CN219455031U - Oxide film thickness measuring intelligent sensor - Google Patents

Abstract

The utility model discloses an oxide film thickness measuring intelligent sensor, and relates to the technical field of oxide film thickness measuring sensor detection; the utility model comprises a workbench, wherein one end of the upper surface of the workbench is provided with a placement groove in a swinging way, a sensor main body is arranged in the placement groove, and one end of the upper surface of the workbench opposite to the placement groove is provided with a detection device; according to the utility model, the motor drives the rotating plate to swing through the rotating shaft, the swinging rod arranged at the end part of the rotating plate drives the moving plate to move in the vertical direction, in the process, the moving plate drives the moving plate to move up and down continuously, the detecting head on the support is driven by the connecting block to detect the oxide film covered on the aluminum material, when the connecting block drives the support to move up, the worker can move the placing plate to change the position of the aluminum material right below the detecting head, different positions of the aluminum material can be detected, the detecting head is driven to detect through the structure, the detection is not required to be held by the worker for a long time, and the labor intensity of the worker is reduced.

Description

Oxide film thickness measuring intelligent sensor

Technical Field

The utility model relates to the technical field of detection of oxide film thickness measuring sensors, in particular to an oxide film thickness measuring intelligent sensor.

Background

The aluminum material can be protected from corrosion by covering a layer of oxide film on the aluminum material for a long time, then a certain coating thickness standard exists when the oxide film is coated on the aluminum material, the thickness is required to be measured within a rated thickness range, and when the thickness of the oxide film on the aluminum material is measured, a thickness measuring sensor is often used for thickness measurement, wherein the common measuring mode for the oxide film is vortex thickness measurement.

The following problems exist in the prior art when a sensor for measuring thickness of a covered oxide film is used:

when the existing sensor for measuring thickness of the oxide film is used, a worker often holds the detection head manually to detect, when repeated detection is needed for some oxide films, the position of the oxide film needs to be changed manually, and when the detected aluminum material for covering the oxide film is more, the labor intensity of the worker can be increased additionally, so that the worker is inconvenient to operate.

In view of the above problems, the inventors propose an oxide film thickness measurement intelligent sensor for solving the above problems.

Disclosure of Invention

In order to solve the problem that the labor intensity of workers is additionally increased when the positions of workers are changed continuously; the utility model aims to provide an oxide film thickness measuring intelligent sensor.

In order to solve the technical problems, the utility model adopts the following technical scheme: the oxide film thickness measurement intelligent sensor comprises a workbench, wherein a placement groove is arranged at one end of the upper surface of the workbench in a swinging way, a sensor main body is arranged in the placement groove, and a detection device is arranged at the end, opposite to the placement groove, of the upper surface of the workbench;

the detection device comprises an L-shaped bracket, a clamping plate is slid at one end of the bracket, a communicating clamping groove is formed at one end of the clamping plate opposite to the bracket, the clamping groove and the clamping plate can stably clamp the detection head on the bracket, a detection head is arranged in the clamping groove, the top end of the detection head is connected with a sensor main body through a transmission line, a vertical plate which is vertically arranged is fixedly arranged on the upper surface of the workbench near the bracket, movable grooves are formed at two ends of the vertical plate, a convex connecting block is slidably arranged in the movable grooves, one end of the connecting block is fixedly arranged on the bracket, a movable plate is slidably arranged at one side of the vertical plate far away from the bracket, a communicating movable groove is formed at two ends of the movable plate, a swinging rod is movably inserted at one end of the movable groove, a rotating plate with the length which is half of that of the movable plate is fixedly arranged at one end of the swinging rod far from the vertical plate, the swinging rod is characterized in that a rotating shaft is fixedly arranged at one end of the swinging rod, the rotating shaft is arranged at one end of the swinging rod, which is far away from the swinging rod, the driving device comprises a support frame which is in an L shape, the rotating shaft is rotatably arranged on the support frame, the upper end of the support frame is close to the rotating shaft and is provided with a motor, the output end of the motor is fixedly connected to the rotating shaft, the motor is fixedly arranged on the support frame, the driving device drives the swinging rod arranged at the end of the swinging rod to rotate through the driving shaft, the swinging rod can push the moving plate to move in the vertical direction, when the swinging rod moves along with the swinging rod, the swinging rod repeatedly moves from one end of the moving groove to the other end, the moving plate is driven to move up and down in the process, and the moving plate drives a detecting head on the support frame through a connecting block to detect an oxide film covered on an aluminum material.

Preferably, a fixed block is fixedly arranged at the upper end and the lower end of the movable groove, which are positioned at one side of the vertical plate, facing the bracket, a vertical rod is fixedly arranged between the two fixed blocks, the connecting block is movably inserted in the vertical rod, and the connecting block can stably drive one end of the bracket to move up and down through the vertical rod; the movable plate is fixedly provided with sliding blocks at two ends facing the vertical plate, and the end parts of the sliding blocks are arranged on the vertical plate in a sliding manner, so that the movable plate can extend the moving direction of the sliding blocks to stably move on the vertical plate.

Preferably, the screw is inserted into one sliding end of the clamping plate through threads, the end part of the screw is rotatably arranged on the support, and the screw is rotated, so that the threads are inserted into the clamping plate to move towards the end part of the support to clamp the detection head.

Preferably, the upper surface of the workbench is provided with a placing plate in a sliding manner right below the detection head, the placing plate is provided with a circular positioning groove, the center point of the positioning groove corresponds to the center point of the detection head, and the aluminum material covered with the oxide film is placed at the center of the positioning groove formed in the placing plate, so that the center of the detection head is aligned with the aluminum material.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the motor drives the rotating plate to swing through the rotating shaft, the swinging rod arranged at the end part of the rotating plate drives the moving plate to move in the vertical direction, in the process, the moving plate drives the moving plate to move up and down continuously, the detecting head on the support is driven by the connecting block to detect the oxide film covered on the aluminum material, when the connecting block drives the support to move up, the worker can move the placing plate to change the position of the aluminum material right below the detecting head, different positions of the aluminum material can be detected, the detecting head is driven to detect through the structure, the detection is not required to be held by the worker for a long time, and the labor intensity of the worker is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of a vertical plate structure of the present utility model.

FIG. 3 is a schematic diagram of the overall structure of the sensor of the present utility model.

In the figure: 1. a work table; 11. a placement groove; 12. a sensor body; 121. a detection head; 122. a transmission line; 13. a bracket; 14. a clamping plate; 15. a clamping groove; 16. a screw; 2. a vertical plate; 21. a movable groove; 22. a connecting block; 23. a moving plate; 24. a moving groove; 25. a swinging rod; 26. a rotating plate; 27. a rotating shaft; 28. a motor; 29. a support frame; 3. a fixed block; 31. a vertical rod; 32. a slide block; 4. placing plates; 41. and a positioning groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: as shown in fig. 1-3, the utility model provides an oxide film thickness measurement intelligent sensor, which comprises a workbench 1, wherein a placement groove 11 is arranged at one end of the upper surface of the workbench 1 in a swinging way, a sensor main body 12 is arranged in the placement groove 11, and a detection device is arranged at the end, opposite to the placement groove 11, of the upper surface of the workbench 1;

the detection device comprises an L-shaped bracket 13, a clamping plate 14 slides at one end of the bracket 13, a communicating clamping groove 15 is formed at one end of the clamping plate 14 opposite to the bracket 13, the clamping groove 15 and the clamping plate 14 can stably clamp a detection head 121 on the bracket 13, the detection head 121 is arranged in the clamping groove 15, the top end of the detection head 121 is connected with a sensor main body 12 through a transmission line 122, a vertical plate 2 which is vertically arranged is fixedly arranged on the upper surface of the workbench 1 near the bracket 13, movable grooves 21 are formed at two ends of the vertical plate 2, a convex connecting block 22 is arranged in the movable grooves 21 in a sliding manner, one end of the connecting block 22 is fixedly arranged on the bracket 13, a movable plate 23 is arranged at one side of the vertical plate 2 far away from the bracket 13 in a sliding manner, a communicating movable groove 24 is formed at two ends of the movable plate 23, the swinging rod 25 is movably inserted into one end of the movable groove 24, one end of the swinging rod 25, far away from the vertical plate 2, is fixedly provided with a rotating plate 26 with the length being half of that of the movable plate 23, one end, far away from the swinging rod, of the rotating plate 26 is fixedly provided with a rotating shaft 27, one end, far away from the rotating plate 26, of the rotating plate 26 is provided with a driving device, the driving device drives the rotating plate 26 to rotate through the driving rotating shaft 27, the swinging rod 25 arranged at the end of the rotating plate 26 pushes the movable plate 23 to move in the vertical direction, when the swinging rod 25 moves continuously along with the rotating plate 26, one end of the movable groove 24 is repeatedly moved to the other end, the movable plate 23 is continuously driven to move up and down in the process, and the movable plate 23 drives a detection head 121 on a bracket 13 through a connecting block 22 to detect an oxide film covered on an aluminum material.

The driving device comprises an L-shaped supporting frame 29, a rotating shaft 27 is rotatably arranged on the supporting frame 29, a motor 28 is arranged at the upper end of the supporting frame 29 and close to the rotating shaft 27, the output end of the motor 28 is fixedly connected to the rotating shaft 27, and the motor 28 is fixedly arranged on the supporting frame 29.

By adopting the technical scheme, the rotating shaft 27 can be continuously driven to rotate by the motor 28.

The vertical plate 2 is fixedly provided with a fixed block 3 at the upper and lower ends of the movable groove 21 facing one side of the bracket 13, a vertical rod 31 is fixedly arranged between the two fixed blocks 3, and the connecting block 22 is movably inserted in the vertical rod 31.

By adopting the above technical scheme, the connecting block 22 can stably drive the bracket 13 to vertically perform one end through the vertical rod 31.

The two ends of the moving plate 23 facing the vertical plate 2 are fixedly provided with sliding blocks 32, and the end parts of the sliding blocks 32 are arranged on the vertical plate 2 in a sliding manner.

By adopting the technical scheme, the moving plate 23 can extend the moving direction of the sliding block 32 to stably move on the vertical plate 2.

The sliding end of the clamping plate 14 is inserted with a screw 16 in a threaded manner, and the end of the screw 16 is rotatably arranged on the bracket 13.

By adopting the above technical scheme, the screw 16 is rotated, so that the screw is inserted in the end portion of the clamping plate 14 toward the bracket 13 to move to clamp the detection head 121.

The upper surface of the workbench 1 is arranged under the detection head 121 in a sliding manner, a placement plate 4 is arranged on the upper surface of the workbench, a circular positioning groove 41 is formed in the placement plate 4, and the center point of the positioning groove 41 corresponds to the center point of the detection head 121.

By adopting the above technical scheme, the aluminum material covered with the oxide film is placed at the center of the positioning groove 41 formed in the placing plate 4, so that the center of the detection head 121 is aligned with the aluminum material.

Working principle: during the use, the sensor main part 12 that only can the sensor with the thickness that detects is installed in the mounting groove 11, with the detection head 121 support in the centre gripping inslot 15, rotate screw rod 16, make the screw thread insert establish and carry out the removal to the support 13 tip at the grip block 14 and carry out the centre gripping to the detection head 121, can place the aluminum product that covers the oxide film that needs to detect later on the locating slot 41 center department of seting up on putting board 4, make the detection head 121 center alignment aluminum product, can drive motor 28 afterwards, motor 28 drives the revolving plate 26 through pivot 27 and swings, the swinging rod 25 that the revolving plate 26 tip set up will promote the removal of movable plate 23 in the vertical direction, when the swinging rod 25 along with the removal that revolving plate 26 was not stopped, will be repeated from the one end of movable plate 24 to the other end, will not stop in this process drive movable plate 23 reciprocate, the movable plate 23 will drive the detection head 121 that covers on the support 13 through connecting block 22 and detect the aluminum product, when connecting block 22 drive support 13 and move upward, the staff can move the position that put board 4 and lie in the detection head 121 and carry out the removal, can carry out the removal to the position that detects on the aluminum product that the aluminum product is located on the support 13, the position that need not to hold the detection head, the detection head 12 carries out the time to carry out the detection to reduce the numerical value, the operator and the detection has carried out the detection.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. Oxide film thickness measurement intelligent sensor, including workstation (1), its characterized in that: a placement groove (11) is arranged at one end of the upper surface of the workbench (1) in a swinging way, a sensor main body (12) is arranged in the placement groove (11), and a detection device is arranged at one end, opposite to the placement groove (11), of the upper surface of the workbench (1);

the detection device comprises an L-shaped bracket (13), a clamping plate (14) is slidably arranged at one end of the bracket (13), a communicating clamping groove (15) is formed in one end, opposite to the bracket (13), of the clamping plate (14), a detection head (121) is arranged in the clamping groove (15), the top end of the detection head (121) is connected with a sensor main body (12) through a transmission line (122), a vertical stand plate (2) is fixedly arranged on the upper surface of the workbench (1) near the bracket (13), movable grooves (21) are formed in two ends of the stand plate (2), a connecting block (22) which is convex is slidably arranged in the movable grooves (21), one end of the connecting block (22) is fixedly arranged on the bracket (13), one side, far away from the bracket (13), of the stand plate (2) is slidably provided with a movable plate (23), two ends of the movable plate (23) are provided with communicating movable grooves (24), one end of the movable groove (24) is inserted with a swinging rod (25), one end of the swinging rod (25) is far away from the stand plate (2) and is provided with a fixed length (26) far from the rotating plate (26), one end of the rotating shaft (27) far away from the rotating plate (26) is provided with a driving device.

2. The oxide film thickness measurement intelligent sensor according to claim 1, wherein the driving device comprises an L-shaped supporting frame (29), the rotating shaft (27) is rotatably arranged on the supporting frame (29), a motor (28) is arranged at the upper end of the supporting frame (29) close to the rotating shaft (27), the output end of the motor (28) is fixedly connected to the rotating shaft (27), and the motor (28) is fixedly arranged on the supporting frame (29).

3. The oxide film thickness measuring intelligent sensor according to claim 1, wherein a fixed block (3) is fixedly arranged at the upper end and the lower end of the vertical plate (2) which face the support (13) and are positioned in the movable groove (21), a vertical rod (31) is fixedly arranged between the two fixed blocks (3), and the connecting block (22) is movably inserted in the vertical rod (31).

4. The oxide film thickness measuring intelligent sensor according to claim 1, wherein sliding blocks (32) are fixedly arranged at two ends of the movable plate (23) facing the vertical plate (2), and the end parts of the sliding blocks (32) are arranged on the vertical plate (2) in a sliding manner.

5. The oxide film thickness measurement intelligent sensor according to claim 1, wherein a screw (16) is inserted into one sliding end of the clamping plate (14), and the end of the screw (16) is rotatably arranged on the bracket (13).

6. The oxide film thickness measurement intelligent sensor according to claim 1, wherein a placing plate (4) is slidably arranged right below the detection head (121) on the upper surface of the workbench (1), a circular positioning groove (41) is formed in the placing plate (4), and the center point of the positioning groove (41) corresponds to the center point of the detection head (121).