CN210548903U - Equipment for laser grid code printing treatment inside sensor aluminum shell - Google Patents

Abstract

The utility model discloses an inside equipment that carries out laser net and beat sign indicating number and handle of sensor aluminum hull belongs to the sensor and makes technical field. A device for carrying out laser grid code printing treatment in an aluminum shell of a sensor comprises a main box body, wherein a first motor is connected to the main box body, the output end of the first motor is connected with a working disc, the top of the working disc is connected with a positioning seat, the top of the working disc is connected with a spray pipe, a first rubber suction nozzle is connected to the main box body in a sliding mode, the top of the main box body is connected with a second motor, the output end of the second motor is connected with a rotary disc, the first rubber suction nozzle is matched with the rotary disc, a first laser and a second laser are connected to the main box body, a tray is connected to the main box body, and a second rubber suction nozzle; the utility model discloses, concentrate the operation to the station through the working disc, when reducing the operation personnel, reduced manufacturing cost to beat the sign indicating number to sensor inner shell and lateral wall through the laser instrument, area of contact is pasted in the increase, makes and pastes the effect more stable.

Description

Equipment for laser grid code printing treatment inside sensor aluminum shell

Technical Field

The utility model relates to a sensor manufacturing technology field especially relates to an inside equipment that carries out laser net and beat sign indicating number processing of sensor aluminum hull.

Background

In the manufacturing process of the ultrasonic sensor, the manufacturing technology at the present stage is that the sensor aluminum shell and the piezoelectric ceramic piece are adhered through an adhesive, and direct adhesion modes are adopted, because the bottom surface inside the sensor aluminum shell is not processed, the piezoelectric ceramic piece is easy to fall off after long-time work under the condition of high-frequency vibration of the adhered piezoelectric ceramic piece, so that the product is invalid, a large amount of labor cost is wasted, and a good effect cannot be achieved.

Disclosure of Invention

The utility model aims at solving the deficiencies in the prior art, and the inside equipment that carries out laser net and beat sign indicating number and handle of sensor aluminum hull that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an equipment for laser grid code printing treatment in a sensor aluminum shell comprises a main box body, a camera, a display, a PLC display screen and a support, wherein the camera is connected to the main box body, the support is fixedly connected to the top of the main box body, the display and the PLC display screen are both fixedly connected to the side wall of the support, a starting switch is connected to the main box body, a first motor is connected to the main box body, the output end of the first motor is connected with a working disc, the top of the working disc is connected with a positioning seat, the top of the working disc is connected with a spray pipe, the spray pipe is positioned on the side wall of the positioning seat, a first rubber suction nozzle is connected to the main box body in a sliding manner, a second motor is connected to the top of the main box body, the output end of the second motor is connected with a rotary disc, the first rubber suction nozzle is matched with the rotary disc, and a, the first laser device is located directly over the positioning seat, the second laser device is located on the side wall of the positioning seat, a dust collection cover is connected to the main box body and located directly over the positioning seat, a tray is connected to the main box body in a sliding mode, a second rubber suction nozzle is connected to the main box body, and the second rubber suction nozzle is matched with the tray.

Preferably, the main box body is connected with a first guide rail, the first guide rail is connected with a first sliding block in a sliding mode, and the first rubber suction nozzle is fixedly connected to the first sliding block.

Preferably, the main box body is connected with a second guide rail, the second guide rail is connected with a work frame in a sliding mode, the work frame is connected with a second sliding block in a sliding mode, and the second rubber suction nozzle is connected to the second sliding block.

Preferably, the main box body is connected with a third guide rail in a sliding mode, and the tray is connected to the third guide rail in a sliding mode.

Preferably, the tray is provided with a positioning hole.

Preferably, the top of the bracket is connected with a warning lamp.

Preferably, the main box bottom support legs and the moving wheels.

Preferably, the side wall of the main box body is connected with a box door.

Compared with the prior art, the utility model provides an inside equipment that carries out laser net and beat sign indicating number and handle of sensor aluminum hull possesses following beneficial effect:

1. the equipment for carrying out laser grid code printing treatment in the sensor aluminum shell comprises the steps that a sensor to be printed is manually placed on a rotary table, after the sensor is stable, a starting switch is pressed, a camera shoots the position of the placed sensor, the angle of the sensor is identified, the angle is judged to be correct after comparison, if the angle is deviated, a second motor is started to drive the rotary table to rotate, the position of the sensor is adjusted, after the angle requirement is met, a first rubber suction nozzle moves to the position above the sensor to suck the sensor, meanwhile, the first motor is started to rotate a working disc, a next positioning seat is moved to the position near the second motor, then the sensor is placed on the positioning seat by the first rubber suction nozzle, specifically, a first sliding block slides on a first guide rail to move the first rubber suction nozzle, after the sensor is placed, the first motor continues to rotate, and the positioning seat is transferred to a second station, namely, under the first laser, the first laser starts to code the bottom of the sensor, after the code is coded, the sensor is turned to the working position of the second laser, the second laser codes the side surface of the sensor, after the code is coded at the station, the working disc is continuously rotated to turn the positioning seat to the position under the dust hood, the blowing pipe is started to blow out internal foreign matters generated by code printing at the first two stations, the internal foreign matters are collected by the dust hood and then are processed in a unified way, after the blowing is finished, the positioning seat is turned to the position under the second rubber suction nozzle, the second rubber suction nozzle moves to suck the coded sensor to prevent the coded sensor from being in the positioning hole on the tray, specifically, the working frame slides on the second guide rail to perform transverse positioning, the second slide block slides on the working frame to perform up and down movement, when a column of positioning holes on the tray is full, the tray slides on the third guide rail to perform the next column of placement, when the tray is full, the alarm lamp flashes to prompt a worker to take the tray away; through the station is concentrated to the rotation type, not only saves the place, has still reduced the unnecessary manual work volume, has saved the cost greatly to beat the sign indicating number through inside grid formula, make the sensor paste area of contact increase, promoted the stability of sensor, make its life longer.

Drawings

Fig. 1 is a front view of an apparatus for performing laser grid coding processing inside an aluminum shell of a sensor provided by the present invention;

fig. 2 is a schematic structural diagram of a device for performing laser grid coding processing inside an aluminum shell of a sensor according to the present invention;

fig. 3 is a schematic structural diagram of a device for performing laser grid coding processing inside an aluminum shell of a sensor according to the present invention;

fig. 4 is a schematic structural view of a part a in fig. 2 of an apparatus for performing laser grid coding processing inside an aluminum shell of a sensor provided by the present invention;

fig. 5 is the utility model provides a sensor aluminum hull inside carries out equipment that laser net beats sign indicating number and handles B part's in fig. 2 schematic structure diagram.

In the figure: 1. a main box body; 101. a support; 1011. a display; 1012. a PLC display screen; 1013. an alarm lamp; 102. a box door; 103. a support leg; 104. a moving wheel; 105. starting a switch; 2. a first guide rail; 201. a camera; 2011. a first rubber suction nozzle; 2012. a first slider; 202. a second motor; 2021. a turntable; 3. a working plate; 301. positioning seats; 302. a blowing pipe; 303. a first motor; 4. a first laser; 5. a second laser; 6. a dust collection cover; 7. a second guide rail; 701. a working frame; 7011. a second slider; 702. a second rubber suction nozzle; 8. a third guide rail; 801. a tray; 8011. and (7) positioning the holes.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example (b):

referring to fig. 1-5, an apparatus for performing laser grid code printing processing inside an aluminum shell of a sensor comprises a main box 1, a camera 201, a display 1011, a PLC display screen 1012 and a bracket 101, wherein the camera 201 is connected to the main box 1, the bracket 101 is fixedly connected to the top of the main box 1, the display 1011 and the PLC display screen 1012 are both fixedly connected to the side wall of the bracket 101, the main box 1 is connected with a start switch 105, the main box 1 is connected with a first motor 303, the output end of the first motor 303 is connected with a working disc 3, the top of the working disc 3 is connected with a positioning seat 301, the top of the working disc 3 is connected with a blowing tube 302, the blowing tube 302 is located on the side wall of the positioning seat 301, the main box 1 is slidably connected with a first rubber suction nozzle 2011, the top of the main box 1 is connected with a second motor 202, the output end of the second motor 202 is connected with, be connected with first laser instrument 4 and second laser instrument 5 on the main tank body 1, first laser instrument 4 is located positioning seat 301 directly over, and second laser instrument 5 is located the lateral wall of positioning seat 301, is connected with dust cage 6 on the main tank body 1, and dust cage 6 is located positioning seat 301 directly over, and sliding connection has tray 801 on the main tank body 1, is connected with second rubber suction nozzle 702 on the main tank body 1, and second rubber suction nozzle 702 cooperatees with tray 801.

Referring to fig. 4, a first guide rail 2 is connected to the main box 1, a first slider 2012 is connected to the first guide rail 2 in a sliding manner, a first rubber suction nozzle 2011 is fixedly connected to the first slider 2012, the worker places a sensor to be coded on the turntable 2021, the sensor is sucked up by the first rubber suction nozzle 2011 after the detection of the camera 201, and the sensor is placed on the positioning seat 301 by the sliding of the first guide rail 2.

Referring to fig. 5, a second guide rail 7 is connected to the main case 1, a work frame 701 is connected to the second guide rail 7 in a sliding manner, a second slider 7011 is connected to the work frame 701 in a sliding manner, a second rubber suction nozzle 702 is connected to the second slider 7011, the second rubber suction nozzle 702 sucks up the coded sensor and then transversely slides through the second guide rail 7, and the second slider 7011 slides up and down to be positioned and then places the sensor into the positioning hole 8011 for disc loading.

The main body 1 is slidably connected to a third rail 8, and the tray 801 is slidably connected to the third rail 8.

The tray 801 is provided with a positioning hole 8011.

The top of the bracket 101 is connected with a warning lamp 1013.

Referring to fig. 1, a bottom supporting foot 103 of the main box 1 and a moving wheel 104 are provided, and a box door 102 is connected to a side wall of the main box 1, so that when the supporting foot 103 rises, the main box 1 can be stabilized, when the supporting foot 103 is retracted, the main box 1 can be moved away by the moving wheel 104, and the structural condition inside the main box 1 can be observed at any time through the box door 102, thereby facilitating maintenance.

The working principle is as follows: in the utility model, the worker manually places the sensor to be coded on the turntable 2021, after the sensor is stabilized, the start switch 105 is pressed, the camera 201 takes a picture of the position of the placed sensor, the angle of the sensor is identified, the angle is judged to be correct after comparison, if the angle is deviated, the second motor 202 is started to drive the turntable 2021 to rotate, the position of the sensor is adjusted, after the angle requirement is met, the first rubber suction nozzle 2011 moves to the upper part of the sensor to suck the sensor, meanwhile, the first motor 303 is started to rotate the working disc 3, so that the next positioning seat 301 is moved to the vicinity of the second motor 202, then, the first rubber suction nozzle 2011 places the sensor on the positioning seat 301, specifically, the first slider 2012 slides on the first guide rail 2 to move the first rubber suction nozzle, after the placement is finished, the first motor 303 continues to rotate, the positioning seat 301 is transferred to the second station, namely, right below the first laser 4, at this time, the first laser 4 starts to code the bottom of the sensor, after the code is coded, the second laser 5 rotates to the working position of the second laser 5, the second laser 5 codes the side of the sensor, after the code is coded at the station, the working disc 3 is continuously rotated to rotate the positioning seat 301 to the position right below the dust hood 6, the blowing pipe 302 is started to blow out the internal foreign matters generated by the code printing at the first two stations, the internal foreign matters are collected by the dust hood 6 and then are processed in a unified way, after the blowing is finished, the positioning seat 301 rotates to the position right below the second rubber suction nozzle 702, the second rubber suction nozzle 702 moves to suck the coded sensor to prevent the coded sensor from being positioned in the positioning hole 8011 on the tray 801, specifically, the working frame 701 slides on the second guide rail 7 to perform transverse positioning, the second sliding block 7011 slides on the working frame 701 to perform up and down movement, when a row of positioning holes 8011 on the tray is full, the tray 801 slides on the third guide rail 8, the next row of arrangement is carried out, and when the tray 801 is full, the alarm lamp 1013 flashes to prompt a worker to take away the tray 801; through the station is concentrated to the rotation type, not only saves the place, has still reduced the unnecessary manual work volume, has saved the cost greatly to beat the sign indicating number through inside grid formula, make the sensor paste area of contact increase, promoted the stability of sensor, make its life longer.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. The equipment for carrying out laser grid coding treatment inside the aluminum shell of the sensor comprises a main box body (1), a camera (201), a display (1011), a PLC display screen (1012) and a support (101), wherein the camera (201) is connected to the main box body (1), the support (101) is fixedly connected to the top of the main box body (1), the display (1011) and the PLC display screen (1012) are both fixedly connected to the side wall of the support (101), the equipment is characterized in that the main box body (1) is connected with a starting switch (105), the main box body (1) is connected with a first motor (303), the output end of the first motor (303) is connected with a working disc (3), the top of the working disc (3) is connected with a positioning seat (301), the top of the working disc (3) is connected with a blowing pipe (302), and the blowing pipe (302) is positioned on the side wall of the positioning seat (301), the main box body (1) is connected with a first rubber suction nozzle (2011) in a sliding way, the top of the main box body (1) is connected with a second motor (202), the output end of the second motor (202) is connected with a rotary table (2021), the first rubber suction nozzle (2011) is matched with the rotary table (2021), the main box body (1) is connected with a first laser (4) and a second laser (5), the first laser (4) is positioned right above the positioning seat (301), the second laser (5) is positioned on the side wall of the positioning seat (301), the main box body (1) is connected with a dust collection cover (6), the dust collection cover (6) is positioned right above the positioning seat (301), the improved rubber box is characterized in that the main box body (1) is connected with a tray (801) in a sliding mode, the main box body (1) is connected with a second rubber suction nozzle (702), and the second rubber suction nozzle (702) is matched with the tray (801).

2. The device for laser grid coding inside the aluminum shell of the sensor according to claim 1, wherein a first guide rail (2) is connected to the main box body (1), a first slider (2012) is slidably connected to the first guide rail (2), and the first rubber suction nozzle (2011) is fixedly connected to the first slider (2012).

3. The equipment for carrying out laser grid coding treatment inside the aluminum shell of the sensor according to claim 1, wherein a second guide rail (7) is connected to the main box body (1), a working frame (701) is connected to the second guide rail (7) in a sliding manner, a second sliding block (7011) is connected to the working frame (701) in a sliding manner, and the second rubber suction nozzle (702) is connected to the second sliding block (7011).

4. The device for laser grid coding inside the aluminum shell of the sensor according to claim 1, wherein a third guide rail (8) is slidably connected to the main box body (1), and the tray (801) is slidably connected to the third guide rail (8).

5. The device for carrying out laser grid coding treatment inside the aluminum shell of the sensor according to claim 4, wherein the tray (801) is provided with positioning holes (8011).

6. The device for laser grid coding treatment inside the aluminum sensor shell according to claim 1, characterized in that a warning lamp (1013) is connected to the top of the bracket (101).

7. The device for laser grid coding treatment inside the aluminum shell of the sensor according to claim 1, characterized in that the bottom support (103) and the moving wheels (104) of the main box body (1).

8. The device for laser grid coding treatment inside the aluminum shell of the sensor according to claim 1, wherein a door (102) is connected to the side wall of the main box body (1).

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