CN205352914U - Detection device is assisted to coated cutting tool cohesion - Google Patents

Abstract

The utility model provides a detection device is assisted to coated cutting tool cohesion, it includes the thermostatic chambers body, sets up internal cutter fixed station and the drive arrangement of thermostatic chambers, the last cutter ball -milling ball that is used for the ball -milling cutter of installing of drive arrangement, cutter ball -milling ball is located the top of cutter fixed station. This detection device is assisted to coated cutting tool cohesion utilizes constant temperature environment to relapse the ball -milling to coated cutting tool and simulates cutter service environment with this, and then detects the coating cohesion in the cutter, it has scientific, rational in infrastructure, the easy operation of design, testing ring border temperature and the accurate advantage of test result.

Description

Coated cutting tool adhesion auxiliary detection device

Technical field

This utility model relates to a kind of Tool monitoring equipment, specifically, relate to a kind of coated cutting tool adhesion auxiliary detection device.

Background technology

Along with the application of new material is further extensive, these materials generally have a feature that hardness is big, intensity is high, and cannot meet it in high precision based on the conventional tool of high-speed steel and Hardmetal materials, high efficiency processing request.And diamond is by excellent properties such as its high rigidity, high heat conductance, low-friction coefficient and low thermal coefficient of expansion, it it is considered as one of optimal cutter material, the existing diamond cutter effect in order to improve Tool in Cutting performance, increase the service life, mostly adopts and increases by one layer of diamond coatings on the method cutter of chemical vapour deposition (CVD).

The adhesion of the diamond coatings in this cutter and cutter have impact on the overall performance of cutter, and how detecting the adhesion of diamond coatings in cutter is people's problem demanding prompt solutions.

In order to solve above Problems existing, people are seeking a kind of desirably technical solution always.

Summary of the invention

The purpose of this utility model is for the deficiencies in the prior art, thus providing a kind of design science, rational in infrastructure, simple to operate, test environment temperature and test result coated cutting tool adhesion auxiliary detection device accurately.

To achieve these goals, this utility model be the technical scheme is that a kind of coated cutting tool adhesion auxiliary detection device, it includes constant temperature cavity, be arranged in described constant temperature cavity cutter fixed station and driving device, being provided with the cutter ball milling ball for ball milling cutter on described driving device, described cutter ball milling ball is positioned at the top of described cutter fixed station.

Based on above-mentioned, described constant temperature cavity includes airtight cavity and the heater being arranged in described airtight cavity, and described heater is connected to heating rod, and described heating rod is arranged in described airtight cavity.

Based on above-mentioned, described driving device includes the drive motor being arranged on outside described constant temperature cavity and the rotation axle being arranged on described drive motor output shaft, described rotation axle is arranged in described constant temperature cavity and is positioned at above described cutter fixed station, and described cutter ball milling ball is arranged on described rotation axle.

Based on above-mentioned, described driving device includes running through the rotating shaft that described constant temperature cavity is arranged and the motor being separately positioned on described constant temperature cavity both sides, described rotating shaft is positioned at the top of described cutter fixed station, described cutter ball milling ball is arranged in described rotating shaft, and the two ends of described rotating shaft connect the output shaft of described motor respectively.

Based on above-mentioned, the middle part of described rotating shaft is provided with mounting groove, and described cutter ball milling ball is arranged in described mounting groove.

Based on above-mentioned, described cutter fixed station includes crane and is fixed on the corrosion resistant plate face at described crane top.

Based on above-mentioned, described cutter ball milling ball is aluminium alloy cutter ball milling ball.

This utility model hinge structure has substantive distinguishing features and progress, specifically, this utility model includes constant temperature cavity and the cutter fixed station being arranged in described constant temperature cavity, constant temperature cavity is utilized to provide the detection environment of constant temperature, described driving device drives described cutter ball milling ball that cutter is carried out ball milling repeatedly simultaneously, simulating the duty of cutter with this, blade face is detected after completing by ball milling, determines the adhesion situation of cutter and coating with this；It has design science, rational in infrastructure, simple to operate, test environment temperature and test result advantage accurately.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment 1 in this utility model.

Fig. 2 is the structural representation of embodiment 2 in this utility model.

Detailed description of the invention

Below by detailed description of the invention, the technical solution of the utility model is described in further detail.

Embodiment 1

As shown in Figure 1, a kind of coated cutting tool adhesion auxiliary detection device, it includes constant temperature cavity 1, be arranged in described constant temperature cavity 1 cutter fixed station 2 and driving device, being provided with the cutter ball milling ball 3 for ball milling cutter 6 on described driving device, described cutter ball milling ball 3 is positioned at the top of described cutter fixed station 2；When this device uses, described cutter 6 is fixed on described cutter fixed station 2, and the position adjusting described cutter ball milling ball 3 contacts described cutter 6, starts described driving device and starts ball milling experiment.

The cutter of coating can be detected by this device, it is effectively tested out the adhesion of cutter floating coat, when described constant temperature cavity 1 provides detection conditions warrant to detect, temperature is constant, described cutter fixed station 2 is for fixed cutting tool 6, this cutter fixed station 2 adopts exotic material to make, and when described cutter 6 is fixed, utilizes high-temperature plastic viscous cemented fixed or employing triangle fixture to be fixed, utilize described cutter ball milling ball 3 that cutter 6 is carried out ball milling after fixing, simulate cutter working environment with this.

In order to ensure the temperature constant of constant temperature cavity, described constant temperature cavity 1 includes airtight cavity and the heater 7 being arranged in described airtight cavity, described heater is connected to heating rod, and described heating rod is arranged in described airtight cavity, utilizes heater 7 to carry out the regulation and control of temperature and the maintenance of temperature；For the uniformity of heats and temperature in the present embodiment, adopting three heating rods, three described heating rods are distributed in described constant temperature cavity 1；It should be noted that the setting that can be heated rod number in other embodiments as required, ensure isoperibol with this.

The present embodiment gives a kind of concrete cutter ball milling ball driving device, described driving device also includes the drive motor 4 being arranged on outside described constant temperature cavity 1 and the rotation axle 5 being arranged on described drive motor output shaft, described rotation axle 5 is arranged in described constant temperature cavity 1 and is positioned at above described cutter fixed station 2, described cutter ball milling ball 3 is arranged on described rotation axle 5, concrete installation site is configured as required, and the stability to guarantee ball milling is as the criterion；Utilize described driving device to driving described cutter ball milling ball 3 ball milling repeatedly on described cutter 6.Simultaneously in order to ensure the stability of ball milling, the two ends of described rotation axle 5 can arrange bearing, utilizes support and the protective effect of bearing, it is ensured that the stability of ball milling.

In order to ensure testing result, described cutter fixed station 2 includes crane and is fixed on the corrosion resistant plate face at described crane top, utilizes described crane that the contact position of described cutter 6 with described cutter ball milling ball 3 is adjusted, meets ball milling effect with this.In the present embodiment, described cutter ball milling ball 3 is aluminium alloy cutter ball milling ball.

When specifically detecting, first, carry out the heating of constant temperature cavity 1 as required, after reaching heating condition, the temperature in constant temperature cavity 1 is kept；Secondly, the angles and positions of described cutter 6 and described cutter ball milling ball 3 are adjusted；Again, start described drive motor 4 and offer ball milling experiment；Finally, closing described drive motor 4 after having tested, described constant temperature cavity 1 is lowered the temperature, and takes out described cutter 6, utilizes microscope carry out cutter 6 configuration of surface analysis and then judge the adhesion situation of cutter and coating.

Embodiment 2

The present embodiment is distinctive in that from embodiment 1: described driving device is different, specifically as shown in Figure 2, described driving device includes running through the rotating shaft 9 that described constant temperature cavity 1 is arranged and the motor 8 being separately positioned on described constant temperature cavity 1 both sides, described rotating shaft 9 is positioned at the top of described cutter fixed station 2, described cutter ball milling ball 3 is arranged in described rotating shaft 9, the two ends of described rotating shaft 9 connect the output shaft of described motor 8 respectively, utilize described rotating shaft 9 that described cutter ball milling ball 3 is driven, it is ensured that the accuracy of ball milling result.Adopt the rotating shaft 9 running through setting so that during ball milling, this cutter ball milling ball 3 rotates uniformly, and then ensure the stability of ball milling.During use, first, determine the temperature constant of described constant temperature cavity 1, secondly open two described motors 8 and carry out rotating in same direction, drive described cutter ball milling ball 3 to carry out the ball milling of cutter with this, finally, described motor 8 is closed after having tested, described constant temperature cavity 1 is lowered the temperature, and takes out described cutter 6, utilizes microscope carry out cutter 6 configuration of surface analysis and then judge the adhesion situation of cutter and coating.

In the present embodiment, the middle part of described rotating shaft 9 is provided with mounting groove, and described cutter ball milling ball 3 is arranged in described mounting groove, adopts the middle part of described rotating shaft 9 to arrange the structure of mounting groove, make described cutter ball milling ball 3 be positioned at the center of described rotating shaft 9, be further ensured that the stability of ball milling.

Finally should be noted that: above example is only in order to illustrate that the technical solution of the utility model is not intended to limit；Although this utility model being described in detail with reference to preferred embodiment, those of ordinary skill in the field are it is understood that still can modify to detailed description of the invention of the present utility model or portion of techniques feature carries out equivalent replacement；Without deviating from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope that this utility model is claimed.

Claims (7)

1. a coated cutting tool adhesion auxiliary detection device, it is characterized in that: it includes constant temperature cavity, the cutter fixed station that is arranged in described constant temperature cavity and driving device, being provided with the cutter ball milling ball for ball milling cutter on described driving device, described cutter ball milling ball is positioned at the top of described cutter fixed station.

2. coated cutting tool adhesion auxiliary detection device according to claim 1, it is characterized in that: described constant temperature cavity includes airtight cavity and the heater being arranged in described airtight cavity, described heater is connected to heating rod, and described heating rod is arranged in described airtight cavity.

3. coated cutting tool adhesion auxiliary detection device according to claim 2, it is characterized in that: described driving device includes the drive motor being arranged on outside described constant temperature cavity and the rotation axle being arranged on described drive motor output shaft, described rotation axle is arranged in described constant temperature cavity and is positioned at above described cutter fixed station, and described cutter ball milling ball is arranged on described rotation axle.

4. coated cutting tool adhesion auxiliary detection device according to claim 2, it is characterized in that: described driving device includes running through the rotating shaft that described constant temperature cavity is arranged and the motor being separately positioned on described constant temperature cavity both sides, described rotating shaft is positioned at the top of described cutter fixed station, described cutter ball milling ball is arranged in described rotating shaft, and the two ends of described rotating shaft connect the output shaft of described motor respectively.

5. coated cutting tool adhesion auxiliary detection device according to claim 4, it is characterised in that: the middle part of described rotating shaft is provided with mounting groove, and described cutter ball milling ball is arranged in described mounting groove.

6. the coated cutting tool adhesion auxiliary detection device according to claim 3 or 5, it is characterised in that: described cutter fixed station includes crane and is fixed on the corrosion resistant plate face at described crane top.

7. coated cutting tool adhesion auxiliary detection device according to claim 6, it is characterised in that: described cutter ball milling ball is aluminium alloy cutter ball milling ball.