CN213932495U

CN213932495U - Non-contact wireless transmission tilt angle sensor

Info

Publication number: CN213932495U
Application number: CN202022593006.8U
Authority: CN
Inventors: 张勇
Original assignee: Wuxi Msensor Technology Co ltd
Current assignee: Wuxi Msensor Technology Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-08-10
Anticipated expiration: 2030-11-11

Abstract

The utility model discloses a non-contact wireless transmission inclination sensor, include the main part and press the briquetting, the main part both sides are fixed with the mounting panel, wherein, signal reception device is installed to the main part opposite side, are close to the mounting panel main part one side is connected with the connecting block, connecting block one side is connected with the inserted block, inserted block one end is connected with the connecting wire, the spout has been seted up to inserted block one side, the inside gomphosis of spout has the slider. This non-contact wireless transmission inclination sensor is provided with the spread groove and can slides according to the briquetting through pressing, so that can extrude the block according to the briquetting when sliding, the block can extrude the spring when receiving the extrusion, the pulling top cap can drive the guide way and remove when the block extrudees extrusion inslot portion, can slide with the dead lever when the guide way removes, can overhaul when the guide way separates with the dead lever, make things convenient for wireless transmission inclination sensor to overhaul fast.

Description

Non-contact wireless transmission tilt angle sensor

Technical Field

The utility model relates to a tilt angle sensor technical field specifically is non-contact wireless transmission tilt angle sensor.

Background

The wireless inclination angle sensor is a measuring instrument for measuring the inclination value of a measured end face in an industrial field by utilizing a wireless mode. The wireless tilt angle sensor has the following characteristics of accuracy, multi-mode output, stability and long transmission distance when used on a large pipe-laying ship. The wireless tilt sensor and the data acquisition system thereof utilize the tilt sensor in a wireless connection mode. Hook inclination angle data are acquired by a silicon controlled angle sensor, preprocessed and converted into serial port communication, enter a wireless module with CC1020 as a core, are transmitted to a CC1020 base station in a module form, and finally enter an industrial personal computer acquisition system. And (4) utilizing a diagnostic algorithm on the computer to judge the operation condition.

The non-contact wireless transmission tilt angle sensor in the market at present has many defects, is inconvenient to overhaul, and the connecting wire is easy to fall off, so that the technology capable of improving the structure of the non-contact wireless transmission tilt angle sensor is urgently needed in the market to perfect the equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a non-contact wireless transmission inclination sensor to solve the non-contact wireless transmission inclination sensor on the existing market that above-mentioned background art provided and have many defects, inconvenient maintenance, the problem that the connecting wire drops easily.

In order to achieve the above object, the utility model provides a following technical scheme: the non-contact wireless transmission tilt angle sensor comprises a main body and a pressing block, wherein mounting plates are fixed on two sides of the main body,

a signal receiving device is installed on the other side of the main body, a connecting block is connected to one side of the main body close to the mounting plate, an inserting block is connected to one side of the connecting block, one end of the inserting block is connected with a connecting wire, a sliding groove is formed in one side of the inserting block, a sliding block is embedded in the sliding groove, a connecting ring is fixed to one side of the sliding block, a rotating groove is formed in one side of the connecting ring, and a rotating block is embedded in the rotating groove;

close to the connecting block rotatory piece one side is fixed with the connecting cylinder, the main part top is fixed with the dead lever, extrusion groove has been seted up to dead lever one side, extrusion groove internally mounted has the spring, spring one side is connected with the block piece, the main part top is provided with the top cap, is close to the dead lever the guide way has been seted up to top cap one side, is close to the extrusion groove the spread groove has been seted up to guide way one side, press the briquetting to connect in spread groove one side.

Preferably, the sliding grooves and the sliding blocks are arranged in two groups, and the sliding grooves are in sliding connection with the sliding blocks.

Preferably, the size of the rotating groove is matched with that of the rotating block, the rotating structure is formed between the rotating groove and the connecting cylinder through the rotating block, and the connecting cylinder is in threaded connection with the connecting block.

Preferably, four groups of fixing rods and four groups of guide grooves are arranged, the fixing rods and the guide grooves are cylindrical, and the fixing rods are in sliding connection with the guide grooves.

Preferably, four groups of the extrusion grooves, the springs and the clamping blocks are arranged, and the extrusion grooves and the clamping blocks form a telescopic structure through the springs.

Preferably, the vertical cross section of the connecting groove is the same as the vertical cross section of the extrusion groove in size, the connecting groove is in sliding connection with the pressing block, and the extrusion groove is in sliding connection with the clamping block.

Compared with the prior art, the beneficial effects of the utility model are that: the non-contact wireless transmission tilt sensor comprises:

1. the connecting groove can slide by pressing the pressing block, so that the clamping block can be extruded when the pressing block slides, the spring can be extruded when the clamping block is extruded, the top cover can be pulled to drive the guide groove to move when the clamping block is extruded into the extrusion groove, the guide groove can slide with the fixed rod when moving, the guide groove can be maintained when being separated from the fixed rod, and the wireless transmission inclination angle sensor can be maintained quickly;

2. be provided with the connecting block and can connect through the pulling inserted block to the inserted block is connected the go-between and is pulled and can drive slider and spout and slide after accomplishing with the connecting block, the go-between can drive connecting cylinder and dock on one side of the connecting block when removing, the connecting cylinder rotates the connecting cylinder and can drive rotatory piece and rotation groove and carry out the rotation with the connecting block after accomplishing with the connecting block butt joint, can carry out the screw thread slip with the connecting block when the connecting cylinder pivoted, can make the inserted block fix during the connecting cylinder screw thread slip, can avoid droing after making things convenient for the inserted block to connect.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged schematic view of part A of the present invention;

fig. 4 is an enlarged schematic view of the part B of the present invention.

In the figure: 1. a main body; 2. mounting a plate; 3. a signal receiving device; 4. connecting blocks; 5. inserting a block; 6. a connecting wire; 7. a chute; 8. a slider; 9. a connecting ring; 10. a rotating tank; 11. rotating the block; 12. a connecting cylinder; 13. fixing the rod; 14. extruding a groove; 15. a spring; 16. a clamping block; 17. a top cover; 18. a guide groove; 19. connecting grooves; 20. and pressing the block.

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. 1-4, the present invention provides a technical solution: a non-contact wireless transmission tilt angle sensor comprises a main body 1, a mounting plate 2, a signal receiving device 3, a connecting block 4, an inserting block 5, a connecting wire 6, a sliding groove 7, a sliding block 8, a connecting ring 9, a rotating groove 10, a rotating block 11, a connecting cylinder 12, a fixed rod 13, an extrusion groove 14, a spring 15, a clamping block 16, a top cover 17, a guide groove 18, a connecting groove 19 and a pressing block 20, wherein the mounting plate 2 is fixed on two sides of the main body 1,

the signal receiving device 3 is installed on the other side of the main body 1, one side of the main body 1, which is close to the mounting plate 2, is connected with the connecting block 4, one side of the connecting block 4 is connected with the insert block 5, one end of the insert block 5 is connected with the connecting wire 6, one side of the insert block 5 is provided with the sliding groove 7, the sliding groove 7 and the sliding block 8 are provided with two groups, the sliding groove 7 is in sliding connection with the sliding block 8, the sliding block 8 can be driven to move by pulling the connecting ring 9, the sliding block 8 can slide with the sliding groove 7 when moving, the sliding block 8 is embedded in the sliding groove 7, the connecting ring 9 is fixed on one side of the sliding block 8, one side of the connecting ring 9 is provided with the rotating groove 10, the size of the rotating groove 10 is matched with that of the rotating block 11, a rotating structure is formed by the rotating block 11 between the rotating groove 10 and the connecting cylinder 12, and the connecting block 4 are in threaded connection, after the connection cylinder 12 is butted with the connection block 4, the rotation of the connection cylinder 12 can drive the rotation block 11 to rotate, the rotation block 11 can rotate with the rotation groove 10 when rotating, the connection cylinder 12 can perform threaded sliding with the connection block 4 while rotating, and the rotation block 11 is embedded in the rotation groove 10;

a connecting cylinder 12 is fixed on one side of the rotating block 11 close to the connecting block 4, a fixing rod 13 is fixed on the top of the main body 1, four groups of fixing rods 13 and guide grooves 18 are arranged, the fixing rods 13 and the guide grooves 18 are both cylindrical, the fixing rods 13 and the guide grooves 18 are in sliding connection, a top cover 17 is pulled to drive the guide grooves 18 to move, the guide grooves 18 can slide with the fixing rods 13 when moving, the guide grooves 18 can be maintained when being separated from the fixing rods 13, a pressing groove 14 is arranged on one side of the fixing rod 13, four groups of pressing grooves 14, springs 15 and clamping blocks 16 are arranged, the pressing groove 14 and the clamping blocks 16 form a telescopic structure through the springs 15, the clamping blocks 16 can slide with the pressing groove 14 when being pressed, the springs 15 can be pressed when the clamping blocks 16 slide, and the springs 15 are arranged in the pressing groove 14, the clamping block 16 is connected to one side of the spring 15, the top of the main body 1 is provided with a top cover 17, one side of the top cover 17, which is close to the fixed rod 13, is provided with a guide groove 18, one side of the guide groove 18, which is close to the extrusion groove 14, is provided with a connecting groove 19, the vertical cross section of the connecting groove 19 is the same as the vertical cross section of the extrusion groove 14, the connecting groove 19 is in sliding connection with the pressing block 20, the extrusion groove 14 is in sliding connection with the clamping block 16, the pressing block 20 can slide with the connecting groove 19 when pressed, the clamping block 16 can be pressed when the pressing block 20 slides, and the pressing block 20 is connected to one side of the connecting.

The working principle is as follows: when the non-contact wireless transmission tilt angle sensor is used, firstly, the non-contact wireless transmission tilt angle sensor needs to be simply known, when the non-contact wireless transmission tilt angle sensor is used, the insert block 5 can be connected with the connecting block 4 by pulling the connecting ring 9 after the insert block 5 is connected with the connecting block 4, the slide block 8 can be driven to slide with the sliding groove 7 by pulling the connecting ring 9, when the connecting ring 9 moves, the connecting cylinder 12 can be driven to be butted with one side of the connecting block 4, after the butt joint of the connecting cylinder 12 and the connecting block 4 is finished, the connecting cylinder 12 can be rotated to drive the rotating block 11 and the rotating groove 10 to rotate, when the connecting cylinder 12 rotates, the connecting cylinder can be in threaded sliding with the connecting block 4, when the connecting cylinder 12 is in threaded sliding, the insert block 5 can be fixed, so that the insert block 5 can be prevented from falling off after being connected, after the insert block 5 is connected, the wireless transmission tilt angle sensor can be used, and the wireless transmission tilt angle sensor can be maintained after being used for a long time, the pressing block 20 can slide with the connecting groove 19 by being pressed, the clamping block 16 can be extruded when the pressing block 20 slides, the spring 15 can be extruded when the clamping block 16 is extruded, the guide groove 18 can be driven to move by pulling the top cover 17 when the clamping block 16 is extruded into the extrusion groove 14, the guide groove 18 can slide with the fixed rod 13 when moving, and the guide groove 18 can be overhauled when being separated from the fixed rod 13, and the content which is not described in detail in the description belongs to the prior art which is known by technicians in the field.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. Non-contact wireless transmission tilt sensor, including main part (1) and according to briquetting (20), its characterized in that: mounting plates (2) are fixed on two sides of the main body (1), wherein,

the signal receiving device (3) is installed on the other side of the main body (1), one side, close to the mounting plate (2), of the main body (1) is connected with a connecting block (4), one side of the connecting block (4) is connected with an inserting block (5), one end of the inserting block (5) is connected with a connecting wire (6), one side of the inserting block (5) is provided with a sliding groove (7), a sliding block (8) is embedded in the sliding groove (7), a connecting ring (9) is fixed on one side of the sliding block (8), one side of the connecting ring (9) is provided with a rotating groove (10), and a rotating block (11) is embedded in the rotating groove (10);

be close to connecting block (4) rotatory piece (11) one side is fixed with connecting cylinder (12), main part (1) top is fixed with dead lever (13), extrusion groove (14) have been seted up to dead lever (13) one side, extrusion groove (14) internally mounted has spring (15), spring (15) one side is connected with block piece (16), main part (1) top is provided with top cap (17), is close to dead lever (13) guide way (18) have been seted up to top cap (17) one side, is close to extrusion groove (14) spread groove (19) have been seted up to guide way (18) one side, press block (20) to connect in spread groove (19) one side.

2. The contactless wireless transmission tilt sensor according to claim 1, wherein: the sliding groove (7) and the sliding block (8) are provided with two groups, and the sliding groove (7) and the sliding block (8) are in sliding connection.

3. The contactless wireless transmission tilt sensor according to claim 1, wherein: the size of the rotating groove (10) is matched with that of the rotating block (11), a rotating structure is formed between the rotating groove (10) and the connecting cylinder (12) through the rotating block (11), and the connecting cylinder (12) is in threaded connection with the connecting block (4).

4. The contactless wireless transmission tilt sensor according to claim 1, wherein: the fixing rods (13) and the guide grooves (18) are provided with four groups, the fixing rods (13) and the guide grooves (18) are cylindrical, and the fixing rods (13) are in sliding connection with the guide grooves (18).

5. The contactless wireless transmission tilt sensor according to claim 1, wherein: four groups of extrusion grooves (14), springs (15) and clamping blocks (16) are arranged, and a telescopic structure is formed between the extrusion grooves (14) and the clamping blocks (16) through the springs (15).

6. The contactless wireless transmission tilt sensor according to claim 1, wherein: the vertical section of the connecting groove (19) is the same as that of the extrusion groove (14), the connecting groove (19) is in sliding connection with the pressing block (20), and the extrusion groove (14) is in sliding connection with the clamping block (16).