CN205188605U - Be applied to dyeing apparatus of knitting machine - Google Patents

Abstract

The utility model discloses a be applied to dyeing apparatus of knitting machine, which comprises a frame, be equipped with transmission room in the frame, dyeing cylinder body and drying chamber, the staining jar position is in the centre of frame, transmission room is connected to the left end of dyeing cylinder body, the drying chamber is connected to the right -hand member of dyeing cylinder body, the dyeing cylinder body includes the dyeing cylinder body that dyes under with, be equipped with drive mechanism in the transmission room, go up the internal mechanism that dyes that is equipped with of staining jar, the lower internal mechanism that dyes that is equipped with down of staining jar, on dye the mechanism and connect drive mechanism, under dye the mechanism and connect drive mechanism, drive mechanism includes drive machine, transmission shaft and bevel gear, the transmission shaft includes first transmission shaft, secondary drive axle and third transmission shaft, bevel gear includes a bevel gear, the 2nd bevel gear, the 3rd bevel gear and fourth bevel gear. The device simple structure, the science is convenient, with strong points, degree of automation is high, dyeing is effectual, work efficiency is high, has solved the dyeing problem of knitting machine well.

Description

A kind of dyeing apparatus being applied to knitting machine

Technical field

The utility model relates to a kind of dyeing apparatus being applied to knitting machine.

Background technology

Namely knitted cloth is utilize knitting needle by yarn bends lopping and mutually go here and there to overlap and the fabric of formation, point tWarp Knitted Fabrics and tWeft Knitted Fabrics.For knitwear, it has the characteristics such as quality softness, moisture absorption is ventilative, perspire is warming, mostly has excellent elasticity and ductility; Knitted apparel is comfortable and easy to wear, undergarment, nothing arrest tight sense, can fully demonstrate the curve of human body.Generally be suitable for makeing underwear, Lingerie and sportswear etc., knitted fabric, at change structure with after improving DIMENSIONAL STABILITY, can make coat equally.Modern knitwear have entered multi-functional and superior Rapid development stage.

Namely dyeing catch color, also deserves to be called look, refers to chemically or additive method affect material itself and makes it painted, object can be made to present color needed for people, decorateeing life with colourful by dyeing.This method that dyes just has from ancient times, and development, the dyeing of textiles can be carried out in any stage, can dye in different phases such as goods, yarn, fabric and ready-made clothes, wherein usually there is the dyeing problem such as uneven, insufficient in existing knitting dyeing, is unfavorable for raising dyeing quality.

Utility model content

The purpose of this utility model is to provide a kind of dyeing apparatus being applied to knitting machine, and this apparatus structure is simple, science is convenient, with strong points, automaticity is high, Color is good, operating efficiency is high, solves the colouring problem of knitting machine well.

In order to solve the problems of the technologies described above, adopt following technical scheme:

A kind of dyeing apparatus being applied to knitting machine, comprise frame, frame is provided with Transmission Room, dyeing cylinder body and drying chamber, staining jar body is positioned at the centre of frame, the left end connection for transmission room of dyeing cylinder body, the right-hand member of dyeing cylinder body connects drying chamber, dyeing cylinder body comprises dyeing cylinder body and lower dyeing cylinder body, transmission mechanism is provided with in Transmission Room, dyeing mechanism is provided with in upper dyeing cylinder body, lower dyeing mechanism is provided with in lower dyeing cylinder body, connection for transmission mechanism of upper dyeing mechanism, connection for transmission mechanism of lower dyeing mechanism, transmission mechanism comprises driving motor, power transmission shaft and bevel gear, power transmission shaft comprises the first power transmission shaft, second driving shaft and the 3rd power transmission shaft, bevel gear comprises the first bevel gear, second bevel gear, third hand tap gear and the 4th bevel gear, driving motor is connected with reductor, reductor connects the first power transmission shaft, first power transmission shaft is provided with the first bevel gear and the second bevel gear, second driving shaft is provided with third hand tap gear, first bevel gear and third hand tap gear are meshed, 3rd power transmission shaft is provided with the 4th bevel gear, second bevel gear and the 4th bevel gear are meshed.Transmission mechanism is by driving motor and reductor, the first power transmission shaft is driven to rotate, be installed on the first bevel gear on the first power transmission shaft like this and the second bevel gear also and then rotates, under the engagement of the first bevel gear and third hand tap gear and under the engagement of the second bevel gear and the 4th bevel gear, drive second driving shaft and the 3rd power transmission shaft to rotate respectively, so just can carry out dyeing work to upper coating roll and lower coating roll respectively by upper driving chain and underdrive chain.

Further, upper dyeing mechanism comprises staining rack and upper coating roll, upper staining rack is installed in dyeing cylinder body, upper staining rack is provided with coating roll, upper coating roll is horizontally arranged between staining rack, upper coating roll is provided with driven pulley, and second driving shaft is provided with driving wheel, is provided with upper driving chain between upper driving wheel and upper driven pulley.Upper dyeing mechanism is wholy set in dyeing cylinder body, does not directly contact with dye liquor.Upper dyeing mechanism drives second driving shaft to rotate by transmission mechanism, under the effect of upper driving wheel with upper driven pulley, drives upper coating roll to rotate by upper driving chain, coordinates the lower mechanism that dyes to complete dyeing work together.

Further, lower dyeing mechanism comprises lower staining rack and lower coating roll, lower staining rack is installed in lower dyeing cylinder body, lower staining rack is provided with lower coating roll, lower coating roll is horizontally arranged between lower staining rack, lower coating roll is provided with lower driven pulley, and the 3rd power transmission shaft is provided with lower driving wheel, is provided with underdrive chain between lower driving wheel and lower driven pulley.Lower dyeing mechanism is wholy set in lower dyeing cylinder body, and lower coating roll directly contacts with dye liquor.Lower dyeing mechanism drives the 3rd power transmission shaft to rotate by transmission mechanism, and under the effect of lower driving wheel and lower driven pulley, drive lower coating roll to rotate by underdrive chain, in cooperations, dyeing mechanism completes dyeing work together.

Further, upper coating roll is provided with directive wheel, and lower coating roll is provided with lower directive wheel, and upper directive wheel and lower directive wheel are provided with yarn.Upper coating roll and lower coating roll are crisscross arranged at vertical direction, and upper coating roll is positioned at the top of dye liquor, and lower coating roll is immersed in dye liquor, facilitate yarn to be around in better on coating roll and lower coating roll, make yarn keep tension force better.Drive upper coating roll to rotate together with lower coating roll by transmission mechanism simultaneously, under the guide effect of upper directive wheel and lower directive wheel, yarn follows upper coating roll to move together with lower coating roll without any confusion, is constantly immersed in dye liquor, thus completes dyeing work.

Further, dividing plate is provided with between upper dyeing cylinder body and lower dyeing cylinder body.Dividing plate is provided with through hole (not shown in FIG.), through yarn in through hole, makes yarn can carry out dyeing work well.By dividing plate, make yarn carry out in dyeing course, the dye liquor being positioned at lower dyeing cylinder body can not splash on dyeing cylinder body, the working environment that protection is dyeed in cylinder body.

Further, be provided with temperature sensor in lower dyeing cylinder body, temperature sensor is installed on the inwall of lower dyeing cylinder body.By temperature sensor, control the temperature of the dye liquor in lower dyeing cylinder body, make dye liquor can not be too high or too lowly affect Color because of temperature.

Further, be provided with liquid level sensor in lower dyeing cylinder body, liquid level sensor comprises liquid level bar and probe, and liquid level bar is vertically arranged, and probe comprises high-order probe and low level probe, and high-order probe is positioned at the upper end of liquid level bar, and low level probe is positioned at the lower end of liquid level bar.By arranging high position probe and the low level probe of liquid level sensor, when staff dyes downwards and to add dye liquor in cylinder body, when the high position probe of liquid level sensor senses dye liquor higher than the highest liquid level, stop dyeing cylinder body interior interpolation dye liquor downwards, the dye liquor liquid level moment in lower dyeing cylinder body is made to be in optimal liquid level duty, effectively reduce the impulsive force of dye liquor to yarn, make lower coating roll drive yarn to carry out dyeing work better.

Further, baker is provided with in drying chamber.After dyeing terminates, by baker, drying and processing is carried out to yarn, be convenient to next step knitting work.

Owing to adopting technique scheme, there is following beneficial effect:

The utility model is a kind of dyeing apparatus being applied to knitting machine, and this apparatus structure is simple, science is convenient, with strong points, automaticity is high, Color is good, operating efficiency is high, solves the colouring problem of knitting machine well.

Transmission mechanism is by driving motor and reductor, the first power transmission shaft is driven to rotate, be installed on the first bevel gear on the first power transmission shaft like this and the second bevel gear also and then rotates, under the engagement of the first bevel gear and third hand tap gear and under the engagement of the second bevel gear and the 4th bevel gear, drive second driving shaft and the 3rd power transmission shaft to rotate respectively, so just can carry out dyeing work to upper coating roll and lower coating roll respectively by upper driving chain and underdrive chain.

Upper dyeing mechanism is wholy set in dyeing cylinder body, does not directly contact with dye liquor.Upper dyeing mechanism drives second driving shaft to rotate by transmission mechanism, under the effect of upper driving wheel with upper driven pulley, drives upper coating roll to rotate by upper driving chain, coordinates the lower mechanism that dyes to complete dyeing work together.

Lower dyeing mechanism is wholy set in lower dyeing cylinder body, and lower coating roll directly contacts with dye liquor.Lower dyeing mechanism drives the 3rd power transmission shaft to rotate by transmission mechanism, and under the effect of lower driving wheel and lower driven pulley, drive lower coating roll to rotate by underdrive chain, in cooperations, dyeing mechanism completes dyeing work together.

Upper coating roll and lower coating roll are crisscross arranged at vertical direction, and upper coating roll is positioned at the top of dye liquor, and lower coating roll is immersed in dye liquor, facilitate yarn to be around in better on coating roll and lower coating roll, make yarn keep tension force better.Drive upper coating roll to rotate together with lower coating roll by transmission mechanism simultaneously, under the guide effect of upper directive wheel and lower directive wheel, yarn follows upper coating roll to move together with lower coating roll without any confusion, is constantly immersed in dye liquor, thus completes dyeing work.

Dividing plate is provided with through hole (not shown in FIG.), through yarn in through hole, makes yarn can carry out dyeing work well.By dividing plate, make yarn carry out in dyeing course, the dye liquor being positioned at lower dyeing cylinder body can not splash on dyeing cylinder body, the working environment that protection is dyeed in cylinder body.

By temperature sensor, control the temperature of the dye liquor in lower dyeing cylinder body, make dye liquor can not be too high or too lowly affect Color because of temperature.By arranging high position probe and the low level probe of liquid level sensor, when staff dyes downwards and to add dye liquor in cylinder body, when the high position probe of liquid level sensor senses dye liquor higher than the highest liquid level, stop dyeing cylinder body interior interpolation dye liquor downwards, the dye liquor liquid level moment in lower dyeing cylinder body is made to be in optimal liquid level duty, effectively reduce the impulsive force of dye liquor to yarn, make lower coating roll drive yarn to carry out dyeing work better.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is a kind of structural representation being applied to the dyeing apparatus of knitting machine in the utility model;

Fig. 2 is the structural representation of transmission mechanism in the utility model;

Fig. 3 be in the utility model in Fig. 2 A to structural representation;

Fig. 4 is the structural representation of upper dyeing mechanism in the utility model;

Fig. 5 is the structural representation of lower dyeing mechanism in the utility model;

Fig. 6 is the structural representation that in the utility model, upper dyeing mechanism is connected with lower dyeing mechanism.

In figure: 1-frame; 2-dyes cylinder body; Dye under 3-cylinder body; 4-dyes mechanism; Dye under 5-mechanism; 6-transmission mechanism; 7-drying chamber; 8-baker; 9-dividing plate; 10-Transmission Room; 11-liquid level bar; 12-high position probe; 13-low level is popped one's head in; 14-yarn; 15-temperature sensor; The upper staining rack of 41-; The upper coating roll of 42-; The upper driving wheel of 43-; The upper driven pulley of 44-; 45-upper driving chain; The upper directive wheel of 46-; Staining rack under 51-; Coating roll under 52-; Driving wheel under 53-; Driven pulley under 54-; 55-underdrive chain; Directive wheel under 56-; 61-driving motor; 62-reductor; 63-first power transmission shaft; 64-second driving shaft; 65-the 3rd power transmission shaft; 66-first bevel gear; 67-second bevel gear; 68-third hand tap gear; 69-the 4th bevel gear.

Detailed description of the invention

As shown in Figures 1 to 6, comprise frame 1, frame 1 is provided with Transmission Room 10, dyeing cylinder body and drying chamber 7, and staining jar body is positioned at the centre of frame 1, the left end connection for transmission room 10 of dyeing cylinder body, and the right-hand member of dyeing cylinder body connects drying chamber 7.Baker 8 is provided with in drying chamber 7.After dyeing terminates, carry out drying and processing by baker 8 pairs of yarns 14, be convenient to next step knitting work.Dyeing cylinder body comprises dyeing cylinder body 2 and lower dyeing cylinder body 3, be provided with transmission mechanism 6 in Transmission Room 10, be provided with dyeing mechanism 4 in upper dyeing cylinder body 2, in lower dyeing cylinder body 3, be provided with lower dyeing mechanism 5, connection for transmission mechanism of upper dyeing mechanism 46, connection for transmission mechanism of lower dyeing mechanism 56.Dividing plate 9 is provided with between upper dyeing cylinder body 2 and lower dyeing cylinder body 3.Dividing plate 9 is provided with through hole (not shown in FIG.), through yarn 14 in through hole, makes yarn 14 can carry out dyeing work well.By dividing plate 9, make yarn 14 carry out in dyeing course, the dye liquor being positioned at lower dyeing cylinder body 3 can not splash on dyeing cylinder body 2, the working environment that protection is dyeed in cylinder body 2.Be provided with temperature sensor 15 in lower dyeing cylinder body 3, temperature sensor 15 is installed on the inwall of lower dyeing cylinder body 3.By temperature sensor 15, control the temperature of the dye liquor in lower dyeing cylinder body 3, make dye liquor can not be too high or too lowly affect Color because of temperature.Liquid level sensor is provided with in lower dyeing cylinder body 3, liquid level sensor comprises liquid level bar 11 and probe, and liquid level bar 11 is vertically arranged, and probe comprises high-order probe 12 and low level probe 13, high-order probe 12 is positioned at the upper end of liquid level bar 11, and low level probe 13 is positioned at the lower end of liquid level bar 11.By arranging high position probe 12 and the low level probe 13 of liquid level sensor, when staff dyes downwards and adds dye liquor in cylinder body 3, when the high position probe 12 of liquid level sensor senses dye liquor higher than the highest liquid level, stop the interior interpolation dye liquor of dyeing cylinder body 3 downwards, the dye liquor liquid level moment in lower dyeing cylinder body 3 is made to be in optimal liquid level duty, effectively reduce the impulsive force of dye liquor to yarn 14, make lower coating roll drive yarn 14 to carry out dyeing work better.

Transmission mechanism 6 comprises driving motor 61, power transmission shaft and bevel gear, power transmission shaft comprises the first power transmission shaft 63, second driving shaft 64 and the 3rd power transmission shaft 65, bevel gear comprises the first bevel gear 66, second bevel gear 67, third hand tap gear 68 and the 4th bevel gear 69, driving motor 61 is connected with reductor 62, reductor 62 connects the first power transmission shaft 63, first power transmission shaft 63 is provided with the first bevel gear 66 and the second bevel gear 67, second driving shaft 64 is provided with third hand tap gear 68, first bevel gear 66 and third hand tap gear 68 are meshed, 3rd power transmission shaft 65 is provided with the 4th bevel gear 69, second bevel gear 67 and the 4th bevel gear 69 are meshed.Transmission mechanism 6 is by driving motor 61 and reductor 62, the first power transmission shaft 63 is driven to rotate, be installed on the first bevel gear 66 on the first power transmission shaft 63 like this and the second bevel gear 67 also and then rotates, under the engagement of the first bevel gear 66 and third hand tap gear 68 and under the engagement of the second bevel gear 67 and the 4th bevel gear 69, drive second driving shaft 64 and the 3rd power transmission shaft 65 to rotate respectively, so just can carry out dyeing work to upper coating roll 42 and lower coating roll 52 respectively by upper driving chain 45 and underdrive chain 55.

Upper dyeing mechanism 4 comprises staining rack 41 and upper coating roll 42, upper staining rack 41 is installed in dyeing cylinder body 2, upper staining rack 41 is provided with coating roll 42, upper coating roll 42 is horizontally arranged between staining rack 41, upper coating roll 42 is provided with driven pulley 44, second driving shaft 64 is provided with driving wheel 43, is provided with upper driving chain 45 between upper driving wheel 43 and upper driven pulley 44.Upper dyeing mechanism 4 is wholy set in dyeing cylinder body 2, does not directly contact with dye liquor.Upper dyeing mechanism 4 drives second driving shaft 64 to rotate by transmission mechanism 6, at upper driving wheel 43 with under the effect of upper driven pulley 44, drives upper coating roll 42 to rotate by upper driving chain 45, coordinates lower dyeing mechanism 5 to complete dyeing work together.

Lower dyeing mechanism 5 comprises lower staining rack 51 and lower coating roll 52, lower staining rack 51 is installed in lower dyeing cylinder body 3, lower staining rack 51 is provided with lower coating roll 52, lower coating roll 52 is horizontally arranged between lower staining rack 51, lower coating roll 52 is provided with lower driven pulley 54,3rd power transmission shaft 65 is provided with lower driving wheel 53, is provided with underdrive chain 55 between lower driving wheel 53 and lower driven pulley 54.Lower dyeing mechanism 5 is wholy set in lower dyeing cylinder body 3, and lower coating roll 52 directly contacts with dye liquor.Lower dyeing mechanism 5 drives the 3rd power transmission shaft 65 to rotate by transmission mechanism 6, under the effect of lower driving wheel 53 and lower driven pulley 54, drives lower coating roll 52 to rotate by underdrive chain 55, and mechanism 4 that cooperation is dyeed completes dyeing work together.

Upper coating roll 42 is provided with directive wheel 46, and lower coating roll 52 is provided with lower directive wheel 56, and upper directive wheel 46 and lower directive wheel 56 are provided with yarn 14.Upper coating roll 42 and lower coating roll 52 are crisscross arranged at vertical direction, and upper coating roll 42 is positioned at the top of dye liquor, and lower coating roll 52 is immersed in dye liquor, facilitate yarn 14 to be around in better on coating roll 42 and lower coating roll 52, make yarn 14 keep tension force better.Drive coating roll 42 to rotate together with lower coating roll 52 by transmission mechanism 6 simultaneously, under the guide effect of upper directive wheel 46 and lower directive wheel 56, yarn 14 follows upper coating roll 42 to move together with lower coating roll 52 without any confusion, constantly be immersed in dye liquor, thus complete dyeing work.

A kind of operation principle being applied to the dyeing apparatus of knitting machine of the utility model: first by driving motor 61 and reductor 62, whole transmission mechanism 6 is driven to operate, under upper driving chain 45 and underdrive chain 55 drive, in drive, coating roll 42 and lower coating roll 52 start to rotate.Constantly contacted with dye liquor by yarn 14, thus complete dyeing work.Last after completing dyeing work, by the baker 8 in drying chamber 7, by the moisture evaporate to dryness in dye liquor, be convenient to the knitting work that yarn 14 carries out next step.

These are only specific embodiment of the utility model, but technical characteristic of the present utility model is not limited thereto.Any based on the utility model, for solving substantially identical technical problem, realize substantially identical technique effect, done ground simple change, equivalent replacement or modification etc., be all covered by among protection domain of the present utility model.

Claims (8)

1. one kind is applied to the dyeing apparatus of knitting machine, comprise frame, it is characterized in that: described frame is provided with Transmission Room, dyeing cylinder body and drying chamber, described staining jar body is positioned at the centre of described frame, the left end of described dyeing cylinder body connects described Transmission Room, the right-hand member of described dyeing cylinder body connects described drying chamber, described dyeing cylinder body comprises dyeing cylinder body and lower dyeing cylinder body, transmission mechanism is provided with in described Transmission Room, dyeing mechanism is provided with in described upper dyeing cylinder body, lower dyeing mechanism is provided with in described lower dyeing cylinder body, described upper dyeing mechanism connects described transmission mechanism, described lower dyeing mechanism connects described transmission mechanism, described transmission mechanism comprises driving motor, power transmission shaft and bevel gear, described power transmission shaft comprises the first power transmission shaft, second driving shaft and the 3rd power transmission shaft, described bevel gear comprises the first bevel gear, second bevel gear, third hand tap gear and the 4th bevel gear, described driving motor is connected with reductor, described reductor connects described first power transmission shaft, described first power transmission shaft is provided with described first bevel gear and described second bevel gear, described second driving shaft is provided with described third hand tap gear, described first bevel gear and described third hand tap gear are meshed, described 3rd power transmission shaft is provided with the 4th bevel gear, described second bevel gear and described 4th bevel gear are meshed.

2. a kind of dyeing apparatus being applied to knitting machine according to claim 1, it is characterized in that: described upper dyeing mechanism comprises staining rack and upper coating roll, described upper staining rack is installed in described upper dyeing cylinder body, described upper staining rack is provided with described upper coating roll, described upper coating roll is horizontally arranged between described upper staining rack, described upper coating roll is provided with driven pulley, described second driving shaft is provided with driving wheel, is provided with upper driving chain between described upper driving wheel and described upper driven pulley.

3. a kind of dyeing apparatus being applied to knitting machine according to claim 2, it is characterized in that: described lower dyeing mechanism comprises lower staining rack and lower coating roll, described lower staining rack is installed in described lower dyeing cylinder body, described lower staining rack is provided with described lower coating roll, described lower coating roll is horizontally arranged between described lower staining rack, described lower coating roll is provided with lower driven pulley, described 3rd power transmission shaft is provided with lower driving wheel, is provided with underdrive chain between described lower driving wheel and described lower driven pulley.

4. a kind of dyeing apparatus being applied to knitting machine according to claim 3, it is characterized in that: described upper coating roll is provided with directive wheel, described lower coating roll is provided with lower directive wheel, and described upper directive wheel and described lower directive wheel are provided with yarn.

5. a kind of dyeing apparatus being applied to knitting machine according to claim 1, is characterized in that: be provided with dividing plate between described upper dyeing cylinder body and described lower dyeing cylinder body.

6. a kind of dyeing apparatus being applied to knitting machine according to claim 1, it is characterized in that: be provided with temperature sensor in described lower dyeing cylinder body, described temperature sensor is installed on the inwall of described lower dyeing cylinder body.

7. a kind of dyeing apparatus being applied to knitting machine according to claim 1, it is characterized in that: in described lower dyeing cylinder body, be provided with liquid level sensor, described liquid level sensor comprises liquid level bar and probe, described liquid level bar is vertically arranged, described probe comprises high-order probe and low level probe, described high position probe is positioned at the upper end of described liquid level bar, and described low level probe is positioned at the lower end of described liquid level bar.

8. a kind of dyeing apparatus being applied to knitting machine according to claim 1, is characterized in that: be provided with baker in described drying chamber.