SU323480A1 - UNIT FOR CONTINUOUS TREATMENT UNDER PRESSURE OF TEXTILE MATERIAL - Google Patents

Description

The invention relates to the production of chemical monofilament, staple fibers, as well as to the finishing of textile and film materials.

A known apparatus for continuous pressure treatment of a textile material, comprising a capacitor, a chamber with a device for inlet and distribution of media with inlet and outlet seals consisting of successive diaphragms with gaps.

The disadvantages of this device are the high consumption of the processing medium, limited temperature conditions, etc.

In order to reduce the flow rate of the medium flowing out of the seal in the proposed apparatus, the diaphragm is installed inclined to the axis of the apparatus, and the slots are made normal to the surface of the diaphragm.

FIG. 1 shows the apparatus, a general view; in fig. 2 - device for additional processing of the material; on fng. 3 - mounting diaphragms in the unit.

The device consists of a chamber and a capacitor. The chamber is made in the form of a heat-insulated body / with flanges for fastening it to a condenser. The internal device of the camera is intended to be divided into a central part and seals. The central part has nozzles 2 and 9 for supplying the processing media (heat carriers) and collectors 4 and 5 for distributing them across the cavities of the central part formed by inclined diaphragms 6 to 7. To prevent heat and mass transfer between different media supplied with the same pressure through nozzles 2 and 3, the central part of the chamber has separation cavities formed by the diaphragms 8 of heat insulating material and having narrow slits along the axis of the apparatus for the passage of the material being processed.

The seals are mounted at the inlet and outlet of the central part and consist of successive cavities (chambers) formed by inclined diaphragms 9 and 10, arranged with a certain pitch determined by calculation.

For the passage of the material being processed, the diaphragms have slots 11 located along the axis of the apparatus (adjustable or unregulated in width) with sharp edges. Each seal cavity communicates with the capacitor through an orifice condenser 12, a manifold 13, and nozzles 14.

The condenser has a housing 15 with a nozzle 16 for suctioning processing media that are in different phases. On the housing 15 a device is mounted for cutting off the medium flowing from the material being processed.

sealing of the chamber, in the 15 of the next case / 7. In the case, which has a channel 75 for the passage of the material being processed, devices are installed for additional processing of material on the exit or exit into the A1I1arat with the inlet 9 and a spraying nozzle 20 and for removing the medium in the form of a force-expandable jaws 21 with elastic butt covering.

A copse device can have either a nozzle 22 for rasilee cooling a liquid or ghana, or a surface cooler 23, or both.

The device works as follows.

The material to be processed is filled with special adapts to the apparatus and passes through its axes through the drip 18 of the housing 17 installed in the condenser, through the snap // in the diaphragms 6, 9 and 10 of the unlocking and tstralyuyuy parts without heels of contact on the edge; . The nozzles 2 3 are supplied with the same pressure by means of: batheing mediums, nanometer, in the pipe 2 are saturated, and in the pipe 3 are superheated water vapor. When the material moves from left to right, eio is heated efficiently in a saturated steam environment, followed by additional suppression and removal of excess moisture in a superheated steam medium.

One part of the processing medium enters from pipe 2 into the collector 4 and from it into the cavities formed by diaphragms 6 and then flows through the crack // in the inclined diaphragms 9 into the left part of the condenser, the other from pipe 3 into the collector 5, then into the STRIP1I formed diaphragms 7 and through iheli 11 flows out of the seal, forming; my diaphragms 10 into the right part of the co-selector.

Since the pressure of the media in the cavity of the zaptral part formed by the diaphragms 6 and 7 is strictly the same n these cavities are additionally separated from each other by buffer (separation) cavities formed by the diaphragms 8 from thermally insulated material,

Apply heat exchange between them in the lower part.

The expiration of the medium nz needles 11 with sharp edges occurs along the edge; The diaphragm iloscules, make some angle with the axis of the apparatus. Consequently, the outflowing branch is located 1ptts from the axis of the apparatus and does not fall into the slot of the next diaphragm (by the Horacirr body, its own power pattern, hit the plane of the next diaphragm). The flow rate of the medium flowing through the sealing diaphragms will be much better than in air-conditioners, which have a diaphragm from the head and diaphragm.

In the condenser, the medium (coolants) of the wedge-shaped housing 17 coming out of the seals is separated from the material being processed and cooled, in contact with the cooled refrigerant or the metal surface of the refrigerator, and pumped through the pipe 16 by the pump.

The material being processed, moving tio to channel .18 of housing 17, gets the effect of the additional treatment medium supplied through pipe 19 and slotted nozzle 20. After heat treatment, the material can be drastically cooled with water, carbon dioxide, t-i, etc.

The boundary layer of the pretreatment medium is removed by touching the material to be processed on the elastic opening of the iodomotor jaws 21, mechanically and inadvertently entering and exiting the apparatus.

Subject invention

A device for non-breaking pressure treatment of a textile material, contents a condenser, a chamber with a device for supplying and distributing a medium with inlet and outlet seals, states of consecutive diaphragms so arranged, characterized in that, in order to reduce the flow rate of the medium, , the diaphragms are set obliquely to the axis of the apparatus, and the slits are made but normal to the surface of the diaphragm. 5J 5 7 S