CN220718364U - Base shell assembling device with visual inspection - Google Patents

Abstract

The utility model provides a base shell assembling device with visual detection, which comprises a workbench, wherein a stand, a base suction mechanism arranged on the stand and a product detection mechanism arranged below the stand are arranged on the workbench, the base suction mechanism is provided with a product processing table arranged on the upper end face of the stand, lower automatic rebound assemblies symmetrically arranged on two sides of the product processing table, a lower pressing plate arranged on the lower automatic rebound assemblies and a suction block arranged on the lower end face of the lower pressing plate, a plurality of base suction cylinders are arranged on the lower end face of the suction block in an array manner, a base product plate or a shell product plate is arranged on the product processing table in an adaptive manner, and a suction cylinder positioning plate is arranged on the upper end face of the base product plate or the shell product plate. The utility model relates to the technical field of base shell assembly.

Description

Base shell assembling device with visual inspection

Technical Field

The utility model relates to the technical field of base shell assembly, in particular to a base shell assembly device with visual detection.

Background

Along with development and progress of technology, the application field of chips produced based on nano technology is also more and more widespread, but the following problem is that the chips are used as bases and are installed in a protective shell, so that the safety in use is guaranteed.

Therefore, it is imperative to design a base housing assembly device.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model provides a base housing assembly device with visual inspection, which aims to solve the disadvantage that the defective rate of base housing assembly is high in the prior art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a base shell assembly device with visual detection, includes the workstation, be provided with the frame on the workstation, set up in base actuation mechanism on the frame with set up in product detection mechanism of frame below, base actuation mechanism be provided with set up in the product processing platform of the up end of frame, symmetry set up in automatic rebound subassembly that pushes down of product processing platform both sides, set up in push down on the automatic rebound subassembly with set up in actuation piece of lower terminal surface down, array is provided with a plurality of base on actuation piece's the lower terminal surface and inhales a section of thick bamboo, in different processing steps, the adaptation is provided with base product board or shell product board on the product processing platform, base product board or shell product board's up end is provided with inhales a section of thick bamboo locating plate, a plurality of base of actuation piece inhale a section of thick bamboo through inhale a locating plate respectively right base product board or shell product board carries out the suction or the blowing in of base.

Based on the above, a base shell assembly device with visual inspection's beneficial effect has been solved under prior art base shell equipment defective rate and has been kept high shortcoming for the first time, mainly embodies: the utility model is provided with the base suction mechanism and the product detection mechanism, the base suction mechanism sucks the base in the product plate embedded with the base, then blows the base into the shell of the product plate embedded with the shell, and finally uses the product detection mechanism to detect whether the plane of the processed shell product plate has the base which is not blown into the shell and is tilted, thereby improving the yield; the rack has the beneficial effects that the base suction mechanism and the product detection mechanism are installed; the product processing table has the beneficial effects that the product plate is placed on the product processing table for assembly processing; the automatic rebound component has the beneficial effects that the lower pressing plate is driven to downwards enable the suction block to be attached to the product plate, and the automatic rebound can be realized after the suction block is loosened; the suction block has the beneficial effects that the suction base is sucked by the base suction cylinder arranged on the lower end surface of the suction block; the base product plate has the beneficial effects that a base is provided for the base suction cylinder; the shell product plate has the beneficial effects that the mounting base is arranged in the shell of the shell product plate; the suction cylinder positioning plate has the beneficial effects of positioning the working position of the suction cylinder of the base on the base product plate or the shell product plate.

Further, a plurality of base mounting holes are formed in the base product plate in an array mode, bases are arranged in the base mounting holes, a plurality of shell mounting holes are formed in the shell product plate in an array mode, a shell is arranged in the shell mounting holes, a plurality of suction cylinder holes are formed in the suction cylinder positioning plate in an array mode, each base mounting hole or each shell mounting hole is matched with each suction cylinder hole, and each suction cylinder hole is matched with each base suction cylinder.

Based on the above, the base mounting hole has the beneficial effects of storing the base; the shell product plate has the beneficial effects that the shell is stored and the base is installed; the suction cylinder hole has the beneficial effect of positioning the suction cylinder of the base.

Further, an air pump machine is arranged below the workbench, an adsorption air pipe is arranged at the output end of the air pump machine, and the other end of the adsorption air pipe penetrates through the lower pressing plate to be connected with the suction block.

Based on the above, the air pump machine has the beneficial effects that suction pressure intensity is provided for the base suction cylinder of the suction block; the adsorption air pipe has the beneficial effect of connecting the air pump machine with the suction block.

Further, a product detection table and a CCD camera are arranged in the product detection mechanism, the CCD camera is arranged on the product detection table, and after the base is blown into the shell, the shell product plate is placed at the front end of the CCD camera for quality detection.

Based on the above, the product detection table has the beneficial effects that the product board of the finished processing shell is placed for detection; the CCD camera has the beneficial effects of detecting whether the base is not blown into the shell to tilt on the plane of the shell product plate.

Further, the automatic rebound component comprises a pressing rod, a pressing rod seat and a spring, wherein the pressing rod is arranged on the pressing rod, the spring is arranged between the pressing rod and the pressing rod seat, and the pressing rod is matched with the pressing rod seat.

Based on the above, the beneficial effects of the lower pressure bar are that the lower pressure plate is installed; the pressing rod seat has the beneficial effects that the pressing rod seat can be pressed in by pressing; the spring has the beneficial effect that the spring can rebound after being pressed in.

Further, a base plate box, a shell plate box and a finished product plate box are arranged on two sides of the stand.

Based on the above, the base plate box has the beneficial effects that a base product plate is placed; the shell plate box has the beneficial effects of placing shell product plates and finished product plate boxes, namely placing shell product plates which are processed.

Further, the upper end face of the stand is also provided with an attracting switch, and the attracting switch is in electromechanical signal connection with the air pump.

Based on the above, the suction switch has the beneficial effect of controlling whether the air pump machine works.

In order to more clearly illustrate the above-mentioned features of the present utility model and its intended objects, the present utility model will be further described with reference to the accompanying drawings and examples.

Drawings

Fig. 1: is a front view of the present utility model;

fig. 2: a schematic view of the base suction mechanism of the utility model;

fig. 3: is a bottom view of the engaging block of the utility model

Fig. 4: the utility model is a matching schematic diagram of a base product plate, a suction cylinder positioning plate and a base suction cylinder;

fig. 5: is a schematic diagram of the cooperation of the shell product plate, the suction cylinder positioning plate and the base suction cylinder.

Reference numerals illustrate: 1-workbench, 2-stand, 22-base plate box, 23-shell plate box, 24-finished plate box, 25-suction switch, 3-base suction mechanism, 31-product processing table, 311-base product plate, 3111-base mounting hole, 3112-base, 312-shell product plate, 3122-shell, 3121-shell mounting hole, 313-suction cylinder positioning plate, 3131-suction cylinder hole, 32-pressing automatic rebound component, 321-pressing rod, 322-pressing rod seat, 323-spring, 33-pressing plate, 34-suction block, 35-base suction cylinder, 4-product detection mechanism, 41-product detection table, 42-CCD camera, 5-air pump machine, 51-suction air pipe.

Detailed Description

As shown in fig. 1-5, a base shell assembling device with visual detection comprises a workbench 1, wherein a workbench 2, a base sucking mechanism 3 arranged on the workbench 2 and a product detection mechanism 4 arranged below the workbench 2 are arranged on the workbench 1, the base sucking mechanism 3 is provided with a product processing table 31 arranged on the upper end surface of the workbench 2, lower automatic rebound assemblies 32 symmetrically arranged on two sides of the product processing table 31, a lower pressing plate 33 arranged on the lower automatic rebound assemblies 32 and a sucking block 34 arranged on the lower end surface of the lower pressing plate 33, a plurality of base sucking cylinders 35 are arranged on the lower end surface of the sucking block 34 in an array manner, in different processing steps, a base plate 311 or a shell product plate 312 is adaptively arranged on the product processing table 31, a sucking cylinder positioning plate 313 is arranged on the upper end surface of the base product plate 311 or the shell product plate 312, a plurality of base sucking cylinders 35 are symmetrically arranged on two sides of the product processing table 31, a plurality of base sucking cylinders 35 are respectively arranged on the sucking cylinder positioning plates 313 to detect whether products are embedded into the base plate 311 or the shell plate 312 or the shell, and whether products are sucked into the shell 312 are required to be processed by the product detection mechanism, and whether the products are sucked into the shell or not is detected by the surface of the base plate or not, and finally, and whether the products are sucked into the shell is completely or not; the stand is used for installing the base suction mechanism and the product detection mechanism; the product processing table is used for placing the product plate on the product processing table for assembly processing; the pressing-down automatic rebound assembly is used for driving the lower pressing plate to downwards enable the suction block to be attached to the product plate and automatically rebound after being loosened; the suction block is used for sucking the base through the base suction cylinder arranged on the lower end surface of the suction block; the base product plate is used for providing a base for the base suction cylinder; the shell product plate is used for installing the base into the shell of the shell product plate; the suction cylinder positioning plate is used for positioning the working position of the suction cylinder of the base on the base product plate or the shell product plate.

As shown in fig. 4 to 5, a plurality of base mounting holes 3111 are arrayed on the base product plate 311, a base 3112 is disposed in the base mounting holes 3111, a plurality of housing mounting holes 3121 are arrayed on the housing product plate 312, a housing 3122 is disposed in the housing mounting holes 3121, a plurality of suction cylinder holes 3131 are arrayed on the suction cylinder positioning plate 313, each base mounting hole 3111 or each housing mounting hole 3121 is adapted to each suction cylinder hole 3131, each suction cylinder hole 3131 is adapted to each base suction cylinder 35, and it should be understood that the base mounting holes are used for storing bases; the shell product plate is used for storing the shell and the mounting base; the suction cylinder hole is used for positioning the suction cylinder of the base.

As shown in fig. 1, an air pump machine 5 is disposed below the working table 1, an adsorption air pipe 51 is disposed at an output end of the air pump machine 5, and another end of the adsorption air pipe 51 passes through the lower pressing plate 33 to be connected with the suction block 34, and it should be understood that the air pump machine is used for providing suction pressure for a base suction cylinder of the suction block; the adsorption air pipe is used for connecting the air pump machine and the suction block.

As shown in fig. 1, the product detecting mechanism 4 is provided with a product detecting table 41 and a CCD camera 42, the CCD camera 42 is disposed on the product detecting table 41, the shell product board 312 is placed at the front end of the CCD camera 42 for quality detection after the base is blown into the shell, and it should be understood that the product detecting table is used for placing the shell product board for detection; the CCD camera is used for detecting whether the base is not blown into the shell to tilt or not on the plane of the shell product plate.

As shown in fig. 2, the automatic rebound assembly 32 includes a pressing rod 321, a pressing rod seat 322, and a spring 323, wherein the pressing rod 33 is disposed on the pressing rod 321, the spring 323 is disposed between the pressing rod 33 and the pressing rod seat 322, the pressing rod 321 is adapted to the pressing rod seat 322, and it should be understood that the pressing rod is used for installing the pressing rod; the lower pressure rod seat is used for pressing in the lower pressure rod; the spring is used for rebound after being pressed in.

As shown in fig. 1, the two sides of the stand 2 are provided with a base plate box 22, a shell plate box 23 and a finished product plate box 24, and it is understood that the base plate box is used for placing a base product plate; the shell plate box is used for placing shell product plates, and the finished product plate box is used for placing the shell product plates which are processed.

As shown in fig. 1, the upper end surface of the stand 2 is further provided with an engaging switch 25, and the engaging switch 25 is electrically connected with the air pump 5, and it should be understood that the engaging switch is used for controlling whether the air pump works.

In summary, the specific embodiments of the present utility model are as follows: the base product plate is taken out from the base plate box 22, the base product plate is placed on the product processing table 31 of the base suction mechanism 3, the base suction hole of the suction cylinder positioning plate is aligned with the base mounting hole of the base product plate, the lower pressure plate 33 is pushed to be pressed in along the lower pressure rod seat 322 by the lower pressure rod 321, the suction block 34 mounted on the lower end surface of the lower pressure plate 33 is attached to the inside of the suction cylinder positioning plate, the base suction cylinder 35 is correspondingly stretched into the base through hole on the suction cylinder positioning plate, the suction switch 25 is opened, the air pump 5 enables the suction block 34 to suck the base suction cylinder 35 from the base in the base product plate by the suction air pipe 51, the spring 323 rebounds the lower pressure plate 33, the base product plate is taken out, the shell product plate is taken out from the shell box 23, the shell product plate is placed on the product processing table 31 of the base suction mechanism 3, the base suction hole of the suction cylinder positioning plate is aligned with the shell product plate mounting hole of the shell product plate, the lower pressure plate 33 is pushed to be pressed in along the lower pressure rod seat 322 by the lower pressure rod 321, the suction block 34 correspondingly stretched into the base through the lower pressure rod seat 35, the suction block 34 mounted on the lower end surface of the lower pressure plate 33 is correspondingly stretched into the base through the suction cylinder positioning plate 35, the suction cylinder 35 is completely sucked into the base plate 35 by the suction cylinder positioning plate, the suction cylinder 35 is completely placed in the shell plate, the finished product plate is detected by the CCD is finally, the finished by the finished product plate is placed in the finished by the finished, and the finished product plate is detected by the finished by the CCD, and the finished product plate is placed in the finished by the finished product plate, and the finished product plate is placed by the finished product plate.

The above description is only of the best mode for carrying out the utility model, and is not intended to limit the utility model, but it is intended that modifications and substitutions made by those skilled in the art without departing from the spirit and scope of the utility model.

Claims (7)

1. Base shell assembly device with visual inspection, including workstation (1), its characterized in that: be provided with on workstation (1) frame (2), set up in base actuation mechanism (3) on frame (2) and set up in product detection mechanism (4) of frame (2) below, base actuation mechanism (3) be provided with set up in product processing platform (31) of the up end of frame (2), the symmetry set up in automatic rebound subassembly (32) of pushing down of product processing platform (31) both sides, set up in lower clamp plate (33) on the automatic rebound subassembly (32) of pushing down and set up in actuation piece (34) of lower terminal surface under clamp plate (33), array is provided with a plurality of base on the lower terminal surface of actuation piece (34) inhales section of thick bamboo (35), in different processing steps, the adaptation is provided with base product board (311) or shell product board (312) on product processing platform (31), the up end of base product board (311) is provided with inhales section of thick bamboo locating plate (313), actuation piece (34) inhale section of thick bamboo (35) through inhaling base board (311) or shell locating plate (312) respectively.

2. A base housing assembly device with visual inspection as set forth in claim 1, wherein: the novel multifunctional vacuum cleaner is characterized in that a plurality of base mounting holes (3111) are formed in the base product plate (311) in an array mode, a base (3112) is arranged in the base mounting holes (3111), a plurality of shell mounting holes (3121) are formed in the shell product plate (312) in an array mode, a shell (3122) is arranged in the shell mounting holes (3121), a plurality of suction cylinder holes (3131) are formed in the suction cylinder positioning plate (313) in an array mode, and each base mounting hole (3111) or each shell mounting hole (3121) is matched with each suction cylinder hole (3131), and each suction cylinder hole (3131) is matched with each base suction cylinder (35).

3. A base housing assembly device with visual inspection as set forth in claim 1, wherein: an air pump machine (5) is arranged below the workbench (1), an adsorption air pipe (51) is arranged at the output end of the air pump machine (5), and the other end of the adsorption air pipe (51) penetrates through the lower pressing plate (33) to be connected with the suction block (34).

4. A base housing assembly device with visual inspection as set forth in claim 1, wherein: the product detection mechanism (4) is internally provided with a product detection table (41) and a CCD camera (42), the CCD camera (42) is arranged on the product detection table (41), and the shell product plate (312) is placed at the front end of the CCD camera (42) for quality detection after the base is blown into the shell.

5. A base housing assembly device with visual inspection as set forth in claim 1, wherein: the automatic rebound component (32) comprises a pressing rod (321), a pressing rod seat (322) and a spring (323), wherein the pressing rod (33) is arranged on the pressing rod (321), the spring (323) is arranged between the pressing rod (33) and the pressing rod seat (322), and the pressing rod (321) is matched with the pressing rod seat (322).

6. A base housing assembly device with visual inspection as set forth in claim 1, wherein: two sides of the stand (2) are provided with a base plate box (22), a shell plate box (23) and a finished product plate box (24).

7. A base housing assembly device with visual inspection as claimed in claim 3, wherein: the upper end face of the stand (2) is also provided with an attracting switch (25), and the attracting switch (25) is electrically connected with the air pump machine (5).