Utility model content
The purpose of this utility model is to provide a kind of gear paper detent mechanism, to realize just three blocking in flakes and having good positioning, ensures that three there will not be position deviation in flakes.
To achieve these goals, the technical solution of the utility model is: provide a kind of gear paper detent mechanism, comprise lifting support, front paper blocking mechanism and rear paper blocking mechanism, described front paper blocking mechanism is installed on the front portion of described lifting support, described front paper blocking mechanism comprises horizontal slide rail, lower horizontal slide rail, the two side block cardboards vertically put, reverse screw component and handwheel, the corresponding described horizontal slide rail of front side wall of described side block cardboard and described lower horizontal slide rail are installed with transverse slider and lower transverse slider respectively, described upper transverse slider and described lower transverse slider are slidably connected on described horizontal slide rail and described lower horizontal slide rail respectively, the medial extremity of the rear wall of described side block cardboard is provided with recessed district, right angle, front paper placement area is formed between two recessed district, right angles, screw mandrel contiguous block is installed with between the corresponding described upper transverse slider of front side wall of described side block cardboard and described lower transverse slider, described screw mandrel contiguous block offers screw mandrel screw, the two ends of described reverse screw mandrel screw the described screw mandrel screw through correspondence respectively, described handwheel is fixed in one end of described reverse screw mandrel, described rear paper blocking mechanism comprises two longitudinal sliding frames, horizontal balladeur train and two backstop paper assemblies, longitudinal sliding frame described in two is fixed in two medial extremitys of described lifting support respectively, the two ends slide anteroposterior of the bottom of described horizontal balladeur train is connected to the rear end of described longitudinal sliding frame, described horizontal balladeur train offers horizontal concrete chute, described backstop paper assembly comprises take-up housing, adjusting knob, linear slide block, linear slide rail and right angle paper stopper, described take-up housing slides and is connected in described horizontal concrete chute, the lower end of described adjusting knob is provided with and tightens nail, described take-up housing is provided with and tightens installing hole, the described nail that tightens screws and is arranged in described horizontal concrete chute through the described installing hole that tightens, described linear slide block to be fixed on described take-up housing and to be positioned at the front side of described horizontal balladeur train, described linear slide rail slides up and down and is connected in described linear slide block, the upper end of described linear slide rail is provided with banking pin, described banking pin can be arranged in the top of described linear slide block, described right angle paper stopper is fixed in the lower end of described linear slide rail antetheca, described right angle paper stopper inwardly always open, backstop paper space is formed between right angle paper stopper described in two.
Described front paper blocking mechanism also comprises middle baffle plate, and the two ends of described middle baffle plate to be fixed on described horizontal slide rail and described lower horizontal slide rail described in corresponding two between side block cardboard respectively.
The top of described longitudinal sliding frame is provided with longitudinal chute, and the two ends of the bottom of described horizontal balladeur train are provided with sliding nail, and described sliding nail slides and is arranged in corresponding described longitudinal chute.
Compared with prior art, the utility model gear paper detent mechanism structure is simple, practical, realizes stopping three in flakes and having good positioning, ensures that three there will not be position deviation in flakes.
By following description also by reference to the accompanying drawings, the utility model will become more clear, and these accompanying drawings are for explaining embodiment of the present utility model.
Detailed description of the invention
Referring to figs. 1 to Fig. 8, upper paper apparatus 900 comprises paper platform elevating mechanism 910, three travel mechanism 940, suction paper mold mechanism 950 and gear paper detent mechanism in flakes.Described gear paper detent mechanism comprise lifting support 911, front paper blocking mechanism 920, rear paper blocking mechanism 930.
Upper paper platform elevating mechanism 910 comprises the two chain drive assemblies 912 being symmetrically placed in the two ends of described lifting support 911, final drive shaft 913 and driven unit 914.
Described chain drive assembly 912 comprises driving gear 9121, upper driven gear 9122, the axle 9123 that cogs, lower driving gear 9124, lower driven gear 9125, lower tooth wheel shaft 9126, initiatively driving-chain 9127, slave drive chain 9128 and some support bars 9129.The described two ends cogging axle 9123 are provided with the end 91231 that is rotatably connected.The two ends of described lower tooth wheel shaft 9126 are provided with lower rotation link 91261, and the end 91231 that is rotatably connected on described is rotatably connected in the upper end of described lifting support 911.Described lower rotation link 91261 is rotatably connected respectively in the lower end of described lifting support 911.Cog described in described upper driving gear 9121 and upper driven gear 9122 are fixed in respectively the two ends of axle 9123 corresponding described on to be rotatably connected the inner side of end 91231.Described lower driving gear 9124 and described lower driven gear 9125 are fixed in the inner side of the corresponding described lower rotation link 91261 in two ends of described lower tooth wheel shaft 9126 respectively.Described active driving-chain 9127 is wound in outside described upper driving gear 9121 and described lower driving gear 9124.Described slave drive chain 9128 is wound in outside described upper driven gear 9122 and described lower driven gear 9125.Described axle 9123 and described lower tooth wheel shaft 9126 level parallel to each other and put of cogging.Described active driving-chain 9127 and described slave drive chain 9128 parallel to each other vertical and put.Some described support bar 9129 levels and being fixed in uniformly between described active driving-chain 9127 and described slave drive chain 9128.The first helical gear 91262 is provided with between the corresponding described lower driving gear 9124 of described lower tooth wheel shaft 9126 and corresponding lower rotation link 91261.The two ends correspondence of described final drive shaft 913 is provided with the second helical gear 9131.The two ends of described final drive shaft 913 rotate through the bottom of described lifting support 911.Described second helical gear 9131 engages with corresponding described first helical gear 91262.Described driven unit 914 is fixed on described lifting support 911, and the output of described driven unit 914 connects with described final drive shaft 913, and described final drive shaft 913 drives described active driving-chain 9127 and described slave drive chain 9128 synchronous axial system.
Cog described in described lifting support 911 correspondence axle 9123 and lower tooth wheel shaft 9126 place is respectively equipped with upper mounting plate 9111 and lower installation board 9112.The end 91231 that is rotatably connected on described upper mounting plate 9111 is corresponding described is provided with the top chock 9113 of upper bearing (metal) 91131 respectively to interior projection, the end 91231 that is rotatably connected on described inserts in the inner ring of corresponding described upper bearing (metal) 91131 admittedly.The corresponding described lower rotation link 91261 of described lower installation board 9112 is provided with the step 9114 of lower bearing 91141 respectively to interior projection.Described lower rotation link 91261 inserts in the inner ring of corresponding described lower bearing 91141 admittedly.
Described driven unit 914 comprises servomotor 9141 and reductor 9142.The output of described servomotor 9141 connects with the input of described reductor 9142.The output of described reductor 9142 connects with described final drive shaft 913 through corresponding described lower installation board 9112.
The inner side of described active driving-chain 9127 is provided with initiatively chain gripper shoe 91271, and described active chain gripper shoe 91271 is fixed on described lifting support 911.The inner side of described slave drive chain 9128 is provided with driven chain gripper shoe 91281, and described driven chain gripper shoe 91281 is fixed on described lifting support 911..
Described front paper blocking mechanism 920 is installed on the front end of described lifting support 911, particularly, described front paper blocking mechanism 920 is installed on the front of corresponding described chain drive assembly 912 on described lifting support 911, and front paper blocking mechanism 920 comprises horizontal slide rail 921, lower horizontal slide rail 922, two is vertical and the side block cardboard 923 put, reverse screw component 924 and handwheel 925.
The corresponding described horizontal slide rail 921 of front side wall of described side block cardboard 923 and described lower horizontal slide rail 922 are installed with transverse slider 9231 and lower transverse slider 9232 respectively.Described upper transverse slider 9231 and described lower transverse slider 9232 are slidably connected on described horizontal slide rail 921 and described lower horizontal slide rail 922 respectively.The medial extremity of the rear wall of described side block cardboard 923 is provided with recessed district 9233, right angle.Front paper placement area is formed between two recessed district, right angles 9233.Screw mandrel contiguous block 9234 is installed with between the corresponding described upper transverse slider 9231 of front side wall of described side block cardboard 923 and described lower transverse slider 9232.Described screw mandrel contiguous block 9234 offers screw mandrel screw (not shown).The two ends of described reverse screw mandrel 924 screw the described screw mandrel screw through correspondence respectively, and described handwheel 925 is fixed in one end of described reverse screw mandrel 924.
Described front paper blocking mechanism 920 also comprises middle baffle plate 926.The two ends of described middle baffle plate 926 to be fixed on described horizontal slide rail 921 and described lower horizontal slide rail 922 described in corresponding two between side block cardboard 923 respectively.
Backstop paper frame mechanism 930 comprises two longitudinal sliding frames 931, horizontal balladeur train 932 and two backstop paper assemblies 933.Longitudinal sliding frame 931 described in two is fixed in two medial extremitys of described lifting support 911 respectively, the two ends slide anteroposterior of the bottom of described horizontal balladeur train 932 is connected on described longitudinal sliding frame 931, particularly, the top of described longitudinal sliding frame 931 is provided with longitudinal chute 9311, the two ends of the bottom of described horizontal balladeur train 932 are provided with sliding nail (not shown), and described sliding nail slides and to be arranged in corresponding described longitudinal chute 9311.Described horizontal balladeur train 932 offers horizontal concrete chute 9321.Described backstop paper assembly comprises take-up housing 9331, adjusting knob 9332, linear slide block 9333, linear slide rail 9334 and right angle paper stopper 9335.Described take-up housing 9331 slides and is connected in described horizontal concrete chute 9321.The lower end of described adjusting knob 9332 is provided with and tightens nail (not shown), and described take-up housing 9331 is provided with and tightens installing hole (figure is for showing), described in tighten nail and screw and be arranged in described horizontal concrete chute 9321 through the described installing hole that tightens.Described linear slide block 9333 to be fixed on described take-up housing 9331 and to be positioned at the front side of described horizontal balladeur train 932, and described linear slide rail 9334 slides up and down and is connected in described linear slide block 9333.The upper end of described linear slide rail 9334 is provided with banking pin 93341, and described banking pin 93341 can be arranged in the top of described linear slide block 9333.Described right angle paper stopper 9335 is fixed in the lower end of described linear slide rail 9334 antetheca, described right angle paper stopper 9335 inwardly always open, forms backstop paper space described in two between right angle paper stopper 9335.
Described three in flakes travel mechanism 940 be installed on the top of corresponding described chain drive assembly 912 on described lifting support 911.Three in flakes travel mechanism 940 comprise servomotor 9411, reductor 9412, motor cabinet 9413, longitudinal transmission installing plate 9421, belt 9422, front regulating wheel 9423, rear regulating wheel 9424, driving pulley assembly 943, cylinder 944, cylinder slide assembly 945, ventilation row 946 and trapezoidal plate 947.
Described motor cabinet 9413 is installed on the rear end of described transmission installing plate 9421.Described servomotor 9411 is fixed on described motor cabinet 9413 after connecting with described reductor 9412.The output of described reductor 9412 connects with described driving pulley assembly 943.The front end of described transmission installing plate 9421 offers front regulating wheel placement hole 94211, front regulating wheel bearing 94212.Described front regulating wheel 9423 is placed in described front regulating wheel placement hole 94211 and is rotatably connected on described front regulating wheel bearing 94212.The rear end of described transmission installing plate 9421 offers rear regulating wheel placement hole (not shown) and rear regulating wheel bearing 94214.Described rear regulating wheel 9424 is placed in described rear regulating wheel placement hole 94213 and is rotatably connected on described rear regulating wheel bearing 94214.Described belt 9422 is wound around with on described front regulating wheel 9423, rear regulating wheel 9424 and described driving pulley assembly 943.The bottom of described transmission installing plate 9421 is provided with linear slide rail 94215.The lower end of described cylinder slide assembly 945 is fixed in the stiff end of described cylinder 944, and the upper end of described cylinder slide assembly 945 to be slidably connected on described linear slide rail 94215 and affixed with described belt 9422.Described ventilation row 946 is fixed in the output of described cylinder 944.Described trapezoidal plate 947 is connected to the bottom of described ventilation row 946.
Described three in flakes travel mechanism 940 also comprise two slide-bars 9481, diaxon end cap 9482 and two linear bearings 9483.The two ends of what described linear bearing about 9483 moved towards be installed on described ventilation row 946.The lower end of described slide-bar 9481 and the top of the described row 946 that takes a breath affixed.The upper end of described slide-bar 9481 slides through corresponding linear bearing 9483 and affixed with described hubcap 9482.
Described cylinder slide assembly 945 comprises cylinder keyset 9451, thread form plate 9452, sliding seat 9453 and linear slide block 9454.Described cylinder keyset 9451 is fixed in the stiff end of described cylinder 944, and described sliding seat 9453 is fixed on described cylinder keyset 9451.The upper end of described sliding seat 9453 is provided with thread form plate mounting groove 94531, and described belt 9422 is through described thread form plate mounting groove 94531.Described thread form plate 9452 to be installed in described thread form plate mounting groove 94531 and to be fixed on described sliding seat 9453 by described belt 9422.Described linear slide block 9454 is fixed in the top of described sliding seat 9453, and described linear slide block 9454 is slidably connected on described linear slide rail 94215.Described linear slide block 9454 is provided with electronic eyes 94541.The both sides of the corresponding described belt 9422 in top of described transmission installing plate 9421 are provided with some to mounting blocks 94213.
Suction nozzle mold mechanism 950 comprises mould installing rack 951, benchmark suction nozzle slide track component 952 and at least one movable suction nozzle slide track component 953.
The top of described mould installing rack 951 is provided with the draw-in groove 9511 longitudinally running through self, and described draw-in groove 9511 is in up-narrow and down-wide trapezoidal shape.Described trapezoidal plate 947 is arranged in described draw-in groove 9511, and the two side ends of described mould installing rack 951 is respectively equipped with sideslip groove 9512.Some component suction nozzles 954 that described benchmark suction nozzle slide track component 952 comprises the horizontal slide rail 9521 of benchmark and is slidably connected on the horizontal slide rail 9521 of described benchmark, described movable suction nozzle slide track component 953 comprises movable transverse to slide rail 9531, longitudinal sliding block 9532 and be slidably connected to described movable transverse to the some component suction nozzles 954 on slide rail 9531, and described longitudinal sliding block 9532 and described movable transverse are affixed and be slidably connected in described sideslip groove 9512 to slide rail 9531.Described component suction nozzle 954 comprises suction nozzle fixed block 9541 and at least one suction nozzle 9542.Described suction nozzle fixed block 9541 slides and is connected in the horizontal slide rail 9521 of described benchmark or movable transverse on slide rail 9531.Described suction nozzle fixed block 9541 is provided with suction nozzle installing hole 95411.Described suction nozzle 9542 comprises suction nozzle 95421 and nozzle body 95422.Described nozzle body 95422 is positioned at the bottom of described suction nozzle fixed block 9541.Described suction nozzle 95421 is secured across described suction nozzle installing hole 95411 and stretches out the top of described suction nozzle fixed block 9541.In the present embodiment, the quantity of described movable suction nozzle slide track component 952 is two.Described component suction nozzle 954 comprises a suction nozzle 9542.Described draw-in groove 9511 is in up-narrow and down-wide trapezoidal shape.
When upper paper apparatus 900 uses, three are placed in flakes and are positioned in the pair of support rods 9129 of same level position, servomotor 9141 drives final drive shaft 913 to rotate, then two lower tooth wheel shaft 9126 synchronous axial system are driven, then two are driven to cog axle 9123 synchronous axial system, then drive two initiatively slave drive chain 9128 synchronous axial system described in driving-chain 9127 and two, thus drive this synchronously to rise to support bar 9129.Three in flakes in uphill process, and three location, front end are in flakes blocked by two recessed districts, right angle of front paper blocking mechanism, and three location, rear end are in flakes blocked by two right angle paper stoppers of rear paper blocking mechanism.After suction nozzle mold mechanism 950 adsorbs in flakes by three, servomotor 9411 drives belt 9422 to rotate by driving pulley assembly 943, then trapezoidal plate 947 is driven to move forward, thus drive suction nozzle mold mechanism 950 to move forward, three move on carrier chain with suction nozzle mold mechanism 950 in flakes, and then carry out follow-up manufacturing procedure.
The utility model gear paper detent mechanism structure is simple, practical, realizes stopping three in flakes and having good positioning, ensures that three there will not be position deviation in flakes.
More than in conjunction with most preferred embodiment, the utility model is described, but the utility model is not limited to the embodiment of above announcement, and amendment that the various essence according to the present embodiment carries out, equivalent combinations should be contained.