CN111807035B - Anti-adsorption PCB (printed circuit board) collecting and releasing machine - Google Patents

Abstract

The invention belongs to the technical field of PCB production and processing, and particularly relates to an anti-adsorption PCB (printed circuit board) board collecting and releasing machine, which comprises a sucker frame and a lifting driving mechanism, wherein the sucker frame is arranged on a mounting seat in a reciprocating motion manner along the vertical direction, the lifting driving mechanism is used for driving the sucker frame to reciprocate, a sucker group is arranged on the sucker frame, and a sucker of the sucker group is arranged downwards; still include the air knife subassembly, the air knife subassembly is including the shower nozzle that has flat air outlet, shower nozzle and high pressurized air source intercommunication, the shower nozzle is located the edge of the adsorbed PCB board of sucking disc group, and the edge setting of flat air outlet towards this PCB board, the bottom surface parallel and level of this flat air outlet and this PCB board. According to the invention, the air knife assembly is additionally arranged on the basis of the traditional PCB manipulator, so that when the manipulator grabs the PCB, the PCB adsorbed below the PCB to be grabbed can be blown away from the PCB to be grabbed, and the condition that two PCBs are grabbed at one time is effectively avoided.

Description

Anti-adsorption PCB (printed circuit board) collecting and releasing machine

Technical Field

The invention belongs to the technical field of PCB production and processing, and particularly relates to an anti-adsorption PCB collecting and releasing machine.

Background

With the advance of intelligent manufacturing, the requirements of PCB production factories on automation equipment are higher and higher, and meanwhile, along with the use of a large number of robots in PCB production, the equipment structure is simpler and simpler, and the stability of the equipment is higher and higher. However, some problems still exist in the PCB production factory, such as the condition that the PCB boards of some processes are light in weight and two pieces of the PCB boards are adhered to each other when the PCB boards are stacked on the carrier, or the condition that two pieces of the PCB boards are easily sucked when the PCB boards on the carrier are sucked by the suction cup frame when the previous PCB board separation effect is poor and the PCB boards deviate from the stacking position on the carrier, so that the waste of the PCB boards is reported or the boards are manually collected and released, thereby increasing the cost; with the requirement of intellectualization, the traditional sucker grabbing mode cannot meet the requirement of factory intellectualization.

Disclosure of Invention

The invention aims to provide an anti-adsorption PCB (printed circuit board) collecting and releasing machine, which can effectively avoid the situation that two PCBs are grabbed at one time due to adsorption between the PCBs.

The technical scheme adopted by the invention is as follows:

an anti-adsorption PCB board collecting and releasing machine comprises a sucker frame and a lifting driving mechanism, wherein the sucker frame is arranged on a mounting seat in a reciprocating motion mode along the vertical direction, the lifting driving mechanism is used for driving the sucker frame to reciprocate, a sucker group is arranged on the sucker frame, and a sucker of the sucker group is arranged downwards; still include the air knife subassembly, the air knife subassembly is including the shower nozzle that has flat air outlet, shower nozzle and high pressurized air source intercommunication, the shower nozzle is located the edge of the adsorbed PCB board of sucking disc group, and the edge setting of flat air outlet towards this PCB board, the bottom surface parallel and level of this flat air outlet and this PCB board.

The spray head is rotatably connected with the rotating seat, the rotating seat is provided with a telescopic rod, the telescopic rod is connected with the adjusting bracket, the telescopic rod is provided with a pressure spring, and the pressure spring is assembled to enable the elastic force of the pressure spring to drive the spray head to be ejected downwards; the adjusting bracket is adjustably fixed on the suction disc frame and has two degrees of freedom of rotation adjustment and horizontal movement adjustment.

The sucking disc frame is characterized by further comprising a fixing frame fixedly connected with the mounting seat, the spray head is fixedly mounted on the fixing frame in an adjustable mode, the sucking disc frame is provided with a sucking station and a lifting station which are sequentially arranged from bottom to top relative to the fixing frame, the sucking head of the sucking disc group is attached to the uppermost layer of the PCB stacked on the object placing table when the sucking disc frame is located at the sucking station, and the bottom surface of the PCB adsorbed by the sucking disc group is flush with the flat air outlet of the spray head when the sucking disc frame is located at the lifting.

The linkage valve assembly is arranged between the spray head and the high-pressure air source, and is assembled to be disconnected after the spray head and the high-pressure air source are communicated for a period of time when the lifting driving mechanism drives the suction disc frame to descend to the suction station and then ascend to the lifting station from the suction station.

The linkage valve assembly comprises a valve shell, a first valve core and a second valve core, wherein a first valve hole and a second valve hole which are respectively in sliding fit with the first valve core and the second valve core are formed in the valve shell, a first annular groove is formed in the first valve core, a second annular groove is formed in the second valve core, the first valve hole and the second valve hole are communicated through a first pore passage, the second valve hole is communicated with an air inlet pipe through a second pore passage, the air inlet pipe is communicated with a high-pressure air source, the first valve hole is communicated with an air outlet pipe through a third pore passage, and the air outlet pipe is communicated with a spray head; the first valve core is provided with a first station and a second station, the second valve core is provided with a station a and a station b, when the first valve core is positioned at the first station, the first hole channel is communicated with the third hole channel through the first annular groove, and when the first valve core is positioned at the second station, the first annular groove is staggered with the first hole channel and the third hole channel, so that the first hole channel is disconnected with the third hole channel; when the second valve core is positioned at the station a, the first hole channel is communicated with the second hole channel through the second ring groove, and when the second valve core is positioned at the station b, the second ring groove is staggered with the first hole channel and the second hole channel, so that the first hole channel and the second hole channel are disconnected; a first elastic unit is arranged between the first valve core and the valve shell, and the first elastic unit is assembled to enable the elastic force of the first elastic unit to drive the first valve core to move from the first station to the second station; a second elastic unit is arranged between the second valve core and the valve shell, and the second elastic unit is assembled to enable the elastic force of the second elastic unit to drive the second valve core to move from the station a to the station b; the sucking disc frame is provided with a driving block which is in blocking connection with the first valve core and the second valve core; the driving block is assembled to push the first valve core from the first station to the second station and push the second valve core from the second station to the first station when the sucker frame moves from the lifting station to the sucking station; a locking mechanism is further arranged between the first valve core and the valve shell, the locking mechanism is assembled to enable the first valve core to be kept at the second station when the driving block pushes the first valve core to the second station from the first station, and the locking mechanism can release the first valve core to enable the first valve core to move from the second station to the first station under the action of the first elastic unit when the sucker frame moves upwards from the suction station to the lifting station; and a delay locking mechanism is arranged between the second valve core and the valve shell, the delay locking mechanism is assembled to be capable of keeping the second valve core at the station a when the driving block pushes the second valve core from the station b to the station a for delay, and the delay locking mechanism releases the second valve core to enable the second valve core to move from the station a to the station b under the action of the second elastic unit after the first valve core returns to the station from the station two and is delayed for a preset time.

Locking mechanism includes the first ring groove of seting up on the first case to and follow the first cardboard of first case radial slip setting in the valve casing, be equipped with the through-hole that supplies first case to pass and the U type groove that link up with the through-hole on the first cardboard, the aperture of through-hole is greater than the external diameter of first case, and the width in U type groove is less than the external diameter of first case and is greater than the tank bottom anchor ring diameter of first ring groove, be equipped with the third elastic unit between first cardboard and the valve casing, the third elastic unit is assembled and can orders about U type groove for its elasticity and insert in first ring groove, still be equipped with first wedge on the first cardboard, be equipped with the first wedge driving block that keeps off with first wedge on the sucking disc frame, first wedge and first wedge driving block are assembled and can extrude when sucking disc frame from absorbing the station and ascending to the lifting station first wedge driving block make U type groove follow first wedge and drive first cardboard slip The annular clamping groove is drawn out.

The time-delay locking mechanism comprises a third valve core arranged in a valve shell in a sliding manner along the radial direction of the second valve core, a locking pin is arranged on one side, facing the second valve core, of the third valve core, a second annular clamping groove matched with the locking pin is arranged on the second valve core, a fourth elastic unit is arranged between the third valve core and the valve shell, the fourth elastic unit is assembled into a structure that the elastic force of the fourth elastic unit can drive the locking pin to be drawn out from the second annular clamping groove, a cavity on one side, facing back, of the third valve core and the second valve core is communicated with a first valve hole through a fourth hole, the first valve hole is communicated with an air inlet branch pipe through a fifth hole, the air inlet branch pipe is communicated with a high-pressure air source, the first valve hole is communicated with the atmosphere through a damping hole, a third annular groove is further arranged on the first valve core, when the first valve core is positioned at the second station, the fourth hole is communicated with the fifth, the high-pressure gas pushes the third valve core to slide towards the direction of the second valve core, so that the locking pin is inserted into the second annular clamping groove and compresses the fourth elastic unit, when the first valve core is positioned at the working position, the fourth hole is communicated with the damping hole through the third annular groove, at the moment, the chamber where the third valve core is positioned is decompressed through the damping hole, and the third valve core moves towards the direction far away from the second valve core under the action of the fourth elastic unit, so that the locking pin is drawn out of the second annular clamping groove.

The number of the spray heads is three, wherein two spray heads are arranged towards two adjacent side edges of the PCB; the other nozzle is arranged towards the corner between the two adjacent side edges, a positioning block is also arranged on the diagonal of the corner, the positioning block is fixedly connected with the sucking disc frame, and the positioning block is blocked and connected with the side surface of the corner of the PCB; even there is a vertical guide arm on the locating piece, the guiding hole sliding connection who sets up on vertical guide arm and the valve casing, be equipped with fifth elastic unit between vertical guide arm and the valve casing, fifth elastic unit is assembled and can orders about vertical guide arm upwards sliding for its elasticity, and when sucking the sucking disc frame from the lifting station down to absorbing the station, the drive block can push vertical guide arm low level downwards, locating piece and the PCB board top surface parallel and level of putting on the thing bench during this low level, still be equipped with locking mechanism on the valve casing, locking mechanism is assembled and can make vertical guide arm keep at this low level when the drive block pushes vertical guide arm to the low level, and locking mechanism can make it go upward under fifth elastic unit's effect with vertical guide arm release when the second valve core is moved to station b by station an.

The locking mechanism comprises a third annular clamping groove formed in the vertical guide rod and a sliding plate arranged along the vertical guide rod in a radial sliding mode, a second clamping plate is arranged on the sliding plate, the second clamping plate is connected with the sliding plate in a sliding mode and slides in a square mode to be parallel to the sliding direction of the sliding plate, a locking hole for the vertical guide rod to penetrate through is formed in the second clamping plate, the aperture of the locking hole is larger than the outer diameter of the vertical guide rod, a sixth elastic unit is arranged between the second clamping plate and the sliding plate, a seventh elastic unit is arranged between the sliding plate and the valve shell, a second wedge-shaped block is further arranged on the sliding plate, a second wedge-shaped driving block matched with the second wedge-shaped block is fixedly connected onto the second valve core, when the second valve core moves from the station b to the station a, the second wedge-shaped driving block extrudes the second wedge-shaped block to enable the sliding plate to slide and compress the seventh elastic unit, and at the moment, if the second clamping plate, if the second clamping plate is staggered with the third annular clamping groove, the second clamping plate compresses the sixth elastic unit under the blocking of the guide rod; when the second valve core moves from the station a to the station b, the second wedge-shaped driving block is separated from the second wedge-shaped block, and the sliding plate drives the second clamping plate to integrally slide under the action of the seventh elastic unit to enable the locking hole to be coaxial with the guide rod.

The sucking disc frame comprises a first cross bar and a second cross bar which are arranged in parallel, wherein the first cross bar is fixed on a slide block of a horizontally arranged electric track, and the second cross bar is fixedly connected with a slide rail of the electric track; one of the sprayer towards the side edge of the PCB and the sprayer towards the corner of the PCB are connected with the fixing frame in a sliding mode through the sliding support, the sliding direction of the sprayer is parallel to the sliding direction of the first cross rod, the sliding support is provided with a vertical guide pillar, and the vertical guide pillar is in vertical sliding fit with a guide sleeve mechanism arranged on the first cross rod.

The invention has the technical effects that: according to the invention, the air knife assembly is additionally arranged on the basis of the traditional PCB manipulator, so that when the manipulator grabs the PCB, the PCB adsorbed below the PCB to be grabbed can be blown away from the PCB to be grabbed, and the condition that two PCBs are grabbed at one time is effectively avoided.

Drawings

FIG. 1 is a top view of an anti-stiction PCB pick-up and place machine provided by one embodiment of the present invention;

FIG. 2 is a perspective view of the head of the embodiment shown in FIG. 1;

FIG. 3 is a schematic diagram of a showerhead arrangement provided by an embodiment of the present invention;

FIG. 4 is a perspective view of a robot provided by an embodiment of the present invention;

figure 5 is another perspective view of a robot provided by an embodiment of the present invention;

FIG. 6 is a further perspective view of a robot provided by an embodiment of the present invention;

FIG. 7 is a perspective view of a ganged valve assembly provided by an embodiment of the present invention;

FIG. 8 is another perspective view of a linkage valve assembly provided by an embodiment of the present invention;

FIG. 9 is a perspective view of a locking mechanism provided by an embodiment of the present invention;

FIG. 10 is a perspective view of a locking mechanism provided by an embodiment of the present invention;

FIG. 11 is a cross-sectional view of a ganged valve assembly provided by an embodiment of the present invention;

fig. 12 is a sectional view of a positioning and fitting structure provided by an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1, an anti-adsorption PCB board collecting and releasing machine comprises a suction cup frame arranged on a mounting base 10 in a reciprocating manner along a vertical direction, and a lifting driving mechanism 11 for driving the suction cup frame to reciprocate, wherein the lifting driving mechanism 11 is an air cylinder, a suction cup group 201 is arranged on the suction cup frame, and a suction head of the suction cup group 201 is arranged downwards; still include the air knife subassembly, the air knife subassembly is including the shower nozzle 50 that has flat air outlet, shower nozzle 50 and high pressurized air source intercommunication, shower nozzle 50 is located the edge of the absorbent PCB board of sucking disc group 201, and the edge setting of flat air outlet towards this PCB board, the bottom surface parallel and level of this flat air outlet and this PCB board. According to the invention, the air knife assembly is additionally arranged on the basis of the traditional PCB manipulator, so that when the manipulator grabs the PCB, the PCB adsorbed below the PCB to be grabbed can be blown away from the PCB to be grabbed, and the condition that two PCBs are grabbed at one time is effectively avoided.

As shown in fig. 2, as one embodiment of the present invention, the spray head 50 is rotatably connected to a rotating base 53, an expansion link 51 is disposed on the rotating base 53, the expansion link 51 is connected to an adjusting bracket 54, a compression spring 52 is disposed on the expansion link 51, and the compression spring 52 is configured such that its elastic force can drive the spray head 50 to pop out downwards; the adjusting bracket 54 is adjustably fixed on the suction cup frame, and the adjusting bracket 54 has two degrees of freedom of rotation adjustment and horizontal movement adjustment. Shower nozzle 50 is along with sucking disc frame synchronous up-and-down motion in this embodiment, places the platform when the PCB board and produces with shower nozzle 50 and block, and telescopic link 51 can suitably shrink, and when the manipulator lifts up the PCB board the back, shower nozzle 50 with wait to snatch the bottom surface parallel and level of PCB board, usable electronic valve control shower nozzle 50 blows this moment to blow off the absorbent unnecessary PCB board in below.

As shown in fig. 4, 5, and 6, as another embodiment of the present invention, the manipulator further includes a fixing frame 30 fixedly connected to the mounting base 10, the nozzle 50 is adjustably and fixedly mounted on the fixing frame 30, the suction cup frame has a suction station and a lifting station sequentially arranged from bottom to top with respect to the fixing frame 30, when the suction cup frame is located at the suction station, a suction head of the suction cup group 201 is attached to a top layer of the PCB stacked on the placement table, and when the suction cup frame is located at the lifting station, a bottom surface of the PCB adsorbed by the suction cup group 201 is flush with the flat air outlet of the nozzle 50. In the embodiment, the nozzle 50 is installed on the fixing frame 30, and after the sucker frame lifts the PCB by a certain height, the nozzle 50 is just flush with the PCB, and at this time, the nozzle 50 blows air to blow away the extra PCB adsorbed on the lower layer.

Further, as shown in fig. 7, 8 and 11, a linkage valve assembly 40 is arranged between the spray head 50 and the high-pressure air source, and the linkage valve assembly 40 is configured such that when the lifting driving mechanism 11 drives the suction disc holder to descend from the lifting station to the suction station and then ascend from the suction station to the lifting station, the linkage valve assembly 40 can connect the spray head 50 with the high-pressure air source for a period of time and then disconnect the spray head.

Specifically, as shown in fig. 11, the linkage valve assembly 40 includes a valve housing 43, a first valve core 41 and a second valve core 42, a first valve hole and a second valve hole which are respectively in sliding fit with the first valve core 41 and the second valve core 42 are formed in the valve housing 43, a first annular groove 411 is formed in the first valve core 41, a second annular groove 421 is formed in the second valve core 42, the first valve hole and the second valve hole are communicated through a first duct 431, the second valve hole is communicated with an air inlet pipe 72 through a second duct 433, the air inlet pipe 72 is communicated with a high-pressure air source, the first valve hole is communicated with an air outlet pipe 71 through a third duct 432, and the air outlet pipe 71 is communicated with the spray head 50; the first valve core 41 has a first position and a second position, the second valve core 42 has a position a and a position b, when the first valve core 41 is positioned at the first position, the first channel 431 is communicated with the third channel 432 through the first annular groove 411, and when the first valve core 41 is positioned at the second position, the first annular groove 411 is staggered with the first channel 431 and the third channel so that the first channel 431 and the third channel 432 are disconnected; when the second valve core 42 is positioned at the position a, the first hole 431 is communicated with the second hole 433 through the second ring groove 421, and when the second valve core 42 is positioned at the position b, the second ring groove 421 is staggered with the first hole 431 and the second hole 433, so that the first hole 431 and the second hole 433 are disconnected; a first elastic unit 44 is arranged between the first valve core 41 and the valve casing 43, and the first elastic unit 44 is assembled to enable the elastic force of the first elastic unit to drive the first valve core 41 to move from the working position to the working position; a second elastic unit 45 is arranged between the second valve core 42 and the valve casing 43, and the second elastic unit 45 is assembled to enable the elastic force of the second elastic unit to drive the second valve core 42 to move from the working position a to the working position b; the sucking disc frame is provided with a driving block 48, and the driving block 48 is in blocking connection with the first valve core 41 and the second valve core 42; the driving block 48 is configured such that when the suction cup holder moves from the lifting station to the suction station, the driving block 48 can push the first valve core 41 from the first station to the second station, and push the second valve core 42 from the second station to the first station; a locking mechanism is further arranged between the first valve core 41 and the valve casing 43, and is assembled to enable the first valve core 41 to be kept at the second station when the driving block 48 pushes the first valve core 41 to the second station from the first station, and enable the first valve core 41 to be released to enable the first valve core 41 to move from the second station to the first station under the action of the first elastic unit 44 when the suction cup frame moves upwards from the suction station to the lifting station; and a delay locking mechanism is arranged between the second valve core 42 and the valve housing 43, the delay locking mechanism is assembled to be capable of keeping the second valve core 42 at the working position a when the driving block 48 pushes the second valve core 42 from the working position b to the working position a for delay, and the delay locking mechanism releases the second valve core 42 to enable the second valve core 42 to move from the working position a to the working position b under the action of the second elastic unit 45 after the first valve core 41 returns to the working position from the working position two and is delayed for a preset time. The invention realizes the connection and disconnection of the air passage through the alternate movement of the first valve core 41 and the second valve core 42, and the principle is as follows: when the suction cup frame moves downwards, the first valve core 41 is disconnected, the second valve core 42 is communicated, the first valve core 41 is locked under the action of the locking mechanism, the second valve core 42 is locked under the action of the delay locking mechanism, in the ascending process of the suction cup frame, the first valve core 41 and the second valve core 42 are both in a locking state, so that the first valve core 41 and the second valve core 42 cannot ascend immediately, when the suction cup frame moves upwards to a preset position, the locking mechanism is unlocked, the first valve core 41 is firstly opened at the moment to enable the main gas path to be communicated, and after the time of one end of the main gas path communication, the locking mechanism releases the second valve core 42 to enable the second valve core 42 to be closed, the main gas path is disconnected at the moment, and therefore staged gas injection of the spray head 50 is achieved.

Preferably, as shown in fig. 9, the locking mechanism includes a first annular groove 413 formed in the first valve core 41, and a first clamping plate 49 arranged in the valve housing 43 in a radially sliding manner along the first valve core 41, a through hole for the first valve core 41 to pass through and a U-shaped groove 494 penetrating through the through hole are formed in the first clamping plate 49, a diameter of the through hole is larger than an outer diameter of the first valve core 41, a width of the U-shaped groove 494 is smaller than the outer diameter of the first valve core 41 and larger than a groove bottom annular surface of the first annular groove 413, a third elastic unit 491 is arranged between the first clamping plate 49 and the valve housing 43, the third elastic unit 491 is assembled such that an elastic force thereof can drive the U-shaped groove 494 to be inserted into the first annular groove 413, a first wedge-shaped block 492 is further arranged on the first clamping plate 49, a first wedge-shaped driving block 493 which is blocked with the first wedge-shaped block 492 is arranged on the suction frame, and the first wedge-shaped driving block 492 and the first wedge-shaped driving block 493 are assembled such that the suction The first wedge driver 493 is capable of compressing the first wedge 492 and driving the first catch plate 49 to slide to withdraw the U-shaped slot 494 from the first annular catch groove 413.

Preferably, as shown in fig. 10, the delay locking mechanism includes a third valve element 46 slidably disposed in the valve housing 43 along the radial direction of the second valve element 42, a locking pin 461 is disposed on a side of the third valve element 46 facing the second valve element 42, a second annular groove 422 cooperating with the locking pin 461 is disposed on the second valve element 42, a fourth resilient unit 47 is disposed between the third valve element 46 and the valve housing 43, the fourth resilient unit 47 is configured such that the resilient force thereof can urge the locking pin 461 to be drawn out of the second annular groove 422, chambers on the back sides of the third valve element 46 and the second valve element 42 are communicated with the first valve hole through a fourth hole 434, the first valve hole is communicated with the intake branch pipe 73 through a fifth hole 435, the intake branch pipe 73 is communicated with the high-pressure air source, the first valve hole is communicated with the atmosphere through a damping hole 436, a third groove 412 is further disposed on the first valve element 41, and the fourth hole 434 is communicated with the fifth hole 435 through the third groove 412 when the first valve element 41 is located at the second position, when the high-pressure gas enters the chamber of the third spool 46, the high-pressure gas pushes the third spool 46 to slide towards the second spool 42, so that the locking pin 461 is inserted into the second annular clamping groove 422 and compresses the fourth elastic unit 47, when the first spool 41 is located at the working position, the fourth hole 434 is communicated with the damping hole 436 through the third annular groove 412, the chamber of the third spool 46 is vented through the damping hole 436, and the third spool 46 moves away from the second spool 42 under the action of the fourth elastic unit 47, so that the locking pin 461 is extracted from the second annular clamping groove 422.

Further, as shown in fig. 3, 6 and 12, three spray heads 50 are provided, wherein two spray heads 50 are arranged towards two adjacent side edges of the PCB; the other nozzle 50 is arranged towards the corner between the two adjacent side edges, a positioning block 60 is further arranged on the diagonal of the corner, the positioning block 60 is fixedly connected with the sucking disc frame, and the positioning block 60 is in blocking connection with the side face of the corner of the PCB; the positioning block 60 is connected with a vertical guide rod 61, the vertical guide rod 61 is connected with a guide hole arranged on the valve shell 43 in a sliding way, a fifth elastic unit 62 is provided between the vertical guide rod 61 and the valve housing 43, the fifth elastic unit 62 is assembled such that its elastic force can urge the vertical guide rod 61 to slide upward, when the suction cup frame goes down from the lifting station to the suction station, the driving block 48 can push the vertical guide rod 61 downwards to a low position, the positioning block 60 is flush with the top surface of the PCB board on the object placing table in the low position, the valve casing 43 is further provided with a locking mechanism, the locking mechanism is configured to hold the vertical guide 61 in the lowered position when the drive block 48 pushes the vertical guide 61 to the lowered position, and the locking mechanism is able to release vertical guide 61 to move it upward under the action of fifth elastic unit 62 when second valve core 42 moves from station a to station b. The positioning block 60 of the invention can prevent the PCB adsorbed on the lower layer from being blown to the side when the spray head 50 blows air, the positioning block 60 can guide the PCB on the lower layer to enable the PCB to fall on the original stacking position, in addition, the positioning block 60 of the invention is arranged in a vertically movable structure, when the sucker frame descends, the positioning block 60 can be pressed down to enable the positioning block 60 to be flush with the top surface of the stacked PCB, and after the spray head 50 blows off the PCB adsorbed on the lower layer, the positioning block 60 can be automatically lifted, so that other equipment can be avoided in the movement process of the manipulator.

Specifically, as shown in fig. 12, the locking mechanism includes a third annular engaging groove 611 formed on the vertical guide rod 61 and a sliding plate 63 arranged to slide along the radial direction of the vertical guide rod 61, the sliding plate 63 is provided with a second engaging plate 64, the second engaging plate 64 is connected to the sliding plate 63 in a sliding manner, and the sliding direction of the sliding plate 63 is parallel to the sliding direction of the sliding plate 63 itself, the second engaging plate 64 is provided with a locking hole 641 for the vertical guide rod 61 to pass through, the aperture of the locking hole 641 is larger than the outer diameter of the vertical guide rod 61, a sixth elastic unit 65 is arranged between the second engaging plate 64 and the sliding plate 63, a seventh elastic unit 66 is arranged between the sliding plate 63 and the valve housing 43, the sliding plate 63 is further provided with a second wedge-shaped block 67, the second valve core 42 is fixedly connected with a second wedge-shaped driving block 68 matched with the second wedge-shaped block 67, when the second valve core 42 moves from the station b to the station a, the second wedge-shaped driving block 68 extrudes the second wedge, at this time, if the second locking plate 64 is aligned with the third ring-shaped locking groove 611, the edge of the locking hole 641 is locked in the third ring-shaped locking groove 611, and if the second locking plate 64 is staggered with the third ring-shaped locking groove 611, the second locking plate 64 compresses the sixth elastic unit 65 under the blocking of the guide rod; when the second valve core 42 moves from the station a to the station b, the second wedge-shaped driving block 68 is separated from the second wedge-shaped block 67, and at this time, the sliding plate 63 drives the second clamping plate 64 to integrally slide under the action of the seventh elastic unit 66, so that the locking hole 641 is coaxial with the guide rod.

Further, the sucker frame comprises a first cross bar 21 and a second cross bar 22 which are arranged in parallel, wherein the first cross bar 21 is fixed on a slide block of the electric rail 20 which is arranged horizontally, the second cross bar 22 is fixedly connected with a slide rail of the electric rail 20, and the two cross bars are opened and closed to adapt to the sizes of the PCBs with different specifications; one of the nozzles 50 facing the side edge of the PCB and the nozzle 50 facing the corner of the PCB are slidably connected to the fixing frame 30 through the sliding bracket 31, and the sliding direction of the nozzles is parallel to the sliding direction of the first cross bar 21, the sliding bracket 31 is provided with the vertical guide post 32, the vertical guide post 32 and the guide sleeve 211 arranged on the first cross bar 21 form a vertical sliding fit, and the first cross bar 21 can drive the sliding bracket 31 to move while the first cross bar 21 does not affect the up-and-down movement of the suction cup holder.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (6)

1. An anti-adsorption PCB board collecting and releasing machine comprises a sucker frame which reciprocates in the vertical direction and is arranged on a mounting seat (10), and a lifting driving mechanism (11) for driving the sucker frame to reciprocate, wherein a sucker group (201) is arranged on the sucker frame, and a sucker of the sucker group (201) is arranged downwards; the method is characterized in that: the air knife assembly comprises a spray head (50) with a flat air outlet, the spray head (50) is communicated with a high-pressure air source, the spray head (50) is positioned at the edge of the PCB adsorbed by the sucker group (201), the flat air outlet faces the edge of the PCB, and the flat air outlet is flush with the bottom surface of the PCB;

the automatic packaging machine is characterized by further comprising a fixing frame (30) fixedly connected with the mounting seat (10), the spray head (50) is fixedly mounted on the fixing frame (30) in an adjustable mode, the suction disc frame is provided with a suction station and a lifting station which are sequentially arranged from bottom to top relative to the fixing frame (30), when the suction disc frame is located at the suction station, a suction head of the suction disc group (201) is attached to the uppermost layer of the PCB stacked on the object placing table, and when the suction disc frame is located at the lifting station, the bottom surface of the PCB adsorbed by the suction disc group (201) is flush with the flat air outlet of the spray head (;

a linkage valve component (40) is arranged between the spray head (50) and the high-pressure air source, and the linkage valve component (40) is assembled in such a way that when the lifting driving mechanism (11) drives the suction disc frame to move downwards from the lifting station to the suction station and then move upwards from the suction station to the lifting station, the linkage valve component (40) can connect the spray head (50) with the high-pressure air source for a period of time and then disconnect the spray head;

the linkage valve assembly (40) comprises a valve casing (43), a first valve core (41) and a second valve core (42), wherein a first valve hole and a second valve hole which are in sliding fit with the first valve core (41) and the second valve core (42) respectively are formed in the valve casing (43), a first annular groove (411) is formed in the first valve core (41), a second annular groove (421) is formed in the second valve core (42), the first valve hole and the second valve hole are communicated through a first pore passage (431), the second valve hole is communicated with an air inlet pipe (72) through a second pore passage (433), the air inlet pipe (72) is communicated with a high-pressure air source, the first valve hole is communicated with an air outlet pipe (71) through a third pore passage (432), and the air outlet pipe (71) is communicated with a spray head (50); the first valve core (41) has a first station and a second station, the second valve core (42) has a station a and a station b, when the first valve core (41) is positioned at the first station, the first channel (431) is communicated with the third channel (432) through the first annular groove (411), and when the first valve core (41) is positioned at the second station, the first annular groove (411) is staggered with the first channel (431) and the third channel (432) to disconnect the first channel (431) and the third channel (432); when the second valve core (42) is positioned at the station a, the first channel (431) is communicated with the second channel (433) through the second ring groove (421), and when the second valve core (42) is positioned at the station b, the second ring groove (421) is staggered with the first channel (431) and the second channel (433), so that the first channel (431) is disconnected with the second channel (433); a first elastic unit (44) is arranged between the first valve core (41) and the valve shell (43), and the first elastic unit (44) is assembled to enable the elastic force of the first elastic unit to drive the first valve core (41) to move from the working position to the working position; a second elastic unit (45) is arranged between the second valve core (42) and the valve shell (43), and the second elastic unit (45) is assembled to enable the elastic force of the second elastic unit to drive the second valve core (42) to move from the working position a to the working position b; the suction disc frame is provided with a driving block (48), and the driving block (48) is connected with the first valve core (41) and the second valve core (42) in a blocking mode; the driving block (48) is assembled to push the first valve core (41) to the second valve core from the first station and push the second valve core (42) to the first station from the second station when the sucker frame moves from the lifting station to the sucking station; a locking mechanism is further arranged between the first valve core (41) and the valve casing (43), and is assembled to enable the first valve core (41) to be kept at the second station when the driving block (48) pushes the first valve core (41) to the second station from the first station, and enable the first valve core (41) to be released to enable the first valve core (41) to move from the second station to the first station under the action of the first elastic unit (44) when the suction cup frame moves upwards from the suction station to the lifting station; and a time delay locking mechanism is arranged between the second valve core (42) and the valve shell (43), the time delay locking mechanism is assembled to be capable of keeping the second valve core (42) at the station a when the driving block (48) pushes the second valve core (42) from the station b to the station a for time delay, and the time delay locking mechanism releases the second valve core (42) to enable the second valve core to move from the station a to the station b under the action of the second elastic unit (45) after the first valve core (41) returns to the station from the station b for a preset time together.

2. The anti-adsorption PCB retractable plate machine of claim 1, wherein: the locking mechanism comprises a first annular clamping groove (413) formed in the first valve core (41) and a first clamping plate (49) arranged in the valve casing (43) in a radially sliding mode along the first valve core (41), a through hole for the first valve core (41) to penetrate through and a U-shaped groove (494) communicated with the through hole are formed in the first clamping plate (49), the aperture of the through hole is larger than the outer diameter of the first valve core (41), the width of the U-shaped groove (494) is smaller than the outer diameter of the first valve core (41) and larger than the diameter of the bottom of a circular ring groove of the first annular clamping groove (413), a third elastic unit (491) is arranged between the first clamping plate (49) and the valve casing (43), the third elastic unit (491) is assembled to enable the elastic force of the third elastic unit to drive the U-shaped groove (494) to be inserted into the first annular clamping groove (413), a first wedge-shaped block (492) is further arranged on the first clamping plate (49), and a first wedge-shaped driving block (493) connected with the first wedge-shaped, the first wedge-shaped block (492) and the first wedge-shaped driving block (493) are assembled in a mode that the first wedge-shaped driving block (493) can extrude the first wedge-shaped block (492) and drive the first clamping plate (49) to slide to enable the U-shaped groove (494) to be drawn out of the first annular clamping groove (413) when the suction cup frame ascends from the suction station to the lifting station.

3. The anti-adsorption PCB retractable plate machine of claim 1, wherein: the time-delay locking mechanism comprises a third valve core (46) which is arranged in a valve shell (43) in a sliding mode along the radial direction of a second valve core (42), a locking pin (461) is arranged on one side, facing the second valve core (42), of the third valve core (46), a second annular clamping groove (422) matched with the locking pin (461) is arranged on the second valve core (42), a fourth elastic unit (47) is arranged between the third valve core (46) and the valve shell (43), the fourth elastic unit (47) is assembled to enable the elastic force of the fourth elastic unit to drive the locking pin (461) to be drawn out from the second annular clamping groove (422), a cavity on one back side of the third valve core (46) and the second valve core (42) is communicated with a first valve hole through a fourth hole (434), the first valve hole is communicated with an air inlet branch pipe (73) through a fifth hole (435), the air inlet branch pipe (73) is communicated with a high-pressure air source, and the first valve hole is communicated with the atmosphere through a damping hole (436, the first valve core (41) is also provided with a third ring groove (412), when the first valve core (41) is positioned at the second station, the fourth hole (434) is communicated with the fifth hole (435) through the third ring groove (412), high-pressure gas enters a cavity where the third valve core (46) is positioned, the high-pressure gas pushes the third valve core (46) to slide towards the direction of the second valve core (42) so that a locking pin (461) is inserted into the second annular clamping groove (422) and compresses the fourth elastic unit (47), when the first valve core (41) is located at the working position, the fourth hole (434) is communicated with the damping hole (436) through the third annular groove (412), the chamber where the third valve core (46) is located is decompressed through the damping hole (436), and the third valve core (46) moves in the direction away from the second valve core (42) under the action of the fourth elastic unit (47), so that the locking pin (461) is drawn out of the second annular clamping groove (422).

4. The anti-adsorption PCB retractable plate machine of claim 1, wherein: the number of the spray heads (50) is three, wherein two spray heads (50) are arranged towards two adjacent side edges of the PCB; the other nozzle (50) is arranged towards the corner between the two adjacent side edges, a positioning block (60) is further arranged on the diagonal of the corner, the positioning block (60) is fixedly connected with the sucker frame, and the positioning block (60) is in blocking connection with the side face of the corner of the PCB; even there is a vertical guide arm (61) on locating piece (60), the guiding hole sliding connection who sets up on vertical guide arm (61) and valve casing (43), be equipped with fifth elastic unit (62) between vertical guide arm (61) and valve casing (43), fifth elastic unit (62) are assembled for its elasticity can order about vertical guide arm (61) upwards to slide, and when the sucking disc frame was down from the lifting station to the suction station, drive block (48) can push vertical guide arm (61) low level downwards, and locating piece (60) and the PCB board top surface parallel and level of putting on the thing platform during this low level, still be equipped with locking mechanism on valve casing (43), locking mechanism is assembled for locking mechanism can make vertical guide arm (61) keep this low level when drive block (48) push vertical guide arm (61) to the low level, and locking mechanism can release vertical guide arm (61) and make it at fifth elastic unit (62) when second case (42) moves to station b by station a ) The effect of (1) is upward.

5. The anti-adsorption PCB retractable plate machine of claim 4, wherein: the locking mechanism comprises a third annular clamping groove (611) formed in the vertical guide rod (61) and a sliding plate (63) arranged along the vertical guide rod (61) in a radial sliding mode, a second clamping plate (64) is arranged on the sliding plate (63), the second clamping plate (64) is connected with the sliding plate (63) in a sliding mode and slides in a square mode to be parallel to the sliding direction of the sliding plate (63), a locking hole (641) for the vertical guide rod (61) to penetrate through is formed in the second clamping plate (64), the aperture of the locking hole (641) is larger than the outer diameter of the vertical guide rod (61), a sixth elastic unit (65) is arranged between the second clamping plate (64) and the sliding plate (63), a seventh elastic unit (66) is arranged between the sliding plate (63) and the valve shell (43), a second wedge-shaped block (67) is further arranged on the sliding plate (63), a second wedge-shaped driving block (68) matched with the second wedge-shaped block (67) is fixedly connected to the second valve core (42, when the second valve core (42) moves from the station b to the station a, the second wedge-shaped driving block (68) extrudes the second wedge-shaped block (67) to enable the sliding plate (63) to slide and compress the seventh elastic unit (66), at the moment, if the second clamping plate (64) is level with the third ring-shaped clamping groove (611), the edge of the locking hole (641) is clamped in the third ring-shaped clamping groove (611), and if the second clamping plate (64) is staggered with the third ring-shaped clamping groove (611), the second clamping plate (64) compresses the sixth elastic unit (65) under the blocking of the guide rod; when the second valve core (42) moves from the station a to the station b, the second wedge-shaped driving block (68) is separated from the second wedge-shaped block (67), and at the moment, the sliding plate (63) drives the second clamping plate (64) to integrally slide under the action of the seventh elastic unit (66) so that the locking hole (641) is coaxial with the guide rod.

6. The anti-adsorption PCB retractable plate machine of claim 4, wherein: the sucker frame comprises a first cross rod (21) and a second cross rod (22) which are arranged in parallel, wherein the first cross rod (21) is fixed on a slide block of an electric rail (20) which is arranged horizontally, and the second cross rod (22) is fixedly connected with a slide rail of the electric rail (20); one of the spray heads (50) facing the side edge of the PCB and the spray head (50) facing the corner of the PCB are connected with the fixed frame (30) in a sliding mode through the sliding support (31), the sliding direction of the spray head is parallel to that of the first cross rod (21), the sliding support (31) is provided with the vertical guide post (32), and the vertical guide post (32) is in vertical sliding fit with the guide sleeve (211) arranged on the first cross rod (21).

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