CN109175195B

CN109175195B - Rivet pressing method using rivet pressing tool

Info

Publication number: CN109175195B
Application number: CN201811092390.4A
Authority: CN
Inventors: 叶昌霞
Original assignee: Chongqing Jucheng Machinery Co ltd
Current assignee: Chongqing Jucheng Machinery Co ltd
Priority date: 2018-09-19
Filing date: 2018-09-19
Publication date: 2024-04-26
Anticipated expiration: 2038-09-19
Also published as: CN109175195A

Abstract

The invention discloses a rivet pressing tool, and relates to the technical field of engine part machining tools. This pressure rivet frock, including base station and aircraft nose, be equipped with the fixing base on the base station, the fixing base is including the base plate of connecting the base station, the limiting plate of base plate top is located in parallel, and be located the base plate between base plate and the limiting plate, be equipped with the hole of stepping down that supplies camshaft male on the base plate, stretch out two support columns on the terminal surface around the hole of stepping down, two support columns correspond staple and base nail respectively, limiting plate one side is equipped with the opening, the opening extends to the hole of stepping down of base plate top alignment, form the spacing breach that supplies the gear plate to get into, the aircraft nose stretches out towards spacing breach and has the clamp head, the clamp head is controlled by the aircraft nose and moves along vertical direction, clamp head corresponds the staple and the base staple stretches out has two tight pressure bars of fixing, the length that the tight pressure bar of corresponding base nail is less than another tight pressure bar of fixing. The scheme can press-fit the fixing nails and the base nails simultaneously.

Description

Rivet pressing method using rivet pressing tool

Technical Field

The invention relates to the technical field of engine part machining tools, in particular to a rivet pressing method by utilizing a rivet pressing tool.

Background

The engine camshaft is an important component of an engine valve mechanism, and in order to solve the problem of over-high gas pressure in a cylinder during engine starting, a decompression mechanism is usually arranged on the existing engine to perform starting decompression, and the basic principle is that when the engine is started to normal idle speed, an exhaust valve is in an adaptive opening state through the decompression mechanism, and compressed gas in the cylinder can enter an exhaust pipe through the exhaust valve, so that the pressure of the gas in the cylinder is reduced; after the engine is started, the decompression mechanism acts to reset the exhaust valve.

As shown in fig. 1, the camshaft for the conventional engine includes a camshaft 1, a gear disk 11 provided at one end of the camshaft 1, and a damper mechanism 14 provided between the camshaft 1 and the gear disk 11. The gear plate 11 is provided with a fixed nail 12 and a base nail 13.

Wherein the height of the fixing nails 12 protruding out of the gear plate 11 is higher than that of the base nails 13.

In production and installation, two pins need to be pressed respectively.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and providing a rivet pressing method by utilizing a rivet pressing tool, which can be used for simultaneously pressing and installing a fixed nail and a base nail.

In order to solve the technical problems, the invention provides a rivet pressing method by utilizing a rivet pressing tool, which comprises a base station and a machine head, wherein a fixed seat is arranged on the base station and comprises a base plate connected with the base station, a limiting plate arranged above the base plate in parallel and a pad seat arranged between the base plate and the limiting plate, a yielding hole for a camshaft to be inserted is arranged on the pad seat, two support columns extend out of the end face around the yielding hole and respectively correspond to a fixed nail and a base nail, an opening is arranged on one side of the limiting plate and extends to the upper side of the pad seat to align to the yielding hole, a limiting notch for a gear disc to enter is formed, the machine head extends towards the limiting notch and is controlled by the machine head to move along the vertical direction, two fastening pressure rods are extended from the pressing head corresponding to the fixed nail and the base nail, and the fastening pressure rods corresponding to the base nail are smaller than the other fastening pressure rods.

The technical scheme of the invention is as follows: the base plate is provided with at least two guide posts in an extending mode, the limiting plate is arranged on the guide posts in a penetrating mode, the support springs are sleeved on the at least two guide posts, one ends of the support springs are abutted against the base plate, the other ends of the support springs support the limiting plate, the support springs are in a compressed state, and the limiting plate is provided with a guide sliding sleeve for the guide posts to penetrate through.

The invention is further provided that the inner wall of the limit notch is protruded with a positioning flange for supporting the gear disc.

The invention is further provided with a positioning ring detachably arranged on the limiting notch, and the positioning flange is arranged on the positioning ring.

The invention is further provided with a feeding claw on the limiting plate, one end of the feeding claw is arranged on the limiting plate, the other end of the feeding claw stretches across the positioning ring and extends to the upper part of the supporting column, and the supporting column corresponding to the positioning ring is used for supporting and installing the fixing nail.

The invention is further provided with a pin clamping groove for clamping and embedding the fixing pin at the position, opposite to the supporting column, of the feeding claw.

The invention further provides that the feeding claw is fastened on the positioning ring by a rotation stopping screw at the position crossing the positioning ring.

The invention is further characterized in that at least two buffer compression rods are detachably arranged on the compression head, the two buffer compression rods extend to the limiting plate, and the buffer compression rods are abutted against the limiting plate before the fixed compression rods contact the fixed nails or the base nails.

The invention is further provided that the pressing head is connected with the machine head through the main power column, and the pressing head is provided with a mounting groove for mounting the buffering pressing rod.

The invention is further arranged that the pad seat comprises a positioning base layer arranged on the base plate and a height-adjustable adjusting layer arranged on the positioning base layer, and the yielding holes and the supporting columns are both positioned on the end face of the adjusting layer, which faces the pressing head.

The beneficial effects of the invention are as follows:

When the gear wheel is used, firstly, one end of the cam shaft with the gear wheel disc is placed downwards, then the gear wheel disc is correspondingly placed on the positioning flange, meanwhile, the gear wheel disc is pushed to the end part in the limiting notch along the limiting notch, and at the moment, the gear wheel disc is opposite to the pad seat.

Before the gear plate is placed in the tool, the base nails to be pressed are placed at the positions to be pressed for pre-positioning, and after the gear plate is inserted into the limiting notch, the fixed nails are inserted into the pin clamping grooves.

When the gear plate slides into the end point in the limiting notch, the gear plate is rotated, so that the fixing nails are opposite to the corresponding mounting openings on the gear plate. The upper parts of the time-based nails and the fixed nails are just right opposite to the two tight compression bars. The other side of the gear plate corresponds to the two support columns.

The main power column is controlled to be pressed downwards through a control panel on the machine head, and the pressing head is controlled to be pressed downwards along the vertical direction.

Firstly, the buffer compression bar contacts the limiting plate, the compression head continues to press downwards, the limiting plate slides downwards along the guide pillar in the vertical direction, and the spring in a compressed state is further compressed.

Then, the lower end face of the gear plate abuts against the supporting column, the pressing head continues to press downwards, and the two fixed pressing rods simultaneously contact the fixed nails and the base nails respectively.

Finally, the two fixed pressing rods continue to press downwards along with the pressing head, so that the fixed nails and the base nails are pressed on the gear disc.

Because the fixing nail is of a Y-shaped structure and has certain elasticity, the fixing nail needs to be bound by the feeding claw, and the fixing nail is conveniently pressed into the gear disc.

Drawings

FIG. 1 is a schematic diagram of the background art;

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

FIG. 3 is a schematic view showing the structure of the fixing base;

FIG. 4 is a schematic diagram showing the difference in length between two closely spaced press bars;

fig. 5 is a schematic view showing the structure of the staple.

Wherein: 1. a cam shaft; 11. a gear plate; 12. fixing nails; 13. a base nail; 14. a buffer mechanism; 2. a base station; 3. a fixing seat; 31. a substrate; 32. a limiting plate; 321. limiting notch; 322. positioning the flange; 323. a positioning ring; 324. a guide sliding sleeve; 325. a feeding claw; 326. a pin clamping groove; 327. a rotation stopping screw; 33. a guide post; 34. a support spring; 35. a pad seat; 351. positioning a base layer; 352. a regulating layer; 353. a relief hole; 36. a support column; 4. a compacting head; 41. a main power column; 42. a buffer compression bar; 43. tightly fixing the compression bar; 44. a mounting groove; 5. a machine head; 51. and a control panel.

Detailed Description

Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "bottom" and "top", "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

Example 1:

The embodiment provides a rivet pressing method using a rivet pressing tool, and the structure is shown in the figure.

The rivet pressing method by utilizing the rivet pressing tool comprises a base 2 and a machine head 5, wherein a fixed seat 3 is arranged on the base 2, the fixed seat 3 comprises a base plate 31 connected with the base 2, a limiting plate 32 arranged above the base plate 31 in parallel, and a pad seat 35 arranged between the base plate 31 and the limiting plate 32, a stepping hole 353 for inserting a cam shaft 1 is formed in the pad seat 35, two support columns 36 extend out of the end face around the stepping hole 353, the two support columns 36 respectively correspond to a fixed nail 12 and a base nail 13, an opening is formed in one side of the limiting plate 32 and extends to the stepping hole 353 above the pad seat 35, a limiting notch 321 for allowing a gear disc 11 to enter is formed, a pressing head 4 extends towards the limiting notch 321, the pressing head 4 is controlled by the machine head 5 to move along the vertical direction, two pressing rods 43 are extended out of the pressing head 4 corresponding to the fixed nail 12 and the base nail 13, and the pressing rods 43 corresponding to the base nail 13 are smaller than the other pressing rods 43.

At least two guide posts 33 extend out of the base plate 31, the limiting plate 32 is arranged on the guide posts 33 in a penetrating mode, supporting springs 34 are sleeved on the at least two guide posts 33, one ends of the supporting springs 34 are abutted against the base plate 31, the other ends of the supporting springs support the limiting plate 32, the supporting springs 34 are in a compressed state, and guide sliding sleeves 324 for the guide posts 33 to penetrate through are arranged on the limiting plate 32.

The inner wall of the limiting notch 321 is provided with a positioning flange 322 for supporting the gear disc 11. The limiting notch 321 is detachably provided with a positioning ring 323, and the positioning flange 322 is arranged on the positioning ring 323. The limiting plate 32 is provided with a feeding claw 325, one end of the feeding claw 325 is arranged on the limiting plate 32, the other end of the feeding claw 325 spans the positioning ring 323 and extends to the upper part of the supporting column 36, and the supporting column 36 corresponding to the positioning ring 323 is the supporting column 36 for supporting and installing the fixing nail 12. The feeding claw 325 is provided with a pin clamping groove 326 for clamping the fixing pin 12 at a position opposite to the supporting column 36. The feeding claw 325 is fastened to the retainer 323 by a rotation-stopping screw 327 across the retainer 323.

At least two buffer compression rods 42 are detachably arranged on the compression head 4, the two buffer compression rods 42 extend to the limiting plate 32, and before the fastening compression rods 43 contact the fixed nails 12 or the base nails 13, the buffer compression rods 42 are abutted against the limiting plate 32. The pressing head 4 is connected with the machine head 5 through a main power column 41, and a mounting groove 44 for mounting the buffer compression rod 42 is formed in the pressing head 4. The pad 35 comprises a positioning base layer 351 arranged on the substrate 31, and an adjusting layer 352 with adjustable height arranged on the positioning base layer 351, and the yielding holes 353 and the support columns 36 are both positioned on the end face of the adjusting layer 352 facing the pressing head 4.

The working process comprises the following steps:

When the cam shaft is used, firstly, one end of the cam shaft 1 with the gear disc 11 is placed downwards, then the gear disc 11 is correspondingly placed on the positioning flange 322, and meanwhile, the gear disc 11 is pushed to the end part in the limiting notch 321 along the limiting notch 321, and at the moment, the gear disc 11 is opposite to the pad seat 35.

Before the gear plate 11 is placed in the tool, the base nails 13 to be pressed are placed at the positions to be pressed for preset positioning, and after the gear plate 11 is inserted into the limiting notch 321, the fixing nails 12 are inserted into the picture pin clamping grooves 326.

When the gear plate 11 slides into the end point inside the limiting notch 321, the gear plate 11 is rotated, so that the fixing nails 12 are opposite to the corresponding mounting openings on the gear plate 11. At this time, the time-base nail 13 and the upper side of the fixing nail 12 are just opposite to the two fastening pressure rods 43. The other side of the gear plate 11 corresponds to two support columns 36.

The main power column 41 is controlled to be pressed down by the control panel 51 on the head 5, and the pressing head 4 is controlled to be pressed down in the vertical direction.

First, the buffer compression rod 42 contacts the limiting plate 32, and the compression head 4 continues to be pressed down, so that the limiting plate 32 slides down along the guide post 33 in the vertical direction, and the spring in the compressed state is further compressed.

Then, the lower end face of the gear plate 11 abuts against the support column 36, the pressing head 4 continues to be pressed down, and the two fastening pressing rods 43 simultaneously contact the fixing nails 12 and the base nails 13, respectively.

Finally, the two fixing pressure rods 43 continue to be pressed down along with the pressing head 4, so that the fixed nails 12 and the base nails 13 are pressed on the gear disc 11.

Because the fixing nail 12 is of a Y-shaped structure and has certain elasticity, the fixing nail 12 needs to be bound by the feeding claw 325, so that the fixing nail 12 is conveniently pressed into the gear disc 11. In addition to the above embodiments, the present invention may have other embodiments; all technical schemes formed by equivalent substitution or equivalent transformation fall within the protection scope of the invention.

Claims

1. A rivet pressing method by utilizing a rivet pressing tool is characterized in that: the rivet pressing tool comprises a base (2) and a machine head (5), wherein a fixed seat (3) is arranged on the base (2), the fixed seat (3) comprises a base plate (31) connected with the base (2), a limiting plate (32) arranged above the base plate (31) in parallel, and a cushion seat (35) arranged between the base plate (31) and the limiting plate (32), a yielding hole (353) for a camshaft (1) to be inserted is arranged on the cushion seat (35), two supporting columns (36) extend out of the end face around the yielding hole (323), two supporting columns (36) respectively correspond to a fixed nail (12) and a base nail (13), an opening is arranged on one side of the limiting plate (32), the opening extends to the upper side of the cushion seat (35) and is opposite to the yielding hole (353), a limiting gap (321) for a gear disc (11) to enter is formed, a pressing head (4) extends out of the limiting gap (321), the pressing head (4) is controlled by the machine head (5) to move along the vertical direction (5) and the pressing heads (43) are correspondingly provided with pressing rods (43), the length of the tightening pressure rod (43) corresponding to the base nail (13) is smaller than that of the other tightening pressure rod (43);

At least two guide posts (33) extend out of the base plate (31), the limiting plates (32) are arranged on the guide posts (33) in a penetrating mode, supporting springs (34) are sleeved on the at least two guide posts (33), one ends of the supporting springs (34) are abutted against the base plate (31), the other ends of the supporting springs support the limiting plates (32), the supporting springs (34) are in a compressed state, and guide sliding sleeves (324) for the guide posts to penetrate through are arranged on the limiting plates (32);

a positioning flange (322) for supporting the gear disc (11) is projected on the inner wall of the limiting notch (321);

a positioning ring (323) is detachably arranged on the limiting notch (321), and the positioning flange (322) is arranged on the positioning ring (323);

a feeding claw (325) is arranged on the limiting plate (32), one end of the feeding claw (325) is arranged on the limiting plate (32), the other end of the feeding claw stretches across the positioning ring (323) and extends to the upper part of the supporting column (36), and the supporting column (36) corresponding to the positioning ring (323) is used for supporting and installing the fixing nail (12);

a pin clamping groove (326) for clamping and embedding the fixed pin (12) is formed in the feeding claw (325) opposite to the support column (36);

at least two buffer compression rods (42) are detachably arranged on the compression head (4), the two buffer compression rods (42) extend to the limiting plate (32), and the buffer compression rods (42) are abutted against the limiting plate (32) before the fastening compression rods (43) contact the fixed nails (12) or the base nails (13);

the method for pressing the rivet comprises the following steps:

The cam shaft (1) comprises a gear disc (11) at one end and a buffer mechanism (14) positioned between the cam shaft (1) and the gear disc (11), the gear disc (11) is provided with a fixed nail (12) and a base nail (13),

Firstly, placing one end of a cam shaft (1) with a gear disc (11) downwards, then correspondingly placing the gear disc (11) on a positioning flange (322), pushing the gear disc (11) to the end part of a limiting notch (321) along the limiting notch (321), and enabling the gear disc (11) to be opposite to a pad seat (35);

Before the gear disc (11) is placed in the tool, the base nails (13) to be pressed are placed at the positions to be pressed for preset positioning, and after the gear disc (11) is inserted into the limiting notch (321), the fixed nails (12) are inserted into the picture inserting pin clamping grooves (326);

When the gear plate (11) slides into the end point in the limiting notch (321), the gear plate (11) is rotated, the fixed nails (12) are opposite to the corresponding mounting holes on the gear plate (11), at the moment, the base nails (13) and the upper parts of the fixed nails (12) are just opposite to the two tight pressing rods (43), and the other side of the gear plate 11 is opposite to the two supporting columns (36);

the main power column (41) is controlled to be pressed downwards through a control panel (51) on the machine head (5), and the pressing head (4) is controlled to be pressed downwards along the vertical direction;

firstly, a buffer compression rod (42) contacts a limit plate (32), a compression head (4) continues to be pressed downwards, so that the limit plate (32) slides downwards along a guide post (33) in the vertical direction, and a spring in a compressed state is further compressed;

then, the lower end surface of the gear disc (11) is abutted against the supporting column (36), the pressing head (4) is continuously pressed down, and the two fixed pressing rods (43) are simultaneously contacted with the fixed nails (12) and the base nails (13) respectively;

Finally, the two fixed pressing rods (43) continue to press downwards along with the pressing head (4) to press the fixed nails (12) and the base nails (13) on the gear disc (11).

2. A method of clinching using a clinching tool as claimed in claim 1, wherein: the feeding claw (325) spans the positioning ring (323) and is tightly fixed on the positioning ring (323) by a rotation stopping screw (327).

3. A method of clinching using a clinching tool as claimed in claim 2, wherein: the compressing head (4) is connected with the machine head (5) through a main power column (41), and the compressing head (4) is provided with a mounting groove (44) for mounting the buffering compression rod (42).

4. A method of clinching using a clinching tool as claimed in claim 3, wherein: the pad seat (35) comprises a fixed base layer (351) arranged on the substrate (31), and an adjusting layer (352) which is arranged on the fixed base layer (351) and has adjustable height, wherein the yielding holes (353) and the supporting columns (36) are both arranged on the end face of the adjusting layer (352) facing the pressing head (4).