CN115156942A - Auxiliary clamping and positioning machining method and machining equipment for golf head - Google Patents

Abstract

The application discloses a golf head auxiliary clamping and positioning processing method and processing equipment, wherein a positioning column is arranged on one side of a bottom surface of the processing method before a golf head is produced, then the positioning column of the golf head is inserted into a positioning hole of a clamping jig, because the positioning hole of the clamping jig is arranged at a position close to an edge, when the golf head is locked on the clamping jig, the other side of the bottom surface of the clamping jig is suspended outside the clamping jig, and during processing, a rotating mechanism can drive the front surface or the bottom surface of the golf head to rotate to a position opposite to a CNC cutting mechanism to carry out CNC processing on the front surface or the bottom surface of the golf head, so that the existing CNC processing completed by two steps can be combined into one step to be completed, the golf head does not need to be frequently disassembled and assembled, the processing efficiency is improved, and the problem that deviation is easy to occur in the positioning of a central point of the golf head in the process of repeated loading and unloading can be avoided, and the processing quality of products is influenced.

Description

Auxiliary clamping and positioning machining method and machining equipment for golf club head

Technical Field

The invention belongs to the technical field of golf head processing, and particularly relates to a method and equipment for auxiliary clamping and positioning processing of a golf head.

Background

In the process of processing the golf head, CNC processing needs to be carried out on the front surface or the bottom surface of the golf head, and in the prior art, due to the blocking of a clamp, the processing procedure can be generally completed by only two steps: firstly, a jig is adopted to clamp the bottom surface of a golf head to realize positioning, CNC machining is carried out on the front surface of the golf head, after the CNC machining of the front surface of the golf head is completed, the golf head is detached and then turned over, another jig is adopted to fix the front surface of the golf head to carry out CNC machining on the bottom surface of the golf head, the whole CNC machining process of the golf head is completed in two steps, firstly, loading and unloading are continuously needed, the complexity of work is increased, the work intensity is increased, the work efficiency is reduced, deviation possibly occurs in the positioning of the central point of the golf head in the loading and unloading process, the machining quality of products is influenced, defective products easily occur in the machining process of the golf head, and the rejection rate is high.

Disclosure of Invention

Objects of the invention

In order to overcome the defects, the invention aims to provide a golf head auxiliary clamping and positioning processing method and processing equipment to solve the technical problems that due to the blocking of a jig, the traditional CNC processing process of the golf head needs a plurality of steps to be completed, so that the complexity of the work is increased, the work efficiency is reduced, the deviation is easy to occur in the positioning of the central point of the golf head in the feeding and discharging processes for a plurality of times, the processing quality of a product is influenced, defective products are easy to occur in the processing process of the golf head, and the rejection rate is high.

(II) technical scheme

In order to achieve the above object, one aspect of the present application provides the following technical solutions:

an auxiliary clamping and positioning processing method for a golf head comprises the following steps:

a positioning column is arranged on one side of the bottom surface of the golf head;

aligning the positioning column to a positioning hole of the clamping jig and inserting the positioning column into the positioning hole;

locking the positioning column into the positioning hole by adopting a locking piece, wherein one side of the bottom surface of the locked golf head is abutted against the clamping jig, and the other side of the bottom surface of the locked golf head is suspended outside the clamping jig;

performing CNC machining on the front face of the golf head;

after the CNC machining of the front face of the golf head is finished, rotating a preset angle, and carrying out CNC machining on the other side of the bottom face of the golf head;

after the CNC machining of the other side of the bottom surface of the golf head is finished, loosening the locking piece and taking down the golf head;

cutting off the positioning column;

the positioning column is arranged on one side of the bottom surface before the golf head is produced, then the positioning column of the golf head is inserted into the positioning hole of the clamping jig, the positioning hole of the clamping jig is arranged at a position close to the edge, thus, when the golf head is locked on the clamping jig, one side of the bottom surface of the golf head is abutted against the clamping jig, the other side of the bottom surface of the golf head is suspended outside the clamping jig, in processing, the rotating mechanism firstly drives the front surface of the golf head to rotate to a position opposite to the CNC cutting mechanism to carry out CNC processing on the front surface of the golf head, after the processing is finished, the rotating mechanism drives the bottom surface of the golf head to rotate to a position opposite to the CNC cutting mechanism to carry out CNC processing on one side of the bottom surface of the golf head, in this way, the existing CNC processing finished by two steps can be combined into one step to be finished, the frequent loading and unloading of the golf head are not needed, the labor intensity is reduced, the processing efficiency is improved, and the deviation of the center point positioning of the golf head caused in the multiple times of the process can be avoided, the product processing quality is influenced, the defective products is avoided, and the technical problem that the scrappage rate is high is solved.

In some embodiments, after the positioning column is locked to the positioning hole, the detection probe is adopted to detect whether the front surface of the golf head is positioned on a reference horizontal plane;

if the fact that the front face of the golf head is not located on the reference horizontal plane is detected, the rotating mechanism drives the clamping jig and the golf head to rotate for a preset angle, and the golf head is made to rotate to the horizontal reference plane;

through the correction steps, even if the blank deforms in the process of producing the golf head and the direction of the positioning column is possibly deviated and cannot be vertically downward, the front face of the golf head is not positioned on the reference horizontal plane initially, the front face of the golf head can be corrected to the reference horizontal plane through the rotating mechanism, the fact that the front face or the bottom face of the golf head is just opposite when the front face or the bottom face of the golf head is turned to the position opposite to the CNC cutting mechanism is guaranteed, deviation between the front face or the bottom face of the golf head and the CNC cutting mechanism is avoided, and the CNC processing effect of the golf head is influenced.

In some embodiments, providing a locating post comprises: set the reference column to hollow structure to, at the inside internal thread structure that sets up of reference column, wherein, the retaining member is the screw, sets the reference column to hollow internal thread structure, can lock golf ball head to the centre gripping tool fast through the threaded structure retaining member on, the locking mode is simple swift.

In some embodiments, providing a locating post comprises: the positioning columns are two, the interval between every two adjacent positioning columns is 5-8cm, the interval between every two adjacent positioning columns is optimized, the whole stress of the golf head is uniform after the locking part locks the golf head, the situation that the distance between every two positioning columns is too small, only local stress can be generated after the golf head is locked is avoided, and the golf head is easy to shake in the machining process to influence the machining effect.

In some embodiments, providing a locating post comprises: the diameter of each positioning column is 6-10cm, so that the diameter of each positioning column is optimized, the structural strength of each positioning column is ensured, and the positioning columns are prevented from being easily broken or bent in the golf head machining process to influence the machining effect.

In some embodiments, the positioning hole interior comprises, from top to bottom: the positioning column comprises a first area for embedding the positioning column, a second area for connecting one end of the locking piece with the positioning column and a third area for covering the end part of the other end of the locking piece, wherein the diameter of the first area is larger than that of the second area to form a first abutting surface abutting against the lower end of the positioning column, and the diameter of the second area is smaller than that of the third area to form a second abutting surface abutting against one end of the locking piece;

set up the reference column and include: setting the height of the positioning column to be larger than the depth of the first area;

the height of the positioning column is optimized, when the golf head is locked, the first abutting surface can provide an upward supporting force for the positioning column, the situation that the bottom surface of the downward moving golf head is directly contacted with the clamping jig when the locking part locks the golf head is avoided, and the bottom surface of the golf head is easily extruded and deformed due to stress is avoided.

In another aspect, the present application provides a CNC processing apparatus for golf club head, which applies the above processing method, the processing apparatus includes: the device comprises a rack, a CNC cutting mechanism arranged on the rack, a rotating mechanism which is arranged on the rack and can rotate towards multiple directions, and a clamping jig arranged on the rotating mechanism, wherein a positioning hole which can be used for a golf head positioning column to insert and lock the positioning column is formed in the position, close to the edge, of the clamping jig; wherein, the rotating mechanism can drive the front surface or the bottom surface of the golf head to rotate to the position corresponding to the CNC cutting mechanism, so that the front surface or the bottom surface of the golf head is subjected to CNC machining.

In some embodiments, further comprising: and the detection probe is arranged on the rack and is used for detecting whether the front surface of the golf head fixed behind the clamping jig is on a horizontal reference surface.

In some embodiments, the motivational mechanism comprises: the first rotating assembly capable of rotating on the vertical surface is arranged on the first rotating assembly and can rotate on the horizontal plane, and the second rotating assembly is provided with a clamping jig.

In some embodiments, the positioning hole interior comprises, from top to bottom: with the first region of reference column shape assorted confession reference column embedding, the one end that supplies retaining member stretches into the second region of being connected with the reference column and covers the third region of retaining member other end tip, wherein, the diameter in first region is greater than the first butt face that the second region formed the butt reference column lower extreme, and the diameter in second region is less than the second butt face that the third region formed butt retaining member one end to, the degree of depth that highly is greater than the first region that sets up the reference column.

Drawings

FIG. 1 is a flow chart of the method of the present invention for assisting in holding, positioning and processing a golf club head;

FIG. 2 is a schematic diagram of the CNC machining equipment for golf club head of the present invention;

FIG. 3 is a schematic view of the structure of the golf club head turning mechanism of the present invention;

fig. 4 is a detection state diagram of the detection probe of the present application.

FIG. 5 is a view showing a state where a golf club head is locked to a holding jig;

FIG. 6 is a state diagram of the golf club head after being detached from the holding jig;

FIG. 7 is a cross-sectional view of a golf club head locked to a clamping fixture;

FIG. 8 is a cross-sectional view of a clamping fixture;

FIG. 9 is a schematic view of a first perspective of a golf club head;

fig. 10 is a structural diagram of a second view angle of the golf head.

Reference numerals:

1. a rotating mechanism; 101. a first motor; 102. a second motor; 103. a bearing seat; 2. a CNC cutting mechanism; 3. a locking member; 4. clamping a jig; 401. positioning holes; 4011. a first region; 4012. a second region; 4013. a third region; 4014. a second abutting surface; 4015. a first abutting surface; 402. an empty avoiding groove; 5. a golf club head; 501. a front side; 5011. a wire trench; 502. positioning points; 503. a positioning column; 504. a bottom surface; 6. detecting a probe; 7. a frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the accompanying drawings in combination with the embodiments. It is to be understood that these descriptions are only illustrative and are not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, the auxiliary clamping and positioning method for a golf club head 5 according to the present invention includes the following steps:

a positioning column 503 is arranged on one side of the bottom surface 504 of the golf head 5;

aligning the positioning column 503 with the positioning hole 401 of the clamping jig 4 and inserting into the positioning hole 401;

the positioning column 503 is locked into the positioning hole 401 by using the locking member 3, wherein one side of the bottom surface 504 of the locked golf club head 5 is abutted against the clamping jig 4, and the other side is suspended outside the clamping jig 4;

performing CNC machining on the front surface 501 of the golf head 5;

after the CNC machining of the front 501 of the golf head 5 is finished, rotating the golf head by a preset angle, and carrying out CNC machining on the other side of the bottom 504 of the golf head 5;

after the CNC machining of the other side of the bottom surface 504 of the golf head 5 is finished, the locking piece 3 is released and the golf head 5 is taken down;

locating post 503 is cut away.

Referring to fig. 9 and 10, specifically, the CNC processing of the front 501 of the golf club head 5 is to cut a line slot 5011 on the front 501, and the CNC processing of the bottom 504 of the golf club head 5 is to perform grain carving on the suspended side of the bottom 504 of the golf club head 5.

Specifically, when positioning column 503 is disposed, positioning column 503 is disposed to be a hollow structure, and an internal thread structure is disposed on an inner wall of positioning column 503.

Specifically, a screw is used as the locking member 3, when the golf head 5 is locked, the positioning column 503 is inserted into the positioning hole 401, and then the screw is inserted into the positioning hole 401 from the bottom 504 of the clamping fixture 4 to be in threaded connection with the positioning column 503, so that the golf head 5 is locked on the clamping fixture 4.

Preferably, two positioning columns 503 are arranged, and the two positioning columns 503 are spaced by 5-8cm.

Preferably, each of the positioning posts 503 has a diameter of 6-10cm.

Since the blank may be easily deformed during the process of producing the golf club head 5, the setting direction of the positioning column 503 may be deviated, and the positioning column 503 cannot be directed vertically downward, so that the front surface 501 is not located on the reference horizontal plane after the golf club head 5 is fixed to the holding jig 4.

Preferably, after the golf head 5 is locked to the clamping jig 4, the detection probe 6 is adopted to detect whether the front 501 of the golf head 5 is on a reference horizontal plane, and the direction of the front 501 of the golf head 5 is corrected, so that the front 501 or the bottom 504 of the golf head 5 is opposite to the CNC cutting mechanism 2 when the front 501 or the bottom 504 of the golf head is turned to the position opposite to the CNC cutting mechanism 2, and the processing effect is guaranteed.

Referring to fig. 4, specifically, the detecting probe 6 may be an infrared probe, during detection, the infrared probe emits a plurality of infrared rays simultaneously, the plurality of infrared rays irradiate a front 501 of the golf club head 5 to form a plurality of positioning points 502, the emitted infrared rays are used for detecting distances between the detecting probe 6 and the positioning points 502, specifically, after the distances between the positioning points 502 are measured, the detecting probe 6 sends the distances between the positioning points 502 to the processor, the processor determines whether the distances between the positioning points 502 and the infrared probe are consistent, when the distances are determined to be inconsistent, it is determined that the front 501 of the golf club head 5 is not on the reference horizontal plane, it is required to rotate and adjust the angle of the front 501 of the golf club head 5, and only when the distances between all the positioning points 502 and the infrared probe are consistent, it is determined that the front 501 of the golf club head 5 is on the reference horizontal plane.

Specifically, in the internal running program of the rotating mechanism 1, if the rotating mechanism 1 initially rotates by a predetermined angle to correct the front face 501 of the golf head 5, when the subsequent rotating mechanism 1 drives the front face 501 of the golf head 5 to rotate towards the CNC cutting mechanism 2, the calculation can be performed by an angle compensation algorithm, so that the rotating angle of the rotating mechanism 1 is increased or decreased, and the rotating mechanism 1 drives the front face 501 of the golf head 5 to rotate to a position just opposite to the CNC cutting mechanism 2. If the detecting probe 6 is not arranged, when the direction of the positioning column 503 of the golf club head 5 is deformed, the front 501 or the bottom 504 of the golf club head 5 is not on the horizontal reference surface initially, the rotating mechanism 1 drives the front 501 of the golf club head 5 to rotate towards the CNC cutting mechanism 2 according to the originally set angle, the front 501 of the golf club head 5 is not aligned with the CNC cutting mechanism 2, and the CNC-processed product cannot meet the expected effect.

Specifically, locating hole 401 is inside from last to including down in proper order: a first area 4011 in which the positioning pillar 503 is embedded, a second area 4012 in which one end of the locking member 3 extends into and is connected to the positioning pillar 503, and a third area 4013 covering the other end of the locking member 3, wherein the diameter of the first area 4011 is larger than that of the second area 4012 to form a first abutting surface 4015 abutting against the lower end of the positioning pillar 503, and the diameter of the second area 4012 is smaller than that of the third area 4013 to form a second abutting surface 4014 abutting against one end of the locking member 3;

specifically, setting positioning column 503 includes: the height of the positioning column 503 is set to be greater than the depth of the first region 4011.

The application provides a golf head 5CNC processing device on the other hand, and the processing device comprises the following components: the device comprises a frame 7, a CNC cutting mechanism 2 arranged on the frame 7, a rotating mechanism 1 which is arranged on the frame 7 and can rotate towards multiple directions, and a clamping jig 4 arranged on the rotating mechanism 1, wherein a positioning hole 401 which can be used for allowing a positioning column 503 of a golf head 5 to be inserted and locking the positioning column 503 is formed in the position, close to the edge, of the clamping jig 4; the rotating mechanism 1 can drive the front 501 or the bottom 504 of the golf head 5 to rotate to a position opposite to the CNC cutting mechanism 2, so that the front 501 or the bottom 504 of the golf head 5 can be CNC machined.

Preferably, the method further comprises the following steps: and the detection probe 6 is arranged on the rack 7 and is used for detecting whether the front 501 of the golf head 5 fixed on the clamping jig 4 is on a horizontal reference surface.

Specifically, the rotating mechanism 1 includes: the first rotating assembly capable of rotating on the vertical surface is arranged on the first rotating assembly and can rotate on the horizontal plane, and the second rotating assembly is provided with a clamping jig 4.

More specifically, the first rotating assembly includes: the two ends of a first rotating shaft of the first motor 101 penetrate through the two bearing blocks 103 respectively;

more specifically, the second rotating assembly includes: and the second motor 102 is arranged on the first motor 101, a second rotating shaft of the second motor 102 extends vertically upwards, and the fixing jig 4 is arranged on the second rotating shaft of the second motor 102.

Specifically, locating hole 401 is inside from last to including down in proper order: a first area 4011 for embedding the positioning pillar 503, a second area 4012 for extending one end of the locking member 3 into connection with the positioning pillar 503, and a third area 4013 for covering the other end of the locking member 3, wherein the diameter of the first area 4011 is larger than that of the second area 4012 to form a first abutting surface 4015 abutting against the lower end of the positioning pillar 503, the diameter of the second area 4012 is smaller than that of the third area 4013 to form a second abutting surface 4014 abutting against one end of the locking member 3, and the height of the positioning pillar 503 is larger than the depth of the first area 4011.

Preferably, the present application further provides a lateral adjustment mechanism, the lateral adjustment mechanism is transversely movably disposed on the frame 7, the lateral adjustment mechanism is connected with the detection probe 6, and since the positions of the striking surfaces 501 of different types of golf heads 5 are different, the lateral position of the detection probe 6 can be adjusted through the lateral adjustment mechanism, so that the detection probe 6 can irradiate the whole striking surfaces 501 of different types of golf heads 5.

Specifically, the lateral adjustment mechanism includes: the first guide rail that transversely extends, with first guide rail sliding fit's first slider and with first slider drive connection be used for driving first slider gliding first rotating assembly on first guide rail. Specifically, the first rotating assembly includes: the first screw rod is arranged on the side face of the first guide rail, the first sliding block is provided with a thread structure and is in thread fit with the first screw rod, the third motor is connected with the end portion of the first screw rod, when the third motor rotates, the third motor drives the first screw rod to rotate, and the first screw rod drives the first sliding block to transversely slide along the first guide rail left and right under the action of threads, so that the detection probe 6 is driven to transversely move.

Preferably, the present application further provides an up-down adjusting mechanism, which is disposed on the transverse adjusting mechanism and connected to the detecting probe 6, for adjusting the up-down height of the detecting probe 6. Because the area of the face 501 of golf ball 5 of different models is different, can adjust the upper and lower height of test probe 6 through upper and lower adjustment mechanism, when the face 501 area of golf ball 5 is great, drive test probe 6 and rise and guarantee that test probe 6 can the whole face 501 of golf ball 5 of complete location, it only shines face 501 local position to avoid test probe 6, lead to the location inaccurate, when the face 501 area is less, can drive test probe 6 and descend, avoid fixing a position outside golf ball 5, lead to positioning error, upper and lower adjustment mechanism can improve test probe 6's commonality. The overall accurate irradiation is performed for different sizes of the striking surfaces 501.

Specifically, the vertical adjustment mechanism includes: the second guide rail of vertical extension, with second guide rail sliding fit's second slider and with second slider drive be connected be used for driving the gliding upper and lower drive arrangement of second slider on the second guide rail, specific, the second guide rail sets up on first slider, and the concrete motion principle of upper and lower adjustment mechanism is similar with foretell horizontal adjustment mechanism, and this time is no longer repeated.

Specifically, the upper end face of the clamping jig 4 is recessed downwards to form the clearance groove 402, due to the structural characteristics of the golf head 5, the edge on the other side of the bottom of the golf head 5 is arc-shaped and protrudes outwards, and the outward protruding edge is just embedded into the clearance groove 402, so that the whole golf head 5 can be stably placed on the clamping jig 4, and the flatness of the golf head 5 is guaranteed.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A golf head auxiliary clamping and positioning processing method is characterized by comprising the following steps:

a positioning column (503) is arranged on one side of the bottom surface (504) of the golf head (5);

aligning the positioning column (503) with a positioning hole (401) of the clamping jig (4) and inserting the positioning column into the positioning hole (401);

locking the positioning column (503) into the positioning hole (401) by using a locking piece (3), wherein one side of the bottom surface (504) of the locked golf club head (5) is abutted against the clamping jig (4), and the other side of the bottom surface is suspended outside the clamping jig (4);

CNC machining is carried out on the front face (501) of the golf head (5);

after the CNC machining of the front surface (501) of the golf head (5) is finished, rotating a preset angle, and carrying out CNC machining on the other side of the bottom surface (504) of the golf head (5);

after the CNC machining of the other side of the bottom surface (504) of the golf head (5) is finished, loosening the locking piece (3) and taking down the golf head (5);

and cutting off the positioning column (503).

2. The auxiliary clamping and positioning processing method for the golf head as claimed in claim 1, wherein after the positioning post (503) is locked to the positioning hole (401), a detection probe (6) is used to detect whether the front surface (501) of the golf head (5) is on a reference horizontal plane;

if the fact that the front face (501) of the golf head (5) is not located on the reference horizontal plane is detected, the clamping jig (4) and the golf head (5) are driven to rotate for a preset angle through the rotating mechanism (1), and the golf head (5) is made to rotate to the horizontal reference plane.

3. The auxiliary clamping and positioning machining method for the golf head according to claim 1, wherein the positioning column (503) comprises: the positioning column (503) is arranged to be a hollow structure, an internal thread structure is arranged on the inner wall of the positioning column (503), and the locking piece (3) is a screw.

4. The auxiliary clamping and positioning machining method for the golf head according to claim 1, wherein the positioning column (503) comprises: two positioning columns (503) are arranged, and the interval between two adjacent positioning columns (503) is 5-8cm.

5. The auxiliary clamping and positioning machining method for the golf head according to claim 1, wherein the positioning column (503) comprises: the diameter of each positioning column (503) is 6-10cm.

6. The auxiliary clamping and positioning processing method for the golf head according to claim 1, wherein the positioning hole (401) comprises from top to bottom: the positioning post comprises a first area (4011) for embedding the positioning post (503), a second area (4012) connected with the positioning post (503) and a third area (4013) covering the end part of the other end of the locking piece (3), wherein one end of the locking piece (3) extends into the second area (4012), the diameter of the first area (4011) is larger than that of the second area (4012) to form a first abutting surface (4015) abutting against the lower end of the positioning post (503), and the diameter of the second area (4012) is smaller than that of the third area (4013) to form a second abutting surface (4014) abutting against one end of the locking piece (3);

the positioning column (503) comprises: the height of the positioning column (503) is set to be greater than the depth of the first area (4011).

7. A CNC processing apparatus for golf club head, which is applied to the processing method of any one of the above claims 1 to 6, the processing apparatus comprising: the device comprises a rack (7), a CNC cutting mechanism (2) arranged on the rack (7), a rotating mechanism (1) which is arranged on the rack (7) and can rotate towards multiple directions, and a clamping jig (4) arranged on the rotating mechanism (1), wherein a positioning hole (401) which can be used for a positioning column (503) of a golf head (5) to insert and lock the positioning column (503) is formed in the position, close to the edge, of the clamping jig (4); the rotating mechanism (1) can drive the front face (501) or the bottom face (504) of the golf head (5) to rotate to a position opposite to the CNC cutting mechanism (2) so that the front face (501) or the bottom face (504) of the golf head (5) can be subjected to CNC machining.

8. The CNC machining apparatus of claim 7, further comprising: and the detection probe (6) is arranged on the rack (7) and is used for detecting whether the front surface (501) of the golf head (5) fixed behind the clamping jig (4) is positioned on a horizontal reference surface.

9. The CNC machining apparatus according to claim 7, characterized in that the turning mechanism (1) comprises: the clamping fixture comprises a first rotating assembly capable of rotating on a vertical surface and a second rotating assembly which is arranged on the first rotating assembly and can rotate on a horizontal surface, wherein the second rotating assembly is provided with the clamping fixture (4).

10. The CNC machining apparatus of claim 7, characterized in that the locating hole (401) comprises inside from top to bottom: the confession first region (4011) that reference column (503) was inlayed, confession retaining member (3) one end stretch into with second region (4012) that reference column (503) are connected and cover third region (4013) of retaining member (3) other end tip, wherein, the diameter of first region (4011) is greater than second region (4012) forms first butt face (4015) of butt reference column (503) lower extreme, the diameter of second region (4012) is less than third region (4013) forms second butt face (4014) of butt retaining member (3) one end, and, the height that sets up reference column (503) is greater than the degree of depth of first region (4011).

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