CN203345838U - Doubling computer high-speed cone winding machine - Google Patents

Abstract

The utility model discloses a doubling computer high-speed cone winding machine which comprises a machine frame, a working table, a driving motor installation table, a spindle base tension mechanism and a spindle structure. The working table, the driving motor installation table, the spindle base tension mechanism and the spindle structure are arranged on the machine frame. A doubling guiding mechanism is installed on the working table. A driving motor is arranged on the driving motor installation table. An object placement box is arranged at the lower portion of the driving motor. A direct-current brushless driver or an alternating-current motor driver is arranged inside the object placement box. The doubling guiding mechanism comprises a base plate, a broken yarn electronic induction automatic stop device and a pressing line tension adjusting device. An electric waxing device and a broken yarn electronic induction cutting device are arranged on the rear side of the doubling guiding mechanism. A bobbin fixing mechanism is arranged at the bottom of the machine frame. A transverse rod is arranged at the upper portion, arranged on the machine frame, of the driving motor installation table. The doubling computer high-speed cone winding machine has the advantages of being reasonable in design, low in production cost, convenient to operate, high in automation degree and low in electricity consumption and being used in high-speed production.

Description

Doubling computerized high-speed bobbin-winding machine

Technical field

The utility model relates to a kind of computerized high-speed of the doubling for cotton yarn, the dimity, wool yarn and condensating fiber winder machine, for warping or the technique such as knitting, uses, specifically a kind of doubling computerized high-speed bobbin-winding machine.

Background technology

Some doubling computerized high-speed bobbin-winding machine designs in the market are unreasonable, and productive costs is high, and degree of automation is low, and function is incomplete.

Summary of the invention

The purpose of this utility model is to design a kind of doubling computerized high-speed bobbin-winding machine.

To be solved in the utility model is that more existing doubling computerized high-speed bobbin-winding machine designs are unreasonable, and productive costs is high, and degree of automation is low, the problem that function is incomplete.

The technical solution of the utility model is: it comprises frame, be located at the bench board on frame, the drive motor erecting bed, the spindle support tension mechanism, spindle mechanism and the air splicer of being located at upper rack, described air splicer is located at upper rack, be equipped with on described bench board and lead doubling mechanism, described drive motor erecting bed is provided with drive motor, described drive motor bottom is box, be provided with brush DC actuator or AC motor drive in described box, the described doubling mechanism that leads comprises base plate, broken yarn electronic induction automatic stop arrangement, the pressing line tension setting device, the described doubling mechanism rear side of leading is provided with electronic Wax polishing device or yarn and crosses Wax polishing device and the broken yarn electronic induction cutter sweep that wax friction nature turns, described frame bottom is provided with the spool fixed mechanism, be provided with cross bar on the upper stand of drive motor erecting bed, described broken yarn electronic induction automatic stop arrangement has two at least, described pressing line tension setting device has two at least, described spool fixed mechanism has two at least.

The beneficial effects of the utility model are: reasonable in design, productive costs is low and degree of automation is high, and full cylinder automatic stop frequency control, single ingot control, broken yarn self-stop, data accumulating, mechanicalness noise is little, power consumption is little, savings is artificial, be easy to the installation adjustment, machine is stable, tube forming good.

The accompanying drawing explanation

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

Fig. 2 is one of structural representation of the utility model spindle support tension mechanism.

Fig. 3 be the utility model spindle support tension mechanism structural representation two.

Fig. 4 is the decomposition texture schematic diagram of the utility model spindle mechanism.

Fig. 5 is the unitized construction schematic diagram of the utility model spindle mechanism.

Fig. 6 is the structural representation of the utility model spool fixed mechanism.

Fig. 7 is the decomposition texture schematic diagram of the utility model spool fixed mechanism.

Fig. 8 is the inner structure schematic diagram of the utility model spool fixed mechanism.

Fig. 9 is the inside decomposition texture schematic diagram of the utility model spool fixed mechanism.

Figure 10 is the outside decomposition texture schematic diagram of the utility model spool fixed mechanism.

Figure 11 is the local structure schematic diagram of the utility model bench board.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

As shown in the figure, the utility model comprises frame 1, be located at the bench board 6 on frame 1, drive motor erecting bed 8, spindle support tension mechanism 10, spindle mechanism 11 and the air splicer 13 of being located at frame 1 top, described air splicer 13 is located at frame 1 top, be equipped with and lead doubling mechanism on described bench board 6, described drive motor erecting bed 8 is provided with drive motor 9, described drive motor 9 bottoms are box, be provided with brush DC actuator 7 or AC motor drive in described box, the described doubling mechanism that leads comprises base plate 1-1, broken yarn electronic induction automatic stop arrangement 3, pressing line tension setting device 4, the described doubling mechanism rear side of leading is provided with electronic Wax polishing device 5 or yarn and crosses Wax polishing device and the broken yarn electronic induction cutter sweep 66 that wax friction nature turns, described frame 1 bottom is provided with spool fixed mechanism 2, be provided with cross bar 12 on the upper stand 1 of drive motor erecting bed 8, described broken yarn electronic induction automatic stop arrangement has three, described pressing line tension setting device has three, described spool fixed mechanism has three.

The base plate 1-1 of described Yarn guide mechanism is located at bench board 6 front portions, described broken yarn electronic induction automatic stop arrangement 3 is located at the front side of base plate 1-1, described pressing line tension setting device 4 is located on base plate 1-1, be respectively equipped with front yarn guiding trough 72 and front and back yarn guiding trough 67 on described base plate 1-1 front side and rear side, described electronic Wax polishing device 5 or yarn are crossed the Wax polishing device that wax friction nature turns and are located at rear yarn guiding trough 67 rear sides, described broken yarn electronic induction cutter sweep 66 is located at electronic Wax polishing device 5 or yarn is crossed the Wax polishing device rear side that wax friction nature turns, described broken yarn electronic induction automatic stop arrangement 3 comprises permanent seat 68, the bottom of permanent seat 68 is provided with wire guide 69, described permanent seat 68 front portions are provided with yarn guiding port 70, be provided with symmetrical inductive probe 71 in described yarn guiding port 70, described pressing line tension setting device 4 comprises fixed link 74, be located at the compressing tablet 73 on fixed link 74, described electronic Wax polishing device 5 comprises waxing drive motor and waxing drive motor axle, described waxing drive motor axle is provided with cylinder square hole cake wax.

Described spindle support tension mechanism 10 1 ends are located on cross bar 12, the other end is located at the back of drive motor erecting bed 8, described spindle support tension mechanism 10 comprises spindle support 14, pull bar 19, spring 22, spring setting nut and pull bar fixed mechanism, described pull bar 19 1 ends are connected on spindle support 14, the other end is connected on the pull bar fixed mechanism by the spring setting nut, described spindle support tension mechanism 10 1 ends are fixed on cross bar 12 by spindle support 14, described spindle support tension mechanism 10 other ends are fixed in the back of drive motor erecting bed 8 by the pull bar fixed mechanism, described spindle mechanism comprises anchor fitting and slewing arrangement, described anchor fitting and slewing arrangement pass through pin 48 loose joints in one, described anchor fitting comprises fixed arm 29, spacer 30 and pressure head 31, described spacer 30 is located at a upper lateral part of fixed arm 29, described pressure head 31 is located at fixed arm 29 upper ends, described fixed arm 29 is structure as a whole with pressure head 31, described slewing arrangement comprises handle 34, positioning head 33, adapter shaft 35, motion axle sleeve 26, hold out against spring 38, gland 42, reinforced head 39, outer shaft 47, spindle 45 and movable sleeve 44, described positioning head 33 1 sides are provided with positioning groove 32, described handle 34 and adapter shaft 35 are fixed on positioning head 33, described motion axle sleeve 36 is placed on adapter shaft 35, described outer shaft 47 is placed on motion axle sleeve 36, described gland 42 is fixed on outer shaft 47, described reinforced head 39 is located on gland 42, described spindle 45 is located on movable sleeve 44, and be placed in outer shaft 47 outsides, described spool fixed mechanism comprises base 53, fixed leg 52, packing ring 50, silk braid 51 and adjustable cap 49, described base 53 is located at fixed leg 52 bottoms after being placed on fixed leg 52, described packing ring 50 is placed on fixed leg 52, after described silk braid 51 is placed on fixed leg 52, its underpart is placed in base 53 tops, described adjustable cap 49 is located at fixed leg 52 tops.

Described spindle support 14 comprises stationary pipes 15, be connected and fixed 16 and bindiny mechanism, described 16 sides of being located at stationary pipes 15 that are connected and fixed, described bindiny mechanism is located at a bottom that is connected and fixed 16, described bindiny mechanism comprises connecting bore 18 and contiguous block 17, described connecting bore 18 by contiguous block 17 be connected and fixed 16 and be connected, described connecting bore 18 is at least one, or described connecting bore 18 is the waist hole, directly open on contiguous block 17, described contiguous block 17 is located at and is connected and fixed on 16, described pull bar 19 bottoms are provided with outside thread 20, described spring setting nut has two, be respectively the first spring setting nut 21 and the second spring setting nut 24, described the first spring setting nut 21 is located at outside thread 20 upsides, described the second spring setting nut 9 is located at outside thread 20 downsides, described spring 22 is located between the first spring setting nut 21 and the second spring setting nut 24, described pull bar fixed mechanism comprises fixed plate 25, connecting strap 26 and spacer 23, described connecting strap 26 is located at the side of fixed plate 25, and be structure as a whole with fixed plate 25, described spacer 23 is fixed on connecting strap 26 by screw 28, described spacer 23 is provided with through hole 27, spacer 23 through hole 27 belows are located in described the second spring setting nut 24 bottoms, described the second spring setting nut 24 tops are through through hole 27, be placed in spacer 23 through hole 27 tops, described spring 22 tops peak at the first spring setting nut 21 bottoms, described spring 22 bottoms peak at spacer 23 through hole 27 tops.

Described positioning groove 32 is located at the right side of positioning head 33, described handle 34 is fixed in the bottom of positioning head 33, described adapter shaft 35 is fixed in the left side of positioning head 33, its right side and positioning head 33 left side laminatings after described motion axle sleeve 36 is placed on adapter shaft 35, described motion axle sleeve 36 left sides are provided with draw-in groove 37, outer shaft 27 cover left sides are fixed on described gland 42 right sides, be provided with and hold out against spring 38 between described gland 42 right sides and motion axle sleeve 36 left sides, described reinforced head 39 is located at the left side of gland 43, described gland 42 outer cover have the spring 41 of reinforcing, described reinforced head 39 left sides are provided with pin 40, the right side of movable sleeve 44 is located in described spindle 45 left sides, after described spindle 45 is placed on outer shaft 47 outsides with movable sleeve 44, the right flank of its spindle 45 and outer shaft 47 right side laminatings, described movable sleeve 44 is positioned outer shaft 47 outsides by screw 43, described outer shaft 47 right sides have symmetrical through hole 46, described screw 43 is through after movable sleeve 47, the termination of its screw 43 peaks in the draw-in groove 37 of motion axle sleeve 36 through after through hole 46, described anchor fitting and slewing arrangement pass through pin 48 loose joints after one, its spacer 30 is located in positioning groove 32.

Described base 53 inside are provided with a through hole 59, described through hole 59 is up-narrow and down-wide structure, described through hole 59 lower inner wall are provided with a dop 61, described base 53 tops are provided with an articles holding table 56, described articles holding table 56 outsides are provided with annular guard ring 55, after described silk braid 51 is placed on fixed leg 52, its underpart is placed on articles holding table 56, described fixed leg 52 tops are provided with outside thread 54, described outside thread 54 belows are provided with a flange collar 58, described packing ring 50 is placed on fixed leg 52 and is placed on flange collar 58, described fixed leg 52 bottoms are provided with a collar 65, described collar 65 is provided with draw-in groove 62, after described base 53 is placed on fixed leg 52, base plate through holes 59 bottoms peak at the upper surface of the collar 65 of fixed leg 52 bottoms, dop 61 on its through-hole wall is stuck in the draw-in groove 62 on collar, described fixed leg 52 bottoms are provided with inner bolt hole 63.

The front portion of described drive motor erecting bed 8 is provided with guide bar, and described broken yarn electronic induction cutter sweep 66 rear sides also are provided with yarn regulating tank 68.

Claims (7)

1. a doubling computerized high-speed bobbin-winding machine, comprise frame, be located at the bench board on frame, the drive motor erecting bed, the spindle support tension mechanism, spindle mechanism and the air splicer of being located at upper rack, described air splicer is located at upper rack, be equipped with on described bench board and lead doubling mechanism, described drive motor erecting bed is provided with drive motor, described drive motor bottom is box, be provided with brush DC actuator or AC motor drive in described box, it is characterized in that the described doubling mechanism that leads comprises base plate, broken yarn electronic induction automatic stop arrangement, the pressing line tension setting device, the described doubling mechanism rear side of leading is provided with electronic Wax polishing device or yarn and crosses Wax polishing device and the broken yarn electronic induction cutter sweep that wax friction nature turns, described frame bottom is provided with the spool fixed mechanism, be provided with cross bar on the upper stand of drive motor erecting bed, described broken yarn electronic induction automatic stop arrangement has two at least, described pressing line tension setting device has two at least, described spool fixed mechanism has two at least.

2. doubling computerized high-speed bobbin-winding machine according to claim 1, the base plate that it is characterized in that described Yarn guide mechanism is located at the bench board front portion, described broken yarn electronic induction automatic stop arrangement is located at the front side of base plate, described pressing line tension setting device is located on base plate, be respectively equipped with front yarn guiding trough and front and back yarn guiding trough on described base plate front side and rear side, described electronic Wax polishing device or yarn are crossed the Wax polishing device that wax friction nature turns and are located at rear yarn guiding trough rear side, described broken yarn electronic induction cutter sweep is located at electronic Wax polishing device or yarn is crossed the Wax polishing device rear side that wax friction nature turns, described broken yarn electronic induction automatic stop arrangement comprises permanent seat, the bottom of permanent seat is provided with wire guide, described permanent seat front portion is provided with yarn guiding port, be provided with symmetrical inductive probe in described yarn guiding port, described pressing line tension setting device comprises fixed link, be located at the compressing tablet on fixed link, described electronic Wax polishing device comprises waxing drive motor and waxing drive motor axle, described waxing drive motor axle is provided with cylinder square hole cake wax.

3. doubling computerized high-speed bobbin-winding machine according to claim 1, it is characterized in that described spindle support tension mechanism one end is located on cross bar, the other end is located at the back of drive motor erecting bed, described spindle support tension mechanism comprises spindle support, pull bar, spring, spring setting nut and pull bar fixed mechanism, described pull bar one end is connected on spindle support, the other end is connected on the pull bar fixed mechanism by the spring setting nut, described spindle support tension mechanism one end is fixed on cross bar by spindle support, the described spindle support tension mechanism other end is fixed in the back of drive motor erecting bed by the pull bar fixed mechanism, described spindle mechanism comprises anchor fitting and slewing arrangement, described anchor fitting and slewing arrangement pass through the pin loose joint in one, described anchor fitting comprises fixed arm, spacer and pressure head, described spacer is located at a upper lateral part of fixed arm, described pressure head is located at the fixed arm upper end, described fixed arm and pressure head are structure as a whole, described slewing arrangement comprises handle, positioning head, adapter shaft, the motion axle sleeve, hold out against spring, gland, reinforced head, outer shaft, spindle and movable sleeve, the first side in described location is provided with positioning groove, described handle and adapter shaft are fixed on positioning head, described motion axle sleeve is placed on adapter shaft, described outer shaft is placed in kinematic axis and puts, described gland is fixed on outer shaft, described reinforced head is located on gland, described spindle is located on movable sleeve, and be placed in the outer shaft outside, described spool fixed mechanism comprises base, fixed leg, packing ring, silk braid and adjustable cap, described base is located at the fixed leg bottom after being placed on fixed leg, described packing ring is placed on fixed leg, after described silk braid is placed on fixed leg, its underpart is placed in base top, described adjustable cap is located at fixed leg top.

4. doubling computerized high-speed bobbin-winding machine according to claim 1, it is characterized in that described spindle support comprises stationary pipes, be connected and fixed head and bindiny mechanism, a described side of being located at stationary pipes that is connected and fixed, described bindiny mechanism is located at the bottom that is connected and fixed head, described bindiny mechanism comprises connecting bore and contiguous block, described connecting bore by contiguous block be connected and fixed the head be connected, described connecting bore is at least one, or described connecting bore is the waist hole, directly open on contiguous block, described contiguous block is located at and is connected and fixed on head, described pull bar bottom is provided with outside thread, described spring setting nut has two, be respectively the first spring setting nut and the second spring setting nut, described the first spring setting nut is located at the outside thread upside, described the second spring setting nut is located at the outside thread downside, described spring is located between the first spring setting nut and the second spring setting nut, described pull bar fixed mechanism comprises fixed plate, connecting strap and spacer, described connecting strap is located at the side of fixed plate, and be structure as a whole with fixed plate, described spacer is screwed on connecting strap, described spacer is provided with through hole, spacer through hole below is located in described the second spring setting nut bottom, described the second spring setting nut top is through through hole, be placed in spacer through hole top, described spring top peaks at the first spring setting nut bottom, described spring bottom peaks at spacer through hole top.

5. doubling computerized high-speed bobbin-winding machine according to claim 1, it is characterized in that described positioning groove is located at the right side of positioning head, described handle is fixed in the bottom of positioning head, described adapter shaft is fixed in the left side of positioning head, its right side and the laminating of positioning head left side after described motion axle sleeve is placed on adapter shaft, described motion axle sleeve left side is provided with draw-in groove, the outer shaft left side is fixed on described gland right side, be provided with and hold out against spring between described gland right side and motion axle sleeve left side, described reinforced head is located at the left side of gland, described gland outer cover has the reinforcing spring, described reinforced head left side is provided with pin, the right side of movable sleeve is located in described spindle left side, after described spindle and movable sleeve are placed on the outer shaft outside, the right flank of its spindle and the laminating of outer shaft right side, described movable sleeve is positioned the outer shaft outside by screw, described outer shaft right side has symmetrical through hole, described screw is through after movable sleeve, the termination of its screw peaks in the draw-in groove of motion axle sleeve through after through hole, described anchor fitting and slewing arrangement pass through the pin loose joint after one, its spacer is located in positioning groove.

6. doubling computerized high-speed bobbin-winding machine according to claim 1, it is characterized in that described base inside is provided with a through hole, described through hole is up-narrow and down-wide structure, described through hole lower inner wall is provided with a dop, described base top is provided with an articles holding table, described articles holding table outside is provided with annular guard ring, after described silk braid is placed on fixed leg, its underpart is placed on articles holding table, described fixed leg top is provided with outside thread, described outside thread below is provided with a flange collar, described packing ring is placed on fixed leg and is placed on flange collar, described fixed leg bottom is provided with a collar, described collar is provided with draw-in groove, after described base is placed on fixed leg, the base plate through holes bottom peaks at the upper surface of the collar of fixed leg bottom, dop on its through-hole wall is stuck in the draw-in groove on collar, described fixed leg bottom is provided with inner bolt hole.

7. doubling computerized high-speed bobbin-winding machine according to claim 1, is characterized in that the front portion of described drive motor erecting bed is provided with guide bar, and described broken yarn electronic induction cutter sweep rear side also is provided with the yarn regulating tank.

Images