CN204043368U - Textile industry centrifugal drier feeding mechanism - Google Patents

Abstract

The utility model discloses a kind of textile industry centrifugal drier feeding mechanism, aim to provide a kind of safe and efficient, the textile industry centrifugal drier feeding mechanism that cost is low, its drip irrigation device is a kind of textile industry centrifugal drier feeding mechanism, comprise shell and be fixed on the feed arrangement on shell, described feed arrangement comprises the annular air-out nozzle for pushing cloth, described air-out nozzle is towards enclosure, described air-out nozzle center has for making moisture cloth through air-out nozzle and the material channel fallen in shell, air compressor machine is provided with below described shell, described air compressor machine is connected with air-out nozzle by guide duct.The utility model is applicable to the industrial fabrics dewaterer of textile industry, printing and dyeing enterprise.

Description

Textile industry centrifugal drier feeding mechanism

Technical field

The utility model relates to a kind of dewaterer technical field, and more particularly, it relates to a kind of safe and efficient, textile industry centrifugal drier feeding mechanism that cost is low.

Background technology

Dewaterer generally can be used for the removal process of the article such as clothing, textile fabric, crops.The critical piece of dewaterer is inner bag, and inner bag surrounding is furnished with aperture, and clothing to be drained off is just placed in inner bag.Motor is by belt drive inner bag High Rotation Speed.So produce very large centrifugal force, therefore moisture be thrown out of by the aperture on inner bag, is collected rear unified discharge.In general, for the clothing of humidity, the drying effect that dewaterer work reaches for two minutes is similar identical with the effect that dryer work reaches for 20 minutes.

The INDUSTRY SPINDRYER model used in textile industry has: ф 500 dewaterer, ф 600 dewaterer, ф 800 dewaterer, ф 1000 dewaterer, ф 1200 dewaterer equal-specification, because INDUSTRY SPINDRYER is exerted oneself greatly, rotating speed is high, so have strict regulation to method of operating, the cloth dewatered must load in rotary drum uniform ground, note steady and can not overload, in prior art, the dewaterer charging of textile industry operates by special messenger, due to the state that cloth is non-open-width when dewatering, can not with conventional two roller extruding clothes, otherwise impression and folding line can be left to cloth, affect cloth quality, so be with the hands cloth is drawn in dewaterer by workman, workman needs continually to pull cloth, also need in the loading rotary drum of uniform ground simultaneously, very expend energy on and the time, workman usually can sit on dewaterer shell simultaneously, there is certain potential safety hazard, and cost of human resources is high, this technical problem is badly in need of solving.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of safe and efficient, textile industry centrifugal drier feeding mechanism that cost is low.

For achieving the above object, the utility model provides following technical scheme: a kind of textile industry centrifugal drier feeding mechanism, comprise shell and be fixed on the feed arrangement on shell, described feed arrangement comprises the annular air-out nozzle for pushing cloth, described air-out nozzle is towards enclosure, described air-out nozzle center has for making moisture cloth through air-out nozzle and the material channel fallen in shell, be provided with air compressor machine below described shell, described air compressor machine is connected with air-out nozzle by guide duct.

By adopting technique scheme, the labor operations of staff is replaced with wind-force, realize the pulling action to cloth, cloth is guided in dewaterer by wind-force, change the feeding manner of dewaterer, liberate labour, and wind-force pulls cloth can not produce folding line and impression, cost-saving, product is protected while improving throughput rate, ensure product quality, improve integral production efficiency, compressed air is delivered in annular air-out nozzle by guide duct by air compressor machine, cloth passes in annular air-out nozzle, under wind-force effect fast and be arranged to uniformly in the rotary drum of shell, as long as keep rotary drum to rotate in fill process, can ensure that cloth fills rotary drum uniformly, compared to existing technology, the utility model is safe from danger action, fill process is safe and efficient, and do not need additionally to increase labour, save cost, there is wide application prospect.

The utility model is set to further: described air-out nozzle blowing direction is arranged perpendicular to horizontal plane, is provided with guide axle directly over described air-out nozzle.

By adopting technique scheme, optimize cloth feedstock direction, by vertically arranging, the interference of the gravity of cloth is reduced to minimum, avoid the cloth containing moisture overweight and affect air-out nozzle material-feeding efficiency, raising equipment charging rate and charging stability, avoid cloth skewness in dewaterer to reduce dewatering efficiency, reduce dewaterer working loss simultaneously, improve service life.

The utility model is set to further: the periphery of described air-out nozzle has tapering, and described air-out nozzle is greater than close to shell one end radius away from the radius of shell one end.

By adopting technique scheme, wind-force is focused on a bit by tapering, improve the utilization rate of air-out nozzle, reduce the burden of air compressor machine, reduce energy resource consumption, cost-saving, that concentrates wind-force that cloth also can be made to load is more accurate simultaneously, ensure that the cloth in dewaterer is evenly distributed, up big and down small setting also facilitates cloth and passes through, and improves powder feeding efficiency.

The utility model is set to further: described shell is provided with cloth hopper near the side of feed arrangement, and described cloth hopper is connected with hoist cable, and described cloth hopper is moved in vertical direction by hoist cable.

By adopting technique scheme, cloth is after putting into cloth hopper, the height of cloth hopper improves by hoist cable, drop is formed between cloth hopper and dewaterer shell, cloth is less than the distance of guide axle to air-out nozzle from cloth hopper to the distance of guide axle, due to Action of Gravity Field, moisture cloth own wt passes through air-out nozzle with regard to stretchy self, further increase feed rate, and the feed rate of cloth can by the velocity of rotation of rotary drum, the wind-force of air-out nozzle and the height of cloth hopper carry out triple adjustment, further increase cloth filling precision, overall filling speed block, to be evenly distributed and with low cost, be applicable to upgrading the cloth dewaterer of textile industry and printing and dyeing enterprise, transformation, realize the full-automation of equipment, improve the production technology level of enterprise, improve integral production efficiency.

Accompanying drawing explanation

Fig. 1 is the schematic appearance of the utility model textile industry centrifugal drier feeding mechanism embodiment;

Fig. 2 is air-out nozzle arrangements schematic diagram;

Fig. 3 is cloth bin structure schematic diagram.

Reference numeral: 1, feed arrangement; 2, cloth hopper; 3, guide axle; 10, shell; 11, air-out nozzle; 12, guide duct; 13, air compressor machine; 14, material channel; 21, hoist cable.

Detailed description of the invention

Referring to figs. 1 through Fig. 3, the utility model textile industry centrifugal drier feeding mechanism embodiment is described further.

As shown in Figure 1 to Figure 3, a kind of textile industry centrifugal drier feeding mechanism, comprise the feed arrangement 1 be arranged on shell 10, described feed arrangement 1 comprises air-out nozzle 11 and the guide duct 12 for fixing air-out nozzle 11, described air-out nozzle 11 is annular, described air-out nozzle 11 center has material channel 14 and entirety has certain taper, described air-out nozzle 11 air-out direction is arranged vertically downward, and alignment housings 10 is inner, by vertically arranging, the interference of the gravity of cloth is reduced to minimum, avoid the cloth containing moisture overweight and affect air-out nozzle 11 powder feeding efficiency, raising equipment charging rate and charging stability, cloth skewness in dewaterer is avoided to reduce dewatering efficiency, reduce dewaterer working loss simultaneously, improve service life, described guide duct 12 two ends connect air-out nozzle 11 and shell 10 respectively, air compressor machine 13 is provided with below described shell 10, compressed air is delivered to air-out nozzle 11 by guide duct 12 by described air compressor machine 13.

Described annular air-out nozzle 11 inside can arrange some spoilers, to balance air-out dynamics, guide axle 3 is provided with directly over described air-out nozzle 11, described guide axle 3 can arrange multiple to optimize guide effect, cloth is first through guide axle 3, pass perpendicularly through annular air-out nozzle 11 again, the funnel-form that described air-out nozzle 11 is big up and small down, wind-force is focused on a bit by tapering, improve the utilization rate of air-out nozzle 11, reduce the burden of air compressor machine 13, reduce energy resource consumption, cost-saving, that concentrates wind-force that cloth also can be made to load is more accurate simultaneously, ensure that the cloth in dewaterer is evenly distributed, up big and down small setting also facilitates cloth and passes through, described shell 10 is provided with the cloth hopper 2 for placing moisture cloth near the side of feed arrangement 1, described cloth hopper 2 hangs on ceiling by hoist cable 21, described hoist cable 21 is existing in industrial circle to be widely applied, belong to existing science and technology, described cloth hopper 2 can move both vertically up and down.

The labor operations of staff is replaced with wind-force, realize the pulling action to cloth, cloth is guided in dewaterer by wind-force, change the feeding manner of dewaterer, liberate labour, and wind-force pulls cloth can not produce folding line and impression, cost-saving, product is protected while improving throughput rate, ensure product quality, improve integral production efficiency, compressed air is delivered in annular air-out nozzle 11 by guide duct 12 by air compressor machine 13, cloth passes in annular air-out nozzle 11, under wind-force effect fast and be arranged in the rotary drum of shell 10 uniformly, as long as keep rotary drum to rotate in fill process, can ensure that cloth fills rotary drum uniformly, compared to existing technology, the utility model is safe from danger action, fill process is safe and efficient, and do not need additionally to increase labour, save cost, there is wide application prospect.

Moisture cloth first loads cloth hopper 2, again charging operation is carried out to dewaterer by cloth hopper 2, save travelling bogie, reduce travelling bogie turn around time, reduce and produce and management cost, cloth hopper 2 is after ground level completes charging, the height of cloth hopper 2 improves by hoist cable 21, high low head is formed with dewaterer body, cloth arrives in shell 10 through the material channel 14 at guide axle 3 and air-out nozzle 11 center successively, the whereabouts resistance of the gravity official post cloth formed due to high low head is very little, by the wind-force of adjustment air-out nozzle 11 and the height of cloth hopper 2, coordinate the rotational angular velocity of rotary drum in shell 10, the uniformity of cloth charging can be adjusted very accurately, compare existing hand charging simultaneously, filling speed is faster, the filling uniformity is higher, and it is with low cost, there is no potential safety hazard, air-out nozzle 11 pushes cloth by wind-force, avoid extruding cloth and leave folding line and impression, improve product quality and quality, enhance productivity.

The above makes preferred embodiment of the present utility model, and under not departing from the prerequisite of the utility model principle for the person of ordinary skill of the art, can also make some modification and improvement, these also should be considered as protection domain of the present utility model.

Claims (4)

1. a textile industry centrifugal drier feeding mechanism, comprise shell and be fixed on the feed arrangement on shell, it is characterized in that: described feed arrangement comprises the annular air-out nozzle for pushing cloth, described air-out nozzle is towards enclosure, described air-out nozzle center has for making moisture cloth through air-out nozzle and the material channel fallen in shell, be provided with air compressor machine below described shell, described air compressor machine is connected with air-out nozzle by guide duct.

2. textile industry centrifugal drier feeding mechanism according to claim 1, is characterized in that: described air-out nozzle blowing direction, perpendicular to horizontal plane, is provided with guide axle directly over described air-out nozzle.

3. textile industry centrifugal drier feeding mechanism according to claim 1, it is characterized in that: the periphery of described air-out nozzle has tapering, described air-out nozzle is greater than close to shell one end radius away from the radius of shell one end.

4. textile industry centrifugal drier feeding mechanism according to claim 1, is characterized in that: described shell is provided with cloth hopper near the side of feed arrangement, and described cloth hopper is connected with hoist cable, and described cloth hopper is moved in vertical direction by hoist cable.