CN220690056U - Workpiece position degree detection device - Google Patents

Abstract

The utility model discloses a workpiece position degree detection device, which comprises a workpiece, a position degree pressing mechanism arranged on a platform, a position degree detection mechanism arranged on the position degree pressing mechanism, and a propelling mechanism opposite to the position of the position degree pressing mechanism; the upper end of the workpiece is provided with an upper cylinder protruding upwards, and the lower end of the workpiece is provided with two groups of lower cylinders extending downwards; the position degree pushing mechanism comprises a pushing support frame arranged on the platform, a pushing driving cylinder arranged at the upper end of the pushing support frame, a pushing transmission plate fixed on an output shaft of the pushing driving cylinder, a pushing fixing piece fixed at the lower part of the pushing transmission plate, and a hollow detection column arranged at the lower end of the pushing fixing piece and matched with the upper cylinder; the upper cylinder is embedded into the lower end of the hollow detection column. The utility model can automatically detect the position of the workpiece, feed back the condition of the workpiece to the external control mechanism, reduce the increase of subsequent defective products and further improve the production efficiency.

Description

Workpiece position degree detection device

Technical Field

The utility model relates to the field of precision machining machinery, in particular to a workpiece position degree detection device.

Background

In the production of precision instruments, high precision is often required for various size numerical values of workpieces so as to meet the production requirements of precision machinery. If the size value of the workpiece is larger than the standard value, the error of the finished product instrument produced later is larger, and the problem is easy to occur. In normal industrial production, the workpiece is detected in a position degree by using a visual detection method of a processor, the detection mode has certain artificial uncertainty, the observed position degree is low in accuracy, certain errors are brought to production and processing, the probability of forming defective products is high, and a certain time is required for visual alignment and alignment of human eyes, so that the overall production efficiency is low.

Disclosure of Invention

In view of the above-mentioned shortcomings, an object of the present utility model is to provide a workpiece position detecting device, which can automatically detect the position of a workpiece and feed back the workpiece to an external control mechanism, thereby reducing the increase of defective products and further improving the production efficiency.

The technical scheme adopted by the utility model for achieving the purpose is as follows:

the workpiece position degree detection device comprises at least one workpiece, a position degree pressing mechanism arranged on a platform, a position degree detection mechanism arranged on the position degree pressing mechanism, and a propelling mechanism arranged on the platform and right opposite to the position of the position degree pressing mechanism; an upper cylinder protruding upwards is formed at the upper end of the workpiece, and two groups of lower cylinders extending downwards are formed at the lower end of the workpiece; the position degree pushing mechanism comprises a pushing support frame arranged on the platform, a pushing driving cylinder arranged at the upper end of the pushing support frame, a pushing transmission plate fixed on an output shaft of the pushing driving cylinder, a pushing fixing piece fixed at the lower part of the pushing transmission plate, and a hollow detection column arranged at the lower end of the pushing fixing piece and matched with the upper column; the upper cylinder is embedded into the lower end of the hollow detection column.

Further, the device also comprises a downward-pressing limiting mechanism arranged between the downward-pressing transmission plate and the downward-pressing supporting frame, wherein the downward-pressing limiting mechanism comprises a downward-pressing guide rail arranged on the downward-pressing supporting frame, and a downward-pressing sliding block of which one end slides on the downward-pressing guide rail and the other end is fixed on the downward-pressing transmission plate.

Further, the downward-pressing limiting mechanism further comprises a downward-pressing limiting piece which is fixed at the lower part of the downward-pressing transmission plate and extends to be penetrated by the hollow detection column; the diameter of the upper end of the hollow detection column is larger than that of the lower end; and the front end of the pressing limiting part is provided with a penetrating limiting groove matched with the diameter of the lower end of the hollow detection column.

Further, the position degree detection mechanism comprises a detection plate arranged on one side of the pressing fixing piece and a position degree detection piece which is fixed on the pressing transmission plate and is opposite to the detection plate.

Further, the propelling mechanism comprises a propelling seat, a propelling supporting piece, a propelling air cylinder, a propelling plate and a workpiece fixing piece, wherein the propelling seat is arranged on the platform, the propelling supporting piece is fixed on the outermost side of the propelling seat, the propelling air cylinder is arranged on the propelling supporting piece, the propelling plate is fixed on the outermost side of the propelling air cylinder, and the workpiece fixing piece is arranged on the upper end face of the propelling plate.

Further, two groups of limiting jacks matched with the lower cylinder are formed on the workpiece fixing piece.

Further, a propulsion guide mechanism is further arranged between the propulsion seat and the propulsion plate, and the propulsion guide mechanism comprises a propulsion guide rail fixed on the propulsion seat and a propulsion slide block with one end sliding on the propulsion guide rail and the other end fixed on the lower end surface of the propulsion plate.

Further, the device also comprises a lower cylinder pressing mechanism arranged at the lower end of the pushing plate, wherein the lower cylinder pressing mechanism comprises a pressing support plate arranged at the lower end of the pushing plate, a pressing cylinder fixed at the lowest end of the pressing support plate, a pressing limiting piece arranged on an output shaft of the pressing cylinder, and two groups of pressing columns which are arranged on the pressing limiting piece and extend into the limiting jack to press the lower cylinder.

Further, the device also comprises a first buffer piece which is arranged on the downward-pressing support frame and is opposite to the pushing plate.

Further, the device also comprises a second buffer piece which is arranged on one side of the pushing support piece and is opposite to the pushing plate.

The beneficial effects of the utility model are as follows:

the device comprises at least one workpiece, a position degree pressing mechanism erected on a platform, a position degree detection mechanism arranged on the position degree pressing mechanism, and a propelling mechanism erected on the platform and right opposite to the position of the position degree pressing mechanism. After the external feeding mechanism conveys and places the workpiece into the pushing mechanism, the pushing mechanism pushes the workpiece to the position right below the position degree pressing mechanism. The position degree pushing mechanism pushes down and presses on the workpiece, the position degree detecting mechanism detects the pushing-down height, the pushing-down speed and the like of the position degree pushing-down mechanism, detected data are fed back to the external control mechanism, the external control mechanism compares the detected data with a reference value, and the error of the size of the workpiece where is judged to be defective is caused, so that a producer can know the production condition in time, the generation of follow-up defective products is reduced, and the yield of the workpiece is improved.

An upper cylinder protruding upwards is formed at the upper end of the workpiece, and two groups of lower cylinders extending downwards are formed at the lower end of the workpiece. The position degree pushing mechanism comprises a pushing support frame arranged on the platform, a pushing driving cylinder arranged at the upper end of the pushing support frame, a pushing transmission plate fixed on an output shaft of the pushing driving cylinder, a pushing fixing piece fixed at the lower part of the pushing transmission plate, and a hollow detection column arranged at the lower end of the pushing fixing piece and matched with the upper column; the upper cylinder is embedded into the lower end of the hollow detection column. When the position degree detection is required to be carried out on a workpiece, the pressing driving cylinder is started to drive the pressing transmission plate, the pressing fixing piece and the hollow detection column which are connected to the pressing driving cylinder to move downwards, and the upper cylinder on the workpiece is embedded into the lower end of the hollow detection column. At this time, the position degree detection mechanism detects factors such as the height of the position degree pushing mechanism pushing down, the detected data are fed back to the external control mechanism, the external control mechanism compares the detected data with the reference value, and the error of the size of the workpiece is judged, so that the workpiece is defective, a producer can know the production condition in time, the generation of follow-up defective products is reduced, and the yield of the workpiece is improved.

The foregoing is a summary of the utility model and is further defined by the following detailed description of the utility model when read in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic illustration of the utility model in actual use;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic view of the pushing mechanism of the present utility model;

FIG. 4 is a cross-sectional view of the present utility model;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic view of a workpiece;

in the figure: 1. a workpiece; 11. an upper cylinder; 12. a lower cylinder; 2. a position degree pressing mechanism; 21. pressing down the support frame; 22. a pressing driving cylinder; 23. pressing down the transmission plate; 24. pressing down the fixing piece; 25. a hollow detection column; 3. a position degree detection mechanism; 31. a detection plate; 32. a position degree detecting member; 4. a propulsion mechanism; 41. a propulsion seat; 42. advancing the support; 43. a propulsion cylinder; 44. a propulsion plate; 45. a workpiece fixing member; 451. limiting jack; 5. pressing down the limiting mechanism; 51. pressing down the guide rail; 52. pressing down the sliding block; 53. pressing down the limiting piece; 531. penetrating through the limit groove; 6. a propulsion guide mechanism; 61. advancing the guide rail; 62. pushing the slide block; 7. a lower cylinder pressing mechanism; 71. pressing the supporting plate; 72. a pressing cylinder; 73. pressing the limiting piece; 74. a pressing column; 8. a first buffer member; 9. and a second buffer member.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description of the specific embodiments of the present utility model is given with reference to the accompanying drawings and preferred embodiments.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 to 6, an embodiment of the present utility model provides a workpiece position detecting device, which includes at least one workpiece 1, a position pressing mechanism 2 mounted on a platform, a position detecting mechanism 3 disposed on the position pressing mechanism 2, and a pushing mechanism 4 mounted on the platform and opposite to the position of the position pressing mechanism 2. After the workpiece 1 is conveyed and placed into the pushing mechanism 4 by the external feeding mechanism, the workpiece 1 is pushed to the position right below the pressing mechanism 2 by the pushing mechanism 4. The position degree pushing mechanism 2 pushes down and presses on the workpiece 1, the position degree detecting mechanism 3 detects the pushing-down height, the pushing-down speed and the like of the position degree pushing-down mechanism 2, detected data are fed back to the external control mechanism, the external control mechanism compares the detected data with a reference value, and the error of the size of the workpiece 1 is judged to be defective, so that a producer can know the production condition in time, the generation of follow-up defective products is reduced, and the yield of the workpiece 1 is improved.

An upper cylinder 11 protruding upwards is formed at the upper end of the workpiece 1, and two groups of lower cylinders 12 extending downwards are formed at the lower end of the workpiece 1; the position degree pressing mechanism 2 comprises a pressing support frame 21 arranged on the platform, a pressing driving cylinder 22 arranged at the upper end of the pressing support frame 21, a pressing transmission plate 23 fixed on an output shaft of the pressing driving cylinder 22, a pressing fixing piece 24 fixed at the lower part of the pressing transmission plate 23, and a hollow detection column 25 arranged at the lower end of the pressing fixing piece 24 and matched with the upper column 11; the upper cylinder 11 is embedded inside the lower end of the hollow detection column 25. When the position degree detection needs to be performed on the workpiece 1, the pressing driving cylinder 22 is started to drive the pressing transmission plate 23, the pressing fixing piece 24 and the hollow detection column 25 connected to the pressing driving cylinder to move downwards, and the upper cylinder 11 on the workpiece 1 is embedded into the lower end of the hollow detection column 25. At this time, the position degree detecting mechanism 3 detects factors such as the height of the position degree pressing mechanism 2 pressed down, the detected data is fed back to the external control mechanism, the external control mechanism compares the detected data with the reference value, and the dimension of the workpiece 1 where the error exists is judged to be a defective product, so that a producer can know the production condition in time, the generation of subsequent defective products is reduced, and the yield of the workpiece 1 is improved.

In order to prevent the push-down driving plate 23 from shifting when driven by the push-down driving cylinder 22, as shown in fig. 1 to 4, the device further comprises a push-down limiting mechanism 5 disposed between the push-down driving plate 23 and the push-down supporting frame 21, wherein the push-down limiting mechanism 5 comprises a push-down guide rail 51 disposed on the push-down supporting frame 21, and a push-down slider 52 having one end sliding on the push-down guide rail 51 and the other end fixed on the push-down driving plate 23. When the pressing driving cylinder 22 drives the pressing driving plate 23 to move up and down, the pressing sliding block 52 fixed on the pressing driving plate 23 is synchronously driven to slide on the pressing guide rail 51, and the cooperation of the pressing guide rail 51 and the pressing sliding block 52 limits the up-down stroke of the pressing driving plate 23, so that the purpose of preventing the pressing driving plate 23 from moving when driven by the pressing driving cylinder 22 is achieved, and the pressing efficiency is improved.

In order to prevent the hollow detection column 25 from being excessively depressed to damage the workpiece 1, as shown in fig. 1 to 4, the pressing limiting mechanism 5 further includes a pressing limiting member 53 fixed to the lower portion of the pressing transmission plate 23 and extending to be penetrated by the hollow detection column 25; the diameter of the upper end of the hollow detection column 25 is larger than that of the lower end; the front end of the pressing limiting member 53 is provided with a through limiting groove 531 which is matched with the diameter of the lower end of the hollow detection column 25. When the hollow detection column 25 is driven to move downwards by the pressing driving cylinder 22, the lower end of the hollow detection column 25 moves in the penetrating limit groove 531, after the hollow detection column is pressed down to a certain extent, the upper end of the hollow detection column is propped against the penetrating limit groove 531, and the hollow detection column 25 cannot be pressed down continuously, so that the purpose of limiting the pressing stroke of the hollow detection column 25 is achieved, the situation that the workpiece 1 is damaged due to excessive pressing of the hollow detection column 25 is effectively prevented, and the reliability of the device is improved.

As shown in fig. 1 to 4, the position detecting mechanism 3 includes a detecting plate 31 disposed on one side of the pressing fixing member 24, and a position detecting member 32 fixed to the pressing transmission plate 23 and facing the detecting plate 31. When the pressing driving cylinder 22 drives the pressing fixing member 24 and the hollow detecting column 25 connected to the pressing driving cylinder to press down, the detecting plate 31 fixed on the pressing fixing member 24 is synchronously driven to move downwards, the position detecting member 32 fixed on the pressing driving plate 23 detects the descending height, descending speed and the like of the detecting plate 31, detected data are fed back to an external control mechanism, the detected data are compared with a reference value by the external control mechanism, and the error of the size of the workpiece 1 is judged to be defective, so that a producer can know the production condition in time, the generation of subsequent defective products is reduced, and the yield of the workpiece 1 is improved.

Preferably, the position detecting member 32 is a displacement ranging sensor, which is of the loose brand, and is of the type HG-C1030, and the operation mode thereof is the prior art, so there is no specific limitation in the present embodiment.

As shown in fig. 1 to 4, the pushing mechanism 4 includes a pushing base 41 mounted on the platform, a pushing support member 42 fixed on the outermost side of the pushing base 41, a pushing cylinder 43 disposed on the pushing support member 42, a pushing plate 44 fixed on the outermost side of the pushing cylinder 43, and a workpiece fixing member 45 disposed on the upper end surface of the pushing plate 44. When the workpiece 1 is conveyed by the external feeding mechanism, the workpiece 1 is placed on the workpiece fixing piece 45 by the external feeding mechanism, and the fixing and limiting of the workpiece 1 are completed, so that the condition that the detection error is large due to the displacement of the workpiece 1 in the detected process is effectively prevented. After the workpiece 1 is placed in the workpiece fixing member 45, the pushing cylinder 43 is started, and the pushing plate 44 connected to the pushing cylinder and the workpiece fixing member 45 are synchronously pushed to one side of the position degree pushing mechanism, so that the workpiece 1 is opposite to the position of the hollow detection column 25, and the subsequent pushing detection step is completed.

As shown in fig. 1 to 4, in a specific manner of limiting and fixing the workpiece 1 by the workpiece fixing member 45, two sets of limiting insertion holes 451 are formed in the workpiece fixing member 45 to match the lower cylinder 12. The lower cylinder 12 of the workpiece 1 is correspondingly inserted into the limiting insertion hole 451 by the external feeding mechanism, so that the purpose that the workpiece 1 is limited in the workpiece fixing piece 45 is achieved, and the condition that the detection error is large due to displacement of the workpiece 1 in the detected process is effectively prevented.

In order to prevent the pushing plate 44 from being displaced during the driving of the pushing cylinder 43, as shown in fig. 1 to 4, a pushing guide mechanism 6 is further disposed between the pushing seat 41 and the pushing plate 44, and the pushing guide mechanism 6 includes a pushing rail 61 fixed on the pushing seat 41, and a pushing slider 62 having one end sliding on the pushing rail 61 and the other end fixed on the lower end surface of the pushing plate 44. When the pushing air cylinder 43 drives the pushing plate 44 to move transversely, the pushing slide block 62 connected to the pushing plate 44 is synchronously driven to slide on the pushing guide rail 61, and the pushing guide rail 61 and the pushing slide block 62 cooperate to limit the moving stroke of the pushing plate 44, so that the pushing plate 44 is effectively prevented from being shifted in the process of being driven by the pushing air cylinder 43, and the pushing efficiency of the pushing mechanism 4 is further improved.

In order to better detect the position of the workpiece 1, as shown in fig. 4, the device further includes a lower cylinder pressing mechanism 7 disposed at the lower end of the pushing plate 44, where the lower cylinder pressing mechanism 7 includes a pressing support plate 71 disposed at the lower end of the pushing plate 44, a pressing cylinder 72 fixed at the lowest end of the pressing support plate 71, a pressing limiting member 73 disposed on the output shaft of the pressing cylinder 72, and two sets of pressing columns 74 disposed on the pressing limiting member 73 and extending into the limiting insertion hole 451 to press the lower cylinder 12. When the position degree pressing mechanism 2 starts to press the workpiece 1 for detection, the pressing cylinder 72 synchronously starts to stretch out to drive the pressing limiting piece 73 and the pressing column 74 to move upwards, the pressing column 74 stretches into the lower end of the limiting insertion hole 451 and presses the lower cylinder 12 from bottom to top, and the pressing column 74 and the hollow detection column 25 are mutually matched to synchronously press the workpiece 1, so that measured data of the workpiece 1 are more accurate, and accuracy of the device is improved.

In order to prevent the pushing plate 44 from being damaged by excessive pushing to the pushing support 21, as shown in fig. 1 to 4, the apparatus further includes a first buffer member 8 disposed on the pushing support 21 and opposite to the pushing plate 44. When the pushing plate 44 is pushed by the pushing cylinder 43 to push the position degree pushing mechanism 2, the outermost side of the pushing plate 44 is in contact with the first buffer member 8, and the first buffer member 8 buffers the pushing plate 44, so that the pushing plate 44 is effectively prevented from being excessively pushed and damaged to the pushing support frame 21, and the reliability and the working efficiency of the pushing mechanism 4 are further improved.

In order to prevent the pushing plate 44 from being damaged by itself and the pushing cylinder 43 due to excessive impact force when the pushing cylinder 43 is retracted and reset, as shown in fig. 1 to 4, the device further includes a second buffer member 9 disposed on one side of the pushing support member 42 and opposite to the pushing plate 44. When the pushing cylinder 43 drives the pushing plate 44 to retract and reset, the tail end of the pushing plate 44 is contacted with the second buffer member 9, and the second buffer member 9 buffers the pushing plate 44, so that the pushing plate 44 is effectively prevented from being damaged by the pushing cylinder 43 and the pushing cylinder 43 due to overlarge impact force when being driven by the pushing cylinder 43 to retract and reset, and the reliability and the working efficiency of the pushing mechanism 4 are further improved.

Preferably, the first buffer member 8 and the second buffer member 9 are both hydraulic buffers. The hydraulic buffer is of Adand brand, the model is ACA-1007, the hydraulic buffer is of medium carbon steel appearance, has hardness which is harder than that of common aluminum alloy, has strong impact resistance, is not easy to deform, has higher corrosion resistance and wear resistance, and improves the reliability of the device.

It should be noted that, the workpiece position degree detection device disclosed in the utility model is an improvement on a specific structure, and is not an innovation point of the utility model for a specific control mode. The guide rail, the sliding block, the air cylinder and other components related to the utility model can be general standard components or components known to a person skilled in the art, and the structure, the principle and the control mode of the guide rail, the sliding block, the air cylinder and other components are all known to the person skilled in the art through technical manuals or are known through routine experimental methods.

The foregoing is merely a preferred embodiment of the present utility model, and the technical scope of the present utility model is not limited to the above embodiments, so that other structures using the same or similar technical features as those of the above embodiments of the present utility model are all within the scope of the present utility model.

Claims (10)

1. The utility model provides a work piece position degree detection device which characterized in that: comprises at least one workpiece, a position degree pressing mechanism erected on a platform, a position degree detection mechanism arranged on the position degree pressing mechanism, and a propelling mechanism erected on the platform and right opposite to the position of the position degree pressing mechanism; an upper cylinder protruding upwards is formed at the upper end of the workpiece, and two groups of lower cylinders extending downwards are formed at the lower end of the workpiece; the position degree pushing mechanism comprises a pushing support frame arranged on the platform, a pushing driving cylinder arranged at the upper end of the pushing support frame, a pushing transmission plate fixed on an output shaft of the pushing driving cylinder, a pushing fixing piece fixed at the lower part of the pushing transmission plate, and a hollow detection column arranged at the lower end of the pushing fixing piece and matched with the upper column; the upper cylinder is embedded into the lower end of the hollow detection column.

2. The workpiece position degree detection device according to claim 1, wherein: the device comprises a pressing transmission plate, a pressing support frame, a pressing limiting mechanism and a pressing sliding block, wherein the pressing limiting mechanism is arranged between the pressing transmission plate and the pressing support frame and comprises a pressing guide rail arranged on the pressing support frame and a pressing sliding block, one end of the pressing sliding block slides on the pressing guide rail, and the other end of the pressing sliding block is fixed on the pressing transmission plate.

3. The workpiece position degree detection device according to claim 2, wherein: the downward-pressing limiting mechanism further comprises a downward-pressing limiting piece which is fixed on the lower portion of the downward-pressing transmission plate and extends to be penetrated by the hollow detection column; the diameter of the upper end of the hollow detection column is larger than that of the lower end; and the front end of the pressing limiting part is provided with a penetrating limiting groove matched with the diameter of the lower end of the hollow detection column.

4. The workpiece position degree detection device according to claim 1, wherein: the position degree detection mechanism comprises a detection plate arranged on one side of the pressing fixing piece and a position degree detection piece which is fixed on the pressing transmission plate and is opposite to the detection plate.

5. The workpiece position degree detection device according to claim 1, wherein: the propelling mechanism comprises a propelling seat, a propelling supporting piece, a propelling air cylinder, a propelling plate and a workpiece fixing piece, wherein the propelling seat is arranged on the platform, the propelling supporting piece is fixed on the outermost side of the propelling seat, the propelling air cylinder is arranged on the propelling supporting piece, the propelling plate is fixed on the outermost side of the propelling air cylinder, and the workpiece fixing piece is arranged on the upper end face of the propelling plate.

6. The workpiece position degree detection device according to claim 5, wherein: two groups of limiting jacks matched with the lower cylinder are formed on the workpiece fixing piece.

7. The workpiece position degree detection device according to claim 5, wherein: and a propulsion guide mechanism is further arranged between the propulsion seat and the propulsion plate and comprises a propulsion guide rail fixed on the propulsion seat and a propulsion slide block with one end sliding on the propulsion guide rail and the other end fixed on the lower end surface of the propulsion plate.

8. The workpiece position degree detection device according to claim 6, wherein: the lower cylinder pressing mechanism comprises a pressing support plate arranged at the lower end of the pushing plate, a pressing cylinder fixed at the lowest end of the pressing support plate, a pressing limiting piece arranged on an output shaft of the pressing cylinder, and two groups of pressing columns arranged on the pressing limiting piece and extending into the limiting jack to press the lower cylinder.

9. The workpiece position degree detection device according to claim 5, wherein: the first buffer piece is arranged on the downward-pressing support frame and is opposite to the pushing plate.

10. The workpiece position degree detection device according to claim 5, wherein: the second buffer piece is arranged on one side of the pushing support piece and is opposite to the pushing plate.