CN204976642U - Material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off - Google Patents
Material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off Download PDFInfo
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- CN204976642U CN204976642U CN201520584078.2U CN201520584078U CN204976642U CN 204976642 U CN204976642 U CN 204976642U CN 201520584078 U CN201520584078 U CN 201520584078U CN 204976642 U CN204976642 U CN 204976642U
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- mechanical arm
- feeding
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- die
- take out
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Abstract
The utility model provides a material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off, includes the supporter and is used for inserting the extracting device of material, and extracting device fixes in the supporter lower part, and fixed mounting has a robotic arm in the supporter, and robotic arm locates extracting device upper portion, robotic arm one end downside is equipped with well revolving stage, and well revolving stage is arranged in inserting extracting device's material, and its characteristic performance lies in robotic arm's downside for the pay -off route of machined object material all the time, and the route that stamping workpiece after stamping processing accomplishes was taken out lies in robotic arm's upside all the time, and the pay -off gets that the material goes on simultaneously but the mutually noninterfere is saved space, increases the benefit.
Description
Technical field
The utility model relates to field of machining, is specifically related to a kind of feeding feeding synchronization mechanism hand and feeding fetching synchronization device.
Background technology
Need through three steps during the silicon steel sheet monolithic punching press used in the stator of motor and rotor core;
First step: the silicon steel sheet of non-punching press is sent in stamping machine;
Second step: utilize stamping machine to carry out punching press to silicon steel sheet in feeding stamping machine;
3rd road step: the silicon steel sheet after punching press in stamping machine is taken out.
In prior art, the both sides of stamping machine are respectively equipped with device that conveying silicon steel sheet enters and the device of silicon steel sheet after taking out punching press.
The processing place position formed between upper die and lower die due to the diel in stamping machine is compact, then the conveying device of silicon steel sheet and material fetching mechanism are arranged on stamping machine both sides, because the conveying device of both sides and material fetching mechanism complex structure, occupy more space.
How to design a kind of feeding feeding synchronization mechanism hand, enter processing from the one-sided convey materials of stamping machine, simultaneously, take out the material machined, save space, and send the path of material non-interference with the path of taking out stamping parts, become the technical problem that we are badly in need of solving.
Utility model content
The purpose of this utility model is the deficiency overcoming prior art existence, and provides a kind of feeding feeding synchronization mechanism hand.
The purpose of this utility model has been come by following technical solution:
A kind of feeding feeding synchronization mechanism hand, it is characterized in that: comprise supporter and the take out device for accessing material, take out device is fixed on supporter bottom, mechanical arm is installed with in supporter, mechanical arm is located at take out device top, intermediate station is provided with on the downside of described mechanical arm one end, intermediate station is for accessing the material in take out device, described mechanical arm inside is provided with magnet or electromagnet, be provided with at least one reverse holdout device on the upside of described mechanical arm, described reverse holdout device and described mechanical arm separate.
Described supporter comprises support bar and the arm installing rack for installation manipulator arm, and arm installing rack is fixed on the bottom of support bar.
Described arm installing rack can be specially frame structure or one block of plate, and described arm installing rack top is fixed with mechanical arm, bottom is fixed with take out device.
Described mechanical arm is long strip type, and length-width ratio is greater than 3; Mechanical arm can be many stock shareds, also can be a block length plate; The magnet for adsorbing material or electromagnet is provided with in mechanical arm.
Described intermediate station comprises matrix and the keeper for locating access material.
Described take out device can be one group of vacuum cup assembly, also can be magnet or electromagnet, or for having the pneumatic or electric device capturing function, or adsorb and capture the mechanism of single material.
One group of vacuum cup assembly and vacuum generating device, vacuum generating device can be vavuum pump, utilizes vavuum pump extracting vacuum sucker, is adsorbed by vacuum cup.
Described reverse holdout device is positioned at the upside of mechanical arm, and reverse holdout device is located between two support bars of supporter, and reverse holdout device is fixed on mechanical arm outside and does not move with mechanical arm.
Described reverse holdout device be specially vertical mechanical arm move horizontally direction install vertical rod, or other similar machine components and band drive unit can move up and down parts; Described reverse holdout device can move to stoping the material master-slave manipulator arm being adsorbed on mechanical arm top when moving near punch process direction at mechanical arm, but does not stop the material master-slave manipulator arm being adsorbed on mechanical arm bottom to move; When mechanical arm is to when moving away from punch process direction, reverse holdout device does not hinder the movement of any material.
A kind of feeding fetching synchronization device, it comprises as above-mentioned feeding feeding synchronization mechanism hand.
Feeding feeding synchronization mechanism hand comprises lifting drive that driving device hand moves up and down and the horizontal vibrated drive equipment that driving device hand moves horizontally realizing the synchronous process of feeding feeding; Lifting drive and horizontal vibrated drive equipment can adopt lifting drive of the prior art or vibrated drive equipment.
The form of lifting drive and horizontal vibrated drive equipment can be various ways, and such as motor passes through Timing Belt, screw mandrel, the drivings such as chain, also can be the form of air cylinder driven, or hydraulic system etc., said apparatus can be made to move up and down reciprocate with level as long as reach.
The method that feeding feeding is synchronous, it comprises:
Step 1: mechanical arm declines, take out device is from material initial position access material, and mechanical arm draws from intermediate station the material be sent on intermediate station near the bottom of one end, punch process direction simultaneously;
Step 2: mechanical arm rises, material acquired by take out device and be adsorbed on mechanical arm front end (mechanical arm is defined as front end near the one end in punch process direction, otherwise be defined as rear end, hereafter all identical, do not state tired) the material master-slave manipulator arm of bottom rises together, leaves original position; The height and position that mechanical arm rises just in time meets, and reverse holdout device can stop that the material master-slave manipulator arm being adsorbed on mechanical arm top moves horizontally, but does not hinder the material master-slave manipulator arm being adsorbed on mechanical arm bottom to move horizontally;
Step 3: when the 1st, 2 step is carried out, the material punching press be sent to before in lowing die for stamping die completes by pressing equipment, and the patrix of diel will complete the stamping parts of punching press with moving up; Mechanical arm moves horizontally to pressing direction at this moment, until the front end of mechanical arm extend between the upper and lower mould of diel, take out device is positioned at the upside of intermediate station simultaneously; In the process, the material master-slave manipulator arm acquired by take out device is moved horizontally on the upside of intermediate station together; The material master-slave manipulator arm being adsorbed on mechanical arm front lower portion is moved horizontally between the upper and lower mould of diel together; Be adsorbed on mechanical arm top before the stamping parts that completes do not move with mechanical arm under the effect of reverse holdout device, but mechanical arm upper surface slide and rest on original position; Be adsorbed on the stamping parts completed before of mechanical arm upper rear end under the effect of reverse holdout device, when mechanical arm completes moving horizontally of this step, upper surface from mechanical arm rear end is skidded off, after this stamping parts skids off, under the effect of self gravitation, does the movement of falling object downwards;
Step 4: after the 3rd step, mechanical arm declines, and the material being adsorbed on mechanical arm front lower portion falls into the positioner of lowing die for stamping die; Material acquired by take out device release, this material falls into intermediate station; The stamping parts that the upper mould that is stamped takes up makes this stamping parts come off from patrix when patrix arrives the upper extreme point of its stroke by the stripper apparatus of pressing equipment and falls the top of mechanical arm front end, and is adsorbed by mechanical arm front end upper surface; The height that this step mechanical arm declines, a little more than the height declined in the 1st step, but mechanical arm is when this height, the movement of any material that reverse holdout device cannot hinder mechanical arm upper and lower master-slave manipulator arm in the horizontal direction;
Step 5: after the 4th step, mechanical arm moves horizontally to away from punch process direction, until mechanical arm leaves diel completely, and the front end of mechanical arm is positioned at the upside of intermediate station simultaneously, and take out device is positioned at the upside in material to be machined home position; The material adsorbing mechanical arm front lower portion has in the process been stayed in counterdie under the effect of lowing die for stamping die positioner; Still remained in intermediate station by the material that take out device is released in intermediate station; Come off from upper die of stamping die and drop into the material of mechanical arm upper front end, namely having completed the stamping parts of processing, moving to diel outside with mechanical arm;
Repeat step 1 to step 5, continuous print progressively to be delivered to material to be machined punch process mould from its home position and is processed by described feeding feeding synchronization mechanism hand, is taken out by the stamping parts machined simultaneously and be progressively transported to and the suitable position of material to be machined in stamping machine the same side from punch process mould.
The utility model compared with prior art, has the following advantages and effect:
1, global design is reasonable, and structural stability is higher;
2, structure is simple, installation site is little, saves space;
3, send into the stamping parts that material has also taken out processing simultaneously, improve processing benefit;
4, the feeding path of the material to be machined stamping parts after completing with punch process that begins takes out intersecting between path, non-interference, takes full advantage of limited space.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is mechanical arm movement locus figure in the utility model;
Fig. 3 is main structure body schematic perspective view of the present utility model;
Fig. 4 is agent structure side view of the present utility model;
Fig. 5 is the structural representation of material in the utility model;
Fig. 6 is the structural representation of mechanical arm in the utility model;
Fig. 7 is the structural representation of the utility model intermediate station;
Fig. 8 is the structural front view schematic diagram of the utility model band lifting drive and horizontal vibrated drive equipment;
Fig. 9 is the structure left view schematic diagram of the utility model band lifting drive and horizontal vibrated drive equipment;
Figure 10 is the structural upright schematic diagram of the utility model band lifting drive and horizontal vibrated drive equipment;
Figure 11 is the 1st cyclic process figure of the utility model mechanical arm;
Figure 12 is the 2nd cyclic process figure of the utility model mechanical arm;
Figure 13 is the 3rd cyclic process figure of the utility model mechanical arm;
Figure 14 is the 4th cyclic process figure of the utility model mechanical arm;
Figure 15 is the 5th cyclic process figure of the utility model mechanical arm;
Figure 16 is the 6th cyclic process figure of the utility model mechanical arm;
In figure, supporter 1, support bar 11, arm installing rack 12, take out device 2, mechanical arm 3, magnet 31, intermediate station 4, matrix 41, keeper 42, lowing die for stamping die 5, upper die of stamping die 6, reverse holdout device 7;
Lifting drive 8, screw mandrel 81, lifting drive motors 82, riser guide 83,
Horizontal vibrated drive equipment 9, Timing Belt 91, horizontal drive motor 92, horizontal guide rail 93;
X is first direction or horizontal direction;
Y is second direction or the upwards vertical direction perpendicular to horizontal direction;
D is the greatest width dimension of material diameter or vertical feed direction material;
L is support bar spacing;
A is material, A
, for stamping parts, namely material processed complete after the finished product of this station;
A1, A2, A3, A4, A5, A6 respectively are the 1st sheet material, the 2nd sheet material, the 3rd sheet material, the 4th sheet material, the 5th sheet material, the 6th sheet material;
A1
, , A2
, , A3
, , A4
, respectively be the 1st sheet material, the 2nd sheet material, the 3rd sheet material, the 4th sheet material processed after the stamping parts of correspondence;
1st step in movement locus;
2nd step in movement locus;
3rd step in movement locus;
4th step in movement locus;
5th step in movement locus.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in detail:
As shown in Figure 1, a kind of feeding feeding synchronization mechanism hand described in the utility model comprises supporter 1 and the take out device 2 for accessing material, take out device 2 is fixed on supporter 1 bottom, mechanical arm 3 is installed with in supporter 1, mechanical arm 3 is located at take out device 2 top, (mechanical arm 3 is near punch process in described mechanical arm 3 front end, namely front end is defined as near the one end in lowing die for stamping die 5 and upper die of stamping die 6 direction, otherwise be defined as rear end, hereafter all identical, do not state tired) downside is provided with intermediate station 4, intermediate station 4 is for accessing the material A in take out device 2, described mechanical arm inside is provided with multiple magnet 31 or electromagnet, at least one reverse holdout device 7 is provided with on the upside of described mechanical arm 3, described reverse holdout device 7 is separate with described mechanical arm 3.
As shown in Figure 1-2, the synchronous method of feeding feeding shows as: material to be machined A progressively delivers to punch process by the downside of mechanical arm 3 by intermediate station 4 from initial position, this punch process place and lowing die for stamping die 5 under the effect of take out device 2 and mechanical arm 3 self; Simultaneously material A be stamping after stamping parts A
, accessed by the top of mechanical arm 3 front end, stamping parts A
, in the motion process of mechanical arm 3, and be positioned under reverse holdout device 7 on the upside of mechanical arm 3 acts on and progressively slide into rear end until skid off along the front end on mechanical arm 3 top.
The feeding path that the process of feeding shows as material to be machined A is positioned at the downside of mechanical arm 3 all the time, the stamping parts A after punch process completes
, the path be removed is positioned at the upside of mechanical arm 3 all the time, and feeding feeding is carried out but non-interference simultaneously, saves space, increases the benefit.
As shown in Figure 1-2, the synchronous method of feeding feeding is specifically divided into 5 steps, is described as follows:
Step 1: mechanical arm 3 declines, the opposite direction namely to Y-direction moves, and take out device 2 is from material A initial position access material A, and the material A be sent on intermediate station 4 is drawn from intermediate station 4 in the bottom of mechanical arm 3 front end simultaneously.
Step 2: mechanical arm 3 rises, and namely moves to Y-direction, the material A acquired by take out device 2 and the material A master-slave manipulator arm 3 being adsorbed on mechanical arm 3 front lower portion rise together, leave original position; The height and position that mechanical arm 3 rises just in time meets, reverse holdout device 7 can stop that the material A master-slave manipulator arm 3 being adsorbed on mechanical arm 3 top moves horizontally, but does not hinder the material A master-slave manipulator arm 3 being adsorbed on mechanical arm 3 bottom to move horizontally.
Step 3: when the 1st, 2 step is carried out, the material A punching press be sent to before in lowing die for stamping die 5 completes by pressing equipment (comprising lowing die for stamping die 5 and upper die of stamping die 6), and upper die of stamping die 6 will complete the stamping parts A of punching press
, with moving up.Mechanical arm 3 is to pressing direction at this moment, and namely the opposite direction of X-direction, moves horizontally, until the front end of mechanical arm 3 extend between lowing die for stamping die 5, upper die of stamping die 6, take out device 2 is positioned at the upside of intermediate station 4 simultaneously.In the process, the material A master-slave manipulator arm 3 acquired by take out device 2 is moved horizontally on the upside of intermediate station 4 together; The material A master-slave manipulator arm 3 being adsorbed on mechanical arm 3 front lower portion is moved horizontally between lowing die for stamping die 5, upper die of stamping die 6 together; Be adsorbed on the stamping parts A completed before on mechanical arm 3 top
, do not move with mechanical arm 3 under the effect of reverse holdout device 7, but mechanical arm 3 upper surface slide and rest on original position; Be adsorbed on the stamping parts A completed before of mechanical arm 3 upper rear end
, under the effect of reverse holdout device 7, when mechanical arm 3 completes moving horizontally of this step, the upper surface from mechanical arm 3 rear end is skidded off, this stamping parts A
, under the effect of self gravitation, the movement of falling object is done downwards after skidding off.
Step 4: after the 3rd step, mechanical arm 3 declines, and the opposite direction namely to Y-direction moves, the material A being adsorbed on mechanical arm 3 front lower portion falls into lowing die for stamping die 5 positioner; Take out device 2 discharges acquired material A, and this material A falls into intermediate station 4; The stamping parts A that the upper mould 6 that is stamped takes up
, this stamping parts A is made by the stripper apparatus of pressing equipment when patrix 6 arrives the upper extreme point of its stroke
, come off from patrix 6 and fall the top of mechanical arm 3 front end, and being adsorbed by mechanical arm 3 front end upper surface.The height that this step mechanical arm 3 declines, a little more than the height declined in the 1st step, but mechanical arm 3 is when this height, the stamping parts A that reverse holdout device 7 cannot hinder mechanical arm 3 top any
, with the movement of any material A of bottom master-slave manipulator arm 3 in the horizontal direction.
Step 5: after the 4th step, mechanical arm 3 is to away from punch process direction, i.e. X-direction, move horizontally, until mechanical arm 3 leaves between lowing die for stamping die 5, upper die of stamping die 6 completely, and the front end of mechanical arm 3 is positioned at the upside of intermediate station 4 simultaneously, take out device 2 is positioned at the upside in material to be machined A home position.
The material A of adsorbing mechanical arm 3 front lower portion has in the process been stayed in lowing die for stamping die 5 under the effect of lowing die for stamping die 5 positioner; Still remained in intermediate station 4 by the material A that take out device 2 is released in intermediate station 4; Come off from upper die of stamping die 6 and drop into the stamping parts A of mechanical arm 3 upper front end
, , the outside of diel is moved to mechanical arm 3.
Lowing die for stamping die 5 can referred to as the outside of punch process mould with the outside of upper die of stamping die 6.
Repeat step 1 to step 5, continuous print progressively to be delivered to material to be machined A between lowing die for stamping die 5 and upper die of stamping die 6 from its home position and is processed by described feeding feeding synchronization mechanism hand, the stamping parts A simultaneously will machined
, from taking out between lowing die for stamping die 5 and upper die of stamping die 6 and being progressively transported to and the suitable position of material to be machined A in stamping machine the same side.
Material to be machined A from its home position, this home position can be take out device 2 lower position.
Progressively be transported to and the suitable position of material to be machined A in stamping machine the same side, this suitable position can be on the downside of mechanical arm 3 rear end.
As shown in Figure 3, described supporter 1 comprises support bar 11 and the arm installing rack 12 for installation manipulator arm 3, and support bar 11 has two, is fixed on the both sides of arm installing rack 12, and arm installing rack 12 is fixed on the bottom of support bar 11.
Described arm installing rack 12 can be specially frame structure or one block of plate etc., and its feature shows as and is connected support bar 11 and mechanical arm 3 and take out device 2.
As shown in Figure 3-4, described arm installing rack 12 top is fixed with mechanical arm 3, bottom is fixed with take out device 2, both sides fixed support bar 11.Mechanical arm 3 and between two support bars 12.Described take out device 2 is specially one group of vacuum cup assembly and vacuum generating device, also can be specially magnet or electromagnet, or for having the pneumatic or electric device capturing function, it is characterized in that its function having absorption or capture single material A.
As shown in Figure 1 and Figure 4, described reverse holdout device 7 is specially vertical mechanical arm 3 and moves horizontally the vertical rod of installing in direction, also can be specially other similar machine components or be with drive unit to move up and down parts.It is characterized in that described reverse holdout device 7 can stop the stamping parts A being adsorbed on mechanical arm 3 top when mechanical arm 3 moves to the opposite direction of X-direction
, master-slave manipulator arm 3 moves, but does not stop the material A master-slave manipulator arm 3 being adsorbed on mechanical arm 3 bottom to move; When mechanical arm moves to X-direction, reverse holdout device 7 does not hinder any stamping parts A being adsorbed on mechanical arm top
, move with mechanical arm 3 with the material A of bottom.
As illustrated in figures 4-5, the spacing L between two support bars 11 of supporter 1 is greater than the diameter D of sent material A or the greatest width dimension of vertical feed direction material; Reverse holdout device 7 is positioned at the upside of mechanical arm 3, and simultaneously between two support bars 11 of supporter 1, its position is fixing does not move with mechanical arm 3; So when material A has been stamped as stamping parts A
, after, be linked into the top of mechanical arm 3 by mechanical arm 3 after, hinder stamping parts A when relative mechanical arm 3 maintains static reverse holdout device 7
, when moving horizontally with mechanical arm 3, situation as described in above-mentioned steps 3, stamping parts A
, just can slip over along mechanical arm 3 upper surface between two support bars 11 smoothly.
As shown in Figure 6, described mechanical arm 3 form is long strip type, and length-width ratio is greater than 3; Mechanical arm 3 can be many stock shareds, also can be a block length plate; Be provided with the magnet 31 for adsorbing material A or electromagnet in mechanical arm 3, magnet 31 is distributed in mechanical arm 3 lower front part and whole top respectively; The magnet 31 of lower front part is mainly used in adsorbing not processed material A, act as feeding; The magnet 31 on top is mainly used in adsorbing the stamping parts A be stamped
, , act as feeding.
As shown in Figure 7, described intermediate station 4 comprises the matrix 41 of location and installation and the keeper 42 for locating access material A.The matrix 41 of location and installation can be frame-type, can be also holistic part, it is characterized by and be convenient to install and adjust keeper 42; Keeper 42 can adjust according to its position of the difference of processing materials A, and simultaneously keeper 42 also can be specially the Kinematic Positioning mode containing drive unit, it is characterized by be convenient to material A to carry out one-time positioning before finally entering lowing die for stamping die 5; In the course of the work, whole intermediate station 4 position maintains static.
As seen in figs. 8-10, feeding fetching synchronization device described in the utility model, its core is feeding feeding synchronization mechanism hand described above, and it is realizing also comprising in the synchronous process of feeding feeding lifting drive 8 that driving device hand moves up and down and the horizontal vibrated drive equipment 9 that driving device hand moves horizontally; Lifting drive 8 and horizontal vibrated drive equipment 9 form can be various ways, and such as motor passes through Timing Belt, screw mandrel, the drivings such as chain, also can be the form of air cylinder driven, or hydraulic system etc., said mechanism can be made to move up and down reciprocate with level as long as reach.
In present application example, take out device 2, mechanical arm 3 are fixed in lifting drive 8 by supporter 1 by feeding fetching synchronization device jointly, then lifting drive 8 again entirety be fixed on horizontal vibrated drive equipment 9; Lifting drive 8 drives screw mandrel 81 that whole manipulator (comprising supporter 1, take out device 2, mechanical arm 3) is moved up and down along riser guide 83 by lifting drive motors 82; Horizontal vibrated drive equipment 9 drives Timing Belt 91 to make whole lifting drive 8 comprise the manipulator be fixed therein by horizontal drive motor 92 together to move horizontally along horizontal guide rail 93.
Shown in Figure 11-16, how describe feeding feeding synchronization mechanism hand described in the utility model in detail progressively delivers to lowing die for stamping die 5 by material A not processed for a slice from its initial position according to feeding feeding synchronous method described in the utility model, the stamping parts A then its punching press completed
, progressively take out completely and depart from this device.
First figure in Fig. 1 teaches the title of each key component, so follow-up drawing no longer marks, describes a complete mechanical arm movement locus figure in Fig. 2; In the whole course of work, lowing die for stamping die 5 position maintains static, and upper die of stamping die 6 moves up and down under pressing equipment drives; Reverse holdout device 7, the initial position of intermediate station 4 and material A maintains static; Supporter 1, take out device 2 and mechanical arm 3 integrally drive downward Y-direction to move up and down at lifting drive 8, drive downward X-direction to do horizontal back and forth movement at horizontal vibrated drive equipment 9.
1st circulation the 1st step
Manipulator (comprising supporter 1, take out device 2 and mechanical arm 3, identical below) declines, and take out device 2 draws the 1st sheet material A1.
1st circulation the 2nd step
Manipulator rises, and take out device 2 leaves initial position with material A 1.
1st circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 1.
1st circulation the 4th step
Manipulator declines, and material A 1 is released in intermediate station 4 by take out device 2.
1st circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 1 rests in intermediate station 4; Take out device 2 gets back to the top of material A initial position.
2nd circulation the 1st step
Manipulator declines, and take out device 2 draws the 2nd sheet material A2; Mechanical arm 3 front lower portion draws the material A 1 be retained in intermediate station 4.
2nd circulation the 2nd step
Manipulator rises, and take out device 2 leaves its original position with material A 2 mechanical arm 3 front lower portion with material A 1.
2nd circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 2; Mechanical arm 3 front lower portion moves to the top of lowing die for stamping die 5 with material A 1.
2nd circulation the 4th step
Manipulator declines, and material A 2 is released in intermediate station 4 by take out device 2; Mechanical arm 3 front lower portion with material A 1 be placed in the location of lowing die for stamping die 5 self.
2nd circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 2 rests in intermediate station 4; Material A 1 to be stayed wherein under the effect of the positioner of lowing die for stamping die 5 self; Take out device 2 gets back to the top of material A initial position.
3rd circulation the 1st step
Manipulator declines, and take out device 2 draws the 3rd sheet material A3; Mechanical arm 3 front lower portion draws the material A 2 be retained in intermediate station 4; Pressing equipment drive upper die of stamping die 6 moves downward and carries out punch process to material A 1.
3rd circulation the 2nd step
Manipulator rises, and take out device 2 leaves its original position with material A 3 mechanical arm 3 front lower portion with material A 2; Pressing equipment completes the processing to material A 1; And upper die of stamping die 6 is with the stamping parts A1 completing punching press
, move upward.
3rd circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 3; Mechanical arm 3 front lower portion moves to the top of lowing die for stamping die 5 with material A 2; Upper die of stamping die 6 is with stamping parts A1 in this step
, still in moving upward, do not arrive its upper extreme point, but spacing between upper die of stamping die 6 and lowing die for stamping die 5 enough mechanical arm 3 enter.
3rd circulation the 4th step
Manipulator declines, and material A 3 is released in intermediate station 4 by take out device 2; Mechanical arm 3 front lower portion with material A 2 be placed in the location of lowing die for stamping die 5 self; The stamping parts A1 that the upper mould 6 that is stamped takes up
, arrive the upper extreme point of its stroke, make this stamping parts A1 by the stripper apparatus of pressing equipment
, come off from upper die of stamping die 6 and fall the top of mechanical arm 3 front end, and being adsorbed by mechanical arm 3 front end upper surface.
3rd circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 3 rests in intermediate station 4; Material A 2 to be stayed wherein under the effect of the positioner of lowing die for stamping die 5 self; Take out device 2 gets back to the top of material A initial position; Be adsorbed on the stamping parts A1 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 to be taken out of between upper die of stamping die 6 and lowing die for stamping die 5 together and is arrived the top of intermediate station 4.
4th circulation the 1st step
Manipulator declines, and take out device 2 draws the 4th sheet material A4; Mechanical arm 3 front lower portion draws the material A 3 be retained in intermediate station 4; Pressing equipment drive upper die of stamping die 6 moves downward and carries out punch process to material A 2; Be adsorbed on the stamping parts A1 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 declines together, but horizontal level does not change.
4th circulation the 2nd step
Manipulator rises, and take out device 2 leaves its original position with material A 4 mechanical arm 3 front lower portion with material A 3; Pressing equipment completes the processing to material A 2; And upper die of stamping die 6 is with the stamping parts A2 completing punching press
, move upward; Be adsorbed on the stamping parts A1 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 rises together, and horizontal level does not change.
4th circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 4; Mechanical arm 3 front lower portion moves to the top of lowing die for stamping die 5 with material A 3; Upper die of stamping die 6 is with stamping parts A2 in this step
, still in moving upward, do not arrive its upper extreme point, but diel upper and lower mould 5, the spacing between 6 enough mechanical arm 3 enter; Be adsorbed on the stamping parts A1 of mechanical arm 3 upper front end
, owing to being stopped do not have master-slave manipulator arm 3 to move horizontally together by reverse holdout device 7, but in mechanical arm 3 upper surface slide, its horizontal level does not change still above intermediate station 4, but relative mechanical arm 3, stamping parts A1
, be moved to middle-end top by original mechanical arm 3 upper front end.
4th circulation the 4th step
Manipulator declines, and material A 4 is released in intermediate station 4 by take out device 2; Mechanical arm 3 front lower portion with material A 3 be placed in the location of lowing die for stamping die 5 self; The stamping parts A2 that the upper mould 6 that is stamped takes up
, arrive the upper extreme point of its stroke, make this stamping parts A2 by the stripper apparatus of pressing equipment
, come off from patrix 6 and fall the top of mechanical arm 3 front end, and being adsorbed by mechanical arm 3 front end upper surface; Be adsorbed on the stamping parts A1 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 declines together, and is separated from the stop of reverse holdout device 7.
4th circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 4 rests in intermediate station 4; Material A 3 to be stayed wherein under the effect of the positioner of lowing die for stamping die 5 self; Take out device 2 gets back to the top of material A initial position; Be adsorbed on the stamping parts A2 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 to be taken out of between upper die of stamping die 6 and lowing die for stamping die 5 together and is arrived the top of intermediate station 4; Be adsorbed on the stamping parts A1 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 is moved horizontally to the top of material A initial position together.
5th circulation the 1st step
Manipulator declines, and take out device 2 draws the 5th sheet material A5; Mechanical arm 3 front lower portion draws the material A 4 be retained in intermediate station 4; Pressing equipment drive upper die of stamping die 6 moves downward and carries out punch process to material A 3; Be adsorbed on the stamping parts A2 of mechanical arm 3 upper front end
, and be adsorbed on the stamping parts A1 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 declines together, but horizontal level does not change.
5th circulation the 2nd step
Manipulator rises, and take out device 2 leaves its original position with material A 5 mechanical arm 3 front lower portion with material A 4; Pressing equipment completes the processing to material A 3; And upper die of stamping die 6 is with the stamping parts A3 completing punching press
, move upward; Be adsorbed on the stamping parts A2 of mechanical arm 3 upper front end
, and be adsorbed on the stamping parts A1 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 rises together, and horizontal level does not change.
5th circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 5; Mechanical arm 3 front lower portion moves to the top of lowing die for stamping die 5 with material A 4; Upper die of stamping die 6 is with stamping parts A3 in this step
, still in moving upward, do not arrive its upper extreme point, but spacing between upper die of stamping die 6 and lowing die for stamping die 5 enough mechanical arm 3 enter; Be adsorbed on the stamping parts A2 of mechanical arm 3 upper front end
, and be adsorbed on the stamping parts A1 on mechanical arm 3 middle-end top
, owing to being stopped do not have master-slave manipulator arm 3 to move horizontally together by corresponding reverse holdout device 7, but in mechanical arm 3 upper surface slide; Stamping parts A2
, horizontal level does not change still above intermediate station 4, but relative mechanical arm 3, stamping parts A2
, be moved to middle-end top by original mechanical arm 3 upper front end; Stamping parts A1
, horizontal level does not change still above material A initial position, but relative mechanical arm 3, stamping parts A1
, be moved to upper rear end by original mechanical arm 3 middle-end top.
5th circulation the 4th step
Manipulator declines, and material A 5 is released in intermediate station 4 by take out device 2; Mechanical arm 3 front lower portion with material A 4 be placed in the location of lowing die for stamping die 5 self; The stamping parts A3 that the upper mould 6 that is stamped takes up
, arrive the upper extreme point of its stroke, make this stamping parts A3 by the stripper apparatus of pressing equipment
, come off from upper die of stamping die 6 and fall the top of mechanical arm 3 front end, and being adsorbed by mechanical arm 3 front end upper surface; Be adsorbed on the stamping parts A2 on mechanical arm 3 middle-end top
, and be adsorbed on the stamping parts A1 of mechanical arm 3 upper rear end
, master-slave manipulator arm 3 declines together, and is separated from the stop of its corresponding reverse holdout device 7.
5th circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 5 rests in intermediate station 4; Material A 4 to be stayed wherein under the effect of the positioner of lowing die for stamping die 5 self; Take out device 2 gets back to the top of material A initial position; Be adsorbed on the stamping parts A3 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 to be taken out of between upper die of stamping die 6 and lowing die for stamping die 5 together and is arrived the top of intermediate station 4; Be adsorbed on the stamping parts A2 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 is moved horizontally to the top of material A initial position together; Be adsorbed on the stamping parts A1 of mechanical arm 3 upper rear end
, master-slave manipulator arm 3 is moved horizontally to the top on rear side of material A initial position together.
6th circulation the 1st step
Manipulator declines, and take out device 2 draws the 6th sheet material A6; Mechanical arm 3 front lower portion draws the material A 5 be retained in intermediate station 4; Pressing equipment drive upper die of stamping die 6 moves downward and carries out punch process to material A 4; Be adsorbed on the stamping parts A3 of mechanical arm 3 upper front end
, , middle-end top stamping parts A2
, and the stamping parts A1 of upper rear end
, master-slave manipulator arm 3 declines together, but horizontal level does not change.
6th circulation the 2nd step
Manipulator rises, and take out device 2 leaves its original position with material A 6 mechanical arm 3 front lower portion with material A 5; Pressing equipment completes the processing to material A 4; And upper die of stamping die 6 is with the stamping parts A4 completing punching press
, move upward; Be adsorbed on the stamping parts A3 of mechanical arm 3 upper front end
, , middle-end top stamping parts A2
, and the stamping parts A1 of upper rear end
, master-slave manipulator arm 3 rises together, and horizontal level does not change.
6th circulation the 3rd step
Manipulator prolongs X and moves horizontally in the other direction, and take out device 2 moves to the top of intermediate station 4 with material A 6; Mechanical arm 3 front lower portion moves to the top of lowing die for stamping die 5 with material A 5; Upper die of stamping die 6 is with stamping parts A4 in this step
, still in moving upward, do not arrive its upper extreme point, but spacing between upper die of stamping die 6 and lowing die for stamping die 5 enough mechanical arm 3 enter; Be adsorbed on the stamping parts A3 of mechanical arm 3 upper front end
, , middle-end top stamping parts A2
, and the stamping parts A1 of upper rear end
, owing to being stopped do not have master-slave manipulator arm 3 to move horizontally together by corresponding reverse holdout device 7, but in mechanical arm 3 upper surface slide; Stamping parts A3
, horizontal level does not change still above intermediate station 4, but relative mechanical arm 3, stamping parts A3
, be moved to middle-end top by original mechanical arm 3 upper front end; Stamping parts A2
, horizontal level does not change still above material A initial position, but relative mechanical arm 3, stamping parts A2
, be moved to upper rear end by original mechanical arm 3 middle-end top; Stamping parts A1
, horizontal level does not change still at the rear side of material A initial position, but has departed from mechanical arm 3, and does the movement of falling object downwards under himself Action of Gravity Field.
6th circulation the 4th step
Manipulator declines, and material A 6 is released in intermediate station 4 by take out device 2; Mechanical arm 3 front lower portion with material A 5 be placed in the location of lowing die for stamping die 5 self; The stamping parts A4 that the upper mould 6 that is stamped takes up
, arrive the upper extreme point of its stroke, make this stamping parts A4 by the stripper apparatus of pressing equipment
, come off from patrix 6 and fall the top of mechanical arm 3 front end, and being adsorbed by mechanical arm 3 front end upper surface; Be adsorbed on the stamping parts A3 on mechanical arm 3 middle-end top
, and be adsorbed on the stamping parts A2 of mechanical arm 3 upper rear end
, master-slave manipulator arm 3 declines together, and is separated from the stop of its corresponding reverse holdout device 7; Depart from the stamping parts A1 of mechanical arm 3
, in its movement of falling object, have left mechanical arm 3 move horizontally the scope that can touch.
6th circulation the 5th step
Manipulator prolongs X-direction and moves horizontally, and material A 6 rests in intermediate station 4; Material A 5 to be stayed wherein under the effect of the positioner of lowing die for stamping die 5 self; Take out device 2 gets back to the top of material A initial position; Be adsorbed on the stamping parts A4 of mechanical arm 3 upper front end
, master-slave manipulator arm 3 to be taken out of between upper die of stamping die 6 and lowing die for stamping die 5 together and is arrived the top of intermediate station 4; Be adsorbed on the stamping parts A3 on mechanical arm 3 middle-end top
, master-slave manipulator arm 3 is moved horizontally to the top of material A initial position together; Be adsorbed on the stamping parts A2 of mechanical arm 3 upper rear end
, master-slave manipulator arm 3 is moved horizontally to the top on rear side of material A initial position together.
By foregoing description, those skilled in the art can implement.
Above content described in this description is only to the explanation of the utility model structure example; And the utility model parts title of getting also can be different, all equivalences of doing according to structure, feature and the principle described in the utility model inventional idea or simple change, be included in the protection domain of the utility model patent.
Claims (9)
1. a feeding feeding synchronization mechanism hand, it is characterized in that: comprise supporter and the take out device for accessing material, take out device is fixed on supporter bottom, mechanical arm is installed with in supporter, mechanical arm is located at take out device top, be provided with intermediate station on the downside of described mechanical arm one end, intermediate station, for accessing the material in take out device, is provided with at least one reverse holdout device on the upside of described mechanical arm.
2. feeding feeding synchronization mechanism hand according to claim 1, is characterized in that: described supporter comprises support bar and the arm installing rack for installation manipulator arm, and arm installing rack is fixed on the bottom of support bar.
3. feeding feeding synchronization mechanism hand according to claim 2, it is characterized in that: described arm installing rack is specially frame structure or one block of plate, described arm installing rack top is fixed with mechanical arm, bottom is fixed with take out device.
4. feeding feeding synchronization mechanism hand according to claim 1, is characterized in that: described mechanical arm is long strip type, and length-width ratio is greater than 3; Mechanical arm is many stock shareds, or is a block length plate; The magnet for adsorbing material or electromagnet is provided with in mechanical arm.
5. feeding feeding synchronization mechanism hand according to claim 1, is characterized in that: described intermediate station comprises matrix and the keeper for locating access material.
6. feeding feeding synchronization mechanism hand according to claim 1, it is characterized in that: described take out device is one group of vacuum cup assembly, or be magnet or electromagnet, or for having the pneumatic or electric device capturing function, or be absorption and the mechanism capturing single material.
7. feeding feeding synchronization mechanism hand according to claim 1, it is characterized in that: described reverse holdout device is positioned at the upside of mechanical arm, reverse holdout device is located between two support bars of supporter, and reverse holdout device is fixed on mechanical arm outside and does not move with mechanical arm.
8. feeding feeding synchronization mechanism hand according to claim 1, is characterized in that: described reverse holdout device is the vertical rod that vertical mechanical arm moves horizontally direction installation; Described reverse holdout device can move to stoping the material master-slave manipulator arm being adsorbed on mechanical arm top when moving near punch process direction at mechanical arm, but does not stop the material master-slave manipulator arm being adsorbed on mechanical arm bottom to move; When mechanical arm is to when moving away from punch process direction, reverse holdout device does not hinder the movement of any material.
9. a feeding fetching synchronization device, it comprises feeding feeding synchronization mechanism hand as described in claim 1 to 8.
Priority Applications (1)
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CN201520584078.2U CN204976642U (en) | 2015-08-06 | 2015-08-06 | Material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off |
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CN201520584078.2U CN204976642U (en) | 2015-08-06 | 2015-08-06 | Material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off |
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CN204976642U true CN204976642U (en) | 2016-01-20 |
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CN201520584078.2U Withdrawn - After Issue CN204976642U (en) | 2015-08-06 | 2015-08-06 | Material synchronization mechanism hand is got in pay -off and material synchronizer is got in pay -off |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105082145A (en) * | 2015-08-06 | 2015-11-25 | 桐乡市华杰工业自动化科技有限公司 | Mechanical arm for synchronizing feeding and taking and method and device for synchronizing feeding and taking |
CN107030161A (en) * | 2016-12-24 | 2017-08-11 | 信宜市翔胜家电科技有限公司 | Temperature limiter cup automatic stamping equipment |
CN107639453A (en) * | 2017-11-10 | 2018-01-30 | 湖州南浔永涛不锈钢材料有限公司 | A kind of feeding device of stainless steel tube fly-cutting equipment |
CN108483019A (en) * | 2018-04-04 | 2018-09-04 | 苏州优纳科技有限公司 | Positioning device |
-
2015
- 2015-08-06 CN CN201520584078.2U patent/CN204976642U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105082145A (en) * | 2015-08-06 | 2015-11-25 | 桐乡市华杰工业自动化科技有限公司 | Mechanical arm for synchronizing feeding and taking and method and device for synchronizing feeding and taking |
CN107030161A (en) * | 2016-12-24 | 2017-08-11 | 信宜市翔胜家电科技有限公司 | Temperature limiter cup automatic stamping equipment |
CN107639453A (en) * | 2017-11-10 | 2018-01-30 | 湖州南浔永涛不锈钢材料有限公司 | A kind of feeding device of stainless steel tube fly-cutting equipment |
CN108483019A (en) * | 2018-04-04 | 2018-09-04 | 苏州优纳科技有限公司 | Positioning device |
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