CN112404231A

CN112404231A - Manufacturing process of stainless steel porous stretched plate

Info

Publication number: CN112404231A
Application number: CN202011183532.5A
Authority: CN
Inventors: 王佳明; 沈方园; 孙睿
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-02-26

Abstract

The invention relates to a manufacturing process of a stainless steel porous stretched plate, which mainly comprises the following steps: multiple processes such as panel is put into, panel centre gripping, tensile processing and finished product take out, the manufacturing and processing machinery who uses includes unable adjustment base, stretching device, support column, places bottom plate and spacing clamping device, unable adjustment base's upper end middle part be provided with stretching device, the support column is evenly installed near four corners in the unable adjustment base upper end, the upper end of support column even has the bottom plate of placing, the top of placing the bottom plate is provided with spacing clamping device. The invention can solve the problems that when the traditional manufacturing and processing method of the stainless steel porous stretching plate is used for processing the stainless steel porous stretching plate, the stainless steel porous stretching plate is directly stretched, holes are possibly inconsistent in size, and the stretching surface is easy to bend and jump, so that the plane of the stainless steel porous stretching plate is partially bent, the flatness is insufficient, the attractiveness and the use effect are influenced, and the like.

Description

Manufacturing process of stainless steel porous stretched plate

Technical Field

The invention relates to the technical field of stainless steel plate manufacturing, in particular to a manufacturing process of a stainless steel porous stretching plate.

Background

The stainless steel plate is a plate which takes stainless steel as a raw material, has smooth surface, higher plasticity, toughness and mechanical strength, and higher acid and alkali resistance. The stainless steel plate has high strength and hardness and good plastic toughness, and is divided into two types of hot rolling and cold rolling according to the manufacturing and processing method, and the stainless steel plate is divided into five types according to the structure characteristics of steel types: austenite type, austenite-ferrite type, martensite type, and precipitation hardening type. The stainless steel porous stretching plate is widely applied to stainless steel plates, has the characteristics of smooth and attractive net surface, firmness, durability and the like, has wide application, and can be used for environment-friendly noise control barriers in traffic municipal facilities such as expressways, railways, subways and the like passing through urban areas, sound-insulation and noise-reduction sound-absorption plates of building walls, generator rooms, factory buildings and other noise sources and the like.

At present, when stainless steel porous drawing plates are prepared, the following defects generally exist: 1. according to the traditional manufacturing and processing method of the stainless steel porous stretched plate, when the stainless steel porous stretched plate is processed, two ends of the stainless steel porous plate are usually fixed directly and then stretched, the stretching force applied to the middle of the plate is reduced, holes may be inconsistent in size, and the size of the plate cannot reach the designed size; 2. according to the traditional manufacturing and processing method of the stainless steel porous stretching plate, when the stainless steel porous stretching plate is processed, the stretching surface is easy to bend and jump, so that the plane of the stainless steel porous stretching plate is partially bent, the flatness is insufficient, and the attractiveness and the using effect are influenced.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that when the traditional manufacturing and processing method of the stainless steel porous stretching plate is used for processing the stainless steel porous stretching plate, the two ends of the stainless steel porous stretching plate are usually fixed and then stretched, the stretching force applied to the middle part of the plate is reduced, the holes are possibly inconsistent in size, the plate size cannot reach the design size, and when the stainless steel porous stretching plate is processed, the stretching surface is easy to bend and jump, so that the plane of the stainless steel porous stretching plate is bent, the flatness is insufficient, the attractiveness and the use effect are influenced, and the like.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the manufacturing process of the stainless steel porous stretching plate adopts the following processing machinery: this machinery includes unable adjustment base, stretching device, support column, places bottom plate and spacing clamping device, unable adjustment base's upper end middle part be provided with stretching device, the unable adjustment base upper end is close to four corners and evenly installs the support column, the upper end of support column even has the bottom plate of placing, the top of placing the bottom plate is provided with spacing clamping device.

Stretching device include actuating mechanism, the groove that slides, stretching mechanism and buffer gear, unable adjustment base's upper end mid-mounting has actuating mechanism, the groove that slides has been seted up to the left and right sides symmetry of unable adjustment base upper end, and the groove that slides is located actuating mechanism's the left and right sides, the last stretching mechanism that is provided with of actuating mechanism, the last bilateral symmetry of stretching mechanism is provided with buffer gear, concrete during operation, drive stretching mechanism with the mode of progressively segmenting right motion through actuating mechanism, and then make stretching mechanism carry out tensile processing to the hole department of the porous tensile panel of stainless steel, prevent wearing and tearing destruction and the overstretching that cause hole department when tensile through buffer gear.

Spacing clamping device include grip block, fixture, limiting plate and stop gear, the top of placing the bottom plate is equipped with the grip block, place and be connected through fixture between bottom plate and the grip block, the limiting plate is installed to the upper end of grip block, install stop gear in the limiting plate, concrete during operation, put into stainless steel porous plate and place the bottom plate upper end, modulate the grip block downstream through the grip block, be close with placing the bottom plate, and centre gripping stainless steel porous plate, through stop gear and limiting plate, make the upper end of tensile mechanism remain throughout in certain motion range, do not take place the skew.

The stretching mechanism comprises an air cylinder, a sliding plate, limiting columns, sliding grooves, stretching rods, a connecting rod and a bidirectional air cylinder, the air cylinder is installed on a driving mechanism through an air cylinder base, the sliding plate is installed on the ejection end of the air cylinder, the limiting columns are evenly arranged on the sliding plate close to four corners in a sliding mode, the sliding grooves symmetrically distributed on the left side and the right side are evenly formed in the upper end of the sliding plate, the stretching rods are arranged in the sliding grooves in a sliding fit mode, the stretching rods on the front side and the rear side are connected through the connecting rod, the middle of the connecting rod is connected through the bidirectional air cylinder, the fixed end of the bidirectional air cylinder is installed in the middle of the upper end of the sliding plate through an air cylinder installation rod, in specific work, a lead screw is driven by a driving motor to rotate for a proper number of turns, the right end of the lead screw rotates, the sliding plate is made to slide on the limiting column, after the stretching rod penetrates through the working ports on the placing bottom plate and the clamping plate, the stretching rod is driven by the bidirectional cylinder to move towards the left side and the right side in the sliding groove, the holes of the stainless steel porous plate are extruded to be stretched towards the left side and the right side, the stretching rod which is evenly distributed is driven by the connecting rod to move towards the left side and the right side synchronously, and the holes of the stainless steel porous plate are stretched.

Fixture include the slide bar, supporting spring, threaded rod and connecting block, it evenly installs the slide bar near four corners to place the bottom plate upper end, the slide bar passes through sliding fit's mode and grip block connection, the outside of slide bar is provided with supporting spring, the grip block passes through supporting spring and places the bottom plate and is connected, both sides are provided with the threaded rod through screw-thread fit's mode symmetry around the grip block upper end, the threaded rod is connected with the connecting block with screw-thread fit's mode, the upper end at placing the bottom plate is installed to the connecting block, concrete during operation, through rotating the threaded rod downwards, and then make the threaded rod rotate and get into in the connecting block, promote the grip block simultaneously and move down, when extrudeing supporting spring.

The manufacturing process of the stainless steel porous stretched plate mainly comprises the following processing steps:

s1, putting the plate into: placing the stainless steel porous plate on a placing bottom plate from the left side;

s2, plate clamping: the clamping plate moves downwards by manually rotating the threaded rod, so that the stainless steel porous plate is clamped to prevent the stainless steel porous plate from being bent during stretching;

s3, stretching treatment: the driving mechanism drives the stretching mechanism to move rightwards step by step, and multi-point type sectional stretching is carried out on the stainless steel porous plate;

s4, taking out a finished product: and releasing the clamping of the clamping mechanism, and taking down the processed stainless steel porous stretching plate from the placing bottom plate.

Preferably, actuating mechanism include driving motor, lead screw, supporting shoe and sliding block, driving motor passes through motor pedestal mounting in unable adjustment base's upper end left side, even has the lead screw through the shaft coupling on driving motor's the output shaft, lead screw right-hand member unthreaded incision department installs on the supporting shoe through the bearing, the supporting shoe is fixed on unable adjustment base's upper end right side, install the sliding block through screw-thread fit's mode on the lead screw, both sides slip setting in the sliding groove around the sliding block.

Preferably, buffer gear include grip block, coupling spring, buffer board and buffer spring, the work groove has been seted up at the outside middle part of slide board, the upper and lower both ends symmetry in work groove is slided and is provided with the grip block, the grip block passes through coupling spring and is connected with the work groove, the inner of grip block slides and is provided with the buffer board, the buffer board is connected with the grip block through the buffer spring of longitudinal symmetry installation.

Preferably, stop gear include spacing spout, stripper plate, telescopic link and ball, spacing spout has evenly been seted up to the lower extreme of limiting plate, bilateral symmetry slides around the spacing spout and is provided with the stripper plate, the stripper plate is connected with spacing spout through the telescopic link of longitudinal symmetry installation, the outer end of stripper plate evenly rolls and is provided with the ball.

Preferably, the placing bottom plate and the clamping plate are evenly provided with working ports which are correspondingly matched with each other.

Preferably, the limiting sliding groove is designed to be of an arc-shaped structure.

(III) advantageous effects

1. According to the manufacturing process of the stainless steel porous stretching plate, a multi-point type sectional stretching mechanical mechanism is designed, the situation that holes are different in size when the stainless steel porous stretching plate is directly and uniformly stretched is avoided, the upper end and the lower end of the stainless steel porous stretching plate are limited in the stretching process, and bending is prevented;

2. according to the manufacturing process of the stainless steel porous stretching plate, the stainless steel porous stretching plate is stretched in sections through the stretching mechanism, so that the sizes of holes of the stainless steel porous stretching plate are the same, and the designed size requirement is met;

3. according to the manufacturing process of the stainless steel porous stretching plate, the distance between the clamping mechanism and the placing bottom plate is manually adjusted, the stainless steel porous stretching plate is kept clamped during stretching, the same flatness of the stainless steel porous stretching plate is kept after stretching, and the using effect is enhanced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a partial cross-sectional view of a spacing clip assembly of the present invention;

FIG. 5 is an enlarged view of the X-direction detail of FIG. 3 of the present invention;

FIG. 6 is an enlarged view of the Y-direction portion of FIG. 4 in accordance with the present invention;

fig. 7 is a schematic perspective view of the object processing according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a manufacturing process of a stainless steel porous drawn plate adopts the following processing machinery: this machinery includes unable adjustment base 1, stretching device 2, support column 3, places bottom plate 4 and spacing clamping device 5, unable adjustment base 1's upper end middle part be provided with stretching device 2, unable adjustment base 1 upper end is close to four corners and evenly installs support column 3, even there is the bottom plate 4 of placing in the upper end of support column 3, the top of placing bottom plate 4 is provided with spacing clamping device 5.

Stretching device 2 include actuating mechanism 21, the groove 22 slides, stretching mechanism 23 and buffer gear 24, unable adjustment base 1's upper end mid-mounting has actuating mechanism 21, the groove 22 that slides has been seted up to the left and right sides symmetry of unable adjustment base 1 upper end, and the groove 22 that slides is located actuating mechanism 21's left and right sides, be provided with stretching mechanism 23 on the actuating mechanism 21, the bilateral symmetry is provided with buffer gear 24 on stretching mechanism 23, concrete during operation, drive stretching mechanism 23 through actuating mechanism 21 and move right with the mode of progressively segmenting, and then make stretching mechanism 23 stretch the processing to the hole department of the porous tensile panel of stainless steel, prevent wearing and tearing destruction and the overstretching that cause hole department when tensile through buffer gear 24.

The driving mechanism 21 comprises a driving motor 211, a lead screw 212, a supporting block 213 and a sliding block 214, the driving motor 211 is installed on the left side of the upper end of the fixed base 1 through a motor base, the output shaft of the driving motor 211 is connected with the lead screw 212 through a coupler, a non-threaded notch at the right end of the lead screw 212 is installed on the supporting block 213 through a bearing, the supporting block 213 is fixed on the right side of the upper end of the fixed base 1, the sliding block 214 is installed on the lead screw 212 in a threaded fit mode, and the front side and the rear side of the sliding block 214 are.

The stretching mechanism 23 comprises an air cylinder 231, a sliding plate 232, limiting columns 233, sliding grooves 234, stretching rods 235, connecting rods 236 and bidirectional air cylinders 237, the air cylinder 231 is mounted on the driving mechanism 21 through an air cylinder base, the sliding plate 232 is mounted on the ejection end of the air cylinder 231, the limiting columns 233 are uniformly arranged on the sliding plate 232 close to four corners in a sliding mode, the sliding grooves 234 symmetrically distributed on the left side and the right side are uniformly arranged at the upper end of the sliding plate 232, the stretching rods 235 are arranged in the sliding grooves 234 in a sliding fit mode, the stretching rods 235 on the front side and the rear side are connected through the connecting rods 236, the middle parts of the connecting rods 236 are connected through the bidirectional air cylinders 237, the fixed ends of the bidirectional air cylinders 237 are mounted in the middle parts of the upper end of the sliding plate 232 through the air cylinder mounting rods, during specific work, the driving motor 211 drives the screw rod 212 to rotate for a proper number of turns, the right end of the, drive the upward movement of slide plate 232 through cylinder 231, make slide plate 232 slide on spacing post 233, after tensile pole 235 passes the work port of placing on bottom plate 4 and the grip block 51, insert the hole department of stainless steel porous plate, drive tensile pole 235 through two-way cylinder 237 and move to the left and right sides in spout 234, and then the hole of extrusion stainless steel porous plate is tensile to the left and right sides, drive the synchronous motion to the left and right sides of the tensile pole 235 of evenly arranging through connecting rod 236, stretch the hole of stainless steel porous plate.

The buffer mechanism 24 comprises a clamping block 241, a connecting spring 242, a buffer plate 243 and a buffer spring 244, wherein a working groove is formed in the middle of the outer side of the sliding plate 232, the clamping blocks 241 are symmetrically arranged at the upper end and the lower end of the working groove in a sliding manner, the clamping block 241 is connected with the working groove through the connecting spring 242, the buffer plate 243 is arranged at the inner end of the clamping block 241 in a sliding manner, and the buffer plate 243 is connected with the clamping block 241 through the buffer spring 244 which is symmetrically arranged up and down, when the stretching rod 235 synchronously moves towards the left side and the right side to stretch the holes of the stainless steel porous plate, the inner wall of each hole is firstly contacted with the clamping block 241, the clamping block 241 is extruded to move towards the downward end of the working groove, the connecting spring 242 is compressed, when the stretching rod 235 continues to move towards the left side and the right side, the inner wall of each hole is contacted with the buffer plate, at this time, both the connection spring 242 and the buffer spring 244 function as a buffer.

The limiting and clamping device 5 comprises a clamping plate 51, a clamping mechanism 52, a limiting plate 53 and a limiting mechanism 54, wherein the clamping plate 51 is arranged above the placing bottom plate 4, the placing bottom plate 4 is connected with the clamping plate 51 through the clamping mechanism 52, the limiting plate 53 is arranged at the upper end of the clamping plate 51, the limiting mechanism 54 is arranged in the limiting plate 53, and when the device works specifically, a stainless steel porous plate is placed at the upper end of the placing bottom plate 4, the clamping plate 51 is modulated to move downwards through the clamping mechanism 52 to be close to the placing bottom plate 4 and clamps the stainless steel porous plate, and the upper end of the stretching mechanism 23 is always kept in a certain movement range through the limiting mechanism 54 and the limiting plate 53 and is not deviated; placing the bottom plate 4 and the clamping plate 51 on evenly seted up the work mouth, and the work mouth sets up for corresponding cooperation, makes the upper end of tensile pole 235 can pass and place bottom plate 4 and clamping plate 51, gets into in the hole of stainless steel porous plate.

The clamping mechanism 52 comprises a sliding rod 521, a supporting spring 522, a threaded rod 523 and a connecting block 524, the upper end of the placement bottom plate 4 is uniformly provided with the sliding rod 521 close to four corners, the sliding rod 521 is connected with the clamping plate 51 in a sliding fit mode, the supporting spring 522 is arranged on the outer side of the sliding rod 521, the clamping plate 51 is connected with the placement bottom plate 4 through the supporting spring 522, the threaded rod 523 is symmetrically arranged on the front side and the rear side of the upper end of the clamping plate 51 in a threaded fit mode, the threaded rod 523 is connected with the connecting block 524 in a threaded fit mode, the connecting block 524 is arranged at the upper end of the placement bottom plate 4, in the specific working process, the threaded rod 523 is rotated downwards to enter the connecting block 524, the clamping plate 51 is pushed to move downwards, and the supporting spring 522 is.

The limiting mechanism 54 comprises a limiting chute 541, an extrusion plate 542, an expansion link 543 and balls 544, the limiting chute 541 is uniformly arranged at the lower end of the limiting plate 53, the extrusion plates 542 are symmetrically arranged at the front side and the rear side of the limiting chute 541 in a sliding manner, the extrusion plates 542 are connected with the limiting chute 541 through the expansion links 543 which are symmetrically arranged up and down, and the balls 544 are uniformly arranged at the outer end of the extrusion plates 542 in a rolling manner; spacing spout 541 be the design of arc structure, be convenient for tensile pole 235 slide in spacing spout 541, during concrete work, when tensile pole 235 upward movement inserts in spacing spout 541, the both ends and the ball 544 contact of tensile pole 235, promote simultaneously that stripper plate 542 moves inwards, extrude telescopic link 543, when tensile pole 235 moves to the left and right sides, prescribe a limit to the movement track of telescopic link 543 upper end through ball 544, reduce frictional force simultaneously.

s1, putting the plate into: placing the stainless steel porous plate on the placing bottom plate 4 from the left side;

s2, plate clamping: the clamping plate 51 is moved downwards by manually rotating the threaded rod 523, so that the stainless steel porous plate is clamped to prevent the stainless steel porous plate from being bent during stretching;

s3, stretching treatment: the driving mechanism 21 drives the stretching mechanism 23 to move rightwards gradually, and the multi-point sectional stretching is carried out on the stainless steel porous plate;

s4, taking out a finished product: the holding by the holding mechanism 52 is released, and the finished stainless steel porous stretched plate material is taken down from the placing bottom plate 4.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A manufacturing process of a stainless steel porous stretched plate adopts the following processing machinery: this machinery includes unable adjustment base (1), stretching device (2), support column (3), places bottom plate (4) and spacing clamping device (5), its characterized in that: a stretching device (2) is arranged in the middle of the upper end of the fixed base (1), supporting columns (3) are uniformly arranged on the upper end of the fixed base (1) close to four corners, a placing bottom plate (4) is connected to the upper ends of the supporting columns (3), and a limiting and clamping device (5) is arranged above the placing bottom plate (4);

the stretching device (2) comprises a driving mechanism (21), sliding grooves (22), stretching mechanisms (23) and buffer mechanisms (24), the driving mechanism (21) is installed in the middle of the upper end of the fixed base (1), the sliding grooves (22) are symmetrically formed in the left side and the right side of the upper end of the fixed base (1), the sliding grooves (22) are located in the left side and the right side of the driving mechanism (21), the stretching mechanisms (23) are arranged on the driving mechanism (21), and the buffer mechanisms (24) are symmetrically formed in the left side and the right side of the stretching mechanism (23);

the limiting and clamping device (5) comprises a clamping plate (51), a clamping mechanism (52), a limiting plate (53) and a limiting mechanism (54), wherein the clamping plate (51) is arranged above the placing bottom plate (4), the placing bottom plate (4) is connected with the clamping plate (51) through the clamping mechanism (52), the limiting plate (53) is installed at the upper end of the clamping plate (51), and the limiting mechanism (54) is installed in the limiting plate (53);

the stretching mechanism (23) comprises an air cylinder (231), a sliding plate (232), a limit column (233), a sliding chute (234), a stretching rod (235), a connecting rod (236) and a bidirectional air cylinder (237), the air cylinder (231) is mounted on the driving mechanism (21) through an air cylinder base, a sliding plate (232) is mounted at the ejection end of the air cylinder (231), limiting columns (233) are uniformly arranged on the sliding plate (232) close to four corners in a sliding mode, sliding grooves (234) symmetrically distributed on the left side and the right side are uniformly formed in the upper end of the sliding plate (232), stretching rods (235) are arranged in the sliding grooves (234) in a sliding fit mode, the stretching rods (235) on the front side and the rear side are connected through a connecting rod (236), the middle of the connecting rod (236) is connected through a bidirectional air cylinder (237), and the fixed end of the bidirectional air cylinder (237) is mounted in the middle of the upper end of the sliding plate (;

the clamping mechanism (52) comprises a sliding rod (521), supporting springs (522), threaded rods (523) and connecting blocks (524), the sliding rod (521) is uniformly installed at the upper end of the placing bottom plate (4) close to four corners, the sliding rod (521) is connected with the clamping plate (51) in a sliding fit mode, the supporting springs (522) are arranged on the outer side of the sliding rod (521), the clamping plate (51) is connected with the placing bottom plate (4) through the supporting springs (522), the threaded rods (523) are symmetrically arranged on the front side and the rear side of the upper end of the clamping plate (51) in a threaded fit mode, the threaded rods (523) are connected with the connecting blocks (524) in a threaded fit mode, and the connecting blocks (524) are installed at the upper end of the;

s1, putting the plate into: placing the stainless steel porous plate on the placing bottom plate (4) from the left side;

s2, plate clamping: the clamping plate (51) is moved downwards by manually rotating the threaded rod (523), so that the stainless steel porous plate is clamped to prevent the stainless steel porous plate from being bent during stretching;

s3, stretching treatment: the driving mechanism (21) drives the stretching mechanism (23) to move rightwards gradually, and the multi-point sectional stretching is carried out on the stainless steel porous plate;

s4, taking out a finished product: and releasing the clamping of the clamping mechanism (52), and taking down the processed stainless steel porous stretching plate from the placing bottom plate (4).

2. The manufacturing process of the stainless steel porous stretched plate material according to claim 1, characterized in that: actuating mechanism (21) including driving motor (211), lead screw (212), supporting shoe (213) and sliding block (214), driving motor (211) pass through motor pedestal mounting on the upper end left side of unable adjustment base (1), it has lead screw (212) to link through the shaft coupling on the output shaft of driving motor (211), lead screw (212) right-hand member unthreaded incision department installs on supporting shoe (213) through the bearing, the upper end right side at unable adjustment base (1) is fixed in supporting shoe (213), sliding block (214) are installed through screw-thread fit's mode on lead screw (212), the front and back both sides slip of sliding block (214) set up in sliding groove (22).

3. The manufacturing process of the stainless steel porous stretched plate material according to claim 1, characterized in that: buffer gear (24) including grip block (241), coupling spring (242), buffer board (243) and buffer spring (244), the work groove has been seted up at the outside middle part of slide plate (232), the upper and lower both ends symmetry of work groove is slided and is provided with grip block (241), grip block (241) are connected with the work groove through coupling spring (242), the inner of grip block (241) slides and is provided with buffer board (243), buffer board (243) are connected with grip block (241) through the buffer spring (244) of symmetry installation from top to bottom.

4. The manufacturing process of the stainless steel porous stretched plate material according to claim 1, characterized in that: limiting mechanism (54) including spacing spout (541), stripper plate (542), telescopic link (543) and ball (544), spacing spout (541) have evenly been seted up to the lower extreme of limiting plate (53), both sides symmetry slides around spacing spout (541) and is provided with stripper plate (542), stripper plate (542) are connected with spacing spout (541) through telescopic link (543) of longitudinal symmetry installation, the outer end of stripper plate (542) evenly rolls and is provided with ball (544).

5. The manufacturing process of the stainless steel porous stretched plate material according to claim 1, characterized in that: the placing bottom plate (4) and the clamping plate (51) are evenly provided with working ports which are correspondingly matched.

6. The manufacturing process of the stainless steel porous stretched plate according to claim 4, characterized in that: the limiting sliding groove (541) is designed to be of an arc-shaped structure.