CN213499481U

CN213499481U - Slotting tester

Info

Publication number: CN213499481U
Application number: CN202022148458.5U
Authority: CN
Inventors: 何汶华; 王崇武
Original assignee: Biuged Precision Instrument Guangzhou Co ltd
Current assignee: Biuged Precision Instrument Guangzhou Co ltd
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2021-06-22
Anticipated expiration: 2030-09-25

Abstract

The utility model discloses a slotting machine, include: the device comprises a shell component, a sucker component, a sliding component, a motor component, a clamping adjusting component and a milling cutter, wherein the sucker component comprises an adsorption surface for adsorbing a sample, the adsorption surface is parallel to the top surface of the shell component, the sliding component can horizontally slide along the shell component, the sliding component comprises a sliding part and a mounting part, the mounting part is positioned above the sucker component, the mounting part and the sucker component are arranged at intervals, the motor component is mounted at the upper end of the mounting part, the clamping adjusting component is connected with an output shaft of the motor component, the milling cutter is detachably mounted on the clamping adjusting component and is positioned at the lower end of the mounting part, the distance between the milling cutter and the surface of the sample, the rotating speed and the feeding speed of the milling cutter are adjustable, the milling cutter can be applied to samples with surfaces covered with substrates with different thicknesses and hardness coatings, the difference caused by different samples in the subsequent detection test is eliminated.

Description

Slotting tester

Technical Field

The utility model relates to a detection test device field, in particular to slotting tester.

Background

In laboratory testing, there are a plurality of situations and need to carry out fluting destruction to the substrate to sample surface coating, generally adopt manual mode to destroy sample coating in the past, but because the difference of sample thickness and the thickness of coating and the variety of hardness performance, can cause the sample to can not cut coating to substrate or the unevenness of gained coating groove edge, the condition that has the breakage often, adjust the troublesome poeration according to the circumstances, efficiency is lower, the factor that influences the experiment can not obtain fine control, lead to the experimental result inaccurate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide a slotting test machine, can overcome the grooved weak point of sample coating among the current test, and simple structure, convenient operation.

According to the utility model discloses an embodiment of the first aspect provides a slotting tester, include: casing subassembly, sucking disc subassembly, motor element, clamping adjustment assembly and milling cutter slide, the sucking disc subassembly is including the adsorption plane that is used for adsorbing the sample, the adsorption plane with casing subassembly top surface parallel arrangement, the subassembly that slides can be followed casing subassembly horizontal slip, the subassembly that slides is including the portion and the installation department of sliding, the portion of sliding is followed casing subassembly horizontal slip, the installation department is located sucking disc subassembly top, just the installation department with sucking disc subassembly interval sets up, motor element installs the installation department upper end, the clamping adjustment assembly with motor element's output shaft, milling cutter detachably installs on the clamping adjustment assembly, milling cutter is located the installation department lower extreme.

Has the advantages that: this slotting tester includes: the device comprises a shell component, a sucker component, a sliding component, a motor component, a clamping adjusting component and a milling cutter, wherein the sucker component comprises an adsorption surface for adsorbing a sample, the adsorption surface is parallel to the top surface of the shell component, the sliding component can horizontally slide along the shell component, the sliding component comprises a sliding part and a mounting part, the mounting part is positioned above the sucker component, the mounting part and the sucker component are arranged at intervals, the motor component is arranged at the upper end of the mounting part, the clamping adjusting component is connected with an output shaft of the motor component, the milling cutter is detachably arranged on the clamping adjusting component and is positioned at the lower end of the mounting part, the distance between the milling cutter and the surface of the sample, the rotating speed and the feeding speed of the milling cutter are adjustable, the device can be applied to samples with surfaces covered with substrates with different thicknesses and hardness coatings, and a milled groove, the difference caused by different samples in the subsequent detection test is eliminated.

According to the utility model discloses the fluting testing machine of the embodiment of the first aspect, the subassembly that slides includes that balladeur train, linear slide rail are vice, the balladeur train includes upper plate, hypoplastron and connection the curb plate of upper plate and hypoplastron, the upper plate forms installation portion, hypoplastron and linear slide rail are vice to form the portion of sliding.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, the linear slide is vice include the slide rail and with slide rail complex slider, the slide rail sets up the casing subassembly bottom surface, the slider sets up on the hypoplastron, casing subassembly's both sides face is provided with the cross slot, the hypoplastron is followed the cross slot stretches out outside the casing subassembly.

According to the utility model discloses the embodiment of first aspect the fluting testing machine, the upper plate with the hypoplastron all with the curb plate passes through screw fastening.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, the subassembly that slides still includes lead screw structure, lead screw structure includes lead screw and screw nut, the lead screw sets up along the vice glide direction of linear slide rail, the nut is fixed on the hypoplastron.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, clamping adjusting part includes axle sleeve, shaft coupling, takes bearing frame, axle collar and dress folder, the axle sleeve pass through the screw with the axle collar is fixed take on the bearing frame, take the bearing frame with upper plate fix with screw, axle sleeve one end pass through the shaft coupling with motor element connects, axle sleeve other end demountable installation has the dress folder, milling cutter demountable installation be in on the dress folder.

According to the utility model discloses the fluting testing machine of the first aspect embodiment, the axle sleeve is provided with the shaft hole, clamping piece includes pole portion and clamping mouth, install compression spring in the shaft hole, pole portion is pegged graft in the shaft hole and is fixed through the loading and unloading stick, compression spring one end with pole portion is connected.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, milling cutter one end clamping is in the clamping mouth to through lock nut with clamping locking is fixed.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, the sucking disc subassembly is permanent magnetism sucking disc, the casing subassembly is provided with an opening, permanent magnetism sucking disc passes through the opening clamps.

According to the utility model discloses the embodiment of the first aspect the fluting testing machine, the fluting testing machine still includes control panel, control panel is used for control motor element and the work of subassembly that slides.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples;

FIG. 1 is a perspective view of a slotting machine according to an embodiment of the present invention;

FIG. 2 is a sectional view of the slotting machine of the embodiment of the present invention;

figure 3 is the utility model discloses a clamping adjusting part cross-sectional view.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1, a slot tester includes: the milling cutter comprises a shell assembly 100, a sucker assembly 200, a sliding assembly 300, a motor assembly 400, a clamping adjusting assembly 500 and a milling cutter 600. Wherein, sucking disc subassembly 200 is including the adsorption plane that is used for adsorbing the sample, adsorption plane and casing subassembly 100 top surface parallel arrangement, casing subassembly 100 horizontal slip can be followed to the subassembly 300 that slides, the subassembly 300 that slides includes the portion of sliding and installation department, the portion of sliding is along casing subassembly 100 horizontal slip, the installation department is located sucking disc subassembly 200 top, and installation department and sucking disc subassembly 200 interval setting, motor element 400 installs in the installation department upper end, clamping adjusting component 500 is connected with motor element 400's output shaft, milling cutter 600 detachably installs on clamping adjusting component 500, milling cutter 600 is located the installation department lower extreme.

In this embodiment, the suction cup assembly 200 is a permanent magnetic suction cup, and the casing assembly 100 is provided with an opening through which the permanent magnetic suction cup is clamped. The suction surface of the suction cup assembly 200 protrudes out of the upper end surface of the housing assembly 100. The milling cutter 600 is an end mill. The motor assembly 400 is a rotating electrical machine. The end milling cutter is used, a sample coating fixed on a permanent magnetic chuck is grooved by controlling the rotating speed and the milling feed speed of the end milling cutter, a sample is adsorbed and fixed through the permanent magnetic chuck, the rotating speed of the end milling cutter is controlled through a rotating motor, in addition, the sample coating is milled and grooved by controlling the horizontal direction running of the end milling cutter through a direct current motor, and the distance between the end milling cutter and the surface of the sample can be adjusted, so that the pressure of the end milling cutter on the surface coating of the sample is adjusted, and the end milling cutter can be suitable for samples of different specifications.

Referring to fig. 2, the sliding assembly 300 includes a carriage 310 and a linear slide rail pair 320, the carriage 310 includes an upper plate 311, a lower plate 312, and a side plate 313 connecting the upper plate 311 and the lower plate 312, the upper plate 311 forms a mounting portion, and the lower plate 312 and the linear slide rail pair 320 form a sliding portion. Further, the linear slide rail pair 320 includes a slide rail 321 and a slider 322 engaged with the slide rail 321, the slide rail 321 is disposed on the bottom surface of the housing assembly 100, the slider 322 is disposed on the lower plate 312, two side surfaces of the housing assembly 100 are provided with transverse grooves, and the lower plate 312 extends out of the housing assembly 100 from the transverse grooves. The upper plate 311 and the lower plate 312 are fastened to the side plate 313 by screws. The upper plate 311 is provided with an adjusting screw for adjusting the base plane of the milling cutter 600 to be parallel to the permanent magnetic chuck.

Referring to fig. 2, it can be understood that the sliding assembly 300 further includes a lead screw structure 330, the lead screw structure 330 includes a lead screw 331 and a lead screw nut 332, the lead screw 331 is disposed along the sliding direction of the linear slide rail pair 320, and the nut 332 is fixed on the lower plate 312. The lead screw 311 is a trapezoidal lead screw, and the lead screw nut 332 is a trapezoidal lead screw nut.

Referring to fig. 3, the chucking adjustment assembly 500 includes a sleeve 510, a coupling 520, a belt bearing housing 530, a collar 580, and a chucking member 540, the sleeve 510 is fixed to the belt bearing housing 530 by means of screws and the collar 580, one end of the sleeve 510 is connected to the motor assembly 400 by means of the coupling 520, the chucking member 540 is detachably mounted to the other end of the sleeve 510, and the milling cutter 600 is detachably mounted to the chucking member 540. The output end of the rotating motor transmits the torque to the shaft sleeve 510, and the shaft sleeve 510 rotates to drive the end mill to rotate.

Specifically, the shaft sleeve 510 is provided with a shaft hole, the clamping piece 540 comprises a rod portion 541 and a clamping opening 542, a compression spring 550 is installed in the shaft hole, the compression spring 550 enables the end mill to apply acting force on the coating, the rod portion 541 is inserted into the shaft hole and fixed through a mounting and dismounting rod 560, and one end of the compression spring 550 is connected with the rod portion 541. The handling bar 560 may employ pins. The milling cutter 600 is clamped at one end in the clamping opening 542 and is locked and fixed by the locking nut 570 and the clamping piece 540. The clamping member 540 is tapered at its end, and the locking nut 570 and the clamping member 540 cooperate to lock the milling cutter 600.

In some embodiments, the slotting machine further comprises a control panel 700, and the control panel 700 is used for controlling the motor assembly 400 and the sliding assembly 300 to work. The control panel 700 is respectively electrically connected with the rotating motor and the direct current motor, and the rotating motor is controlled by controlling the control panel 700, so that the rotating speed of the end mill is controlled, the direct current motor is controlled, the sliding assembly 300 is controlled to slide, and the horizontal direction of the end mill is controlled to mill and open the groove on the sample.

Before a slotting test is carried out on a sample coating, the position of an end mill is adjusted through loosening of a locking nut 570 and a clamping piece 540 according to the thickness of a sample, then the end mill is screwed and fixed, the whole clamping and adjusting assembly 500 is adjusted to be in a parallel state of the bottom plane of the end mill relative to a permanent magnetic chuck through an adjusting screw along with an upper plate 311 fixedly connected together, before the sample is placed, a loading and unloading rod 560 is held to lift the end mill upwards and then rotate clockwise to be limited by a shaft hole, after the sample is placed on the permanent magnetic chuck and fixed on the permanent magnetic chuck through a magnetic switch, the loading and unloading rod 560 rotates anticlockwise, a certain pressure is kept on the sample surface coating by the end mill due to the acting force of a compression spring 550, the pressure can be adjusted according to the position of the end mill relative to the sample, a rotating motor is controlled by a control panel 700 to enable the end mill to rotate through, when the end mill mills a coating to a substrate, the control panel 700 controls the other direct current motor, the sliding assembly 300 consisting of the trapezoidal screw rod, the trapezoidal screw rod nut and the linear slide rail pair 320 to enable the end mill to start to advance in the horizontal direction through the sliding frame 310 to continuously mill and destroy the coating on the surface of the sample. The operation can be adapted to samples with coatings of different hardness and thickness, so that a straight groove is formed on the surface of the sample, and the coating is completely damaged to the substrate.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims

1. A slotting tester, comprising:

a housing assembly;

the sucker component comprises an adsorption surface for adsorbing a sample, and the adsorption surface is parallel to the top surface of the shell component;

the sliding assembly can horizontally slide along the shell assembly and comprises a sliding part and a mounting part, the mounting part is positioned above the sucker assembly, and the mounting part and the sucker assembly are arranged at intervals;

the motor assembly is arranged at the upper end of the mounting part;

the clamping adjusting assembly is connected with an output shaft of the motor assembly; and

and the milling cutter is detachably installed on the clamping adjusting component and is located at the lower end of the installation part.

2. The slot tester of claim 1, wherein: the sliding assembly comprises a sliding frame and a linear sliding rail pair, the sliding frame comprises an upper plate, a lower plate and a side plate for connecting the upper plate and the lower plate, the upper plate forms an installation part, and the lower plate and the linear sliding rail pair form a sliding part.

3. The slot tester of claim 2, wherein: the linear sliding rail pair comprises a sliding rail and a sliding block matched with the sliding rail, the sliding rail is arranged on the bottom surface of the shell assembly, the sliding block is arranged on the lower plate, the two side surfaces of the shell assembly are provided with transverse grooves, and the lower plate extends out of the shell assembly from the transverse grooves.

4. The slot tester of claim 2, wherein: the upper plate and the lower plate are fastened with the side plates through screws.

5. The slot tester of claim 2, wherein: the sliding assembly further comprises a screw rod structure, the screw rod structure comprises a screw rod and a screw rod nut, the screw rod is arranged along the sliding direction of the linear slide rail pair, and the nut is fixed on the lower plate.

6. The slot tester of claim 2, wherein: the clamping adjusting assembly comprises a shaft sleeve, a shaft coupler, a belt bearing seat, a shaft collar and a clamping piece, the shaft sleeve is fixed on the belt bearing seat through a screw and the shaft collar, the belt bearing seat is fixed on an upper plate through a screw, one end of the shaft sleeve is connected with the motor assembly through the shaft coupler, the other end of the shaft sleeve is detachably mounted on the clamping piece, and the milling cutter is detachably mounted on the clamping piece.

7. The slot tester of claim 6, wherein: the shaft sleeve is provided with a shaft hole, the clamping piece comprises a rod part and a clamping opening, a compression spring is installed in the shaft hole, the rod part is inserted in the shaft hole and fixed through a loading and unloading rod, and one end of the compression spring is connected with the rod part.

8. The slot tester of claim 7, wherein: and one end of the milling cutter is clamped in the clamping port and is locked and fixed with the clamping piece through a locking nut.

9. The slot tester of claim 1, wherein: the sucking disc subassembly is the permanent magnetism sucking disc, the casing subassembly is provided with an opening, the permanent magnetism sucking disc passes through the opening clamps.

10. The slot tester of claim 1, wherein: the slotting tester also comprises a control panel, and the control panel is used for controlling the motor assembly and the sliding assembly to work.