CN215695917U - Shielding case detection equipment - Google Patents

Shielding case detection equipment Download PDF

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Publication number
CN215695917U
CN215695917U CN202122161833.4U CN202122161833U CN215695917U CN 215695917 U CN215695917 U CN 215695917U CN 202122161833 U CN202122161833 U CN 202122161833U CN 215695917 U CN215695917 U CN 215695917U
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China
Prior art keywords
detection
shielding shell
platform
base
detects
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Active
Application number
CN202122161833.4U
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Chinese (zh)
Inventor
李磊
许学科
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Guangdong Shenggao Communications Co ltd
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Guangdong Shenggao Communications Co ltd
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Priority to CN202122161833.4U priority Critical patent/CN215695917U/en
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Abstract

The utility model provides shielding shell detection equipment which comprises a workbench, wherein the workbench sequentially comprises a feeding mechanism, a first detection table, a second detection table, a third detection table, a fourth detection table, a fifth detection table, a sixth detection table and a blanking mechanism from left to right, a carrying manipulator is further arranged on the workbench and carries a shielding shell between two adjacent stations between the first detection table and the blanking mechanism, six end faces of the shielding shell are sequentially detected through the first detection table, the second detection table, the third detection table, the fourth detection table, the fifth detection table and the sixth detection table, the feeding mechanism comprises a vibration disc feeding device and a conveying rail, and the conveying rail is communicated with the first detection table. According to the shielding shell detection equipment provided by the utility model, six detection stations are respectively arranged to detect six surfaces of the shielding shell, the whole process is carried out circularly, the operation is simple and convenient, the labor and the time are effectively saved, and the conditions of missing detection, erroneous judgment and the like are not easy to generate.

Description

Shielding case detection equipment
Technical Field
The utility model relates to the field of detection equipment, in particular to shielding shell detection equipment.
Background
The crystal head is an important interface component in cable connection, particularly network connection, and is a plastic joint which can be inserted into an equipment port along a fixed direction and can prevent the crystal head from falling off from the equipment port. The crystal head is mainly used for connecting network card ports, hubs, switches, telephones and other devices, and is suitable for field termination of equipment or horizontal subsystems. In order to improve signal quality, reduce the interference, comparatively novel technical scheme is that set up and take the metal shielding shell to cover the quartzy first body, and to the detection of shielding shell, for example flatness, surface defect etc. adopt artifical range estimation or utilize simple appurtenance side such as magnifying glass to go to detect mostly, detection efficiency is low and operating personnel long-term single repetitive operation appears visual fatigue easily and leads to detecting the rate of accuracy not high, influences the follow-up equipment operation of shielding shell.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to a shielding shell detection device to solve the technical problems of the related art.
In order to achieve the purpose, the utility model provides the following technical scheme:
the utility model provides a shielding case check out test set, includes the workstation, the workstation from left to right examines test table, second for feed mechanism, first examine test table, second in proper order and examines test table, third and examine test table, the fourth examines test table, the fifth examines test table, the sixth examines test table and unloading mechanism still install the transport manipulator on the workstation and carry the shielding case between two adjacent stations between first examining test table to unloading mechanism, through first examine test table, second examine test table, third and examine test table, fourth and examine test table, fifth and examine test table, sixth and examine test table and detect six terminal surfaces of shielding case in proper order, feed mechanism includes vibration dish loading attachment and delivery track, delivery track is linked together with first test table of examining.
The first detection table is used for detecting the upper end surface of the shielding shell and comprises a first detection base and a first CCD light source piece arranged above the first detection base, the first detection base is vertically fixed on the workbench, a first conveying groove arranged along the longitudinal direction is arranged on the upper end surface of the first detection base, the tail end of the first conveying groove is provided with a second conveying groove which is vertically arranged and communicated with the first conveying groove, the second conveying groove penetrates through the left end and the right end of the upper end surface of the first detection base, a first opening is arranged on the left side of the first conveying groove and communicated with the conveying track, the front end of the first detection base is provided with a first material pushing assembly for pushing the shielding shell in the first conveying groove to the second conveying groove, and the left end of the second conveying groove is provided with a second material pushing assembly for pushing the shielding shell in the second conveying groove to the right end.
The first pushing assembly comprises a first air cylinder and a first push rod, the first push rod is in driving connection with the first air cylinder and slides in the first conveying groove, and the first air cylinder is fixed on the first detection base; the second pushing assembly comprises a second cylinder and a second push rod, and the second push rod is in driving connection with the second cylinder and slides in the second conveying groove.
The second detects platform and third and detects two terminal surfaces in the front and back that the platform is used for detecting the shield shell, the second detects the platform and includes that the second detects base and second CCD light source spare, second CCD light source spare and workstation fixed connection just detect the front side of base at the second, the third detects the platform and includes that the third detects base and third CCD light source spare, third CCD light source spare just detects the base front side at the third with workstation fixed connection, the second detects the platform and the third detects the structure of platform the same.
The fourth detects the platform and is used for detecting the bottom face of shielding shell, the fourth detects the platform and includes that the fourth detects the base and install the fourth CCD light source spare in the fourth detection base below, the fourth detects the base and passes through the installing support to be fixed on the workstation, fourth CCD light source spare is fixed on the installing support.
The fifth test bench is used for detecting the left side of shield shell, the fifth test bench includes that the fifth detects base and fifth CCD light source spare, fifth CCD light source spare is installed on the workstation and at the rear side of fifth detection base, the fifth test base includes mount, revolving stage and the first driving motor of drive revolving stage pivoted, the revolving stage is installed in the mount top, mount and workstation fixed connection, first driving motor fixes in the revolving stage below and is connected with the revolving stage drive.
The sixth detection platform is used for detecting the right side of the shielding shell, the sixth detection platform comprises a sixth detection base and a sixth CCD light source piece, and the sixth CCD light source piece is fixed on the workbench and is arranged on the front side of the sixth detection base.
The right side of workstation is equipped with a blanking through-hole and is used for collecting the defective products, unloading mechanism installs in the front side of blanking through-hole, unloading mechanism carries the unloading driving piece of platform back-and-forth movement including the unloading, the unloading driving piece is connected with the bottom drive of unloading transport platform, the unloading is carried the platform and is removed in the top of blanking through-hole.
The carrying manipulator comprises a support rod and a transferring driving assembly for driving the support rod to move left and right, seven suction nozzles with the same structure are arranged on the support rod and are used for carrying the shielding shell from the first detection platform to the blanking mechanism in an adsorption way, the transfer driving component comprises a support frame and a second driving motor arranged above the support frame, the support frame is fixed on the workbench, a guide plate is arranged above the support frame, a drive plate is connected on the guide plate in a sliding way, a guide groove with an upward protruding arc-shaped structure is arranged on the guide plate, the guide plate is also provided with a driving shaft, one end of the driving shaft is coaxially arranged with the guide groove and is in driving connection with a second driving motor through the guide plate, the other end of the driving shaft is fixedly connected with the driving plate, a guide post is installed on the driving shaft and slides in the guide groove, and the lower portion of the driving plate is fixedly connected with the supporting rod through a connecting rod.
The rear side of connecting rod is equipped with slider assembly and support frame sliding connection, slider assembly includes slide rail and slider, the slide rail just fixes on the support frame along the horizontal setting of deflector in the deflector below, the slider slides on the slide rail, be equipped with stopper and connecting rod sliding connection on the slider, the connecting rod passes stopper and bracing piece fixed connection.
Compared with the prior art, the shielding shell detection equipment provided by the utility model is respectively provided with six detection stations for detecting six surfaces of the shielding shell, detecting whether the shielding shell has the defects of electroplating whitening, yellowing, watermarks, deformation, oxidation and the like, automatic feeding detection and automatic screening of defective products are adopted, a multi-station detection assembly realizes linkage detection, the detection time is saved, the detection efficiency and quality are improved, the whole process is carried out circularly, the operation is simple and convenient, the labor and time are effectively saved, and the conditions of missed detection, erroneous judgment and the like are not easy to generate.
Drawings
FIG. 1: the utility model has a schematic three-dimensional structure;
FIG. 2: the top view of the utility model;
FIG. 3: a schematic view of a first detection base structure;
FIG. 4: an enlarged view at A of FIG. 1 (a schematic structural view of a second inspection table and a third inspection table);
FIG. 5: a fourth detection table structure schematic diagram;
FIG. 6: a schematic structural diagram of a fifth detection table;
FIG. 7: a schematic structural diagram of a sixth detection table;
FIG. 8: the blanking mechanism is structurally schematic;
FIG. 9: a schematic structural diagram of a carrying manipulator;
FIG. 10: the utility model is a simple flow diagram for detecting a shielding shell.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Specific example 1: referring to fig. 1 to 3, in an embodiment of the present invention, a shielding shell detecting apparatus includes a worktable 1, a control panel is arranged on a workbench 1, the workbench 1 sequentially comprises a feeding mechanism 2, a first detection table 3, a second detection table 4, a third detection table 5, a fourth detection table 6, a fifth detection table 7, a sixth detection table 8 and a blanking mechanism 9 from left to right, a conveying manipulator 11 is also arranged on the workbench 1 to convey the shielding shell between two adjacent stations between the first detection platform 3 and the blanking mechanism 9, six terminal surfaces of shielding case are detected in proper order through first detecting platform 3, second detecting platform 4, third detecting platform 5, fourth detecting platform 6, fifth detecting platform 7, sixth detecting platform 8, and feed mechanism 2 includes vibration dish loading attachment 201 and delivery track 202, and delivery track 202 is linked together with first detecting platform 3.
Referring to fig. 3, the first inspection stage 3 is used for inspecting the upper end surface of the shielding shell, the first inspection stage 3 includes a first inspection base 301 and a first CCD light source 302 installed above the first inspection base 301, the first inspection base 301 is vertically fixed on the working table 1, the upper end surface of the first inspection base 301 is provided with a first conveying groove 301-1 arranged along the longitudinal direction, the tail end of the first conveying groove 301-1 is provided with a second conveying groove 301-2, the second conveying groove 301-2 is vertically arranged and communicated with the first conveying groove 301-1, the second conveying groove 301-2 penetrates through the left and right ends of the upper end surface of the first inspection base 301, the left side of the first conveying groove 301-1 is provided with a first opening 301-3 communicated with the conveying rail 202, the front end of the first inspection base 301 is provided with a first material pushing assembly 303 for pushing the shielding shell in the first conveying groove 301-1 to the second conveying groove 301-2, the left end of the second conveying groove 301-2 is provided with a second pushing assembly 304 for pushing the shielding shell in the second conveying groove 301-2 to the right end.
The first material pushing assembly 303 comprises a first air cylinder 303-1 and a first push rod 303-2, the first push rod 303-2 is in driving connection with the first air cylinder 303-1 and slides in the first conveying groove 301-1, and the first air cylinder 303-1 is fixed on the first detection base 301; the second pushing assembly 304 comprises a second air cylinder 304-1 and a second push rod 304-2, the second push rod 304-2 is in driving connection with the second air cylinder 304-1 and slides in the second conveying groove 301-2, when the shielding shell flows into the first opening 301-3 from the conveying track 202 and enters the first conveying groove 301-1, the first push rod 303-2 pushes the shielding shell to the position below the first CCD light source 302, namely, the top end face of the shielding shell is detected through the first CCD light source 302 at the junction position of the first conveying groove 301-1 and the second conveying groove 301-2, the detected shielding shell is recorded in a background database and displayed through a control panel, and the detected shielding shell is pushed to the right side of the second conveying groove 301-2 through the second push rod 304-2 to convey at the next station.
A material blocking assembly 305 is arranged above the right side of the second conveying groove 301-2, the material blocking assembly 305 comprises a third cylinder 305-1 and a material blocking strip 305-2, the third cylinder 305-1 is fixed on the first detection base 301 and is in driving connection with the material blocking strip 305-2, the right side of the second conveying groove 301-2 is of a closed structure provided with a sealing plate, the arranged material blocking strip 305-2 moves back and forth above the second conveying groove 301-2 to limit and block materials for a shielding shell in the second conveying groove 301-2, and the shielding shell is prevented from abutting against the sealing plate on the right side of the second conveying groove 301-2 to pop out when the second push rod 304-2 is pushed to the right side.
The second detection table 4 and the third detection table 5 are used for detecting the front end face and the rear end face of the shielding shell, the second detection table 4 comprises a second detection base 401 and a second CCD light source piece 402, the second CCD light source piece 402 is fixedly connected with the workbench 1 and is arranged at the front side of the second detection base 401, the third detection table 5 comprises a third detection base 501 and a third CCD light source piece 502, the third CCD light source piece 502 is fixedly connected with the workbench 1 and is arranged at the front side of the third detection base 501, the structures of the second detection table 4 and the third detection table 5 are the same, the shielding shell detected at the previous station is detected at the second detection table 4, the rear end face of the shielding shell detected at the second station is detected at the third detection table 5, the third CCD light source piece 502 irradiates the inner wall of the rear side of the shielding shell through the opening at the front end of the shielding shell by different settings of the irradiation intensity of the light source piece, the inner wall of the rear side of the shielding shell is detected, the rear side of the shielding shell is an inward-bent component structure, and therefore the bending position in the shielding shell needs to be detected.
Referring to fig. 5, the fourth inspection table 6 is used for inspecting the bottom end surface of the shielding case, the fourth inspection table 6 includes a fourth inspection base 601 and a fourth CCD light source 602 installed below the fourth inspection base 601, the fourth inspection base 601 is fixed on the working table 1 through a mounting bracket 603, the fourth CCD light source 602 is fixed on the mounting bracket 603, and the fourth mounting base is used for placing a transparent plate 601-1 made of a transparent material on the shielding case, so that the fourth CCD light source 602 can inspect the bottom of the product from bottom to top.
Referring to fig. 6, the fifth inspection table 7 is used for inspecting the left side of the shielding case, the fifth inspection table 7 includes a fifth inspection base 701 and a fifth CCD light source 702, the fifth CCD light source 702 is installed on the working table 1 and is located at the rear side of the fifth inspection base 701, the fifth inspection base 701 includes a fixing frame 701-1, a rotating table 701-2, and a first driving motor 701-3 for driving the rotating table 701-2 to rotate, the rotating table 701-2 is installed above the fixing frame 701-1, the fixing frame 701-1 is fixedly connected to the working table 1, and the first driving motor 701-3 is fixed below the rotating table 701-2 and is drivingly connected to the rotating table 701-2. When the shield case is transferred from the fourth inspection station 6 to the fifth inspection station 7, after the product is placed on the rotating table 701-2, the first driving motor 701-3 drives the rotating table 701-2 to rotate counterclockwise by 90 degrees, and the left side of the shield case is inspected by the fifth CCD light source part 702.
Referring to fig. 7, the sixth inspection table 8 is used for inspecting the right side of the shielding case, the sixth inspection table 8 includes a sixth inspection base 801 and a sixth CCD light source 802, and the sixth CCD light source 802 is fixed on the working table 1 and is located at the front side of the sixth inspection base 801. Since the shielding case has already been rotated when the fifth inspection stage 7 detects, it is only necessary to directly pass through the sixth CCD light source 802 to detect the right side of the shielding case after the sixth inspection stage 8 is reached.
The right side of workstation 1 is equipped with a blanking through-hole 101 and is used for collecting the defective products, and unloading mechanism 9 is installed in the front side of blanking through-hole 101, please refer to fig. 8, and unloading mechanism 9 includes that the unloading carries platform 901 and the unloading driving piece 902 that drives unloading and carry platform 901 back-and-forth movement, and unloading driving piece 902 is connected with the bottom drive of unloading and carries platform 901, and the structure that unloading driving piece 902 adopted prior art's cylinder or motor and screw rod to link all can realize, and the unloading is carried platform 901 and is removed in the top of blanking through-hole 101. And a blanking rail 10 is arranged on the right side of the blanking through hole 101, and the blanking rail 10 is obliquely arranged on the right side of the workbench 1. When the products are detected completely without abnormality, the products are thrown into the blanking rail 10 through the manipulator for uniform collection.
Referring to fig. 9, the carrying manipulator 11 includes a support rod 13 and a transfer driving assembly 12 for driving the support rod 13 to move left and right, seven suction nozzles 14 with the same structure are installed on the support rod 13 for carrying shielding cases from the first inspection station 3 to the blanking mechanism 9, the transfer driving assembly 12 includes a support frame 1201 and a second driving motor 1202 installed above the support frame 1201, the support frame 1201 is fixed on the working table 1, a guide plate 1203 is installed above the support frame 1201, a driving plate 1206 is connected to the guide plate 1203 in a sliding manner, an arc-shaped guide groove 1203-1 protruding upward is formed in the guide plate 1203, a driving shaft 1204 is further installed on the guide plate 1203, one end of the driving shaft 1204 is coaxially arranged with the guide groove 1203-1 and is connected to the second driving motor 1202 through the guide plate 1203 in a driving manner, the other end of the driving shaft 1204 is fixedly connected to the driving plate 1206, a guide post 1205 is installed on the driving shaft 1204 to slide in the guide groove 1203-1, the lower part of the driving plate 1206 is fixedly connected with the supporting rod 13 through a connecting rod 1207.
The rear side of connecting rod 1207 is equipped with slider assembly 15 and support frame 1201 sliding connection, and slider assembly 15 includes slide rail 1501 and slider 1502, and slide rail 1501 sets up and fix on support frame 1201 along the transversely of deflector 1203 below deflector 1203, and slider 1502 slides on slide rail 1501, is equipped with stopper 1503 and connecting rod 1207 sliding connection on the slider 1502, and connecting rod 1207 passes stopper 1503 and support rod 13 fixed connection. When the second driving motor 1202 drives the driving shaft 1204 to rotate, the driving shaft 1204 slides along the guiding groove 1203-1 of the guiding plate 1203 under the action of the guiding post 1205, so that the driving plate 1206 is driven to slide along the guiding groove 1203-1, the supporting row moves left and right, the shielding shell of the previous station is adsorbed to the next adjacent station through the suction nozzle 14, and the materials are conveyed in the circulating operation.
The working process is as follows: referring to fig. 10, products to be detected are all placed on a vibrating tray in a feeding mechanism 2 and are sequentially conveyed, the products sequentially pass through a first detection table 3, a second detection table 4, a third detection table 5, a fourth detection table 6, a fifth detection table 7 and a sixth detection table 8 to be measured, all detection tables are provided with jigs matched with the product structures and used for placing shielding shells, the measured data are recorded in a control panel, when the detected data are abnormal, the products are tested by the sixth detection table 8, the blanking conveying table 901 cannot move outwards, the products on a conveying manipulator 11 fall into a blanking through hole 101 to be collected, when all data are detected without errors, the manipulator transfers the products to the right side and simultaneously moves the blanking conveying table 901 towards the blanking through hole 101, the products are placed on the blanking conveying table 901, when the manipulator takes the material next time, the product on the blanking conveying platform 901 is adsorbed and then moved to the blanking rail 10 for product collection and arrangement, and the operation is repeated in a circulating manner.
Compared with the prior art, the shielding shell detection equipment provided by the utility model is respectively provided with six detection stations for detecting six surfaces of the shielding shell, detecting whether the shielding shell has the defects of electroplating whitening, yellowing, watermarks, deformation, oxidation and the like, automatic feeding detection and automatic screening of defective products are adopted, a multi-station detection assembly realizes linkage detection, the detection time is saved, the detection efficiency and quality are improved, the whole process is carried out circularly, the operation is simple and convenient, the labor and time are effectively saved, and the conditions of missed detection, erroneous judgment and the like are not easy to generate.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a shielding case check out test set, includes the workstation, its characterized in that: the workstation from left to right examines test table, second for feed mechanism, first examine test table, second in proper order and examine test table, third and examine test table, the fourth examines test table, fifth and examine test table and unloading mechanism still install the transport manipulator on the workstation and transport the shielding shell between two adjacent stations between first examining test table to unloading mechanism, through first examine test table, second examine test table, third and examine test table, fourth and examine test table, fifth and examine test table, sixth and examine test table and detect six terminal surfaces of shielding shell in proper order, feed mechanism includes vibration dish loading attachment and delivery track, delivery track and first examine the test table and be linked together.
2. The shielding shell detecting apparatus according to claim 1, wherein: the first detection table is used for detecting the upper end surface of the shielding shell and comprises a first detection base and a first CCD light source piece arranged above the first detection base, the first detection base is vertically fixed on the workbench, a first conveying groove arranged along the longitudinal direction is arranged on the upper end surface of the first detection base, the tail end of the first conveying groove is provided with a second conveying groove which is vertically arranged and communicated with the first conveying groove, the second conveying groove penetrates through the left end and the right end of the upper end surface of the first detection base, a first opening is arranged on the left side of the first conveying groove and communicated with the conveying track, the front end of the first detection base is provided with a first material pushing assembly for pushing the shielding shell in the first conveying groove to the second conveying groove, and the left end of the second conveying groove is provided with a second material pushing assembly for pushing the shielding shell in the second conveying groove to the right end.
3. The shield shell detection apparatus according to claim 2, wherein: the first pushing assembly comprises a first air cylinder and a first push rod, the first push rod is in driving connection with the first air cylinder and slides in the first conveying groove, and the first air cylinder is fixed on the first detection base; the second pushing assembly comprises a second cylinder and a second push rod, and the second push rod is in driving connection with the second cylinder and slides in the second conveying groove.
4. The shielding shell detecting apparatus according to claim 1, wherein: the second detects platform and third and detects two terminal surfaces in the front and back that the platform is used for detecting the shield shell, the second detects the platform and includes that the second detects base and second CCD light source spare, second CCD light source spare and workstation fixed connection just detect the front side of base at the second, the third detects the platform and includes that the third detects base and third CCD light source spare, third CCD light source spare just detects the base front side at the third with workstation fixed connection, the second detects the platform and the third detects the structure of platform the same.
5. The shielding shell detecting apparatus according to claim 1, wherein: the fourth detects the platform and is used for detecting the bottom face of shielding shell, the fourth detects the platform and includes that the fourth detects the base and install the fourth CCD light source spare in the fourth detection base below, the fourth detects the base and passes through the installing support to be fixed on the workstation, fourth CCD light source spare is fixed on the installing support.
6. The shielding shell detecting apparatus according to claim 1, wherein: the fifth test bench is used for detecting the left side of shield shell, the fifth test bench includes that the fifth detects base and fifth CCD light source spare, fifth CCD light source spare is installed on the workstation and at the rear side of fifth detection base, the fifth test base includes mount, revolving stage and the first driving motor of drive revolving stage pivoted, the revolving stage is installed in the mount top, mount and workstation fixed connection, first driving motor fixes in the revolving stage below and is connected with the revolving stage drive.
7. The shielding shell detecting apparatus according to claim 1, wherein: the sixth detection platform is used for detecting the right side of the shielding shell, the sixth detection platform comprises a sixth detection base and a sixth CCD light source piece, and the sixth CCD light source piece is fixed on the workbench and is arranged on the front side of the sixth detection base.
8. The shielding shell detecting apparatus according to claim 1, wherein: the right side of workstation is equipped with a blanking through-hole and is used for collecting the defective products, unloading mechanism installs in the front side of blanking through-hole, unloading mechanism carries the unloading driving piece of platform back-and-forth movement including the unloading, the unloading driving piece is connected with the bottom drive of unloading transport platform, the unloading is carried the platform and is removed in the top of blanking through-hole.
9. The shielding shell detecting apparatus according to claim 1, wherein: the carrying manipulator comprises a support rod and a transferring driving assembly for driving the support rod to move left and right, seven suction nozzles with the same structure are arranged on the support rod and are used for carrying the shielding shell from the first detection platform to the blanking mechanism in an adsorption way, the transfer driving component comprises a support frame and a second driving motor arranged above the support frame, the support frame is fixed on the workbench, a guide plate is arranged above the support frame, a drive plate is connected on the guide plate in a sliding way, a guide groove with an upward protruding arc-shaped structure is arranged on the guide plate, the guide plate is also provided with a driving shaft, one end of the driving shaft is coaxially arranged with the guide groove and is in driving connection with a second driving motor through the guide plate, the other end of the driving shaft is fixedly connected with the driving plate, a guide post is installed on the driving shaft and slides in the guide groove, and the lower portion of the driving plate is fixedly connected with the supporting rod through a connecting rod.
10. The shield shell detection apparatus according to claim 9, wherein: the rear side of connecting rod is equipped with slider assembly and support frame sliding connection, slider assembly includes slide rail and slider, the slide rail just fixes on the support frame along the horizontal setting of deflector in the deflector below, the slider slides on the slide rail, be equipped with stopper and connecting rod sliding connection on the slider, the connecting rod passes stopper and bracing piece fixed connection.
CN202122161833.4U 2021-09-08 2021-09-08 Shielding case detection equipment Active CN215695917U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122161833.4U CN215695917U (en) 2021-09-08 2021-09-08 Shielding case detection equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122161833.4U CN215695917U (en) 2021-09-08 2021-09-08 Shielding case detection equipment

Publications (1)

Publication Number Publication Date
CN215695917U true CN215695917U (en) 2022-02-01

Family

ID=80016560

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122161833.4U Active CN215695917U (en) 2021-09-08 2021-09-08 Shielding case detection equipment

Country Status (1)

Country Link
CN (1) CN215695917U (en)

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