CN217786046U

CN217786046U - Bidirectional detection tool for bushing aperture

Info

Publication number: CN217786046U
Application number: CN202222085694.6U
Authority: CN
Inventors: 刘鹏飞; 晋英山; 杨程; 李坤
Original assignee: Wuhu Xiongxing Hardware Products Co ltd
Current assignee: Wuhu Xiongxing Hardware Products Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-11-11
Anticipated expiration: 2032-08-09

Abstract

The utility model discloses a bush aperture bidirectional detection tool, which comprises a base, a bush die holder, a first detection mechanism and a second detection mechanism, wherein a guide rail is arranged on the base, two sliders are arranged on the guide rail in a sliding manner, brackets are symmetrically arranged on two sides of the base, the middle of the bush die holder is hollowed and is tightly connected with the base, the first detection mechanism is connected with the bracket and the slider on one side, and the second detection mechanism is connected with the bracket and the slider on the other side; not only realized automatic detection, also realized detecting automatic blanking moreover simultaneously, and for two-way measurement, it is higher to detect the required precision. The labor intensity is low, the detection efficiency is high, and the method is suitable for large-scale batch detection.

Description

Bidirectional detection tool for bushing aperture

Technical Field

The utility model belongs to the technical field of the check out test set, specifically speaking, the utility model relates to a bush aperture bidirectional testing frock.

Background

The bush is used as hardware, and the dimensional accuracy, particularly the thickness dimension and the inner diameter dimension are strictly required. After the bushing is machined, whether the thickness dimension and the inner diameter dimension of the bushing are qualified or not needs to be detected. Traditional detection mode detects the internal diameter size and uses logical no-go gage to measure one by one through the manual work, and mostly is the unilateral measurement. The labor intensity is high, the detection efficiency is low, and the method is not suitable for large-scale batch detection.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bush aperture bidirectional detection frock to solve the problem that exists among the above-mentioned background art.

In order to realize the purpose, the utility model discloses the technical scheme who takes does: the utility model provides a bush aperture bidirectional detection frock, includes base, bush die holder, first detection mechanism and second detection mechanism, be equipped with the guide rail on the base, slide on the guide rail and be equipped with two sliders, the base bilateral symmetry is equipped with the support, fretwork in the middle of the bush die holder, and with base fastening connection, first detection mechanism is connected with the support and the slider of one side, second detection mechanism is connected with the support and the slider of opposite side.

Preferably, a lower die cavity is formed in the top of the bushing die holder, and two eccentric round holes are formed in symmetrical and eccentric positions in the lower die cavity; a first thimble cylinder and a second thimble cylinder are hollowed in the middle of the bush die holder, and piston thimbles of the first thimble cylinder and the second thimble cylinder are matched with the round hole at the eccentric position to stretch up and down; the bushing mold comprises a bushing mold base and is characterized in that a first discharging groove is obliquely arranged behind the bushing mold base, and a second discharging groove is obliquely arranged in front of the bushing mold base.

Preferably, the middle of the bushing mold base is hollowed and symmetrically provided with magnets.

Preferably, first detection mechanism includes cylinder one, slide one, cylinder two and first logical no-go gage, cylinder one and one side support fastening connection, slide one and slider fastening connection, the piston rod tip and the slide one fastening connection of cylinder one, cylinder two and slide one fastening connection, the piston rod of cylinder two passes slide one, the piston rod tip fastening connection of first logical no-go gage and cylinder two.

Preferably, the second detection mechanism comprises a third cylinder, a second sliding seat, a fourth cylinder and a second go-no go gauge, the third cylinder is fixedly connected with the other side support, the second sliding seat is fixedly connected with the sliding block, the end part of a piston rod of the third cylinder is fixedly connected with the second sliding seat, the fourth cylinder is fixedly connected with the second sliding seat, a piston rod of the fourth cylinder penetrates through the second sliding seat, and the end part of a piston rod of the second go-no go gauge is fixedly connected with the fourth cylinder.

The beneficial effect of adopting above technical scheme is:

1. the utility model discloses a bush aperture bidirectional detection frock, earlier according to the bush model size that waits to detect, change the bush die holder that corresponds, first logical no-go gage and second logical no-go gage, then the cylinder of both sides is first stretches out with the piston rod of cylinder three earlier, and wherein, cylinder one drive slide one, cylinder two and first logical no-go gage are close to bush die holder one side, and cylinder three drive slide two, cylinder four and second logical no-go gage are close to bush die holder other one side.

Then, the machined bushings are placed into the lower die cavity of the bushing die holder one by one, and under the action of the electromagnetic adsorption force of the magnet, the bushings are quickly stable and tightly attached to the lower die cavity.

Then, a piston rod of a second air cylinder in the first detection mechanism extends out to drive a first go-no-go gauge to carry out aperture detection from one side of the bushing; and a piston rod of a cylinder IV in the second detection mechanism extends out to drive the second stop gauge to detect the aperture from the other side of the bush.

After detection is finished, the qualified products are extended out of the eccentric position round hole through the piston rod of the ejector pin cylinder I, the qualified products are ejected out of the lower die cavity, roll down along the feeding groove I, the unqualified products are extended out of the eccentric position round hole through the piston rod of the ejector pin cylinder II, the unqualified products are ejected out of the lower die cavity, and roll down along the feeding groove II.

The utility model discloses a bush aperture bidirectional detection frock has not only realized automated inspection, has also realized detecting automatic blanking moreover simultaneously, and for two-way measurement, detects the required precision higher. The labor intensity is low, the detection efficiency is high, and the device is suitable for large-scale batch detection.

2. The top of the bushing mold base is provided with a lower mold cavity, and two eccentric position round holes are formed in symmetrical eccentric positions in the lower mold cavity; a first thimble cylinder and a second thimble cylinder are hollowed in the middle of the bushing mold base, and piston thimbles of the first thimble cylinder and the second thimble cylinder are matched with the round hole at the eccentric position to be stretched up and down; a first discharging groove is obliquely arranged at the rear part of the lining die holder, and a second discharging groove is obliquely arranged at the front part of the lining die holder; and realizing bidirectional demoulding and shunting of qualified products and unqualified products.

The middle hollow-out symmetry of the bushing mold base is provided with the magnets, the bushings are guaranteed to be placed into the lower mold cavity of the bushing mold base one by one, under the action of electromagnetic adsorption force of the magnets, the bushings are fast stable and tightly attached to the lower mold cavity, the stabilization time is shortened, and the detection efficiency and the detection precision are submitted.

Drawings

FIG. 1 is a first assembly view of the bidirectional detection tool for bushing bore diameter of the present invention;

FIG. 2 is a second assembly view of the bidirectional detection tool for bushing bore diameter of the present invention;

FIG. 3 is a schematic diagram of assembling a lining die holder, a thimble cylinder I, a thimble cylinder II and a magnet;

wherein:

1. a base; 2. a bushing die holder; 3. a first detection mechanism; 4. a second detection mechanism;

10. a guide rail; 11. a slider; 12. a support;

20. a lower die cavity; 20-1, eccentric position round hole; 21. a thimble cylinder I; 22. a thimble cylinder II; 23. a magnet; 24. a first feeding groove; 25. a feeding trough II;

30. a first cylinder; 31. a first sliding seat; 32. a second air cylinder; 33. a first go-no go gauge;

40. a third air cylinder; 41. a second sliding seat; 42. a cylinder IV; 43. and a second no-go gauge.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings, for the purpose of helping those skilled in the art to understand more completely, accurately and deeply the conception and technical solution of the present invention, and to facilitate its implementation.

As shown in fig. 1 to 3, the utility model relates to a two-way detection frock in bush aperture has not only realized automated inspection, has also realized detecting automatic blanking moreover simultaneously, and for two-way measurement, detects the required precision higher. The labor intensity is low, the detection efficiency is high, and the device is suitable for large-scale batch detection.

Specifically speaking, as shown in fig. 1 to 3, the bushing mold comprises a base 1, a bushing mold base 2, a first detection mechanism 3 and a second detection mechanism 4, wherein a guide rail 10 is arranged on the base 1, two sliders 11 are arranged on the guide rail 10 in a sliding manner, supports 12 are symmetrically arranged on two sides of the base 1, the bushing mold base 2 is hollow in the middle and is fixedly connected with the base 1, the first detection mechanism 3 is connected with the support 12 and the slider 11 on one side, and the second detection mechanism 4 is connected with the support 12 and the slider 11 on the other side.

The top of the bushing mold base 2 is provided with a lower mold cavity 20, and two eccentric position round holes 20-1 are symmetrically and eccentrically arranged in the lower mold cavity 20; a first thimble cylinder 3021 and a second thimble cylinder 3222 are hollowed in the middle of the bushing die holder 2, and piston thimbles of the first thimble cylinder 3021 and the second thimble cylinder 3222 are matched with the eccentric position round hole 20-1 to extend and retract up and down; a first discharging groove 24 is obliquely formed in the rear of the lining die holder 2, and a second discharging groove 25 is obliquely formed in the front of the lining die holder 2.

The middle of the lining die holder 2 is provided with magnets 23 in a hollowed-out and symmetrical mode.

First detection mechanism 3 includes that cylinder 30, slide 31, cylinder two 32 and first logical no-go gage 33, cylinder 30 and one side support 12 fastening connection, slide 31 and slider 11 fastening connection, the tailpiece of the piston rod portion and the slide 31 fastening connection of cylinder 30, cylinder two 32 and slide 31 fastening connection, the piston rod of cylinder two 32 passes slide 31, the tailpiece of the piston rod portion fastening connection of first logical no-go gage 33 and cylinder two 32.

The second detection mechanism 4 comprises a third cylinder 40, a second sliding seat 41, a fourth cylinder 42 and a second go-no-go gauge 43, the third cylinder 40 is fixedly connected with the other side support 12, the second sliding seat 41 is fixedly connected with the sliding block 11, the end part of a piston rod of the third cylinder 40 is fixedly connected with the second sliding seat 41, the fourth cylinder 42 is fixedly connected with the second sliding seat 41, a piston rod of the fourth cylinder 42 penetrates through the second sliding seat 41, and the end part of a piston rod of the second go-no-go gauge 43 is fixedly connected with the fourth cylinder 42.

The following specific working modes are illustrated by specific examples:

example 1:

the utility model discloses a bush aperture bidirectional detection frock, earlier according to the bush model size of waiting to detect, change corresponding bush die holder 2, first logical no-go gage 33 and second no-go gage 43, then cylinder 30 and the three 40 piston rods of cylinder of both sides stretch out earlier, wherein, cylinder 30 drive slide 31, cylinder two 32 and first logical no-go gage 33 are close to bush die holder 2 one side, cylinder three 40 drive slide two 41, cylinder four 42 and second logical no-go gage 43 are close to bush die holder 2 other one side.

Then, the machined bushings are placed into the lower die cavity 20 of the bushing die holder 2 one by one, and under the action of the electromagnetic adsorption force of the magnet 23, the bushings are quickly stable and tightly attached to the lower die cavity 20.

Then, a piston rod of a second air cylinder 32 in the first detection mechanism 3 extends out, and a first go-no-go gauge 33 is driven to carry out aperture detection from one side of the bush; the piston rod of the cylinder four 42 in the second detection mechanism 4 extends out to drive the second stop gauge 43 to detect the hole diameter from the other side of the bush.

After detection is finished, qualified products extend out of the eccentric position round hole 20-1 through the piston rod of the ejector pin cylinder I3021, the qualified products are ejected out of the lower die cavity 20 and roll down along the feeding groove I24, unqualified products extend out of the eccentric position round hole 20-1 through the piston rod of the ejector pin cylinder II 3222, and the unqualified products are ejected out of the lower die cavity 20 and roll down along the feeding groove II 25.

The utility model discloses a bush aperture bidirectional detection frock has not only realized automated inspection, has also realized detecting automatic blanking moreover simultaneously, and for two-way measurement, detects the required precision higher. The labor intensity is low, the detection efficiency is high, and the method is suitable for large-scale batch detection.

Example 2:

on the basis of the embodiment 1, a lower die cavity 20 is arranged at the top of the bushing die holder 2, and two circular holes 20-1 at eccentric positions are symmetrically arranged in the lower die cavity 20; a first thimble cylinder 3021 and a second thimble cylinder 3222 are hollowed in the middle of the bushing mold base 2, and piston thimbles of the first thimble cylinder 3021 and the second thimble cylinder 3222 are matched with the eccentric position round hole 20-1 to stretch up and down; a first blanking groove 24 is obliquely arranged at the rear part of the lining die holder 2, and a second blanking groove 25 is obliquely arranged at the front part of the lining die holder 2; and realizing bidirectional demoulding and shunting of qualified products and unqualified products.

Magnet 23 is symmetrically arranged in the middle of bushing mold base 2 in a hollow-out mode, the bushings are guaranteed to be placed into lower mold cavity 20 of bushing mold base 2 one by one, under the action of electromagnetic adsorption force of magnet 23, the bushings are fast stable and tightly attached to lower mold cavity 20, the stabilization time is shortened, and the detection efficiency and the detection precision are submitted.

The present invention has been described in detail with reference to the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments, but is intended to cover various insubstantial modifications, including those made by the method and technical solutions of the present invention; or without improvement, the above conception and technical scheme of the utility model can be directly applied to other occasions, all within the protection scope of the utility model.

Claims

1. The utility model provides a two-way detection frock in bush aperture which characterized in that: including base (1), bush die holder (2), first detection mechanism (3) and second detection mechanism (4), be equipped with guide rail (10) on base (1), slide on guide rail (10) and be equipped with two slider (11), base (1) bilateral symmetry is equipped with support (12), fretwork in the middle of bush die holder (2), and with base (1) fastening connection, first detection mechanism (3) are connected with support (12) and slider (11) of one side, second detection mechanism (4) are connected with support (12) and slider (11) of opposite side.

2. The bidirectional detection tool for the bore diameter of the bushing according to claim 1, wherein: the top of the bushing mold seat (2) is provided with a lower mold cavity (20), and two eccentric round holes (20-1) are symmetrically and eccentrically arranged in the lower mold cavity (20); a first thimble cylinder (21) and a second thimble cylinder (22) are hollowed in the middle of the bushing mold base (2), and piston thimbles of the first thimble cylinder (21) and the second thimble cylinder (22) are matched with the eccentric position round hole (20-1) to extend up and down; a first discharging groove (24) is obliquely arranged behind the lining die holder (2), and a second discharging groove (25) is obliquely arranged in front of the lining die holder (2).

3. The bidirectional detection tool for the bore diameter of the bushing according to claim 1, wherein: magnets (23) are symmetrically arranged in the middle of the lining die holder (2) in a hollow mode.

4. The bidirectional detection tool for the bore diameter of the bushing according to claim 1, wherein: first detection mechanism (3) are including cylinder one (30), slide one (31), cylinder two (32) and first logical no-go gage (33), cylinder one (30) and one side support (12) fastening connection, slide one (31) and slider (11) fastening connection, the tailpiece of the piston rod portion and slide one (31) fastening connection of cylinder one (30), cylinder two (32) and slide one (31) fastening connection, the tailpiece of the piston rod of cylinder two (32) passes slide one (31), first logical no-go gage (33) and the tailpiece of the piston rod portion fastening connection of cylinder two (32).

5. The bidirectional detection tool for the bore diameter of the bushing according to claim 1, wherein: second detection mechanism (4) are including cylinder three (40), slide two (41), cylinder four (42) and second go-no-go gage (43), cylinder three (40) and opposite side support (12) fastening connection, slide two (41) and slider (11) fastening connection, the tailpiece of the piston rod portion and slide two (41) fastening connection of cylinder three (40), cylinder four (42) and slide two (41) fastening connection, the tailpiece of the piston rod of cylinder four (42) passes slide two (41), the tailpiece of the piston rod portion fastening connection of second go-no-go gage (43) and cylinder four (42).