CN206563563U - Measure the experimental provision of smooth cylindrical feeler gauge surface roughness - Google Patents

Abstract

The utility model is related to a kind of measurement experiment device, more particularly to a kind of experimental provision for measuring smooth cylindrical feeler gauge surface roughness, including light-section microscope, base, lift adjustment support, objective table and horizontal rotation travel mechanism, wherein lift adjustment support includes cantilever beams and screw-nut lifting regulating mechanism, vertical leading screw bottom is fixedly connected on base contained by screw-nut lifting regulating mechanism, the side of cantilever beams is sleeved on vertical leading screw top, and be fixedly connected by holding out against part with vertical leading screw, light-section microscope is fixedly connected on the opposite side of cantilever beams, objective table is located at immediately below light-section microscope, horizontally rotate travel mechanism and be located at objective table and base in-between, for connecting objective table and base, objective table is enabled to horizontally rotate or all around move relative to base；V-shaped groove is provided with the top of the objective table.The utility model measurement accuracy is high, and can guarantee that the surface appearance of surveyed workpiece, and detection use cost is relatively low, easy for operation.

Description

Measure the experimental provision of smooth cylindrical feeler gauge surface roughness

Technical field

The utility model is related to a kind of measurement experiment device, more particularly to a kind of measurement smooth cylindrical feeler gauge rough surface The experimental provision of degree.

Background technology

Feeler gauge, international call is divider, makes cylindrical shape, two ends are respectively go side and not-go-end, for checking position, is surveyed The size of metering-orifice, checks two pitch-rows, can also be used as go-no go gauge and the depth of measured hole, is the indispensable inspection of the standardization detection in hole Tool, and it is widely used in the various high-quality precision and sophisticated technology fields such as electron plate, wiring board, mould, precision optical machinery manufacture.Smooth cylindrical feeler gauge Typically using international advanced laser detecting apparatus detection workpiece surface roughness, and purchase international advanced laser detecting apparatus into This is higher, causes testing cost higher accordingly.Thus, research and design one kind can measure smooth cylindrical feeler gauge surface roughness Measurement experiment instrument, measurement accuracy is high, and can reduce detection use cost, is those skilled in the art's skill urgently to be resolved hurrily Art problem.

The content of the invention

The technical problems to be solved in the utility model is exactly to overcome above-mentioned the deficiencies in the prior art, and provides a kind of measurement essence Degree is high, and can guarantee that the surface appearance of surveyed workpiece, and relatively low, the easy for operation measurement smooth cylindrical of detection use cost The experimental provision of feeler gauge surface roughness.

In order to solve the above technical problems, the technical solution adopted in the utility model is：

A kind of experimental provision for measuring smooth cylindrical feeler gauge surface roughness of design, including light-section microscope, base, lifting Adjusting bracket, objective table and horizontal rotation travel mechanism, wherein lift adjustment support includes cantilever beams and screw-nut is lifted Governor motion, vertical leading screw bottom contained by screw-nut lifting regulating mechanism is fixedly connected on base, the side of cantilever beams Vertical leading screw top is sleeved on, and is fixedly connected by holding out against part with vertical leading screw, it is horizontal that light-section microscope is fixedly connected on cantilever The opposite side of beam, objective table is located at immediately below light-section microscope, and horizontal rotation travel mechanism is located above and below objective table and base it Between, for connecting objective table and base so that objective table can be horizontally rotated relative to base or all around moved；It is described to carry V-shaped groove is provided with the top of thing platform.

Preferably, in the experimental provision of above-mentioned measurement smooth cylindrical feeler gauge surface roughness, the horizontal rotation movement Mechanism includes upper movable disk and lower fixed disk, and wherein objective table is fixedly mounted in movable disk, and lower fixed disk is fixedly mounted on On base, upper movable disk with the contact surface of lower fixed disk altogether provided with two it is perpendicular intersection and connect setting tapped blind holes, And the center of upper movable disk is provided with convex column, the diameter of convex column is less than the diameter of tapped blind hole, and convex column is blind relative to screw thread Hole shiding matching connection, the inner of tapped blind hole is equipped with back-moving spring, and the outer end of tapped blind hole is equipped with mobile adjusting screw rod.

Preferably, in the experimental provision of above-mentioned measurement smooth cylindrical feeler gauge surface roughness, the screw-nut lifting Governor motion includes vertically arranged leading screw and the manual regulation screw being connected with the matching of its screw thread, and regulation screw is located at outstanding manually Arm crossbeam bottom.

Preferably, it is described to hold out against part to hold out against in the experimental provision of above-mentioned measurement smooth cylindrical feeler gauge surface roughness Screw, end is equipped with rotation regulation handle outside holds out against screw.

The beneficial effect of technical solutions of the utility model is：

1st, in structure, the utility model measurement smooth cylindrical feeler gauge surface roughness experimental provision cut using light it is micro- Mirror cuts principle to measure the nao-and micro relief of workpiece machining surface with light, due to being carried out in the case where not destroying the situation on surface, Thus measurement accuracy is high, moreover it is possible to ensures to survey the surface appearance of workpiece, using reasonable, utilizes implementation.

2nd, in structure, lift adjustment set by the experimental provision of the utility model measurement smooth cylindrical feeler gauge surface roughness Support conveniently relative to the high and low position of workpiece, after position adjustments are suitable, then can be cut by light aobvious regulation light-section microscope The roughness scenario of micro mirror eyepiece observation detection workpiece surface, is favorably improved measurement accuracy.

3rd, in structure, the utility model measurement smooth cylindrical feeler gauge surface roughness experimental provision set by objective table and Horizontally rotate travel mechanism, observation detection workpiece surface roughness scenario when, can by acting on mobile adjusting screw rod, To horizontally rotate or move position of the upper movable disk relative to lower fixed disk, so that each position of workpiece can be located at light Cut in microscope ocular observation detection range.Thus reasonable in design, easy for operation.

4th, in structure, the experimental provision of the utility model measurement smooth cylindrical feeler gauge surface roughness is at the top of objective table Provided with V-shaped groove, the positioning for workpiece is supported, to facilitate the roughness feelings that workpiece surface is observed and detected by light-section microscope Condition, it is easy to use.In addition, the utility model is relative to international advanced laser detecting apparatus, acquisition cost is low, so as to reduce detection Cost, thus beneficial to promotion and implementation.

Brief description of the drawings

Embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings, wherein：

Fig. 1 is the structural representation for the experimental provision that the utility model measures smooth cylindrical feeler gauge surface roughness；

Fig. 2 is the A-A cross section structure diagrams shown in Fig. 1；

Fig. 3 is the structural representation of objective table contained by the utility model；

Sequence number in figure：1st, light-section microscope, 2, base, 3, cantilever beams, 4, vertical leading screw, 5, adjust screw manually, 6, Objective table, 7, holds out against screw, 8, rotation regulation handle, 9, upper movable disk, 10, lower fixed disk, 11, tapped blind hole, 12, raised Post, 13, back-moving spring, 14, mobile adjusting screw rod, 15, V-shaped groove.

Embodiment

Illustrate embodiment of the present utility model with reference to the accompanying drawings and examples, but following examples are to use To describe the utility model in detail, scope of the present utility model is not limited in any way, it is involved in the examples below Instrument element unless otherwise instructed, be conventional instrument element.

Embodiment one：

Referring to Fig. 1, in figure, the utility model measures the experimental provision of smooth cylindrical feeler gauge surface roughness, including light is cut Microscope 1, base 2, cantilever beams 3, manually vertical leading screw 4, regulation screw 5, objective table 6 and horizontal rotation travel mechanism, its In vertical leading screw bottom be fixedly connected on base, the side of cantilever beams is sleeved on vertical leading screw top, and by holding out against spiral shell Silk 7 is fixedly connected with vertical leading screw, and end is located at cantilever equipped with rotation regulation handle 8, manually regulation screw outside holds out against screw Crossbeam bottom, and be connected with the matching of vertical threads of lead screw, the lift adjustment for cantilever beams.Light-section microscope is fixedly connected on The opposite side of cantilever beams, objective table is located at immediately below light-section microscope, and horizontal rotation travel mechanism is located at objective table and base In-between, for connecting objective table and base so that objective table can be horizontally rotated relative to base or all around moved.

Referring to Fig. 1-2, in figure, horizontal rotation travel mechanism includes upper movable disk 9 and lower fixed disk 10, and wherein objective table is consolidated Dingan County is in upper movable disk, and lower fixed disk is fixedly mounted on base, is set altogether on the contact surface of upper movable disk and lower fixed disk There is the tapped blind hole 11 that two perpendicular intersections and connection are set, and the center of upper movable disk is provided with convex column 12, convex column Diameter is less than the diameter of tapped blind hole, and convex column is connected relative to tapped blind hole shiding matching, and the inner of tapped blind hole is equipped with multiple Position spring 13, the outer end of tapped blind hole is equipped with mobile adjusting screw rod 14.

Referring to Fig. 3, in figure, V-shaped groove 15, the support for workpiece are provided with the top of objective table.

It is that smooth cylindrical feeler gauge is placed on the V-shaped groove of objective table by workpiece, by rotating regulation handle when specifically used Holds out against screw is unclamped, and then by adjusting screw manually, regulation cantilever beams, relative to the high and low position of base, are regulation light High and low position of the microscope relative to workpiece is cut, after after position suitable, holds out against screw is tightened by rotating regulation handle, can be passed through The roughness scenario of light-section microscope eyepiece observation detection workpiece surface；At the same time, can be by acting on mobile regulation spiral shell Bar, to horizontally rotate or move position of the upper movable disk relative to lower fixed disk, so that each position of workpiece can position In in light-section microscope eyepiece observation detection range.Thus reasonable in design, easy for operation；In addition, being cut using light aobvious Micro mirror cuts principle to measure the nao-and micro relief of workpiece machining surface with light, due to being carried out in the case where not destroying the situation on surface , it is a kind of indirect measurement method, i.e., the unevenness of line trace is just can determine that after calculating.Thus measurement accuracy is high, also The surface appearance of surveyed workpiece is can guarantee that, using reasonable, implementation is utilized.

The utility model is described in detail above in conjunction with drawings and examples, still, the skill of art Art personnel, can also be specific to each in above-described embodiment it is understood that on the premise of the utility model objective is not departed from Parameter is changed, and is formed multiple specific embodiments, is common excursion of the present utility model, no longer detailed one by one herein State.

Claims (4)

1. a kind of experimental provision for measuring smooth cylindrical feeler gauge surface roughness, it is characterized in that：Including light-section microscope, base, Lift adjustment support, objective table and horizontal rotation travel mechanism, wherein lift adjustment support include cantilever beams and screw-nut Lifting regulating mechanism, vertical leading screw bottom contained by screw-nut lifting regulating mechanism is fixedly connected on base, cantilever beams Side is sleeved on vertical leading screw top, and is fixedly connected by holding out against part with vertical leading screw, and light-section microscope is fixedly connected on outstanding The opposite side of arm crossbeam, objective table is located at immediately below light-section microscope, and horizontal rotation travel mechanism is located on objective table and base Between lower, for connecting objective table and base so that objective table can be horizontally rotated relative to base or all around moved；Institute State and V-shaped groove is provided with the top of objective table.

2. the experimental provision of measurement smooth cylindrical feeler gauge surface roughness according to claim 1, it is characterized in that：The water Equalling mechanism in rotary moving includes upper movable disk and lower fixed disk, and wherein objective table is fixedly mounted in movable disk, lower fixed disk Be fixedly mounted on base, upper movable disk with the contact surface of lower fixed disk altogether provided with two it is perpendicular intersection and connect setting Tapped blind hole, and the center of upper movable disk is provided with convex column, the diameter of convex column is less than the diameter of tapped blind hole, and convex column is relative In the connection of tapped blind hole shiding matching, the inner of tapped blind hole is equipped with back-moving spring, and the outer end of tapped blind hole is adjusted equipped with mobile Screw rod.

3. the experimental provision of measurement smooth cylindrical feeler gauge surface roughness according to claim 1 or 2, it is characterized in that：Institute Stating screw-nut lifting regulating mechanism includes vertically arranged leading screw and the manual regulation screw being connected with the matching of its screw thread, manually Adjust screw and be located at cantilever beams bottom.

4. the experimental provision of measurement smooth cylindrical feeler gauge surface roughness according to claim 1 or 2, it is characterized in that：Institute State and hold out against part for holds out against screw, end is equipped with rotation regulation handle outside holds out against screw.