CN201648611U - Novel rotor spinning machine - Google Patents

Abstract

The utility model discloses a novel rotor spinning machine, which can not only realize high-speed spinning, but also realize simultaneous spinning of two varieties of yarns and has the advantages of low noise and energy consumption, high capacity, fine stability, low manufacturing cost and the like. The novel rotor spinning machine is formed by sequentially connecting a left tail structure, a left-middle section spinning structure, a central control transmission structure, a right-middle section spinning structure and a right tail structure. The central control transmission structure consists of a rotor motor, a central control transmission seat and slide block combining components, the slide block combining components are symmetrically fixed at the left end and the right end of a ridge of the central control transmission seat, a shaft a, a shaft b, a shaft a' and a shaft b' are simultaneously fixed on the central control transmission seat, the shaft a and the shaft a' are in mirror symmetry relative to a ridge line of the central control transmission seat, the shaft b and the shaft b' are in mirror symmetry relative to the ridge line of the central control transmission seat, the shaft a, the shaft b, the shaft a' and the shaft b' are respectively provided with a tangential belt pulley and a flat belt pulley, and the flat belt pulleys which are disposed on the left side and the right side of the central control transmission seat are respectively connected with the rotary motor via flat belts.

Description

A kind of novel rotor spinning machine

Technical field

The utility model relates to a kind of novel rotor spinning machine, belongs to the spinning machinery technical field.

Background technology

Existing rotor spinning machine is made up of three parts: headstock drive mechanism, stage casing spinning structure, tailstock structure.In order to increase output, prior art all is by increasing the number of spindles of stage casing spinning structure, realizing with the lengthening complete machine.Yet with regard to existing rotor spinning machine, number of spindles is many more, and high more to the radial run-out and the axiality requirement between axle and the axle of stage casing each several part coupking shaft, this has increased manufacturing cost and manufacture difficulty greatly; On the contrary, if axiality is poor, transmission stability is poor so, spinning is unstable, draw yarn speed and feed to speed and be difficult to promote and influence the output raising; In addition, in order to guarantee the normal spinning under many number of spindles, necessarily require the technology blower fan to keep enough stable negative pressure, this just requires the power of technology blower fan to strengthen, and causes noise very big.Present rotor spinning machining technique, number of spindles can only reach 320 ingots at most, and the rotor spinning machine field is faced with the bottleneck that is difficult to break through.

And, can only weave the simultaneously yarn of a kind of existing rotor spinning machine, if the yarn of a plurality of different cultivars of will weaving, or wait a kind weaving to finish to change next kind again, exist the cycle to grow and the loaded down with trivial details defective of workload; Standby many rotor spinning machines exist cost height, defective that utilization rate of equipment and installations is low.

The utility model content

The purpose of this utility model is at the deficiencies in the prior art, provide a kind of number of spindles of can not only realizing to surpass the high-speed spinning of 320 ingots, can also realize weaving the simultaneously yarn of two different cultivars, and have that noise is little, energy consumption is low, production capacity is high, good stability and low cost of manufacture, the novel rotor spinning machine of processing, advantage such as easy to maintenance.

For achieving the above object, the technical solution adopted in the utility model is as follows:

Novel rotor spinning machine provided by the utility model is characterized in that: connected and composed successively by left tailstock structure, left stage casing spinning structure, middle control drive mechanism, right stage casing spinning structure and right tailstock structure; The control drive mechanism comprises revolving cup motor, middle control retainer and slide block conjunction in described, the symmetrical slide block conjunction that is fixed with at the two ends of middle control retainer back, also be fixed with an a, axle b, axle a ' and axle b ' in described on the control retainer simultaneously, described axle a and axle a ', axle b and axle b ' all constitute the mirror image symmetric relation with respect to middle control retainer crestal line; Be equipped with a tengential belt wheel and a flat-belt pulley on described axle a, axle b, axle a ' and the axle b ', wherein: tengential belt wheel, the flat-belt pulley on axle a and the axle a ' lays respectively at the two ends of an a and axle a '; Tengential belt wheel, flat-belt pulley on axle b and the axle b ' lays respectively at the same end of a b and axle b ', and flat-belt pulley is in close proximity to the outside of tengential belt wheel; The flat-belt pulley of the and arranged on left and right sides of middle control retainer is connected with a revolving cup motor by a flat belt respectively.

Described slide block conjunction comprises end cap, screw rod, slide block and flat-belt pulley, and end cap is fixed on the upper end of screw rod, and slide block is movably connected on the screw rod by screw thread, and flat-belt pulley is fixedly connected on the slide block by axle.

The control retainer is provided with the slide cartridge that is complementary with the slide block conjunction in described, and the slide block conjunction is fixed on the middle control retainer by the end that screw is fixedly connected on this slide cartridge.

Be provided with axis hole I, axis hole II, axis hole III, axis hole IV, axis hole I ', axis hole II ', axis hole III ', axis hole IV ' on middle control retainer, wherein: axis hole I and axis hole I ', axis hole II and axis hole II ', axis hole III and axis hole III ', axis hole IV and axis hole IV ' all constitute the mirror image symmetric relation with respect to middle control retainer crestal line; Described axle a is fixed in axis hole I and the axis hole IV, and axle b is fixed in axis hole II and the axis hole III, and axle a ' is fixed in axis hole I ' and the axis hole IV ', and axle b ' is fixed in axis hole II ' and the axis hole III '; Described axis hole I, axis hole I ', axis hole III, axis hole III ' are built-in axis hole; Described axis hole II, axis hole II ', axis hole IV, axis hole IV ' are outer process formula axis hole.

Because of the middle control drive mechanism of rotor spinning machine provided by the utility model has two independently drive lines, a transmission left side spinning rotary cup separately, also can be separately transmission the right spinning rotary cup, also non-interfering transmission left side spinning rotary cup and the right spinning rotary cup simultaneously.Therefore, the utility model compared with prior art has following beneficial effect:

1) can realize that total number of spindles substantially exceeds the high-speed spinning of 320 ingots, is easy to satisfy the requirement of high yield.

2) compare with the rotor spinning machine of existing identical number of spindles, the technology power of fan in the left and right tailstock structure of the present utility model can reduce, and it is little to have a noise, and energy consumption is low, advantages such as good stability.

3) compare with two existing rotor spinning machines, have low cost of manufacture, processing, easy to maintenance, production capacity height, advantage such as floor space is little.

4) can weave the simultaneously yarn of two different cultivars has and uses advantage flexibly.

Description of drawings

Fig. 1 is the left side view of middle control drive mechanism of the present utility model;

Fig. 2 is the right side view of middle control drive mechanism of the present utility model;

Fig. 3 is the structural representation of the slide block conjunction in the middle control drive mechanism of the present utility model;

Fig. 4 is the structural representation of the middle control retainer in the middle control drive mechanism of the present utility model;

Fig. 5 is an operation principle schematic diagram of the present utility model.

Among the figure: 1. revolving cup motor; 1a. revolving cup motor 1; 1b. revolving cup motor 2; 2. belt pulley; 2a. belt pulley 1; 2b. belt pulley 2; 3. tengential belt; 3a. tengential belt a; 3b. tengential belt b; 3a '. tengential belt a '; 3b '. tengential belt b '; 4. tengential belt is taken turns; 4a. tengential belt wheel a; 4b. tengential belt wheel b; 4a '. tengential belt wheel a '; 4b '. tengential belt wheel b '; 5. flat-belt pulley; 5a. flat-belt pulley a; 5b. flat-belt pulley b; 5a '. flat-belt pulley a '; 5b '. flat-belt pulley b '; 6. flat belt; 6a. flat belt 1; 6b. flat belt 2; 7. middle control retainer; 7a. slide cartridge 1; 7a '. slide cartridge 2; 7b. axis hole I; 7b '. axis hole I '; 7c. axis hole II; 7c '. axis hole II '; 7d. axis hole III; 7d '. axis hole III '; 7e. axis hole IV; 7e '. axis hole IV '; 8. slide block conjunction; 8a. left slider conjunction; 8b. right slide block conjunction; The axle a; 9 '. axle a '; The axle b; 10 '. axle b '; 81. end cap; 82. screw rod; 83. slide block; 84. flat-belt pulley.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is done further detailed, complete explanation:

Embodiment

Extremely shown in Figure 5 in conjunction with Fig. 1: the novel rotor spinning machine that present embodiment provided is connected and composed successively by left tailstock structure, left stage casing spinning structure, middle control drive mechanism, right stage casing spinning structure and right tailstock structure; The control drive mechanism comprises control retainer and 8 slide block conjunctions in the 1 revolving cup motor, 7 in described, symmetrical 8a left slider conjunction and the right slide block conjunction of 8b of being fixed with in the two ends of control retainer back in 7, control also is fixed with 9 a, 10 b, 9 ' axle a ' and 10 ' axle b ' on the retainer simultaneously in 7, and described 9 a and 9 ' axle a ', 10 b and a 10 ' b ' are all with respect to middle control retainer crestal line formation mirror image symmetric relation; Described 9 a are provided with a 4a tengential belt wheel and a 5a flat-belt pulley, and 4a tengential belt wheel and 5a flat-belt pulley lay respectively at the two ends of 9 a; Described 10 b are provided with a 4b tengential belt wheel and a 5b flat-belt pulley, and 4b tengential belt wheel and 5b flat-belt pulley are positioned at the same end of 10 b, and the 5b flat-belt pulley is in close proximity to the outside of 4b tengential belt wheel; Described 9 ' axle a ' is provided with a 4a ' tengential belt wheel and a 5a ' flat-belt pulley, and 4a ' tengential belt wheel and 5a ' flat-belt pulley lay respectively at the two ends of 9 ' axle a '; Described 10 ' axle b ' is provided with a 4b ' tengential belt wheel and a 5b ' flat-belt pulley, and 4b ' tengential belt wheel and 5b ' flat-belt pulley are positioned at the same end of 10 ' axle b ', and 5b ' flat-belt pulley is in close proximity to the outside of 4b ' tengential belt wheel; 5a flat-belt pulley and 5b flat-belt pulley are in the same side, and 5a ' flat-belt pulley and 5b ' flat-belt pulley are in the same side; Every group 8 slide block conjunction includes 81 end caps, 82 screw rods, 83 slide blocks and 84 flat-belt pulleies, and 81 end caps are fixed on the upper end of 82 screw rods, and 83 slide blocks are movably connected on 82 screw rods by screw thread, and 84 flat-belt pulleies are fixedly connected on 83 slide blocks by axle; Also be provided with 7a slide cartridge 1 and the 7a ' slide cartridge 2 that is complementary with 8 slide block conjunctions on the control retainer in described 7, the end that 8a left slider conjunction is fixedly connected on the 7a ' slide cartridge 2 that is complementary with it by screw is fixed in 7 on the control retainer, and the end that the right slide block conjunction of 8b is fixedly connected on the 7a slide cartridge 1 that is complementary with it by screw is fixed in 7 on the control retainer; 1a revolving cup motor 1 is provided with 2a belt pulley 1, and 1b revolving cup motor 2 is provided with 2b belt pulley 2; 1a revolving cup motor 1 connects and composes an independent drive line with middle control retainer 7 by 6a flat belt 1, that is: 6a flat belt 1 is wrapped in the flat-belt pulley top of 8a left slider conjunction, the below of 5a ' flat-belt pulley, the top of 5b ' flat-belt pulley and the below of 2a belt pulley 1; 1b revolving cup motor 2 connects and composes another independent drive line with middle control retainer 7 by 6b flat belt 2, that is: 6b flat belt 2 is wrapped in flat-belt pulley top, the below of 5a flat-belt pulley, the top of 5b flat-belt pulley and the below of 2b belt pulley 2 of the right slide block conjunction of 8b.

Be provided with 7b axis hole I, 7c axis hole II, 7d axis hole III, 7e axis hole IV, 7b ' axis hole I ', 7c ' axis hole II ', 7d ' axis hole III ', 7e ' axis hole IV ' on the control retainer in 7, wherein: 7b axis hole I and 7b ' axis hole I ', 7c axis hole II and 7c ' axis hole II ', 7d axis hole III and 7d ' axis hole III ', 7e axis hole IV and 7e ' axis hole IV ' all constitute the mirror image symmetric relation with respect to middle control retainer crestal line; Described 9 a are fixed in 7b axis hole I and the 7e axis hole IV, and 10 b are fixed in 7c axis hole II and the 7d axis hole III, and 9 ' axle a ' is fixed in 7b ' axis hole I ' and the 7e ' axis hole IV ', and 10 ' axle b ' is fixed in 7c ' axis hole II ' and the 7d ' axis hole III '.

Described 7b axis hole I, 7b ' axis hole I ', 7d axis hole III, 7d ' axis hole III ' are built-in axis hole.

Described 7c axis hole II, 7c ' axis hole II ', 7e axis hole IV, 7e ' axis hole IV ' are outer process formula axis hole.

Transmission principle is as follows: 1 rotation of revolving cup motor, and by belt pulley 2, flat belt 6 drives flat-belt pulley 84, flat-belt pulley a and flat-belt pulley b rotation, thus drive tengential belt wheel a and tengential belt wheel b rotation, therefore reach the purpose that drives tengential belt, transmission revolving cup.

Because the middle control drive mechanism of rotor spinning machine provided by the utility model has two independently drive lines, therefore, the utility model is a transmission left side spinning rotary cup separately, also can be separately transmission the right spinning rotary cup, also simultaneously non-interfering transmission left side spinning rotary cup and the right spinning rotary cup, can not only realize that number of spindles surpasses the high-speed spinning of 320 ingots, can also realize weaving the simultaneously yarn of two different cultivars, and have that noise is little, energy consumption is low, production capacity is high, good stability and low cost of manufacture, processing, the advantage such as easy to maintenance.

Claims (6)

1. a novel rotor spinning machine is characterized in that: connected and composed successively by left tailstock structure, left stage casing spinning structure, middle control drive mechanism, right stage casing spinning structure and right tailstock structure; The control drive mechanism comprises revolving cup motor, middle control retainer and slide block conjunction in described, the symmetrical slide block conjunction that is fixed with at the two ends of middle control retainer back, also be fixed with an a, axle b, axle a ' and axle b ' in described on the control retainer simultaneously, described axle a and axle a ', axle b and axle b ' all constitute the mirror image symmetric relation with respect to middle control retainer crestal line; Be equipped with a tengential belt wheel and a flat-belt pulley on described axle a, axle b, axle a ' and the axle b ', wherein: tengential belt wheel, the flat-belt pulley on axle a and the axle a ' lays respectively at the two ends of an a and axle a '; Tengential belt wheel, flat-belt pulley on axle b and the axle b ' lays respectively at the same end of a b and axle b ', and flat-belt pulley is in close proximity to the outside of tengential belt wheel; The flat-belt pulley of the and arranged on left and right sides of middle control retainer is connected with a revolving cup motor by a flat belt respectively.

2. novel rotor spinning machine according to claim 1, it is characterized in that: described slide block conjunction comprises end cap, screw rod, slide block and flat-belt pulley, end cap is fixed on the upper end of screw rod, and slide block is movably connected on the screw rod by screw thread, and flat-belt pulley is fixedly connected on the slide block by axle.

3. novel rotor spinning machine according to claim 1 is characterized in that: the control retainer is provided with the slide cartridge that is complementary with the slide block conjunction in described, and the slide block conjunction is fixed on the middle control retainer by the end that screw is fixedly connected on this slide cartridge.

4. novel rotor spinning machine according to claim 1, it is characterized in that: be provided with axis hole I, axis hole II, axis hole III, axis hole IV, axis hole I ', axis hole II ', axis hole III ', axis hole IV ' on middle control retainer, wherein: axis hole I and axis hole I ', axis hole II and axis hole II ', axis hole III and axis hole III ', axis hole IV and axis hole IV ' all constitute the mirror image symmetric relation with respect to middle control retainer crestal line; Described axle a is fixed in axis hole I and the axis hole IV, and axle b is fixed in axis hole II and the axis hole III, and axle a ' is fixed in axis hole I ' and the axis hole IV ', and axle b ' is fixed in axis hole II ' and the axis hole III '.

5. novel rotor spinning machine according to claim 4 is characterized in that, described axis hole I, axis hole I ', axis hole III, axis hole III ' are built-in axis hole.

6. novel rotor spinning machine according to claim 4 is characterized in that, described axis hole II, axis hole II ', axis hole IV, axis hole IV ' are outer process formula axis hole.

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