CN208683931U - Chip capacitor rotating disc type mark transfer device - Google Patents

Abstract

The utility model relates to a kind of chip capacitors, specifically chip capacitor rotating disc type mark transfer device, belong to chip capacitor technical field.It includes installation panel, Cam splitter, preceding turntable and rear turntable, front rotary shaft is rotatablely connected by bearing on installation panel, turntable before being rotatablely connected on front rotary shaft by bearing, preceding turntable outer ring is installed with front gear, shaft after being rotatablely connected on panel by bearing is installed, turntable after being connected in shaft by bearing afterwards, rear turntable outer ring are equipped with backgear, and intermediate gear intermeshes with front gear, backgear respectively.The utility model structure is simple, compact, reasonable, stable and reliable in work, can by capacitor finished product it is continual do not malfunction be transported to next station, high degree of automation improves work efficiency and product quality.

Description

Chip capacitor rotating disc type mark transfer device

Technical field

The utility model relates to a kind of chip capacitor, specifically chip capacitor rotating disc type mark transfer device, Belong to chip capacitor technical field.

Background technique

Sheet type aluminum electrolytic capacitor is a kind of technologically advanced, function admirable capacitor product.The high frequency bottom that it has The superiority that resistance has solid aluminum electrolytic capacitor incomparable.The positive and negative anodes arrangement order of capacitor is very strict, It must assure that zero error.The product needs the reverse side in capacitor pin face carrying out laser marking in process of production, turns again Discharging is packed behind the whole front and back sides direction of transposition.

Summary of the invention

In place of the purpose of this utility model is to overcome above-mentioned deficiency, to provide a kind of chip capacitor rotating disc type mark Transfer device, can by capacitor finished product it is continual do not malfunction be transported to next station, high degree of automation improves work Make efficiency and product quality.

According to technical solution provided by the utility model, chip capacitor rotating disc type mark transfer device includes mounting surface Plate, Cam splitter, preceding turntable and rear turntable, it is characterized in that: being rotatablely connected front rotary shaft, front rotary shaft by bearing on installation panel Upper to be rotatablely connected preceding turntable by bearing, preceding turntable outer ring is installed with front gear, installs after being rotatablely connected on panel by bearing Shaft, turntable after being connected in rear shaft by bearing, rear turntable outer ring are equipped with backgear, install and are rotatablely connected center tooth on panel Wheel shaft connects intermediate gear on intermediate gear shaft, and intermediate gear intermeshes with front gear, backgear respectively；It installs on panel Equipped with Cam splitter, turntable before Cam splitter power output shaft end connects, the indexed cam of Cam splitter passes through swing link transmission Mechanism connects front rotary shaft, shaft after front rotary shaft is connected by synchronous drive mechanism, and Cam splitter drives front rotary shaft rotation, forward Shaft rotates synchronously after axis drives；

Preceding cam ring is connected on front rotary shaft, and sliding cavity in front cam is equipped in preceding cam ring, it is solid before front rotary shaft front end is affixed Determine ring, preceding fixed ring is located at sliding cavity center in front cam；It is sliding that multiple suction nozzles are along the circumferential direction uniformly provided on preceding turntable Slot is equipped with an initial vacuum suction nozzle in each suction nozzle sliding slot, and initial vacuum suction nozzle can be moved radially along suction nozzle sliding slot, initial vacuum Suction nozzle camshaft bearing, preceding suction nozzle camshaft bearing are located in front cam in sliding cavity before suction nozzle tail end connects, preceding suction nozzle camshaft bearing Preceding suction nozzle camshaft bearing is pressed in front cam and slides chamber inner sidewall by spring compression mechanism before upper connection, preceding spring compression mechanism On；

Cam ring after connecting in shaft afterwards is equipped with sliding cavity in rear cam in rear cam ring, solid after rear shaft front end is affixed Determine ring, rear fixed ring is located at sliding cavity center in rear cam；It is sliding that multiple suction nozzles are along the circumferential direction uniformly provided on turntable afterwards Slot, vacuum cups after being equipped with one in each suction nozzle sliding slot, rear vacuum cups can be moved radially along suction nozzle sliding slot, rear vacuum Suction nozzle camshaft bearing after the connection of suction nozzle tail end, rear suction nozzle camshaft bearing are located in rear cam in sliding cavity, rear suction nozzle camshaft bearing Rear suction nozzle camshaft bearing is pressed in rear cam and slides chamber inner sidewall by spring compression mechanism after upper connection, rear spring compression mechanism On；

The indexed cam of Cam splitter is rotatably connected on installation by the synchronous band connection synchronous cam of cam, synchronous cam On panel, synchronous cam connects cylinder shaft by swing arm transmission mechanism, and cylinder shaft is rotatably connected on installation panel, cylinder Four paws cylinder after shaft front end is fixed, rear four paws cylinder are located at rear turntable side, and preceding turntable side is equipped with preceding four paws cylinder.

Further, swing rod gearing mechanism includes swing rod, shaft bearing, camshaft bearing, kinematic link and is driven swing rod, convex Wheel bearing is rotatably connected in the middle part of swing rod and is in rolling contact with indexed cam, and swing rod one end is rotatably connected on peace by shaft bearing It fills on panel, the hinged kinematic link one end of the swing rod other end, the kinematic link other end is hingedly driven swing rod upper end, is driven under swing rod Hold affixed front rotary shaft.

Further, synchronous drive mechanism includes that front pulley, driving belt and rear belt wheel, front pulley are connected to front rotary shaft On, rear belt wheel is connected in rear shaft, belt wheel after front rotary shaft is connected by driving belt.

Further, swing arm transmission mechanism includes cam swing arm bearing, synchronous cam bearing, cam swing arm, cam link And oscillating deck, synchronous cam bearing are rotatably connected in the middle part of cam swing arm and are in rolling contact with synchronous cam, cam swing arm one end It is rotatably connected on installation panel by cam swing arm bearing, cam swing arm other end hinged cam connecting rod one end, cam link The hinged oscillating deck upper end of the other end, the affixed cylinder shaft in oscillating deck lower end.

Compared with the prior art the utility model has the advantage that

The utility model structure is simple, compact, reasonable, stable and reliable in work, can not go out capacitor finished product is continual Wrong to be transported to next station, high degree of automation improves work efficiency and product quality.

Detailed description of the invention

Fig. 1 is the utility model main view.

Fig. 2 is the utility model perspective view.

Fig. 3 is preceding turntable main view.

Fig. 4 is rear turntable main view.

Fig. 5 is swing arm transmission mechanism perspective view.

Description of symbols: before 1- installation panel, 2- Cam splitter, 3- after turntable, 4- after turntable, 5- front rotary shaft, 6- Shaft, 7- front gear, 8- backgear, 9- intermediate gear, 10- intermediate gear shaft, 11- indexed cam, 12- swing rod, 13- shaft axis Hold, 14- camshaft bearing, 15- kinematic link, 16- transmission swing rod, 17- front pulley, 18- driving belt, after 19- before belt wheel, 20- It is true after fixed ring, 25- before spring compression mechanism, 24- before cam ring, 23- before suction nozzle camshaft bearing, 22- before vacuum cups, 21- After suction head, 26- after suction nozzle camshaft bearing, 27- after cam ring, 28- after spring compression mechanism, 29- fixed ring, 30- synchronize it is convex Wheel, 31- cam synchronous belt, 32- cam swing arm bearing, 33- synchronous cam bearing, 34- cam swing arm, 35- cam link, 36- Four paws cylinder before four paws cylinder, 39- after oscillating deck, 37- cylinder shaft, 38-.

Specific embodiment

The utility model will be further described in conjunction with the embodiment in attached drawing below:

As shown in Fig. 1 ~ 3, the utility model mainly includes installation panel 1, Cam splitter 2, preceding turntable 3 and rear turntable 4.

It installs and front rotary shaft 5 is rotatablely connected by bearing on panel 1, by the preceding turntable 3 of bearing rotation connection on front rotary shaft 5, Preceding 3 outer ring of turntable is installed with front gear 7.Shaft 6 after being rotatablely connected on panel 1 by bearing is installed, passes through bearing in rear shaft 6 Turntable 4 after connection, rear 4 outer ring of turntable are equipped with backgear 8.It installs and is rotatablely connected intermediate gear shaft 10, intermediate gear shaft on panel 1 Intermediate gear 9 is connected on 10, intermediate gear 9 intermeshes with front gear 7, backgear 8 respectively.

Panel 1 is installed and is equipped with Cam splitter 2, turntable 3 before the power output of Cam splitter 2 shaft end connects, Cam splitter 2 Indexed cam 11 pass through swing rod gearing mechanism connect front rotary shaft 5.Shaft 6 after front rotary shaft 5 is connected by synchronous drive mechanism, it is convex Taking turns divider 2 drives front rotary shaft 5 to rotate, and shaft 6 rotates synchronously after front rotary shaft 5 drives.

The swing rod gearing mechanism includes swing rod 12, shaft bearing 13, camshaft bearing 14, kinematic link 15 and transmission swing rod 16, camshaft bearing 14 is rotatably connected on 12 middle part of swing rod and is in rolling contact with indexed cam 11, and 12 one end of swing rod passes through shaft axis It holds 13 to be rotatably connected on installation panel 1, hinged 15 one end of kinematic link of 12 other end of swing rod, 15 other end of kinematic link is hinged It is driven 16 upper end of swing rod, is driven the affixed front rotary shaft 5 in 16 lower end of swing rod.

The synchronous drive mechanism includes front pulley 17, driving belt 18 and rear belt wheel 19, and front pulley 17 is connected to forward On axis 5, rear belt wheel 19 is connected in rear shaft 6, belt wheel 19 after front rotary shaft 5 is connected by driving belt 18.

Preceding cam ring 22 is connected on front rotary shaft 5, sliding cavity in front cam is equipped in preceding cam ring 22, and 5 front end of front rotary shaft is solid Fixed ring 24 before connecing, preceding fixed ring 24 are located at sliding cavity center in front cam.

As shown in figure 3, being along the circumferential direction uniformly provided with multiple suction nozzle sliding slots on preceding turntable 3, it is equipped in each suction nozzle sliding slot One initial vacuum suction nozzle 20, initial vacuum suction nozzle 20 can be moved radially along suction nozzle sliding slot.Before the connection of 20 tail end of initial vacuum suction nozzle Suction nozzle camshaft bearing 21, preceding suction nozzle camshaft bearing 21 are located in front cam in sliding cavity.Before being connected on preceding suction nozzle camshaft bearing 21 Preceding suction nozzle camshaft bearing 21 is pressed in front cam and slides chamber inner sidewall by spring compression mechanism 23, preceding spring compression mechanism 23 On.

Cam ring 27 after connecting in shaft 6 afterwards, sliding cavity in rear cam is equipped in rear cam ring 27, and rear 6 front end of shaft is solid Rear fixed ring 29 is connect, rear fixed ring 29 is located at sliding cavity center in rear cam.

As shown in figure 4, being along the circumferential direction uniformly provided with multiple suction nozzle sliding slots on rear turntable 4, it is equipped in each suction nozzle sliding slot Vacuum cups 25 after one, rear vacuum cups 25 can be moved radially along suction nozzle sliding slot.Afterwards after the connection of 25 tail end of vacuum cups Suction nozzle camshaft bearing 26, rear suction nozzle camshaft bearing 26 are located in rear cam in sliding cavity.After being connected on suction nozzle camshaft bearing 26 afterwards Rear suction nozzle camshaft bearing 26 is pressed in rear cam and slides chamber inner sidewall by spring compression mechanism 28, rear spring compression mechanism 28 On.

As shown in figure 5, the indexed cam 11 of Cam splitter 2 connects synchronous cam 30 by cam synchronous belt 31, it is synchronous Cam 30 is rotatably connected on installation panel 1.Synchronous cam 30 connects cylinder shaft 37, cylinder shaft by swing arm transmission mechanism 37 are rotatably connected on installation panel 1, and four paws cylinder 38 after 37 front end of cylinder shaft is fixed, rear four paws cylinder 38 is located at rear turntable 4 sides.Preceding 3 side of turntable is equipped with preceding four paws cylinder 39.

The swing arm transmission mechanism includes cam swing arm bearing 32, synchronous cam bearing 33, cam swing arm 34, cam link 35 and oscillating deck 36, synchronous cam bearing 33 is rotatably connected on 34 middle part of cam swing arm and is in rolling contact with synchronous cam 30, convex Wheel 34 one end of swing arm is rotatably connected on installation panel 1 by cam swing arm bearing 32,34 other end hinged cam of cam swing arm 35 one end of connecting rod, hinged 36 upper end of oscillating deck of 35 other end of cam link, the affixed cylinder shaft 37 in 36 lower end of oscillating deck.

The working principle of the utility model is: at work, cam ring rotation, preceding convex before Cam splitter work drives Vacuum cups in wheel draws chip capacitor in magazine from below, while rotating disc turns an angle and comes preceding four before driving At pawl cylinder, vacuum cups releases chip capacitor at preceding four paws cylinder location, and preceding four paws cylinder realizes aligning.It connects , preceding turntable continues to rotate, and after the chip capacitor of absorption is sent into turntable, then realizes position again by rear four paws cylinder Correction.So synchronous operation, circulation action.

The utility model structure is simple, compact, reasonable, stable and reliable in work, can not go out capacitor finished product is continual Wrong to be transported to next station, high degree of automation improves work efficiency and product quality.

Claims (4)

1. a kind of chip capacitor rotating disc type mark transfer device, including installation panel (1), Cam splitter (2), preceding turntable (3) lead on front rotary shaft (5) with rear turntable (4) it is characterized in that: being rotatablely connected front rotary shaft (5) by bearing in installation panel (1) Turntable (3) before bearing is rotatablely connected is crossed, preceding turntable (3) outer ring is installed with front gear (7), is turned in installation panel (1) by bearing Shaft (6) after connecting, turntable (4) after connecting on rear shaft (6) by bearing are moved, rear turntable (4) outer ring is equipped with backgear (8), It installs and is rotatablely connected intermediate gear shaft (10) on panel (1), connect intermediate gear (9) on intermediate gear shaft (10), intermediate gear (9) it intermeshes respectively with front gear (7), backgear (8)；Panel (1) is installed and is equipped with Cam splitter (2), cam segmentation Turntable (3) before device (2) power output shaft end connects, before the indexed cam (11) of Cam splitter (2) is connected by swing rod gearing mechanism Shaft (5), shaft (6) after front rotary shaft (5) is connected by synchronous drive mechanism, Cam splitter (2) drive front rotary shaft (5) to turn Dynamic, shaft (6) rotates synchronously after front rotary shaft (5) drives；

Cam ring (22) before connecting on front rotary shaft (5), is equipped with sliding cavity in front cam in preceding cam ring (22), before front rotary shaft (5) Affixed preceding fixed ring (24) is held, preceding fixed ring (24) is located at sliding cavity center in front cam；It is circumferentially square on preceding turntable (3) To multiple suction nozzle sliding slots are uniformly provided with, an initial vacuum suction nozzle (20), initial vacuum suction nozzle (20) energy are equipped in each suction nozzle sliding slot It is enough to be moved radially along suction nozzle sliding slot, suction nozzle camshaft bearing (21) before suction nozzle (20) tail end in initial vacuum connects, preceding suction nozzle camshaft It holds (21) to be located in front cam in sliding cavity, spring compression mechanism (23) before connecting on preceding suction nozzle camshaft bearing (21), preceding spring Preceding suction nozzle camshaft bearing (21) is pressed in front cam on sliding chamber inner sidewall by hold-down mechanism (23)；

Cam ring (27) after connecting in shaft (6) afterwards, is equipped with sliding cavity in rear cam in rear cam ring (27), before rear shaft (6) Affixed rear fixed ring (29) is held, rear fixed ring (29) is located at sliding cavity center in rear cam；It is circumferentially square on turntable (4) afterwards To being uniformly provided with multiple suction nozzle sliding slots, vacuum cups (25) after being equipped with one in each suction nozzle sliding slot, rear vacuum cups (25) energy It is enough to be moved radially along suction nozzle sliding slot, suction nozzle camshaft bearing (26) after rear vacuum cups (25) tail end connection, rear suction nozzle camshaft It holds (26) to be located in rear cam in sliding cavity, spring compression mechanism (28) after connecting on rear suction nozzle camshaft bearing (26), rear spring Rear suction nozzle camshaft bearing (26) is pressed in rear cam on sliding chamber inner sidewall by hold-down mechanism (28)；

The indexed cam (11) of Cam splitter (2) passes through cam synchronous belt (31) connection synchronous cam (30), synchronous cam (30) it is rotatably connected in installation panel (1), synchronous cam (30) connects cylinder shaft (37) by swing arm transmission mechanism, cylinder Shaft (37) is rotatably connected in installation panel (1), four paws cylinder (38) after cylinder shaft (37) front end is fixed, rear four paws cylinder (38) it is located at rear turntable (4) side, preceding turntable (3) side is equipped with preceding four paws cylinder (39).

2. chip capacitor rotating disc type mark transfer device as described in claim 1, it is characterized in that: the swing rod gearing mechanism Including swing rod (12), shaft bearing (13), camshaft bearing (14), kinematic link (15) and transmission swing rod (16), camshaft bearing (14) it is rotatably connected in the middle part of swing rod (12) and is in rolling contact with indexed cam (11), swing rod (12) one end passes through shaft bearing (13) it is rotatably connected in installation panel (1), swing rod (12) other end hinged kinematic link (15) one end, kinematic link (15) is another One end is hingedly driven swing rod (16) upper end, is driven the affixed front rotary shaft in swing rod (16) lower end (5).

3. chip capacitor rotating disc type mark transfer device as described in claim 1, it is characterized in that: the synchronous drive mechanism Including front pulley (17), driving belt (18) and rear belt wheel (19), front pulley (17) is connected on front rotary shaft (5), rear belt wheel (19) it is connected on rear shaft (6), belt wheel (19) after front rotary shaft (5) is connected by driving belt (18).

4. chip capacitor rotating disc type mark transfer device as described in claim 1, it is characterized in that: the swing arm transmission mechanism Including cam swing arm bearing (32), synchronous cam bearing (33), cam swing arm (34), cam link (35) and oscillating deck (36), Synchronous cam bearing (33) is rotatably connected in the middle part of cam swing arm (34) and is in rolling contact with synchronous cam (30), cam swing arm (34) one end is rotatably connected in installation panel (1) by cam swing arm bearing (32), and cam swing arm (34) other end is hingedly convex Connecting rod (35) one end, cam link (35) other end hinged oscillating deck (36) upper end are taken turns, the affixed cylinder in oscillating deck (36) lower end turns Axis (37).