CN201603820U - Transmission mechanism capable of realizing synchronized flanging and can sealing - Google Patents

Abstract

The utility model discloses a transmission mechanism capable of realizing synchronized flanging and can sealing. A small transmission shaft, an indexing shaft, an intermediate shaft and a spline shaft are installed on a case. A large belt pulley, an upper helical gear and a lower helical gear are respectively and fixedly installed on the small transmission shaft. An index gear and an index gear I are fixedly installed on the indexing shaft. An index gear II and an index gear III are fixedly installed on the intermediate shaft. An index gear IV and a sprocket I are fixedly installed on the spline shaft. A fixed shaft is fixedly installed on the case. A gyrator is installed on the fixed shaft. An upper gear and a clutch gear are fixedly installed on the gyrator. The clutch gear is connected with a device and a lobe plate assembly used for feeding a can sealing roller through a clutch. Differential motion exists during the rotation of the upper gear and the clutch gear. The utility model has the advantages that the synchronized flanging and can sealing are realized, the flanging machine and the can sealing machine are integrated into a whole body, the occupied area is small, the linking delivery device between the flanging machine and the can sealing machine is omitted and the investment is saved.

Description

A kind of flange and synchronous transmission mechanism of sealed cans realized

Technical field

The utility model relates to a kind of machinery of mental package industry, especially tinplate packaging, is specifically related to the transmission mechanism of a kind of flange and sealed cans machinery.

Background technology

It is at present domestic in the mental package jar is made, flange separates fully with sealed cans, and not on same machine, realize full-automatic operation, must increase the line conveying device between flanger and the tin seamer, make entire equipment not compact like this, whole production line length reaches 18 meters at least, and floor space is big.In the machine of import, have minority can realize that flange and sealed cans are synchronous, as the machine of France, it is carried out by cylinder, and the signal of telecommunication reaches flange and sealed cans are synchronous, but air pressure instability or rate conversion all can cause flange and sealed cans disorder too soon, can't reach synchronous.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of can realize flange and the synchronous transmission mechanism of sealed cans, thereby flanger and tin seamer are united two into one, and floor space is little.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of flange and synchronous transmission mechanism of sealed cans realized, comprise cabinet, little power transmission shaft, dividing spindle, gap bridge axle, the splined shaft that can freely rotate are installed on cabinet, be installed with respectively on the described little power transmission shaft big belt pulley, on helical gear and following helical gear, on described dividing spindle, be installed with dividing gear, dividing gear I, on described gap bridge axle, be installed with dividing gear II and dividing gear III, on described splined shaft, be installed with dividing gear IV and sprocket wheel I; On described cabinet, also be installed with fixed axis, on described fixed axis, be set with the revolving body that can freely rotate, on described revolving body, be installed with and cog, on revolving body, also clutch gear is installed by copper sheathing, clutch gear produces relative rotation with the revolution physical efficiency, and described clutch gear is by clutch jockey and the lobe plate assembly that is used for the feeding can seaming wheel; The described helical gear of going up is cogged the transmission of power that big belt pulley transmits and dividing gear, following helical gear is given clutch gear with transmission of power, described dividing gear I gives dividing gear II with the transmission of power that the dividing gear transmission comes, dividing gear III gives dividing gear IV and sprocket wheel I with the transmission of power that dividing gear II transmits, and described sprocket wheel I gives the flange cam with transmission of power; Described cog and clutch gear exist differential at rotation process.

As improvement of the technical scheme, describedly that the helical gear number of teeth is 22 teeth, the helical gear number of teeth is that the number of teeth of 22 teeth, dividing gear is that the number of teeth of 65 teeth, dividing gear I is that the number of teeth of 33 teeth, dividing gear II is that the number of teeth of 77 teeth, dividing gear III is that the number of teeth that the number of teeth of 35 teeth, dividing gear IV is 105 teeth, the number of teeth that cogs is 65 teeth, clutch gear is 70 teeth down.

Another improvement as technique scheme, on cabinet, also be equipped with can freely rotate send a jar camshaft I, send jar a camshaft II and an angular wheel shaft, on described angular wheel shaft, be installed with bevel gear and sprocket wheel II, be installed with sprocket wheel III, sprocket wheel IV on jar camshaft I and send a jar cam I sending, be installed with sprocket wheel V on jar camshaft II and send a jar cam II described sending, described sprocket wheel II and sprocket wheel III link by chain, described sprocket wheel IV and sprocket wheel V link by chain, and described splined shaft changes 90 degree with power by bevel gear and passes to sprocket wheel II.

The beneficial effects of the utility model are: the utility model has realized that flange and sealed cans are synchronous, and flanger and tin seamer are united two into one, and floor space is little, saves the line conveying device between flanger and the tin seamer, can reduce investment outlay.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the structural representation that send jar cam portion of the present utility model;

Fig. 3 is the B-B cutaway view among Fig. 2;

Fig. 4 is that the structural representation that send jar cam given transmission of power by splined shaft;

Fig. 5 two send the structural representation of transferring power between jar cam.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further specified.

With reference to Fig. 1, Fig. 2, Fig. 3, a kind of flange and synchronous transmission mechanism of sealed cans realized, form by cabinet 1, brief biography moving axis 2, dividing spindle 3, the axle 4 of passing a bridge, splined shaft 5, fixed axis 6, brief biography moving axis 2 is installed on the cabinet 1 by bearing, and big belt pulley 201, last helical gear 202 and following helical gear 203 are fixedly mounted on the brief biography moving axis 2 by key.Dividing spindle 3 is installed on the cabinet 1 by bearing, and dividing gear 301, dividing gear I302 are fixedly mounted on the dividing spindle 3 by key.The axle 4 of passing a bridge is installed on the cabinet 1 by bearing, and dividing gear II401 and dividing gear III402 are fixedly mounted on the axle 4 of passing a bridge by key.Splined shaft 5 is installed on the cabinet 1 by bearing, and dividing gear IV501 and sprocket wheel I502 are fixedly mounted on the splined shaft 5 by key, and sprocket wheel I502 is connected with sprocket wheel (not shown) on the flange camshaft.Fixed axis 6 is fixedly mounted on the cabinet 1, on fixed axis 6 by bearing holder (housing, cover) be equipped with can freely rotate revolving body 601, cogging 602 is fixedly mounted on the top of revolving body 601 by key, the rotation of 602 the rotation drive revolving body 601 of cogging.Clutch gear 603 is sleeved on the revolving body 601 by copper sheathing 604, clutch gear 603 can produce relative rotation with revolving body 601, clutch gear 603 usefulness pins connect a clutch jockey 605, clutch jockey 605 is fixing by screw and key and lobe plate assembly 7,7 fens two blocks of lobe plates of lobe plate assembly are respectively applied for the feeding of slubbing roller and the two road roller feedings of sealed cans.The small belt pulley 8 that big belt pulley 201 connects by driven by motor, the transmission of power that last helical gear 202 transmits big belt pulley 201 is given and is cogged 602 and dividing gear 301, following helical gear 203 is given clutch gear 603 with the transmission of power that big belt pulley 201 transmits, dividing gear I302 transmits the transmission of power of coming with dividing gear 301 and gives dividing gear II401, dividing gear III402 gives dividing gear IV501 and sprocket wheel I502 with the transmission of power that dividing gear II401 transmits, and sprocket wheel I502 gives the flange cam with transmission of power.Owing to cog 602 and the number of teeth of clutch gear 603 inconsistent, in rotation process, cog 602 and clutch gear 603 exist differential.When the number of teeth of last helical gear 202 is 22 teeth, the number of teeth of following helical gear 203 is 22 teeth, the number of teeth of dividing gear 301 is 65 teeth, the number of teeth of dividing gear I302 is 33 teeth, the number of teeth of dividing gear II401 is 77 teeth, the number of teeth of dividing gear III402 is 35 teeth, the number of teeth of dividing gear IV501 is 105 teeth, 602 the number of teeth of cogging is 65 teeth, when the number of teeth of clutch gear 603 is 70 teeth, the 602 drive revolving bodies 601 that cog changeed for seven weeks, then clutch gear 603 drives lobe plate assembly 7 changes half cycle, lobe plate assembly 7 changes semiaxis and finishes sealed cans, sprocket wheel I502 drives the flange cam and rotates 90 degree over there, finish a flange, realize that flange and sealed cans are synchronous.

As Fig. 3, Fig. 4, Fig. 5, also be equipped with on the cabinet 1 can freely rotate send a jar camshaft I9, send jar camshaft II10 and angular wheel shaft 11, be installed with bevel gear 1101 and sprocket wheel II1102 on angular wheel shaft 11, splined shaft 5 changes 90 degree with power by bevel gear 1101 and passes to sprocket wheel II1102.Be installed with sprocket wheel III901, sprocket wheel IV902 on jar camshaft I9 and send a jar cam I903 sending, send jar cam I903 control that jar is sent to sealed cans.Be installed with sprocket wheel V1001 and send a jar cam II1002 on jar camshaft II10 sending, send jar cam II1002 control that jar is sent to flange.Sprocket wheel II1102 and sprocket wheel III901 link by chain, and sprocket wheel IV902 and sprocket wheel V1001 link by chain, send jar cam 903I and send jar cam II1002 also can guarantee synchronously.

Claims (3)

1. realize flange and the synchronous transmission mechanism of sealed cans for one kind, comprise cabinet, it is characterized in that, little power transmission shaft, dividing spindle, gap bridge axle, the splined shaft that can freely rotate are installed on cabinet, be installed with respectively on the described little power transmission shaft big belt pulley, on helical gear and following helical gear, on described dividing spindle, be installed with dividing gear, dividing gear I, on described gap bridge axle, be installed with dividing gear II and dividing gear III, on described splined shaft, be installed with dividing gear IV and sprocket wheel I; On described cabinet, also be installed with fixed axis, on described fixed axis, be set with the revolving body that can freely rotate, on described revolving body, be installed with and cog, on revolving body, also clutch gear is installed by copper sheathing, clutch gear produces relative rotation with the revolution physical efficiency, and described clutch gear is by clutch jockey and the lobe plate assembly that is used for the feeding can seaming wheel; The described helical gear of going up is cogged the transmission of power that big belt pulley transmits and dividing gear, following helical gear is given clutch gear with transmission of power, described dividing gear I gives dividing gear II with the transmission of power that the dividing gear transmission comes, dividing gear III gives dividing gear IV and sprocket wheel I with the transmission of power that dividing gear II transmits, and described sprocket wheel I gives the flange cam with transmission of power; Described cog and clutch gear exist differential at rotation process.

2. a kind of flange and synchronous transmission mechanism of sealed cans realized according to claim 1, it is characterized in that, describedly that the helical gear number of teeth is 22 teeth, the helical gear number of teeth is that the number of teeth of 22 teeth, dividing gear is that the number of teeth of 65 teeth, dividing gear I is that the number of teeth of 33 teeth, dividing gear II is that the number of teeth of 77 teeth, dividing gear III is that the number of teeth that the number of teeth of 35 teeth, dividing gear IV is 105 teeth, the number of teeth that cogs is 65 teeth, clutch gear is 70 teeth down.

3. a kind of flange and synchronous transmission mechanism of sealed cans realized according to claim 1, it is characterized in that, jar camshaft I that send that can freely rotate also is installed on cabinet, send jar a camshaft II and an angular wheel shaft, on described angular wheel shaft, be installed with bevel gear and sprocket wheel II, be installed with sprocket wheel III sending on jar camshaft I, sprocket wheel IV and send a jar cam, be installed with sprocket wheel V on jar camshaft II and send a jar cam described sending, described sprocket wheel II and sprocket wheel III link by chain, described sprocket wheel IV and sprocket wheel V link by chain, and described splined shaft changes 90 degree with power by bevel gear and passes to sprocket wheel II.

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