CN118122890A - Prevent riveting tools that frame warp - Google Patents

Abstract

The invention relates to the technical field of frame production, in particular to a riveting tool for preventing frame deformation, which comprises a hexapod, wherein two symmetrically distributed sliding rods are arranged in the hexapod, a bidirectional threaded rod capable of rotating in the hexapod is arranged between the two sliding rods, one side of the hexapod is fixedly provided with a first driving motor, a driving shaft of the first driving motor is connected with the bidirectional threaded rod, two sliding rail frames which are symmetrically arranged and can reversely move along with the rotation of the bidirectional threaded rod are arranged on the two sliding rods and the bidirectional threaded rod, a plurality of movable self-adaptive frame retainers are slidably arranged on the two sliding rail frames, and a frame buffer which is parallel to a symmetrical shaft between the two sliding rail frames and is used for installing a frame and playing a buffering role is arranged below the hexapod. The riveting tool for preventing the deformation of the frame can effectively avoid the phenomenon that the frame is damaged due to inconsistent thickness of the raised clamping surface of the reinforcing rib or the reinforcing sleeve body, and prevent the frame from being damaged when the tool is placed on the frame.

Description

Prevent riveting tools that frame warp

Technical Field

The invention relates to the technical field of vehicle frame production, in particular to a riveting tool for preventing vehicle frame deformation.

Background

The riveting tool is special equipment or a tool for completing riveting work, is a common connecting mode, and is mainly used for fixing two or more parts together, and is particularly widely applied in the industries of automobile manufacture, aerospace, ship manufacture, heavy machinery and the like;

in the automobile manufacturing process, the riveting tool is required to accurately control the riveting position and force so as to ensure the safety and performance of a frame, and the existing frame riveting tool is mostly composed of a riveting tool with a plurality of groups of bases, a support plate is arranged on the base, a clamp for providing clamping force through hydraulic or mechanical pressure is arranged on the support plate, and the whole frame is erected so as to perform riveting operation;

However, when the frame is placed on the riveting tool by the mechanical arm, the frame is easy to be damaged during placement, and the frame body of some frames is not completely cylindrical, for example: the reinforcing ribs or the reinforcing sleeve body are required to be designed at some parts of the frame so as to increase the safety of the frame, and the phenomenon that the frame is damaged easily occurs when the clamp in the prior art clamps the frame because the reinforcing ribs or the reinforcing sleeve body are raised to cause inconsistent thickness of the surface of the frame.

Disclosure of Invention

The invention aims to solve the problems, and provides a riveting tool for preventing the deformation of a frame, which can effectively avoid the phenomenon that the frame is damaged due to inconsistent thickness of a raised clamping surface of a reinforcing rib or a reinforcing sleeve body, and prevent the frame from being damaged when the tool is placed.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the utility model provides a prevent riveting tools of frame deformation, it includes the hexapod, be equipped with two symmetric distribution's slide bar in the hexapod, two be equipped with the two-way threaded rod that can rotate in the hexapod between the slide bar, hexapod one side fixed mounting has first driving motor, first driving motor's driving shaft is connected with two-way threaded rod, two slide bar and two-way threaded rod are equipped with two symmetrical installation's that can follow two-way threaded rod rotation and reverse movement slide rail frame, two slide rail frame is last to all slidable mounting have a plurality of movable self-adaptation frame fixer, the hexapod below be equipped with two the symmetry axis between the slide rail frame be used for installing the frame and play the frame buffer of cushioning effect;

The self-adaptive frame fixer comprises a trapezoidal sliding shell, a U-shaped through groove is formed in the trapezoidal sliding shell, sliding posts which are symmetrically installed are connected in a sliding mode in two ends of the U-shaped through groove, inclined sliding surfaces are arranged at one ends of the sliding posts, close to the transverse grooves of the U-shaped through groove, of the sliding posts, trapezoidal sliding blocks matched with the inclined sliding surfaces are arranged in the transverse grooves of the U-shaped through groove, the trapezoidal sliding blocks can move left and right in the transverse grooves of the U-shaped through groove, frame top plates are arranged at one ends, far away from the inclined sliding surfaces, of the sliding posts, and fixed cover plates are detachably installed on the trapezoidal sliding blocks.

As an improvement, the slide rail frame comprises a slide rail, slide rail one side fixedly connected with diaphragm, one side that the slide rail was kept away from to the diaphragm is equipped with the riser, the riser is kept away from and is equipped with a plurality of evenly distributed's strengthening rib between slide rail one side and the diaphragm.

As an improvement, two sliding sleeves which are in sliding connection with the sliding rods are fixedly connected below the transverse plates, threaded sleeves which are positioned below the transverse plates are arranged between the two sliding sleeves, and the threaded sleeves are in threaded connection with the bidirectional threaded rods.

As an improvement, self-adaptation frame fixer still includes the slide base with slide rail sliding connection, be equipped with in the slide base with trapezoidal smooth shell matched with trapezoidal spout, slide base one end is equipped with the motor mounting bracket, motor mounting bracket swivelling joint has the internal thread axle sleeve, the one end fixedly connected with first gear that the internal thread axle sleeve is close to trapezoidal smooth shell, the one end fixedly connected with threaded rod that the trapezoidal smooth shell is close to the motor mounting bracket, the threaded rod runs through first gear and internal thread axle sleeve and with internal thread axle sleeve threaded connection, one side meshing of first gear is connected with the second gear with motor mounting bracket swivelling joint, the one end that slide base was kept away from to the motor mounting bracket is equipped with second driving motor, second driving motor's driving shaft and second gear connection.

As an improvement, one side of the motor mounting frame, which is close to the sliding base, is provided with a first caulking groove matched with the first gear, and one side of the first caulking groove is provided with a second caulking groove matched with the second gear.

As an improvement, the frame buffer comprises a rectangular base, two ends of the rectangular base are provided with strip-shaped through grooves, two support sliding blocks which are symmetrically installed are connected in the strip-shaped through grooves in a sliding mode, a first spring is arranged between each support sliding block and each strip-shaped through groove, one end, close to the outer side of the rectangular base, of each support sliding block is provided with a first rotating frame, one end, close to the inner side of the rectangular base, of each support sliding block is provided with a second rotating frame, a frame support frame is connected to the first rotating frame in a rotating mode, and spring telescopic rods are connected between two sides of the frame support frame and two sides of the second rotating frame in a rotating mode.

As an improvement, the spring telescopic link includes the mobile jib, the both ends fixedly connected with disc type stopper of mobile jib, the cover body of two symmetry installations has been cup jointed at the both ends of mobile jib, the cover body cup joints outside disc type stopper and with disc type stopper sliding connection, be equipped with the second spring that is located between disc type stopper and the cover body in the disc type stopper, be equipped with the third spring of cup jointing outside the mobile jib between disc type stopper and the cover body, two the one end that the mobile jib was kept away from to the cover body is equipped with the third swivel mount with frame support frame and second swivel mount swivelling joint.

After adopting the structure, the invention has the following advantages:

After the frame top plate of one sliding column contacts with the bulge on the frame, the inclined sliding surface of the sliding column pushes the trapezoidal sliding block to the other side, and the trapezoidal sliding block pushes the other sliding column out until one sliding column completely abuts against the transverse groove of the U-shaped through groove or the frame top plate of the other sliding column abuts against the frame, so that the frame top plate of at least one sliding column is fixed to the frame, the self-adaptive function is realized, and the frame is not damaged;

The second driving motor drives the first gear to rotate through the second gear, so that the internal thread shaft sleeve is driven to rotate, the trapezoid sliding block moves in the trapezoid sliding groove of the sliding base through the threaded rod, the position of the trapezoid sliding block is controlled, the first gear and the second gear are embedded into the first embedding groove and the second embedding groove, the first gear and the second gear are protected, and the running stability of equipment is improved;

After the two frame support frames are stressed, the two support slide blocks move oppositely, the first springs provide pretension to enable the two support slide blocks to move slowly, at the moment, the two frame support frames rotate around the first rotating frame, the spring telescopic rods provide pretension and pretension to keep balance, the frame is enabled to fall slowly, and damage caused when the frame is placed is prevented.

Drawings

Fig. 1 is a schematic structural view of a riveting tool for preventing deformation of a vehicle frame.

FIG. 2 is a second schematic structural view of a riveting tool for preventing deformation of a vehicle frame according to the present invention.

Fig. 3 is a schematic structural view of an adaptive frame fixer of a riveting tool for preventing frame deformation according to the present invention.

Fig. 4 is a schematic exploded view of an adaptive frame anchor of a riveting tool for preventing frame deformation according to the present invention.

Fig. 5 is a top view of an adaptive frame anchor of a riveting tool for preventing frame deformation in accordance with the present invention.

Fig. 6 is a schematic structural view of a slide rail of a riveting tool for preventing deformation of a vehicle frame according to the present invention.

Fig. 7 is a second schematic structural view of a slide rail of a riveting tool for preventing deformation of a vehicle frame according to the present invention.

Fig. 8 is a schematic structural view of a frame buffer of a riveting tool for preventing deformation of a frame according to the present invention.

Fig. 9 is an exploded schematic view of a frame buffer of a riveting tool for preventing deformation of a frame according to the present invention.

Fig. 10 is a schematic structural view of a spring telescoping rod of a riveting tool for preventing deformation of a vehicle frame.

FIG. 11 is a partial cross-sectional view of a spring telescoping rod of a riveting tool for preventing frame deformation of the present invention.

As shown in the figure: 1. a hexapod; 2. a two-way threaded rod; 3. a slide bar; 4. a slide rail frame; 401. a slide rail; 402. a cross plate; 403. a riser; 404. reinforcing ribs; 405. a sliding sleeve; 406. a thread sleeve; 5. an adaptive frame anchor; 501. a sliding base; 502. a trapezoidal chute; 503. a trapezoidal slide shell; 504. a motor mounting rack; 505. a first caulking groove; 506. a second caulking groove; 507. a second driving motor; 508. an internally threaded sleeve; 509. a first gear; 510. a second gear; 511. u-shaped through grooves; 512. a spool; 513. a frame roof; 514. a trapezoidal slider; 515. fixing the cover plate; 516. a threaded rod; 517. a sloping slide surface; 6. a frame buffer; 601. a rectangular base; 602. a strip-shaped through groove; 603. a support slider; 604. a first spring; 605. a first rotating frame; 606. a frame support; 607. a second rotating frame; 7. a first driving motor; 8. a spring telescoping rod; 801. a main rod; 802. a sleeve body; 803. a third rotating frame; 804. a disc-shaped limiting block; 805. a second spring; 806. and a third spring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1,2 and 6, a riveting tool for preventing frame deformation comprises a hexapod 1, two symmetrically distributed sliding rods 3 are arranged in the hexapod 1, a bidirectional threaded rod 2 capable of rotating in the hexapod 1 is arranged between the two sliding rods 3, a first driving motor 7 is fixedly arranged on one side of the hexapod 1, a driving shaft of the first driving motor 7 is connected with the bidirectional threaded rod 2, two symmetrically arranged sliding rail frames 4 capable of moving reversely along with rotation of the bidirectional threaded rod 2 are arranged on the sliding rods 3 and the bidirectional threaded rod 2, the sliding rail frames 4 comprise sliding rails 401, a transverse plate 402 is fixedly connected on one side of the sliding rail 401, a vertical plate 403 is arranged on one side, far away from the sliding rail 401, of the vertical plate 403, and a plurality of uniformly distributed reinforcing ribs 404 are arranged between the side, far away from the sliding rail 401, of the transverse plate 402;

Two sliding sleeves 405 which are in sliding connection with the sliding rods 3 are fixedly connected below the transverse plate 402, a threaded sleeve 406 positioned below the transverse plate 402 is arranged between the two sliding sleeves 405, and the threaded sleeve 406 is in threaded connection with the bidirectional threaded rod 2;

Through above-mentioned structure, start first driving motor 7, drive two-way threaded rod 2 and rotate, make two slide rail frame 4 reverse movement, two slide bar 3 plays spacing effect, and diaphragm 402 between slide rail 401 and the riser 403 is used for installing the cushion, and the cushion is prior art so does not make in here and repeating, and the height of cushion is according to the required setting of frame.

Referring to fig. 1, fig. 3, fig. 4, and fig. 5, a plurality of movable self-adaptive frame holders 5 are slidably mounted on two slide rail frames 4, each self-adaptive frame holder 5 includes a trapezoidal slide housing 503, a U-shaped through slot 511 is disposed in each trapezoidal slide housing 503, symmetrically mounted slide columns 512 are slidably connected to two ends of each U-shaped through slot 511, inclined slide surfaces 517 are disposed at one ends of each of the two slide columns 512 near each of the U-shaped through slots 511, trapezoidal slide blocks 514 matched with the two inclined slide surfaces 517 are disposed in each of the transverse slots of each of the U-shaped through slots 511, each of the trapezoidal slide blocks 514 is capable of moving left and right in each of the transverse slots of each of the U-shaped through slots 511, a frame top plate 513 is disposed at one end of each of the two slide columns 512 far from each of the inclined slide surfaces 517, and a fixed cover plate 515 is detachably mounted on each of the trapezoidal slide blocks 514;

With this structure, if the frame has protrusions such as reinforcing ribs or reinforcing sleeves, the contact surfaces of the two frame top plates 513 and the frame are not on the same plane, the two frame top plates 513 slide in the two ends of the U-shaped through groove 511, the two inclined surfaces of the trapezoidal slide block 514 are always in contact with the inclined slide surface 517 of the slide column 512, as shown in fig. 5, after the frame top plate 513 of one of the slide columns 512 contacts the protrusions on the frame, the inclined slide surface 517 of the slide column 512 pushes the trapezoidal slide block 514 to the other side, and the trapezoidal slide block 514 pushes the other slide column 512 out until one of the slide columns 512 completely abuts against the transverse groove of the U-shaped through groove 511 or the frame top plate 513 of the other slide column 512 abuts against the frame, so that it is ensured that the frame top plate 513 of at least one slide column 512 is fixed to the frame without damaging the frame.

Referring to fig. 1, fig. 3, fig. 4, and fig. 5, the adaptive frame fixer 5 further includes a sliding base 501 slidably connected with the sliding rail 401, a trapezoidal chute 502 matched with the trapezoidal sliding shell 503 is provided in the sliding base 501, one end of the sliding base 501 is provided with a motor mounting frame 504, an internal thread shaft sleeve 508 is rotatably connected to the motor mounting frame 504, one end of the internal thread shaft sleeve 508, which is close to the trapezoidal sliding shell 503, is fixedly connected with a first gear 509, one end of the trapezoidal sliding shell 503, which is close to the motor mounting frame 504, is fixedly connected with a threaded rod 516, the threaded rod 516 penetrates through the first gear 509 and the internal thread shaft sleeve 508 and is in threaded connection with the internal thread shaft sleeve 508, one side of the first gear 509 is in meshed connection with a second gear 510 rotatably connected with the motor mounting frame 504, one end, which is far away from the sliding base 501, of the motor mounting frame 504 is provided with a second driving motor 507, and a driving shaft of the second driving motor 507 is connected with the second gear 510;

Through this structure, start the second driving motor 507, the second driving motor 507 drives the first gear 509 to rotate through the second gear 510 to drive the internal thread shaft sleeve 508 to rotate, because internal thread shaft sleeve 508 and threaded rod 516 threaded connection, and then make trapezoidal slide shell 503 move in trapezoidal spout 502 of the sliding base 501 through threaded rod 516, thus control the position of trapezoidal slide shell 503, provide the clamping force for locating the frame.

Referring to fig. 4, a first caulking groove 505 matched with a first gear 509 is formed on a side of the motor mounting rack 504, which is close to the sliding base 501, and a second caulking groove 506 matched with a second gear 510 is formed on a side of the first caulking groove 505, so that the first gear 509 and the second gear 510 are embedded into the first caulking groove 505 and the second caulking groove 506, and the function of protecting the first gear 509 and the second gear 510 is achieved, and the running stability of the device is improved.

Referring to fig. 2, 8 and 9, a frame buffer 6 parallel to a symmetry axis between the two slide rail frames 4 and used for installing a frame and playing a role of buffering is arranged below the hexapod 1, the frame buffer 6 comprises a rectangular base 601, two ends of the rectangular base 601 are provided with strip-shaped through grooves 602, two symmetrically installed support sliding blocks 603 are slidably connected in the strip-shaped through grooves 602, a first spring 604 is arranged between the two support sliding blocks 603 and the strip-shaped through grooves 602, one end, close to the outer side of the rectangular base 601, of the two support sliding blocks 603 is provided with a first rotating frame 605, one end, close to the inner side of the rectangular base 601, of the two support sliding blocks 603 is provided with a second rotating frame 607, a frame support frame 606 is rotatably connected to the first rotating frame 605, and a spring telescopic rod 8 is rotatably connected between two sides of the frame support frame 606 and two sides of the second rotating frame 607;

Through this structure, the frame is placed on the two frame support frames 606 by the mechanical arm, the mechanical arm and the fixing device on the frame support frames 606 are in the prior art, so that details are not repeated herein, after the two frame support frames 606 are stressed, the two support slide blocks 603 move oppositely, the first spring 604 provides pretension to enable the two support slide blocks 603 to move slowly, the distance between the top ends of the two frame support frames 606 is unchanged due to the unchanged size in the falling process of the frame, at this time, the two frame support frames 606 rotate around the first rotating frame 605, the spring telescopic rod 8 provides pretension and keeps balance, so that the frame slowly falls down until falling onto the cushion blocks on the two transverse plates 402.

Referring to fig. 8, 10 and 11, the spring telescopic rod 8 includes a main rod 801, two ends of the main rod 801 are fixedly connected with a disc-shaped limiting block 804, two symmetrically installed sleeve bodies 802 are sleeved at two ends of the main rod 801, the sleeve bodies 802 are sleeved outside the disc-shaped limiting block 804 and are slidably connected with the disc-shaped limiting block 804, a second spring 805 positioned between the disc-shaped limiting block 804 and the sleeve bodies 802 is arranged in the disc-shaped limiting block 804, a third spring 806 sleeved outside the main rod 801 is arranged between the disc-shaped limiting block 804 and the sleeve bodies 802, a third rotating frame 803 which is rotatably connected with a frame support 606 and a second rotating frame 607 is arranged at one end of the sleeve bodies 802 far away from the main rod 801, and through the structure, the second spring 805 and the third spring 806 provide pretension or pre-tightening force for the upper end and the lower end of the two disc-shaped limiting blocks 804, so that the spring telescopic rod 8 has pretension or pre-tightening force when being telescopic slowly telescopic.

In the implementation of the invention, cushion blocks are arranged on the transverse plate 402 between the sliding rail 401 and the vertical plate 403 in advance, the cushion blocks are not described in detail in the prior art, the height of the cushion blocks is set according to the requirement of the frame, the frame is placed on the two frame support frames 606 through a mechanical arm, the mechanical arm and the fixing devices on the frame support frames 606 are not described in detail in the prior art, after the two ends of the frame are placed on the fixing devices on the frame support frames 606, the frame descends under the gravity, the distance between the top ends of the two frame support frames 606 is unchanged due to the unchanged size in the falling process of the frame, at the moment, the two frame support frames 606 rotate around the first rotating frame 605, the second springs 805 and the third springs 806 of the spring telescopic rods 8 provide pretension or pretightening force for the upper end and the lower end of the two disc-shaped limiting blocks 804, so that the two frame support frames 606 rotate around the first rotating frame support frames 605 and keep balance until the two frame support frames fall on the two transverse plates 402 slowly;

After the frame falls onto the cushion block on the transverse plate 402, the first driving motor 7 is started to drive the bidirectional threaded rod 2 to rotate, so that the two sliding rail frames 4 move reversely, and the two sliding rods 3 play a limiting role until the two vertical plates 403 are basically attached to the frame inner frame;

The second driving motor 507 is started, the second driving motor 507 drives the first gear 509 to rotate through the second gear 510, so as to drive the internal thread shaft sleeve 508 to rotate, and as the internal thread shaft sleeve 508 is in threaded connection with the threaded rod 516, the trapezoid slide shell 503 moves in the trapezoid slide groove 502 of the sliding base 501 through the threaded rod 516, so as to control the position of the trapezoid slide shell 503, when the frame top plate 513 of one slide column 512 contacts with a bulge on the frame, the inclined slide surface 517 of the slide column 512 pushes the trapezoid slide block 514 to the other side, the trapezoid slide block 514 pushes the other slide column 512 out until one slide column 512 completely abuts against a transverse groove of the U-shaped through groove 511 or the frame top plate 513 of the other slide column 512, so that the frame is fixed by the frame top plate 513 of at least one slide column 512, and the frame is not damaged, and the riveting operation can be performed.

The invention and its embodiments have been described above without limitation, and the actual construction is not limited thereto. In general, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution will not be creatively devised without departing from the gist of the present invention.

Claims (7)

1. The utility model provides a prevent riveting tools of frame deformation, it includes hexapod (1), be equipped with two symmetric distribution's slide bar (3) in hexapod (1), two be equipped with between slide bar (3) can be at hexapod (1) internal rotation's two-way threaded rod (2), hexapod (1) one side fixed mounting has first driving motor (7), the driving shaft of first driving motor (7) is connected with two-way threaded rod (2), two be equipped with two on slide bar (3) and two-way threaded rod (2) can follow two-way threaded rod (2) rotation and the symmetrically installed slide rail frame (4), its characterized in that of reverse removal: a plurality of movable self-adaptive frame retainers (5) are slidably arranged on the two sliding rail frames (4), and a frame buffer (6) which is parallel to a symmetry axis between the two sliding rail frames (4) and is used for installing frames and playing a role in buffering is arranged below the six foot frames (1);

The self-adaptive frame fixer (5) comprises a trapezoidal sliding shell (503), a U-shaped through groove (511) is formed in the trapezoidal sliding shell (503), sliding posts (512) which are symmetrically installed are connected in a sliding mode in two ends of the U-shaped through groove (511), inclined sliding faces (517) are arranged at one ends of the sliding posts (512) close to the transverse grooves of the U-shaped through groove (511), trapezoidal sliding blocks (514) matched with the inclined sliding faces (517) are arranged in the transverse grooves of the U-shaped through groove (511), the trapezoidal sliding blocks (514) can move left and right in the transverse grooves of the U-shaped through groove (511), frame top plates (513) are arranged at one ends, far away from the inclined sliding faces (517), of the two sliding posts (512), and fixed cover plates (515) are detachably installed on the trapezoidal sliding blocks (514).

2. The anti-frame deformation riveting tool as claimed in claim 1, wherein: the sliding rail frame (4) comprises a sliding rail (401), a transverse plate (402) is fixedly connected to one side of the sliding rail (401), a vertical plate (403) is arranged on one side, far away from the sliding rail (401), of the transverse plate (402), and a plurality of reinforcing ribs (404) which are uniformly distributed are arranged between one side, far away from the sliding rail (401), of the vertical plate (403) and the transverse plate (402).

3. The anti-frame deformation riveting tool as claimed in claim 2, wherein: two sliding sleeves (405) which are in sliding connection with the sliding rod (3) are fixedly connected below the transverse plate (402), a threaded sleeve (406) positioned below the transverse plate (402) is arranged between the two sliding sleeves (405), and the threaded sleeve (406) is in threaded connection with the bidirectional threaded rod (2).

4. The anti-frame deformation riveting tool as claimed in claim 2, wherein: the self-adaptive frame fixer (5) further comprises a sliding base (501) which is in sliding connection with the sliding rail (401), a trapezoidal sliding groove (502) which is matched with the trapezoidal sliding shell (503) is formed in the sliding base (501), a motor mounting frame (504) is arranged at one end of the sliding base (501), an inner thread shaft sleeve (508) is rotatably connected to the motor mounting frame (504), a first gear (509) is fixedly connected to one end of the inner thread shaft sleeve (508) close to the trapezoidal sliding shell (503), a threaded rod (516) is fixedly connected to one end of the trapezoidal sliding shell (503) close to the motor mounting frame (504), the threaded rod (516) penetrates through the first gear (509) and the inner thread shaft sleeve (508) and is in threaded connection with the inner thread shaft sleeve (508), a second gear (510) which is in rotary connection with the motor mounting frame (504) is in meshed connection with one side of the first gear (509), one end of the motor mounting frame (504) far away from the sliding base (501) is provided with a second driving motor (507), and a driving shaft of the second driving motor (507) is connected with the second gear (510).

5. The anti-frame deformation riveting tool as claimed in claim 4, wherein: one side of the motor mounting frame (504) close to the sliding base (501) is provided with a first caulking groove (505) matched with the first gear (509), and one side of the first caulking groove (505) is provided with a second caulking groove (506) matched with the second gear (510).

6. The anti-frame deformation riveting tool as claimed in claim 1, wherein: frame buffer (6) are including rectangle base (601), the both ends of rectangle base (601) are equipped with bar logical groove (602), two the interior sliding connection of bar logical groove (602) has two symmetry installation's support slider (603), two be equipped with first spring (604) between support slider (603) and bar logical groove (602), two support slider (603) are close to the one end in rectangle base (601) outside and are equipped with first swivel mount (605), two support slider (603) are close to the inboard one end of rectangle base (601) and are equipped with second swivel mount (607), swivelling joint has frame support frame (606) on first swivel mount (605), swivelling joint has spring telescopic link (8) between the both sides of frame support frame (606) and the both sides of second swivel mount (607).

7. The anti-frame deformation riveting tool as claimed in claim 6, wherein: the spring telescopic rod (8) comprises a main rod (801), two ends of the main rod (801) are fixedly connected with disc-shaped limiting blocks (804), two symmetrically installed sleeve bodies (802) are sleeved at two ends of the main rod (801), the sleeve bodies (802) are sleeved outside the disc-shaped limiting blocks (804) and are in sliding connection with the disc-shaped limiting blocks (804), second springs (805) located between the disc-shaped limiting blocks (804) and the sleeve bodies (802) are arranged in the disc-shaped limiting blocks (804), third springs (806) sleeved outside the main rod (801) are arranged between the disc-shaped limiting blocks (804) and the sleeve bodies (802), and one ends, far away from the main rod (801), of the sleeve bodies (802) are provided with third rotating frames (803) which are in rotating connection with a frame support frame (606) and a second rotating frame (607).