CN105599290B - SD card automatic assembly system - Google Patents

SD card automatic assembly system Download PDF

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Publication number
CN105599290B
CN105599290B CN201610191449.XA CN201610191449A CN105599290B CN 105599290 B CN105599290 B CN 105599290B CN 201610191449 A CN201610191449 A CN 201610191449A CN 105599290 B CN105599290 B CN 105599290B
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card
lower cover
upper cover
platform
manipulator
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CN105599290A (en
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乐唐君
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Dongguan Lexin Plastic Products Co ltd
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Dongguan Lexin Plastic Products Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/56Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor using mechanical means or mechanical connections, e.g. form-fits
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/02Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure
    • B29C65/08Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure using ultrasonic vibrations

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Credit Cards Or The Like (AREA)
  • Auxiliary Devices For And Details Of Packaging Control (AREA)

Abstract

The invention discloses an automatic SD card assembling system, which belongs to the field of SD card production and comprises a first conveying belt, a lower cover feeding mechanism, an inner part assembling mechanism, an upper cover feeding mechanism and an ultrasonic welding device, wherein the automatic SD card assembling system can automatically feed, discharge, assemble and weld, can reduce manpower, reduce product production cost, improve production efficiency, can effectively improve the quality of SD cards, and can effectively improve the quality consistency of the SD cards.

Description

SD card automatic assembly system
Technical Field
The invention relates to the field of SD card production, in particular to an automatic SD card assembly system.
Background
The SD card, i.e., a secure digital card, is a new generation of memory devices based on semiconductor flash memories, which are widely used on portable devices such as digital cameras, personal digital assistants, multimedia players, and the like.
The SD card consists of an upper cover, a lower cover, a chip and a switch; traditional SD card equipment process is accomplished through manual operation, firstly with lower cover and chip punching press, and the switch is installed again, covers the upper cover and carries out ultrasonic welding, but manual operation production efficiency, the quality is unstable, and the operation difficulty moreover, especially dress switch, the switch is very fine piece, and the manual installation degree of difficulty is high, and production efficiency is slow.
Disclosure of Invention
In order to solve the problems, the invention provides an automatic SD card assembling system which can automatically assemble an SD card and has high production efficiency.
The technical scheme adopted by the invention is as follows: an automatic SD card assembling system comprises a first conveyer belt, a lower cover feeding mechanism, an inner part assembling mechanism, an upper cover feeding mechanism and an ultrasonic welding device; the lower cover feeding mechanism, the inner part assembling mechanism, the upper cover feeding mechanism and the ultrasonic welding device are sequentially arranged along the first conveying belt;
the first conveyor belt is provided with an SD card carrier for loading the SD card to move for assembly;
the lower cover feeding mechanism comprises a lower cover feeding platform and a lower cover feeding manipulator; the lower cover feeding manipulator is arranged between the lower cover feeding platform and the first conveying belt and moves the lower cover of the SD card to the SD card carrier of the first conveying belt;
the internal part assembling mechanism comprises a chip stamping device and a switch assembling device; the chip stamping device comprises a chip feeding machine and a stamping machine, wherein the chip feeding machine is connected to the first conveying belt to place chips on the SD card lower cover of the SD card carrier, and the stamping machine is arranged above the first conveying belt to stamp and press the chips on the SD card lower cover; the switch loading device comprises a switch feeding vibration disc and a switch loading manipulator, a feeding channel of the switch feeding vibration disc is connected to the lower end of the switch loading manipulator, and the switch loading manipulator is arranged between the first conveying belt and the switch feeding vibration disc so as to load the switch onto the SD card lower cover of the SD card carrier;
the upper cover feeding mechanism comprises an upper cover feeding platform and an upper cover feeding manipulator; the upper cover feeding manipulator is arranged between the upper cover feeding platform and the first conveying belt, and moves the SD card upper cover to the SD card carrier of the first conveying belt, and the SD card upper cover and the SD card lower cover are stacked together;
the ultrasonic welding device is arranged behind the upper cover feeding mechanism so as to weld the SD card upper cover and the SD card lower cover.
In the above technical scheme, the first conveyor belt is a loop-shaped conveyor belt, so that the SD card carrier can be recycled on the first conveyor belt.
In the technical scheme, each corner of the first conveying belt is provided with a corner air cylinder so as to push the SD card carrier to move in a steering way.
In the technical scheme, the lower cover feeding mechanism further comprises a lower cover tray material moving device; the lower cover tray material moving device comprises a lower cover upper disc platform, a lower cover lower disc platform, a lower cover tray moving manipulator and a lower cover material moving manipulator; the lower cover tray is stacked on the lower cover upper tray platform, and is used for placing the SD card lower cover; the station of the lower cover tray moving manipulator spans the lower cover tray loading platform, the lower cover tray moving platform and the lower cover tray unloading platform so as to load and unload the lower cover tray to the lower cover tray moving platform; the lower cover material moving manipulator is arranged between the lower cover tray moving platform and the lower cover material loading platform so as to move the SD card lower cover to the lower cover material loading platform for material loading.
In the technical scheme, the upper cover feeding mechanism further comprises an upper cover tray feeding device; the upper cover tray material moving device comprises an upper cover tray platform, an upper cover tray moving platform, an upper cover tray lower platform, an upper cover tray moving manipulator and an upper cover material moving manipulator; the upper cover tray is stacked on the upper cover upper disc platform, and is used for placing an SD card upper cover; the station of the upper cover tray moving manipulator transversely spans the upper cover tray loading platform, the upper cover tray moving platform and the upper cover tray unloading platform so as to enable the upper cover tray moving platform to be provided with the upper cover tray; the upper cover material moving manipulator is arranged between the upper cover tray moving platform and the upper cover material loading platform so as to move the SD card upper cover to the upper cover material loading platform for material loading.
In the above technical solution, the automatic assembly system for SD card further includes an SD card detection mechanism; the SD card detection mechanism comprises a first detection manipulator, a second detection manipulator, a third detection manipulator, an SD card width and thickness detection device, an SD card circuit detection device and a CCD spring height detection device; the first detection manipulator is arranged between the first conveyor belt and the SD card width and thickness detection device, and is positioned behind the ultrasonic welding device so as to move the SD card finished product to the SD card width and thickness detection device for detection; the second detection manipulator is arranged between the SD card width detection device and the SD card circuit detection device so as to move the SD card finished product to the SD card circuit detection device for circuit detection; the third detection manipulator is arranged between the SD card circuit detection device and the CCD spring height detection device so as to move the SD card finished product to the CCD spring height detection device for spring height detection.
In the technical scheme, the SD card width and thickness detection device comprises a detection inclined table, a first waste box, a second conveying belt and a pushing cylinder; a detection inclined passage is arranged on the inclined plane of the detection inclined table, and the width and thickness of the SD card finished product are detected by the falling speed of the SD card finished product; the detection sloping platform bottom is equipped with abandonment switch mouth, abandonment switch mouth intercommunication first abandonment box to reject unqualified SD card finished product, the second conveyer belt is established between detection sloping platform and SD card circuit detection device, and the SD card finished product is promoted by the promotion cylinder and is removed on the second conveyer belt.
In the above technical scheme, the SD card circuit detection device includes a circuit detector, an open circuit detection seat, a closed circuit detection seat and a circuit detection waste seat; the open circuit detection seat and the closed circuit detection seat are respectively provided with an electric contact point, and the electric contact points are connected with the circuit detection machine so as to detect the switch circuit; the open circuit detection seat and the closed circuit detection seat are also provided with a circuit switch cylinder for pushing the SD card switch to be opened or closed; the seat surface of the circuit detection waste seat is also provided with a waste switch opening, and the waste switch opening is communicated with a circuit detection waste box so as to reject unqualified SD card finished products.
In the technical scheme, the CCD spring height detection device comprises a spring height detection seat, a CCD detector and a spring height waste seat; the CCD detector is arranged on the side edge of the spring height detection seat so as to detect the spring height of the SD card finished product; the seat surface of the circuit detection waste seat is also provided with a waste switch opening, and the waste switch opening is communicated with a circuit detection waste box so as to reject unqualified SD card finished products.
In the technical scheme, the SD card automatic assembly system further comprises a finished product packaging mechanism; the finished product packaging mechanism comprises a packaging manipulator and a packaging platform; the packaging platform is provided with a packaging tray, and the packaging manipulator is arranged between the packaging platform and the CCD spring height detection device so as to put the qualified SD card finished product after detection into the packaging tray on the packaging platform.
The beneficial effects of the invention are as follows: this kind of SD card automatic assembly system, including first conveyer belt, lower cover feed mechanism, internals equipment mechanism, upper cover feed mechanism and ultrasonic welding device, can automatic unloading, equipment and welding, can reduce the manpower, reduce product manufacturing cost, improved production efficiency, can also effectively promote the SD card quality, can effectively improve the SD card quality uniformity.
Drawings
FIG. 1 is a top view of an SD card automatic assembly system according to the present invention;
FIG. 2 is a top view of an SD card carrier of the present invention;
FIG. 3 is a top view of the lower cover loading mechanism of the present invention;
FIG. 4 is a top view of the inner member assembly mechanism of the present invention;
FIG. 5 is a top view of the upper cover loading mechanism of the present invention;
FIG. 6 is a top view of the SD card detection mechanism of the present invention;
FIG. 7 is a top view of the SD card thickness detection device of the present invention;
FIG. 8 is a top view of the SD card circuit detecting device of the present invention;
FIG. 9 is a top view of the CCD spring height detection device of the present invention;
fig. 10 is a top view of the finished packaging mechanism of the present invention.
Detailed Description
The invention is described in further detail below with reference to the accompanying drawings.
Fig. 1 to 10 schematically show an SD card automatic assembly system according to an embodiment of the present invention.
An automatic SD card assembling system comprises a first conveyer belt 1, a lower cover feeding mechanism 2, an inner part assembling mechanism 3, an upper cover feeding mechanism 4, an ultrasonic welding device 5, an SD card detecting mechanism 6 and a finished product packaging mechanism 7. The lower cover feeding mechanism 2, the inner part assembling mechanism 3, the upper cover feeding mechanism 4 and the ultrasonic welding device 5 are sequentially arranged along the first conveyor belt 1.
The first conveyor belt 1 is provided with an SD card carrier 11 for loading SD cards to move for assembly; the first conveyor belt 1 is a loop-shaped conveyor belt, so that the SD card carrier 11 can be recycled on the first conveyor belt; each corner of the first conveyor belt 1 is provided with a corner cylinder 12 to push the SD card carrier 11 to move in a steering way.
The lower cover feeding mechanism 2 comprises a lower cover feeding platform 21 and a lower cover feeding manipulator 22; the lower cover feeding manipulator 22 is arranged between the lower cover feeding platform 21 and the first conveyor belt 1, and moves the lower cover of the SD card to the SD card carrier 11 of the first conveyor belt 1; the lower cover feeding mechanism 2 further comprises a lower cover tray material moving device. The lower cover tray material moving device comprises a lower cover upper tray platform 23, a lower cover tray moving platform 24, a lower cover lower tray platform 25, a lower cover tray moving manipulator 26 and a lower cover material moving manipulator 27; the lower cover upper disc platform 23 stacks a lower cover tray, and the lower cover tray is used for placing an SD card lower cover; the station of the lower cover tray moving manipulator 26 spans the lower cover tray upper platform 23, the lower cover tray moving platform 24 and the lower cover tray lower platform 25 so as to enable the lower cover tray moving platform 24 to go up and down the lower cover tray; the lower cover material moving manipulator 27 is arranged between the lower cover tray moving platform 24 and the lower cover material loading platform 21 so as to move the SD card lower cover to the lower cover material loading platform 21 for material loading.
The internal component assembling mechanism 3 includes a chip pressing device 31 and a mounting switching device 32. The chip stamping device 31 includes a chip feeder 311 and a punch 312, the chip feeder 311 is connected to the first conveyor belt 1 to place chips on the SD card lower cover of the SD card carrier 11, and the punch 312 is provided above the first conveyor belt 1 to press the chips on the SD card lower cover. The switch mounting device 32 comprises a switch feeding vibration plate 321 and a switch mounting manipulator 322, wherein a feeding channel of the switch feeding vibration plate 321 is connected to the lower end of the switch mounting manipulator 322, and the switch mounting manipulator 322 is arranged between the first conveyor belt 1 and the switch feeding vibration plate 321 so as to mount the switch on the SD card lower cover of the SD card carrier 11.
The upper cover feeding mechanism 4 comprises an upper cover feeding platform 41 and an upper cover feeding manipulator 42; the upper cover feeding manipulator 42 is arranged between the upper cover feeding platform 41 and the first conveyor belt 1, and moves the SD card upper cover to the SD card carrier 11 of the first conveyor belt 1, and the SD card upper cover and the SD card lower cover are stacked together; the upper cover feeding mechanism 4 further comprises an upper cover tray material moving device; the upper cover tray material moving device comprises an upper cover upper disc platform 43, an upper cover tray moving platform 44, an upper cover lower disc platform 45, an upper cover tray moving manipulator 46 and an upper cover material moving manipulator 47; the upper cover tray platform 43 stacks an upper cover tray, and the upper cover tray is used for placing an SD card upper cover; the station of the upper cover tray moving manipulator 46 spans the upper cover tray moving platform 43, the upper cover tray moving platform 44 and the upper cover tray moving platform 45 to move the upper cover tray 44 up and down; the upper cover moving manipulator 47 is arranged between the upper cover tray moving platform 44 and the upper cover loading platform 41, so as to move the SD card upper cover to the upper cover loading platform 41 for loading.
The ultrasonic welding device 5 is provided after the upper cover loading mechanism 4 to weld the SD card upper cover and the SD card lower cover.
The SD card detecting mechanism 6 includes a first detecting robot 61, a second detecting robot 62, a third detecting robot 63, an SD card width and thickness detecting device 64, an SD card circuit detecting device 65, and a CCD spring height detecting device 66. The first detecting manipulator 61 is disposed between the first conveyor belt 1 and the SD card width and thickness detecting device 64, and the first detecting manipulator 61 is disposed behind the ultrasonic welding device 5 to move the SD card product to the SD card width and thickness detecting device 64 for detection. The second detection manipulator 62 is a multi-station manipulator, and can perform displacement of a plurality of stations at the same time; the second detecting manipulator 62 is disposed between the SD card width and thickness detecting device 64 and the SD card circuit detecting device 65, so as to move the SD card product to the SD card circuit detecting device 65 for circuit detection. The third detection manipulator 63 is a multi-station manipulator, and can shift a plurality of stations simultaneously; the third detection manipulator 63 is arranged between the SD card circuit detection device 65 and the CCD spring height detection device 66, so as to move the SD card finished product to the CCD spring height detection device 66 for spring height detection. The SD card width and thickness detecting device 64 includes a detecting ramp 641, a first waste box 642, a second conveyor 643, and a pushing cylinder 644; a detection inclined passage is arranged on the inclined surface of the detection inclined table 641, and the width and thickness of the SD card finished product are detected by the falling speed of the SD card finished product; the bottom end of the detection inclined table 641 is provided with a waste switch opening, the waste switch opening is communicated with the first waste box 642 to reject unqualified SD card finished products, the second conveying belt 643 is arranged between the detection inclined table 641 and the SD card circuit detection device 65, and the SD card finished products are pushed by the pushing air cylinder 644 to move on the second conveying belt 643. The SD card circuit detecting device 65 includes a circuit detecting machine 651, an open circuit detecting seat 652, a closing circuit detecting seat 653, and a circuit detecting discard seat 654; the open circuit detection seat 652 and the closed circuit detection seat 653 are provided with electric contact points which are connected with a circuit detection machine to carry out switch circuit detection; the open circuit detection seat 652 and the close circuit detection seat 653 are also provided with a circuit switch cylinder 655 to push the SD card switch to be opened or closed; the seat surface of the circuit detection waste seat 654 is also provided with a waste switch port, and the waste switch port is communicated with a circuit detection waste box 656 so as to reject unqualified SD card finished products. The CCD spring height detection device 66 comprises a spring height detection seat 661, a CCD detector 662 and a spring height discarding seat 663; CCD detector 662 is set at the side of spring height detecting seat 661 to detect the spring height of SD card; the seat surface of the circuit detection waste seat 663 is also provided with a waste switch opening, and the waste switch opening is communicated with a circuit detection waste box 664 so as to reject unqualified SD card finished products.
The finished product packaging mechanism 7 comprises a packaging manipulator 71 and a packaging platform 72; the packing platform 72 is provided with a packing tray, and the packing manipulator 71 is arranged between the packing platform 72 and the CCD spring height detection device 66 so as to put the qualified SD card finished product after detection into the packing tray on the packing platform 72.
In the use of the present invention,
1. SD card lower cover feeding: the lower cover tray moving manipulator 26 moves the lower cover tray of the lower cover tray loading platform 23 onto the lower cover tray moving platform 24, the lower cover material moving manipulator 27 moves the SD card lower cover of the lower cover tray onto the lower cover material loading platform 21, and when the SD card lower cover of the lower cover tray is empty, the lower cover tray moving manipulator 26 moves the lower cover tray onto the lower cover tray loading platform 25; the lower cover loading manipulator 22 moves the SD card lower cover of the lower cover loading platform 21 to the SD card carrier 11 of the first conveyor 1.
2. And (3) assembling inner parts: the first conveyor belt 1 moves the SD card carrier to the chip punching device 31 and the mounting and switching device 32, and sequentially performs chip punching and mounting and switching.
SD card upper cover material loading: the upper cover tray moving manipulator 46 moves the upper cover tray of the upper cover tray moving platform 43 onto the upper cover tray moving platform 44, the upper cover moving manipulator 47 moves the SD card upper cover of the upper cover tray onto the upper cover feeding platform 41, and when the SD card upper cover of the upper cover tray is empty, the upper cover tray moving manipulator 46 moves the upper cover tray onto the upper cover tray lower platform 45; the upper cover loading manipulator 42 moves the SD card upper cover of the upper cover loading platform 41 onto the SD card lower cover on the SD card carrier 11 of the first conveyor 1.
4. Welding: the first conveyor belt 1 moves the SD card carrier 11 to the ultrasonic welding device 5 to weld the SD card upper cover and the SD card lower cover, so as to obtain a finished SD card.
5. And (3) detection: the first detection manipulator 61 moves the SD card to the SD card detection mechanism 6 for detection, and sequentially detects the SD card through the SD card width detection device 64, the SD card circuit detection device 65, and the CCD spring height detection device 66.
6. And (3) packaging: the packaging manipulator 71 places the qualified SD card finished product after detection into a packaging tray on the packaging platform 72.
The foregoing examples are provided for the purpose of illustration only and are not intended to be limiting, and all equivalent changes or modifications made by the method described in the claims are intended to be included within the scope of the present invention.

Claims (8)

1. The SD card automatic assembly system is characterized by comprising a first conveyer belt, a lower cover feeding mechanism, an inner part assembly mechanism, an upper cover feeding mechanism and an ultrasonic welding device; the lower cover feeding mechanism, the inner part assembling mechanism, the upper cover feeding mechanism and the ultrasonic welding device are sequentially arranged along the first conveying belt;
the first conveyor belt is provided with an SD card carrier for loading the SD card to move for assembly;
the lower cover feeding mechanism comprises a lower cover feeding platform and a lower cover feeding manipulator; the lower cover feeding manipulator is arranged between the lower cover feeding platform and the first conveying belt, and moves the SD card lower cover on the lower cover feeding platform to the SD card carrier of the first conveying belt;
the lower cover feeding mechanism further comprises a lower cover tray material moving device; the lower cover tray material moving device comprises a lower cover upper disc platform, a lower cover lower disc platform, a lower cover tray moving manipulator and a lower cover material moving manipulator; the lower cover tray is stacked on the lower cover upper tray platform, and is used for placing the SD card lower cover; the station of the lower cover tray moving manipulator spans the lower cover tray loading platform, the lower cover tray moving platform and the lower cover tray unloading platform so as to move and store the lower cover tray on the lower cover tray moving platform; the lower cover material moving manipulator is arranged between the lower cover tray moving platform and the lower cover material loading platform so as to move the SD card lower cover to the lower cover material loading platform for material loading;
the internal part assembling mechanism comprises a chip stamping device and a switch assembling device; the chip stamping device comprises a chip feeding machine and a stamping machine, wherein the chip feeding machine is connected to the first conveying belt to place chips on the SD card lower cover of the SD card carrier, the stamping machine is arranged above the SD card carrier of the first conveying belt, and the stamping machine is used for stamping the chips on the SD card lower cover; the switch loading device comprises a switch feeding vibration disc and a switch loading manipulator, a feeding channel of the switch feeding vibration disc is connected to the lower end of the switch loading manipulator, the switch loading manipulator is arranged between the first conveying belt and the switch feeding vibration disc, and the switch loading manipulator loads the switch onto the SD card lower cover of the SD card carrier;
the upper cover feeding mechanism comprises an upper cover feeding platform and an upper cover feeding manipulator; the upper cover feeding manipulator is arranged between the upper cover feeding platform and the first conveying belt, the upper cover feeding manipulator moves the SD card upper cover to the SD card carrier of the first conveying belt, and the SD card upper cover and the SD card lower cover are stacked together;
the upper cover feeding mechanism further comprises an upper cover tray material moving device; the upper cover tray material moving device comprises an upper cover tray platform, an upper cover tray moving platform, an upper cover tray lower platform, an upper cover tray moving manipulator and an upper cover material moving manipulator; the upper cover tray is stacked on the upper cover upper disc platform, and is used for placing an SD card upper cover; the station of the upper cover tray moving manipulator transversely spans the upper cover tray loading platform, the upper cover tray moving platform and the upper cover tray unloading platform so as to move and store the upper cover tray on the upper cover tray moving platform; the upper cover material moving manipulator is arranged between the upper cover tray moving platform and the upper cover material loading platform so as to move the SD card upper cover to the upper cover material loading platform for material loading;
the ultrasonic welding device is arranged behind the upper cover feeding mechanism so as to weld the SD card upper cover and the SD card lower cover.
2. The automatic SD card assembling system according to claim 1, wherein: the first conveyor belt is a loop-shaped conveyor belt.
3. The automatic SD card assembling system according to claim 1, wherein: and each corner of the first conveying belt is provided with a corner cylinder.
4. The automatic SD card assembling system according to claim 1, wherein: the SD card automatic assembly system also comprises an SD card detection mechanism; the SD card detection mechanism comprises a first detection manipulator, a second detection manipulator, a third detection manipulator, an SD card width and thickness detection device, an SD card circuit detection device and a CCD spring height detection device; the first detection manipulator is arranged between the first conveyor belt and the SD card width and thickness detection device, and is positioned behind the ultrasonic welding device so as to move the SD card finished product to the SD card width and thickness detection device for detection; the second detection manipulator is arranged between the SD card width detection device and the SD card circuit detection device so as to move the SD card finished product to the SD card circuit detection device for circuit detection; the third detection manipulator is arranged between the SD card circuit detection device and the CCD spring height detection device so as to move the SD card finished product to the CCD spring height detection device for spring height detection.
5. The automatic SD card assembling system of claim 4, wherein: the SD card width and thickness detection device comprises a detection inclined table, a first waste box, a second conveying belt and a pushing cylinder; a detection inclined passage is arranged on the inclined plane of the detection inclined table, and the width and thickness of the SD card finished product are detected by the falling speed of the SD card finished product; the detection sloping platform bottom is equipped with abandonment switch mouth, abandonment switch mouth intercommunication first abandonment box to reject unqualified SD card finished product, the second conveyer belt is established between detection sloping platform and SD card circuit detection device, and the SD card finished product is promoted by the promotion cylinder and is removed on the second conveyer belt.
6. The automatic SD card assembling system of claim 4, wherein: the SD card circuit detection device comprises a circuit detection machine, an open circuit detection seat, a closed circuit detection seat and a circuit detection waste seat; the open circuit detection seat and the closed circuit detection seat are respectively provided with an electric contact point, and the electric contact points are connected with the circuit detection machine so as to detect the switch circuit; the open circuit detection seat and the closed circuit detection seat are also provided with a circuit switch cylinder for pushing the SD card switch to be opened or closed; the seat surface of the circuit detection waste seat is also provided with a waste switch opening, and the waste switch opening is communicated with a circuit detection waste box so as to reject unqualified SD card finished products.
7. The automatic SD card assembling system of claim 4, wherein: the CCD spring height detection device comprises a spring height detection seat, a CCD detector and a spring height waste seat; the CCD detector is arranged on the side edge of the spring height detection seat so as to detect the spring height of the SD card finished product; the seat surface of the circuit detection waste seat is also provided with a waste switch opening, and the waste switch opening is communicated with a circuit detection waste box so as to reject unqualified SD card finished products.
8. The automatic SD card assembling system of claim 4, wherein: the SD card automatic assembly system also comprises a finished product packaging mechanism; the finished product packaging mechanism comprises a packaging manipulator and a packaging platform; the packaging platform is provided with a packaging tray, and the packaging manipulator is arranged between the packaging platform and the CCD spring height detection device so as to put the qualified SD card finished product after detection into the packaging tray on the packaging platform.
CN201610191449.XA 2016-03-30 2016-03-30 SD card automatic assembly system Active CN105599290B (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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CN105599290B true CN105599290B (en) 2023-06-30

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CN105142383B (en) * 2015-08-18 2018-05-22 广东利元亨智能装备有限公司 USB module automatic assembling machine and its assemble method
CN205467353U (en) * 2016-03-30 2016-08-17 东莞市乐鑫塑胶制品有限公司 Automatic equipment system of SD card

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