CN212286379U - Full-automatic standard festival robot welding production line - Google Patents

Full-automatic standard festival robot welding production line Download PDF

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Publication number
CN212286379U
CN212286379U CN202020040889.7U CN202020040889U CN212286379U CN 212286379 U CN212286379 U CN 212286379U CN 202020040889 U CN202020040889 U CN 202020040889U CN 212286379 U CN212286379 U CN 212286379U
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China
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clamping
cylinder
fixedly connected
plate
web member
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CN202020040889.7U
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Chinese (zh)
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董斌
蔡伟
赖鼎盛
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Fujian Xinchengyu Robot Technology Co ltd
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Fujian Xinchengyu Robot Technology Co ltd
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Abstract

The utility model provides a full-automatic standard festival robot welding production line, include: the standard knot clamping mechanism is arranged on the rack; the welding robot is connected to the top of the rack in a sliding mode; the first conveying track is positioned on the side edge of the rack; the second conveying track is positioned on the side edge of the first conveying track; the receiving platform mechanism is connected with the first conveying track in a sliding manner; the carrying robot is connected with the second conveying track in a sliding mode; the carrying robot can grab the standard festival raw materials part in proper order and then put into standard festival fixture, and standard festival raw materials part can be cliied to standard festival fixture, and welding robot can weld the standard festival raw materials part among the standard festival fixture into standard festival finished product, and material receiving platform mechanism can grab the standard festival finished product, and carrying robot can also grab the standard festival finished product that is located material receiving platform mechanism. The utility model has the advantages that: the whole working process has high automation degree, high production efficiency, good stability, safety and reliability.

Description

Full-automatic standard festival robot welding production line
[ technical field ] A method for producing a semiconductor device
The utility model relates to a standard festival automatic weld technical field specifically relates to a full-automatic standard festival robot welding production line.
[ background of the invention ]
The construction elevator consists of cage, driving mechanism, standard section, wall, chassis, rail, electric system and other parts, and is one manned cargo carrying construction machine used in building. The standard knot is an important component of the construction elevator, the required amount of the standard knot is large, the precision requirement is high, and the processing quality directly influences the quality and the working reliability of the whole machine. Referring to fig. 1, the standard knot is mainly formed by welding a main pipe 10, a main folded plate 20, a sub folded plate 30 and a diagonal web member 40 to each other. Each raw material part of the standard knot needs a clamping mechanism to clamp and position in the welding process, and the automation degree, the operation stability degree and the clamping convenience degree of the clamping mechanism can greatly influence the production efficiency and the product quality. The traditional method is to fix the standard section part by adopting a simpler tool clamp and then manually weld by workers, and the welding efficiency is low, the labor intensity is high and the welding quality is unstable.
[ Utility model ] content
The to-be-solved technical problem of the utility model lies in providing a full-automatic standard festival robot welding production line, can the raw materials part of centre gripping standard festival and weld, degree of automation is high.
The utility model discloses a realize like this: a full-automatic standard festival robot welding production line includes:
the standard knot clamping mechanism is arranged on the rack;
the welding robot is connected to the top of the rack in a sliding mode;
the first conveying track is positioned on the side edge of the rack;
the second conveying track is positioned on the side edge of the first conveying track;
the receiving platform mechanism is connected to the first conveying track in a sliding manner;
the carrying robot is connected with the second conveying track in a sliding mode;
the carrying robot can sequentially grab standard joint raw material parts and then put the standard joint raw material parts into the standard joint clamping mechanism, the standard joint clamping mechanism can clamp the standard joint raw material parts, the welding robot can weld the standard joint raw material parts in the standard joint clamping mechanism into standard joint finished products, the material receiving table mechanism can grab the standard joint finished products, and the carrying robot can grab the standard joint finished products positioned in the material receiving table mechanism;
standard festival fixture has two, is located the left part and the right part of frame, standard festival fixture includes: the roller is provided with a hollow cavity and is rotatably connected with the rack; the bracket is connected with the hollow cavity in a sliding mode along the length direction of the bracket; the cylinder body of the telescopic adjusting cylinder is fixedly connected to the bracket; the back surface of the telescopic base plate is fixedly connected with a piston rod of the telescopic adjusting cylinder; the end plate is fixedly connected to the outer cylinder wall of the roller; the cylinder body of the overturning adjusting cylinder is hinged to the end plate; the overturning seat is hinged to the end plate and is also hinged to a piston rod of the overturning adjusting cylinder; the overturning supporting plate is fixedly connected to the overturning seat; the overturning limiting block is fixedly connected to the end plate; a main pipe clamp arranged on the end plate; a main folded plate clamp arranged on the telescopic substrate; the auxiliary folded plate clamp is arranged on the overturning supporting plate; the diagonal web member clamp is divided into a first diagonal web member clamp and a second diagonal web member clamp, the first diagonal web member clamp is arranged on the telescopic base plate, and the second diagonal web member clamp is arranged on the turnover supporting plate;
the plurality of telescopic adjusting cylinders are arranged at the front side end and the rear side end of the support, the two telescopic base plates are respectively arranged in the front and the rear of the support, the position of the main folded plate fixture is arranged, the telescopic base plates are provided with a first square hole and a second square hole, the two end plates are symmetrically arranged and are fixedly connected through a connecting rod, the overturning supporting plates are positioned between the two end plates, and the two overturning supporting plates are respectively arranged at the upper part and the lower part of the end plates.
The utility model has the advantages that: the utility model discloses a standard festival fixture is installed and is used for cliping the main pipe anchor clamps, main folded plate anchor clamps, vice folded plate anchor clamps and the diagonal web member anchor clamps of standard festival raw materials part, can rotate and stretch out and draw back thereby adjustment anchor clamps position, improve centre gripping efficiency; the standard knot raw material parts are automatically placed into a carrying robot, the clamped standard knot raw material parts are welded into standard knot finished products by the welding robot, the standard knot finished products are received by a receiving platform, then a standard knot clamping mechanism loosens the standard knot finished products and gives out vacant positions, and finally the standard knot finished products are carried away by the carrying robot; the whole working process has high automation degree, high production efficiency, good stability, safety and reliability.
[ description of the drawings ]
The invention will be further described with reference to the following examples with reference to the accompanying drawings.
Fig. 1 is a schematic structural view of a standard section of a construction hoist.
Fig. 2 is a perspective view showing the structure of the welding production line of the full-automatic standard robot.
Fig. 3 is a schematic perspective view of the structure of the middle standard knot clamping mechanism of the present invention.
Fig. 4 is a schematic view of the clamping between each clamp and the standard knot.
Fig. 5 is a schematic plan view of the structure of the middle standard knot clamping mechanism of the present invention.
Fig. 6 is an assembly diagram of the middle roller, the frame, the rotating motor and the supporting wheel assembly according to the present invention.
Fig. 7 is a schematic plan view of the structure of the present invention as viewed from the outer side of the end plate.
Fig. 8 is a schematic plan view of the structure of the present invention as viewed from the inner surface of the end plate.
Fig. 9 is a schematic view of the position relationship among the middle telescopic base plate, the main folded plate clamp, the diagonal web member clamp, and the bracket of the present invention.
Fig. 10 is a schematic view of the installation of the main folded plate fixture and the telescopic base plate of the present invention.
Fig. 11 is a schematic structural view of the main folded plate fixture of the present invention as viewed from the back of the retractable base plate.
Fig. 12 is a schematic view of the main flap clamp of the present invention in a state of clamping the main flap.
Fig. 13 is an installation diagram of the middle diagonal web member clamp, the auxiliary folded plate clamp and the turnover support plate of the present invention.
Fig. 14 is a schematic view of the state that the auxiliary folding plate clamp clamps the auxiliary folding plate.
Fig. 15 is a schematic structural view of the diagonal web member clamp of the present invention.
Fig. 16 is a schematic view showing a state where the clamp opening of the center diagonal web member clamp of the present invention is opened.
Fig. 17 is a schematic view of the state of clamping the clamping opening of the diagonal web member clamp of the present invention.
Fig. 18 is a schematic structural view of the diagonal web member holder of the present invention.
Fig. 19 is a schematic structural view of the diagonal web member clamping jaw of the present invention.
Fig. 20 is a schematic structural diagram of the material receiving table mechanism of the present invention.
Fig. 21 is an assembly diagram of the second support and the material receiving hook of the present invention.
Fig. 22 is a schematic structural view of the transfer robot according to the present invention.
Fig. 23 is a first perspective view of the material clamping jaw of the middle standard joint of the present invention.
Fig. 24 is a schematic perspective view of the material holding jaw of the middle standard joint of the present invention.
Figure 25 is the third structure schematic perspective view of the material clamping jaw of the middle standard joint of the utility model.
Fig. 26 is an assembly profile view of the middle material clamping frame, the second material cylinder, the material clamping slider and the material diagonal web member clamping jaw.
Fig. 27 is a schematic structural view of the raw material clamping frame of the present invention.
Fig. 28 is an assembly profile view of the middle material holder, the third material cylinder, the fourth material cylinder, the main material pipe clamping jaw, and the material folded plate clamping jaw of the present invention.
Fig. 29 is a schematic view of the connection between the fourth material cylinder and the material folding clamping jaw of the present invention.
Fig. 30 is a state diagram of the middle standard raw material clamping jaw clamp for clamping the main pipe.
Fig. 31 is a state diagram of the material clamping jaw clamping folded plate of the middle standard joint of the utility model.
Fig. 32 is a state diagram of the material clamping jaw of the middle standard joint of the utility model clamping the diagonal web member.
Fig. 33 is a first perspective view of a structure of a middle standard joint finished product clamping jaw of the utility model.
Fig. 34 is a schematic perspective view of a middle standard knot finished product clamping jaw of the utility model.
Figure 35 is a plan view of a schematic of the structure of a middle standard knot finished clamping jaw of the present invention.
Figure 36 is the assembly sketch map of well standard festival raw materials clamping jaw and standard festival finished product clamping jaw of the utility model.
Fig. 37 is a schematic structural view of the welding robot of the present invention.
The labels in the figure are: a frame 1, a standard knot clamping mechanism 2, a roller 21, a hollow cavity 211, a driven gear 212, a chute seat 213, a rotating motor 22, a driving gear 221, a base 223, a supporting wheel 224, a bracket 23, a guide rail 231, a telescopic adjusting cylinder 232, a telescopic base plate 233, a first square hole 2331, a second square hole 2332, an end plate 24, a turnover adjusting cylinder 241, a turnover seat 242, a turnover supporting plate 243, a turnover limiting block 244, a connecting rod 25, a main pipe clamp 26, a main pipe cylinder 261, a positioning sleeve 262, a main pipe clamping conical head 263, a main folded plate clamp 27, a first base 271, a main folded plate cylinder 272, a second base 273, a main folded plate clamping block 274, a main folded plate clamping claw 275, a first clamping protrusion 2751, a main folded plate supporting seat 276, a protective cover 277, a supporting adjusting block 278, an auxiliary folded plate clamp 28, a second auxiliary folded plate positioning block 281, a second auxiliary folded plate positioning block 282, an auxiliary folded plate cushion block 283, a sub-folded plate clamping claw 2841, a positioning air cylinder 285, a positioning conical head 286, a diagonal web member clamp 29, a support 291, a diagonal web member clamping seat 292, a clamping groove 2921, a support surface 2922, a positioning surface 2923, a diagonal web member clamping claw 293, a second clamping protrusion 2931, an upper limiting surface 2932, a transition arc surface 2933, a lower limiting surface 2934, a diagonal web member air cylinder 294, a welding robot 3, a welding receiver seat 31, a welding manipulator 32, a welding gun 33, a first conveying rail 4, a first material table 41, a second conveying rail 5, a second material table 51, a material receiving table mechanism 6, a material receiving seat 61, a first support 62, a second support 63, a claw hole 631, a material receiving support plate 64, a material receiving air cylinder 65, a material receiving claw 66, a conveying robot 7, a conveying receiver seat 71, a conveying manipulator 72, a standard material saving material 73, a material clamping claw frame 731, a first through hole 7311, a side hole 7312, a slide 7313, a first material cylinder 7314, a second raw material cylinder 7315, a positioning concave part 7316, a raw material clamping base 732, a second vertical through hole 7321, a transverse groove 7322, a third vertical through hole 7323, a third raw material cylinder 7324, a fourth raw material cylinder 7325, a raw material clamping slider 733, a raw material convex part 7331, a raw material rack 7332, a raw material main clamping jaw 734, a raw material flap clamping jaw 735, a strip-shaped hole 7351, a sinking groove 7352, a raw material joint 7353, a raw material diagonal web clamping jaw 736, a raw material gear 7361, a connecting base 737, a guide sleeve 7371, a support plate 738, a fifth raw material cylinder 739, a standard joint finished product clamping jaw 74, a finished product clamping frame 741, a first finished product hooking jaw 742, a second finished product hooking jaw 743, a first finished product cylinder 744, a second finished product cylinder 745, a finished product base, a third finished product cylinder 747, a finished product insertion hole 746, a main pipe 10, a main folded plate 20, a sub-folded plate 30, a 301, and a diagonal web rod 40.
[ detailed description ] embodiments
For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.
Referring to fig. 1 to 37, the preferred embodiment of the welding line of the full-automatic standard robot for standard sections of the present invention. The utility model discloses a full-automatic standard festival robot welding production line includes: the standard knot clamping mechanism 2 is arranged on the rack 1; the welding robot 3 is connected to the top of the rack 1 in a sliding mode; the first conveying track 4 is positioned on the side edge of the rack 1; the second conveying track 5 is positioned on the side of the first conveying track 4; the receiving platform mechanism 6 is connected to the first conveying track 4 in a sliding manner; a transfer robot 7 slidably connected to the second conveying rail 5; transfer robot 7 can snatch standard festival raw materials part in proper order and put into again standard festival fixture 2, standard festival fixture 2 can clip standard festival raw materials part, welding robot 3 can with standard festival raw materials part among the fixture 2 welds into standard festival finished product, material receiving platform mechanism 6 can snatch standard festival finished product, transfer robot 7 can also snatch and be located material receiving platform mechanism 6 standard festival finished product.
The standard raw material-saving parts comprise a main pipe 10, a main folded plate 20, an auxiliary folded plate 30 and a diagonal web member 40. The first material platforms 41 are slidably connected to the first conveying rails 4, the initial positions of the two first material platforms 41 are respectively located at two ends of the first conveying rails 4, and the first material platforms 41 are used for placing the raw material parts of the main pipe 10 and the auxiliary folded plate 30; the second material platforms 51 are slidably connected to the second conveying rails 5, two initial positions of the second material platforms 51 are located at two ends of the second conveying rails 5, and the second material platforms 51 are used for placing the main folding plates 20 and the diagonal web members 40. The first material table 41 and the second material table 51 are material areas.
Referring to fig. 2 again, there are two standard knot clamping mechanisms 2 located at the left and right parts of the frame 1; when the standard knot clamping mechanism 2 at the left part needs to be loaded, the transfer robot 7, the first material platform 41 positioned at the left side of the first conveying track 4 and the second material platform 51 positioned at the left side of the second conveying track 5 all move to the position of the standard knot clamping mechanism 2 at the left part; when the standard knot clamping mechanism 2 on the right needs to be loaded, the transfer robot 7, the first material table 41 located on the right of the first conveying rail 4 and the second material table 51 located on the right of the second conveying rail 5 all move to the position of the standard knot clamping mechanism 2 on the right.
Referring again to fig. 3 to 6, the standard knot clamping mechanism comprises: the roller 21 is provided with a hollow cavity 211 and is also rotationally connected with the rack 1; a rotary motor 22 having a body fixedly connected to the frame 1; a drive gear 221 fixedly connected to an output shaft of the rotating electric machine 22; a driven gear 212 fixedly connected to the outer cylindrical wall of the drum 21 and positioned in the outer direction of the end plate 24; the supporting wheel assembly comprises a base 223 and two supporting wheels 224, the base 223 is fixedly connected to the machine frame 1, and the two supporting wheels 224 are respectively and rotatably connected to two ends of the base 223; the roller 21 is located between the two supporting wheels 224, the two supporting wheels 224 are abutted against the roller 21, and the driving gear 221 is connected with the driven gear 212 through meshing. When the rotating motor 22 is started, the roller 21 rotates, the supporting wheel 224 also rotates along with the roller, and the stability is high; when the rotary motor 22 is stopped, the drum 211 stops rotating.
The bracket 23 is slidably connected to the hollow cavity 211 along the length direction thereof; the support is characterized by further comprising a pushing cylinder (not shown), the hollow cavity 211 is fixedly provided with a sliding groove seat 213, the upper side surface and the lower side surface of the support 23 are fixedly provided with guide rails 231, and the guide rails 231 are connected with the sliding groove seat 213 in a sliding mode, so that the sliding stability of the support 23 is improved. A cylinder body of the pushing cylinder (not shown) is fixedly connected to the hollow cavity 211, and a piston rod of the pushing cylinder (not shown) is fixedly connected to the bracket 23; the support 23 can be pushed out of the hollow cavity 211 and the support 23 can be pulled back into the hollow cavity 211 by the extension and contraction of a piston rod of a push cylinder (not shown).
A telescopic adjusting cylinder 232, the cylinder body of which is fixedly connected to the bracket 23; and a telescopic base plate 233 having a rear surface fixedly connected to a piston rod of the telescopic adjusting cylinder 232. The plurality of telescopic adjusting cylinders 232 are disposed at the front side end and the rear side end of the bracket 23, the two telescopic substrates 233 are disposed at the front and the rear of the bracket 23, respectively, and the telescopic substrates 233 can move in the front-rear direction by the extension and contraction of the piston rods of the telescopic adjusting cylinders 232.
An end plate 24 fixedly connected to the outer cylindrical wall of the drum 21; the cylinder body of the overturning adjusting cylinder 241 is hinged to the end plate 24; the overturning seat 242 is hinged to the end plate 24 and is also hinged to a piston rod of the overturning adjusting cylinder 241; the piston rod of upset adjustment cylinder 241 is flexible, drives upset seat 242 and rotates, and rotation range is 0 to 90 degrees scopes to corresponding rotation is then made to upset backup pad 243. A turnover support plate 243 fixedly connected to the turnover seat 242; a roll-over stopper 244 fixedly attached to the end plate 24; the turn-over supporting plate 243 is restricted, and when the turn-over supporting plate 243 is turned to a horizontal state, the turn-over stopper 244 blocks the turn-over supporting plate 243. The two end plates 24 are symmetrically arranged and fixedly connected through a connecting rod 25, the two turnover support plates 243 are located between the two end plates 24, and the two turnover support plates 243 are respectively arranged at the upper part and the lower part of the end plates 24. The number of the brackets 23 is two, the two brackets 23 have different lengths, the telescopic base plates 233 are arranged in front of and behind each bracket 23, and the corresponding telescopic base plates 233 have different lengths.
A main pipe clamp 26 provided to the end plate 24; a main folded plate jig 27 provided on the flexible substrate 233; a sub-flap jig 28 provided to the turning support plate 243; the diagonal web member clamp 29 is divided into a first diagonal web member clamp 29 and a second diagonal web member clamp 29, the first diagonal web member clamp 29 is disposed on the telescopic base plate 233, and the second diagonal web member clamp 29 is disposed on the turnover support plate 243. The mounting position of the main pipe clamp 26 on the end plate 24 is determined according to the specification of a standard knot; the mounting positions of the main folded plate jig 27 and the first diagonal web member jig 29 on the telescopic base plate 233 are determined in accordance with the standard knot; the mounting positions of the sub-flap jig 28 and the second diagonal web member jig 29 on the turning support plate 243 are determined in accordance with the specification of the standard knot. In the main flap holder 27, the stretchable base plate 233 has a first square hole 2331 and a second square hole 2332.
Referring again to fig. 5-8, the master pipe clamp 26 includes: a main pipe cylinder 261 having a cylinder body fixedly attached to an outer side surface of the end plate 24; a positioning sleeve 262 fixedly connected to the inner side surface of the end plate 24; a main tube holding conical head 263 slidably connected to the positioning sleeve 262; the piston rod of the main tube cylinder 261 is slidably connected to the end plate 24 and is also fixedly connected to the main tube clamping conical head 263. The main pipe 10 of the standard knot is placed in the positioning sleeve 262, the main pipes on both sides extend out by the piston rods of the air cylinders 261, and the clamping conical heads 263 of the main pipes on both sides prop against two ports of the main pipe 10 to clamp the main pipe 10; the piston rods of the cylinders 261 for the main pipes on both sides are contracted, and the main pipes 10 can be removed by separating the tapered heads 263 for holding the main pipes on both sides from both ports of the main pipe 10.
Referring again to fig. 9-12, the primary flap clamp 27 includes: a first base 271 fixedly connected to the front surface of the telescopic substrate 233; a main flap cylinder 272 having a cylinder body hinged to the first base 271; a second base 273 fixedly connected to the front surface of the retractable base 233; a main flap gripper 274 in which a projection is hinged to the second base 273; the major flap gripper block 274 is inverted F-shaped; a main flap holding claw 275 hinged to the head of the main flap holding block 274; a main flap support 276 fixedly connected to the front surface of the telescopic base plate 233; a shield 277 fixedly attached to the front surface of the telescopic base plate 233; the shield 277 shields welding spatter generated by welding. In one main flap clamp 27, two first bases 271 are disposed on both longitudinal side edges of the first square hole 2331, two second bases 273 are disposed on both longitudinal side edges of the second square hole 2332, both second bases 273 are disposed between the two main flap support bases 276, the main flap cylinder 272 is disposed in the first square hole 2331, a piston rod of the main flap cylinder 272 is hinged to a tail portion of the main flap block 274, a piston rod of the main flap cylinder 272 is disposed in the first square hole 2331 and the second square hole 2332, the main flap block 274 is disposed in the second square hole 2332, the main flap holding claw 275 has an L-shaped end portion, circular arc-shaped first holding protrusions 2751 are fixedly disposed at both ends of the L-shaped end portion, and the protective cover 277 can cover the main flap cylinder 272.
The main folded plate 20 of the standard knot is placed on the main folded plate supporting seat 276, the main folded plate is stretched by a piston rod of the air cylinder 272, and the tail part of the main folded plate clamping block 274 is pushed forwards, so that two circular arc-shaped first clamping bulges 2751 of the main folded plate clamping claw 275 clamp the plate body of the main folded plate 20 of the standard knot; the main flap 20 is then welded and after welding the main flap is retracted with the piston rod of the cylinder 272, pulling the tail of the main flap gripper block 274 back so that the main flap gripper fingers 275 disengage from the standard segmented main flap 20. Due to the arrangement of the protective cover 277, welding slag generated by welding cannot directly contact the cylinder 272 for the main folded plate, the operation stability of the cylinder 272 for the main folded plate is effectively improved, and the service life of the cylinder 272 for the main folded plate is prolonged. The first square hole 2331 and the second square hole 2332 effectively avoid the accumulation of welding slag, facilitate the maintenance and cleaning of the main folded plate clamp 27 by workers, and save space.
The main folded plate fixture 27 further comprises support adjusting blocks 278, and the two support adjusting blocks 278 are respectively and fixedly arranged on the two main folded plate supporting seats 276; according to the actual specification of the main flap 20, the worker determines whether to add the support adjusting block 278, and when the specification of the main flap 20 is too small, the support adjusting block 278 is used to increase the surface of the main flap 20, so that the main flap 20 is supported more stably and clamped more stably.
Referring again to fig. 13 and 14, the secondary flap clamp 28 includes: a first sub flap positioning block 281 fixedly coupled to a front surface of the turning support plate 243; a second sub-flap positioning block 282 fixedly connected to the front surface of the flip support plate 243; a sub-flap positioning block 283 fixedly connected to the front surface of the flip support plate 243 and positioned between the first sub-flap positioning block 281 and the second sub-flap positioning block 282; a sub-flap cylinder 284 having a cylinder body fixedly connected to the turning support plate 243; a sub flap gripper 2841 having one end fixedly connected to a piston rod of the sub flap cylinder 284; the other end of the secondary flap holding claw 2841 can cooperate with the secondary flap pad 283 to hold the secondary flap 30. The sub flap 30 of the standard section is positioned in the sub flap holder 28 by the first sub flap positioning block 281 and the second sub flap positioning block 282, the body of the sub flap 30 is also positioned on the sub flap pad 283, and then the sub flap is contracted by the piston rod of the air cylinder 284, and the sub flap holding claws 2841 are engaged with the sub flap pad 283 to hold the sub flap 30.
Vice folded plate anchor clamps 28 still includes location cylinder 285, the through-hole has been seted up to vice folded plate locating piece 282, the cylinder body of location cylinder 285 with upset backup pad 243 fixed connection, the piston rod sliding connection of location cylinder 285 in the through-hole, the piston rod of location cylinder 285 still fixedly connected with location awl head 286. A plurality of positioning holes 301 are formed in the auxiliary folding plate 30 of the standard knot, the positioning holes 301 are firstly matched with the first auxiliary folding plate positioning blocks 281, and the first auxiliary folding plate positioning blocks 281 cannot move; when the sub-flap 30 is placed on the second sub-flap positioning block 282, the positioning hole 301 of the sub-flap 30 is aligned with the through hole, the piston rod of the positioning cylinder 285 is extended, the positioning cone 286 passes through the positioning hole 301 of the sub-flap 30, and then the sub-flap holding claw 2841 holds the sub-flap 30.
Referring again to fig. 15 to 19, the diagonal web clamp 29 includes: a mount 291; a diagonal web member holder 292 fixedly connected to the mount 291; the diagonal web member clamping claw 293 is hinged to the diagonal web member clamping seat 292; a diagonal web member cylinder 294 whose piston rod is hinged to the tail of the diagonal web member holding claw 293; the cylinder body of the cylinder 294 for the diagonal web member is hinged to the clamping base, a clamping groove 2921 is formed in the upper end of the clamping base, a second clamping protrusion 2931 is formed in the head of the diagonal web member clamping claw 293, the clamping groove 2921 and the second clamping protrusion 2931 can be spliced to form a clamping opening corresponding to the shape of the diagonal web member, the supporting surface 2922 of the diagonal web member clamping base 292 faces the diagonal web member clamping claw 293, the diagonal web member clamping claw 293 is provided with an upper limiting surface 2932, a transition arc surface 2933 and a lower limiting surface 2934, the upper limiting surface 2932, the transition arc surface 2933 and the lower limiting surface 2934 can be attached to the supporting surface 2922, and the diagonal web member cylinder 294 pushes the diagonal web member clamping claw 293 to rotate by means of extension and retraction of a piston rod, so that the clamping opening is clamped and opened. When the piston rod of the cylinder 294 for the diagonal web member is extended and the diagonal web member clamping claw 293 rotates, the lower limiting surface 2934, the transition arc surface 2933 and the upper limiting surface 2932 are sequentially attached to the supporting surface 2922, and when the clamping of the clamping opening is complete, only the upper limiting surface 2932 is attached to the supporting surface 2922, so that the diagonal web member 40 is firmly clamped; when the piston rod of the cylinder 294 for the diagonal web member is contracted and the diagonal web member holding claw 293 is reversed, the upper limit surface 2932, the transition arc surface 2933 and the lower limit surface 2934 are sequentially attached to the support surface 2922, and when the opening of the nip is completed, only the lower limit surface 2934 is attached to the support surface 2922, so that the diagonal web member 40 is released.
The diagonal web member clamp seat 292 has a positioning surface 2923, and the positioning surface 2923 is tangent to the groove surface of the clamping groove 2921. When the inclined web member 40 is placed, the rod body of the inclined web member 40 firstly touches the positioning surface 2923 and then is downwards placed into the clamping groove 2921 along the positioning, so that the clamping efficiency is improved
Referring to fig. 9 and 13, the first and second diagonal web members 29 and 29 include the same components, the support 291 of the first diagonal web member 29 is fixedly connected to the front surface of the telescopic base plate 233, and the support 291 of the second diagonal web member 29 is fixedly connected to the front surface of the inverted support plate 243.
Referring to fig. 20 and 21, the receiving table mechanism 6 includes: the receiving seat 61 is connected to the first conveying rail 4 in a left-right sliding manner; the first support 62 is connected with the material receiving seat 61 in a front-back sliding manner; a second support 63 connected to the first support 62 in a front-rear sliding manner; the material receiving support plate 64 is fixedly connected to the bottom of the second supporting platform 63; the material receiving cylinder 65 is hinged with the material receiving support plate 64; the material receiving hook claw 66 is hinged to the material receiving support plate 64; the second supporting platform 63 is provided with a claw hole 631, the material receiving hook 66 can movably pass through the claw hole 631, and a piston rod of the material receiving cylinder 65 is fixedly connected with the material receiving hook 66. The material receiving hook claw 66 is used for grasping the main pipe 10 in the standard knot finished product. The driving motor is installed at the bottom of the material receiving seat 61, a transmission gear is installed on an output shaft of the driving motor, a rack is arranged on the first conveying track 4 along the length direction of the first conveying track, the transmission gear is meshed with the rack to be connected, when the driving motor rotates forwards or backwards, the material receiving seat 61 slides leftwards or rightwards along the first conveying track 4, and the material receiving table mechanism 6 can move to the standard knot clamping mechanism 2 on the left portion of the rack 1 or move to the standard knot clamping mechanism 2 on the right portion. A driving cylinder is arranged between the receiving seat 61 and the first support 62, and the first support 62 slides back and forth on the receiving seat 61 under the telescopic action of the driving cylinder; a drive cylinder is also mounted between the second support 63 and the first support 62.
When the piston rod of the material receiving cylinder 65 is contracted, the material receiving hook 66 is located in the second support 63, and when the piston rod of the material receiving cylinder 65 is extended, the material receiving hook 66 passes through the hook hole 631 to perform a grabbing action. After the standard knot is welded, the material receiving table mechanism 6 moves to the position of the finished product of the standard knot, the first supporting table 62 and the second supporting table 63 move outwards to the position below the finished product of the standard knot, the material receiving hook 66 catches the main pipe 10 of the finished product of the standard knot, and after the finished product of the standard knot is loosened and the vacancy is made, the material receiving table mechanism 6 drags out the finished product of the standard knot.
Referring to fig. 22 again, the transfer robot 7 includes: a carrying seat 71 slidably connected to the second conveying rail 5; a transfer robot 72 having a bottom portion fixedly connected to the object receiving base; and the standard joint raw material clamping jaw 73 is arranged on the hand part of the manipulator. Referring to the sliding mode of the receiving seat 61, a driving motor, a transmission gear and a rack are arranged between the carrying and object bearing seat and the second conveying track 5. The carrying manipulator 72 is a product in the prior art, and can be an Anthra YASKAWA MOTOMAN-GP225 series manipulator.
Referring again to fig. 23-32, the standard knot material holding jaw 73 comprises: the raw material clamping frame 731 is provided with a first vertical through hole 7311 and a side hole 7312 which are communicated; the raw material clamping seat 732 is connected to the raw material clamping rack 731 in a left-right sliding manner and is further provided with a second vertical through hole 7321, a transverse groove 7322 and a third vertical through hole 7323 which are communicated with each other; the material holding frame 731 has a slide 7313 at a middle position thereof, and the material holding base 732 can slide in the slide 7313. A raw material clamping slider 733 connected to the first vertical through hole 7311 in an up-and-down sliding manner; the raw material main pipe clamping jaw 734 is connected to the second vertical through hole 7321 in an up-and-down sliding manner and is used for clamping the main pipe 10 part of the standard section; a material flap clamping jaw 735 hinged to the transverse groove 7322 and used for clamping the main flap 20 part and the auxiliary flap 30 part of the standard section; and the raw material inclined web member clamping jaw 736 is hinged to the side edge hole 7312 and is used for clamping the inclined web member 40 part of the standard joint. A first raw material cylinder 7314 provided to the raw material gripping frame 731; a second raw material cylinder 7315 provided to the raw material gripping frame 731; a third raw material cylinder 7324 provided in the raw material holder 732; a fourth material cylinder 7325 provided to the material holder 732; a connecting base 737 fixedly connected to the raw material gripping frame 731; a piston rod of the first raw material cylinder 7314 is fixedly connected to the raw material holder 732; the piston rod of the second raw material cylinder 7315 is fixedly connected to the raw material clamping slide 733; a piston rod of the third raw material cylinder 7324 is fixedly connected with the raw material main pipe clamping jaw 734; strip hole 7351 has been seted up to raw materials folded plate clamping jaw 735, the piston rod of cylinder 7325 for the fourth raw materials sliding locate third vertical through-hole 7323 and articulate in strip hole 7351, one side of raw materials centre gripping slider 733 is equipped with raw materials convex part 7331, the opposite side of raw materials centre gripping slider 733 is equipped with raw materials rack 7332, raw materials oblique web member clamping jaw 736 is equipped with raw materials gear 7361, raw materials rack 7332 with raw materials gear 7361 meshes the transmission and is connected, connecting seat 737 fixed connection in the hand of transport manipulator 72.
The first raw material cylinder 7314 controls the sliding of the raw material holder 732 in the raw material clamp frame 731. The second raw material cylinder 7315 controls the sliding of the raw material holding slider 733 in the first vertical through hole 7311. A third feedstock cylinder 7324 controls the sliding of the feedstock main pipe jaw 734 in the second vertical through hole 7321. The material folding clamping jaw 735 is provided with a sinking groove 7352, a piston rod of the fourth material cylinder 7325 is fixedly provided with a material joint 7353, the material joint 7353 is positioned in the sinking groove 7352, a pin shaft penetrates through the center of the material joint 7353 and the strip-shaped hole 7351, and the hinging of the material joint 7353 and the material folding clamping jaw 735 is completed; a fourth material cylinder 7325 controls the rotation of material flap jaws 735. The raw material convex part 7331 is matched with the raw material main pipe clamping jaw 734 to clamp the main pipe 10 of the standard knot; the projection also cooperates with the stock flap jaws 735 to grip the standard section primary and secondary flaps 20, 30. When the raw material clamping slide 733 slides up and down in the first vertical through hole 7311, the raw material inclined web member clamping jaw 736 can rotate forward and backward by the meshing transmission of the raw material rack 7332 and the raw material gear 7361.
The connecting base 737 is provided with a plurality of raw material insertion holes, and guide sleeves 7371 are fixedly arranged in the raw material insertion holes. The standard joint material clamping jaw 73 further comprises a fifth material cylinder 739, the fifth material cylinder 739 is disposed on the connecting seat 737, and a piston rod of the fifth material cylinder 739 is fixedly connected with a first bolt (not shown).
Referring again to fig. 33 to 36, the transfer robot 7 further includes: a standard section finished clamping jaw 74 detachably connected to the connecting seat 737; the standard knot finished jaw 74 comprises: a finished product gripper frame 741; the first finished product claw is hinged to the left part of the finished product clamping rack 741; a left main pipe 10 for hooking the standard knot finished product; the second finished product hook claw is hinged to the right part of the finished product clamping rack 741; a right main pipe 10 for hooking the finished standard knot; a first finished product cylinder 744, the cylinder body of which is hinged to the left side of the bottom of the finished product clamping rack 741; a second finished product cylinder 745, the cylinder body of which is hinged to the right side of the bottom of the finished product clamping rack 741; a finished product base 746 fixedly connected to the top of the finished product clamping frame 741; for releasable attachment to the attachment base 737 of the standard knot material holding jaw 73. When a standard knot finished product needs to be grabbed, the standard knot finished product clamping jaw 74 is installed on the connecting seat 737; when gripping a standard knot stock part, the standard knot finished gripper 74 is placed on the carrier stock 71.
The standard knot finished product clamping jaw 74 further comprises a plurality of third finished product cylinders 747 distributed on the front side and the rear side of the finished product base 746; a second plug (not shown) is fixedly connected to a piston rod of the third component air cylinder 747, and the second plug (not shown) is used for correspondingly locking and connecting with a material socket on the connecting seat 737; the finished base 746 further defines a finished receptacle 748, and the finished receptacle 748 is adapted to be correspondingly locked to a first latch (not shown) of the connecting base 737. The finished product clamping jaw 74 of the standard knot further comprises a supporting table 749, and the supporting table 749 is fixedly connected to the upper side of the bottom of the finished product clamping rack 741. When the finished product base 746 is locked and connected with the connecting base 737, the raw material clamping frame 731 is located on the supporting table 749, and the raw material clamping jaw 73 of the standard knot is protected.
Referring again to fig. 37, the welding robot 3 includes: the welding object bearing seat 31 is connected to the top of the frame 1 in a sliding manner, which is referred to the sliding manner of the transfer robot 7; the welding manipulator 32 is fixedly arranged on the welding object bearing seat 31; the four welding robots 32 are located in the front and rear directions of the rack 1. The welding manipulator 32 is a product in the prior art, and a Panasonic TM1400 manipulator can be selected; and a welding gun 33 is arranged on the hand part of the welding manipulator 32, after all the standard knot raw material parts are clamped by the standard knot clamping mechanism 2, the welding robot 3 moves to the position of the standard knot raw material parts according to the instruction of the control system, and the welding manipulator 32 welds the standard knot raw material parts to form a standard knot finished product.
The utility model is provided with two standard knot clamping mechanisms 2 on a frame 1, and when the first standard knot clamping mechanism 2 finishes clamping required standard knot raw material parts, a welding robot 3 moves to perform welding operation; at this time, the transfer robot 7 moves to the position of the second standard joint clamping mechanism 2, and the standard joint raw material clamping jaws 73 are used for sequentially grabbing the standard joint raw material parts for loading and clamping. After the welding robot 3 welds the clamped standard joint raw material parts into a standard joint finished product, the material receiving platform mechanism 6 moves the position of the standard joint finished product to support and hook the lower main pipe 10 of the standard joint finished product, then the main folded plate clamp 27, the auxiliary folded plate clamp 28, the diagonal web member clamp 29 and the main pipe clamp 26 of the first standard joint clamping mechanism 2 loosen the standard joint finished product, the turnover support plate 243 rotates from a horizontal state to a vertical state, the telescopic base plate 233 approaches to the support 23, and the support 23 returns to the hollow cavity 211 of the roller 21, so that a vacant position is left; at this time, the receiving platform mechanism 6 drags out the finished standard knot. After the transfer robot 7 places the required standard knot raw material parts on the second standard knot clamping mechanism 2, the transfer robot 7 moves to the position of the material receiving table mechanism 6, aligns and locks the connecting base 737 and the finished product base 746 so as to mount the standard knot finished product clamping jaws 74, grabs the left and right main pipes 10 of the standard knot finished product by using the standard knot finished product clamping jaws 74, and transfers the standard knot finished product to a finished product area. The welding robot 3 moves to the position of the second master joint clamping mechanism 2 to perform the welding operation. The whole working process has high automation degree, high production efficiency, good stability, safety and reliability.
The utility model discloses still include current pneumatic control system, electrical control system and PLC control system, pneumatic control system control the utility model provides an operation of all cylinders, electrical control system control the utility model provides an operation of all motors, the staff carries out the instruction in advance in PLC control system and sets for, in the production process, transfer robot 7 carries out accurate transport operation and welding jobs with welding robot 3 according to the instruction to accomplish the automatic centre gripping and the automatic weld of standard festival.
Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not intended to limit the scope of the present invention, and that modifications made by those skilled in the art within the spirit of the present invention are intended to be covered by the appended claims.

Claims (8)

1. The utility model provides a full-automatic standard festival robot welding production line which characterized in that includes:
the standard knot clamping mechanism is arranged on the rack;
the welding robot is connected to the top of the rack in a sliding mode;
the first conveying track is positioned on the side edge of the rack;
the second conveying track is positioned on the side edge of the first conveying track;
the receiving platform mechanism is connected to the first conveying track in a sliding manner;
the carrying robot is connected with the second conveying track in a sliding mode;
the carrying robot can sequentially grab standard joint raw material parts and then put the standard joint raw material parts into the standard joint clamping mechanism, the standard joint clamping mechanism can clamp the standard joint raw material parts, the welding robot can weld the standard joint raw material parts in the standard joint clamping mechanism into standard joint finished products, the material receiving table mechanism can grab the standard joint finished products, and the carrying robot can grab the standard joint finished products positioned in the material receiving table mechanism;
standard festival fixture has two, is located the left part and the right part of frame, standard festival fixture includes:
the roller is provided with a hollow cavity and is rotatably connected with the rack;
the bracket is connected with the hollow cavity in a sliding mode along the length direction of the bracket;
the cylinder body of the telescopic adjusting cylinder is fixedly connected to the bracket;
the back surface of the telescopic base plate is fixedly connected with a piston rod of the telescopic adjusting cylinder;
the end plate is fixedly connected to the outer cylinder wall of the roller;
the cylinder body of the overturning adjusting cylinder is hinged to the end plate;
the overturning seat is hinged to the end plate and is also hinged to a piston rod of the overturning adjusting cylinder;
the overturning supporting plate is fixedly connected to the overturning seat;
the overturning limiting block is fixedly connected to the end plate;
a main pipe clamp arranged on the end plate;
a main folded plate clamp arranged on the telescopic substrate;
the auxiliary folded plate clamp is arranged on the overturning supporting plate;
the diagonal web member clamp is divided into a first diagonal web member clamp and a second diagonal web member clamp, the first diagonal web member clamp is arranged on the telescopic base plate, and the second diagonal web member clamp is arranged on the turnover supporting plate;
the plurality of telescopic adjusting cylinders are arranged at the front side end and the rear side end of the support, the two telescopic base plates are respectively arranged in the front and the rear of the support, the position of the main folded plate fixture is arranged, the telescopic base plates are provided with a first square hole and a second square hole, the two end plates are symmetrically arranged and are fixedly connected through a connecting rod, the overturning supporting plates are positioned between the two end plates, and the two overturning supporting plates are respectively arranged at the upper part and the lower part of the end plates.
2. The fully automatic standard joint robot welding production line of claim 1, wherein the master pipe clamp comprises:
the cylinder body of the main pipe cylinder is fixedly connected to the outer side surface of the end plate;
the positioning sleeve is fixedly connected to the inner side surface of the end plate;
the main pipe clamping conical head is connected with the positioning sleeve in a sliding manner;
a piston rod of the main pipe cylinder is connected to the end plate in a sliding manner and is also fixedly connected with the main pipe clamping conical head;
the main flap clamp includes:
the first base is fixedly connected to the front surface of the telescopic base plate;
the cylinder body of the main folded plate is hinged with the first base;
the second base is fixedly connected to the front surface of the telescopic base plate;
a main flap clamping block, wherein a convex part is hinged with the second base;
the main folded plate clamping claw is hinged to the head of the main folded plate clamping block;
the main folded plate supporting seat is fixedly connected to the front side of the telescopic base plate;
the protective cover is fixedly connected to the front surface of the telescopic base plate;
the two first bases are arranged on two side edges in the length direction of the first square hole, the two second bases are arranged on two side edges in the length direction of the second square hole, the two second bases are located between the two main folded plate supporting seats, the main folded plate clamping block is located in the second square hole, a piston rod of the main folded plate cylinder is hinged to the tail portion of the main folded plate clamping block, the piston rod of the main folded plate cylinder is located in the first square hole and the second square hole, the main folded plate clamping block is located in the second square hole, the main folded plate clamping claw is provided with an L-shaped end portion, circular arc-shaped first clamping bulges are fixedly arranged at two ends of the L-shaped end portion, and the main folded plate cylinder can be shielded by the protective cover;
the sub flap clamp includes:
the first auxiliary folded plate positioning block is fixedly connected to the front surface of the overturning supporting plate;
the second auxiliary folded plate positioning block is fixedly connected to the front side of the turnover supporting plate;
the auxiliary folded plate cushion block is fixedly connected to the front surface of the turnover supporting plate and is positioned between the first auxiliary folded plate positioning block and the second auxiliary folded plate positioning block;
the cylinder body of the air cylinder for the auxiliary folded plate is fixedly connected with the overturning supporting plate;
one end of the auxiliary folding plate clamping claw is fixedly connected to a piston rod of the air cylinder for the auxiliary folding plate;
the other end of the auxiliary folded plate clamping claw can be matched with the auxiliary folded plate cushion block to clamp the auxiliary folded plate;
the diagonal web member clamp includes:
a support;
the inclined web member clamping seat is fixedly connected to the support;
the inclined web member clamping claw is hinged to the inclined web member clamping seat;
the piston rod of the cylinder for the diagonal web member is hinged with the tail part of the diagonal web member clamping claw;
the cylinder body of the cylinder for the diagonal web member is hinged with the clamping seat, the upper end of the clamping seat is provided with a clamping groove, the head of the diagonal web member clamping claw is provided with a second clamping protrusion, the clamping groove and the second clamping protrusion can be spliced to form a clamping opening corresponding to the shape of the diagonal web member, the supporting surface of the diagonal web member clamping seat faces the diagonal web member clamping claw, the diagonal web member clamping claw is provided with an upper limiting surface, a transition arc surface and a lower limiting surface, the upper limiting surface, the transition arc surface and the lower limiting surface can be attached to the supporting surface, and the diagonal web member pushes the diagonal web member clamping claw to rotate by the expansion of the piston rod of the cylinder for the diagonal web member, so that the clamping opening is clamped and opened;
the support of first oblique web member anchor clamps be fixed connection in the front of flexible base plate, the support fixed connection of second oblique web member anchor clamps in the front of upset backup pad.
3. The full-automatic standard joint robot welding production line of claim 2, wherein the main folded plate fixture further comprises support adjusting blocks, and the two support adjusting blocks are fixedly arranged on the two main folded plate supporting seats respectively;
the auxiliary folded plate fixture further comprises a positioning cylinder, a through hole is formed in the second auxiliary folded plate positioning block, the cylinder body of the positioning cylinder is fixedly connected with the overturning supporting plate, the piston rod of the positioning cylinder is connected with the through hole in a sliding mode, and the piston rod of the positioning cylinder is further fixedly connected with a positioning conical head.
4. The full-automatic standard joint robot welding production line of claim 2, wherein the inclined web member clamping seat is provided with a positioning surface, and the positioning surface is tangent to the groove surface of the clamping groove.
5. The full-automatic standard joint robot welding production line of claim 1, wherein the receiving platform mechanism comprises:
the receiving seat is connected with the first conveying rail in a left-right sliding manner;
the first supporting platform is connected to the material receiving pedestal in a front-back sliding manner;
the second supporting platform is connected with the first supporting platform in a front-back sliding manner;
the material receiving support plate is fixedly connected to the bottom of the second supporting platform;
the cylinder body of the material receiving cylinder is hinged to the material receiving support plate;
the material receiving hook claw is hinged to the material receiving support plate;
the second supporting platform is provided with a claw hole, the material receiving hook can movably penetrate through the claw hole, and a piston rod of the material receiving cylinder is fixedly connected with the material receiving hook.
6. The full-automatic standard knot robot welding production line of claim 1, characterized in that the standard knot clamping mechanism further comprises:
the body of the rotating motor is fixedly connected with the frame;
a driving gear fixedly connected to an output shaft of the rotating electrical machine;
the driven gear is fixedly connected to the outer cylinder wall of the roller and is positioned in the outer side direction of the end plate;
the supporting wheel assembly comprises a base and two supporting wheels, the base is fixedly connected to the rack, and the two supporting wheels are respectively and rotatably connected to two ends of the base;
the roller is positioned between the two supporting wheels, the two supporting wheels prop against the roller, and the driving gear is meshed with the driven gear.
7. The fully automated standard knot robot welding production line of claim 1, wherein the transfer robot comprises:
the carrying and object bearing seat is connected with the second conveying rail in a sliding manner;
the bottom of the conveying mechanical arm is fixedly connected with the conveying object bearing seat;
the standard section raw material clamping jaw is arranged on the hand part of the manipulator;
the standard festival raw materials clamping jaw includes:
the raw material clamping frame is provided with a first vertical through hole and a side hole which are communicated;
the raw material clamping seat is connected to the raw material clamping rack in a left-right sliding manner and is also provided with a second vertical through hole, a transverse groove and a third vertical through hole which are communicated with each other;
the raw material clamping sliding block is connected to the first vertical through hole in an up-and-down sliding mode;
the raw material main pipe clamping jaw is connected to the second vertical through hole in an up-and-down sliding mode;
the raw material folded plate clamping jaw is hinged to the transverse groove;
the raw material inclined web member clamping jaw is hinged to the side edge hole;
the first raw material cylinder is arranged on the raw material clamping rack;
the second raw material cylinder is arranged on the raw material clamping rack;
the third raw material cylinder is arranged on the raw material clamping seat;
a fourth raw material cylinder arranged on the raw material clamping seat;
the connecting seat is fixedly connected to the raw material clamping rack;
the piston rod of cylinder for the first raw materials with raw materials grip slipper fixed connection, the piston rod of cylinder for the second raw materials with raw materials centre gripping slider fixed connection, the piston rod of cylinder for the third raw materials is responsible for clamping jaw fixed connection with the raw materials, the bar hole has been seted up to the raw materials folded plate clamping jaw, the piston rod of cylinder for the fourth raw materials cunning locate the vertical through-hole of third and articulate in the bar hole, one side of raw materials centre gripping slider is equipped with the raw materials convex part, the opposite side of raw materials centre gripping slider is equipped with the raw materials rack, the oblique web member clamping jaw of raw materials is equipped with the raw materials gear, the raw materials rack with the transmission of raw materials gear engagement is connected, connecting seat fixed connection in the hand of transport manipulator.
8. The fully automated standard knot robot welding production line of claim 7, wherein the transfer robot further comprises:
the standard knot finished product clamping jaw is detachably connected to the connecting seat;
the standard knot finished product clamping jaw comprises:
a finished product clamping rack;
the first finished product claw is hinged to the left part of the finished product clamping rack;
the second finished product hook claw is hinged to the right part of the finished product clamping rack;
the cylinder body of the first finished product cylinder is hinged to the left side of the bottom of the finished product clamping rack;
the cylinder body of the second finished product-used cylinder is hinged to the right side of the bottom of the finished product clamping rack;
the finished product base is fixedly connected to the top of the finished product clamping rack;
the first finished product hook claws are two in number, a first connecting rod is fixedly arranged between the two first finished product hook claws, piston rods of the cylinders for the first finished products are hinged to the first connecting rod, the first finished product hook claws are provided with first hook grooves, the second finished product hook claws are two in number, a second connecting rod is fixedly arranged between the two second finished product hook claws, the piston rods of the cylinders for the second finished products are hinged to the second connecting rod, the second finished product hook claws are provided with second hook grooves, and the finished product base is detachably connected with the connecting seat.
CN202020040889.7U 2020-01-09 2020-01-09 Full-automatic standard festival robot welding production line Active CN212286379U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020040889.7U CN212286379U (en) 2020-01-09 2020-01-09 Full-automatic standard festival robot welding production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020040889.7U CN212286379U (en) 2020-01-09 2020-01-09 Full-automatic standard festival robot welding production line

Publications (1)

Publication Number Publication Date
CN212286379U true CN212286379U (en) 2021-01-05

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114193077A (en) * 2021-11-19 2022-03-18 江苏振光电力设备制造有限公司 Novel automatic assembling and welding tool for tower standard knot and clamping method thereof
CN115958366A (en) * 2023-02-21 2023-04-14 成都中挖属汇科技有限公司 Standard festival assembly welding frock

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114193077A (en) * 2021-11-19 2022-03-18 江苏振光电力设备制造有限公司 Novel automatic assembling and welding tool for tower standard knot and clamping method thereof
CN114193077B (en) * 2021-11-19 2024-04-19 江苏振光电力设备制造有限公司 Novel automatic assembly and welding tool for tower standard joint and clamping method thereof
CN115958366A (en) * 2023-02-21 2023-04-14 成都中挖属汇科技有限公司 Standard festival assembly welding frock
CN115958366B (en) * 2023-02-21 2023-05-23 成都中挖属汇科技有限公司 Standard festival equipment welding frock

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