CN204780253U - Fabrics dyeing drying system - Google Patents

Abstract

The utility model discloses a fabrics dyeing drying system, include controller, temperature sensor, humidity transducer, support and set up at least one heating pipe on the support, set up a plurality of hot -blast holes on the heating pipe, the support is fixed to be set up in the exit of dyeing machine, and heating pipe inside or outside set up hot -blast production device, and apply on the fabrics in the hot -blast hole on the hot -blast by heating pipe, and hot -blast production device is connected with the controller, and temperature sensor and humidity transducer all set up on the heating pipe, and temperature sensor gathers the temperature information of heating pipe, and humidity transducer gathers the climate information of fabrics, and temperature sensor and humidity transducer all are connected with the controller. This system has increased supplementary drying equipment, and after the fabrics printing and dyeing were accomplished, the process had been practiced thrift in effective quick drying, has improved work efficiency.

Description

A kind of textile dyeing drying system

Technical field

The utility model belongs to textile dyeing apparatus field, is specifically related to a kind of textile dyeing drying system.

Background technology

High temperature-pressure dyeing machine mainly contaminates cotton textiles, terylene, acrylic fibers, nylon, wool, polyester-cotton blend, Mao Di, numb cotton or various blended yarn, configuration all kinds creel, multi-form yarn can be contaminated outward, as cheese, reeled yarn spinning cake, loose hair, wool top, beamed yarn, slide fastener, dribbling etc.

High temperature-pressure dyeing machine has following features:

1, circulation staining solution flow controls according to coloured differently technological requirement, by main pump frequency conversion speed-adjusting system, reaches and saves the energy and give rational flow, realizes simultaneously dyeing and controls optimization.

2, the liquid stream parallel operation of compact conformation, eliminate commutation pause, add cycle-index, make dyeing evenly.

3, low bath raio design, saves dyestuff, auxiliary agent and the energy, reduces blowdown flow rate, increase economic efficiency.

4, can variable load yarn bar, make appearance yarn amount can carry out having through conversion, reach because of determine bath raio, elasticity is processed in lifting.

5, scavenger system fast, effectively saves scavenging period and water consumption.

6, overflow-type charging system, can carry out dynamic material, effectively controls reinforced speed and amount, ensures uniform dye-uptake.

7, adopt novel centrifugal circulation, tool high-performance high efficiency and save the energy.

The water temperature of dyeing and printing sewage is higher (sizing and cowboy's rinse effluent except) mostly, pulp sewage water temperature as the bleachinging and dyeing of knitted cloth, knitted yarn is 40 ~ 45 DEG C, the Bleaching and dyeing sewage water temperature of lint, knitting wool is 40 ~ 50 DEG C, and moving back of Woven Fabrics is boiled, dyeing and printing sewage water temperature is 40 ~ 50 DEG C etc.When water temperature over-high, biochemical wastewater treatment system can be caused normally to run, directly affect sewage qualified discharge.Therefore must consider to carry out cooling process to high temperature sewage, then, then make the sewage after cooling enter biochemical treatment system, to reach the water temperature requirement of biochemical treatment, ensure the normal operation of whole treatment system.Meanwhile, the heat energy in sewage is also a kind of recycling resource.Usually the mode of heat exchange is adopted to carry out cooling down to the method that sewage is lowered the temperature, the process spent water of different temperatures, after mixing, enters heat exchanger and carries out cooling process, generally water temperature controlled below 42 DEG C, not only be beneficial to biological growth, can also treatment effect be improved.

Microwave dyeing equipment characteristic: 1, microwave dyeing is fast.As long as normal a few minutes, it is 1/tens of the traditional dyeing time.This is that heating using microwave mechanism and feature determined, it is soluble in water for dyestuff, hydrone is polar molecule, under microwave field effect, its polarity orientation changes along with the change of external electromagnetic field, and then dye liquor is in superfast friction, collision, vibration, weaving cotton cloth, in fiber infiltration shuttle back and forth, spread and on contaminate.Time short, efficient energy-saving.2, dyeing quality is excellent.It has dyeing firmly than traditional handicraft dyeing, uniform color.Determined by the selective heating feature of the permeability of heating using microwave and microwave.3, microwave printing and dyeing solve the difficulty of water pollutions in the dyeing of traditional handicraft machine cylinder, also substantially improve severe working environment and labour intensity.

Drying course after dyeing, also lacks the drying plant of this kind of fast energy-saving in prior art.

Summary of the invention

Technical problem to be solved in the utility model is: provide a kind of textile dyeing drying system, solve the problem of the drying plant lacking fast energy-saving in prior art after textile dyeing.

The utility model is for solving the problems of the technologies described above by the following technical solutions:

A kind of textile dyeing drying system, comprise controller, temperature sensor, humidity sensor, support and at least one heating tube be arranged on support, described heating tube is arranged multiple hot blast hole, described support is fixedly installed on the exit of dyeing machine, heating tube inside or outer setting hot wind generating device, hot blast puts on textiles by the hot blast hole on heating tube, hot wind generating device is connected with controller, temperature sensor and humidity sensor are all arranged on heating tube, temperature sensor gathers the temperature information of heating tube, humidity sensor gathers the humidity information of textiles, temperature sensor is all connected with controller with humidity sensor.

Described heating tube is 3, be respectively the first to the 3rd heating tube, first to the 3rd heating tube is arranged in order and is arranged on support, be interconnected between three heating tubes, connected by cascade tube between adjacent two heating tubes, between the first heating tube and cascade tube, the 3rd between heating tube and cascade tube, bending tube connector is all set, between the second heating tube and cascade tube, three-limb tube is set, first to the 3rd heating tube all arranges multiple hot blast hole, the setting and the position of adjacent heat air holes is staggered.

Described heating tube is axial, circumference all arranges hot blast hole, and described hot blast hole is uniformly distributed on heating tube.

Also comprise blower fan, it is inner or outside that described blower fan is arranged at heating tube, and work with hot wind generating device, the wind of generation is blown out by hot blast hole simultaneously.

The central processing unit of described controller is 51 series monolithics.

Described central processing unit is AT89S52.

Described temperature sensor is DS18B20.

Compared with prior art, the utility model has following beneficial effect:

1, native system adds auxiliary drying plant, after fabrics printing and dyeing completes, dries fast and effectively, has saved operation, has improve operating efficiency.

2, adopt multiple heating tube to heat textiles, add the unit are of heating, making after textile dyeing can flash baking, further increases operating efficiency.

3, heating tube is arranged multiple hole, hot blast is produced by boasting uniform and smooth, easily dries.

4, native system also comprises controller, temperature sensor, humidity sensor, relevant parameter is detected by sensor, then controller controls the work of heater according to relevant parameter, makes operating personnel not need to detect separately related data and automatically can complete detection, improve automaticity.

Accompanying drawing explanation

Fig. 1 is structured flowchart of the present utility model.

Wherein, being designated in figure: 1-first heating tube; 2-second heating tube; 3-the 3rd heating tube; 4-three-limb tube; 5-bending tube connector; 6-hot blast hole.

Detailed description of the invention

Below in conjunction with accompanying drawing, structure of the present utility model and the course of work are described further.

A kind of textile dyeing drying system, comprise controller, temperature sensor, humidity sensor, support and at least one heating tube be arranged on support, described heating tube is arranged multiple hot blast hole, described support is fixedly installed on the exit of dyeing machine, heating tube inside or outer setting hot wind generating device, hot blast puts on textiles by the hot blast hole on heating tube, hot wind generating device is connected with controller, temperature sensor and humidity sensor are all arranged on heating tube, temperature sensor gathers the temperature information of heating tube, humidity sensor gathers the humidity information of textiles, temperature sensor is all connected with controller with humidity sensor.

Described heating tube is 3, be respectively the first to the 3rd heating tube, first to the 3rd heating tube is arranged in order and is arranged on support, be interconnected between three heating tubes, connected by cascade tube between adjacent two heating tubes, between the first heating tube and cascade tube, the 3rd between heating tube and cascade tube, bending tube connector is all set, between the second heating tube and cascade tube, three-limb tube is set, first to the 3rd heating tube all arranges multiple hot blast hole, the setting and the position of adjacent heat air holes is staggered.

Described heating tube is axial, circumference all arranges hot blast hole, and described hot blast hole is uniformly distributed on heating tube.

Also comprise blower fan, it is inner or outside that described blower fan is arranged at heating tube, and work with hot wind generating device, the wind of generation is blown out by hot blast hole simultaneously.

The central processing unit of described controller is 51 series monolithics.

Described central processing unit is AT89S52.

Described temperature sensor is DS18B20.

Specific embodiment one,

As shown in Figure 1, a kind of textile dyeing drying system, comprise controller, temperature sensor, humidity sensor, support and 3 heating tubes be arranged on support, be respectively the first to the 3rd heating tube, first to the 3rd heating tube is arranged in order and is arranged on support, be interconnected between three heating tubes, connected by cascade tube between adjacent two heating tubes, between first heating tube 1 and cascade tube, between 3rd heating tube 3 and cascade tube, bending tube connector 5 is all set, between second heating tube 2 and cascade tube, three-limb tube 4 is set, first to the 3rd heating tube all arranges multiple hot blast hole 6, the setting and the position of adjacent heat air holes is staggered, described heating tube is arranged multiple hot blast hole, described support is fixedly installed on the exit of dyeing machine, heating tube inside or outer setting hot wind generating device, hot blast puts on textiles by the hot blast hole on heating tube, hot wind generating device is connected with controller, temperature sensor and humidity sensor are all arranged on heating tube, temperature sensor gathers the temperature information of heating tube, humidity sensor gathers the humidity information of textiles, temperature sensor is all connected with controller with humidity sensor.

Specific embodiment two,

A kind of textile dyeing drying system, comprise controller, temperature sensor, humidity sensor, support and 5 heating tubes be arranged on support, 5 heating tubes are arranged in order and are arranged on support, be interconnected between 5 heating tubes, connected by cascade tube between adjacent two heating tubes, the setting and the position of adjacent heat air holes is staggered, described heating tube is arranged multiple hot blast hole, described support is fixedly installed on the exit of dyeing machine, heating tube inside or outer setting hot wind generating device, hot blast puts on textiles by the hot blast hole on heating tube, hot wind generating device is connected with controller, temperature sensor and humidity sensor are all arranged on heating tube, temperature sensor gathers the temperature information of heating tube, humidity sensor gathers the humidity information of textiles, temperature sensor is all connected with controller with humidity sensor.

Operation principle and the course of work of native system are as follows:

By the heater of this device after the textiles that dyeed is taken out, and then pack up, packing, textiles is through this device, by heating to heating tube, and producing uniform hot blast by hot blast hole puts on textiles, make textiles can flash baking, temperature sensor detects the temperature of heating tube, humidity sensor detects the humidity of textiles, the temperature of heating tube is controlled under temperature constant state, and controls the temperature of drying rate and heating tube according to the value of humidity sensor.

Those skilled in the art of the present technique are understandable that, unless otherwise defined, all terms used herein (comprising technical term and scientific terminology) have the meaning identical with the general understanding of the those of ordinary skill in field belonging to the utility model.Should also be understood that those terms defined in such as general dictionary should be understood to have the meaning consistent with the meaning in the context of prior art, unless and define as here, can not explain by idealized or too formal implication.

The above is only some embodiments of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (7)

1. a textile dyeing drying system, it is characterized in that: comprise controller, temperature sensor, humidity sensor, support and at least one heating tube be arranged on support, described heating tube is arranged multiple hot blast hole, described support is fixedly installed on the exit of dyeing machine, heating tube inside or outer setting hot wind generating device, hot blast puts on textiles by the hot blast hole on heating tube, hot wind generating device is connected with controller, temperature sensor and humidity sensor are all arranged on heating tube, temperature sensor gathers the temperature information of heating tube, humidity sensor gathers the humidity information of textiles, temperature sensor is all connected with controller with humidity sensor.

2. textile dyeing drying system according to claim 1, it is characterized in that: described heating tube is 3, be respectively the first to the 3rd heating tube, first to the 3rd heating tube is arranged in order and is arranged on support, be interconnected between three heating tubes, connected by cascade tube between adjacent two heating tubes, between first heating tube and cascade tube, 3rd all arranges bending tube connector between heating tube and cascade tube, between second heating tube and cascade tube, three-limb tube is set, first to the 3rd heating tube all arranges multiple hot blast hole, the setting and the position of adjacent heat air holes is staggered.

3. textile dyeing drying system according to claim 1, is characterized in that: described heating tube is axial, circumference all arranges hot blast hole, and described hot blast hole is uniformly distributed on heating tube.

4. textile dyeing drying system according to claim 1, is characterized in that: also comprise blower fan, and it is inner or outside that described blower fan is arranged at heating tube, and work with hot wind generating device, the wind of generation is blown out by hot blast hole simultaneously.

5. textile dyeing drying system according to claim 1, is characterized in that: the central processing unit of described controller is 51 series monolithics.

6. textile dyeing drying system according to claim 5, is characterized in that: described central processing unit is AT89S52.

7. textile dyeing drying system according to claim 1, is characterized in that: described temperature sensor is DS18B20.