CN217930110U - Intelligent measuring device for piston cylinder diameter - Google Patents

Abstract

The utility model relates to a piston cylinder detects technical field, specifically discloses a be used for piston cylinder diameter intelligent measuring device, including the installation frame, installation frame middle part fixed mounting has the portal, and portal outside both sides fixed mounting has two gauge stands with the size, and the gauge stand is inside to be inlayed and to be installed the percentage table, and installation frame inside wall fixed mounting has the lift fixing base, and first spout has been seted up to lift fixing base inner wall, and first spout outside is inlayed and is installed first guide holder, and lift fixing base mid-rotation installs first lead screw. The utility model discloses technical scheme is through assembling the piston cylinder with the revolving stage, and second servo motor cooperation second lead screw and second guide holder conveniently remove the piston cylinder to two percentage table middle parts, and the sense terminal of two percentage tables all laminates with the piston cylinder outer wall this moment, and third servo motor can drive the revolving stage and carry out the angle rotation, and numerical value through surveing the percentage table changes to be favorable to detecting the circularity value of piston cylinder.

Description

Intelligent measuring device for piston cylinder diameter

Technical Field

The utility model relates to a piston cylinder detects technical field, specifically is a be used for piston cylinder diameter intelligent measuring device.

Background

Present traditional piston detects, most enterprises and school mainly rely on the manual work to measure and accomplish, the measuring tool that the manual work was measured and was used is the external micrometer, through consulting piston shirt rim diameter standard, the piston with not adorning the ring is just with the ring top in the jar, whether too big or the undersize of opening clearance in measuring the piston ring with the feeler gauge, wherein measuring position includes that piston head and skirt portion measure along the size of four points of piston pin direction and two directions of perpendicular piston pin direction respectively, the measurement process is wasted time and energy, and cause human error easily.

In the process of implementing the present invention, the inventor finds that at least the following problems in the prior art are not solved; the existing high-precision detection means are mostly contact detection, the workpiece and the detection contact are worn, the driving system for detecting the sensing probe is high in precision, the detection contact is difficult to replace, the existing high-precision detection mode is low in efficiency, the existing high-precision detection mode can be used in a selective detection link, the requirement of actual industrial production cannot be met, and the improvement is needed urgently, so that the intelligent measuring device for the piston cylinder diameter is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be used for piston cylinder footpath intelligent measuring device has solved the problem that proposes in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a be used for piston cylinder diameter intelligence measuring device, including the installation frame, installation frame middle part fixed mounting has the portal, portal outside both sides fixed mounting has two gauge seats with the size, inside the inlaying of gauge seat installs the percentage table, installation frame inside wall fixed mounting has the lift fixing base, first spout has been seted up to lift fixing base inner wall, first spout outside is inlayed and is installed first guide holder, lift fixing base mid-rotation installs first lead screw, lift fixing base outer wall bottom fixed mounting has first servo motor, screw hole is seted up at first guide holder middle part, the middle part threaded connection of first lead screw and first guide holder, first guide holder outside fixed mounting has horizontal fixing base, horizontal fixing base inside fixed mounting has second servo motor, horizontal fixing base inside rotates installs the second lead screw, second lead screw outside threaded mounting has the second guide holder, horizontal fixing base top fixed surface installs T type guide rail, T type guide rail outside is inlayed and is installed T type groove slider, T type groove slider top fixed mounting has the mount pad, the mount pad mid-rotation installs the revolving stage, the revolving stage is externally inlayed and is installed the piston cylinder, mount pad top fixed mounting has third servo motor.

As a preferred embodiment of the technical scheme, the height positions of the two gauge stands are aligned with each other, the gauge stands are detachably connected with the dial indicator in a bolt fastening mode, and the detection end of the dial indicator is in through connection with the middle of the gauge stand.

As a preferred embodiment of this application technical scheme, the bottom both sides of second guide holder are all inlayed and are installed the bolt, and the bolt of second guide holder and the bottom surface threaded connection of mount pad.

As a preferred embodiment of the technical scheme, a first groove-shaped belt pulley is fixedly installed at the bottom of the rotating table, a groove-shaped belt is installed outside the first groove-shaped belt pulley in an embedded mode, a second groove-shaped belt pulley is fixedly installed on a motor shaft of the third servo motor, and the groove-shaped belt is connected with the second groove-shaped belt pulley in an embedded mode.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. this application technical scheme is through assembling the piston cylinder with the revolving stage, and second servo motor cooperation second lead screw and second guide holder conveniently remove the piston cylinder to two percentage tables middle parts, and the sense terminal of two percentage tables all laminates with the piston cylinder outer wall this moment, and third servo motor can drive the revolving stage and carry out the angle rotation, and numerical value through observing the percentage table changes to be favorable to detecting the circularity value of piston cylinder.

2. This application technical scheme is through first lead screw of first servo motor cooperation and first guide holder, and steerable horizontal fixing base is whole to go up and down to change two percentage tables to the check point position of piston cylinder, it is rotatory to continue to control the revolving stage afterwards to carry out the angle of deciding, is favorable to obtaining the measured data of the whole cylinder body surface circularity of piston cylinder, thereby conveniently reachs the holistic cylindricity of piston cylinder.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a front view of the intelligent measuring device for the piston cylinder diameter of the present invention;

fig. 2 is a schematic structural view of a lifting fixing seat for an intelligent piston cylinder diameter measuring device of the present invention;

fig. 3 is a schematic structural view of a transverse fixing seat for an intelligent piston cylinder diameter measuring device of the present invention;

fig. 4 is a front view of the gantry for an intelligent measuring device of piston cylinder diameter of the present invention;

fig. 5 is a front view of the lifting fixing base for the intelligent measuring device for piston cylinder diameter of the present invention;

fig. 6 is the utility model relates to a cross-sectional view that is used for piston cylinder diameter intelligence measuring device mount pad.

In the figure: 1. a mounting frame; 2. a first lead screw; 3. a lifting fixed seat; 4. a dial indicator; 5. a gauge stand; 6. a gantry; 7. a second servo motor; 8. a piston cylinder; 9. a second lead screw; 10. a rotating table; 11. a third servo motor; 12. a transverse fixed seat; 13. a mounting seat; 14. a T-shaped guide rail; 15. a T-shaped groove sliding block; 16. a first servo motor; 17. a second guide seat; 18. a first guide seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Embodiment 1, as shown in fig. 1-6, the utility model provides a technical solution: the utility model provides a be used for piston cylinder footpath intelligence measuring device, including installation frame 1, 1 middle part fixed mounting of installation frame has portal 6, portal 6 outside both sides fixed mounting has two gauge stands 5 with the size, gauge stand 5 is inside to inlay and to install percentage table 4, 1 inside wall fixed mounting of installation frame has lift fixing base 3, lift fixing base 3 inner wall has seted up first spout, first spout outside is inlayed and is installed first guide holder 18, lift fixing base 3 middle part rotates installs first lead screw 2, lift fixing base 3 outer wall bottom fixed mounting has first servo motor 16, first guide holder 18 middle part sets up the screw hole, first lead screw 2 and the middle part threaded connection of first guide holder 18, first guide holder 18 outside fixed mounting has horizontal fixing base 12, horizontal fixing base 12 inside fixed mounting has second servo motor 7, horizontal fixing base 12 inside rotates installs second lead screw 9, second lead screw 9 outside threaded mounting has second guide holder 17, horizontal fixing base 12 top surface fixed mounting has T type guide rail 14, T type guide rail 14 outside is installed and is inlayed T type groove slider 15, T type groove 15 top fixed mounting has mount 13, mount 13 middle part rotates and installs 10, mount 10 outside fixed mounting has the revolving stage 8, the servo motor 11 top fixed mounting has third revolving stage.

In one embodiment of the present invention, a standard measuring bar is used to calibrate two dial indicators 4, the distance between the two dial indicators 4 is designed as the standard outer diameter of the piston cylinder, the piston cylinder 8 is assembled with the rotary table 10, the second servo motor 7 drives the second lead screw 9 to rotate when it is started, because the second guide seat 17 is fastened with the mounting seat 13 by means of bolts, and the T-shaped slot slider 15 is limited on the T-shaped guide rail 14, at this time, the second lead screw 9 rotates to drive the mounting seat 13 to move along the direction of the T-shaped guide rail 14, thereby conveniently moving the piston cylinder 8 to the middle parts of the two dial indicators 4, stopping the second servo motor 7 when the detection ends of the two dial indicators 4 are both jointed with the outer wall of the piston cylinder 8, driving the second grooved belt pulley to rotate by the third servo motor 11, driving the rotating platform 10 to rotate by a set angle by the second grooved belt pulley through the grooved belt and the first grooved belt pulley, setting the rotating platform 10 to rotate 15 degrees each time, observing the numerical value change of the dial indicators 4, thereby being beneficial to detecting the roundness value of the piston cylinder 8, controlling the third servo motor 11 to stop after the piston cylinder 8 rotates for a circle, then driving the first screw rod 2 to rotate through the first servo motor 16, because the first guiding seat 18 is limited by the first sliding groove of the lifting fixed seat 3, the first guiding seat 18 can only lift at this time, thereby driving the transverse fixing seat 12 to integrally lift, at the moment, the position of the detection point of the piston cylinder 8 is changed by the two dial indicators 4, and then the third servo motor 11 is controlled to start, can continue measuring the circularity value of piston cylinder 8, be favorable to obtaining the measured data of 8 whole cylinder body surface circularities of piston cylinder after repeating above-mentioned step, according to the data contrast to conveniently reachd the holistic cylindricity of piston cylinder 8.

In the technical scheme, the two dial indicators 4 are corrected by the standard measuring rod, the distance between the two dial indicators 4 is set to be the standard outer diameter of the piston cylinder, the horizontal positions of the two dial indicators 4 must be aligned at the moment, and the accuracy of detection data is prevented from being influenced.

In some technical schemes, referring to fig. 4, the height positions of the two gauge stands 5 are aligned with each other, the gauge stands 5 are detachably connected with the dial indicator 4 in a bolt fastening mode, and the detection end of the dial indicator 4 is in through connection with the middle of the gauge stand 5.

In the technical scheme, the second servo motor 7 can drive the second screw rod 9 to rotate when being started, and the second guide seat 17 and the mounting seat 13 are fastened and connected in a bolt mode, and the T-shaped groove slide block 15 is limited on the T-shaped guide rail 14, so that the second screw rod 9 can drive the mounting seat 13 to move along the direction of the T-shaped guide rail 14 by rotating, and the piston cylinder 8 can be conveniently moved to the middle parts of the two dial indicators 4.

Referring to fig. 3 in some technical solutions, bolts are mounted on both sides of the bottom of the second guide seat 17 in an embedded manner, and the bolts of the second guide seat 17 are in threaded connection with the bottom surface of the mounting seat 13.

In the technical scheme, the third servo motor 11 can drive the second groove-shaped belt pulley to rotate after being started, and the second groove-shaped belt pulley can drive the rotating platform 10 to rotate for a set angle through the groove-shaped belt and the first groove-shaped belt pulley, so that the detection of the roundness value of the piston cylinder 8 is facilitated.

Referring to fig. 6 in some technical solutions, a first grooved pulley is fixedly installed at the bottom of the rotating table 10, a grooved belt is installed outside the first grooved pulley in an embedded manner, a second grooved pulley is fixedly installed on a motor shaft of the third servo motor 11, and the grooved belt is connected with the second grooved pulley in an embedded manner.

The working principle is as follows: the piston cylinder 8 and the rotary table 10 are assembled, the second servo motor 7 can drive the second lead screw 9 to rotate when being started, the second guide seat 17 and the mounting seat 13 are fixedly connected in a bolt mode, the T-shaped groove sliding block 15 is limited on the T-shaped guide rail 14, the second lead screw 9 can drive the mounting seat 13 to move along the direction of the T-shaped guide rail 14 at the moment, the piston cylinder 8 can be conveniently moved to the middle of the two dial indicators 4, the second servo motor 7 is stopped when the detection ends of the two dial indicators 4 are attached to the outer wall of the piston cylinder 8, the third servo motor 11 can drive the second grooved pulley to rotate, the second grooved pulley can drive the rotary table 10 to rotate for a set angle through the grooved belt and the first grooved pulley, the rotary table 10 is set to rotate 15 degrees every time, the roundness value of the piston cylinder 8 can be obtained by observing the numerical change of the dial indicator 4, the third servo motor 11 is controlled to stop after the piston cylinder 8 rotates for a circle, the first servo motor 16 drives the first rotary table 2, the first guide seat 18 is driven by the first sliding chute of the lifting fixing seat 3, the first guide seat to drive the first guide seat to transversely control the lifting of the piston cylinder 8, and the lifting of the piston cylinder 8, the lifting seat can continuously measure the roundness value of the whole piston cylinder, and the whole piston cylinder can be measured, and the whole piston cylinder 8, and the measuring data of the piston cylinder can be obtained by the measuring step.

Claims (4)

1. The utility model provides a be used for piston cylinder bore intelligent measuring device, includes installation frame (1), its characterized in that: the installation frame (1) middle part fixed mounting has portal (6), portal (6) outside both sides fixed mounting has two gauge stand (5) with the same size, inside inlay of gauge stand (5) installs percentage table (4), installation frame (1) inside wall fixed mounting has lift fixing base (3), first spout has been seted up to lift fixing base (3) inner wall, first spout outside is inlayed and is installed first guide holder (18), lift fixing base (3) middle part rotates installs first lead screw (2), lift fixing base (3) outer wall bottom fixed mounting has first servo motor (16), threaded hole has been seted up in first guide holder (18) middle part, first lead screw (2) and the middle part threaded connection of first guide holder (18), first guide holder (18) outside fixed mounting has horizontal fixing base (12), horizontal fixing base (12) inside fixed mounting has second servo motor (7), horizontal fixing base (12) inside rotates installs second lead screw (9), second guide holder (9) outside is installed second guide holder (17), horizontal fixing base (12) surface mounting has T type slider (14) top fixed mounting T type groove (15), T type groove (14) is inlayed to horizontal fixing base (14), mount pad (13) mid-rotation installs revolving stage (10), revolving stage (10) outside is inlayed and is installed piston cylinder (8), mount pad (13) top fixed mounting has third servo motor (11).

2. The intelligent measuring device for the piston cylinder diameter as claimed in claim 1, wherein: two the height position of gauge stand (5) aligns each other, gauge stand (5) are connected with percentage table (4) are detachable through bolt-up's mode, the test end of percentage table (4) and the middle part through connection of gauge stand (5).

3. The intelligent measuring device for the piston cylinder diameter according to claim 1, is characterized in that: the bottom both sides of second guide holder (17) all inlay and install the bolt, the bolt of second guide holder (17) and the bottom surface threaded connection of mount pad (13).

4. The intelligent measuring device for the piston cylinder diameter according to claim 1, is characterized in that: the bottom fixed mounting of revolving stage (10) has first cell type belt pulley, the cell type belt is installed to first cell type belt pulley outside inlaying, the motor shaft fixed mounting of third servo motor (11) has second cell type belt pulley, the cell type belt is inlayed with second cell type belt pulley and is connected.

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