CN220270778U

CN220270778U - Damping shell pressfitting detection device

Info

Publication number: CN220270778U
Application number: CN202322082140.5U
Authority: CN
Inventors: 黄城
Original assignee: Ningbo Zhongan Auto Parts Co ltd
Current assignee: Ningbo Zhongan Auto Parts Co ltd
Priority date: 2023-08-04
Filing date: 2023-08-04
Publication date: 2023-12-29
Anticipated expiration: 2033-08-04

Abstract

The utility model provides a damping shell pressing detection device which comprises a first supporting seat fixed on a workbench and a first sliding seat vertically and slidably installed on the first supporting seat, wherein a detection switch and a detection lever which are mutually matched are installed on the first sliding seat; the detection lever is hinged to the first sliding seat, one end of the detection lever is a detection end which can fall into the detection switch, and the other end of the detection lever is provided with a stop lever; a pressing head for pressing the sealing ring is vertically arranged on the first sliding seat in a sliding manner; when a sealing ring is arranged on a workpiece, the sealing ring blocks the pressing head and enables the pressing head to slide upwards, so that the stop rod drives the detection lever to rotate, and the detection end falls into the detection switch; the damping shell pressing detection device provided by the utility model overcomes the defects of low assembly efficiency and high detection labor intensity of a sealing ring of the existing damping shell.

Description

Damping shell pressfitting detection device

Technical Field

The utility model relates to the field of damper assembly, in particular to a damping shell pressing detection device.

Background

An automobile is used as a walking tool and consists of a plurality of parts, wherein a damper is one of important components in the automobile.

The existing damper comprises a damping shell, two sealing rings and a damping core, wherein the damping shell assembly is formed by sleeving the sealing rings on the damping shell, the damping core assembly is formed by sleeving the sealing rings on the damping core, and then the damping core assembly is sleeved in the damping shell assembly to form the damper. Referring to fig. 1 and 2, a boss is provided at the center of the damping housing, and a sealing ring is mounted on the boss. In the existing assembly process, whether the sealing ring is installed or not often needs to be observed manually, the manual strength is high, errors are easy to occur, and the assembly effect is affected; and the pressing and detecting processes of the sealing ring are often finished on different stations, the assembling process is complex, and the assembling efficiency is low.

Disclosure of Invention

First, the technical problem to be solved

The utility model aims to solve the problem of providing a damping shell pressing detection device so as to overcome the defects of low assembly efficiency of the existing damping shell and high manual strength of detection of a sealing ring.

(II) technical scheme

In order to solve the technical problems, the utility model provides a damping shell pressing detection device which comprises a first supporting seat fixed on a workbench and a first sliding seat vertically and slidably installed on the first supporting seat, wherein a detection switch and a detection lever which are mutually matched are installed on the first sliding seat; the detection lever is hinged to the first sliding seat, one end of the detection lever is a detection end which can fall into the detection switch, and the other end of the detection lever is provided with a stop lever; a pressing head for pressing the sealing ring is vertically arranged on the first sliding seat in a sliding manner; when the sealing ring is arranged on the workpiece, the sealing ring blocks the pressing head and enables the pressing head to slide upwards, so that the stop rod drives the detection lever to rotate, and the detection end falls into the detection switch.

Further, a second sliding seat is vertically arranged on the first sliding seat in a sliding manner, and the pressing head is fixed on the second sliding seat; the detection lever is positioned at one side of the second sliding seat, and a stop block corresponding to the stop rod is arranged on the second sliding seat.

Further, a first limiting plate and a second limiting plate are arranged on the first supporting seat at intervals, the first sliding seat is located between the first limiting plate and the second limiting plate, an upper limiting ejector rod used for limiting on the first sliding seat is connected to the first limiting plate through threads, and a lower limiting ejector rod used for limiting below the first sliding seat is connected to the second limiting plate through threads. The bottom of first slide is fixed with and is used for the spacing third limiting plate under the second slide, the second slide can support under the effect of gravity and lean on the third limiting plate, the pressfitting head runs through the third limiting plate and is put its downside.

Further, a first sliding rail is arranged on the first supporting seat, and the first sliding seat is arranged on the first sliding rail; the first sliding seat is provided with a second sliding rail, and the second sliding seat is arranged on the second sliding rail; and a first driving cylinder for driving the first sliding seat is arranged on the first supporting seat.

Further, a groove matched with the upper convex column of the workpiece is formed in the bottom of the pressing head.

Further, a feeding track is arranged on the workbench, the pressing head is located above the feeding track, and a clamping mechanism is arranged on the lower side of the feeding track at a position corresponding to the pressing head. The clamping mechanism comprises a second supporting seat fixed on the workbench and a third sliding seat vertically and slidably installed in the second supporting seat, a first clamping jaw and a second clamping jaw are transversely and slidably installed on the third sliding seat, and the two clamping jaws approach to the middle to clamp a workpiece.

Further, two fourth sliding seats are arranged on the third sliding seat in a sliding manner along the transverse direction, and the first clamping jaw and the second clamping jaw are respectively fixed on the corresponding fourth sliding seats; the fourth sliding seat is rotatably provided with a pulley, and the second supporting seat is provided with a guide inclined plane corresponding to the pulley. A third sliding rail is arranged on the second supporting seat, and the third sliding seat is arranged on the third sliding rail; a fourth sliding rail is arranged on the third sliding seat, and the fourth sliding seat is arranged on the fourth sliding rail; and a second driving cylinder for driving the third sliding seat is arranged on the second supporting seat.

(III) beneficial effects

According to the damping shell pressing detection device, the detection switch, the detection lever and the pressing head are matched, when the sealing ring is arranged on the workpiece in the pressing process, the sealing ring can prevent the pressing head from sliding upwards, and the pressing head drives the detection lever to rotate through the stop lever, so that the detection end falls into the detection switch; the method can detect whether the sealing ring is installed or not in the pressing process, simplifies the assembly steps, improves the assembly efficiency and ensures the qualification rate of products; the detection process of the sealing ring is completed by equipment, so that the manual strength is reduced, and errors are avoided; the defects of low assembly efficiency and high manual strength of detection of the sealing ring of the existing damping shell are overcome.

Drawings

FIG. 1 is a perspective view of a damping shell assembly of a damping shell lamination detection apparatus of the present utility model;

FIG. 2 is a cross-sectional view of a damping shell assembly of a damping shell compression detection apparatus of the present utility model;

FIG. 3 is a perspective view of a damping shell lamination detection device according to the present utility model;

FIG. 4 is a perspective view of a pressing head of a pressing detection device for damping shells according to the present utility model;

FIG. 5 is a perspective view of another view of a bonding head of a bonding inspection device for damping shell according to the present utility model;

FIG. 6 is a perspective view of a clamping mechanism of a damping shell compression detection device according to the present utility model;

FIG. 7 is a schematic structural view of a clamping mechanism of a damping shell pressing detection device according to the present utility model;

the corresponding component names for each reference number in the figures are: 1. a work table; 21. a first support base; 22. a first slider; 23. a detection switch; 24. detecting a lever; 25. a press-fit head; 26. a second slider; 27. a first limiting plate; 28. a second limiting plate; 29. an upper limit ejector rod; 30. a lower limit ejector rod; 31. a third limiting plate; 32. a first slide rail; 33. a second slide rail; 34. a first driving cylinder; 241. a detection end; 242. a stop lever; 251. a groove; 4. a feeding rail; 5. a clamping mechanism; 51. a second support base; 52. a third slider; 53. a first jaw; 54. a second jaw; 55. a fourth slider; 56. a pulley; 57. a third slide rail; 58. a fourth slide rail; 59. a second driving cylinder; 511. a guide slope; 61. a damping housing; 62. a seal ring; 611. and (5) a convex column.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

Referring to fig. 3 to 7, the present utility model provides a damping shell pressing detection device, which includes a first supporting seat 21 fixed on a workbench 1, and a first sliding seat 22 vertically slidably mounted on the first supporting seat 21, wherein a detection switch 23 and a detection lever 24 are mounted on the first sliding seat 22 for mutual cooperation; the detection lever 24 is hinged on the first slide seat 22, one end of the detection lever is a detection end 241 which can fall into the detection switch 23, and the other end of the detection lever is provided with a stop lever 242; the detection switch 23 is provided with a groove accommodating the detection end 241. The first slide 22 is provided with a pressing head 25 for pressing the sealing ring 62 in a vertically sliding manner, and the bottom of the pressing head 25 is provided with a groove 251 matched with the upper protruding column 611 of the workpiece.

Referring to fig. 4 and 5, a second slide seat 26 is vertically slidably mounted on the first slide seat 22, and a pressing head 25 is fixed on the second slide seat 26; the detecting lever 24 is located at one side of the second slide 26, and a stopper (not shown) corresponding to the stopper lever 242 is mounted on the second slide 26, and the stopper can drive the stopper lever 242 when the second slide 26 slides up.

Referring to fig. 4 and 5, a first limiting plate 27 and a second limiting plate 28 are disposed on the first supporting seat 21 at intervals, the first sliding seat 22 is located between the first limiting plate 27 and the second limiting plate 28, an upper limiting ejector rod 29 for limiting the first sliding seat 22 is connected to the first limiting plate 27 in a threaded manner, and a lower limiting ejector rod 30 for limiting the first sliding seat 22 in a lower manner is connected to the second limiting plate 28 in a threaded manner. The bottom of the first slide 22 is fixed with a third limiting plate 31 for limiting the second slide 26 downwards, the second slide 26 can be abutted against the third limiting plate 31 under the action of gravity, and the pressing head 25 penetrates through the third limiting plate 31 and is arranged at the lower side of the third limiting plate.

Referring to fig. 4 and 5, the first support 21 is provided with a first sliding rail 32, and the first sliding seat 22 is mounted on the first sliding rail 32; the first sliding seat 22 is provided with a second sliding rail 33, and the second sliding seat 26 is arranged on the second sliding rail 33; a first driving cylinder 34 for driving the first slider 22 is mounted on the first support base 21.

Referring to fig. 3, a feeding rail 4 is erected on the workbench 1, a pressing head 25 is located above the feeding rail 4, and a clamping mechanism 5 is arranged on the lower side of the feeding rail 4 at a position corresponding to the pressing head 25. In use, the workpiece is clamped and positioned by the clamping mechanism 5 so as to be pressed by the pressing head 25.

Referring to fig. 6 and 7, the clamping mechanism 5 includes a second support base 51 fixed to the table 1, and a third slide base 52 slidably mounted in the second support base 51 in the vertical direction, and a first clamping jaw 53 and a second clamping jaw 54 are slidably mounted in the lateral direction on the third slide base 52, and clamp a workpiece by the two clamping jaws toward the middle. The third sliding seat 52 is provided with two fourth sliding seats 55 in a sliding manner along the transverse direction, and the first clamping jaw 53 and the second clamping jaw 54 are respectively fixed on the corresponding fourth sliding seats 55; the fourth slider 55 is rotatably mounted with a pulley 56, and the second support base 51 is provided with a guide slope 511 corresponding to the pulley 56. When clamping, the third sliding seat 52 slides upwards, and the two fourth sliding seats 55 are close to the middle under the drive of the guide inclined surface 511, so that the two clamping jaws clamp a workpiece.

Referring to fig. 6 and 7, the second support base 51 is provided with a third sliding rail 57, and the third sliding seat 52 is mounted on the third sliding rail 57; the third sliding seat 52 is provided with a fourth sliding rail 58, and the fourth sliding seat 55 is arranged on the fourth sliding rail 58; a second driving cylinder 59 for driving the third slider 52 is mounted on the second support base 51.

The assembly of the sealing ring and the damping shell can be completed by manual or automatic equipment, and after the assembly, the sealing ring is not flat or is not mounted at the step position of the convex column, so that the sealing ring is required to be pressed. During pressing detection, the first driving cylinder 34 drives the first sliding seat 22 to slide downwards, and the pressing head 25 slides downwards; when the sealing ring 62 is installed on the workpiece, the sealing ring 62 is pressed down to the step position, the sealing ring 62 blocks the pressing head 25 and enables the pressing head 25 to slide upwards, the pressing head 25 drives the second sliding seat 26 to slide, and the stop block on the second sliding seat 26 drives the stop lever 242 and drives the detection lever 24 to rotate, so that the detection end 241 falls into the detection switch 23. After the pressing test is finished, the first slide 22 is lifted, and the pressing head 25 and the second slide 26 are restored to the original positions under the action of gravity. When the sealing ring 62 is not installed on the workpiece, the detection lever 24 is not driven to rotate, and the detection switch 23 has no detection signal.

According to the damping shell pressing detection device, the detection switch, the detection lever and the pressing head are matched, when the sealing ring is arranged on the workpiece in the pressing process, the sealing ring can block the pressing head to enable the pressing head to slide upwards, and the pressing head drives the detection lever to rotate through the stop lever, so that the detection end falls into the detection switch; the method can detect whether the sealing ring is installed or not in the pressing process, simplifies the assembly steps, improves the assembly efficiency and ensures the qualification rate of products; and the sealing ring detection process is completed by equipment, so that the manual strength is reduced, and errors are avoided.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims

1. Damping shell pressfitting detection device, its characterized in that: the automatic detection device comprises a first supporting seat (21) fixed on a workbench (1) and a first sliding seat (22) vertically and slidably installed on the first supporting seat (21), wherein a detection switch (23) and a detection lever (24) which are matched with each other are installed on the first sliding seat (22); the detection lever (24) is hinged on the first sliding seat (22), one end of the detection lever is a detection end (241) which can fall into the detection switch (23), and the other end of the detection lever is provided with a stop lever (242); a pressing head (25) for pressing a sealing ring (62) is vertically arranged on the first sliding seat (22) in a sliding manner; when the sealing ring (62) is arranged on the workpiece, the sealing ring (62) blocks the pressing head (25) and enables the pressing head to slide upwards, so that the stop rod (242) drives the detection lever (24) to rotate, and the detection end (241) falls into the detection switch (23).

2. The damping shell lamination detection apparatus as defined in claim 1, wherein: a second sliding seat (26) is vertically arranged on the first sliding seat (22) in a sliding manner, and the pressing head (25) is fixed on the second sliding seat (26); the detection lever (24) is located on one side of the second sliding seat (26), and a stop block corresponding to the stop rod (242) is mounted on the second sliding seat (26).

3. The damping shell lamination detection apparatus as defined in claim 1, wherein: first limiting plate (27) and second limiting plate (28) are arranged on first supporting seat (21) at intervals, first slide (22) are located between first limiting plate (27) and second limiting plate (28), threaded connection has on first limiting plate (27) and is used for spacing last spacing ejector pin (29) on first slide (22), threaded connection has on second limiting plate (28) and is used for spacing lower spacing ejector pin (30) under first slide (22).

4. The damping shell lamination detection apparatus as defined in claim 2, wherein: the bottom of first slide (22) is fixed with and is used for second slide (26) lower spacing third limiting plate (31), second slide (26) can support under the effect of gravity on third limiting plate (31), pressfitting head (25) run through third limiting plate (31) and are put its downside.

5. The damping shell lamination detection apparatus as defined in claim 2, wherein: a first sliding rail (32) is arranged on the first supporting seat (21), and the first sliding seat (22) is arranged on the first sliding rail (32); a second sliding rail (33) is arranged on the first sliding seat (22), and the second sliding seat (26) is arranged on the second sliding rail (33); a first driving cylinder (34) for driving the first sliding seat (22) is arranged on the first supporting seat (21).

6. The damping shell lamination detection apparatus as defined in claim 1, wherein: the bottom of the pressing head (25) is provided with a groove (251) which is matched with the upper convex column (611) of the workpiece.

7. The damping shell lamination detection apparatus as defined in claim 1, wherein: the workbench (1) is provided with a feeding track (4) in an erected mode, the pressing head (25) is located above the feeding track (4), and a clamping mechanism (5) is arranged on the lower side of the feeding track (4) at a position corresponding to the pressing head (25).

8. The damped enclosure compression test device of claim 7, wherein: the clamping mechanism (5) comprises a second supporting seat (51) fixed on the workbench (1) and a third sliding seat (52) vertically and slidably installed in the second supporting seat (51), a first clamping jaw (53) and a second clamping jaw (54) are horizontally and slidably installed on the third sliding seat (52), and a workpiece is clamped by the two clamping jaws towards the middle.

9. The damped enclosure compression test device of claim 8, wherein: two fourth sliding seats (55) are arranged on the third sliding seat (52) in a sliding manner along the transverse direction, and the first clamping jaw (53) and the second clamping jaw (54) are respectively fixed on the corresponding fourth sliding seats (55); the fourth sliding seat (55) is rotatably provided with a pulley (56), and the second supporting seat (51) is provided with a guide inclined plane (511) corresponding to the pulley (56).

10. The damped enclosure compression test device of claim 9, wherein: a third sliding rail (57) is arranged on the second supporting seat (51), and the third sliding seat (52) is arranged on the third sliding rail (57); a fourth sliding rail (58) is arranged on the third sliding seat (52), and the fourth sliding seat (55) is arranged on the fourth sliding rail (58); a second driving cylinder (59) for driving the third sliding seat (52) is arranged on the second supporting seat (51).