CN112033259A

CN112033259A - Automatic detection device for outer diameter go-no go gauge

Info

Publication number: CN112033259A
Application number: CN202010847539.6A
Authority: CN
Inventors: 刘旭东
Original assignee: Anhui Connie Precision Machinery Co ltd
Current assignee: Anhui Connie Precision Machinery Co ltd
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2020-12-04
Anticipated expiration: 2040-08-21
Also published as: CN112033259B

Abstract

The invention relates to an automatic detection device for an outer diameter go-no go gauge, which comprises a driving mechanism and a feeding mechanism, wherein an actuating mechanism is arranged between the driving mechanism and the feeding mechanism, the driving mechanism is connected and matched with the actuating mechanism, the actuating mechanism is provided with the outer diameter go-no go gauge, the feeding mechanism is provided with a workpiece to be detected, the feeding mechanism conveys the workpiece to be detected to the end of the outer diameter go-no go gauge of the actuating mechanism for detection, and the axis of the workpiece to be detected and the axis of the outer diameter go-no go gauge are arranged in a. Under the matching action of the driving cylinder and the feeding cylinder, the outer diameter go-no-go gauge automatically detects a workpiece, so that the detection efficiency is improved, and the detection requirement of mass products is met; the elastic pressure of the spring is adjusted by screwing or unscrewing the adjusting screw cap, so that the go-no go gauge is flexibly controlled by adjustable pressure, rigid collision is avoided, and the phenomenon of material clamping is avoided.

Description

Automatic detection device for outer diameter go-no go gauge

Technical Field

The invention relates to an automatic detection device for an outer diameter go-no go gauge, and belongs to the technical field of detection tools.

Background

Go-no-go gauges are one type of gauges that are used in the inspection of large batches of products as a metric. However, in the actual production process, the go-no go gauge is manually operated to measure, so that the time and the labor are wasted, the detection efficiency is low, the requirement of detecting mass products cannot be met, and the current mechanical and automatic production requirement cannot be met.

Disclosure of Invention

In order to solve the technical problem, the invention provides an automatic detection device for an outer diameter go-no go gauge, which has the following specific technical scheme:

the automatic detection device for the outer diameter go-no go gauge comprises a driving mechanism and a feeding mechanism, wherein an actuating mechanism is arranged between the driving mechanism and the feeding mechanism, the driving mechanism is connected and matched with the actuating mechanism, the actuating mechanism is provided with the outer diameter go-no go gauge, the feeding mechanism is provided with a workpiece to be detected, the feeding mechanism conveys the workpiece to be detected to the end of the outer diameter go-no go gauge of the actuating mechanism for detection, the axis of the workpiece to be detected and the axis of the outer diameter go-no go gauge are arranged in a collinear way,

actuating mechanism includes the adapter sleeve, adapter sleeve one end is connected with adjusts the screw cap, and its other end is connected with logical no-go gage installation pole, leads to no-go gage installation pole and adjusts and be provided with the spring between the screw cap, leading no-go gage installation pole is connected the external diameter and leads to the no-go gage, and the external diameter leads to the no-go gage and sets up towards the work piece that awaits measuring, adjust the inside coaxial coupling of screw cap and have the ejector pin, the ejector pin runs through adapter sleeve and logical no-go gage installation pole to rather than coaxial setting.

Further, the driving mechanism comprises a base plate, the surface of the base plate is connected with a mounting plate, the mounting plate is arranged close to one end of the base plate, one end of the mounting plate is vertically connected with a cylinder fixing seat, the other end of the mounting plate is connected with an inductor fixing seat,

the cylinder fixing base is connected with a driving cylinder, a telescopic rod of the driving cylinder is coaxially connected with the ejector rod, and the inductor fixing base is provided with an approaching inductor.

Furthermore, feeding mechanism includes the feeding cylinder, the flexible rod end of feeding cylinder is connected with the work piece fixing base, the fixed work piece that awaits measuring of installation in the work piece fixing base.

Furthermore, one end, close to the connecting sleeve, of the go-no go gauge mounting rod is provided with a detection positioning pin, the go-no go gauge mounting rod is coaxially connected with a linear bearing seat, the go-no go gauge mounting rod slides in the linear bearing seat, and the linear bearing seat is fixed on the surface of the mounting plate and clings to the inductor fixing seat.

Furthermore, the surface of the mounting plate is provided with a connecting sleeve fixing seat, and the connecting sleeve is fixed in the connecting sleeve fixing seat.

Furthermore, one end of the connecting sleeve, which is close to the go-no-go gauge mounting rod, is provided with a positioning pin hole.

Furthermore, the surface of the mounting plate is also provided with limit strips symmetrically mounted about the detection positioning pin, limit channels are formed between the limit strips, and the detection positioning pin slides in the limit channels.

Further, the base plate is a right-angle plate, and the feeding air cylinder is arranged at the right-angle end of the base plate perpendicular to the mounting plate.

Further, the inductor fixing seat is a right-angle bending plate, and a strip hole for installing and approaching the inductor is formed in the surface, parallel to the base plate, of the inductor fixing seat.

The working principle of the invention is as follows:

according to the invention, a driving cylinder is arranged on a base plate, under the pneumatic action of the driving cylinder, a telescopic rod of the cylinder is connected with a mandril, the mandril penetrates through a connecting sleeve and a go-no-go gauge mounting rod and is coaxially arranged with the connecting sleeve, one end of the connecting sleeve, which is close to the driving cylinder, is screwed with an adjusting screw cap, the other end of the connecting sleeve is connected with the go-no-go gauge mounting rod, a spring is arranged between the adjusting screw cap in the connecting sleeve and the go-no-go gauge mounting rod, and the go-no-. The spring elasticity is adjusted by screwing in and out the adjusting screw cap. The feeding cylinder is installed at the right-angle end of the base plate, the telescopic rod of the feeding cylinder is connected with a workpiece fixing seat, and a workpiece to be detected is installed in the workpiece fixing seat. The feeding air cylinder ejects a workpiece to be measured fixed on the workpiece fixing seat, so that the workpiece to be measured moves towards the outer diameter go-no-go gauge. When the workpiece to be detected smoothly passes through the go gauge of the outer diameter go-no go gauge, the outer diameter go-no go gauge drives the ejector rod to move, so that the detection positioning pin on the ejector rod reaches the proximity sensor, and the workpiece to be detected passes the detection of the go gauge; when the workpiece to be detected does not enter the through gauge end of the outer diameter through-and-no gauge, the workpiece to be detected pushes the ejector rod, the detection positioning pin crosses the position close to the sensor, and the workpiece to be detected is unqualified in through gauge detection. When the workpiece to be detected does not enter the no-go end of the outer diameter go-no-go gauge, the workpiece to be detected pushes the ejector rod, the detection positioning pin reaches the position close to the sensor, and the no-go gauge of the workpiece to be detected is detected to be qualified; when the workpiece to be detected enters the through gauge end of the outer diameter through-and-no-go gauge, the workpiece to be detected pushes the ejector rod, the detection positioning pin does not reach the position close to the sensor, and the workpiece to be detected is unqualified in detection.

The invention has the beneficial effects that:

under the matching action of the driving cylinder and the feeding cylinder, the outer diameter go-no-go gauge automatically detects the workpiece, so that automatic detection is realized, the detection efficiency is improved, and the detection requirement of mass products is met; the elastic pressure of the spring is adjusted by screwing or unscrewing the adjusting screw cap, so that the go-no go gauge is flexibly controlled by adjustable pressure, and is not directly controlled by the pressure of the air cylinder, the rigid collision of the go-no go gauge and a workpiece to be detected is effectively avoided, and the phenomenon of material clamping of the outer diameter go-no go gauge is avoided.

Drawings

Figure 1 is a schematic perspective view of the present invention,

figure 2 is a front view of the present invention,

figure 3 is a right side view of the present invention,

in the figure: 1-baseplate, 2-cylinder fixing base, 3-mounting panel, 4-spacing, 5-detect the locating pin, 6-logical no-go gage installation pole, 7-linear bearing seat, 8-external diameter logical no-go gage, 9-work piece fixing base, 10-feeding cylinder, 11-the work piece that awaits measuring, 12-inductor fixing base, 13-rectangular hole, 14-location pinhole, 15-spring, 16-adapter sleeve, 17-adapter sleeve fixing base, 18-adjust the screw cap, 19-ejector pin, 20-drive actuating cylinder, 21-approach the inductor.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in figure 1, the automatic detection device for the outer diameter go-no-go gauge 8 comprises a base plate 1, wherein the base plate 1 is a right-angle plate, and a feeding cylinder 10 is installed at the right-angle end of the base plate 1. Base plate 1 surface connection has mounting panel 3, and mounting panel 3 is close to 1 one end setting of base plate, and 3 one ends of mounting panel are connected with cylinder fixing base 2 perpendicularly, and its other end is connected with inductor fixing base 12, and inductor fixing base 12 is the right angle board of bending, sets up the rectangular hole 13 that the installation is close to inductor 21 on inductor fixing base 12 and the parallel face of base plate 1. The surface of the mounting plate 3 is further provided with limiting strips 4 symmetrically mounted with respect to the detection positioning pin 5, limiting channels are formed among the limiting strips 4, and the detection positioning pin 5 slides in the limiting channels. Drive actuating cylinder 20 and be fixed in cylinder fixing base 2, the telescopic link and the ejector pin 19 coaxial coupling of driving actuating cylinder 20, inductor fixing base 12 is provided with and is close inductor 21. The other end of the base plate 1 is provided with a feeding cylinder 10, a telescopic rod of the feeding cylinder 10 is connected with a workpiece fixing seat 9, and a workpiece 11 to be detected is installed in the workpiece fixing seat 9. The mounting panel surface is provided with adapter sleeve fixing base 17, and adapter sleeve 16 fixes in adapter sleeve fixing base 17, and adapter sleeve 16 one end is connected with adjusts the screw cap 18, and its other end is connected with logical no-go gage installation pole 6, and adapter sleeve 16 is close to logical no-go gage installation pole 6 one end and has seted up locating pin hole 14, detects the locating pin 5 and removes in locating pin hole 14. The go-no-go gauge mounting rod 6 is coaxially connected with a linear bearing seat 7, the go-no-go gauge mounting rod 6 slides in the linear bearing seat 7, and the linear bearing seat 7 is fixed on the surface of the mounting plate 3 and clings to the inductor fixing seat 12. Go to no-go gage installation pole 6 and be connected with outer diameter go to no-go gage 8, outer diameter go to no-go gage 8 and set up towards feeding cylinder 10, the link of going to no-go gage installation pole 6 and adapter sleeve 16 is provided with detects locating pin 5, it is provided with spring 15 to go to between no-go gage installation pole 6 and the regulation screw cap 18, adjust the inside coaxial coupling of screw cap 18 and have ejector pin 19, ejector pin 19 runs through adapter sleeve 16 and go to no-go gage installation pole 6 to rather than coaxial setting, ejector pin 19 is close to the 18 one end of regulation screw cap and is connected and drives actuating cylinder 20.

A driving cylinder 20 is installed on a base plate 1, under the pneumatic action of the driving cylinder 20, an expansion rod of the cylinder is connected with a push rod 19, the push rod 19 penetrates through a connecting sleeve 16 and a go-no-go gauge installing rod 6 and is coaxially arranged with the connecting sleeve, one end, close to the driving cylinder 20, of the connecting sleeve 16 is screwed with an adjusting screw cap 18, the other end of the connecting sleeve 16 is connected with the go-no-go gauge installing rod 6, a spring 15 is installed between the adjusting screw cap 18 in the connecting sleeve 16 and the go-no-go gauge installing rod 6, and the go-no-go gauge installing rod 6 is connected with an outer. The spring 15 is elastically adjusted by screwing in and out the adjusting screw cap 18. A feeding cylinder 10 is installed at the right-angle end of the base plate 1, a telescopic rod of the feeding cylinder 10 is connected with a workpiece fixing seat 9, and a workpiece 11 to be detected is installed in the workpiece fixing seat 9. The feeding air cylinder 10 ejects the workpiece 11 to be measured fixed on the workpiece fixing seat 9, so that the workpiece 11 to be measured moves towards the outer diameter go-no-go gauge 8. When the workpiece 11 to be detected successfully passes through the go gauge of the outer diameter go-no-go gauge 8, the outer diameter go-no-go gauge 8 drives the ejector rod 19 to move, so that the detection positioning pin 5 on the ejector rod 19 reaches the proximity sensor 21, and the workpiece 11 to be detected is qualified in go gauge detection; when the workpiece 11 to be detected does not enter the go-no go end of the outer diameter go-no go gauge 8, the workpiece 11 to be detected pushes the ejector rod 19, the detection positioning pin 5 crosses the position close to the inductor 21, and the workpiece 11 to be detected is unqualified in go-no go gauge detection. When the workpiece 11 to be detected does not enter the no-go end of the outer diameter no-go gauge 8, the workpiece 11 to be detected pushes the ejector rod 19, the detection positioning pin 5 reaches the position close to the inductor 21, and the no-go gauge of the workpiece 11 to be detected is detected to be qualified; when the workpiece 11 to be detected enters the go-no-go end of the outer diameter go-no-go gauge 8, the workpiece 11 to be detected pushes the ejector rod 19, the detection positioning pin 5 does not reach the position close to the inductor 21, and the no-go gauge of the workpiece 11 to be detected is unqualified.

According to the invention, under the matching action of the driving cylinder and the feeding cylinder, the outer diameter go-no-go gauge automatically detects the workpiece, so that automatic detection is realized, the detection efficiency is improved, and the detection requirement of mass products is met; the elastic pressure of the spring is adjusted by screwing or unscrewing the adjusting screw cap, so that the go-no go gauge is flexibly controlled by adjustable pressure, and is not directly controlled by the pressure of the air cylinder, the rigid collision of the go-no go gauge and a workpiece to be detected is effectively avoided, and the phenomenon of material clamping of the outer diameter go-no go gauge is avoided.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides an external diameter leads to no-go gage automatic checkout device which characterized in that: comprises a driving mechanism and a feeding mechanism, wherein an actuating mechanism is arranged between the driving mechanism and the feeding mechanism, the driving mechanism is connected and matched with the actuating mechanism, the actuating mechanism is provided with an outer diameter go-no go gauge (8), the feeding mechanism is provided with a workpiece to be detected, the feeding mechanism conveys the workpiece to be detected to the outer diameter go-no go gauge (8) end of the actuating mechanism for detection, the axis of the workpiece to be detected and the axis of the outer diameter go-no go gauge (8) are arranged in a collinear way,

actuating mechanism includes adapter sleeve (16), adapter sleeve (16) one end is connected with regulation screw cap (18), and its other end is connected with logical no-go gage installation pole (6), leads to no-go gage installation pole (6) and is provided with spring (15) between regulation screw cap (18), lead to no-go gage installation pole (6) and connect external diameter logical no-go gage (8), and the setting of workpiece to be measured is led to the external diameter logical no-go gage (8), adjust screw cap (18) inside coaxial coupling and have ejector pin (19), ejector pin (19) run through adapter sleeve (16) and logical no-go gage installation pole (6) to rather than coaxial setting.

2. The automatic detection device of an outer diameter go-no-go gauge according to claim 1, characterized in that: the driving mechanism comprises a base plate (1), the surface of the base plate (1) is connected with a mounting plate (3), the mounting plate (3) is arranged near one end of the base plate (1), one end of the mounting plate (3) is vertically connected with a cylinder fixing seat (2), the other end of the mounting plate is connected with an inductor fixing seat (12),

the sensor is characterized in that the cylinder fixing seat (2) is connected with a driving cylinder (20), a telescopic rod of the driving cylinder (20) is coaxially connected with the ejector rod (19), and the sensor fixing seat (12) is provided with a proximity sensor (21).

3. The automatic detection device of an outer diameter go-no-go gauge according to claim 1, characterized in that: the feeding mechanism comprises a feeding cylinder (10), the telescopic rod end of the feeding cylinder (10) is connected with a workpiece fixing seat (9), and a workpiece (11) to be detected is fixedly installed in the workpiece fixing seat (9).

4. The automatic detection device of an outer diameter go-no-go gauge according to claim 1 or 2, characterized in that: lead to no-go gage installation pole (6) and be close to adapter sleeve (16) one end and be provided with detection locating pin (5), lead to no-go gage installation pole (6) coaxial coupling has sharp bearing frame (7), leads to no-go gage installation pole (6) and slides in sharp bearing frame (7), sharp bearing frame (7) are fixed on mounting panel (3) surface and are hugged closely inductor fixing base (12).

5. The automatic detection device of an outer diameter go-no-go gauge according to claim 1 or 2, characterized in that: the mounting plate surface is provided with adapter sleeve fixing base (17), adapter sleeve (16) are fixed in adapter sleeve fixing base (17).

6. The automatic detection device of an outer diameter go-no-go gauge according to claim 1, characterized in that: one end of the connecting sleeve (16) close to the go-no-go gauge mounting rod (6) is provided with a positioning pin hole (14).

7. The automatic detection device of an outer diameter go-no-go gauge according to claim 2, characterized in that: the surface of the mounting plate (3) is further provided with limiting strips (4) symmetrically mounted about the detection positioning pins (5), limiting channels are formed among the limiting strips (4), and the detection positioning pins (5) slide in the limiting channels.

8. The automatic detection device of an outer diameter go-no-go gauge according to claim 2 or 3, characterized in that: the base plate (1) is a right-angle plate, and the feeding cylinder (10) is arranged at the right-angle end of the base plate (1) perpendicular to the mounting plate (3).

9. The automatic detection device of an outer diameter go-no-go gauge according to claim 2, characterized in that: inductor fixing base (12) are the right angle board of bending, set up rectangular hole (13) that the installation is close inductor (21) on inductor fixing base (12) and the parallel face of base plate (1).