RU1772269C - Method for wet thermal treatment of sewed articles - Google Patents

Abstract

The invention relates to the garment industry, in particular to wet heat treating devices. The invention consists in that. that the device includes a working body made in the form of a shell of a steam-air mannequin installed in a chamber having a cavity inside which moisture and temperature sensors of the product are installed. The cavity communicates with a plasticizing medium receiving means, made in the form of a steam-air mixture generator, by means of nozzles connected to a common channel equipped with a distribution valve. 1 ill.

Description

The invention relates to the clothing industry, in particular to wet heat treating devices.

A device is known for wet-heat treating garments in the form of a press containing an upper perforated cushion, which is a drive and lower perforated cushion with a steam generator fixed thereon having a steam divider located along the entire plane of the inner side of the lower cushion.

A disadvantage of the known device is the lack of control of the moisture content and temperature of the processed material, allowing wet-heat treatment with minimal energy consumption.

The closest, in technical essence, is a device for wet-heat processing of garments in the form of a press containing heated pillows, one of which has a cavity in communication with a vacuum suction, in which a sensor for monitoring the temperature of the processed product is mounted with a software controller, and the other, a press pad, contains a cavity in communication with the steam line and is provided with a chamber with heating elements.

The disadvantage of the device selected as a prototype is the excessive consumption of energy costs for processing garments, because its design does not allow the processing of products in the optimal mode.

The aim of the proposed technical solution is to reduce the energy consumption of the wet-heat process due to the metered introduction of plasticizing medium into the workpiece.

This is achieved by the fact that in the device for wet-heat treatment of garments having a working body containing cavities, one of which is associated with a means of obtaining plasticizing

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medium through the feed channels with distribution valves, and the other cavity is associated with a means of obtaining a drying medium and a cooling agent through the feed channel and contains a temperature sensor of the workpiece associated with the software controller, according to the invention, one of the cavities of the working body contains a common a feed channel, simultaneously flowing with a means of obtaining a plasticizing medium and a means of obtaining a drying medium and a cooling agent, the channel being equipped with a distribution tion valve regulated and performed through the associated program controller with a moisture content sensor mounted in a cavity workpiece comprising temperature sensor means for producing a plasticizing medium vypolne- but a generator-steam mixture.

From sources of information, devices are known for producing working media for the wet-heat treatment of garments used on presses in steam-air mannequins, etc.

Thus, in a known device selected as a prototype, a steam generator generates steam of various parameters, which is supplied to the workpiece, while heating and plasticizing it. However, processing the product with such a device contains a number of disadvantages.

1. There is no possibility of effective control of the temperature and content of the fabric.

2. Significant energy consumption for heating the water in the tank and the subsequent preparation of steam.

The proposed device, due to the combination of known means forming an interconnected system for obtaining the necessary working media at various stages of the WTO, eliminates the existing disadvantages of the known device.

Thus, the use of a steam-air mixture generator as a means for producing a plasticizing medium will make it possible to control the temperature of the material and its moisture content, which directly affect the transition of the material from the glassy state to a highly elastic state with a minimum consumption of plasticizing medium. The presence of supply channels connected to a common channel provided with a control valve also provides a number of advantages. As a result, a fan connected to the water tank by means of a heater produces a plasticizing medium in the form of a vapor-air mixture, and a fan connected to a heater makes it possible to obtain a drying medium. The fan separately produces a cooling agent.

In addition, the presence of an adjustable control valve that connects the interconnected system for producing working media with a working body containing a moisture sensor of the material will allow a strictly metered supply of the vapor-air mixture to the processed material depending on its initial moisture content.

The drawing shows a diagram of the device.

The device includes a working element made in the form of a shell of a steam-air mannequin 1 installed in a chamber 2 having a cavity 3. The shell of the mannequin is equipped with a moisture content sensor made in the form of a spring 4 balancing the movable contact 5, which interacts via the limit switch 6 with the program controller 7, connected to the actuator 8.

In addition, the shell of the steam-air mannequin 1 contains a sensor 9 for monitoring the temperature of the workpiece, connected with the software temperature controller 10.

The device comprises means for producing a vapor-air mixture made in the form of a water tank 11 equipped with heating elements 12, a water level control sensor 13 connected to a valve 14 by a pump) through a measuring and control device 15 and a sensor 16 that controls the temperature of the water connected to the actuator 17 through the measuring and controlling device 18.

The water tank 11 contains nozzles 19, 20 mounted above the water level, the latter being transferred to the nozzle 11 installed in the air heater. The flow meter containing device 22 with a control flap 23 and a hot air temperature meter 24.

The air heater is made in the form of a housing 25 containing a heating element 26 connected to a program controller 10 for the temperature of the processed material through a transformer 27. The nozzles 19, 20, 21 through the nozzle 28 are interconnected and form a closed common channel 28, connecting the heater

air and means for producing a vapor-air mixture with a cavity 3 of the working body by means of a distribution valve 29 kinematically connected to the actuator 8. In addition, the air heater is connected to the fan 30 interacting with the program temperature controller 10. The operation of the device is carried out at using the remote control 31.

The device operates as follows.

After placing the workpiece on the surface of the shell of the steam-air mannequin 1, the operator turns on the device using the control panel 31. In this case, the fan 30 starts to rotate and the air heated in the heater 25 through the control valve 23 of the flow device 22 enters the pipe 20 of the tank with water 11. In the tank 11, the water is preheated by heating elements 12 to a temperature of 60-90 ° C, as a result of which it evaporates from the surface. Hot air with a temperature of 110-130 ° C, blown through a nozzle 20 installed above the water level, reduces the pressure above the water level, creating a rarefaction region where the vapor formed above the water surface rushes. Mixed with hot air, it forms a working medium (steam-air mixture), which enters through the pipe 19 and the distribution valve 29 to the workpiece and heats and plasticizes the fabric.The temperature and moisture content of the fabric are controlled by the temperature of the water in the tank, as well as the temperature and hot air flow, which makes it possible to control tissue parameters during wet-heat treatment.

The temperature of the water in the tank is controlled by the sensor 16 and the device 18 in a two-position way (on / off). The required water level in the tank is also maintained by on-off regulation using a sensor 13, a regulating device 15 and a valve 14.

When steam condenses on the fabric, the mass of the processed product increases, as a result of which the dummy shell 1 drops down, moving the movable contact 5. The limit switch b is preliminarily set so that its operation by exposure to the movable contact occurs at a given moisture content of the fabric of the processed product. After operation of the limit switch 6, the program controller that controls the moisture content of the fabric 7 sends a corresponding command to the actuator 8, which turns the damper of the control valve 29 and stops the flow of steam-air mixture to the workpiece, This opens the flow of hot air to the product through the pipe 28. Hot All the air heats the workpiece to a temperature equal to the temperature of destruction of the bond of the adsorbed active moisture with the material (90-95 ° C).

Upon reaching a predetermined temperature of the material being processed, the program controller 10 instructs the device that deforms the material (e.g., a pressing pad) to give it the desired spatial shape (not shown).

When the material temperature is higher than the destruction temperature of 108-110 ° C, which is monitored by sensor 9, the program controller 10 gives the corresponding command to the autotransformer 27 and turns off the power to the heating elements 26 in the heater. The air pumped by the fan 30 carries out cooling of the fabric of the workpiece to a temperature of 25-40 ° C.

The end of processing is controlled by a sensor 9 and a software controller 10, which instructs the working body to stop deformation of the material (e.g. raising the press pad) and turn off the fan 30.

Using the device will reduce energy consumption for the implementation of the WTO process.

Claims (1)

The claims A device for wet-heat treatment of garments containing a working body made of two cavities, one of which is connected via supply channels to distribution valves with a means for producing a plasticizing medium, and the other cavity is connected with means for producing a drying medium and a cooling agent by means of a supply channel and contains a temperature sensor of the processed product, associated with a software controller, characterized in that, in order to reduce energy consumption by providing a metered After introducing plasticizing medium into the workpiece, one of the cavities of the working body contains a common supply channel, at the same time connected with means for producing plasticizing medium and with means for producing a drying medium and cooling agent, the channel being equipped with a control valve made adjustable and connected through a program controller with moisture sensor installed in the cavity with the temperature sensor of the workpiece, and the means for producing a plasticizing medium is made in the form of a generator.