RU2443466C2 - Gas encapsulator - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to treatment of natural resources and may be used in various industries for producing pollution-free power and transport plants. Proposed encapsulator is arranged in tight chamber to encapsulate gas by extrusion and filled with gas to be encapsulated. It is furnished with tight unloading device to discharge cooled capsules. Said unloading device consists of annular rotor with holes to grip capsules with gas in aforesaid chamber, transfer them into dispensing bin during rotation of said rotor and expulsion of them by spring-loaded pushrod with the help of master cam.

EFFECT: explosion-proof use of gas.

1 dwg

Description

The invention relates to a means of processing products of natural resources and can be used in various industries, as well as to create safe environmentally friendly energy and transport installations.

A device is known that implements the extrusion encapsulation method described in the book by V.D. Solodovnik. Microencapsulation. - M .: Chemistry, 1980, - 216 p. and consisting in the fact that a thin viscous film is preliminarily formed on the surface with openings through which the material to be enveloped is pressed through the formation of a capsule, which is subsequently cooled and stored.

The disadvantage of the device that implements the above method is the lack of complete explosion safety when working with explosive gases, such as hydrogen.

The technical result of the invention is the creation of technology that provides explosion-proof use of gas.

This is achieved by the fact that the sealed chamber, in which the devices for encapsulating gas by extrusion are placed, is filled with encapsulated gas, and for unloading the cooled capsules there is a sealed unloading device consisting of an annular rotor with holes, made with the possibility of capturing gas capsules in a sealed chamber , transferring them to the dispensing hopper during rotation of the annular rotor and pushing out by means of a spring-loaded pusher under the influence of a copier.

The essence of the invention is illustrated in the drawing, where figure 1 shows a General view of the device.

The proposed device consists of a chamber 1 filled with gas, for example hydrogen, in which a bath 2 for a molten film-forming substance 3, for example tin, is installed with a spiral 4 for electrically heating the molten film-forming substance 3. A disk 5 with holes 6 is lowered into the molten film-forming substance 3 viscous membranes on them. The disk 5 is made to rotate on the axis 7 from the electric drive 8. Above the bathtub at the level of the openings 6, a nozzle 9 of the reducer 10 is installed in the disk 5, to which the pipe 11 is connected from gas cylinders 12 ÷ 16, for example, for hydrogen having double walls - the outer 17 , for example steel, and internal 18, for example from gas-tight plastic. The space between the walls 17 and 18 is filled with water 19, through which hydrogen practically does not diffuse. Cylinders 12 ÷ 16 are closed by cranes 20 ÷ 24.

On the opposite side of the disk 5 there is a hollow groove 25 for receiving the obtained capsules 26. In the groove 25 there are holes for supplying hydrogen cooled by the air conditioner 27, designed to create a floating layer from the newly obtained capsules 26 and to cool their shells. To collect the cooled capsules 26, a receiving hopper 28 is used with an unloading device consisting of an annular rotor 29 configured to bring it into rotation. It has a radial channel 30 in which a spring-loaded pusher 31 is placed. Opposite the radial channel 30 on the surface of the annular rotor 29 there is a hole 32 in which only one capsule 26 can fit. Inside the annular rotor 29 there is a copier 33 made to push the capsules 26, trapped in well 32 in hopper 28 via pusher 31.

To collect the capsules 26, a dispensing hopper 34 is used, having a discharge device, similar to that described above, from an annular rotor 35 with a hole 36, a radial channel 37, a spring-loaded pusher 38 and a copier 39.

To remove hydrogen leaked into the dispensing hopper 34, an exhaust fan 40 with a pipe 41 is used.

To remove hydrogen from the chamber 1 during repair and maintenance, a compressor 42 with a valve 43 is used.

The device operates as follows.

Chamber 1 is filled with hydrogen from 12 ÷ 16 cylinders. Using a spiral 4, the film-forming substance 3 in the bath 2 is heated to a liquid state. The disk 5 is driven into rotation. In its openings 6, membranes are formed. The valve 24 opens and compressed hydrogen is supplied through the nozzle 9. When approaching the openings 6 of the disk 5 with a membrane of a molten film-forming substance covering it, hydrogen, without breaking the membrane, is pressed through it and enveloped on all sides by the film-forming material flies from the opposite side of the disk 5 in the form of a capsule 26, which enters the stream of cooling hydrogen, supplied from the holes of the chute 25. As a result of cooling, the walls of the capsule 26 become rigid. After cooling, the latter slide into the receiving hopper 28, where the lower capsules 26 enter the hole 32 of the rotating ring rotor 29 and are transferred to the transfer hopper 34, where, under the influence of the copier 33 on the pusher 31, it is pushed out of the hole 32. The latter is transferred again to the receiving hopper 28. where a new capsule 26 enters the hole 32 and the process of loading the capsules from the receiving hopper 28 into the dispensing hopper is repeated.

From the dispensing hopper 34, the capsules 26 are unloaded in the same way as described above when the annular rotor 35 of the discharge device is rotated.

For preventive maintenance and repair, hydrogen is removed from the chamber 1 into a cylinder, for example 16, using a compressor 42.

Claims (1)

A device for encapsulating a gas having devices for forming a thin viscous film of a film-forming substance; punching the film-coated substance; unloading, cooling and storage of capsules, characterized in that the sealed chamber in which the devices for encapsulating gas by extrusion are placed is filled with encapsulated gas.

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