CN216483107U - Sensor with auxiliary positioning structure - Google Patents

Abstract

The utility model belongs to the technical field of sensors, in particular to a sensor with an auxiliary positioning structure, which comprises a square block, wherein a positioning connection threaded hole for connecting and fixing is arranged at the position of the square block, a first sliding groove for sliding action of a first sliding block is arranged in the middle of the square block, one end of the first sliding block is connected with the square block through a second transmission gear mechanism, the other end of the first sliding block is fixedly connected with the square block, the first sliding block is driven through the first sliding block, so that the sensor is convenient to be adjusted and positioned transversely and longitudinally, the requirement on accurate installation and positioning of the sensor is effectively reduced, the difficulty of installation work is effectively reduced, the connection pad is arranged at the lower end of the square block through the arrangement of the connection pad, the arrangement increases the elastic capacity of the device through the elasticity of the connection pad and a connection spring, thereby reducing the vibration generated by the working equipment and improving the working stability of the sensor.

Description

Sensor with auxiliary positioning structure

Technical Field

The utility model belongs to the technical field of sensors, and particularly relates to a sensor with an auxiliary positioning structure.

Background

With the advent of new technological revolution, the world began to enter the information age. In the process of utilizing information, firstly, accurate and reliable information needs to be acquired, and a sensor is a main way and means for acquiring the information in the fields of nature and production; the sensor is a detection device which can sense the measured information and convert the sensed information into an electric signal or other information in a required form according to a certain rule to output so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like.

The original sensor has positioning deviation in the installation process, so that the fixed sensor has some flaws in the working process, the sensor needs to be detached and installed and positioned again, the installation process of the sensor is extremely complicated, time and labor are wasted, and in the use process, the vibration generated by the equipment work causes the sensor to have great fluctuation in the working process, so that the receiving and the transmission of signals are influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides the sensor with the auxiliary positioning structure, which has the characteristics of simple structure, compact connection, convenience for positioning and adjustment of the sensor and stable work.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a sensor with assistance-localization real-time structure, includes square piece No. one, square piece department is equipped with the location connection screw hole that is used for connecting the fixed action, department is equipped with the sliding tray that is used for sliding block sliding action in the middle of square piece No. one, a sliding tray both ends are equipped with the tooth shape groove that is used for the transmission action, square piece is connected with a sliding block through a sliding tray No. one, the inside two motors that are equipped with of sliding block, the upper end is connected with square piece No. two, be equipped with the sliding tray No. two that is used for sliding block sliding action in square piece No. two, be equipped with the transfer line that is used for the transmission action in the sliding tray No. two, No. two sliding tray are connected with No. two through the transfer line, transfer line upper end is through bolt and sensor fixed connection.

According to the preferred technical scheme of the sensor with the auxiliary positioning structure, the output end of the upper end motor in the first sliding block is fixedly connected with a third transmission gear mechanism through a gear shaft, the third transmission gear mechanism is meshed and connected with a transmission rack through a tooth groove, the transmission rack is meshed and connected with a first transmission pair through the tooth groove, the first transmission pair is meshed and connected with a second transmission pair through the tooth groove, and the second transmission pair is meshed and connected with a transmission rod through a connecting idler wheel.

According to the preferred technical scheme of the sensor with the auxiliary positioning structure, the lower end of the first square block is fixedly connected with the connecting pad through gluing, a circular groove for placing a connecting spring is formed in the connecting pad, a connecting spring for buffering is arranged in the circular groove of the connecting pad, and the other end of the connecting spring is fixedly connected with the bottom end of the first square block.

According to the preferred technical scheme of the sensor with the auxiliary positioning structure, the output end of the motor at the lower end in the first sliding block is fixedly connected with the first transmission gear mechanism through a gear shaft, two ends of the first transmission gear mechanism are meshed and connected with the second transmission gear mechanism through a tooth socket, and the second transmission gear mechanism is meshed and connected with the first sliding groove through the tooth socket.

According to the preferred technical scheme of the sensor with the auxiliary positioning structure, one end of each transmission rack and one transmission pair is provided with the helical gear for direction adjustment, the other end of each transmission rack is provided with the gear groove for transmission, and the parameters of the helical gears at the transmission racks and the first transmission pair are the same.

According to the preferable technical scheme of the sensor with the auxiliary positioning structure, the middle of the transmission rod is provided with a thread for transmission, the transmission rod is in threaded connection with a threaded hole at the second sliding block, and two ends of the transmission rod are provided with gear grooves for meshing transmission with the connecting idler wheel.

Compared with the prior art, the utility model has the beneficial effects that: through the setting of a sliding block, a sliding block one end is connected with square piece No. one through No. two transmission gear mechanisms, the other end and square piece fixed connection No. two, this setting is through a sliding block transmission, thereby be convenient for carry on the sensor transversely, the longitudinal regulation location, the accurate requirement of effectual reduction sensor installation location, the degree of difficulty of effectual reduction installation work, through the setting of connection pad, the connection pad sets up at square piece lower extreme No. one, should set up the elasticity through connection pad and coupling spring itself, increase the elastic capacity of device, thereby reduce the vibrations of the production of equipment, improve the stationarity of sensor work.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

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

FIG. 3 is a schematic view of a transmission connection structure in a first sliding block according to the present invention;

FIG. 4 is a schematic view of a slider of the present invention;

FIG. 5 is a schematic view of a partial cross-sectional structure of the connection between the connection pad and the first square block of the present invention;

in the figure: 1. a first square block; 2. a second square block; 3. a first sliding groove; 4. a second sliding groove; 5. a transmission rod; 6. a sensor; 7. a second slider; 8. a connecting pad; 9. a first sliding block; 10. positioning the connecting threaded hole; 11. a first transmission gear mechanism; 12. a second transmission gear mechanism; 13. a third transmission gear mechanism; 14. a drive rack; 15. a first transmission pair; 16. a second transmission pair; 17. connecting an idler wheel; 18. a spring is connected.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a sensor with assistance-localization real-time structure, including square 1 No. one, square 1 department is equipped with the location connection screw hole 10 that is used for connecting the fixed action, department is equipped with the sliding tray 3 that is used for sliding block 9 sliding action in the middle of square 1, sliding tray 3 both ends are equipped with the flute profile that is used for the transmission action, square 1 is connected with sliding block 9 through sliding tray 3 No. one, the inside two motors that are equipped with of sliding block 9, the upper end is connected with square 2 No. two, be equipped with the sliding tray 4 No. two that is used for sliding block 7 sliding action in square 2 No. two, be equipped with the transfer line 5 that is used for the transmission action in sliding tray 4 No. two, sliding tray 4 is connected with sliding block 7 No. two through transfer line 5, transfer line 5 upper end is through bolt and sensor 6 fixed connection.

Concretely, the upper end motor output passes through gear shaft and No. three drive gear mechanism 13 fixed connection in sliding block 9, No. three drive gear mechanism 13 passes through the tooth's socket and is connected with the meshing of driving rack 14, driving rack 14 passes through the tooth's socket and is connected with the vice 15 meshing of a transmission, the vice 15 meshing of a transmission is connected with No. two transmission pairs 16 through the tooth's socket, No. two transmission pairs 16 are connected with the 5 meshing of transfer line through connecting idler 17, through a sliding block 9 motor drive in this embodiment, thereby drive transfer line 5 and rotate, when transfer line 5 rotates, drive No. two sliding block 7 through the screw thread and remove, thereby adjust sensor 6's transverse position.

Specifically, 1 lower extreme of square piece is through veneer and connection pad 8 fixed connection, and connection pad 8 department is equipped with the circular recess that is used for connecting spring 18 to place the effect, is equipped with the connecting spring 18 that is used for the cushioning effect in the circular recess of connection pad 8, and the connecting spring 18 other end and 1 bottom fixed connection of square piece, through the elasticity of connection pad 8 and connecting spring 18 itself in this embodiment, the elastic capacity of increase device to reduce the vibrations of the production of equipment, improve the stationarity of sensor 6 work.

Specifically, lower extreme motor output passes through gear shaft and 11 fixed connection of a drive gear mechanism in sliding block 9, 11 both ends of a drive gear mechanism are connected with the meshing of No. two drive gear mechanisms 12 through the tooth's socket, No. two drive gear mechanisms 12 are connected with the meshing of a sliding tray 3 through the tooth's socket, through a sliding block 9 motor drive in this embodiment, thereby drive a drive gear mechanism 11 and rotate, a drive gear mechanism 11 drives No. two drive gear mechanisms 12 and the 3 tooth's grooves of a sliding tray mutual drive, thereby drive sliding block 9 vertical adjustment, and then adjust sensor 6's vertical position.

Specifically, the transmission rack 14 and the first transmission pair 15 are both bevel gears with one ends arranged for direction adjustment, and the other ends arranged for transmission gear grooves, and the parameters of the bevel gears at the transmission rack 14 and the first transmission pair 15 are the same, in this embodiment, the transmission rack 14 and the first transmission pair 15 perform 90-degree direction adjustment through the bevel gears, so as to achieve the effect of transmission transition.

Specifically, the department is equipped with in the middle of the transfer line 5 and is used for driven screw thread, and with No. two sliding block 7 department screw hole threaded connection, the transfer line 5 both ends be equipped with be used for with be connected idler 17 meshing driven gear groove, the transfer line 5 both ends are equipped with driven gear in this embodiment, and the middle department is established to the screw thread, turns into the removal of screw thread with the rotation of gear to drive No. two sliding block 7 and remove.

The working principle and the using process of the utility model are as follows: the utility model fixedly connects a sensor 6 with a second sliding block 7 through a bolt, positions a first square block 1 through a positioning connection threaded hole 10, fixes the first square block 1 with a working device through the bolt, electrically connects the working device with the sensor 6 and the first sliding block 9, adjusts the working position of the sensor 6, starts a motor in the first sliding block 9 through electrical control, wherein one motor is fixedly connected with a first transmission gear mechanism 11 through an output end, two ends of the first transmission gear mechanism 11 drive the second transmission gear mechanism 12 to rotate through a tooth socket, the second transmission gear mechanism 12 is meshed with the first sliding groove 3 through the tooth socket for transmission, thereby driving the first sliding block 9 to slide in the first sliding groove 3, the motor at the other end is fixedly connected with a third transmission gear mechanism 13 through the output end, the third transmission gear mechanism 13 drives a transmission rack 14 to rotate through the tooth socket, the transmission rack 14 drives the first transmission pair 15 to rotate through a tooth groove, the first transmission pair 15 drives the second transmission pair 16 to rotate through a helical gear at the other end, the second transmission pair 16 drives the connecting idle wheel 17 to rotate through a gear at the other end, the connecting idle wheel 17 drives the tooth grooves at two ends of the transmission rod 5 to rotate through the tooth groove, a thread at the middle of the sugar content of the transmission rod 5 drives the second sliding block 7 to slide in the second sliding groove 4, and therefore the sensor 6 is adjusted to a proper position.

Finally, it should be noted that: 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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a sensor with assistance-localization real-time structure which characterized in that: comprises a first square block (1), a positioning connection threaded hole (10) for connecting and fixing, a first sliding groove (3) for sliding a first sliding block (9) in the middle of the first square block (1), tooth-shaped grooves for transmission at two ends of the first sliding groove (3), the first square block (1) is connected with the first sliding block (9) through the first sliding groove (3), two motors are arranged in the first sliding block (9), the upper end of the first sliding groove is connected with a second square block (2), a second sliding groove (4) for sliding a second sliding block (7) is arranged in the second square block (2), a transmission rod (5) for transmission is arranged in the second sliding groove (4), the second sliding groove (4) is connected with the second sliding block (7) through the transmission rod (5), the upper end of the transmission rod (5) is fixedly connected with the sensor (6) through a bolt.

2. A sensor provided with an auxiliary positioning structure according to claim 1, wherein: no. one in sliding block (9) upper end motor output pass through gear shaft and No. three driving gear mechanism (13) fixed connection, No. three driving gear mechanism (13) are connected through tooth's socket and driving rack (14) meshing, driving rack (14) are connected through tooth's socket and the vice (15) meshing of a transmission, the vice (15) of a transmission is connected through tooth's socket and the vice (16) meshing of No. two transmissions, the vice (16) of No. two transmissions is connected through connecting idler (17) and transfer line (5) meshing.

3. A sensor provided with an auxiliary positioning structure according to claim 1, wherein: a square piece (1) lower extreme passes through veneer and connection pad (8) fixed connection, connection pad (8) department is equipped with the circular recess that is used for connecting spring (18) to place the effect, be equipped with connecting spring (18) that are used for the cushioning effect in connection pad (8) circular recess, and connecting spring (18) other end and square piece (1) bottom fixed connection No. one.

4. A sensor provided with an auxiliary positioning structure according to claim 1, wherein: lower extreme motor output passes through gear shaft and a driving gear mechanism (11) fixed connection in sliding block (9), a driving gear mechanism (11) both ends are connected through tooth's socket and No. two driving gear mechanism (12) meshing, No. two driving gear mechanism (12) are connected through tooth's socket and a sliding tray (3) meshing.

5. A sensor provided with an auxiliary positioning structure according to claim 2, wherein: the transmission rack (14) and the first transmission pair (15) are helical gears, one end of each helical gear is set to be used for adjusting the direction, the other end of each helical gear is set to be used for transmission, and the parameters of the helical gears at the transmission rack (14) and the first transmission pair (15) are the same.

6. A sensor provided with an auxiliary positioning structure according to claim 1, wherein: the middle of the transmission rod (5) is provided with a thread for transmission, the transmission rod is in threaded connection with a threaded hole at the second sliding block (7), and two ends of the transmission rod (5) are provided with gear grooves used for being connected with an idler wheel (17) for meshing transmission.

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