CN204982352U - Automatic back -and -forth movement device of bottom line replacement mechanism - Google Patents

Abstract

The utility model discloses an automatic back -and -forth movement device of bottom line replacement mechanism, including front and back motor and front and back slider, the front and back motor passes through rack and pinion structure drive front and back slider back -and -forth movement, the rack and pinion structure include around with the fixed rack of slider and by around motor drive pivoted gear, the front and back slider is located on the base, the base is equipped with U type groove, U type inslot is located to front and back slider bottom, be equipped with the sliding shaft between the limit of U type groove both sides, slider around the sliding shaft passes. The utility model has the advantages of simple structure, reliable operation.

Description

Automatically refoot the movable device of line mechanism

Technical field

The utility model relates to embroidery machine, particularly relates to the line mechanism that automatically refoots.

Background technology

Automatically refoot line mechanism when embroidery machine bottom line is finished, under embroidery machine not stopped status, complete a series of actions, realize automatic shuttle changing shell, decrease the downtime of embroidery machine, reduce working strength, save time.The line mechanism that wherein automatically refoots has needed a movable action, the conveying of bobbin case grabbing device to be put in place.

Utility model content

Technical problem to be solved in the utility model is just to provide a kind of movable device of the line mechanism that automatically refoots, and structure is simple, reliable operation.

For solving the problems of the technologies described above, the utility model adopts following technical scheme: the movable device of the line mechanism that automatically refoots, comprise front and back motor and front and back slide block, before and after described front and back motor is driven by gear & rack structure, slide block moves forward and backward, and described gear & rack structure comprises the tooth bar fixed with front and back slide block and the gear by front and back motor-driven rotation.

Preferably, described front and back slide block is located on pedestal, and described pedestal is provided with U-type groove, and described front and back slider bottom is located in U-type groove, is provided with sliding axle between described U-type groove dual-side, and described sliding axle is through front and back slide block.

The technical solution adopted in the utility model, before and after Electric Machine Control drive shaft turns indirect belt moving gear rotate, gear driven tooth bar seesaws, front and back slide block is relative with tooth bar to be fixed and together seesaws with tooth bar, bobbin case grabbing device is fixed on the slide block of front and back, and front and back slide block drives bobbin case grabbing device to seesaw.The utility model has that structure is simple, the advantage of reliable operation.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is further described:

Fig. 1 is the Facad structure schematic diagram of line mechanism of automatically refooting;

Fig. 2 is the side structure schematic diagram of line mechanism of automatically refooting;

Fig. 3 is the structural representation of bobbin case retracting device;

Fig. 4 is the structural representation one of lowering or hoisting gear;

Fig. 5 is the structural representation two of lowering or hoisting gear;

Fig. 6 is the structural representation of the second transmission case;

Fig. 7 is the structural representation one of movable device;

Fig. 8 is the structural representation two of movable device;

Fig. 9 is the structural representation three of movable device;

Figure 10 is the structural representation one of bobbin case grabbing device;

Figure 11 is the structural representation two of bobbin case grabbing device.

Detailed description of the invention

As shown in Figure 1 to Figure 3, as can be seen from embroidery machine front, frame 1 is provided with multiple head in left-right direction, and each head is provided with several rotating shuttles 11, when embroidery machine bottom line is finished, the bobbin case 12 on rotating shuttle 11 is taken off by a series of continuous action by the line mechanism that automatically refoots.Further change new bobbin case 12, the lineman that automatically refoots can be completed and do.

The line mechanism that automatically refoots in the utility model is provided with lowering or hoisting gear 2, movable device 3, bobbin case grabbing device 4, described lowering or hoisting gear 2 drives bobbin case grabbing device 4 to move up and down, described movable device 3 drives bobbin case grabbing device 4 to move forward and backward, bobbin case 12 takes off from rotating shuttle 11 by described bobbin case grabbing device 4, bobbin case retracting device 5 is provided with, bobbin case 12 centralized recovery that bobbin case grabbing device 4 puts down by described bobbin case retracting device 5 on the downside of frame 1.

As shown in Figure 1 to Figure 3, described bobbin case retracting device 5 comprises conveyer belt 52, transmits motor 51, hopper 53, transmitting motor 51 is fixed in frame 1, and conveyer belt 52 is connected with transmission motor 51 and is fixed in frame 1, and hopper 53 is positioned at below the conveying end of conveyer belt 52.Transmitting motor 51 drives conveyer belt 52 to carry along the left and right directions of frame 1, and in the present embodiment, conveyer belt 52 is carried from left to right along frame 1, and hopper 53 is positioned at below conveyer belt 52 right-hand member.

Bottom line captures release after above bobbin case 12 to conveyer belt 52 by the line mechanism that automatically refoots after using up, and drives conveyer belt 52 by bobbin case 12 centralized recovery in hopper 53, thus realize the centralized recovery of bobbin case by transmitting motor 51.

As shown in Figures 4 to 6, described lowering or hoisting gear 2 comprises lifting motor 21, first transmission case 22, power transmission shaft 23, second transmission case 24, lifting slider 25, hoisting cross beam 26.Power transmission shaft 23 is through the first transmission case 22, driving pulley, driven pulley and driving belt is provided with in described first transmission case 22, described lifting motor 21 drives driving pulley, and described driving pulley is brought by transmission and drives driven pulley to rotate, and described driven pulley drives power transmission shaft 23 to rotate.

As shown in Figure 6, described second transmission case 24 comprises driving seat 241, bottom described driving seat and be provided with line slideway 2411 between top, described line slideway 2411 is provided with guide rail slide block 242, the bottom of described driving seat 241 is provided with lifting and drives seat 243, lifting drives seat 243 to comprise lifting and drives holder 2431, lifting drives holder 2431 both sides to be provided with clutch shaft bearing seat 2432, clutch shaft bearing 2433 is provided with in clutch shaft bearing seat, the wheel shaft two ends of main pulley 2434 are supported on clutch shaft bearing 2433, described driving seat top is provided with the second bearing block 244, the second bearing is provided with in second bearing block 244, the wheel shaft two ends of secondary pulley 2441 are supported on the second bearing.

By belt 245 transmission between described main pulley 2434 and secondary pulley 2441, described belt and guide rail slide block are provided with the trough of belt of engagement, described guide rail slide block 242 is fixed with lifting slider 25, described power transmission shaft drives main pulley 2434 to rotate, described main pulley drives belt 245 to move, described belt drives guide rail slide block 242 is guide rail 2411 rectilinear motion linearly, and guide rail slide block 242 drives lifting slider 25 to move up and down.

Lifting motor 21 drives power transmission shaft 23 to rotate by the first transmission case 22, described power transmission shaft 23 drives lifting slider 25 to move up and down by the second transmission case 24, described lifting slider 25 drives hoisting cross beam 26 to move up and down, movable device 3 and bobbin case grabbing device 4 are installed on hoisting cross beam 26, hoisting cross beam 26 and then drive the movable device 3 on it and bobbin case grabbing device 4 to move up and down.

More than just wherein a kind of concrete structure of the first transmission case 22 and the second transmission case 24 is described, but the structure of transmission case is not limited to above-mentioned two kinds, transmission case is a kind of common components in drive technology field, as long as realize corresponding transmission agency, those skilled in the art can make multiple change to the internal mechanism of transmission case.

As shown in Figure 7 to 9, described movable device 3 comprises front and back motor 30 and front and back slide block 35, before and after described front and back motor 30 is driven by gear & rack structure, slide block 35 moves forward and backward, the gear 32 that described gear & rack structure comprises the tooth bar 36 fixing with front and back slide block 35 and is fixed on driving shaft 31, front and back motor is connected with driving shaft 31 by shaft coupling, thus driven wheel 32 rotates, gear 32 coordinates with the number of teeth on tooth bar 36 and modulus.

Described front and back slide block 35 is located on pedestal 33, described pedestal is provided with U-type groove, described front and back slider bottom is located in U-type groove, sliding axle 34 is provided with between described U-type groove dual-side, described sliding axle 34 is through the pilot hole on front and back slide block 35, the movement that sliding axle 34 is front and back slide block 35 provide before and after guiding and spacing, U-type groove dual-side can limit the slide anteroposterior extreme position of front and back slide block 35.

Front and back motor 30 controls driving shaft 31 rotation and indirect belt moving gear 32 rotates, gear 32 is with carry-over bar 36 to seesaw, front and back slide block 35 is relative with tooth bar 36 to be fixed and together seesaws with tooth bar 36, bobbin case grabbing device 4 is fixed on front and back slide block 35, and front and back slide block 35 drives bobbin case grabbing device 4 to seesaw.

As shown in Figure 10 and Figure 11, described bobbin case grabbing device 4 comprises crawl cylinder 42, first connecting rod 44, second connecting rod 45, lock hand 46, the piston mandril head end of described crawl cylinder 42 is provided with adapter sleeve 48, described adapter sleeve 48 head end is provided with U-shaped opening portion, and the first end of described first connecting rod 44 is articulated with in U-shaped opening portion.The roughly V-shaped structure of second connecting rod 45, the first end of described second connecting rod 45 and the second end of first connecting rod 44 hinged, the second end of described second connecting rod 45 is hinged with lock hand 46, and second connecting rod 45 is vertical with locking hand 46.Described crawl cylinder 42 is fixed on and captures in main body 43, described crawl main body 43 fore-aft travel is arranged on bearing 41, crawl main body 43 and bearing 41 are L-type structure, the upper side edge capturing main body 43 is provided with elongated slot along the longitudinal direction, bolt 47 is connected with the upper side edge of bearing 41 through after elongated slot, and bolt guides the front and back relative sliding captured between main body 43 and bearing 41.

Elastic construction is provided with between crawl main body and bearing.Described elastic construction comprises return spring 40, described bearing is provided with guide post 49, be enclosed within outside described return spring 40 on guide post 49, the first end of described return spring 40 is connected with crawl main body 43 elasticity, and the second end of described return spring 40 is connected with bearing 41 elasticity.Because the head number of rotating shuttle is many, when arriving assigned address, there is certain error in first piece of bobbin case and last piece of bobbin case over time and space, effectively can reduce error after increase return spring 40.

Bobbin case grabbing device 4 seesaws along with front and back slide block 35, after bobbin case 12 arrives assigned address, is done the effect of a bounce-back by return spring 40.After front and back slide block 35 drives bobbin case grabbing device 4 to design attitude, first connecting rod 44 and second connecting rod 45 is driven to move by the motion capturing piston mandril in cylinder 42, and then pulling lock hand 46 to rotate, lock hand 46, through bobbin case space, captures shuttle door and is whole crawl process to assigned address.

Claims (2)

1. refoot the movable device of line mechanism automatically, it is characterized in that: comprise front and back motor and front and back slide block, before and after described front and back motor is driven by gear & rack structure, slide block moves forward and backward, and described gear & rack structure comprises the tooth bar fixed with front and back slide block and the gear by front and back motor-driven rotation.

2. the movable device of the line mechanism that automatically refoots according to claim 1, it is characterized in that: described front and back slide block is located on pedestal, described pedestal is provided with U-type groove, described front and back slider bottom is located in U-type groove, be provided with sliding axle between described U-type groove dual-side, described sliding axle is through front and back slide block.