CN115179067B - Thin-wall flange part fixing equipment based on flexible positioning locking - Google Patents

Abstract

The invention relates to the technical field of thin-wall flange part fixation, in particular to a flexible positioning locking type thin-wall flange part fixation device. The device comprises a bottom plate, wherein a fixed plate is arranged on the surface of the bottom plate, a guide plate is arranged on the fixed plate through a rod body, one end of the guide plate is hinged with a connecting arm, the bottoms of the connecting arms are both connected with positioning disks, and the outer sides of the positioning disks are connected with positioning outer arms; the fixed block is installed to the bottom surface of roof, and the inboard of fixed block slides there is the guide arm, and the bottom of guide arm and the other end surface adaptation contact of deflector, and the surface mounting of fixed block has the scale. The thin-wall flange part is flexibly positioned through the guide plate, the guide arm faces upwards along the side face of the graduated scale, the top of the guide arm points to the position of the graduated scale, the thickness dimension of the thin-wall flange part is obtained through reading the number of the current position of the position, the processed thin-wall flange part can be measured, and the thin-wall flange part can be classified in an adaptive mode according to the thickness dimension.

Description

Thin-wall flange part fixing equipment based on flexible positioning locking

Technical Field

The invention relates to the technical field of thin-wall flange part fixation, in particular to a flexible positioning locking type thin-wall flange part fixation device.

Background

The thin-wall flange part is fixed through the fixed clamping equipment, so that the thin-wall flange part can be conveniently machined, when the thin-wall flange part with different specifications is fixed to carry out operations such as perforating or polishing, the clamping and fixing equipment adopted by the conventional thin-wall flange part fixing only has a positioning function, the thin-wall flange part with different specifications cannot be identified, and after the operations such as perforating or polishing are completed, the machined thin-wall flange parts with large batches and different specifications are all located in the same area, such as a box body, so that the machining can only be carried out, the machined thin-wall flange part cannot be subjected to adaptation classification according to specific attributes, and labor is wasted when personnel take the parts later.

Disclosure of Invention

The invention aims to provide a thin-wall flange part fixing device based on flexible positioning locking, so as to solve the problems in the background technology.

In order to achieve the above object, the present invention provides a flexible positioning locking type thin-wall flange fixing device, at least comprising:

the device comprises a bottom plate, wherein fixed plates are symmetrically arranged on the surface of the bottom plate, guide plates are arranged on the fixed plates through rod bodies, motors are arranged on the outer sides of the fixed plates, the motors are fixedly connected with the rod bodies, one ends of the guide plates are hinged with connecting arms, positioning disks are connected to the bottoms of the connecting arms, positioning outer arms are connected to the outer sides of the positioning disks, the positioning outer arms are arranged in multiple groups, and when the positioning outer arms are in contact with thin-wall flange pieces, the positioning outer arms can form flexible positioning with the thin-wall flange pieces;

the top plate, the top plate is located the top of bottom plate to through plate body fixed connection between bottom plate and the top plate, the fixed block is installed to the bottom surface of top plate, the inboard slip of fixed block has the guide arm, the bottom of guide arm and the other end surface adaptation contact of deflector, the deflector is used for driving the rising, the going down of guide arm, the surface mounting of fixed block has the scale, and when the guide arm is located the side upward movement of scale, the scale can measure thin wall flange spare thickness dimension, and the top side of guide arm can correspond with the side reading of scale.

As a further improvement of the technical scheme, a cavity is reserved on the inner side of the outer positioning arm, the inner positioning arm is clamped in the cavity, positioning cavities are formed in the surfaces of the inner positioning arm and the outer positioning arm, and the positioning cavities are connected and locked through positioning bolts.

As a further improvement of the technical scheme, the positioning inner arm and the positioning outer arm are connected and fixed through the positioning spring.

As a further improvement of the technical scheme, the side symmetry of the guide plate is provided with support arms, two support arms are hinged through positioning rods between one ends of the support arms, the positioning rods are fixedly connected with the guide plate, two support arms are hinged with cleaning plates between the other ends of the support arms, and the cleaning plates are used for cleaning residual scraps after processing thin-wall flange parts on the surface of the bottom plate.

As a further improvement of the technical scheme, the side face of the cleaning plate is provided with a magnetic plate, the magnetic plate can absorb residual scraps after being close to the residual scraps, the side face of the magnetic plate is provided with a filter plate, and the filter plate is used for blocking the residual scraps.

As a further improvement of the technical scheme, the side face of the cleaning plate is provided with an inner cavity, the magnetic plate and the filter plate are both positioned at the inner side of the inner cavity and are clamped, and the filter plate is positioned at the rear side of the magnetic plate.

As a further improvement of the technical scheme, the surface of the bottom plate is respectively provided with a concave cavity and a groove, and the concave cavity and the groove are used for discharging residual scraps; the side of clearance board is equipped with the slider, the slider is located the surface slip of bottom plate.

As a further improvement of the technical scheme, the top of the guide arm is provided with a pointing block, the pointing block can slide with the outer side of the graduated scale, the bottom of the surface of the graduated scale is smooth, no digital reading exists at the smooth position, and the smooth size of the bottom of the pointing block is matched with the connecting arm; the bottom surface tip of deflector installs buffer spring, buffer spring and bottom plate fixed connection.

As the further improvement of this technical scheme, the inboard of recess is provided with rotates the separator, rotate the separator including the axis body of being connected with the recess rotation at least, the outside cover of axis body is equipped with the lamina, the recess is stretched out at the top of lamina, and the lamina can contact with the location chamber, the side of lamina all is connected with the rubber column, the rubber column is used for providing extrusion buffering power, the end connection of axis body has the dwang, the dwang stretches out the outside of bottom plate.

As a further improvement of the technical scheme, the bottom of the bottom plate is provided with the supporting plate, the surface of the supporting plate is provided with the bin body, the bin body is located below the concave cavity and the groove, the bin body is used for carrying residual chips discharged from the concave cavity and the groove, the bottom of the bin body is provided with the bulge, the surface of the supporting plate is provided with the track, and the bulge slides in the track.

Compared with the prior art, the invention has the beneficial effects that:

1. in this thin-wall flange spare fixed equipment based on flexible location locking formula, through deflector to thin-wall flange spare flexible location, and the guide arm upwards along the side of scale, the position of the pointed scale in top of guide arm obtains the thickness dimension of thin-wall flange spare through reading the digital of locating current position, all measurable to the thin-wall flange spare of processing, and can carry out the adaptation classification thin-wall flange spare according to thickness dimension, does benefit to follow-up personnel to take thin-wall flange spare.

2. According to the flexible positioning locking type thin-wall flange piece fixing equipment, according to the inner diameter length dimension of the current thin-wall flange piece, the positioning inner arm is pulled out from the cavity of the positioning outer arm, the positioning bolt penetrates through the positioning cavity to achieve locking, connection locking cooperation of the positioning inner arm and the positioning outer arm is ensured, and the end part of the positioning inner arm can be in adaptive contact with the thin-wall flange piece and is flexibly locked.

3. This thin wall flange spare fixed equipment based on flexible location locking formula is removed through the clearance board reset, because of leaving the rotation interval between the lamina, and rotate interval and clearance board's width adaptation, after the clearance board drove the lamina upset, the rubber column of another lamina can upwards rotate and contact and scrape at the lateral surface of filter plate for the residual piece that is located the filter plate surface all is cleared up.

Drawings

FIG. 1 is a schematic diagram of the whole structure of the present invention;

FIG. 2 is a schematic diagram of the whole structure of the present invention;

FIG. 3 is a schematic view of the structure of the base plate of the present invention;

FIG. 4 is a schematic view of a mounting plate and guide plate structure of the present invention;

FIG. 5 is a schematic view of the structure of the positioning outer arm and the positioning inner arm of the present invention;

FIG. 6 is a exploded view of a cleaning plate structure of the present invention;

FIG. 7 is a fragmentary view of the mounting block and scale structure of the present invention;

FIG. 8 is a schematic view of a rotational separator according to the present invention;

FIG. 9 is a schematic diagram of the overall structure of the present invention;

fig. 10 is a schematic view of the structure of the bin body of the invention.

The meaning of each reference sign in the figure is:

1. a bottom plate; 11. a cavity; 12. a groove;

2. a top plate;

3. a fixing plate;

4. a guide plate; 41. a connecting arm; 42. a positioning plate; 421. positioning an outer arm; 422. positioning the inner arm; 423. a positioning cavity; 424. a positioning bolt; 425. a positioning spring; 43. a support arm; 44. a positioning rod; 45. a cleaning plate; 451. an inner cavity; 452. a magnetic plate; 453. a filter plate; 454. a slide block;

5. a fixed block; 51. a guide arm; 52. a pointing block; 53. a graduated scale;

6. a buffer spring;

7. rotating the separating member; 71. a shaft body; 72. a blade; 73. a rubber column; 74. a rotating lever;

8. a support plate; 81. a bin body; 82. a slide rail.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-7, an object of the present embodiment is to provide a thin-wall flange fixing device based on flexible positioning locking, at least including:

the base plate 1, the fixed plate 3 is symmetrically installed on the surface of the base plate 1, the guide plate 4 is installed on the fixed plate 3 through the rod body, the motor is fixedly connected with the rod body, one end of the guide plate 4 is hinged with the connecting arm 41, the bottom of the connecting arm 41 is connected with the positioning disc 42, the outer side of the positioning disc 42 is connected with the positioning outer arms 421, the positioning outer arms 421 are a plurality of groups, and when the positioning outer arms 421 are contacted with the thin-wall flange, the positioning outer arms 421 can form flexible positioning with the thin-wall flange;

the top plate 2 is positioned above the bottom plate 1, the bottom plate 1 and the top plate 2 are fixedly connected through a plate body, a fixed block 5 is arranged on the bottom surface of the top plate 2, a guide arm 51 is arranged on the inner side of the fixed block 5 in a sliding manner, the bottom of the guide arm 51 is in adaptive contact with the surface of the other end of the guide plate 4, the guide plate 4 is used for driving the guide arm 51 to rise and fall, a graduated scale 53 is arranged on the surface of the fixed block 5, when the guide arm 51 is positioned on the side surface of the graduated scale 53 to move upwards, the graduated scale 53 can measure the thickness dimension of the thin-wall flange piece, and the top side of the guide arm 51 can correspond to the side surface reading of the graduated scale 53;

when the guide plate 4 is specifically used, the thin-wall flange piece is placed on the surface of the bottom plate 1, the thin-wall flange piece is positioned right below the positioning plate 42, the motor drives the rod body to rotate leftwards at the moment, so that the guide plate 4 can be positioned between the fixing plates 3 and rotate obliquely, the end part of the guide plate 4 can incline leftwards, the positioning plate 42 gradually faces downwards and is close to the surface of the thin-wall flange piece, when the positioning outer arm 421 is in contact with the outer side of the thin-wall flange piece, the thin-wall flange piece achieves flexible positioning, at the moment, the motor is closed, the processing of the thin-wall flange piece can be facilitated, wherein when the guide plate 4 rotates obliquely, the other end of the guide plate 4 is inclined upwards, the guide arm 51 connected to the guide plate 4 can be subjected to upward supporting force, the guide arm 51 is connected with the fixing block 5 in a sliding mode, the guide arm 51 is gradually upwards, the guide arm 51 faces upwards along the side face of the scale 53, and the surface of the scale 53 is provided with digital readings in advance, so that the top of the guide arm 51 points to the position of the scale 53, a person can directly read the digital number of the current position, and obtain the thickness of the thin-wall flange piece, and the thin-wall flange piece can be obtained, and the size of the thin-wall flange piece can be measured according to the size of the thin-wall flange piece can be obtained, and the size of the thin-wall flange piece can be measured, and the size can be matched to be measured, and the size of a subsequent flange piece can be conveniently processed.

Considering that when drilling or polishing of the thin-wall flange piece is carried out, the scraps can fall on the surface of the bottom plate 1, in order to clean the residual scraps on the surface of the bottom plate 1 after the machining is finished, the thin-wall flange piece is ensured to be placed horizontally later, the adaptive flexible positioning is achieved, the support arms 43 are symmetrically arranged on the sides of the guide plate 4, one ends of the two support arms 43 are hinged through the positioning rods 44, the positioning rods 44 are fixedly connected with the guide plate 4, the cleaning plate 45 is hinged between the other ends of the two support arms 43, the cleaning plate 45 is used for cleaning the residual scraps on the surface of the bottom plate 1 after the machining of the thin-wall flange piece, when the guide plate 4 inclines leftwards, the positioning outer arm 421 and the positioning inner arm 422 achieve flexible positioning, after the positioning and the machining are finished, the guide plate 4 is driven to rotate rightwards through the motor, the support arms 43 hinged at the end parts of the guide plate 4 are hinged to move laterally accordingly, and the cleaning plate 45 moves leftwards, and the residual scraps on the thin-wall flange piece after the machining is pushed and cleaned.

Considering to some recoverable residual piece, unable separation is retrieved, the cost is extravagant that has led to, the side of clearance board 45 is equipped with magnetic plate 452, magnetic plate 452 can adsorb it after being close to residual piece, the side of magnetic plate 452 is equipped with filter plate 453, filter plate 453 is used for the blockking of residual piece, through the lateral movement of clearance board 45, the attached magnetic force of magnetic plate 452 can absorb adsorbable piece magnetism, and under filter plate 453's blockking, make the equal laminating of protection of remaining piece of being absorbed in filter plate 453 side, can cause the striking damage to it when avoiding the residual piece direct contact magnetic plate 452 of metal, guaranteed the life of magnetic plate 452, use cost is reduced.

Wherein, cavity 451 has been seted up to the side of clearance board 45, and magnetic plate 452 and filter plate 453 all are located the inboard joint of cavity 451, and filter plate 453 is located the rear side of magnetic plate 452 for magnetic plate 452 and filter plate 453 can not occupy the outside of clearance board 45, make magnetic plate 452 and filter plate 453 and the connection of clearance board 45 laminate reality more, and magnetic plate 452 and filter plate 453's the protrusion that does not influence bottom plate 1 surface and place the region of thin wall flange spare.

In order to further enable the residual scraps to be discharged outwards, the residual scraps can fall downwards through the concave cavities 11 and the grooves 12, the concave cavities 11 and the grooves 12 are respectively formed in the surface of the bottom plate 1, and the concave cavities 11 and the grooves 12 are used for discharging the residual scraps; the side of clearance board 45 is equipped with slider 454, and slider 454 is located the surface slip of bottom plate 1, considers clearance board 45 when the slip adsorbs remaining piece, and the size of clearance board 45 and recess 12 adaptation can lead to the condition that clearance board 45 card is inboard at recess 12 to appear, is located the side of recess 12 through slider 454 to slider 454 is located the surface slip of bottom plate 1, can make clearance board 45 can not drop the card inboard at recess 12, ensures the normal slip adsorption operation of clearance board 45.

Considering that the residual scraps can be adsorbed on the side surface of the filter plate 453 through the magnetic plate 452, but the residual scraps can be directly positioned on the outer side of the filter plate 453 and are difficult to be discharged out of the groove 12 due to the magnetic attraction force of the magnetic plate 452, the rotating separation piece 7 is arranged on the inner side of the groove 12 and at least comprises a shaft body 71 which is rotationally connected with the groove 12, the outer side of the shaft body 71 is sleeved with a blade 72, the top of the blade 72 extends out of the groove 12, the blade 72 can be in contact with the positioning cavity 423, the side surfaces of the blade 72 are both connected with rubber columns 73, the rubber columns 73 are used for providing extrusion buffering force, the end part of the shaft body 71 is connected with a rotating rod 74, the rotating rod 74 extends out of the bottom plate 1, when the cleaning plate 45 is in lateral reset movement, the cleaning plate 45 contacts the blade 72 and drives the blade 72, the rotating separation piece 7 is reserved between the blade 72, and the rotating separation piece is matched with the width of the cleaning plate 45, and after the cleaning plate 45 drives the blade 72 to overturn, the rubber columns 73 of the other blade 72 are rotated upwards and contact with the outer side surface of the filter plate 453, so that the rubber columns 73 positioned on the surface of the filter plate 453 cannot be in contact with the dead rubber columns 73, and the dead-state of the rubber columns 73 cannot be in contact with the filter plate 453.

Example 2

Considering that the inner diameters of different thin-wall flange pieces are different, the length dimension of the positioning outer arm 421 and the flexible positioning which cannot be in adaptive contact with the current thin-wall flange piece are further improved on the basis of the embodiment 1, as shown in fig. 5:

the inner side of the outer locating arm 421 is provided with a cavity, the inner locating arm 422 is clamped in the cavity, the surfaces of the inner locating arm 422 and the outer locating arm 421 are provided with locating cavities 423, the locating cavities 423 can be connected and locked through locating bolts 424, according to the inner diameter length dimension of the current thin-wall flange, the inner locating arm 422 is pulled out from the cavity of the outer locating arm 421, and the locating cavities 423 are penetrated through the locating bolts 424 to achieve locking, so that the inner locating arm 422 and the outer locating arm 421 are connected and locked, and the end part of the inner locating arm 422 can be in adaptive contact with the thin-wall flange and flexibly locked.

It should be noted that, considering that the positioning outer arm 421 and the positioning inner arm 422 need to be adapted to contact with the thin-wall flange, so that the bottom side of the cavity of the positioning outer arm 421 is in a hollowed design, which results in that the positioning inner arm 422 is separated from the positioning outer arm 421 in the adjusting process, inconvenience is generated when personnel adjust the positioning inner arm 422, the positioning inner arm 422 and the cavity of the positioning outer arm 421 are connected and fixed by the positioning spring 425, the positioning inner arm 422 is connected by the positioning spring 425, and the positioning spring 425 is symmetrically arranged up and down, so that the positioning inner arm 422 is not separated from the positioning inner arm 422 when the positioning pin 424 is adjusted even if the positioning pin 424 is not in contact with the locking.

Example 3

Considering that when the guide arm 51 slides on the side of the scale 53 to handle the reading, since the guide arm 51 is only in sliding fit with the fixed block 5, the bottom of the guide arm 51 contacts with the surface of the guide plate 4, so that the guide arm 51 is not stable enough in movement, and the accuracy of the side contact pointing with the scale 53 is affected, this embodiment is further improved on the basis of embodiment 1, as shown in fig. 7:

the top of the guide arm 51 is provided with a pointing block 52, the pointing block 52 can slide with the outer side of the graduated scale 53, the surface bottom of the graduated scale 53 is smooth, no digital reading exists at the smooth position, and the smooth size of the bottom of the pointing block 52 is matched with the connecting arm 41; the buffer spring 6 is installed to the bottom surface tip of deflector 4, buffer spring 6 and bottom plate 1 fixed connection, can be in the side adaptation contact of scale 53 through directional piece 52, and form slip orientation, ensure the slip stability of guide arm 51, and also comparatively accurate to the pointed reading information of directional piece 52, and through the smooth surface size of scale 53 and linking arm 41 adaptation, eliminate the length that linking arm 41 should, move through guide arm 51, and the non-smooth surface of scale 53 shows the reading, ensure the accuracy of the directional measurement information in top of directional piece 52, through the elasticity buffer force of buffer spring 6 itself, when deflector 4 carries out tilting motion, under buffer spring 6's connection, it is slow enough, avoid the rotation of motor to drive deflector 4 to move too soon and cause unexpected extrusion damage to the thin wall flange spare.

Example 4

Considering that the bottom of the bottom plate 1 is not provided with a receiving component, when the bottom surface of the bottom plate 1 contacts with the ground, the residual scraps cannot fall out through the concave cavity 11 and the groove 12, and cannot be separated and received, and the recovery efficiency of the residual scraps with the thickness is also affected, the embodiment is further improved on the basis of the embodiment 1, as shown in fig. 9 and 10:

the backup pad 8 is installed to the bottom of bottom plate 1, the surface of backup pad 8 is provided with the storehouse body 81, the below of cavity 11 and recess 12 is located to the storehouse body 81, and the storehouse body 81 is used for accepting the interior exhaust residual piece of cavity 11 and recess 12, the arch is installed to the bottom of the storehouse body 81, the track has been seted up on the surface of backup pad 8, the arch slides in the track, can accept the even separation of the residual piece that top cavity 11 and recess 12 break away from through the storehouse body 81, and through the sliding connection of the storehouse body 81 and slide rail 82, can make the storehouse body 81 slip out after the completion of succession residual piece, carry out recovery processing with the residual piece of accepting.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (2)

1. Thin wall flange spare fixed equipment based on flexible location locking formula, its characterized in that: at least comprises:

the device comprises a bottom plate (1), wherein a fixed plate (3) is symmetrically arranged on the surface of the bottom plate (1), a guide plate (4) is arranged on the fixed plate (3) through a rod body, a motor is arranged on the outer side of the fixed plate (3), the motor is fixedly connected with the rod body, one end of the guide plate (4) is hinged with a connecting arm (41), the bottoms of the connecting arms (41) are both connected with positioning disks (42), the outer sides of the positioning disks (42) are connected with positioning outer arms (421), the positioning outer arms (421) are arranged in multiple groups, and when the positioning outer arms (421) are in contact with a thin-wall flange, the positioning outer arms (421) can form flexible positioning with the thin-wall flange;

the top plate (2), the top plate (2) is located the top of bottom plate (1), and pass through plate body fixed connection between bottom plate (1) and the top plate (2), fixed block (5) are installed to the bottom surface of top plate (2), the inboard slip of fixed block (5) has guide arm (51), the bottom of guide arm (51) and the other end surface adaptation contact of deflector (4), deflector (4) are used for driving the lift of guide arm (51), the surface mounting of fixed block (5) has scale (53), when guide arm (51) are located the side of scale (53) and upwards move, scale (53) can measure thin wall flange spare thickness dimension, and the top side of guide arm (51) can correspond with the side reading of scale (53);

a cavity is reserved on the inner side of the outer positioning arm (421), an inner positioning arm (422) is clamped in the cavity, positioning cavities (423) are formed in the surfaces of the inner positioning arm (422) and the outer positioning arm (421), and the positioning cavities (423) can be connected and locked through positioning bolts (424);

the positioning inner arm (422) and the positioning outer arm (421) are fixedly connected through a positioning spring (425);

the side of the guide plate (4) is symmetrically provided with support arms (43), one ends of the two support arms (43) are hinged through a positioning rod (44), the positioning rod (44) is fixedly connected with the guide plate (4), a cleaning plate (45) is hinged between the other ends of the two support arms (43), and the cleaning plate (45) is used for cleaning residual scraps after thin-wall flange parts are machined on the surface of the bottom plate (1);

the side of the cleaning plate (45) is provided with a magnetic plate (452), the magnetic plate (452) can absorb residual scraps after being close to the residual scraps, the side of the magnetic plate (452) is provided with a filter plate (453), and the filter plate (453) is used for blocking the residual scraps;

an inner cavity (451) is formed in the side face of the cleaning plate (45), the magnetic plate (452) and the filter plate (453) are both located on the inner side of the inner cavity (451) in a clamping mode, and the filter plate (453) is located on the rear side of the magnetic plate (452);

the surface of the bottom plate (1) is provided with a concave cavity (11) and a groove (12) respectively, and the concave cavity (11) and the groove (12) are used for discharging residual scraps; a sliding block (454) is arranged on the side of the cleaning plate (45), and the sliding block (454) is positioned on the surface of the bottom plate (1) to slide;

a pointing block (52) is arranged at the top of the guide arm (51), the pointing block (52) can slide with the outer side of the graduated scale (53), the bottom of the surface of the graduated scale (53) is smooth, no digital reading exists at the smooth position, and the smooth size of the bottom of the pointing block (52) is matched with the connecting arm (41); a buffer spring (6) is arranged at the bottom end part of the guide plate (4), and the buffer spring (6) is fixedly connected with the bottom plate (1);

the inside of recess (12) is provided with rotates separation piece (7), rotate separation piece (7) including at least with recess (12) rotate shaft body (71) of being connected, the outside cover of shaft body (71) is equipped with paddle (72), recess (12) are stretched out at the top of paddle (72), and paddle (72) can contact with location chamber (423), the side of paddle (72) all is connected with rubber column (73), rubber column (73) are used for providing extrusion buffer force, the end connection of shaft body (71) has dwang (74), outside that bottom plate (1) are stretched out to dwang (74).

2. The flexible positioning locking type thin-wall flange piece fixing device according to claim 1, wherein: the bottom of bottom plate (1) is installed backup pad (8), the surface of backup pad (8) is provided with storehouse body (81), the below that storehouse body (81) are located cavity (11) and recess (12), and storehouse body (81) are used for accepting the exhaust residual piece in cavity (11) and recess (12), protruding is installed to the bottom of storehouse body (81), the track has been seted up on the surface of backup pad (8), protruding slides in the track.