SU1311747A1 - Vacuum sublimation apparatus of periodic action - Google Patents

Abstract

The invention relates to sublimation apparatus for the preparation of substances of high purity and makes it possible to increase the efficiency of separation of substances during sublimation and the convenience of unloading a sorbent. The vacuum sublimation apparatus contains a heated, sealed retort 2, a top cover 10 with a sublimator, and an additional heated cover 18 with a glass evaporator 22 and a sorbent chamber 14 with permeable (L С 4

Description

for steam, a lid 15 and a conical bottom 16 with a ragruechny hole, provided with a valve 25. The valve 25 is equipped with a rod 26 connected to an evaporator cup 22. The starting material is placed in the space between the outer and inner walls of the evaporator cup 22, and with the help of a lifting device 21 him

one

The invention relates to sublimation apparatus designed to produce substances of high purity, and can be used in chemical industry, in the technology of non-ferrous and rare metals.

The purpose of the invention is to increase the efficiency of separation of substances during sublimation and ease of maintenance and unloading of the sorbent

The drawing shows a sublimation apparatus, a general view in section

The sublimation apparatus has a hermetic retort 2 heated with an electric heater 1 with an upper 3 and lower 4 flanges. The flanges have shreddings 5 and 6 for cooling the gaskets 7 and 8. The sealed retort 2 is provided with a connection 9 for connection to a vacuum system with; In the cover 10 of the apparatus, desublimator 1I is mounted with connection pipes 12 and output 13 of the refrigerant. Below the desublimator 11 there is a sorption on the chamber 14, having a cover 15 and a bottom 16, permeable to vapors of the subliming agent. The sorption chamber 14 is filled with sorbents 17, which interact selectively with the steam components when it is filtered through the bed. Dust 15 is designed to prevent sorbent particles from being carried to the desublimation zone during the sublimation process. The bottom 16 of the sorption chamber 14 has a conical shape and is equipped with a discharge opening in the lower part. The additional cap 18 has a heater 19, a jacket 20 for cooling the gasket 8 and is provided with a lifting device 21. On the inner surface of the supplementary cap 18 there is a glass

311747

injected into the retort. In this case, the valve 25 closes the discharge opening of the chamber 14, which is filled with a sorbent and a krippka 15 and an upper krippka 10 are installed on it. The sublimation process is accompanied by a process of sorbing impurities, which increases the cleaning efficiency of the sublimating substance. 4 hp f-ly, 1 ill.

The receiver 22 is placed coaxially with it a glass 23 of smaller diameter. In the space between the vertical walls of the glasses 22 and 23, subliminal substance 24 is placed. 24. Internal

the cup 23 has a volume not less than the volume of sorbent 17. A valve 25 of the discharge port of the coping chamber is attached to the inner cup 23

10 14 with stock 26.

Sublimation apparatus operates as follows.

When the apparatus is in a disassembled state, the original substance

 5 are poured into the space between the outer and inner walls of the glass-evaporator 22, which is placed on the inner surface of the additional chip 1B, the latter is raised

20 using a lifting device 21 so that the glass evaporator 22 enters the retort 2. At the same time, when the lid 18 reaches its upper position and touches the lower flange 4 of the retort 2, the valve 25 closes the discharge opening of the sorption chamber 14. Next, the last sorbent is placed through the upper hatch of the retort 2 and install the bridge 15. Then close

 the retort 2 with the upper lid 10 with the des sublimator 11. After sealing the apparatus, air is removed from its volume and the electric heater 1 and the heater 19 are turned on. When heated to

35 evaporation temperature of a pair of sublimy-. These substances rise up and pass through the layer of sorbent 17, which is located in the sorption chamber. 14 Components of the vapor, which interact with each other.

  with sorbent 17, remain within its layer, and other components, mine

25

The sorption chamber 14 is condensed on the desublimator 11. After the process is completed and the apparatus is cooled to the required temperature, the upper lid of the apparatus is opened and the desublimate is removed from the surface of the desublimator 11. Next, an additional cover 18 is opened and lowered the distance that the valve 25 opens the discharge opening of the sorption chamber 14. At the same time, the sorbent 17 is poured into the internal cavity 23 of the glass-evaporator 22. Then the latter is removed

the used sorbent and the residue of the sublimating substance are discharged from the apparatus. After that, the machine is ready for the next production cycle.

The proposed sublimation apparatus allows using a specially selected sorbent to produce a more effective separation of the components of the sublimated solid mixture than in the known sublimator. The sublimation apparatus allows for a deeper cleaning of the sublimation agent by using an additional process of separation of the components by sorption.

F o rmula of the invention

Claims (5)

1. Vacuum dye-sublimation apparatus of periodic action, including a heated hermetic retort Compiled by L.Eshptein EditorJi.Bo6KOBa Tehred A. Kravchuk Proofreader n. Rogulich Order 1914/6. Circulation 657 Subscription VNIIPI USSR State Committee for Inventions and Discoveries - 113035, Moscow, Zh-35, 4/5 Raushsk nab. Production and printing company, Uzhgorod, st. Project, 4 0 five five 0 0 five top freezer, desublimator, sublimation chamber with a glass evaporator, characterized in that, in order to improve the efficiency of cleaning the sublimating substance from the mixtures, it is equipped with a sorption chamber with vapor-permeable bottom and a lid filled with a sorbent placed between the sublimation chamber and desublimator . 2. A pop-1 apparatus, characterized in that, in order to improve serviceability, a hermetic retort in the lower part is provided with an additional heated lid, on the inner surface of which a glass-evaporator is placed. 3. The device on PP. 1 and 2, characterized in that, in order to improve the ease of unloading the sorbent, the bottom of the sorption chamber is formed in the form of a truncated cone narrowing downwards with a discharge opening equipped with a valve. 4. The apparatus according to claims 1 to 3, aphid-, in order to increase the ease of unloading the sorbent, the glass-evaporator is equipped with a glass of smaller diameter fixed coaxially with it. 5. The apparatus according to claims 1-4, characterized in that, in order to increase the convenience of unloading the sorbent, the valve of the discharge opening of the sorption chamber is equipped with a rod connected to the evaporator cup.