is used for sensing the resistance of the supporting block to move along the peripheral surface of the cast aluminum disc for the automobile, so as to judge whether the roughness of the cast aluminum disc for the automobile is qualified.

In one embodiment, the positioning bottom plate is rectangular plate-shaped, the positioning frame is rectangular frame-shaped, and an included angle between the positioning frame and the positioning bottom plate is 15-45 degrees.

In one embodiment, a baffle is convexly arranged at one end of the positioning frame, which is connected with the positioning bottom plate, and is used for baffle the cast aluminum disc for the automobile, one side of the positioning frame is a smooth edge, and the other side of the positioning frame is provided with two mounting blocks.

In one embodiment, the cast aluminum disc for the automobile is provided with a plurality of pin holes, and the pin holes form a circle around the pin holes.

In one embodiment, the bottom of the positioning frame is provided with a plurality of hollow through grooves, the positioning assembly further comprises two positioning cylinders, and the two positioning cylinders are arranged on the positioning bottom plate at intervals.

In one embodiment, the output shafts of the two positioning cylinders are inserted into two of the hollow through grooves and two of the pin holes.

In one embodiment, an ejection space is formed between the two mounting blocks, and one of the mounting blocks is fixedly connected with the end of the baffle plate.

In one embodiment, the mounting bracket comprises two vertical rods, a cross rod and two support rods, the two vertical rods are respectively convexly arranged on the two mounting blocks, the two opposite ends of the cross rod are respectively and vertically connected to the top ends of the two vertical rods, and the two support rods are respectively and convexly arranged on the top ends of the two vertical rods.

In one embodiment, the ends of the two support rods far away from the two vertical rods are fixed to each other, the two support rods and the cross rod form a triangular frame, and the rotary cylinder is mounted on the triangular frame.

The detection method of the roughness detection system of the cast aluminum disc for the automobile comprises the following steps:

positioning the cast aluminum disc for the automobile on the positioning frame;

the output shafts of the two positioning cylinders penetrate through the two hollowed through grooves and are inserted into the two pin holes of the cast aluminum disc for the automobile so as to position the cast aluminum disc for the automobile;

the lifting cylinder drives the abutting block to descend so that the abutting block abuts against the circumferential surface of the cast aluminum disc for the automobile; and

the rotating cylinder drives the lifting cylinder to rotate so as to enable the abutting block to overcome the friction resistance of the circumferential surface of the automobile cast aluminum disc to move, and the sensor is used for sensing the resistance of the abutting block to move along the circumferential surface of the automobile cast aluminum disc so as to judge whether the roughness of the automobile cast aluminum disc is qualified.

When the roughness detection system of the cast aluminum disc for the automobile is used, the cast aluminum disc for the automobile is positioned on the positioning frame; the lifting cylinder drives the abutting block to descend so that the abutting block abuts against the circumferential surface of the cast aluminum disc for the automobile. The rotating cylinder drives the lifting cylinder to rotate so as to enable the abutting block to overcome the friction resistance of the circumferential surface of the automobile cast aluminum disc to move, and the sensor is used for sensing the resistance of the abutting block to move along the circumferential surface of the automobile cast aluminum disc so as to judge whether the roughness of the automobile cast aluminum disc is qualified. In the detection system, the moving resistance of the abutting block along the wrinkle peripheral surface of the cast aluminum disc for the automobile is simply sensed, so that whether the roughness of the peripheral surface of the cast aluminum disc for the automobile is unqualified due to overlarge roughness can be judged, and the roughness detection system of the cast aluminum disc for the automobile is convenient to use.

Drawings

Fig. 1 is a schematic perspective view of a roughness detecting system for an automotive cast aluminum disk according to an embodiment.

Fig. 2 is a perspective view of another view of the roughness detecting system for the cast aluminum disk for the automobile shown in fig. 1.

Fig. 3 is a perspective view of another view of the roughness detecting system for the cast aluminum disk for the automobile shown in fig. 1.

Fig. 4 is a partially enlarged view of a portion a in fig. 1.

Fig. 5 is a partially enlarged view of fig. 3 at B.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a roughness detection system and a roughness detection method for an automobile cast aluminum disc. For example, the roughness detecting system of the cast aluminum disc for the automobile comprises a positioning assembly and a detecting assembly, wherein the positioning assembly comprises a positioning bottom plate and a positioning frame, the positioning bottom plate is fixed on the ground, and the positioning frame is obliquely fixed on the positioning bottom plate. For example, be formed with the screens space on the locating rack, the screens space is used for the card to hold the automobile cast aluminium disc, determine module includes mounting bracket, revolving cylinder, lift cylinder, supports and holds piece and sensor, the protruding locating of mounting bracket one side of locating rack, revolving cylinder install in on the mounting bracket. For example, the lifting cylinder is connected with the rotating cylinder, the abutting block is connected to the lifting cylinder and abuts against the circumferential surface of the cast aluminum disc for the automobile, and the sensor is mounted on the abutting block. For example, the sensor is used for sensing the resistance of the abutting block moving along the circumferential surface of the cast aluminum disc for the automobile so as to judge whether the roughness of the cast aluminum disc for the automobile is qualified.

Referring to fig. 1 to 5, a roughness detecting system for an automobile cast aluminum disc includes a positioning assembly 10 and a detecting assembly 20, where the positioning assembly 10 includes a positioning bottom plate 11 and a positioning frame 12, the positioning bottom plate 11 is fixed on the ground, the positioning frame 12 is obliquely fixed on the positioning bottom plate 11, a clamping space is formed on the positioning frame 12, the clamping space is used for clamping the automobile cast aluminum disc 100, the detecting assembly 20 includes an installation frame 21, a rotary cylinder 22, a lifting cylinder 23, a holding block 24 and a sensor, the installation frame 21 is convexly disposed on one side of the positioning frame 12, the rotary cylinder 22 is installed on the installation frame 21, the lifting cylinder 23 is connected with the rotary cylinder 22, the holding block 24 is connected to the lifting cylinder 23 and is held on the circumferential surface of the automobile cast aluminum disc 100, the sensor is mounted on the abutting block 24, and the sensor is used for sensing the resistance of the abutting block 24 moving along the circumferential surface of the cast aluminum disc 100 for the automobile so as to judge whether the roughness of the cast aluminum disc 100 for the automobile is qualified. The roughness detection system of the cast aluminum disc for the automobile is used for detecting the roughness of the cast aluminum disc for the automobile and ensuring that the roughness of the cast aluminum disc is within a certain range.

For example, when the roughness detecting system for the cast aluminum disc for the automobile is used, the cast aluminum disc 100 for the automobile is positioned on the positioning frame 12; the lifting cylinder 23 drives the abutting block 24 to descend so that the abutting block 24 abuts against the circumferential surface of the cast aluminum disc 100 for the automobile. The rotating cylinder 22 drives the lifting cylinder 23 to rotate, so that the abutting block 24 moves by overcoming the frictional resistance of the circumferential surface of the cast aluminum disc 100 for the automobile, and the sensor is used for sensing the resistance of the abutting block 24 moving along the circumferential surface of the cast aluminum disc 100 for the automobile so as to judge whether the roughness of the cast aluminum disc 100 for the automobile is qualified. In the detection system, the moving resistance of the abutting block 24 along the wrinkled peripheral surface of the cast aluminum disc 100 for the automobile is simply sensed, so that whether the roughness of the peripheral surface of the cast aluminum disc 100 for the automobile is unqualified due to overlarge roughness can be judged, and the roughness detection system of the cast aluminum disc for the automobile is convenient to use.

For example, in order to fix the cast aluminum disc 100 for an automobile, the positioning bottom plate 11 is rectangular plate-shaped, the positioning frame 12 is rectangular frame-shaped, and an included angle between the positioning frame 12 and the positioning bottom plate 11 is 15 to 45 degrees. The locating rack 12 with the protruding fender that is equipped with of one end that the locating bottom plate 11 is connected establishes board 121, keep off and establish board 121 and be used for keeping off and establish the location cast aluminium disc 100 for the car, one side of locating rack 12 is smooth edge, and the opposite side is provided with two installation pieces 122. The cast aluminum disc 100 for the automobile is provided with a plurality of pin holes 101, and the plurality of pin holes 101 form a circle around. A plurality of hollow through grooves 123 are formed in the bottom of the positioning frame 12, the positioning assembly 10 further comprises two positioning cylinders 14, and the two positioning cylinders 14 are mounted on the positioning bottom plate 11 at intervals. The output shafts of the two positioning cylinders 14 penetrate through the two hollow through grooves 123 and are inserted into the two pin holes 101. By installing the two positioning cylinders 14, the two positioning cylinders 14 can be conveniently inserted into the two pin holes 101, so that the cast aluminum disc 100 for the automobile cannot rotate under the abutting of the abutting block 24.

For example, in order to facilitate the installation of the rotary cylinder 22, an ejection space is formed between the two mounting blocks 122, wherein one of the mounting blocks 122 is fixedly connected to an end of the baffle plate 121. The mounting bracket 21 includes two vertical rods 211, a cross bar 212 and two support bars 213, two vertical rods 211 are protruding respectively and are located on two installation blocks 122, the relative both ends of cross bar 212 connect perpendicularly respectively in the top of two vertical rods 211, two support bars 213 are protruding respectively and are located the top of two vertical rods 211. The ends, far away from the two vertical rods 211, of the two support rods 213 are fixed to each other, the two support rods 213 and the cross rod 212 form a triangular frame, and the rotary cylinder 22 is installed on the triangular frame. By forming the triangular frame, the installation of the rotary cylinder 22 is further facilitated.

For example, the invention also provides a detection method of the roughness detection system of the cast aluminum disc for the automobile. The detection method comprises the following steps:

firstly, positioning the cast aluminum disc 100 for the automobile on the positioning frame 12;

step two, the output shafts of the two positioning cylinders 14 penetrate through the two hollow through grooves 123 and are inserted into the two pin holes 101 of the cast aluminum disc 100 for the automobile so as to position the cast aluminum disc 100 for the automobile;

thirdly, the lifting cylinder 23 drives the abutting block 24 to descend so that the abutting block 24 abuts against the circumferential surface of the cast aluminum disc 100 for the automobile; and

and fourthly, the rotating cylinder 22 drives the lifting cylinder 23 to rotate so as to enable the abutting block 24 to overcome the frictional resistance of the circumferential surface of the cast aluminum disc 100 for the automobile to move, and the sensor is used for sensing the resistance of the abutting block 24 moving along the circumferential surface of the cast aluminum disc 100 for the automobile so as to judge whether the roughness of the cast aluminum disc 100 for the automobile is qualified.

In the detection method, the moving resistance of the abutting block 24 along the wrinkled peripheral surface of the cast aluminum disc 100 for the automobile is simply sensed, so that whether the roughness of the peripheral surface of the cast aluminum disc 100 for the automobile is unqualified due to overlarge roughness can be judged, and the roughness detection system of the cast aluminum disc for the automobile is convenient to use. The positioning frame 12 is disposed obliquely, so that the cast aluminum disc 100 for the automobile can conveniently slide into the clamping space by means of self gravity, and positioning can be achieved.

For example, it is particularly important that the cast aluminum disc 100 for an automobile is formed with an organic cambered surface on one side, a cambered surface formed by machining, and a cast cambered surface on the other side. The roughness detection system of the cast aluminum disc for the automobile is used for detecting the roughness of the machined cambered surface, and one side, far away from the machined cambered surface, of the cast aluminum disc 100 for the automobile is abutted against the baffle plate 121. In order to facilitate timely pushing the cast aluminum disc in the automobile out of the positioning frame 12 after the detection is finished, the roughness detection system of the cast aluminum disc for the automobile further comprises an ejection assembly 40, the ejection assembly 40 comprises a connecting cross rod 41, a flexible rod 42 and a potential energy wedge block 43, the connecting cross rod 41 is transversely fixed on an output shaft of the rotating cylinder 22, the lifting cylinder 23 is installed at the end part of the connecting cross rod 41, the flexible rod 42 is coaxially fixed on the output shaft of the lifting cylinder 23, and the abutting block 24 is connected to the bottom end of the flexible rod 42. The potential energy wedge 43 is arranged on the positioning frame 12 in a protruding mode and is located in the ejecting space. Opposite ends of the potential energy wedge 43 are respectively provided with a lead-in notch 431 and an elastic notch 432, and the elastic notch 432 is adjacent to the blocking plate 121. One end of the potential energy wedge 43 is formed with a wedge-shaped tip, the wedge-shaped tip is located in the introduction notch 431, the thickness of the wedge-shaped tip gradually decreases in a direction toward the tip of the wedge-shaped tip, a side surface of the wedge-shaped tip is attached to the circumferential surface of the cast aluminum disc 100 for the automobile, an inclined guide surface 4315 is formed on a side of the wedge-shaped tip away from the cast aluminum disc 100 for the automobile, a distance between the inclined guide surface 4315 and the center of the cast aluminum disc 100 for the automobile gradually increases in a direction toward the elastic notch 432, the inclined guide surface 4315 is used for guiding the abutting block 24 to separate from the circumferential surface of the cast aluminum disc 100 for the automobile, the abutting block 24 moves along the inclined guide surface 4315 to increase the potential energy of the flexible rod 42, the two positioning cylinders 14 contract to release the cast aluminum disc 100 for the automobile, and the flexible rod 42 forces the abutting block 24 to enter the elastic notch from the other end of the potential energy wedge 43 432, the holding block 24 holds the cast aluminum disc 100 for the automobile to separate from the positioning frame 12 from the smooth edge of the positioning frame 12, so as to enter the next station. For example, by setting the length of the connecting cross bar 41, the range of frictional resistance between the holding block 24 and the circumferential surface of the qualified cast aluminum disc 100 for an automobile can be controlled.

For example, in order to facilitate the sliding of the holding block 24, the ejecting assembly 40 further includes a toggle frame 44, the toggle frame 44 includes a connecting rod 441 and a toggle rod 442, the connecting rod 441 is transversely connected to the output shaft of the rotary cylinder 22, the length of the connecting rod 441 is smaller than the diameter of the cast aluminum disc 100 for the automobile, and an included angle of 170 degrees is formed between the connecting rod 441 and the connecting cross rod 41. The top end of the driving lever 442 is vertically fixed to the end of the connecting rod 441, the driving lever 442 extends toward the cast aluminum disc 100 for an automobile, and the bottom end of the driving lever 442 is adjacent to the surface of the cast aluminum disc 100 for an automobile. For example, the roughness detecting system for the cast aluminum disc for the automobile further includes a retaining assembly 50, where the retaining assembly 50 includes a retaining body 51, a toggle plate 52 and a torsion spring, the retaining body 51 is disposed on the smooth edge and extends along the smooth edge, and an end of the retaining body 51 is connected to one end of the retaining plate 121 far away from the mounting block 122 through the torsion spring. The top of the retaining body 51 is formed with a guide slope 515, and the guide slope 515 faces outward. For example, one end of the dial plate 52 is fixed to one end of the blocking body 51 adjacent to the blocking plate 121, and an included angle of 40 to 60 degrees is formed between the dial plate 52 and the blocking body 51. The poking plate 52 extends to the surface of the cast aluminum disc 100 for the automobile, and the bottom edge of the poking plate 52 and the surface of the cast aluminum disc 100 for the automobile are arranged at intervals. The lifting cylinder 23 is configured to drive the flexible rod 42 to drive the abutting block 24 to move downward along the guiding inclined plane 515, so that the abutting block 24 abuts against the outer side surface of the retaining body 51, and the flexible rod 42 is driven by the rotating cylinder 22 to separate from the retaining body 51 and abut against the circumferential surface of the cast aluminum disc 100 for the automobile.

For example, in the detection method of the roughness detection system for the cast aluminum disc for the automobile, after the fourth step, the detection method further includes an ejecting step, where the ejecting step specifically includes:

the rotating cylinder 22 drives the shift lever 442 to shift the shift plate 52, so as to force the shift plate 52 to drive the retainer 51 to turn towards the outside of the positioning frame 12, thereby exposing the smooth edge;

the inclined guide surface 4315 of the potential energy wedge 43 guides the holding block 24 to be separated from the peripheral surface of the cast aluminum disc 100 for the automobile, the holding block 24 moves along the inclined guide surface 4315 to increase the potential energy of the flexible rod 42, and the two positioning cylinders 14 contract to release the cast aluminum disc 100 for the automobile;

the flexible rod 42 forces the abutting block 24 to enter the elastic notch 432 from the other end of the potential energy wedge 43 by using the elastic restoring force of the flexible rod, and the abutting block 24 abuts against the cast aluminum disc 100 for the automobile to separate from the positioning frame 12 from the smooth edge of the positioning frame 12; i.e. from below the bottom edge of the toggle plate 52.

The lifting cylinder 23 drives the holding block 24 to ascend, the driving rod 442 disengages from the holding assembly 50 to reset the holding assembly 50, and when the holding block 24 reaches above the holding body 51, the lifting cylinder 23 drives the holding block 24 to descend to reach the side surface of the holding body 51 under the guidance of the guide inclined surface 515, so that the next cast aluminum disc 100 for the automobile can be detected.

By arranging the ejecting assembly 40, the shifting lever 442 and the retaining assembly 50, the cast aluminum disc 100 for the automobile can be ejected out of the positioning frame 12 by using the ejecting assembly 40, and the shifting lever 442 can timely shift the retaining assembly 50 to release the smooth edge before ejection, so as to facilitate ejection of the cast aluminum disc 100 for the automobile. And when the automobile cast aluminum disc 100 is detected, the retaining assembly 50 can retain the automobile cast aluminum disc 100. Therefore, the three parts are mutually matched, so that the two-purpose effect can be achieved, and the cast aluminum disc 100 for the automobile can be conveniently pushed into the next station.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The detection method of the roughness detection system of the cast aluminum disc for the automobile is characterized by comprising the following steps of:

positioning an automobile cast aluminum disc on a positioning frame;

the output shafts of the two positioning cylinders penetrate through the two hollow through grooves and are inserted into the two pin holes of the cast aluminum disc for the automobile so as to position the cast aluminum disc for the automobile;

the lifting cylinder drives the abutting block to descend so that the abutting block abuts against the circumferential surface of the cast aluminum disc for the automobile;

the rotating cylinder drives the lifting cylinder to rotate so as to enable the abutting block to overcome the frictional resistance of the circumferential surface of the automobile cast aluminum disc to move, and the sensor is used for sensing the resistance of the abutting block moving along the circumferential surface of the automobile cast aluminum disc so as to judge whether the roughness of the automobile cast aluminum disc is qualified or not; and

and (5) an ejection step.

2. The method for detecting the roughness detection system of the cast aluminum disc for the automobile as claimed in claim 1, wherein the ejecting step comprises:

the rotating cylinder drives the shifting lever to shift the shifting plate, so that the shifting plate drives the retaining body to turn towards the outer side of the positioning frame to expose the smooth edge; and

the inclined guide surface of the potential energy wedge block guides the abutting block to be separated from the peripheral surface of the automobile cast aluminum disc, the abutting block moves along the inclined guide surface to increase the potential energy of the flexible rod, and the two positioning cylinders contract to release the automobile cast aluminum disc.

3. The method for detecting the roughness detection system of the cast aluminum disc for the automobile as claimed in claim 2, wherein the ejecting step further comprises:

the flexible rod forces the abutting block to enter the elastic notch from the other end of the potential energy wedge block by utilizing the self elastic restoring force, and the abutting block abuts against the automobile cast aluminum disc to separate from the positioning frame from the smooth edge of the positioning frame; i.e., from below the bottom edge of the toggle plate.

4. The method for detecting the roughness detection system of the cast aluminum disc for the automobile as claimed in claim 3, wherein the ejecting step further comprises:

the lifting cylinder drives the abutting block to ascend, the shifting rod is separated from the abutting assembly to enable the abutting assembly to reset, and when the abutting block reaches the position above the abutting body, the lifting cylinder drives the abutting block to descend to reach the side face of the abutting body under the guidance of the guide inclined face, so that the next cast aluminum disc for the automobile can be detected.

5. The detecting method of the roughness detecting system of the cast aluminum disc for the automobile as claimed in claim 4, wherein one side of the cast aluminum disc for the automobile is formed with an organic cambered surface which is a cambered surface formed by machining, and the other side is a cast cambered surface.

6. The method for detecting the roughness of the cast aluminum disc for the automobile as claimed in claim 5, wherein the roughness detection system of the cast aluminum disc for the automobile is used for detecting the roughness of the machined cambered surface, and one side of the cast aluminum disc for the automobile, which is far away from the machined cambered surface, is abutted against the baffle plate.

7. The method for detecting the roughness of the cast aluminum disc for the automobile as claimed in claim 6, wherein the roughness detection system of the cast aluminum disc for the automobile further comprises an ejecting assembly, the ejecting assembly comprises a connecting cross rod, a flexible rod and a potential energy wedge block, and the connecting cross rod is transversely fixed on an output shaft of the rotary cylinder.

8. The detecting method of the roughness detecting system of the cast aluminum disc for the automobile as claimed in claim 7, wherein the elevating cylinder is installed at an end of the connecting cross bar, and the flexible bar is coaxially fixed on an output shaft of the elevating cylinder.

Images