CN209589739U - A kind of detecting instrument detecting nano-scale particle wear-resisting property - Google Patents

Abstract

A kind of detecting instrument detecting nano-scale particle wear-resisting property, the support plate is equipped with driving motor, the lower end of the driving motor is equipped with driving cylinder, the lower end of the driving cylinder is equipped with supporting beam, the side of the lower end of the supporting beam is equipped with rotating electric machine, and the rotating electric machine connects frosted axis by bearing, and the frosted axis is equipped with grinding abrasive disk, the lower end of the rotating electric machine is equipped with decelerating motor, and the top of the pedestal is equipped with the fixing seat being meshed with grinding abrasive disk；Supporting beam is driven to carry out down force by driving motor, pass through the dynamics that pressure sensor senses pressure information is downward convenient for control driving motor, it drives frosted axis to carry out rubbing for measuring targets by rotating electric machine and realizes the detection of wear-resisting property, the revolving speed of rotating electric machine is adjustable, the dust that friction generates can just be cleared up by air intake device I and air intake device II, easy to operate, detection effect is good.

Description

A kind of detecting instrument detecting nano-scale particle wear-resisting property

Technical field

The utility model relates to wear-resisting property detection fields, and in particular to a kind of inspection for detecting nano-scale particle wear-resisting property Survey instrument.

Background technique

Nano-scale particle is a kind of wear-resistant, resistance to stripping striking property nano coating, and main component is nanometer grade silica powder End can be applied to all metal surfaces, especially have better adaptability to stainless steel surface；For protecting metal surface from meeting with By the destruction of general destructive external force；The pressure and frictional force of the wear-resisting property detection device of nano-scale particle in the prior art Degree does not have regulatory function, and detection effect is undesirable, and the dust inconvenience cleaning after detection reduces working efficiency.

Summary of the invention

It is to be solved by this invention the purpose of this utility model is to overcome above-mentioned the shortcomings of the prior art place Technical problem is the situation for the prior art, and it is wear-resisting to provide a kind of a kind of reasonable detection nano-scale particle of compact overall structure The detecting instrument of performance.

The technical solution adopted in the utility model are as follows: the detecting instrument of the detection nano-scale particle wear-resisting property, including branch The top of column I, pillar II, support plate and pedestal, the pillar I and pillar II are equipped with support plate, set in the support plate There is driving motor, the lower end of the driving motor is equipped with driving cylinder, and the lower end of the driving cylinder is equipped with supporting beam, institute The two sides for the supporting beam stated are socketed on pillar I and pillar II, and the side of the lower end of the supporting beam is equipped with rotating electric machine, institute The rotating electric machine stated connects frosted axis by bearing, and the frosted axis is equipped with grinding abrasive disk, the lower end of the rotating electric machine It is connected equipped with decelerating motor, and by conducting wire, the driving motor, rotating electric machine and decelerating motor are connected by conducting wire respectively Central processing unit is connect, the central processing unit is located in electric cabinet；The top of the pedestal is equipped with and is meshed with grinding abrasive disk Fixing seat, the fixing seat is equipped with pressure sensor, be additionally provided on the pillar I and pillar II air intake device I with Air intake device II, the pressure sensor, air intake device I and air intake device II pass through conducting wire respectively and central processing unit is electrical Connection.

The electric cabinet is equipped with display screen, and the display screen connects central processing unit by conducting wire.

The other side of the frosted axis is connect with fixed fastener activity, and the fixed fastener is located at supporting beam lower end The other side.

The air intake device I and air intake device II is respectively provided with one group of suspended hood.

The electric cabinet is located on the lateral wall of pillar I.

The beneficial effects of the utility model are: driving supporting beam to carry out down force by driving motor, pass through pressure The sensor sensed pressure information dynamics downward convenient for control driving motor, drives frosted axis to carry out to be measured by rotating electric machine The detection of wear-resisting property is realized in the friction of object, and the revolving speed of rotating electric machine is adjustable, can by air intake device I and air intake device II The dust that friction generates just is cleared up, easy to operate, detection effect is good.

Detailed description of the invention

Fig. 1 is the utility model structure diagram.

Specific embodiment

The attached figures are only used for illustrative purposes and cannot be understood as limitating the patent；In order to better illustrate this embodiment, attached Scheme certain components to have omission, zoom in or out, does not represent the size of actual product；To those skilled in the art, The omitting of some known structures and their instructions in the attached drawings are understandable.

Referring to attached drawing, the detecting instrument of the detection nano-scale particle wear-resisting property, including pillar I2, pillar II13, support The top of plate 11 and pedestal, the pillar I2 and pillar II13 are equipped with support plate 11, and the support plate 11 is equipped with driving Motor 1, the lower end of the driving motor 1 are equipped with driving cylinder 12, and the lower end of the driving cylinder 12 is equipped with supporting beam 3, The two sides of the supporting beam 3 are socketed on pillar I2 and pillar II13, and the side of the lower end of the supporting beam 3 is equipped with rotation Motor 14, the rotating electric machine 14 connect frosted axis by bearing 9, and the frosted axis is equipped with grinding abrasive disk 8, the rotation The lower end of rotating motor 14 is equipped with decelerating motor 15, and is connected by conducting wire, the driving motor 1, rotating electric machine 14 and subtracts Speed motor 15 connects central processing unit by conducting wire respectively, and the central processing unit is located in electric cabinet；The pedestal Top is equipped with the fixing seat 6 being meshed with grinding abrasive disk 8, and the fixing seat 6 is equipped with pressure sensor 7, the pillar I2 With air intake device I5 and air intake device II16, the pressure sensor 7, air intake device I5 and air draught are additionally provided on pillar II13 Device II16 is electrically connected with the central processing unit by conducting wire respectively.

The electric cabinet is equipped with display screen, and the display screen connects central processing unit by conducting wire.

The other side of the frosted axis is connect with 4 activity of fixed fastener, and the fixed fastener 4 is located under supporting beam 3 The other side at end.

The air intake device I5 and air intake device II16 is respectively provided with one group of suspended hood 10.

The electric cabinet is located on the lateral wall of pillar I2.

Specific implementation process is as follows: in use, setting predicted value by display screen, object under test being placed on fixing seat 6 On, it drives driving cylinder 12 to 3 one downward active forces of supporting beam by driving motor 1, makes the grinding abrasive disk 8 be in fixing seat 6 Be meshed state, and starting rotating electric machine 14 drives frosted axis that 8 measuring targets of grinding abrasive disk is then driven to carry out wear-resisting property detection, The revolving speed of rotating electric machine 14 is adjustable, and can be slowed down by decelerating motor 15, passes through air intake device I5 and air intake device The dust that II16 is scattered to friction adsorbs, and is convenient to clean.

Supporting beam 3 is driven to carry out down force by driving motor 1, just by 7 sensed pressure information of pressure sensor In the dynamics that control driving motor 1 is downward, the friction realization for driving frosted axis to carry out measuring targets by rotating electric machine 14 is resistance to The detection of performance is ground, and the revolving speed of rotating electric machine 14 is adjustable, friction can be generated by air intake device I5 and air intake device II16 Dust just cleared up, easy to operate, detection effect is good.

For those of ordinary skill in the art, other not similar shapes can also be made on the basis of the above description The variation or variation of formula.There is no necessity and possibility to exhaust all the enbodiments.It is all the utility model spirit and Made any modifications, equivalent replacements, and improvements etc. within principle should be included in the protection model of the utility model claims Within enclosing.In figure, description positional relationship only for illustration, should not be understood as the limitation to this patent；Obviously, this is practical Novel above-described embodiment is merely examples for clearly illustrating the present invention, and is not to the utility model The restriction of embodiment.

Claims (5)

1. a kind of detecting instrument for detecting nano-scale particle wear-resisting property, including pillar I, pillar II, support plate and pedestal, special Sign is: the top of the pillar I and pillar II are equipped with support plate, and the support plate is equipped with driving motor, the drive The lower end of dynamic motor is equipped with driving cylinder, and the lower end of the driving cylinder is equipped with supporting beam, and the two sides of the supporting beam cover It connects on pillar I and pillar II, the side of the lower end of the supporting beam is equipped with rotating electric machine, and the rotating electric machine passes through axis Connection frosted axis is held, the frosted axis is equipped with grinding abrasive disk, and the lower end of the rotating electric machine is equipped with decelerating motor, and passes through Conducting wire is connected, and the driving motor, rotating electric machine and decelerating motor pass through conducting wire respectively and connect central processing unit, described Central processing unit is located in electric cabinet；The top of the pedestal is equipped with the fixing seat being meshed with grinding abrasive disk, the fixation Seat is equipped with pressure sensor, is additionally provided with air intake device I and air intake device II, the pressure on the pillar I and pillar II Force snesor, air intake device I and air intake device II are electrically connected with the central processing unit by conducting wire respectively.

2. a kind of detecting instrument for detecting nano-scale particle wear-resisting property according to claim 1, it is characterized in that: described Electric cabinet is equipped with display screen, and the display screen connects central processing unit by conducting wire.

3. a kind of detecting instrument for detecting nano-scale particle wear-resisting property according to claim 1, it is characterized in that: described The other side of frosted axis is connect with fixed fastener activity, and the fixed fastener is located at the other side of supporting beam lower end.

4. a kind of detecting instrument for detecting nano-scale particle wear-resisting property according to claim 1, it is characterized in that: described Air intake device I and air intake device II are respectively provided with one group of suspended hood.

5. a kind of detecting instrument for detecting nano-scale particle wear-resisting property according to claim 1, it is characterized in that: described Electric cabinet is located on the lateral wall of pillar I.