SU1238015A1 - Device for cooling specimens - Google Patents

Abstract

The invention relates to thermostating devices for microscopes and can be used, in particular, in the study of the domain structure of magnetic samples. The aim of the invention is to increase the efficiency of temperature control. The device contains the main chamber, 8 6 16 2 py 1, closed on both sides with transparent walls 2 and 3 and lids 28 and 29. The movable holder 12 with sockets 13 and 14 is tightly fitted to the walls of chamber 1, into which from the evaporator 23 flows through channels gas flowing around samples 17 and 18. The heating of this gas is independently controlled by heaters 9 and 10. The gas supplied from the evaporator 23 through pipe 32 is heated in the heater 11 to a temperature above the dew point, enters additional chambers 4 and 5 and goes to central holes 6 and 7. Isolation of emov slots 13 and 14 allows to heat, shift and cooling of the sample) in one of them and at the same time investigate the sample at a constant temperature in the other. 2 Il. G € (L from 29 12

Description

The invention relates to instrumentation, namely, thermostatic devices for microscopes, and can be used in any microscopic studies, in particular in the study or control of the domain structure of magnetic samples.

The purpose of the invention is to increase the efficiency of temperature control of samples,

Figure 1 shows the basic structural diagram of the device for controlling the cooling of the samples (the main and additional chambers are shown in resolution; in Figure 2, the main and additional chambers, top view, partial section.

The device consists of a main chamber 1, closed on both sides with transparent walls (glasses) 2 and 3, two additional chambers 4 and with central apertures 6 and 7 located coaxially with the lens 8, three heaters 9, 10 and 11, a movable holder 12 with sockets 13 and 14, provided with protrusions 15 and 16, on which samples 17 and 18 are mounted. With the help of two flexible all-metal hoses 19 and 20, channels 21 and 22 B are connected to a movable holder with heaters 9 and 10, which in turn are connected to evaporator 23 pipes 24 and 25. At the same time, two channels | 26 and 27 of the movable holder are in- l outlet for gas to the atmosphere

The main chamber 1 is provided with hermetically closing lids 28 and 29 located on the upper wall of the main chamber on both sides from the central opening 6 of the additional chamber 4 at a distance equal to the distance between the slots 13 and 14. Heater 11 is connected by pipes 30 and 31 with additional chambers 4 and 5 and a pipe 32 - with an evaporator 23, to which a pipe 33 for supplying a refrigerant is connected.

The device works as follows.

Gas is formed in the evaporator 23 by evaporating the liquid nitrogen supplied to it through the pipe 33 from the source of the refrigerant.

Next, the gas through pipes 24 and 23, heaters 9 and 10, flexible hoses 19 and 20, two channels 21 and 22 in the sub-B1 holder 12 enters the

Sockets 13 and 14 of the movable holder wraps around the upper and lower specimens 17 and 18, which mount to the projections 15 and 16, and exit through the channel 26 and 27 of the movable holder. In this case, the heating of the gas supplied to sockets 13 and 14 is independently controlled by heaters 9 and 10. The movable holder fits tightly to the walls of the main chamber 1, closed on both sides with transparent walls (glasses) 2 and 3, and can be installed so that One sample nest is located under the lens 8. The other sample nest is located under one of the hermetically sealed covers 21 or 22 of the main chamber. Through pipe 32, the gas from the evaporator 23 enters the heater 11, which heats up to a temperature above the dew point of air device, and enters the pipes 3 and 31 in the additional chambers 4 and 5, from which goes into the central holes 6 and 7.

I

Thus, the isolated volumes in GE-units for samples, the temperature in which can be changed independently with the help of the appropriate agitators, allow heating, replacement and cooling of the sample under one of the chambers, 5 while the second sample is tested at a constant temperature. . In this case, the samples that are in the slots of the movable holder are cooled uniformly by flowing around the top and bottom of the gas.

Claims (1)

Invention Formula A device for cooling samples, comprising a housing divided by two transparent walls into the main and. Two additional external chambers, respectively, in which two coaxial holes are made in the housing, a holder placed in the main chamber, heaters connected by a piping system to chambers and an evaporator connected to a source of coolant, characterized in that the holder is made with two nests for samples and gas supply and exhaust channels and is movably mounted in the guide groove of the main a chamber equipped with sealing lids placed on its upper wall on both sides of the aperture of the additional chamber and at a distance from it equal to the distance between the holder’s sockets, each of the two gas supply channels of which are connected with a flexible pipe to one of the heaters, and The third heater is connected to additional cameras. / 28 b 13 16/4 77 26 22 21 SP Fig2 Editor M.Dshyn Compiled by O. Petrov Tehred L.Oleynik Proofreader A. Obruchar Order 3286/46 Circulation 501 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4