CN218723960U - Nano coating surface flatness detection device - Google Patents

Abstract

The utility model discloses a nanometer coating surfacing detection device belongs to nanometer coating check out test set technical field, including base and the detection mechanism of setting on the base, detection mechanism is including radiation seat and receiving seat, be equipped with the standing groove on the base and set up the reciprocating mechanism in standing groove one side, detection mechanism is still including setting up the movable plate on reciprocating mechanism and installing the gyro wheel in the movable plate bottom through coupling assembling, coupling assembling is including a plurality of movable groove one of seting up on the movable plate, with movable groove two of movable groove one bottom intercommunication and with movable groove one complex movable block one, all be equipped with the transmission part on the movable block one, movable block one bottom be connected with movable groove two complex movable block two, the gyro wheel is equipped with a plurality ofly, and the gyro wheel passes through movable block two and installs in the movable plate bottom, the utility model discloses a be equipped with reciprocating mechanism, coupling assembling and gyro wheel, can realize the accurate determination of nanometer coating roughness.

Description

Nano coating surface flatness detection device

Technical Field

The utility model relates to a nanometer coating check out test set technical field specifically is a nanometer coating surfacing detection device.

Background

After the nano coating is sprayed on the template, the spraying effect of the nano coating is detected, and the improvement of the spraying process can be promoted significantly. The spraying process has defects that burrs are formed on the surface of the nano coating sprayed on the template, the nano coating is not smooth and uneven, but few devices are used for detecting the surface of the nano coating in the market, and the long-term development of the spraying process is influenced to a certain extent.

In order to solve the above problem, the utility model provides a nanometer coating surface detection device that detects accurate, and detection effect is good.

SUMMERY OF THE UTILITY MODEL

The object of the utility model is to provide a nano coating surfacing detection device has solved the problem mentioned in the above-mentioned technical background.

In order to achieve the above object, the utility model provides a following technical scheme: a nano coating surface flatness detection device comprises a base and a detection mechanism arranged on the base, wherein the detection mechanism comprises a radiation seat and a receiving seat, the base is provided with a placing groove and a reciprocating mechanism arranged on one side of the placing groove, the detection mechanism also comprises a moving plate arranged on the reciprocating mechanism and a roller arranged at the bottom of the moving plate through a connecting component;

coupling assembling is including a plurality of seting up movable groove one on the movable plate, with movable groove two of a movable groove bottom intercommunication and with movable groove complex movable block one, all be equipped with the transmission part on the movable block one, movable block one bottom be connected with two complex movable block two in the movable groove, the gyro wheel is equipped with a plurality ofly, just the gyro wheel passes through movable block two to be installed the movable plate bottom.

As a further aspect of the present invention: reciprocating mechanism is in including seting up respectively the spout of standing groove both sides and setting up the lead screw subassembly in the spout, the lead screw subassembly is including the lead screw and set up sliding block on the lead screw, the sliding block with spout sliding connection, two the top of sliding block respectively with the one end of movable plate is connected.

As a further aspect of the present invention: the bottom of the second movable block is connected with a U-shaped plate, the idler wheel is connected with the second movable block through the U-shaped plate, and the lengths of the U-shaped plate and the idler wheel are larger than that of the second movable groove.

As a further aspect of the present invention: the top of the sliding block is provided with a lifting cylinder, and the movable plate is connected with the output end of the lifting cylinder.

As a further aspect of the present invention: the radiation seat and the receiving seat are respectively inserted in the fixed platform through the slots, limiting holes are formed in the radiation seat, the receiving seat and the fixed plates, and limiting bolts are arranged on the limiting holes.

As a further aspect of the utility model: the center of the bottom of the placing groove is provided with a pushing groove, the base is internally provided with a hydraulic cylinder device, and the output end of the hydraulic cylinder device penetrates through the base and is connected with a pushing plate matched with the pushing groove.

To sum up, the utility model discloses following beneficial effect has:

the utility model discloses a be equipped with reciprocating mechanism, coupling assembling and gyro wheel, can realize the survey on nanometer coating surface, when using, reciprocating mechanism drives the gyro wheel and walks on nanometer coating surface, when walking, the gyro wheel is when rolling nanometer coating bulge or depressed place, the position of movable block two changes, movable block one receives the influence of movable block two upwards or the downstream, the ray that the radiation seat jetted out does not pass transmission portion and the cooperation of receiver, the receiver does not receive the signal and sends out the warning, this equipment operation is used comparatively conveniently, be suitable for the scale and promote.

Drawings

1. Fig. 1 is a side view of the present invention;

2. FIG. 2 is a front view of the present invention;

3. fig. 3 is a schematic structural diagram of the present invention.

In the figure: 1. a base; 2. a slot; 3. moving the plate; 4. a placement groove; 5. a first movable groove; 6. a second movable groove; 7. a first movable block; 8. a second movable block; 9. a lifting cylinder; 10. a chute; 11. a slider; 12. a screw rod; 13. a hydraulic cylinder device; 14. a push groove; 15. a push plate; 16. a reciprocating mechanism; 17. a fixed table; 18. a fixing plate; 19. a radiation seat; 20. a limiting hole; 21. a limit bolt; 22. an auxiliary handle; 23. a roller; 24. a U-shaped plate; 25. a transmissive portion; 26. a nano-coating; 27. a receptacle.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: a nanometer coating 26 surface smoothness flatness detection device, including the base 1 and detection mechanism set in base 1, the detection mechanism includes the radiation seat 19 and receives the seat 27, there are standing grooves 4 and reciprocating mechanisms 16 set in standing grooves 4 one side on the base 1, further, the reciprocating mechanism 16 includes the concrete chute 10 set up in both sides of standing groove 4 separately and sets up the lead screw assembly in the concrete chute 10, the lead screw assembly includes lead screw 12 and sliding block 11 set up on lead screw 12, the sliding block 11 is connected with sliding chute 10 slidably, the top of two sliding blocks 11 is connected with one end of the movable plate 3 separately, while using, drive the sliding block 11 to move through the lead screw assembly, the sliding block 11 drives 3 to move, the detection mechanism also includes the movable plate 3 set in movable plate 16 of reciprocating mechanism and installs the gyro wheel 23 in the bottom of the movable plate 3 through the coupling assembling; coupling assembling including a plurality of activity groove 5 of seting up on movable plate 3, with activity groove two 6 of activity groove 5 bottom intercommunication and with activity groove 5 complex movable block one 7, all be equipped with transmission portion 25 on the movable block one 7, movable block one 7 bottom is connected with activity groove two 6 complex movable block two 8, gyro wheel 23 is equipped with a plurality ofly, and gyro wheel 23 installs in movable plate 3 bottom through movable block two 8, the utility model discloses a be equipped with reciprocating mechanism 16, coupling assembling and gyro wheel 23, can realize the accurate survey of nanometer coating 26 smooth roughness, when using, reciprocating mechanism 16 drives gyro wheel 23 and walks on nanometer coating 26 surface, and when walking, gyro wheel 23 is when rolling nanometer coating 26 bellying or depressed place, the position of movable block two 8 changes, and movable block one 7 receives the influence of movable block two 8 upwards or the downward movement, and the ray that radiation seat 19 jetted out does not pass transmission portion 25 and the cooperation of receiving seat 27, and receiving seat 27 has not received the signal and sent the warning, and this equipment operation is comparatively convenient, is suitable for the scale and promotes.

In some embodiments of the present invention: the bottom of the second 8 movable blocks is connected with a U-shaped plate 24, the roller 23 is connected with the second 8 movable blocks through the U-shaped plate 24, the length of the U-shaped plate 24 and the length of the roller 23 are larger than that of the second 6 movable groove, the contact area between the roller 23 and the nano coating 26 is enlarged through the U-shaped plate 24, further, the top of the sliding block 11 is provided with a lifting cylinder 9, and the movable plate 3 is connected with the output end of the lifting cylinder 9. Further, the moving plate 3 can be lifted or lowered by providing the lifting cylinder 9, and the moving plate 3 can be separated from or disposed on the surface of the nano coating 26 by the cooperation of the lifting cylinder 9 and the reciprocating mechanism 16.

In some embodiments of the present invention: the symmetry is equipped with fixed station 17 on the base 1, and the top symmetry of fixed station 17 is equipped with slot 2, and slot 2 comprises two fixed plates 18, and radiation seat 19 and receiving seat 27 are pegged graft on fixed station 17 through slot 2 respectively, have all seted up spacing hole 20 on radiation seat 19, receiving seat 27 and the fixed plate 18, are equipped with spacing bolt 21 on the spacing hole 20. The utility model discloses a be equipped with fixed station 17, slot 2, spacing hole 20 and spacing bolt 21, when needing to be changed or dismantle radiation seat 19, can extract spacing bolt 21, will radiate seat 19 and from slot 2 take out can, receiving seat 27 is the same reason, in this embodiment, the both sides of radiation seat 19 and receiving seat 27 all are connected with supplementary handle 22, the usable supplementary handle 22 of staff will radiate seat 19 and receiving seat 27 and take out from slot 2.

In some embodiments of the present invention: a pushing groove 14 is formed in the center of the bottom of the placing groove 4, a hydraulic cylinder device 13 is arranged in the base 1, and the output end of the hydraulic cylinder device 13 penetrates through the base 1 and is connected with a pushing plate 15 matched with the pushing groove 14. The utility model discloses a be equipped with pushing groove 14, hydraulic cylinder device 13 and slurcam 15, after the completion is to the detection of nanometer coating 26, thereby accessible hydraulic cylinder device 13 with pushing plate 15 upwards remove the nanometer coating 26 jack-up in standing groove 4, should set up and be favorable to the staff to the taking out of nanometer coating 26.

The utility model discloses a nano coating surfacing detection device's theory of operation as follows: firstly, a nano coating 26 is placed on a placing groove 4, then a reciprocating mechanism 16 is started, a moving plate 3 is moved to the position above the nano coating 26, then a lifting cylinder 9 is driven to lower the moving plate 3, a roller 23 at the bottom of the moving plate 3 is in contact with the surface of the nano coating 26, at the moment, rays projected by a radiation seat 19 penetrate through a transmission part 25 on a first moving block 7 to be matched with a receiving seat 27, the reciprocating mechanism 16 drives the roller 23 to walk on the surface of the nano coating 26, when the roller 23 rolls to a convex part or a concave part of the nano coating 26 during walking, the position of a second moving block 8 is changed, the first moving block 7 moves upwards or downwards under the influence of the second moving block 8, the rays emitted by the radiation seat 19 do not penetrate through the transmission part 25 to be matched with the receiving seat 27, and the receiving seat 27 does not receive a signal to send an alarm, so that the measurement of the surface of the nano coating is realized.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a smooth roughness detection device in nanometer coating (26) surface, is including base (1) and the detection mechanism of setting on base (1), detection mechanism is including radiating seat (19) and receiving seat (27), its characterized in that: the base (1) is provided with a placing groove (4) and a reciprocating mechanism (16) arranged on one side of the placing groove (4), and the detection mechanism further comprises a moving plate (3) arranged on the reciprocating mechanism (16) and a roller (23) arranged at the bottom of the moving plate (3) through a connecting assembly;

coupling assembling is including a plurality of seting up movable groove one (5) on movable plate (3), with movable groove two (6) of movable groove one (5) bottom intercommunication and with movable groove one (5) complex movable block one (7), all be equipped with transmission portion (25) on movable block one (7), movable block one (7) bottom be connected with movable groove two (6) complex movable block two (8), gyro wheel (23) are equipped with a plurality ofly, just gyro wheel (23) are installed through movable block two (8) movable plate (3) bottom.

2. The apparatus for detecting the smoothness and flatness of the surface of a nano-coating (26) as claimed in claim 1, wherein: reciprocating mechanism (16) are including seting up respectively spout (10) of standing groove (4) both sides and setting up screw rod subassembly in spout (10), the screw rod subassembly is including lead screw (12) and setting up sliding block (11) on lead screw (12), sliding block (11) with spout (10) sliding connection, two the top of sliding block (11) respectively with the one end of movable plate (3) is connected.

3. The apparatus for detecting the smoothness and flatness of the surface of a nano-coating (26) as claimed in claim 2, wherein: the bottom of the second movable block (8) is connected with a U-shaped plate (24), the roller (23) is connected with the second movable block (8) through the U-shaped plate (24), and the lengths of the U-shaped plate (24) and the roller (23) are greater than that of the second movable groove (6).

4. The apparatus for detecting the smoothness and flatness of the surface of a nano-coating (26) as claimed in claim 3, wherein: the top of the sliding block (11) is provided with a lifting cylinder (9), and the moving plate (3) is connected with the output end of the lifting cylinder (9).

5. The apparatus for detecting the smoothness and flatness of the surface of a nano-coating (26) as claimed in claim 1, wherein: the radiation seat is characterized in that fixed platforms (17) are symmetrically arranged on the base (1), slots (2) are symmetrically arranged at the tops of the fixed platforms (17), each slot (2) is composed of two fixed plates (18), the radiation seat (19) and the receiving seat (27) are respectively inserted into the corresponding slot (2) on the fixed platform (17), limiting holes (20) are formed in the radiation seat (19), the receiving seat (27) and the fixed plates (18), and limiting bolts (21) are arranged on the limiting holes (20).

6. The device for detecting the smoothness and flatness of the surface of the nano coating (26) according to claim 1, wherein: a pushing groove (14) is formed in the center of the bottom of the placing groove (4), a hydraulic cylinder device (13) is arranged in the base (1), and the output end of the hydraulic cylinder device (13) penetrates through the base (1) and is connected with a pushing plate (15) matched with the pushing groove (14).

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