CN219725946U - Chaotic wave sensor - Google Patents

Abstract

The utility model discloses a chaotic wave sensor, which relates to the technical field of sensors, and comprises a base, wherein two support plates are slidably arranged on the upper surface of the base, a fixed plate is fixedly arranged on the upper surface of the support plates, a mounting plate is slidably arranged on the lower surface of the fixed plate, and a sensor is detachably arranged on the lower surface of the mounting plate.

Description

Chaotic wave sensor

Technical Field

The utility model relates to the technical field of sensors, in particular to a chaotic wave sensor.

Background

The sensor is a detecting device, which can sense the information to be measured and convert the sensed information into electric signals or other information output in the required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like.

The chaotic wave sensor is installed through a screw rod in general, but when the sensor is installed through the screw rod, each screw rod is required to be rotated, so that the installation of the sensor is completed, the operation is complex, the use is inconvenient in daily use, in addition, when the sample body is detected, the sample bodies with different sizes cannot be limited, the use is inconvenient in daily use, and aiming at the problems, the inventor provides the chaotic wave sensor for solving the problems.

Disclosure of Invention

The sensor solves the problems that the sensor is inconvenient to install and can not limit samples with different sizes; the utility model aims to provide a chaotic wave sensor.

In order to solve the technical problems, the utility model adopts the following technical scheme: the chaotic wave sensor comprises a base, wherein two support plates are slidably arranged on the upper surface of the base, a sliding block is fixedly arranged on the lower surface of the support plates, the sliding block is slidably arranged inside the base, a fixing plate is fixedly arranged on the upper surface of the support plates, a mounting plate is slidably arranged on the lower surface of the fixing plate, a sensor is detachably arranged on the lower surface of the mounting plate, a connecting block is fixedly arranged on the upper surface of the sensor, two moving plates are slidably arranged on the lower surface of the mounting plate, fixing blocks are fixedly arranged on the upper surface of the moving plates, the fixing blocks are slidably arranged inside the mounting plate, the side surfaces of the moving plates, which are close to each other, are movably contacted with the outer surfaces of the connecting block, double-head screws are rotatably arranged on the side surfaces of the mounting plate, and the two fixing blocks are in threaded connection with each other on the double-head screws; the upper surface slidable mounting of base has two limiting plates, and the side that the limiting plate both sides are close to and the both sides movable contact of appearance body, and the lower surface fixed mounting of limiting plate has two stoppers, and the stopper slides and sets up inside the base, and the upper surface fixed mounting of base has two cylinders, and the one end that the cylinder is close to each other is connected on the limiting plate.

Preferably, the side fixed mounting of base has the mounting box, and mounting incasement fixed mounting has the motor, and motor output shaft's surface fixed mounting has two first bevel gears, and first bevel gear meshing is connected with the second bevel gear, and the side fixed mounting that the second bevel gear is close to the backup pad has the screw pole, threaded connection has the slider on the screw pole.

Preferably, the upper surface of the mounting plate is fixedly provided with a moving block, and the moving block is arranged inside the fixing plate in a sliding manner.

Preferably, the side fixed mounting of fixed plate has the fixed box, and fixed incasement fixed mounting has the power machine, and the one end that the power machine is close to the fixed plate is fixed mounting has the round gear, and the upper surface fixed mounting of movable block has the pinion rack, and pinion rack and round gear mesh mutually.

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

1. according to the utility model, the sensor is limited by the movable plate, so that the sensor is mounted and dismounted, the double-headed screw drives the movable plate to move, the sensor is convenient to mount and dismount, the motor and the power machine drive the sensor to move, the position of the sensor is regulated, and the detection of each position of a sample body is convenient.

2. According to the utility model, the sample body is limited by the limiting plate, and the limiting plate is driven to move by the air cylinder, so that the sample bodies with different sizes are conveniently limited, and the sample bodies are prevented from moving during detection.

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 cross-sectional view of a support plate according to the present utility model.

FIG. 3 is a schematic cross-sectional view of a base of the present utility model.

Fig. 4 is a schematic cross-sectional view of a fixing plate according to the present utility model.

FIG. 5 is a schematic cross-sectional view of a mounting plate according to the present utility model.

In the figure: 1. a base; 11. a support plate; 12. a slide block; 13. a mounting box; 14. a motor; 15. a first bevel gear; 16. a second bevel gear; 17. a screw rod; 18. a limiting plate; 181. a limiting block; 19. a cylinder; 2. a fixing plate; 21. a fixed box; 22. a power machine; 23. a circular gear; 24. a toothed plate; 3. a mounting plate; 31. a moving block; 32. a sensor; 33. a connecting block; 34. a moving plate; 35. a fixed block; 36. a double-ended screw.

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 to 5, the utility model provides a chaotic wave sensor, which comprises a base 1, wherein two support plates 11 are slidably arranged on the upper surface of the base 1, a fixed plate 2 is fixedly arranged on the upper surface of the support plates 11, a mounting plate 3 is slidably arranged on the lower surface of the fixed plate 2 and is used for mounting a sensor 32 and driving the sensor 32 to move, and the sensor 32 is detachably arranged on the lower surface of the mounting plate 3; the upper surface slidable mounting of base 1 has two limiting plates 18, and the side that limiting plate 18 both sides are close to and the both sides movable contact of appearance body are used for spacing the appearance body, and when the use, when the side that limiting plate 18 is close to each other and appearance body contact, appearance body can not remove, and when the side that limiting plate 18 is close to each other and appearance body do not contact, the appearance body can remove to can carry out spacing to the appearance body.

The upper surface of sensor 32 is fixed mounting connecting block 33, the lower surface slidable mounting of mounting panel 3 has two movable plates 34, the upper surface fixed mounting of movable plate 34 has fixed block 35, fixed block 35 slides and sets up inside mounting panel 3, the side that movable plate 34 is close to each other and the surface movable contact of connecting block 33 are used for spacing sensor 32, when the during use, when the side that movable plate 34 is close to each other and the surface of connecting block 33 contact, sensor 32 can not remove, when the side that movable plate 34 is close to each other and the surface of connecting block 33 do not contact, sensor 32 can remove, thereby can spacing sensor 32.

By adopting the above technical solution, the moving plate 34 can limit the sensor 32.

The side of mounting panel 3 rotates and installs double-end screw rod 36, and threaded connection has two fixed blocks 35 on the double-end screw rod 36 for drive movable plate 34 and remove, during the use, rotate double-end screw rod 36 and drive fixed block 35 and remove, drive movable plate 34 through the removal of fixed block 35.

By adopting the above technical scheme, the double-headed screw 36 can drive the moving plate 34 to move.

The lower surface fixed mounting of limiting plate 18 has two stopper 181, and stopper 181 slides and sets up inside base 1, and the upper surface fixed mounting of base 1 has two cylinders 19, and the one end that cylinder 19 is close to each other is connected on limiting plate 18 for drive limiting plate 18 and remove, and when using, open cylinder 19, drive limiting plate 18 through the operation of cylinder 19 and remove.

By adopting the above technical scheme, the air cylinder 19 can drive the limiting plate 18 to move.

The lower surface fixed mounting of backup pad 11 has slider 12, and slider 12 slides and sets up inside base 1, has seted up two spouts in the base 1, and slider 12 slides and sets up inside the spout to backup pad 11 can only remove along the spout.

By adopting the above technical scheme, the supporting plate 11 can be moved along the chute.

The side fixed mounting of base 1 has mounting box 13, mounting box 13 internal fixation has motor 14, be used for driving backup pad 11 and remove, when using, open motor 14 and drive first bevel gear 15 rotation, drive second bevel gear 16 rotation through the rotation of first bevel gear 15, drive screw pole 17 rotation through the rotation of second bevel gear 16, drive slider 12 through the rotation of screw pole 17 and remove, drive backup pad 11 through the removal of slider 12 and remove, motor 14 output shaft's surface fixed mounting has two first bevel gears 15, first bevel gear 15 meshing is connected with second bevel gear 16, the side fixed mounting that second bevel gear 16 is close to backup pad 11 has screw pole 17, threaded connection has slider 12 on the screw pole 17.

By adopting the above technical scheme, the motor 14 can drive the supporting plate 11 to move.

The upper surface fixed mounting of mounting panel 3 has movable block 31, and movable block 31 slides and sets up inside fixed plate 2, has seted up the travel slot in the fixed plate 2, and movable block 31 slides and sets up inside the travel slot to mounting panel 3 can only remove along the travel slot.

By adopting the above technical scheme, the mounting plate 3 can be moved along the moving groove.

The fixed box 21 is fixedly arranged on the side face of the fixed plate 2, the power machine 22 is fixedly arranged in the fixed box 21 and used for driving the mounting plate 3 to move, when the fixed plate is used, the power machine 22 is opened to drive the circular gear 23 to rotate, the toothed plate 24 is driven to move through the rotation of the circular gear 23, the moving block 31 is driven to move through the movement of the toothed plate 24, the mounting plate 3 is driven to move through the movement of the moving block 31, the circular gear 23 is fixedly arranged at one end, close to the fixed plate 2, of the power machine 22, the toothed plate 24 is fixedly arranged on the upper surface of the moving block 31, and the toothed plate 24 is meshed with the circular gear 23.

By adopting the technical scheme, the power machine 22 can drive the mounting plate 3 to move.

Working principle: firstly, the upper surface of a connecting block 33 is contacted with the lower surface of a mounting plate 3, a fixing block 35 is driven to move by rotating a double-headed screw 36, a moving plate 34 is driven to move by the movement of the fixing block 35, the side surface of the moving plate 34, which is close to each other, is contacted with the outer surface of the connecting block 33, a connecting block 33 piece is limited, thereby the sensor 32 is limited, the mounting of the sensor 32 is completed, secondly, a sample body is placed on a base 1, an air cylinder 19 is opened, a limiting plate 18 is driven to move by the operation of the air cylinder 19, the side surface of the limiting plate 18, which is close to each other, is contacted with the sample body, the sample body is limited, then a motor 14 is opened to drive a first bevel gear 15 to rotate, a second bevel gear 16 is driven to rotate by the rotation of the first bevel gear 15, a screw rod 17 is driven to rotate by the rotation of the second bevel gear 16, a mounting plate 12 is driven to move by the movement of the screw rod 17, a mounting plate 3 is driven to move by the movement of the slide block 12, the movement of the mounting plate 2 is driven to move the sensor 32 by the movement of the mounting plate 2, the movement of the sensor 32 is driven by the movement of the fixing plate 2, the position of the sensor 32 is adjusted, finally, a power machine 22 is opened to drive the position of the sensor 32 is driven to rotate by the movement of the circular gear 23 through the movement of the sensor 32 is driven by the movement of the mounting plate 24 through the movement of the fixing plate 3, and the movement of the sensor 32 is driven by the movement of the movement plate 31 through the movement of the movement plate 31, and the movement of the movement plate is detected by the movement of the movement region is driven by the movement of the movement 3.

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 (8)

1. The chaotic wave sensor comprises a base (1), and is characterized in that: the upper surface of the base (1) is slidably provided with two supporting plates (11), the upper surface of each supporting plate (11) is fixedly provided with a fixed plate (2), the lower surface of each fixed plate (2) is slidably provided with a mounting plate (3), and the lower surface of each mounting plate (3) is detachably provided with a sensor (32); the upper surface of the base (1) is slidably provided with two limiting plates (18), and two sides of the limiting plates (18) close to each other are in movable contact with two sides of the sample body.

2. The chaotic wave sensor as set forth in claim 1, wherein a connection block (33) is fixedly installed on an upper surface of the sensor (32), two moving plates (34) are slidably installed on a lower surface of the installation plate (3), a fixing block (35) is fixedly installed on an upper surface of the moving plates (34), the fixing block (35) is slidably disposed inside the installation plate (3), and sides, which are close to each other, of the moving plates (34) are in movable contact with an outer surface of the connection block (33).

3. A chaotic wave sensor as defined in claim 1, wherein a double-ended screw (36) is rotatably mounted on a side surface of the mounting plate (3), and two fixing blocks (35) are screwed on the double-ended screw (36).

4. The chaotic wave sensor of claim 1, wherein two limiting blocks (181) are fixedly arranged on the lower surface of the limiting plate (18), the limiting blocks (181) are slidably arranged in the base (1), two air cylinders (19) are fixedly arranged on the upper surface of the base (1), and one ends, close to each other, of the air cylinders (19) are connected to the limiting plate (18).

5. A chaotic wave sensor as claimed in claim 1, wherein a slider (12) is fixedly mounted on a lower surface of the supporting plate (11), and the slider (12) is slidably disposed inside the base (1).

6. The chaotic wave sensor of claim 1, wherein a mounting box (13) is fixedly mounted on the side surface of the base (1), a motor (14) is fixedly mounted in the mounting box (13), two first bevel gears (15) are fixedly mounted on the outer surface of an output shaft of the motor (14), a second bevel gear (16) is connected with the first bevel gears (15) in a meshed mode, a screw rod (17) is fixedly mounted on the side surface, close to the supporting plate (11), of the second bevel gear (16), and a sliding block (12) is connected to the screw rod (17) in a threaded mode.

7. A chaotic wave sensor as claimed in claim 1, wherein a moving block (31) is fixedly installed on an upper surface of the mounting plate (3), and the moving block (31) is slidably disposed inside the fixing plate (2).

8. The chaotic wave sensor of claim 7, wherein a fixed box (21) is fixedly arranged on the side surface of the fixed plate (2), a power machine (22) is fixedly arranged in the fixed box (21), a circular gear (23) is fixedly arranged at one end, close to the fixed plate (2), of the power machine (22), a toothed plate (24) is fixedly arranged on the upper surface of the moving block (31), and the toothed plate (24) is meshed with the circular gear (23).