CN209160909U - Screw-clamped mechanism and device for delivering screws - Google Patents

Abstract

The utility model provides a kind of screw-clamped mechanism and device for delivering screws, belong to robot arm package technique field, wherein screw-clamped mechanism includes being oppositely arranged for clamping a pair of of claw of screw, claw includes the attachment base and clamping block of stud connection, elastic component is equipped between the free end and attachment base of clamping block, under the action of the elastic member, clamping block is to screw-clamped, after pushing screw, clamping block releases the clamping to screw；The screw-clamped mechanism of the utility model, clamping block can clamp screw after being clamped under the action of the elastic member to screw, screw is applied towards after the thrust for overcoming elastic component, clamping block is pushed to turn an angle on attachment base around hinged shaft, so as to release the clamping to screw, screw is put down, screw-clamped mechanism itself does not use driving device, therefore the structure for simplifying screw-clamped mechanism, in use can be more reliable and more stable.

Description

Screw-clamped mechanism and device for delivering screws

Technical field

The utility model relates to robot arm package technique fields, and in particular to a kind of screw-clamped mechanism and screw are defeated Send device.

Background technique

When robot wrist and speed reducer assembly and connection, need to carry out speed reducer with robot wrist by screw Connection, when by manually carrying out screw connection, screw need to be only moved to threaded hole and put down by manpower, however, passing through machine When toolization operation carries out driving screws, does not participate in manually, how each screw to be all moved at corresponding threaded hole It is problem to be solved.

In order to solve the problems, such as that screw is moved to corresponding threaded hole, be to solve first, how screw to be clamped and How to put down, in the prior art, obviously can be realized crawl by various driving devices and put down the operation of screw；However, When the screw quantity for once needing to transfer is more, by driving device driving to the clamping of each screw and the behaviour put down Make, so that the structure of clamp system is become complicated, not can guarantee the stable operation of clamp system.

Utility model content

Therefore, the technical problem to be solved by the present invention is to overcome screw-clamped mechanism in the prior art using drive Dynamic device driving carries out the clamping of screw and puts down, and leads to the complicated defect of clamp system, to provide a kind of structure It simply can clamp and put down screw-clamped mechanism.

The utility model also provides a kind of device for delivering screws with screw-clamped mechanism.

In order to solve the above technical problems, screw-clamped mechanism provided by the utility model, including being oppositely arranged for pressing from both sides Firmly a pair of of claw of screw, the claw include:

Attachment base；

Clamping block is connect by hinged shaft with the attachment base, between the free end and the attachment base of the clamping block Equipped with elastic component, the elastic component is parallel to the rotational plane of the clamping block, and the both ends of elastic component be respectively facing it is described Attachment base and the clamping block are vertically arranged；

Under the action of the elastic component, the clamping block is turned to the clamping to screw-clamped on the attachment base Position；

After pushing screw towards the direction for the biasing force for overcoming the elastic component along the axis of the screw, the clamping Block is turned to releasing on the attachment base and passes through position to screw-clamped.

Preferably, the opposite face of two clamping blocks includes passing through face and card access surface, described to pass through face and card Junction is arcwall face；

When the clamping block is located at clamping position, two card access surfaces are opposite in parallel；

It is opposite in parallel by face described in two when the clamping block is located at and passes through position.

Preferably, the receiving for accommodating the elastic component is all had on the attachment base and the clamping block Hole.

Preferably, the claw has multiple, and multiple claws are connected in mounting disc by attachment base, are made Clamped screw forms preset shape, is equipped in the mounting disc for keeping away a hole by the screw of screw.

Device for delivering screws provided by the utility model, including screw-clamped mechanism described in any one of above scheme, Further include,

Screw delivery board, for installing the mounting disc of the screw-clamped mechanism；

Screw conveying sliding table is connect with the screw delivery board, by screw delivery board described in motor driven along default road Diameter sliding.

Preferably, further include,

Delivery board lifting cylinder is arranged between the screw conveying sliding table and the screw delivery board, for passing through gas The dynamic driving screw delivery board is moved back and forth up and down.

Preferably, further include,

Position detecting device, the sliding end for detecting the screw conveying sliding table are driven to the position reached.

Preferably, the position detecting device has at least three, and wherein first position detecting device setting exists Whether the initial position of the screw conveying sliding table, the sliding end for detecting the screw conveying sliding table reach initial position；

The sliding end of the screw conveying sliding table is arranged in towards the predetermined limit position of one end in second position detecting device, Whether the sliding end for detecting the screw conveying sliding table reaches this extreme position；

The sliding end of the screw conveying sliding table is arranged in towards the predetermined limit position of the other end in the third place detection device It sets, whether the sliding end for detecting the screw conveying sliding table reaches this extreme position.

Preferably, further include,

Screw accommodates disk, for accommodating screw, and is adapted for placement in predeterminated position；

Screw is accommodated in disk from the screw and is successively moved in the screw-clamped mechanism by screw mobile device.

Preferably, the screw mobile device includes,

Screw terminal is sucked from top by suction for screw suction nozzle；

Suction nozzle mobile device, for driving the screw suction nozzle to be moved along desired guiding trajectory.

Preferably, the suction nozzle mobile device uses cantilevered slide unit.

The technical solution of the utility model has the advantages that

1. screw-clamped mechanism provided by the utility model, after clamping block is under the action of the elastic member clamped screw Screw can be clamped, screw is applied towards after the thrust for overcoming elastic component, clamping block is pushed to turn on attachment base around hinged shaft Dynamic certain angle puts down screw so as to release the clamping to screw, and screw-clamped mechanism itself does not use driving to fill It sets, therefore simplifies the structure of screw-clamped mechanism, it in use can be more reliable and more stable.

2. screw-clamped mechanism provided by the utility model, two faces contacted on clamping block with screw are arc Face, to preferably by screw-clamped and screw can be made to slide between arcwall face when the outer wall with screw cooperates.

3. screw-clamped mechanism provided by the utility model, all has on attachment base and clamping block for accommodating elastic component Receiving hole, elastic component is placed in receiving hole and carries out flexible deformation, preferably elastic component can be fixed, to increase The reliability for adding mechanism to run.

4. screw-clamped mechanism provided by the utility model has multiple claws, is fixed in mounting disc by attachment base, It is arranged in preset shape in mounting disc, makes nipped more arranging screws at preset shape, so as to make screw It is corresponded with connecting hole, it will be in screw borrowing to connecting hole when convenient for subsequent operation.

5. device for delivering screws provided by the utility model further includes screw including screw-clamped mechanism described above Delivery board and screw conveying sliding table can be moved screw-clamped mechanism by screw delivery board and screw conveying sliding table, To which the screw being clamped is moved to predeterminated position from placement location.

6. device for delivering screws provided by the utility model has delivery board lifting cylinder, it is arranged in screw conveying sliding table Between screw delivery board, for being moved back and forth up and down by pneumatic actuation screw delivery board, thus in placing screws It can make contacting with connecting hole for the closer distance of screw, screw is enable more accurately to be inserted into connecting hole.

7. device for delivering screws provided by the utility model has position detecting device, for detecting screw conveying sliding table Sliding end be driven to the position reached, and fed back by the position to screw conveying sliding table, judge screw-clamped mechanism Position achieved.

8. device for delivering screws provided by the utility model, position detecting device has at least three, detects screw respectively The initial position of clamp system, towards screw conveying sliding table one end convey when extreme position and towards screw conveying sliding table it is another Extreme position when end is restored；When equipment starts, screw-clamped mechanism is slided on screw conveying sliding table, when arrival initial bit When setting, the position detecting device of initial position is fed back in time at this time, and screw-clamped mechanism is made to stop at initial position, because This is quickly found out initial position convenient for screw-clamped mechanism；In equipment operation, by screw-clamped mechanism on screw conveying sliding table Sliding, when screw-clamped mechanism reaches both ends extreme position, at both ends, the position detecting device of extreme position carries out in time Feedback, makes that screw conveying sliding table stops in time or opposite direction is mobile, prevents moving component from exceeding stroke, strikes other things.

9. device for delivering screws provided by the utility model, including screw accommodate disk and screw mobile device, screw is accommodated Disk is placed on predeterminated position for accommodating screw, and screw is then moved to screw clamp one by one by screw mobile device In tight mechanism.

10. device for delivering screws provided by the utility model, screw mobile device includes screw suction nozzle and the mobile dress of suction nozzle It sets, screw is sucked and is put down using suction by screw suction nozzle, drives screw suction nozzle along pre- by suction nozzle mobile device If track is moved, so that screw is moved to one by one in screw-clamped mechanism.

11. device for delivering screws provided by the utility model, suction nozzle mobile device uses cantilevered slide unit, cantilevered slide unit It is more mature in industrial application, it is able to carry out the movement of abscissa, ordinate and vertical pivot, and convenient for control.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is for the speed reducer in robot wrist and robot forearm to be carried out to the vertical of the mounting device of screw connection Body structural schematic diagram.

Fig. 2 is the schematic perspective view of clip claw mechanism.

Fig. 3 is the schematic perspective view that clip claw mechanism hides a cleft hand.

Fig. 4 is the schematic perspective view that clip claw mechanism hides two cleft hands.

Fig. 5 is the schematic perspective view of the sliding part of clip claw mechanism.

Fig. 6 is the schematic perspective view of hole positioning mechanism.

Fig. 7 is the top view of hole positioning mechanism.

Fig. 8 is the rear perspective structural representation of hole positioning mechanism.

Fig. 9 is schematic perspective view when not placing robot arm in the positioning mechanism of hole.

Figure 10 is the schematic perspective view of the pivoted jaw of hole positioning mechanism.

Figure 11 is the schematic perspective view of device for delivering screws.

Figure 12 is the schematic perspective view of screw conveying sliding table.

Figure 13 is the schematic perspective view of the position of position detecting device in Figure 12.

Figure 14 is the schematic perspective view of screw-clamped mechanism.

Figure 15 is the schematic perspective view of mounting disc.

Figure 16 is the schematic perspective view that mounting disc is hidden in Figure 14.

Figure 17 is the schematic perspective view of screw and claw.

Figure 18 is the schematic perspective view of claw.

Figure 19 is the schematic perspective view of cantilevered slide unit.

Figure 20 is the schematic perspective view of screw suction nozzle.

Figure 21 is the schematic perspective view that screw accommodates disk.

Figure 22 is the schematic perspective view for the rack that screw accommodates disk.

Description of symbols:

1, mechanical arm；11, station platform；12, lodging bench；13, screw screwing device；14, phase machine detecting device；

2, robot arm；21, robot wrist；22, robot forearm；23, speed reducer；

3, clip claw mechanism；301, clamping jaw installing plate；302, the first clamping jaw；303, first movement slide unit；304, the second clamping jaw； 305, the second Mobile Slide；306, clamping jaw driving plate；307, third Mobile Slide；308, skewed slot；309, sliding part；310, clamping jaw Driving device；311, stopper；312, hydraulic bjuffer；

5, hole positioning mechanism；501, positioning column；502, pushing mechanism；503, slide unit mould group；504, push plate；505, positioning table Rank；506, pivoted jaw；507, cleft hand；508, turntable；509, laser detector；510, laser keeps away a hole；

6, device for delivering screws；601, screw delivery board；602, screw conveying sliding table；603, delivery board lifting cylinder； 604, position detecting device；605, screw accommodates disk；606, screw suction nozzle；607, cantilevered slide unit；608, rack；

7, screw-clamped mechanism；701, mounting disc；702, screw keeps away a hole；703, claw；704, attachment base；705, elastic Part；706, clamping block；707, pass through face；708, card access surface.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

In addition, as long as technical characteristic involved in the utility model different embodiments disclosed below is each other Not constituting conflict can be combined with each other.

Embodiment 1

The present embodiment provides a kind of for the speed reducer 23 in robot wrist 21 and robot forearm 22 to be carried out screw The mounting device of connection, as shown in Figure 1, comprising: clip claw mechanism 3, hole positioning mechanism 5, device for delivering screws 6 and screw screw dress Set 13.Wherein, shown clip claw mechanism 3 is used to the robot arm 2 for being connected with speed reducer 23 be carried out to clamping and in mechanical arm 1 Robot arm 2 is moved under driving, to make robot arm 2 to be assembled in the station platform 11 for assembling and use It is moved between the lodging bench 12 temporarily placed；The hole positioning mechanism 5 is for consolidating robot arm 2 and 23 component of speed reducer It is scheduled on station platform 11, and by the connection with 23 synchronizing wheel of speed reducer, drives the rotation of 23 synchronizing wheel of speed reducer, and then drive and subtract The connecting hole of connecting hole and robot wrist 21 on fast machine 23 is to just；The device for delivering screws 6 is used for screw according to machine The position of connecting hole is arranged on device people wrist 21, and the screw arranged is extend into robot wrist 21 and speed reducer 23 Above the connecting hole being attached；The screw screwing device 13 slows down to robot by extending into robot forearm 22 The screw of 23 top of machine is screwed.

As shown in Figure 2-5, the clip claw mechanism 3 include: clamping jaw installing plate 301, the first clamping jaw 302, the second clamping jaw 304, Clamping jaw driving plate 306 and clamping jaw driving device 310；Wherein, first clamping jaw 302 is connected to by first movement slide unit 303 The front of the clamping jaw installing plate 301；Second clamping jaw 304 is opposite with first clamping jaw 302, passes through the second Mobile Slide 305 are connected to the front of the clamping jaw installing plate 301, and the first movement slide unit 303 is with second Mobile Slide 305 in institute It states and is arranged in parallel in clamping jaw installing plate 301；The clamping jaw driving plate 306 is connected to the clamping jaw by third Mobile Slide 307 The front of mounting plate 301, the third Mobile Slide 307 and the first movement slide unit 303 and second Mobile Slide 305 It is vertically arranged；The clamping jaw driving device 310 is connected in the clamping jaw installing plate 301, driving end and the clamping jaw driving plate 306 connections, for driving the clamping jaw driving plate 306 to move back and forth along the path of the third Mobile Slide 307；Also, It is in order to enable the first clamping jaw 302, the second clamping jaw 304 and the more stable movement of clamping jaw driving plate 306, the first movement is sliding The slideway of platform 303, the second Mobile Slide 305 and the third Mobile Slide 307 is disposed as two rows arranged side by side, wherein every row sets There are continuous two slide units to be supported.

Specifically, the clamping jaw driving plate 306 is driven using the clamping jaw driving device 310 with cylinder, and pass through Sliding groove structure is slidably connected with first clamping jaw 302 and second clamping jaw 304 respectively, and the sliding groove structure includes skewed slot 308 and sliding part 309；The skewed slot 308 is arranged in the clamping jaw driving plate 306, as the clamping jaw driving plate 306 is along institute It states third Mobile Slide 307 to be moved integrally, the skewed slot 308 is moved along the first movement slide unit 303 and described second The direction of slide unit 305 have towards the third Mobile Slide 307 gradient, also, in the sliding groove structure for it is described First clamping jaw 302 connection skewed slot be used for it is identical as the inclined direction of skewed slot that second clamping jaw 304 connects, be direction The direction of the clamping jaw driving device 310 tilts；The sliding part 309 is connected to first clamping jaw 302 and second folder On pawl 304, sliding end is inserted into the skewed slot 308, the sliding part 309 with the movement of the skewed slot 308 driven into Row is moved along the direction of the first movement slide unit 303 and second Mobile Slide 305, also, the use of the sliding part 309 It is the idler wheel with bearing in the part for being inserted into the skewed slot 308, idler wheel can be along central axis rotation.

The clip claw mechanism 3 further includes position limiting structure, for preventing first clamping jaw 302 and second clamping jaw 304 It is continued to move to after reaching predeterminated position when carrying out close to each other, the position limiting structure includes: stopper 311 and bolster；Its Described in stopper 311 be mounted on the front of the clamping jaw installing plate 301；The bolster uses hydraulic bjuffer 312, installation It is opposite with the stopper 311 on first clamping jaw 302 and second clamping jaw 304, when 302 He of the first clamping jaw When the 304 arrival predeterminated position close to each other of the second clamping jaw, the bolster is contacted with the stopper 311.

As shown in Fig. 6~10, the hole positioning mechanism 5 includes: station platform 11, positioning device, phase machine detecting device 14, turns Dynamic clamping jaw 506 and laser detector 509；Wherein for placing robot arm 2, robot arm 2 passes through the station platform 11 Mechanical arm 1 and clip claw mechanism 3 are moved to station platform 11 from lodging bench 12 and are assembled；The positioning device is connected to the work On the platform 11 of position, for being positioned to the robot arm 2 being placed on station platform 11；The phase machine detecting device 14 is located at institute The top of station platform 11 is stated, speed reducer 23 and machine are detected by taking pictures in the screw attachment holes upper end of face robot wrist 21 Whether people's wrist 21 carries out the connecting hole of screw to just；The pivoted jaw 506 is located at the lower section of the station platform 11, according to institute The information for stating the feedback of phase machine detecting device 14 passes through the angle of the connecting hole of the rotation adjustment speed reducer 23 to 23 synchronizing wheel of speed reducer Degree, so that speed reducer 23 and the connecting hole for screw connection of robot wrist 21 be made to carry out to just.The laser detector 509 are arranged in the lower section of the station platform 11, by detection laser pass through the laser on the station platform 11 keep away it is right behind a hole 510 Workpiece is detected, and whether there is robot arm 2 on station platform 11 for detecting, and will test signal and be sent to control Device.

Specifically, the positioning device includes: positioning column 501, pushing mechanism 502 and positioning step 505；It is wherein described fixed Position column 501 is vertically arranged on station platform 11, for stopping the side of the robot arm 2；The pushing mechanism 502 connects It is opposite with the positioning column 501 on the station platform 11, by pushing the robot arm 2, make the robot arm 2 are moved to predeterminated position.

The pushing mechanism 502 includes: slide unit mould group 503 and push plate 504；The slide unit mould group 503 is connected to the work It is mobile towards robot arm 2 by pneumatic actuation promote-side on the platform 11 of position；The push plate 504 is connected to the slide unit mould group 503 promote-side.There are three the tools of pushing mechanism 502, wherein the first pushing mechanism 502 is opposite with the positioning column 501, and The back side of the station platform 11 is set, and the push plate 504 of promote-side passes through the station platform 11 and stretches out upwards；Wherein second push away Motivation structure 502 and third pushing mechanism 502 are oppositely arranged, and second pushing mechanism 502 and the third pushing mechanism 502 telescopic direction is vertical with first pushing mechanism 502.

The positioning step 505 includes arcuate structure, under being supported at the installation deceleration thermomechanical components of robot forearm Side, for being inserted in the robot forearm, positions robot forearm.

The pivoted jaw 506 includes: cleft hand 507 and turntable 508；The cleft hand 507 has at least three, uniformly sets It sets on the rotational plane of described 506 one end of pivoted jaw, can be carried out towards center according to the control of controller by driving It is close to each other or be located remotely from each other；The turntable 508 is connect with the cleft hand 507, carries out driving institute according to the control of controller Cleft hand 507 is stated around the rotation of center line；Also, the cleft hand 507 uses pneumatic actuation, and the turntable 508 uses electronic drive It is dynamic.

Photographic intelligence is sent to controller by the phase machine detecting device 14, and controller is sent out according to the processing to image information Control signal is sent, the rotational angle of pivoted jaw 506 is controlled.

The controller controls the positioning device and positions to the robot arm 2.

As shown in Figure 11~18, the device for delivering screws 6 includes screw-clamped mechanism 7, and the screw-clamped mechanism 7 is wrapped A pair of of the claw 703 for being used to clamp screw being oppositely arranged is included, the claw 703 includes: attachment base 704 and clamping block 706；Its Described in clamping block 706 connect with the attachment base 704 by hinged shaft, free end and the connection in the clamping block 706 It is equipped with elastic component 705 between seat 704, and all has on the attachment base 704 and the clamping block 706 described for accommodating The receiving hole of elastic component 705, the elastic component 705 are parallel to the rotational plane of the clamping block 706, and elastic component 705 Both ends are respectively facing the attachment base 704 and the clamping block 706 is vertically arranged, described under the action of elastic component 705 Clamping block 706 is turned to the clamping position to screw-clamped on the attachment base 704, overcomes along the axis direction After the direction of the biasing force of the elastic component 705 pushes screw, the clamping block 706 is turned on the attachment base 704 Releasing passes through position to screw-clamped.

Specifically, the opposite face of two clamping blocks 706 includes passing through face 707 and card access surface 708, it is described to pass through face 707 and card access surface 708 be arcwall face, when the clamping block 706 is located at clamping position, two card access surfaces 708 are parallel Relatively, the clamping block 706 be located at be screw slippage pass through when passing through position, it is parallel opposite by face 707 described in two.

The claw 703 has multiple, and multiple claws 703 are connected in mounting disc 701 by attachment base 704, are made Clamped screw forms preset shape, is equipped in the mounting disc 701 for keeping away a hole 702 by the screw of screw.

As shown in Figure 11,19~22, the device for delivering screws 6 further include: screw delivery board 601, screw conveying sliding table 602, delivery board lifting cylinder 603, position detecting device 604, screw accommodate disk 605 and screw mobile device；The screw is defeated Send plate 601 for installing the mounting disc 701 of the screw-clamped mechanism；The screw conveying sliding table 602 is conveyed with the screw Plate 601 connects, and is slided by screw delivery board 601 described in motor driven along preset path；The delivery board lifting cylinder 603 is set It sets between the screw conveying sliding table 602 and the screw delivery board 601, for passing through screw delivery board described in pneumatic actuation 601 are moved back and forth up and down；The position detecting device 604 is used to detect the sliding end quilt of the screw conveying sliding table 602 The position reached is driven, the position detecting device 604 has at least three, and the wherein setting of first position detecting device 604 exists Whether the initial position of the screw conveying sliding table 602, the sliding end for detecting the screw conveying sliding table 602 reach initially Position, wherein the sliding end of the screw conveying sliding table 602 is arranged in towards the default pole of one end in second position detecting device 604 Whether extreme position, the sliding end for detecting the screw conveying sliding table reach this extreme position, wherein the third place detection dress It sets 604 and the sliding end of the screw conveying sliding table 602 is set towards the predetermined limit position of the other end, for detecting the spiral shell Whether the sliding end of silk conveying sliding table reaches this extreme position.

The screw accommodates disk 605 for accommodating screw, and is adapted for placement in predeterminated position, and the screw for setting screw is held Disk 605 of receiving is placed on rack 608, can accommodate the position of disk 605 to screw with positioning column 501 on rack 608 It is limited, meanwhile, also have on rack 608 and accommodate the buckle of disk 605 for fixed screw, passes through buckle and positioning column 501 cooperation carries out preventing screw from accommodating the sliding of disk 605.

The screw mobile device, which is used to from the screw accommodate screw in disk 605, is successively moved to the screw-clamped In mechanism 7, including screw suction nozzle 606 and suction nozzle mobile device, the screw suction nozzle 606 are inhaled screw terminal from top by suction Firmly；The suction nozzle mobile device uses cantilevered slide unit 607, for driving the screw suction nozzle 606 to be moved along desired guiding trajectory It is dynamic.

Embodiment 2

The present embodiment provides the installation methods of a kind of robot wrist 21 and speed reducer 23 in forearm, comprising the following steps:

Robot arm 2 is placed on station platform 11.

When the laser detector 509 of 11 lower section of station platform, detects on station platform 11 there are after robot arm 2, incite somebody to action Detection signal is sent to controller.

After positioning device on station platform 11 receives the signal of controller, to the robot arm being placed on station platform 11 2 are positioned.

Phase machine detecting device 14 is taken pictures from the top of station platform 11, the screw attachment holes of face robot wrist 21, And photographic intelligence is sent to controller.

After the pivoted jaw 506 of 11 lower section of station platform receives the signal of controller, 23 synchronizing wheel of speed reducer is rotated, And then the connection orifice angle of speed reducer 23 is adjusted, make the connecting hole pair for screw connection of speed reducer 23 Yu robot wrist 21 Just.

Screw is accommodated disk 605 from screw and screw is sequentially inserted into screw-clamped mechanism 7 by screw mobile device.

The screw for being located at screw-clamped mechanism 7 is extend into robot wrist 21 by screw conveying sliding table 602, makes screw just To the top of the connecting hole for being connect with speed reducer 23 of robot wrist 21.

Screw screwing device 13 is extend into robot forearm 22, is carried out to the screw for being located at 23 top of robot speed reducer It screws.

Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or It changes among the protection scope created still in the utility model.

Claims (11)

1. screw-clamped mechanism, which is characterized in that described including being oppositely arranged for clamping a pair of of claw (703) of screw Claw (703) includes:

Attachment base (704)；

Clamping block (706) is connect by hinged shaft with the attachment base (704), the clamping block (706) free end with it is described Elastic component (705) are equipped between attachment base (704), the rotation that the elastic component (705) is parallel to the clamping block (706) is flat Face, and the both ends of elastic component (705) are respectively facing the attachment base (704) and the clamping block (706) is vertically arranged；

Under the action of the elastic component (705), the clamping block (706) is turned on the attachment base (704) to spiral shell The clamping position that silk clamps；

After pushing screw towards the direction for the biasing force for overcoming the elastic component (705) along the axis of the screw, the card It connects block (706) and is turned to release on the attachment base (704) and position is passed through to screw-clamped.

2. screw-clamped mechanism according to claim 1, which is characterized in that the opposite face of two clamping blocks (706) Including by face (707) and card access surface (708), described by face (707) and card access surface (708) is arcwall face；

When the clamping block (706) are located at clamping position, two card access surfaces (708) are parallel opposite；

It is parallel opposite by face (707) described in two when the clamping block (706) are located at and pass through position.

3. screw-clamped mechanism according to claim 1, which is characterized in that the attachment base (704) and the clamping block (706) receiving hole for accommodating the elastic component (705) is all had on.

4. screw-clamped mechanism according to claim 1, which is characterized in that the claw (703) has multiple, Duo Gesuo It states claw (703) to be connected on mounting disc (701) by attachment base (704), so that clamped screw is formed preset shape, in institute Mounting disc (701) are stated to be equipped with for keeping away a hole (702) by the screw of screw.

5. device for delivering screws, which is characterized in that including screw-clamped mechanism according to any one of claims 1 to 4, also wrap It includes,

Screw delivery board (601), for installing the mounting disc (701) of the screw-clamped mechanism；

Screw conveying sliding table (602) connect with the screw delivery board (601), passes through screw delivery board described in motor driven (601) it is slided along preset path.

6. device for delivering screws according to claim 5, which is characterized in that further include,

Delivery board lifting cylinder (603) is arranged between the screw conveying sliding table (602) and the screw delivery board (601), For being moved back and forth up and down by screw delivery board (601) described in pneumatic actuation.

7. device for delivering screws according to claim 5, which is characterized in that further include,

Position detecting device (604), the sliding end for detecting the screw conveying sliding table (602) are driven to the position reached.

8. device for delivering screws according to claim 7, which is characterized in that the position detecting device (604) has extremely Three few, wherein the initial position in the screw conveying sliding table (602) is arranged in first position detecting device (604), for examining Whether the sliding end for surveying the screw conveying sliding table (602) reaches initial position；

Second position detecting device (604) be arranged the screw conveying sliding table (602) sliding end towards one end default pole Whether extreme position, the sliding end for detecting the screw conveying sliding table reach this extreme position；

Sliding end the presetting towards the other end in the screw conveying sliding table (602) is arranged in the third place detection device (604) Whether extreme position, the sliding end for detecting the screw conveying sliding table reach this extreme position.

9. device for delivering screws according to claim 5, which is characterized in that further include,

Screw accommodates disk (605), for accommodating screw, and is adapted for placement in predeterminated position；

Screw is accommodated in disk (605) from the screw and is successively moved in the screw-clamped mechanism by screw mobile device.

10. device for delivering screws according to claim 9, which is characterized in that the screw mobile device includes,

Screw terminal is sucked from top by suction for screw suction nozzle (606)；

Suction nozzle mobile device, for driving the screw suction nozzle (606) to be moved along desired guiding trajectory.

11. device for delivering screws according to claim 10, which is characterized in that the suction nozzle mobile device uses cantilevered Slide unit (607).