CN208421111U - Automatic blanking surveys guide tool and mechanized production system - Google Patents

Abstract

The utility model discloses a kind of automatic blankings to survey guide tool and mechanized production system, belongs to automatic producing technology field.Above-mentioned jig includes rack, product carrier mould group；For surveying the probe mould group and short-circuit copper billet mould group of conducting；Vertical motion mechanism, driving end connect with probe mould group, are able to drive probe mould group and move back and forth up and down, so that probe is connect with product；First level movement mechanism, driving end are connect with product carrier mould group；Second horicontal motion mechanism, driving end are connect with short-circuit copper billet mould group, and two movement mechanisms can drive product carrier mould group and short-circuit copper billet mould group to move horizontally respectively, and connect short-circuit copper billet with product to be measured；Further include lower flow channel and Rotary adsorption disc mechanism, the product automatic absorbing of test passes can be transported next process, improve the production efficiency of entire automatic production line.The utility model product carrier mould group can move, and pick and place product conveniently, easy to operate, detection efficiency.

Description

Automatic blanking surveys guide tool and mechanized production system

Technical field

The utility model relates to automatic producing technology field more particularly to a kind of automatic blanking survey guide tool and automatically Change production system.

Background technique

At this stage, the microscope carrier position for surveying guide tool is fixed, and is manually placed into product to be measured, and the driving of Z axis cylinder is visited Needle mould group pushes to test the conducting of electronic component.Such jig is only suitable for biggish electronic component, is manually placed into carrier In it is more convenient.But it is all artificial loading and unloading that it is most of, which to survey guide tool at this stage, and corresponding miniaturized products are first is that due to microscope carrier Position is fixed, and is not easy to be put into product；Second is that manually taken out after the product that detection is completed it is relatively time-consuming, it is obvious not high in efficiency, Conventional measurement guide tool spends artificial part too many.

Utility model content

The purpose of this utility model is to provide a kind of automatic blankings to survey guide tool and mechanized production system, to solve Guide tool existing in the prior art of surveying is inconvenient when manually picking and placing product and can not will test qualified product and be automatically transported to The problem of next process.

To achieve the above object, the following technical schemes are provided:

The utility model provides a kind of automatic blanking survey guide tool, including rack, is provided with obliquely in rack Lower flow channel further includes being arranged in the rack:

Product carrier mould group and for detect product to be measured whether Dao electricity probe mould group and short-circuit copper billet mould group；

Vertical motion mechanism, driving end are connect with the probe mould group, are able to drive the probe mould group up and down reciprocatingly It is mobile, so that the probe in the probe mould group is connect with the product to be measured on the product carrier；

First level movement mechanism, driving end are connect with the product carrier mould group, are able to drive the product carrier Mould group moves back and forth in the horizontal direction；

Second horicontal motion mechanism, driving end are connect with the short-circuit copper billet mould group, are able to drive the short-circuit copper billet Mould group is mobile, so that the short-circuit copper billet in the short circuit copper billet mould group is connect with the product to be measured；

Rotary adsorption disc mechanism comprising rotating driver, the rotating bar group for being connected to rotating driver driving end Part and the suction tray component for being connected to the rotation bar assembly free end, the rotating driver can drive the suction tray Component is moved at the product carrier mould group and at the lower flow channel, and the suction tray component can adsorb the production to be measured Product.

Further, the rotating driver is motor, and the rotation bar assembly includes first connecting rod and the second connection Bar, described first connecting rod one end are connected in the rotation axis of the motor, and one end of the other end and second connecting rod turns The free end of dynamic connection, second connecting rod connects the suction tray component.

Further, the suction tray component includes supporting plate and through the adsorption tube being connected on the supporting plate, the branch Plate is connected to the free end of second connecting rod in the horizontal direction, and the adsorption tube upper end is connect with vacuum generator.

Further, the rack includes horizonal base plate and vertical side plate, and the vertical motion mechanism setting is described perpendicular On front plate, the first level movement mechanism and second horicontal motion mechanism are arranged on the horizonal base plate.

Further, the vertical motion mechanism includes vertical gripper shoe and the vertical motion mechanism includes vertical support Plate and the first driver being mounted in the vertical gripper shoe, the vertical gripper shoe are arranged on the vertical side plate, institute State the driving end that probe mould group is connected to first driver.

Further, the probe mould group includes probe module mounting plate and is arranged on the probe module mounting plate Probe module, the probe module mounting plate are connected to the driving end of first driver.

Further, the product carrier mould group includes product carrier pedestal and is arranged on the product carrier pedestal Multiple product carriers, the product to be measured are placed in the product carrier；The short circuit copper billet mould group includes that short-circuit copper billet is solid Reservation and the short-circuit copper billet being arranged in the short-circuit copper billet fixing seat.

Further, the first level movement mechanism includes the second driver, the driving end position of second driver In the underface of the probe mould group, the product carrier pedestal is connected to the driving end of second driver.

Further, second horicontal motion mechanism includes third driver, the driving axis of the third driver It is coincided with the upper and lower with the driving axis of second driver, the short circuit copper billet fixing seat is connected to the drive of the third driver Moved end.

The utility model additionally provides a kind of mechanized production system, including automatic described in any of the above-described technical solution Guide tool is surveyed in blanking.

Compared with prior art, automatic blanking provided by the utility model surveys guide tool and includes product carrier mould group, surveys Conductive probe mould group and short-circuit copper billet mould group, vertical motion mechanism, first level movement mechanism, the second horizontal motion machine Structure, lower flow channel and Rotary adsorption disc mechanism, product carrier mould group are connected to the driving end of first level movement mechanism, probe mould group It is connected to the driving end of vertical motion mechanism, short-circuit copper billet mould group is connected to the driving end of the second horicontal motion mechanism, logical in this way Cross first level movement mechanism reciprocating motion drive product carrier move back and forth, and can move to probe mould group just under Side, vertical motion mechanism drive probe mould group to move to so that probe thereon is connect with product to be measured, the second horizontal motion machine Structure is able to drive short-circuit copper billet mould group and moves so that short-circuit copper billet thereon is connect with product to be measured, can thus complete to production The test of product conduction；Rotary adsorption disc mechanism includes rotating driver, the rotation bar assembly for being connected to rotating driver driving end And it is connected to the suction tray component of rotation bar assembly free end, rotating driver can drive suction tray component to be moved to product At carrier mould group and at lower flow channel, suction tray component being capable of adsorption production.After completing detection, Rotary adsorption disc mechanism is from turn The product that absorption detection is qualified at product carrier mould group is moved, is then rotated again at lower flow channel, product is unclamped and is sent to down One process.The utility model product carrier mould group can move, manually more convenient when placement product, and the mobile accurate behaviour in position Make simplicity, improve detection efficiency, the product after the completion of detecting is adsorbed to subsequent processing automatically, improves entire automated production The production efficiency of line.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the automatic blanking survey guide tool in the utility model embodiment；

Fig. 2 is the top view of the automatic blanking survey guide tool in the utility model embodiment；

Fig. 3 is the left view of the automatic blanking survey guide tool in the utility model embodiment；

Fig. 4 is the partial structure diagram of the automatic blanking survey guide tool in the utility model embodiment；

Fig. 5 is horizonal base plate, the second sliding rail, product that the automatic blanking in the utility model embodiment is surveyed in guide tool The installation diagram of carrier pedestal and short-circuit copper billet fixing seat；

Fig. 6 is the main view of Fig. 5；

Fig. 7 is the rearview of Fig. 5.

Appended drawing reference: 1- horizonal base plate；The vertical side plate of 2-；The first driver of 3-；The second driver of 4-；The driving of 5- third Device；6- probe module mounting plate；7- probe module；8- probe；9- vertical gripper shoe；The first sliding block of 10-；The first sliding rail of 11-； 12- product carrier；13- product carrier pedestal；14- short circuit copper billet；15- short circuit copper billet fixing seat；The second sliding rail of 16-；17- first Link block；18- fixed pedestal；The second link block of 19-；The second sliding block of 20-；21- third sliding block；First limit of 22- limits knot firmly Structure；The hard position limiting structure of second limit of 23-；The hard position limiting structure of the 24- third limit；The 4th hard position limiting structure of the limit of 25-；26- work Indicator light；27- power switch；28- start button；29- air inlet；30- through slot；31- rotating driver；32- vertical plate；33- One connecting rod；The second connecting rod of 34-；35- supporting plate；36- adsorption tube；37- lower flow channel.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

The technical issues of to solve the utility model, the technical solution of use and the technical effect that reaches are clearer, It is described in further detail below in conjunction with technical solution of the attached drawing to the utility model embodiment, it is clear that described reality Applying example is only the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, It is practical new to belong to this for those skilled in the art's every other embodiment obtained without making creative work The range of type protection.

As depicted in figs. 1 and 2, a kind of automatic blanking survey guide tool, including rack, product carrier are present embodiments provided Mould group, probe mould group, short-circuit copper billet mould group, vertical motion mechanism, first level movement mechanism, the second horicontal motion mechanism, under Runner 37 and Rotary adsorption disc mechanism.Wherein, rack includes the hollow horizonal base plate 1 and vertical side plate 2 being mutually permanently connected, On the horizontal plane of one end that the bottom surface of vertical side plate 2 is connected to horizonal base plate 1.Product carrier mould group is connected to first level movement The driving end of mechanism, first level movement mechanism are able to drive product carrier mould group and move back and forth in the horizontal direction.Probe mould group Whether with short-circuit copper billet mould group for conductive to product testing to be measured, probe mould group is connected to the driving end of vertical motion mechanism, Vertical motion mechanism is able to drive probe mould group and moves back and forth up and down, so that the probe 8 in probe mould group and product carrier mould group On product to be measured connection.Short-circuit copper billet mould group is connected to the driving end of the second horicontal motion mechanism, the second horicontal motion mechanism It is able to drive short-circuit copper billet mould group movement, so that the short-circuit copper billet 14 in short-circuit copper billet mould group is connect with product to be measured.It is logical in this way The driving for crossing each movement mechanism enables product to be measured to connect when detecting whether conduction with probe 8 and short-circuit copper billet 14, When picking and placing product, product carrier mould group can be moved flexibly, manually more convenient when placement product, and position is mobile accurate, It is easy to operate, detection efficiency is improved, carrier position fixation in traditional detection device is avoided and space is caused to be obstructed, pick and place product It is time-consuming and laborious, reduce detection efficiency the technical issues of.Further, the side of horizonal base plate 1 is oblique is arranged with lower flow channel 37, Rotary adsorption disc mechanism is additionally provided on vertical side plate 2 comprising rotating driver 31 is connected to the driving of rotating driver 31 end Rotation bar assembly and be connected to the suction tray component of rotation bar assembly free end, rotating driver 31 can drive suction tray Component is moved at product carrier mould group and at lower flow channel 37, and suction tray component being capable of adsorption production.After completing detection, rotation Absorption disc mechanism turns to the product that absorption detection is qualified at product carrier mould group automatically, is then rotated again at lower flow channel 37, It unclamps product and is sent to subsequent processing, improve the production efficiency of entire automatic production line.

Specifically, rotating driver 31 is motor, is provided with vertical plate 32 on horizonal base plate 1, motor is mounted on vertical side plate 2 On, and connect and be fixed with vertical plate 32, vertical plate 32 ensure that the stability of motor installation.Rotating bar assembly includes the first connection Bar 33 and the second connecting rod 34,33 one end of first connecting rod are connected in the rotation axis of motor, the other end and the second connecting rod 34 One end rotation connection, the free end of the second connecting rod 34 connects suction tray component.More specifically, suction tray component includes branch Plate 35 and through the adsorption tube 36 being connected on supporting plate 35, supporting plate 35 is connected to the freedom of the second connecting rod 34 in the horizontal direction End, 36 upper end of adsorption tube are connect with vacuum generator, and 36 lower end of adsorption tube is opening, in adsorption production, open vacuum Device, when release, product can be unclamped by closing vacuum generator.

Further, as shown in Figure 3 and Figure 4, vertical motion mechanism is arranged on vertical side plate 2, first level fitness machine Structure and the second horicontal motion mechanism are arranged on horizonal base plate 1.Vertical motion mechanism includes vertical gripper shoe 9 and the first driving Device 3, wherein the first driver 3 is selected as the first cylinder, vertical gripper shoe 9 is arranged on vertical side plate 2, and the first cylinder is mounted on perpendicular On allotment fagging 9, the driving axis of the first cylinder is located on the middle line of the leading flank length direction of vertical side plate 2.Probe mould group Including probe module mounting plate 6 and the probe module 7 being arranged on probe module mounting plate 6, probe module 7 includes level module Plate and the probe 8 being arranged on level module plate, probe module mounting plate 6 are connected to the driving end of the first cylinder.In order to increase The accuracy that first cylinder drives probe mould group mobile, is additionally provided with the first guiding knot between vertical motion mechanism and probe mould group Structure, the first guide frame include the first sliding rail 11 and match the first sliding groove of sliding, 11 He of the first sliding rail with the first sliding rail 11 One in first sliding groove is arranged in vertical gripper shoe 9, another is arranged on probe module mounting plate 6.In the present embodiment First sliding rail 11 is set along the vertical direction in middle vertical gripper shoe 9, the first sliding block 10 is connected on probe module mounting plate 6, the First sliding groove is set on one sliding block 10, first sliding groove matched with the first sliding rail 11 complete probe mould group along the vertical direction up and down Sliding.

Further, as shown in figure 4, first level movement mechanism includes the second driver 4, the second driver 4 passes through the One connecting plate is connected on horizonal base plate 1, and the second driver 4 is preferably the second cylinder, and the cylinder barrel of the second cylinder is located at vertical side In the hollow cavity of plate 2, the driving end of the second cylinder is located at the underface of probe mould group, and the driving axis of the second cylinder is located at water On the middle line of 1 upper side length direction of flat underside.Product carrier mould group includes product carrier pedestal 13 and is arranged in product carrier Multiple product carriers 12 on pedestal 13, product to be measured are placed in product carrier 12.Product carrier pedestal 13 is connected to second The driving end of cylinder, in order to increase connection space, product carrier pedestal 13 connects the first link block 17, the connection of the first link block 17 At the driving end of the second cylinder.Second horicontal motion mechanism includes third driver 5, and third driver 5 passes through the second connecting plate Be connected on horizonal base plate 1, third driver 5 is located at the lower section of the second driver 4, and the driving axis of third driver 5 with The driving axis of second driver 4 coincides with the upper and lower, and third driver 5 is preferably third cylinder.Short-circuit copper billet mould group includes short circuit Copper billet fixing seat 15 and the short-circuit copper billet 14 being arranged in short-circuit copper billet fixing seat 15, short-circuit copper billet fixing seat 15 are connected to third The driving end of cylinder, in order to increase connection space, specific short circuit copper billet fixing seat 15 is connected on fixed pedestal 18, fixed pedestal 18 lower sections are connected with the second link block 19, and the second link block 19 is connected to the driving end of third cylinder.

Further, as shown in Figure 5-Figure 7, in order to increase product carrier mould group and short-circuit copper billet mould group in horizonal base plate 1 On smooth steady when moving horizontally, be provided with the second guiding knot between product carrier mould group, short-circuit copper billet mould group and rack Structure, in the present embodiment, the second guide frame include the second sliding rail 16 being arranged on horizonal base plate 1, are arranged in product carrier The second sliding slot of 13 bottom of pedestal and the third sliding slot that 18 bottom of fixed pedestal is set, second sliding slot and third sliding slot with Second sliding rail 16 matches sliding, specifically, the second sliding block 20, the bottom of the second sliding block 20 is connected with below product carrier pedestal 13 Second sliding slot is arranged in portion, and third sliding block 21 is connected below fixed pedestal 18, and third sliding slot is arranged in 21 bottom of third sliding block, and product carries Tool pedestal 13 and fixed pedestal 18 are separately fixed on the second sliding block 20 and third sliding block 21, and movement is not interfere with each other.Certainly at it In his embodiment, second sliding slot can also be opened up on horizonal base plate 1, setting second is sliding in 13 bottom of product carrier pedestal Third sliding rail is arranged in 18 bottom of fixed pedestal in rail, and the second sliding rail and third sliding rail complete sliding in second sliding slot.Three gas Cylinder is all made of the structure of pen cylinder, precise control and occupies little space, easy for installation.Further, horizonal base plate 1 is second The length direction of two the second sliding rails of lateral edge 16 of sliding rail 16 offers through slot 30, the sliding that through slot 30 is used for as the second link block 19 Space is provided.

Further, it is additionally provided with power switch 27 on vertical side plate 2, to control the open and-shut mode of whole device.It is horizontal There are two start buttons 28 for the front end two sides setting of bottom plate 1, for controlling the first driver 3, the second driver 4 and third driving The movement of device 5, when pressing two start buttons 28 simultaneously, three drivers just start to act, and which prevent testing staff Be not ready product but one start button 28 of malfunction when caused by danger.Cylinder there are three being also set up on vertical side plate 2 Air inlet 29.Vertical 2 lower end of side plate is provided with the hard position limiting structure 22 of first limit, and the setting of 6 two sides of probe module mounting plate is limited Position convex block, for limiting the pushing extreme position of probe module 7.The second pole is provided at vertical side plate 2 on horizonal base plate 1 Hard position limiting structure 23 is limited, the front being aligned with the hard position limiting structure 23 of second limit is provided with the hard position limiting structure 24 of the third limit, uses It is limited in the extreme position of the back-and-forth motion to product carrier pedestal 13；It is hard that 1 bottom of horizonal base plate is provided with the 4th limit Position limiting structure 25 is limited for the extreme position to the second link block 19 close to vertical side plate 2, i.e., to fixed pedestal 18 and short circuit The mobile extreme position of vertical side plate 2 that is close to of copper billet fixing seat 15 is limited, when product carrier pedestal 13 is moved to second When at the hard position limiting structure 23 of the limit, it is placed exactly in the underface of probe module 7, when probe module mounting plate 6 is moved to the first pole When limiting at hard position limiting structure 22, probe 8 and short-circuit copper billet 14 are just connect with product to be measured.Wherein, first limit limits firmly The hard position limiting structure 23 of structure 22, second limit, the hard position limiting structure 24 of the third limit and the hard position limiting structure 25 of the 4th limit are liquid The structure of compression buffer.In the present embodiment, there are two product carriers 12 for setting on product carrier pedestal 13, are once able to detect Two products to be measured, it is corresponding on corresponding probe module 7 that two product carriers 12 positions are provided with two groups of probes 8, it is short There are two short-circuit copper billets 14 for the position setting of corresponding two product carriers 12 in road copper billet fixing seat 15, primary in this way to check two A product, improves detection efficiency.Two groups of work lights 26 are provided on horizonal base plate 1, one group of work light 26 is aobvious Show the testing result of product to be measured in a product carrier 12, one group of work light 26 includes a red indicating light and one Green indicator light, the bright representative products conducting of green indicator light, i.e. product is qualified, and the bright representative products of red indicating light are not turned on, i.e., Product is unqualified.

It is as follows that automatic blanking provided in this embodiment surveys guide tool working principle:

Manually two products to be measured are put into two product carriers 12, press the start button 28 of two sides, the second cylinder Driving product carrier mould group is moved to test section immediately below probe mould group, stops fortune after encountering the hard position limiting structure 23 of second limit It is dynamic；Third cylinder drives short-circuit copper billet mould group to be moved to designated position to product carrier 12, at this time short-circuit copper billet 14 and production to be measured Product connection；Then, the first cylinder driving probe mould group moves down, and encounters stop motion after the hard position limiting structure 22 of first limit, at this time Probe 8 is connect with product, and test OK/NG is shown by corresponding work light 26, is successively resetted after the completion；If detected Substandard product is manually drawn off；After detecting qualified products, motor drives the rotation of suction tray component, true after rotateing in place Empty generator work, product is picked up, and is unclamped product after motor counter-rotating belts movable property product to 37 surface of lower flow channel, is completed certainly Dynamic detection and blanking action.

The present embodiment additionally provides a kind of mechanized production system, including above-mentioned automatic blanking surveys guide tool, the system It can be adsorbed to automatically after the completion of product testing and move down process, improve the production efficiency of entire automatic production line.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (10)

1. a kind of automatic blanking surveys guide tool, including rack, which is characterized in that be provided with lower flow channel obliquely in rack (37), further include being arranged in the rack:

Product carrier mould group and for detect product to be measured whether Dao electricity probe mould group and short-circuit copper billet mould group；

Vertical motion mechanism, driving end connect with the probe mould group, are able to drive the probe mould group and move back and forth up and down, So that the probe (8) in the probe mould group is connect with the product to be measured in the product carrier mould group；

First level movement mechanism, driving end are connect with the product carrier mould group, are able to drive the product carrier mould group It moves back and forth in the horizontal direction；

Second horicontal motion mechanism, driving end are connect with the short-circuit copper billet mould group, are able to drive the short-circuit copper billet mould group It is mobile, so that the short-circuit copper billet (14) in the short circuit copper billet mould group is connect with the product to be measured；

Rotary adsorption disc mechanism comprising rotating driver (31), the rotation for being connected to the rotating driver (31) driving end Bar assembly and the suction tray component for being connected to the rotation bar assembly free end, the rotating driver (31) can drive institute It states suction tray component to be moved at the product carrier mould group and at the lower flow channel (37), the suction tray component can adsorb The product to be measured.

2. automatic blanking according to claim 1 surveys guide tool, which is characterized in that the rotating driver (31) is electricity Machine, the rotation bar assembly include first connecting rod (33) and the second connecting rod (34), and described first connecting rod (33) one end connects It connects in the rotation axis of the motor, one end of the other end and second connecting rod (34) is rotatablely connected, second connection The free end of bar (34) connects the suction tray component.

3. automatic blanking according to claim 2 surveys guide tool, which is characterized in that the suction tray component includes supporting plate (35) and through the adsorption tube (36) being connected on the supporting plate (35), the supporting plate (35) is connected to described in the horizontal direction The free end of two connecting rods (34), adsorption tube (36) upper end are connect with vacuum generator.

4. automatic blanking according to claim 1 surveys guide tool, which is characterized in that the rack includes horizonal base plate (1) it is arranged on the vertical side plate (2) with vertical side plate (2), the vertical motion mechanism, the first level movement mechanism It is arranged on the horizonal base plate (1) with second horicontal motion mechanism.

5. automatic blanking according to claim 4 surveys guide tool, which is characterized in that the vertical motion mechanism includes perpendicular Allotment fagging (9) and the first driver (3) being mounted on the vertical gripper shoe (9), vertical gripper shoe (9) setting exist On the vertical side plate (2), the probe mould group is connected to the driving end of first driver (3).

6. automatic blanking according to claim 5 surveys guide tool, which is characterized in that the probe mould group includes probe mould Block mounting plate (6) and the probe module (7) being arranged on the probe module mounting plate (6), the probe module mounting plate (6) It is connected to the driving end of first driver (3).

7. automatic blanking according to claim 1 surveys guide tool, which is characterized in that the product carrier mould group includes producing Product carrier pedestal (13) and the multiple product carriers (12) being arranged on the product carrier pedestal (13), the product to be measured are put It sets in the product carrier (12)；The short circuit copper billet mould group includes short-circuit copper billet fixing seat (15) and is arranged in the short circuit The short-circuit copper billet (14) in copper billet fixing seat (15).

8. automatic blanking according to claim 7 surveys guide tool, which is characterized in that the first level movement mechanism packet It includes the second driver (4), the driving end of second driver (4) is located at the underface of the probe mould group, and the product carries Tool pedestal (13) is connected to the driving end of second driver (4).

9. automatic blanking according to claim 8 surveys guide tool, which is characterized in that the second horicontal motion mechanism packet It includes third driver (5), above and below the driving axis of the driving axis of the third driver (5) and second driver (4) It is overlapped, the short circuit copper billet fixing seat (15) is connected to the driving end of the third driver (5).

10. a kind of mechanized production system, which is characterized in that surveyed including the described in any item automatic blankings of such as claim 1-9 Guide tool.