CN213691982U - Chip assembly feeding and discharging machine - Google Patents

Chip assembly feeding and discharging machine Download PDF

Info

Publication number
CN213691982U
CN213691982U CN202022790382.6U CN202022790382U CN213691982U CN 213691982 U CN213691982 U CN 213691982U CN 202022790382 U CN202022790382 U CN 202022790382U CN 213691982 U CN213691982 U CN 213691982U
Authority
CN
China
Prior art keywords
jig
chip
bin
plate
tool
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202022790382.6U
Other languages
Chinese (zh)
Inventor
温定进
汪林
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Suzhou Mtsity Automation Equipment Co ltd
Original Assignee
Suzhou Mtsity Automation Equipment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Suzhou Mtsity Automation Equipment Co ltd filed Critical Suzhou Mtsity Automation Equipment Co ltd
Priority to CN202022790382.6U priority Critical patent/CN213691982U/en
Application granted granted Critical
Publication of CN213691982U publication Critical patent/CN213691982U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model discloses a chip assembly feeding and discharging machine, comprises a workbench, the left front portion of workstation mesa is equipped with the unloading mechanism in the tool feed bin, the rear side that unloading mechanism was equipped with tool feed bin elevating system in the tool feed bin, tool feed bin elevating system's right side is equipped with gets the tool line body, it is equipped with tool apron opening and shutting mechanism to get the equipment station top of the tool line body, the front side of getting the tool line body is equipped with chip feed mechanism, chip feed mechanism's right side is equipped with gets the chip manipulator and is located, be equipped with bull suction nozzle mechanism on the chip manipulator, but bull suction nozzle mechanism hangs through getting chip manipulator round trip movement and establishes in the top of getting the tool line body and chip feed mechanism, the rear side of getting the tool line body is equipped with the chip and shoots the camera, unloading mechanism one side is equipped with ionic fan on. The utility model discloses rational arrangement, make full use of space, material storage space is sufficient, and personnel operating frequency is low, goes up the unloading time and concentrates, and the commonality is good, and stability is high, and the packaging efficiency is high.

Description

Chip assembly feeding and discharging machine
Technical Field
The utility model belongs to the semiconductor processing field, concretely relates to chip assembly blanking machine for chip tool feed bin about automatic tears open and closes tool apron and equipment chip.
Background
In the semiconductor industry, in order to increase the production speed, a chip assembly loading and unloading machine is generally adopted to complete loading, unloading and lifting of a chip jig bin, disassembling and assembling of a jig cover plate, carrying of chips, assembling of chips and the like.
In order to realize the disassembling and assembling function of the jig cover plate, the chip assembly loading and unloading machine is usually equipped with a jig cover plate disassembling and assembling mechanism. However, most functions of the existing jig cover plate disassembling and assembling mechanism are not complete, the jig cover plate can not be disassembled, the cover plate ejector pin air cylinder acts wrongly, the cover plate ejector pins do not move smoothly, the use effect is not ideal, and therefore the efficiency of chip assembly is greatly reduced.
Meanwhile, in order to realize the chip carrying and transferring function, a chip assembling and feeding machine is usually provided with a multi-head suction nozzle mechanism. However, the existing multi-head suction nozzle mechanism can only carry one chip basically, and if different types of chips are carried, the suction nozzle mechanism needs to be replaced, so that the debugging time is increased, and the labor cost is increased. Moreover, the existing multi-head suction nozzle mechanism is only provided with a chip suction mechanism, but lacks a chip supporting mechanism, so that the chip can fall off in the chip carrying process.
SUMMERY OF THE UTILITY MODEL
The defect to prior art exists, the utility model provides a chip assembly material loading and unloading machine to lifting means's commonality, guarantee stability of operation, the holistic production efficiency of improve equipment.
For solving the technical problem, realize above-mentioned technological effect, the utility model discloses a following technical scheme realizes:
a chip assembly feeding and discharging machine comprises a workbench, and a jig bin feeding and discharging mechanism, a jig bin lifting mechanism, a jig taking line body, a jig cover plate disassembling and assembling mechanism, a chip taking manipulator, a chip feeding mechanism, a chip shooting camera and an ion fan which are arranged on the workbench;
the jig bin feeding and discharging mechanism is positioned at the front left part of the worktable surface, the jig bin lifting mechanism is positioned at the rear side of the jig bin feeding and discharging mechanism and is butted with the tail end of the jig bin feeding and discharging mechanism, the jig taking line body is positioned at the right side of the jig bin lifting mechanism, the left end of the jig taking line body is butted with the jig bin lifting mechanism, the jig cover plate disassembling mechanism is erected above an assembling station of the jig taking line body, the chip feeding mechanism is positioned at the front side of the jig taking line body, the chip taking manipulator is positioned at the right side of the chip feeding mechanism, the chip taking manipulator is provided with a multi-head suction nozzle mechanism, the suction nozzle mechanism is movably suspended above the multi-head jig taking line body and the chip feeding mechanism back and forth through the chip taking manipulator, and the chip shooting camera is positioned at the rear side of the jig taking line body, the ion fan is located between the jig bin feeding and discharging mechanism and the chip feeding mechanism, and the air opening is aligned with the jig bin on the jig bin feeding and discharging mechanism.
Further, the feeding and discharging mechanism of the jig bin is divided into an upper layer and a lower layer, wherein one layer is positioned above the table surface of the working table, the other layer is positioned below the table surface of the working table, and the upper layer and the lower layer are opposite in structure from the front to the back and are respectively used for feeding and discharging; the feeding and discharging mechanism for the jig bin comprises a jig bin conveying line body driven by a speed regulating motor, one side of the jig bin conveying line body is provided with a jig bin stop strip through a jig bin width regulating block, the other side of the jig bin conveying line body is provided with a jig bin side baffle, a ventilation hole is formed in the jig bin side baffle, an ion fan is aligned to the ventilation hole, a jig bin positioning block is arranged at the tail end of the jig bin conveying line body, and a jig bin side pushing block driven by a jig bin side pushing cylinder is arranged on the outer side of the jig bin positioning block.
Further, tool feed bin elevating system includes a root by lead screw servo motor driven lead screw, be provided with a lift module on the slider of lead screw, be provided with a tool feed bin clamping jaw by clamping jaw cylinder driven on the slider of lift module, the direction of motion of lead screw with the direction of delivery of unloading mechanism on the tool feed bin is the same, tool feed bin clamping jaw passes through lift module realizes at a plurality of vertical arrangements the terminal of unloading mechanism reciprocates on the tool feed bin, tool feed bin clamping jaw passes through the lead screw is realized unloading mechanism is terminal on the tool feed bin with get the back and forth movement between the tool line body initiating terminal, the tool clamping jaw passes through lift module realizes the tool feed bin is in get the line body initiating terminal row by row vertical movement.
Further, the jig taking line body comprises a jig slide rail with adjustable width, the starting end of the jig slide rail is butted with the jig bin lifting mechanism, the middle part of the jig slide rail is provided with a chip assembling station, a jig clamping jaw air cylinder which can move back and forth between the starting end of the jig slide rail and the chip assembling station is arranged on the jig slide rail through a transverse linear guide rail, a jig clamping jaw is arranged on the jig clamping jaw air cylinder, a driving belt driven by a driving belt servo motor is arranged on the jig slide rail, the driving belt is parallel to the transverse linear guide rail, the jig clamping jaw air cylinder is fixedly connected with one part of the surface of the driving belt, the left side and the right side of the front end and the rear end of the chip assembling station are respectively provided with a jig lower pressing block through a jig lower pressing air cylinder, one side of the middle part of the chip assembling station is provided with a jig side pushing block through, the front end of the chip assembling station is provided with a jig forward-pushing cylinder driven by a jig forward-pushing jacking cylinder through a front fixing plate, a jig forward-pushing block is arranged on the jig forward-pushing cylinder, and the rear end of the chip assembling station is provided with a jig positioning block driven by a jig positioning jacking cylinder through a rear fixing plate.
Further, the jig slideway comprises a fixed slideway vertical plate and a movable slideway vertical plate, the fixed slideway vertical plate is fixedly connected with the upper surface of a jig slideway bottom plate, two wire body width adjusting trapezoidal screw rod supports are also arranged at the front end and the rear end of the upper surface of the jig slideway bottom plate, a wire body width adjusting trapezoidal screw rod is respectively arranged on the two wire body width adjusting trapezoidal screw rod supports, one end of each wire body width adjusting trapezoidal screw rod is respectively penetrated into the fixed slideway vertical plate, one end of each wire body width adjusting trapezoidal screw rod is connected with a hand wheel after penetrating out of the fixed slideway vertical plate, the other end of each wire body width adjusting trapezoidal screw rod is respectively provided with a wire body width adjusting synchronous wheel, a wire body width adjusting synchronous belt is wound between the two wire body width adjusting synchronous wheels, the jig slide rail comprises a jig slide rail base plate, a movable slide rail vertical plate, a front fixing plate, a rear fixing plate and a jig slide rail base plate, wherein the jig slide rail base plate is provided with a plurality of linear width adjusting synchronous belt tensioning wheels, the linear width adjusting synchronous belt tensioning wheels are fixedly connected with the upper surface of the jig slide rail base plate through linear width adjusting synchronous belt tensioning wheel supports, the movable slide rail vertical plate is slidably arranged on two linear width adjusting trapezoidal lead screws, the front end and the rear end of the movable slide rail vertical plate are respectively in sliding connection with a longitudinal linear guide rail arranged on the upper surface of the jig slide rail base.
Further, the jig cover plate disassembling and assembling mechanism comprises a transverse transplanting module horizontally arranged at the top ends of the two jig cover plate disassembling and assembling mechanism supporting plates, a jig cover plate disassembling and assembling mechanism lifting cylinder is arranged on a sliding block of the transverse transplanting module, a cover plate disassembling and assembling component is arranged on the jig cover plate disassembling and assembling mechanism lifting cylinder, the cover plate disassembling and assembling component is arranged on the jig cover plate disassembling and assembling mechanism lifting cylinder and slides back and forth above the jig taking line body through the transverse transplanting module, and the cover plate disassembling and assembling component is arranged on the jig cover plate disassembling and assembling mechanism lifting cylinder and is capable of moving up and down right above the jig taking line body.
Further, the cover plate disassembling and assembling component comprises a thimble mounting plate with a hollow middle part, a linear bearing mounting plate parallel to the thimble mounting plate is arranged in the hollow structure of the thimble mounting plate, and a cover plate attaching plate parallel to the thimble mounting plate is arranged below the thimble mounting plate; the upper surface of the linear bearing mounting plate is provided with a mechanism mounting plate connected with the lifting cylinder of the jig cover plate disassembling and assembling mechanism, a plurality of linear bearings are vertically arranged on the frame of the linear bearing mounting plate, each linear bearing is provided with a guide shaft, the top of each guide shaft is provided with a limiting lug, and the bottom end of each guide shaft is fixedly connected with the upper surface of the cover plate attaching plate; a plurality of thimble through holes are uniformly formed in the front edge and the rear edge of the cover plate attaching plate, each thimble through hole is internally provided with a thimble capable of sliding up and down, the top end of each thimble is fixedly connected with the bottom surface of the frame of the thimble mounting plate, and the bottom end of each thimble extends out of the lower surface of the cover plate attaching plate; the left half part and the right half part of the linear bearing mounting plate are respectively provided with a thimble cylinder avoiding hole, a thimble cylinder is respectively arranged in the left thimble cylinder avoiding hole and the right thimble cylinder avoiding hole, the bottoms of the left thimble cylinder and the right thimble cylinder are respectively fixedly connected with the upper surface of the cover plate attaching plate, the top push blocks of the two thimble cylinders are respectively fixedly connected with a horizontal connecting block, and two ends of the two horizontal connecting blocks are respectively fixedly connected with the upper surface of the frame of the thimble mounting plate through vertical connecting blocks; the upper surfaces of the left frame and the right frame of the linear bearing mounting plate are respectively provided with a clamping jaw opening and closing cylinder, and the push blocks of the two clamping jaw opening and closing cylinders are respectively provided with a cover plate clamping jaw which is vertically downward; the frame lower surface of apron rigging board evenly is provided with a plurality of magnet mounting groove, the embedded magnet or the vacancy of being equipped with replaceable of magnet mounting groove.
Furthermore, a triangular supporting block is arranged between the mechanism mounting plate and the linear bearing mounting plate, one right-angle side of the triangular supporting block is fixedly connected with one side surface of the mechanism mounting plate, and the other right-angle side of the triangular supporting block is fixedly connected with the upper surface of the linear bearing mounting plate.
Furthermore, the thimbles and the guide shafts are alternately arranged and distributed on the same frame of the cover plate attaching plate; the magnet mounting groove is positioned between the adjacent thimble and the guide shaft; the thimble, the guiding axle with the magnet mounting groove is in arrange on the same frame of apron rigging board and distribute and be a straight line.
Further, the thimble sets up on the inside lug of thimble mounting panel frame medial surface, linear bearing sets up on the outside lug of linear bearing mounting panel frame lateral surface, be located with one side inside lug with outside lug is staggered arrangement, the thimble with the guiding axle passes through inside lug with outside lug staggered arrangement realizes the straight line staggered arrangement on the same frame of apron binding plate.
Furthermore, all be provided with 5 on two frames around the thimble mounting panel the thimble, all be provided with 4 on two frames around the linear bearing mounting panel linear bearing.
Furthermore, on the cover plate attaching plate, 2-3 magnet mounting grooves are formed between the adjacent linear bearings and the ejector pins.
Furthermore, the thimble mounting panel with the both ends are provided with the apron clamping jaw respectively and fold and dodge the hole about the linear bearing mounting panel.
Further, the distance from the upper surface of the claw hook of the cover plate clamping jaw to the lower surface of the cover plate attaching plate at the initial position is not less than the thickness of the jig cover plate.
Furthermore, get chip manipulator and include a robotic arm of setting on the manipulator base, robotic arm's front end is provided with a tool and shoots camera and a bull suction nozzle mechanism that can oscilaltion, bull suction nozzle mechanism passes through robotic arm realizes chip feed mechanism the chip shoot the camera with get round trip movement between the top of the tool line body.
Furthermore, the multi-head suction nozzle mechanism comprises a mechanism mounting block connecting plate, a mechanism mounting block is arranged on the upper surface of the mechanism mounting block connecting plate, a suction nozzle adjusting plate connecting plate is respectively arranged at the front end and the rear end of the lower surface of the mechanism mounting block connecting plate, a suction nozzle adjusting plate is respectively arranged at the left end and the right end of each suction nozzle adjusting plate connecting plate, at least 1 suction nozzle mounting block which is adjustable in position and detachable is arranged in each suction nozzle adjusting plate through a corresponding quick-release adjusting knob, and a vertically downward suction nozzle is arranged at the bottom of each suction nozzle mounting block; a vacuum generator mounting plate extends outwards from the front suction nozzle adjusting plate connecting plate and the rear suction nozzle adjusting plate connecting plate respectively, a vacuum generator is arranged on any one vacuum generator mounting plate, and the vacuum generator is connected with each suction nozzle through a pipeline and a corresponding reversing valve respectively; two around the bottom of suction nozzle regulating plate connecting plate is provided with a ejector pad chip clamping jaw cylinder forward and a ejector pad chip clamping jaw cylinder backward respectively, two around be provided with horizontal clamping jaw fixed block about one on the ejector pad of chip clamping jaw cylinder respectively, two evenly be provided with a plurality of chip clamping jaws on the clamping jaw fixed block respectively.
Further, be provided with on the suction nozzle regulating plate and be convenient for suction nozzle installation piece horizontal slip's waist type hole, the upper portion of suction nozzle installation piece is convenient for be in pivoted cylinder type in the waist type hole, quick detach adjust knob adopts straight line nut knob, the suction nozzle installation piece is through screwing up respective top straight line nut knob matter is in location in the waist type hole.
All the suction nozzle mounting blocks are L-shaped, wherein the bottom of the suction nozzle mounting block positioned on the front side is bent backwards, the bottom of the suction nozzle mounting block positioned on the rear side is bent forwards, and all the suction nozzles are arranged at the corresponding end parts of the transverse plates at the bottoms of the suction nozzle mounting blocks.
Furthermore, each suction nozzle adjusting plate is provided with 3 suction nozzle mounting blocks.
Furthermore, a multi-pipe butt joint fixing plate for fixing a pipeline between the vacuum generator and the suction nozzle is arranged on one of the vacuum generator mounting plates.
Furthermore, all the chip clamping jaws are L-shaped, wherein the bottom of the chip clamping jaw positioned on the front side is bent forwards, and the bottom of the chip clamping jaw positioned on the rear side is bent forwards.
Furthermore, each clamping jaw fixed block all is provided with 4 the clamping jaw.
Further, the height difference between the upper surface of the transverse plate at the bottom of the chip clamping jaw and the bottom end of the suction nozzle is equal to or slightly larger than the thickness of the chip.
Further, when the pushing blocks of the front and rear chip clamping jaw air cylinders are completely extended out, the distance between the front and rear corresponding chip clamping jaws is larger than the width of the chip with the maximum design specification; when the pushing blocks of the front chip clamping jaw air cylinder and the rear chip clamping jaw air cylinder are completely contracted, the distance between the front chip clamping jaw and the rear chip clamping jaw is smaller than the width of the chip with the minimum design specification.
Further, the chip feeding mechanism comprises a horizontal chip upper bin frame, the chip upper bin frame is detachably provided with a chip upper bin and a partition lower bin on the upper surface of the chip upper bin frame, the peripheral edges of the chip upper bin and the partition lower bin are respectively provided with a stop post, the left end and the right end of the chip upper bin frame are respectively provided with a correlation sensor for detecting whether the chip and the partition are in a horizontal state, the lower surface of the chip upper bin frame is connected through a slide block of a rodless cylinder, the motion direction of the rodless cylinder is the same as that of the jig bin feeding mechanism, the left side and the right side of the rodless cylinder are respectively provided with a chip feeding mechanism moving guide rail in parallel, and the slide block of the chip feeding mechanism moving guide rail is fixedly connected with the lower surface of the chip upper bin frame, the chip loading mechanism moving guide rail with be provided with a plurality of displacement sensor that are used for detecting between the rodless cylinder on the chip feed bin with feed bin shift position under the baffle, the bottom of feed bin on the chip is provided with feed bin climbing mechanism on the chip.
The utility model has the advantages that:
1. the utility model discloses rational arrangement, make full use of space, material storage space is sufficient, and personnel operating frequency is low, goes up the unloading time and concentrates, has improved the packaging efficiency greatly.
2. The utility model discloses a feeding mechanism in tool feed bin is two-layer about divideing into, goes up the unloading respectively, make full use of the space, also guarantee personnel and go up unloading in a position, and feeding mechanism adopts width adjustable mechanism on the tool feed bin, applicable feed bin in multiple style.
3. The utility model discloses a tool feed bin elevating system adopts X/Z axle lead screw module, and the cooperation is got the material clamping jaw and is gone up unloading mechanism in the tool feed bin and get and put the tool feed bin to carry out the tool and plug into the position and go up and down on getting the tool line body, can plug into a position height adjustment according to the product difference, be applicable to multiple tool feed bin.
4. The utility model discloses a get the width of the tool line body and can adjust according to the tool type, get the tool clamping jaw and can directly stretch into in the tool feed bin and press from both sides and get the tool and transplant to equipment chip station. The jig side-pushing mechanism moves along with the adjustable plate, so that debugging actions are reduced when the line width is adjusted. Get the tool clamping jaw and adopt flexible contact, reduce because of tool feed bin appearance error, lead to tool high position deviation in the line body, reduce the damage to the product, increase the atress contact surface.
5. The utility model discloses a tool apron opening and shutting mechanism adopts magnet to absorb the apron, has got the clamping jaw mechanism that increases the support end after, avoids the apron to drop in the motion of tool apron opening and shutting mechanism, reduces the danger degree. When the cover plate is closed, the cover plate thimble cylinder is adopted to overcome the attraction of the magnet, so that the cover plate is separated from the cover plate detaching mechanism when the cover plate is closed. Meanwhile, the magnet adopted by the jig cover plate disassembling and assembling mechanism is a common magnet, and the number of the magnets can be adjusted according to the weight and the size of the jig cover plate.
6. The utility model discloses a feed bin mechanism on chip adopts feed bin and baffle feed bin separately design on the chip, makes things convenient for personnel to operate, and personnel's maloperation can be avoided to a plurality of sensors in its middle part, guarantees life safety. The guide pillar around the storage bin adopts a fixing hole, so that the length and the width of the storage bin can be conveniently adjusted by the guide pillar. The correlation sensor on feed bin both sides can detect whether the chip levels, and whether the feed bin is full material or empty material, in time reminds personnel to go up unloading etc.. The feed bin moves to the material taking position on the chip, and the chip ascends in sequence through the self jacking mechanism, so that the action of the manipulator is reduced.
7. The utility model discloses a get chip manipulator and adopt a plurality of suction nozzles and L type supporting shoe, the bull suction nozzle subassembly that absorbs the chip adopts each 6 suction nozzles in both sides, and the suction nozzle regulating plate adopts bar hole or waist type hole, makes things convenient for the position control of suction nozzle. The upper part of the L-shaped suction nozzle fixing block adopts a cylindrical design, is connected with the suction nozzle adjusting plate and adopts waist-shaped matching, can ensure that the suction nozzle rotates 360 degrees and is adjustable left and right. The suction nozzle is additionally provided with the reversing valve, so that the suction nozzle is suitable for taking materials from various new products. After the chip is taken by the multi-head suction nozzle assembly, the mechanism rises to a certain height, and the clamping jaw air cylinder retracts to enable the L-shaped supporting block to support the bottom of the chip so as to avoid the risk of chip falling off due to other uncertain factors in the process of carrying.
8. Consider the injury problem of static to the chip, the utility model discloses a static-removing equipment, the neutralization apparatus static.
The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:
fig. 1 is a perspective view of a chip assembling and feeding machine according to the present invention;
fig. 2 is a top view of the chip assembling and feeding machine of the present invention;
fig. 3 is a perspective view of the feeding and discharging mechanism of the jig bin of the present invention;
fig. 4 is a perspective view of the lifting mechanism of the jig bin of the present invention;
fig. 5 is a perspective view of the jig taking line body of the present invention;
fig. 6 is a perspective view of the cover plate detaching mechanism of the jig of the present invention;
FIG. 7 is a schematic view of the upper structure of the center cover plate opening and closing assembly of the present invention;
FIG. 8 is a schematic view of the lower structure of the center cover plate opening and closing assembly of the present invention;
FIG. 9 is a perspective view of the chip picking robot of the present invention;
FIG. 10 is a schematic bottom view of the multi-head nozzle mechanism of the present invention;
FIG. 11 is a bottom view of the multi-head nozzle mechanism of the present invention;
fig. 12 is a perspective view of the chip feeding mechanism of the present invention.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. The description as set forth herein is intended to provide a further understanding of the invention and forms a part of this application and the exemplary embodiments and descriptions thereof are presented for purposes of illustration and description and are not intended to limit the invention in any way.
Referring to fig. 1-2, a chip assembly feeding and discharging machine comprises a workbench 1, and a jig bin feeding and discharging mechanism 2, a jig bin lifting mechanism 3, a jig taking line body 4, a jig cover plate opening and closing mechanism 5, a chip taking manipulator 6, a chip feeding mechanism 7, a chip shooting camera 8 and an ion fan 9 which are arranged on the workbench 1.
The jig bin feeding and discharging mechanism 2 is positioned at the left front part of the table-board of the workbench 1, the jig bin lifting mechanism 3 is positioned at the rear side of the jig bin feeding and discharging mechanism 2 and is butted with the tail end of the jig bin feeding and discharging mechanism 2, the jig taking wire body 4 is positioned at the right side of the jig bin lifting mechanism 3, the left end of the jig taking wire body 4 is butted with the jig bin lifting mechanism 3, the jig cover plate disassembling mechanism 5 is erected above an assembling station of the jig taking wire body 4, the chip feeding mechanism 7 is positioned at the front side of the jig taking wire body 4, the chip taking manipulator 6 is positioned at the right side of the chip feeding mechanism 7, the chip taking manipulator 6 is provided with a multi-head suction nozzle mechanism 11, and the multi-head suction nozzle mechanism 11 is movably suspended above the jig taking wire body 4 and the chip feeding mechanism 7 back and forth through the chip taking manipulator 6, the chip shooting camera 8 is located on the rear side of the jig taking line body 4, the ion fan 9 is located between the jig bin feeding and discharging mechanism 2 and the chip feeding mechanism 7, and an air opening is aligned with a jig bin 10 on the jig bin feeding and discharging mechanism 2.
Further, referring to fig. 3, the feeding and discharging mechanism 2 of the jig bin is divided into an upper layer and a lower layer, one layer is located above the table top of the workbench 1, the other layer is located below the table top of the workbench 1, and the upper layer and the lower layer have opposite structures, and are respectively fed and discharged; taking the upper layer as an example, the feeding and discharging mechanism 2 of the jig bin comprises a jig bin conveying line body 14 driven by a speed regulation motor 13, one side of the jig bin conveying line body 14 is provided with a jig bin stop strip 16 through a jig bin width regulation block 15, the other side of the jig bin conveying line body 14 is provided with a jig bin side baffle 17, a vent 18 is arranged on the jig bin side baffle 17, the ion fan 9 is aligned to the vent 18, the tail end of the jig bin conveying line body 14 is provided with a jig bin positioning block 19, and the outer side of the jig bin positioning block 19 is provided with a jig bin side push block 20 driven by a jig bin side push cylinder.
Further, referring to fig. 4, the jig bin lifting mechanism 3 comprises a screw 22 driven by a screw servo motor 21, a lifting module 23 is arranged on the slide block of the screw rod 22, a jig bin clamping jaw 24 driven by a clamping jaw cylinder is arranged on the slide block of the lifting module 23, the moving direction of the screw rod 22 is the same as the conveying direction of the feeding and discharging mechanism 2 of the jig bin, the jig bin clamping jaw 24 moves up and down at the tail end of the feeding and discharging mechanism 2 of the plurality of vertically arranged jig bins through the lifting module 23, the jig bin clamping jaw 24 moves back and forth between the tail end of the feeding and discharging mechanism 2 of the jig bin and the starting end of the jig taking line body 4 through the screw rod 22, the jig bin clamping jaw 24 realizes that the jig bin 10 is in the line-by-line vertical movement of the starting end of the jig taking line body 4 through the lifting module 23.
Further, as shown in fig. 5, the jig taking line 4 includes a jig slide 25 with adjustable width, the start end of the jig slide 25 is in butt joint with the jig bin lifting mechanism 3, the middle part of the jig slide 25 is provided with a chip assembling station, the jig slide 25 is provided with a jig clamping jaw air cylinder 27 capable of moving back and forth between the start end of the jig slide 25 and the chip assembling station through a transverse linear guide 26, the jig clamping jaw air cylinder 27 is provided with a jig clamping jaw 28, the jig slide 25 is provided with a transmission belt 30 driven by a transmission belt servo motor 29, the transmission belt 30 is parallel to the transverse linear guide 26, the jig clamping jaw air cylinder 27 is fixedly connected with one part of the surface of the transmission belt 30, the left side and the right side of the front end and the rear end of the chip assembling station are respectively provided with a jig press block 32 through a jig press-down air cylinder 31, one side at chip assembly station middle part is provided with a tool side push block 34 through tool side push cylinder 33, the front end of chip assembly station is provided with a tool forward push cylinder driven by tool forward push jacking cylinder 36 through preceding fixed plate 35, be provided with tool forward push block 37 on the tool forward push cylinder, the rear end of chip assembly station is provided with a tool locating piece 40 driven by tool location jacking cylinder 39 through after-fixing plate 38.
Further, referring to fig. 5, the jig slide 25 includes a fixed slide vertical plate and a movable slide vertical plate, the fixed slide vertical plate is fixedly connected to an upper surface of a jig slide bottom plate 41, two wire width adjusting trapezoidal lead screw supports 42 are further provided at front and rear ends of the upper surface of the jig slide bottom plate 41, a wire width adjusting trapezoidal lead screw 43 is respectively provided on each of the two wire width adjusting trapezoidal lead screw supports 42, one end of each of the two wire width adjusting trapezoidal lead screws 43 is respectively inserted into the fixed slide vertical plate, one end of each of the wire width adjusting trapezoidal lead screws 43 is connected to a hand wheel 44 after penetrating through the fixed slide vertical plate, the other end of each of the two wire width adjusting trapezoidal lead screws 43 is respectively provided with a wire width adjusting synchronous wheel 45, and a wire width adjusting synchronous belt 46 is wound between the two wire width adjusting synchronous wheels 45, a line width adjusting synchronous belt tensioning wheel 47 is arranged on the line width adjusting synchronous belt 46, the line width adjusting synchronous belt tensioning wheel 47 is fixedly connected with the upper surface of the jig slide base plate 41 through a line width adjusting synchronous belt tensioning wheel support 48, the movable slide vertical plate is slidably arranged on the two line width adjusting trapezoidal screw rods 43, the front end and the rear end of the movable slide vertical plate are respectively in sliding connection with a longitudinal linear guide 49 arranged on the upper surface of the jig slide base plate 41, and the front fixing plate 35 and the rear fixing plate 38 are respectively arranged on the upper surface of the jig slide base plate 41 in a front-rear position adjustable manner.
Further, as shown in fig. 6, the jig cover plate opening and closing mechanism 5 includes a transverse transplanting module 52 horizontally disposed on top ends of two jig cover plate opening and closing mechanism support plates 51, a jig cover plate opening and closing mechanism lifting cylinder 53 is disposed on a slider of the transverse transplanting module 52, a cover plate opening and closing assembly 54 is disposed on the jig cover plate opening and closing mechanism lifting cylinder 53, the cover plate opening and closing assembly 54 slides back and forth above the jig taking body 4 through the transverse transplanting module 52, and the cover plate opening and closing assembly 54 moves up and down directly above the jig taking body 4 through the jig cover plate opening and closing mechanism lifting cylinder 53.
Further, referring to fig. 7-8, the cover plate detaching and combining component 54 includes a thimble mounting plate 55 with a hollow center, a linear bearing mounting plate 56 parallel to the thimble mounting plate 55 is disposed in the hollow structure of the thimble mounting plate 55, and a cover plate attaching plate 57 parallel to the thimble mounting plate 55 is disposed below the thimble mounting plate 55; the upper surface of the linear bearing mounting plate 56 is provided with a mechanism mounting plate 58 connected with the jig cover plate opening and closing mechanism lifting cylinder 53, a plurality of linear bearings 59 are vertically arranged on the frame of the linear bearing mounting plate 56, each linear bearing 59 is provided with a guide shaft 60, the top of each guide shaft 60 is provided with a limiting bump 61, and the bottom end of each guide shaft 60 is fixedly connected with the upper surface of the cover plate binding plate 57; a plurality of thimble through holes are uniformly formed in the front edge and the rear edge of the cover plate attachment plate 57, a thimble 62 capable of sliding up and down is arranged in each thimble through hole, the top end of the thimble 62 is fixedly connected with the bottom surface of the frame of the thimble mounting plate 55, and the bottom end of the thimble 62 extends out of the lower surface of the cover plate attachment plate 57; the left half part and the right half part of the linear bearing mounting plate 56 are respectively provided with a thimble cylinder avoiding hole 63, the left thimble cylinder avoiding hole 63 and the right thimble cylinder avoiding hole 63 are respectively provided with a thimble cylinder 64, the bottoms of the left thimble cylinder 64 and the right thimble cylinder 64 are respectively fixedly connected with the upper surface of the cover plate attaching plate 57, the top push blocks of the two thimble cylinders 64 are respectively fixedly connected with a horizontal connecting block 65, and two ends of the two horizontal connecting blocks 65 are respectively fixedly connected with the upper surface of the frame of the thimble mounting plate 55 through vertical connecting blocks 66; the upper surfaces of the left frame and the right frame of the linear bearing mounting plate 56 are respectively provided with a clamping jaw opening and closing cylinder 67, and the pushing blocks of the two clamping jaw opening and closing cylinders 67 are respectively provided with a cover plate clamping jaw 68 which vertically faces downwards; the lower surface of the frame of the cover plate attaching plate 57 is uniformly provided with a plurality of magnet mounting grooves 69, and replaceable magnets 70 or vacant magnets are embedded in the magnet mounting grooves 69.
Further, a triangular support block 71 is arranged between the mechanism mounting plate 58 and the linear bearing mounting plate 56, one right-angle side of the triangular support block 71 is fixedly connected with one side surface of the mechanism mounting plate 58, and the other right-angle side of the triangular support block 71 is fixedly connected with the upper surface of the linear bearing mounting plate 56.
Further, the thimble 62 and the guiding axle 60 are alternately arranged and distributed on the same frame of the cover plate attaching plate 57; the magnet mounting groove 69 is located between the adjacent thimble 62 and the guide shaft 60; the thimble 62, the guide shaft 60 and the magnet mounting groove 69 are arranged and distributed on the same frame of the cover plate attaching plate 57 in a straight line.
Further, the thimble 62 is disposed on the inward protrusion 72 on the inner side of the frame of the thimble mounting plate 55, the linear bearing 59 is disposed on the outward protrusion 73 on the outer side of the frame of the linear bearing mounting plate 56, the inward protrusion 72 and the outward protrusion 73 on the same side are staggered, and the thimble 62 and the guide shaft 60 are linearly and alternately arranged on the same frame of the cover plate bonding plate 57 by staggering the inward protrusion 72 and the outward protrusion 73.
Further, the front and rear frames of the thimble mounting plate 55 are provided with 5 thimbles 62, and the front and rear frames of the linear bearing mounting plate 56 are provided with 4 linear bearings 59.
Furthermore, 2-3 magnet installation grooves 69 are formed in the cover plate attachment plate 57 between the adjacent linear bearings 59 and the thimble 62.
Further, referring to fig. 9, the chip taking manipulator 6 includes a manipulator arm 75 disposed on a manipulator base 74, a jig shooting camera 76 and a multi-head suction nozzle mechanism 11 capable of ascending and descending are disposed at a front end of the manipulator arm 75, and the multi-head suction nozzle mechanism 11 is configured to move back and forth between the chip feeding mechanism 7, the chip shooting camera 8 and an upper side of the jig taking line 4 through the manipulator arm 75.
Further, referring to fig. 10-11, the multi-head nozzle mechanism 11 includes a mechanism mounting block connecting plate 77, a mechanism mounting block 78 is disposed on an upper surface of the mechanism mounting block connecting plate 77, a nozzle adjusting plate connecting plate 79 is disposed at front and rear ends of a lower surface of the mechanism mounting block connecting plate 77, a nozzle adjusting plate 80 is disposed at left and right ends of each nozzle adjusting plate connecting plate 79, at least 1 nozzle mounting block 82 with adjustable and detachable positions is disposed in each nozzle adjusting plate 80 through a corresponding quick-release adjusting knob 81, and a vertically downward nozzle 83 is disposed at a bottom of each nozzle mounting block 82; a vacuum generator mounting plate 84 extends outwards from the front suction nozzle adjusting plate connecting plate 79 and the rear suction nozzle adjusting plate connecting plate 79 respectively, a vacuum generator 85 is arranged on any vacuum generator mounting plate 84, and the vacuum generator 85 is connected with each suction nozzle 83 through a pipeline and a corresponding reversing valve 91 respectively; the bottom of the suction nozzle adjusting plate connecting plate 79 is provided with a chip clamping jaw air cylinder 86 with a pushing block facing forward and a chip clamping jaw air cylinder 86 with a pushing block facing backward respectively, the pushing block of the chip clamping jaw air cylinder 86 is provided with a left clamping jaw fixing block 87 and a right clamping jaw fixing block 87 which are horizontal, and the clamping jaw fixing blocks 87 are evenly provided with a plurality of chip clamping jaws 88 respectively.
Further, be provided with on the suction nozzle regulating plate 80 and be convenient for suction nozzle installation piece 82 horizontal slip's waist type hole 89, the upper portion of suction nozzle installation piece 82 is convenient for be in waist type downthehole pivoted cylinder type, quick detach adjust knob 81 adopts straight line nut knob, suction nozzle installation piece 82 is through screwing up respective top straight line nut knob matter is in location in the waist type hole.
All the suction nozzle mounting blocks 82 are L-shaped, wherein the bottom of the suction nozzle mounting block 82 located at the front side is bent backwards, the bottom of the suction nozzle mounting block 82 located at the rear side is bent forwards, and all the suction nozzles 83 are arranged at the end parts of the transverse plates at the bottoms of the corresponding suction nozzle mounting blocks 82.
Further, each of the nozzle adjusting plates 80 is provided with 3 nozzle mounting blocks 82.
Further, one of the vacuum generator mounting plates 84 is provided with a multi-pipe butt joint fixing plate 90 for fixing a pipe between the vacuum generator 85 and the suction nozzle 83.
Further, all the chip holding claws 88 are L-shaped, wherein the bottom of the chip holding claw 88 located on the front side is bent forward, and the bottom of the chip holding claw 88 located on the rear side is bent forward.
Furthermore, each of the jaw fixing blocks 87 is provided with 4 chip jaws 88.
Further, the height difference between the upper surface of the transverse plate at the bottom of the chip clamping jaw 88 and the bottom end of the suction nozzle 83 is equal to or slightly larger than the thickness of the chip.
Further, when the pushing blocks of the front and rear chip clamping jaw cylinders 86 are completely extended, the distance between the front and rear corresponding chip clamping jaws 88 is greater than the width of the chip with the maximum design specification; when the pushing blocks of the front and rear chip clamping jaw air cylinders 86 are completely contracted, the distance between the front and rear corresponding chip clamping jaws 88 is smaller than the width of the chip with the minimum design specification.
Further, referring to fig. 12, the chip feeding mechanism 7 includes a horizontal chip upper bin frame 92, the chip upper bin frame 92, an upper surface of the chip upper bin frame 92 is detachably provided with a chip upper bin 93 and a partition lower bin 94, the edges of the peripheries of the chip upper bin 93 and the partition lower bin 94 are respectively provided with a blocking column 95, the left and right ends of the chip upper bin frame 92 are respectively provided with a correlation sensor 96 for detecting whether the chip and the partition are in a horizontal state, the lower surface of the chip upper bin frame 92 is connected through a slider of a rodless cylinder 97, the movement direction of the rodless cylinder 97 is the same as the movement direction of the jig bin feeding mechanism 2, the left and right sides of the rodless cylinder 97 are respectively provided with a chip feeding mechanism moving guide rail 98 in parallel, the slider of the chip feeding mechanism moving guide rail 98 is fixedly connected with the lower surface of the chip upper bin frame 92, a plurality of displacement sensors 99 for detecting the moving positions of the chip upper bin 93 and the partition lower bin 94 are arranged between the chip loading mechanism moving guide rail 98 and the rodless cylinder 97, and a chip upper bin jacking mechanism 100 is arranged at the bottom of the chip upper bin 93.
The utility model discloses a theory of operation and working process as follows:
referring to fig. 1-2, the general working process of the present invention is that, the chips to be assembled are placed in the chip feeding mechanism 7 in order, and two adjacent chips are separated by a partition plate, and meanwhile, the fixture bin filled with empty fixtures is placed in order on the upper fixture bin feeding and discharging mechanism 2, and the ion fan 9 supplies air to the fixture bin; the tool bin lifting mechanism 3 clamps and moves the tool bin 10 positioned at the tail end of the tool bin feeding and discharging mechanism 2 to the starting end of the tool taking line 4, then the tool bin lifting mechanism 3 aligns the first layer of the clamped tool bin 10 to the connection position of the starting end of the tool taking line 4, then the tool taking line 4 picks up the first layer of the tool 12 in the tool bin and brings the first layer of the tool to the chip assembling station, the tool cover plate disassembling and assembling mechanism 5 opens the cover plate of the tool, the chip taking manipulator 6 sucks a chip 50 in the chip feeding mechanism 7 and moves the chip 50 to the chip shooting camera 8 for shooting, the manipulator position compensation is carried out, then the chip taking manipulator 6 drives the chip 50 to move above the chip assembling station, the tool is shot by the tool shooting camera 76 on the chip taking manipulator 6, the manipulator position compensation is carried out, the chip is placed into the tool on the chip assembling station by the chip taking manipulator 6, the jig cover plate disassembling and assembling mechanism 5 covers the cover plate on the jig again, the jig with the assembled chips is pushed into the jig bin 10 by the jig line body 4, the chip assembly is completed once, then the jig bin lifting mechanism 3 lifts the jig bin 10 by the distance of one layer of jig thickness, the chip assembly is performed for the second time, the chip assembly is completed until all the jigs in the jig bin 10 on the jig bin lifting mechanism 3, finally, the jig bin lifting mechanism 3 sends the assembled jig bin 10 into the lower layer of jig bin, the unloading of the jig bin 10 is completed on the unloading mechanism 2, and the unloading mechanism 2 which returns to the upper layer of jig bin waits for the loading of the second jig bin 10.
Referring to fig. 3, the feeding and discharging mechanism 2 of the jig bin is divided into an upper layer and a lower layer, wherein one layer is positioned above the table surface of the workbench 1, the other layer is positioned below the table surface of the workbench 1, and the upper layer and the lower layer are opposite in structure and are respectively fed and discharged; 5 groups of jig bins 10 can be placed on a jig bin conveying line body 14 of the jig bin feeding and discharging mechanism 2 at one time, and the width of the line body can be adjusted through a stop strip and a jig bin width adjusting block 15 so as to meet the requirements of jig bins 10 of different sizes; when the jig bin conveying line body 14 moves the first jig bin 10 to the tail end of the jig bin conveying line body 14 under the driving of the speed regulating motor 13, the rear side of the jig bin 10 is blocked by the jig bin positioning block 19, meanwhile, the sensor senses that the jig bin 10 is in place, and then the jig bin side push block 20 laterally pushes against the jig bin 10 under the driving of the jig bin side push cylinder to position the jig bin 10.
Referring to fig. 4, after a first jig bin 10 is positioned on the jig bin feeding and discharging mechanism 2, the lifting module 23 of the jig bin lifting mechanism 3 drives the jig bin clamping jaw 24 to move to the end of the jig bin conveying line body 14 of the jig bin feeding and discharging mechanism 2 on the upper layer, the jig bin clamping jaw 24 clamps the positioned first jig bin 10 under the driving of the clamping jaw cylinder, after the clamping jaw sensor detects the jig bin 10, the jig bin side pushing block 20 of the jig bin feeding and discharging mechanism 2 on the upper layer is loosened, then the lead screw 22 drives the lifting module 23 and the jig bin clamping jaw 24 to move backwards under the driving of the lead screw servo motor 21, so that the first jig bin 10 moves to the connection position of the starting end of the jig taking line body 4.
Referring to fig. 5, the jig slide 25 of the jig wire body 4 can be adjusted in width by shaking the hand wheel 44 to meet the requirements of jigs of different sizes; when the first jig bin 10 moves to the connection position of the start end of the jig taking line body 4, the transmission belt servo motor 29 works to drive the transmission belt 30 to rotate, the jig clamping jaw air cylinder 27 of the jig taking line body 4 and the jig clamping jaws 28 move to the connection position of the start end of the jig taking line body 4 along the transverse linear guide rail 26 under the driving of the transmission belt 30, the jig clamping jaw air cylinder 27 drives the jig clamping jaws 28 to clamp the first layer of jigs 12 in the first jig bin 10, then the transmission belt servo motor 29 works in the reverse direction to drive the transmission belt 30 to rotate, and the jig clamping jaw air cylinder 27, the jig clamping jaws 28 and the jigs 12 move to the chip assembling station on the jig slide rail 25 along the transverse linear guide rail 26 under the driving of the transmission belt 30; after the jig 12 is in place, the jig pressing cylinders 31 on the left side and the right side at the front end and the rear end of the chip assembling station respectively drive the respective jig pressing blocks 32 to press the upper surface edge of the jig 12, meanwhile, the jig side pushing cylinder 33 in the middle of the chip assembling station drives the jig side pushing block 34 to inwards push against the side edge of the jig 12, the jig positioning jacking cylinder 39 at the rear end of the chip assembling station drives the jig positioning block 40 to lift to block the rear end of the jig 12, the jig front pushing jacking cylinder 36 at the front end of the chip assembling station drives the jig front pushing block 37 to lift to push against the front end of the jig 12, and therefore the positioning of the jig 12 on the chip assembling station is completed.
Referring to fig. 6-8, after the transverse transplanting module 52 of the jig cover plate opening and closing mechanism 5 moves the jig cover plate opening and closing mechanism lifting cylinder 53 and the cover plate opening and closing assembly 54 to the upper side of the chip assembling station, the jig cover plate opening and closing mechanism lifting cylinder 53 drives the cover plate opening and closing assembly 54 to descend, the cover plate attaching plate 57 of the cover plate opening and closing assembly 54 is firstly attached to the cover plate of the jig 12, the ejector pins 62 on the ejector pin mounting plate 55 are inserted into the positioning holes of the cover plate to position the cover plate, the magnet 70 on the cover plate attaching plate 57 attracts the cover plate, then the left and right clamping jaw opening and closing cylinders 67 respectively drive the corresponding cover plate clamping jaws 68 to move inwards until the cover plate bottom surface is inserted and supports are provided, and finally the transverse transplanting module 52 drives the jig cover plate opening and closing mechanism lifting cylinder 53 and the cover plate opening.
Referring to fig. 9-12, when the jig 12 opens the cover plate at the chip assembling station, the chip taking manipulator 6 moves the multi-head suction nozzle mechanism 11 to a position above the chip loading bin 93 of the chip loading mechanism 7 through the manipulator 75, and then the manipulator 75 drives the multi-head suction nozzle mechanism 11 to descend to suck one chip 50 from the chip loading bin 93. The suction nozzle 83 of the multi-head suction nozzle mechanism 11 should be adjusted in distance in advance by the quick-release adjusting knob 81, the suction nozzle mounting block 82 and the suction nozzle adjusting plate 80, so as to meet the size requirement of the chip 50 to be sucked. The suction nozzle 83 sucks the chip 50 through the vacuum generator 85 in a vacuum manner, and after the chip is sucked, the two chip clamping jaw air cylinders 86 respectively drive the two chip clamping jaws 88 to fold and extend into the bottom of the chip 50 to provide support.
Referring to fig. 1-2, after the multi-head suction nozzle mechanism 11 sucks a chip 50, the chip 50 is moved to the chip shooting camera 8 by the robot arm 75 to shoot the chip 50 for position compensation, then the chip 50 is moved to the position above the jig 12 located at the chip assembling station by the robot arm 75, the jig shooting camera 76 on the robot arm 75 shoots the jig 12 to perform the robot arm position compensation, and finally the chip 50 is placed into the jig 12 with the cover plate opened for chip assembly.
Referring to fig. 9-12, the two chip gripper cylinders 86 respectively drive the two chip grippers 88 to open until the bottom of the chip 50 is completely extended, the vacuum generator 85 stops vacuuming, the suction nozzle 83 does not generate suction force on the chip 50, the multi-head suction nozzle mechanism 11 is moved by the robot arm 75 to the position above the chip loading bin 93 of the chip loading mechanism 7 again to suck the partition below the previous chip 50 and move the partition to the partition unloading bin 94 beside the chip loading bin 93, and then the chip loading bin jacking mechanism 100 jacks the chip loading bin 93 up by one layer to wait for the next chip suction.
Referring to fig. 6-8, after the chip is placed in the jig 12, the transverse transplanting module 52 moves the cover plate from the waiting position to the upper side of the jig 12 by driving the jig cover plate opening and closing mechanism lifting cylinder 53 and the cover plate opening and closing assembly 54, the jig cover plate opening and closing mechanism lifting cylinder 53 descends by driving the cover plate opening and closing assembly 54, the left and right clamping jaw opening and closing cylinders 67 respectively drive the corresponding cover plate clamping jaws 68 to open outwards until the cover plate clamping jaws extend out of the bottom surface of the cover plate, and the cover plate is covered on the jig 12 with the chip, then the cover plate opening and closing mechanism lifting cylinder drives the cover plate opening and closing component 54 to lift, and simultaneously the thimble cylinder 64 drives the thimble 62 to press down through the thimble mounting plate 55, so that the cover plate can overcome the suction force of the magnet 70 and is separated from the cover plate opening and closing component 54, thereby completing the assembly of the chip, and finally the transverse transplanting module 52 drives the jig cover plate opening and closing mechanism lifting cylinder 53 and the cover plate opening and closing assembly 54 to return to the waiting position again.
Referring to fig. 3-5, after the chip is completely assembled, the jig pressing cylinder 31, the jig side pushing cylinder 33, the jig positioning jacking cylinder 39, the forward pushing jacking cylinder and the jig forward pushing cylinder which are arranged at the front, back, left and right of the chip assembling station respectively return to unlock the jig 12, the jig clamping jaw 28 and the jig 12 with the chip are moved to the original position of the jig bin 10 by the driving belt servo motor 29 through the driving belt 30, the jig clamping jaw cylinder 27 drives the jig clamping jaw 28 to loosen the jig 12 with the chip, and the chip is assembled once. Then, the jig bin clamping jaw 24 drives the jig bin 10 to lift one lattice through the lifting module 23, and chip installation of the second jig 12 is carried out until all empty jigs in the first jig bin 10 complete chip assembly. After the chip equipment is all accomplished to the tool in a tool feed bin 10, lead screw 22 drives lifting module 23 and tool feed bin clamping jaw 24 and moves forward under the drive of lead screw servo motor 21, return to the terminal of unloading mechanism 2 on the tool feed bin on upper strata, then tool feed bin clamping jaw 24 descends to the terminal of unloading mechanism 2 on the tool feed bin of lower floor through lifting module 23 with the tool feed bin 10 of accomplishing the equipment, and on unloading mechanism 2 on the tool feed bin of lower floor was placed to the tool feed bin that will accomplish the equipment, realize the unloading of tool feed bin 10, tool feed bin clamping jaw 24 gets back to the terminal of unloading mechanism 2 on the tool feed bin on upper strata once more and carries out the material loading of second tool feed bin 10.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a chip assembly blanking machine which characterized in that: the device comprises a workbench (1), and a jig bin feeding and discharging mechanism (2), a jig bin lifting mechanism (3), a jig taking line body (4), a jig cover plate opening and closing mechanism (5), a core taking manipulator (6), a chip feeding mechanism (7), a chip shooting camera (8) and an ion fan (9) which are arranged on the workbench (1) simultaneously;
the jig bin feeding and discharging mechanism (2) is positioned at the front left part of the table top of the workbench (1), the jig bin lifting mechanism (3) is positioned at the rear side of the jig bin feeding and discharging mechanism (2) and is butted with the tail end of the jig bin feeding and discharging mechanism (2), the jig taking line body (4) is positioned at the right side of the jig bin lifting mechanism (3), the left end of the jig taking line body (4) is butted with the jig bin lifting mechanism (3), the jig cover plate disassembling mechanism (5) is erected above an assembling station of the jig taking line body (4), the chip feeding mechanism (7) is positioned at the front side of the jig taking line body (4), the chip taking manipulator (6) is positioned at the right side of the chip feeding mechanism (7), the chip taking manipulator (6) is provided with a multi-head suction nozzle mechanism (11), bull suction nozzle mechanism (11) are passed through but hang with core piece manipulator (6) round trip movement and establish get the tool line body (4) with the top of chip feed mechanism (7), chip shooting camera (8) are located get the rear side of the tool line body (4), ion fan (9) are located go up unloading mechanism (2) in the tool feed bin with between chip feed mechanism (7), and the wind gap is aimed at tool feed bin (10) on the last unloading mechanism (2) of tool feed bin.
2. The chip assembly feeding and discharging machine according to claim 1, wherein: the feeding and discharging mechanism (2) of the jig bin is divided into an upper layer and a lower layer, one layer is positioned above the table top of the workbench (1), the other layer is positioned below the table top of the workbench (1), and the upper layer and the lower layer are opposite in structure front and back and are respectively fed and discharged; unloading mechanism (2) include one by the driven tool feed bin transfer line body (14) of buncher (13), one side of tool feed bin transfer line body (14) is provided with tool feed bin shelves strip (16) through tool feed bin width regulating block (15), the opposite side of tool feed bin transfer line body (14) is provided with tool feed bin side baffle (17), be provided with ventilation hole (18) on tool feed bin side baffle (17), ionic fan (9) are aimed at ventilation hole (18), the end of tool feed bin transfer line body (14) is provided with tool feed bin locating piece (19), the outside of tool locating piece (19) is provided with receives tool feed bin side push cylinder driven tool feed bin side ejector pad (20).
3. The chip assembly feeding and discharging machine according to claim 1, wherein: jig bin lifting mechanism (3) includes a lead screw (22) by lead screw servo motor (21) driven, be provided with a lift module (23) on the slider of lead screw (22), be provided with one by clamping jaw cylinder driven jig bin clamping jaw (24) on the slider of lift module (23), the direction of motion of lead screw (22) with the direction of delivery of unloading mechanism (2) on the jig bin is the same, jig bin clamping jaw (24) pass through lift module (23) realize at a plurality of vertical arrangements the end of unloading mechanism (2) on the jig bin reciprocates, jig bin clamping jaw (24) pass through lead screw (22) are realized on jig bin unloading mechanism (2) end with get between the jig line body (4) the initiating terminal round trip movement, jig bin clamping jaw (24) pass through lift module (23) realize that jig line body (10) is in get the initial jig line body (4) The rows of the ends are moved vertically.
4. The chip assembly feeding and discharging machine according to claim 1, wherein: the jig taking line body (4) comprises a jig slide way (25) with adjustable width, the starting end of the jig slide way (25) is in butt joint with the jig bin lifting mechanism (3), the middle part of the jig slide way (25) is provided with a chip assembling station, a jig clamping jaw air cylinder (27) capable of moving back and forth between the starting end of the jig slide way (25) and the chip assembling station is arranged on the jig slide way (25) through a transverse linear guide rail (26), a jig clamping jaw (28) is arranged on the jig clamping jaw air cylinder (27), a driving belt (30) driven by a driving belt servo motor (29) is arranged on the jig slide way (25), the driving belt (30) is parallel to the transverse linear guide rail (26), and the jig clamping jaw air cylinder (27) is fixedly connected with one part of the surface of the driving belt (30), the left and right sides at both ends are provided with a tool briquetting (32) down through tool push down cylinder (31) respectively around the chip assembly station, one side at chip assembly station middle part is provided with a tool side ejector pad (34) through tool side ejector cylinder (33), the front end of chip assembly station is provided with a tool forward push cylinder by tool forward push up cylinder (36) driven through preceding fixed plate (35), be provided with tool forward push block (37) on the tool forward push cylinder, the rear end of chip assembly station is provided with one through after-fixing board (38) by tool location jacking cylinder (39) driven tool locating piece (40).
5. The chip assembly feeding and discharging machine according to claim 4, wherein: the jig slideway (25) comprises a fixed slideway vertical plate and a movable slideway vertical plate, the fixed slideway vertical plate is fixedly connected with the upper surface of a jig slideway bottom plate (41), the front end and the rear end of the upper surface of the jig slideway bottom plate (41) are also provided with two wire body width adjusting trapezoidal screw rod supports (42), a wire body width adjusting trapezoidal screw rod (43) is respectively arranged on the two wire body width adjusting trapezoidal screw rod supports (42), one end of each of the two wire body width adjusting trapezoidal screw rods (43) respectively penetrates through the fixed slideway vertical plate, one end of one wire body width adjusting trapezoidal screw rod (43) is connected with a hand wheel (44) after penetrating out of the fixed slideway vertical plate, and the other end of each of the two wire body width adjusting trapezoidal screw rods (43) is respectively provided with a wire body width adjusting synchronous wheel (45), a line width adjusting synchronous belt (46) is wound between the two line width adjusting synchronous wheels (45), a line width adjusting synchronous belt tensioning wheel (47) is arranged on the line width adjusting synchronous belt (46), the line width adjusting synchronous belt tensioning wheel (47) is fixedly connected with the upper surface of the jig slide way bottom plate (41) through a line width adjusting synchronous belt tensioning wheel support (48), the movable slide way vertical plate is slidably arranged on the two line width adjusting trapezoidal screw rods (43), the front end and the rear end of the movable slide way vertical plate are respectively in sliding connection with a longitudinal linear guide rail (49) arranged on the upper surface of the jig slide way bottom plate (41), and the front fixing plate (35) and the rear fixing plate (38) are respectively arranged on the upper surface of the jig slide way bottom plate (41) in a front-back position adjustable manner.
6. The chip assembly feeding and discharging machine according to claim 1, wherein: the jig cover plate disassembling and assembling mechanism (5) comprises a transverse transplanting module (52) horizontally arranged at the top ends of two jig cover plate disassembling and assembling mechanism supporting plates (51), a jig cover plate disassembling and assembling mechanism lifting cylinder (53) is arranged on a sliding block of the transverse transplanting module (52), a cover plate disassembling and assembling component (54) is arranged on the jig cover plate disassembling and assembling mechanism lifting cylinder (53), the cover plate disassembling and assembling component (54) is arranged on the transverse transplanting module (52) to slide in the front and back direction above the jig taking line body (4), and the cover plate disassembling and assembling component (54) is arranged on the jig cover plate disassembling and assembling mechanism lifting cylinder (53) to move vertically above the jig taking line body (4).
7. The chip assembly feeding and discharging machine according to claim 6, wherein: the cover plate disassembling and assembling component (54) comprises a thimble mounting plate (55) with a hollow middle part, a linear bearing mounting plate (56) parallel to the thimble mounting plate (55) is arranged in the hollow structure of the thimble mounting plate (55), and a cover plate attaching plate (57) parallel to the thimble mounting plate (55) is arranged below the thimble mounting plate (55); the upper surface of the linear bearing mounting plate (56) is provided with a mechanism mounting plate (58) connected with the jig cover plate opening and closing mechanism lifting cylinder (53), a plurality of linear bearings (59) are vertically arranged on the frame of the linear bearing mounting plate (56), each linear bearing (59) is internally provided with a guide shaft (60), the top of each guide shaft (60) is provided with a limiting convex block (61), and the bottom end of each guide shaft (60) is fixedly connected with the upper surface of the cover plate binding plate (57); a plurality of thimble through holes are uniformly formed in the front edge and the rear edge of the cover plate attaching plate (57), each thimble through hole is internally provided with a thimble (62) capable of sliding up and down, the top end of each thimble (62) is fixedly connected with the bottom surface of the frame of the thimble mounting plate (55), and the bottom end of each thimble (62) extends out of the lower surface of the cover plate attaching plate (57); the left half part and the right half part of the linear bearing mounting plate (56) are respectively provided with a thimble cylinder avoiding hole (63), the left thimble cylinder avoiding hole and the right thimble cylinder avoiding hole (63) are respectively provided with a thimble cylinder (64), the bottoms of the left thimble cylinder (64) and the right thimble cylinder avoiding hole and the bottoms of the right thimble cylinder (64) are respectively fixedly connected with the upper surface of the cover plate attaching plate (57), the top push blocks of the two thimble cylinders (64) are respectively fixedly connected with a horizontal connecting block (65), and two ends of the two horizontal connecting blocks (65) are respectively fixedly connected with the upper surface of a frame of the thimble mounting plate (55) through a vertical connecting block (66); the upper surfaces of the left and right frames of the linear bearing mounting plate (56) are respectively provided with a clamping jaw opening and closing cylinder (67), and the push blocks of the two clamping jaw opening and closing cylinders (67) are respectively provided with a cover plate clamping jaw (68) which vertically faces downwards; the lower surface of the frame of the cover plate attaching plate (57) is uniformly provided with a plurality of magnet mounting grooves (69), and replaceable magnets (70) or vacant magnets are embedded in the magnet mounting grooves (69).
8. The chip assembly feeding and discharging machine according to claim 1, wherein: get chip manipulator (6) including one robotic arm (75) of setting on manipulator base (74), the front end of robotic arm (75) is provided with a tool and shoots camera (76) and a bull suction nozzle mechanism (11) that can go up and down, bull suction nozzle mechanism (11) pass through robotic arm (75) are realized chip feed mechanism (7) chip shoot camera (8) and get round trip movement between the top of tool line body (4).
9. The chip assembly feeding and discharging machine according to claim 8, wherein: the multi-head suction nozzle mechanism (11) comprises a mechanism mounting block connecting plate (77), a mechanism mounting block (78) is arranged on the upper surface of the mechanism mounting block connecting plate (77), suction nozzle adjusting plate connecting plates (79) are respectively arranged at the front end and the rear end of the lower surface of the mechanism mounting block connecting plate (77), a suction nozzle adjusting plate (80) is respectively arranged at the left end and the right end of each suction nozzle adjusting plate connecting plate (79), at least 1 suction nozzle mounting block (82) which is adjustable in position and detachable is arranged in each suction nozzle adjusting plate (80) through a corresponding quick-release adjusting knob (81), and a vertically downward suction nozzle (83) is arranged at the bottom of each suction nozzle mounting block (82); a vacuum generator mounting plate (84) extends outwards from the front suction nozzle adjusting plate connecting plate (79) and the rear suction nozzle adjusting plate connecting plate (79), a vacuum generator (85) is arranged on any vacuum generator mounting plate (84), and the vacuum generator (85) is connected with each suction nozzle (83) through a pipeline and a corresponding reversing valve (91); front and back two the bottom of suction nozzle regulating plate connecting plate (79) is provided with chip clamping jaw cylinder (86) that a ejector pad is forward and chip clamping jaw cylinder (86) that an ejector pad is backward respectively, two front and back be provided with horizontal clamping jaw fixed block (87) about one on the ejector pad of chip clamping jaw cylinder (86) respectively, two evenly be provided with a plurality of chip clamping jaws (88) on clamping jaw fixed block (87) respectively.
10. The chip assembly feeding and discharging machine according to claim 1, wherein: the chip feeding mechanism (7) comprises a horizontal chip feeding bin frame (92), the chip feeding bin frame (92) is arranged on the chip, an upper chip bin (93) and a lower baffle bin (94) are detachably arranged on the upper surface of the chip feeding bin frame (92), blocking columns (95) are arranged on the edges of the periphery of the chip feeding bin (93) and the lower baffle bin (94), correlation sensors (96) used for detecting whether the chip and the baffle are in a horizontal state are respectively arranged at the left end and the right end of the chip feeding bin frame (92), the lower surface of the chip feeding bin frame (92) is connected through a sliding block of a rodless cylinder (97), the moving direction of the rodless cylinder (97) is the same as that of the jig bin feeding and discharging mechanism (2), and chip feeding mechanism moving guide rails (98) are respectively arranged on the left side and the right side of the rodless cylinder (97) in parallel, the utility model discloses a chip feed bin, including chip feed mechanism movable guide rail (98), the slider of chip feed mechanism movable guide rail (98) with the lower surface fixed connection of chip feed bin frame (92), chip feed mechanism movable guide rail (98) with be provided with a plurality ofly between rodless cylinder (97) and be used for detecting feed bin (93) on the chip with feed bin (94) shift position's displacement sensor (99) under the baffle, the bottom of feed bin (93) on the chip is provided with feed bin climbing mechanism (100) on the chip.
CN202022790382.6U 2020-11-27 2020-11-27 Chip assembly feeding and discharging machine Active CN213691982U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022790382.6U CN213691982U (en) 2020-11-27 2020-11-27 Chip assembly feeding and discharging machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022790382.6U CN213691982U (en) 2020-11-27 2020-11-27 Chip assembly feeding and discharging machine

Publications (1)

Publication Number Publication Date
CN213691982U true CN213691982U (en) 2021-07-13

Family

ID=76736223

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022790382.6U Active CN213691982U (en) 2020-11-27 2020-11-27 Chip assembly feeding and discharging machine

Country Status (1)

Country Link
CN (1) CN213691982U (en)

Similar Documents

Publication Publication Date Title
CN205290347U (en) Automatic assembly machine
CN108698772B (en) Full-automatic feeding assembly line
CN112466797A (en) Chip assembly feeding and discharging machine
CN210171833U (en) Full-automatic LCD screen dispensing equipment
CN213691982U (en) Chip assembly feeding and discharging machine
CN107243566B (en) Feeding and discharging system for plates of multiple specifications and numerical control punch
CN107030077B (en) Improved generation glass coating wipes equipment
CN209914230U (en) PCB and elastic clamping tool assembly system
CN210986429U (en) Loudspeaker magnetic circuit gluing automatic production line
CN108974892B (en) Automatic piece device about control
CN112124953A (en) Feeding and discharging device
CN111787712A (en) PCB and elastic clamping tool assembly system
CN209954139U (en) Automatic assembling equipment
CN109159239B (en) Automatic claw nail machine of beating of bed board
CN214421761U (en) Automatic feeding and discharging equipment
CN215297451U (en) Circuit board boxing system and circuit board production line
CN215046802U (en) Workpiece NG grabbing manipulator, belt line and detection device in material tray
CN214263751U (en) Automatic riveting machine
CN210098762U (en) Full-automatic robot precision punching riveting production line for large household appliance box body
CN214731796U (en) Automatic plate loader
CN214988602U (en) Workpiece feeding and discharging disc grabbing manipulator, feeding/discharging mechanism and detection device
CN110342255B (en) Board splitting and testing butt joint transplanting equipment for PCBA (printed circuit board assembly)
CN210936973U (en) Cold forging machine
CN212734855U (en) Product assembly equipment of island formula structure
CN214610352U (en) Automatic feeding and receiving device

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant