SU1131922A1 - Apparatus for steaming cocoons - Google Patents

Abstract

A COCON PARKING DEVICE, containing a chamber, is divided by vertical partitions into successive compartments, and the mesh containers installed in the compartments are mesh containers for loading and unloading cocoons and a system of pipelines for supplying water and steam, different in that, in order to increase efficiency works by reducing the leaching of sericin from the cocoon shells, the chamber has installed in its compartments means of regulating the immersion depth of containers with In this case, the containers are arranged one by one in each compartment and are driven to synchronously move them, and each container is made open on opposite sides facing the partitions, and has a container for cocoons with an Hbw ramp and a hinged lid, on-; tirovaya on a spring-loaded rod that is installed with the possibility of interaction with the executive evil (with the appropriate means of adjusting the depth of the container), and is arranged so that the pitched tray is its continuation for feeding cocoons into the container of the subsequent chamber compartment.

Description

The invention relates to textile hemming and can be used in silk-making production in devices for cocoon sealing. A device for sealing cocoons is known, comprising a chamber divided by vertical partitions into successive compartments, and mesh containers installed vertically in the compartments, means for loading and unloading cocoons, and a piping system for supplying water, and a pair of devices. low efficiency due to the lack of possibility to regulate the process of cooking cocoons with different physicomechanical properties of the shells, which leads to significant mu №Ivaniyu you are sericin. The purpose of the invention is to increase the efficiency of the device by reducing the leaching of sericin from the cocoons. This goal is achieved by the fact that in a device for parsing cocoons containing a chamber divided by vertical partitions into successive compartments and installed in the compartments with mesh containers, loading and unloading facilities for cocoons and a pipeline system for supplying water and steam, the chamber has installed in its compartments, are means for regulating the depth of immersion of containers with actuating elements, wherein the containers are located one in each compartment and have iodine their synchronous movement, and each container is made open from opposite sides facing the partitions, and has a capacity for cocoons with a pitched tray and a folding cover mounted on a spring-loaded rod, installed with the possibility of interaction with the actuating element of the corresponding means of adjusting the depth of the container, and arranged in such a way that the pitched tray is its continuation for feeding cocoons into the container capacity of the subsequent chamber compartment. FIG. 1 schematically shows a device, front view; in fig. 2 is the same side view (on the container) J in FIG. 3 - mesh container, side view. The device for parsing cocoons contains a chamber 1, divided by insulating vertical partitions 2 into successive compartments 3, 4 and 5, and installed in each compartment one by one with the possibility of vertical movement of mesh containers 6 and driving them synchronously moving, having a horizontal yoke 7, while In each compartment of the chamber, means 8 for adjusting the immersion depth of the containers 6 with the actuating elements 9 are installed, and each container 6 is made open on opposite sides 10, for the cocoons has a tank 11 with a pitched tray 12 and a hinged lid 13 mounted on a spring-loaded rod 14, which is interoperable with the actuating element 9 of the appropriate means 8 for controlling the depth of the container 13, and the surface 15 of the tongs 13 is predominantly parallel cattle tray 12 and forms with it a common guide for feeding cocoons into the container of the container following the chamber. The device has a charging means 16 with a damper 17 and a discharge means 18, as well as a system of pipelines 19 for supplying water and steam ,. The device works as follows. The cocoons are portion-wise periodically supplied to the charging means 16, the chamber of which is at the same time steamed and has a flap 17. At the same time, at the initial moment of the yoke 7 with the mesh containers 6 is in the upper position. In each compartment 3, 4 and 5 of the chamber, means 8 are installed with an actuating element 9, which can be made in the form of a float bearing, and the actuating element is designed to be height adjustable by means of it. unscrewing from the float support. The water for the chamber is heated in a centralized system in several boilers (not shown) and is supplied 3 to each compartment preheated to a predetermined temperature, which is determined by the grade of steamed cocoons and the predetermined mode. The first in the direction of the arrival of Lenin cocoons into the chamber, compartment 3 is the impregnating compartment, compartment 4 — the cooking compartment 5 — the second impregnating compartment. In the compartments, by unscrewing or screwing in the actuating elements 9 of the float bearings, the depth of the containers 6 is adjusted based on the predetermined mode of treatment by the action of fluid pressure. The compartments 3, 4, and 5 are connected by means of the system1 of the pipelines 19 with the corresponding capacities of the centralized water heating system, the temperature of which corresponds to the mode for the given compartment of the chamber. Steam steam in the steam chamber of the means 16. Parboiled cocoons are fed (sss are fed) into container 11 of container 6 through its open side of impregnation compartment 3. When the container is immersed to a certain depth, the cocoons are impregnated, and the immersion takes place prior to the interaction of the spring-loaded ster 14 element 9. The rod 14, moving upwards, depresses the spring and opens the cover 13, while the cocoons located in the container 11 under the cover 13, fall to the ceiling part of the mesh container 6. When moving to Onte Nerov 6 upward the spring, acting on the rod 14, lowers the cover 13, while the surface 15 with the pitched tray 12 provides the directional flow of a portion of the impregnated cocoons into the container 11 of the container 6 of the cooking chamber 4 of the chamber. Simultaneously with the supply of cocoons to the brewing compartment 4, the container 11 of the container of the impregnating compartment 3 is loaded. During the subsequent vertical movement of containers downward, the cycle in the impregnating compartment is repeated. In the brewing compartment 4, the depth of the cone: tubers is less than in the impregnation compartment 3, its executive element 11 interacts with the spring-loaded rod 14 and opens the lid 13 of the container 11 with cocoons. float to the surface of the ceiling part of the container of the cooking compartment. The cocoons in the impregnation compartment -3 are immersed, and the container 6 of the cooking compartment 4, moving down, lowers the float support 8. When the actuators are installed 9. on the float supports, the force of their interaction with the spring-loaded rods 14 is constant, which eliminates breakage of the lid drive 13. During the return of the containers 6 upward, the cocoons from the container of the cooking compartment 4 cross over the pitched tray 12 into the container 11 of the container 6 of the second impregnation compartment 5, from the first impregnation compartment 3 - into the cooking 4, and the exact compartment 3 of the cocoons is supplied from the steaming chamber of the loading means 16. Then, during the next course of the containers 6, the cocoons are poured into the discharge means 18, which can be made in the form of a container or canal of the assembly node and the containers 6 are alternately automatically loaded with the following portions of cocoons by transferring them over tray 12 from one compartment to another. Water is fed into the compartments from the bottom up to the perforated bottom, and the settled cocoons float up and, falling on the inclined tray 12, are transferred to the next treatment cycle. The temperature conditions and the depth of immersion of the cocoons in each compartment are determined on the basis of the grade of KOKOHOBV being processed, and the depth of immersion. There are always less cocoons in the cooking compartment than in the infiltration compartments. The cover 13 of the container 11 in cross section can be made in the form of a right-angled triangle, the hypotenuse of which, together with the tray 12, forms the direction for crossing the cocoons. For free discharge of water from the chamber 1, one of its walls is made with a smaller height, and the containers are wider than the widths of the chamber and supported by the side wall of the guides 20 with sealing plates 21 tf 2) covering the gap between the containers and the walls of the chamber to prevent cocoon from escaping water. The container 11 may have a vertical wall 22 with perforations 23 in its upper part. The proposed device provides increased efficiency for

KCiKOHQB parks, excludes intermediate operations - their transportation and transfer to raster machines, makes it possible to use them.

call the difference in water pressure for adjustment of coconut immersion depending on their grade.

Yu

1p

nineteen

Claims (1)

DEVICE FOR PARKING COCOONS, comprising a chamber divided by vertical partitions into sequentially arranged compartments, and mesh containers installed with the possibility of vertical movement in compartments; means for loading and unloading cocoons and a piping system for supplying water and steam, characterized in that, in order to increase work efficiency by reducing the washing of sericin from the shells of cocoons, the chamber has means for adjusting the depth of immersion of containers with actuators installed in its compartments, the containers are located one at a time in each compartment and have a drive for their synchronous movement, and each container is open from opposite sides facing the partitions, and has a capacity for windows with a roll-up tray and a hinged lid, CMOH- ·: castable on a spring-loaded rod that is installed to interact with the actuator of the appropriate means of regulating the depth of immersion of the container, and located in such a way that the ramp-tray is its extension to supply Cocoons If in the container capacity subsequent p chamber compartment. q 1131