CS248759B1 - Freezing device for freezing insemination doses in metal tubes - Google Patents

Abstract

The device consists of a tray with ribs between which a tube with sperm is placed. Heat is removed by radiation from the freezing tray into the freezing medium.

Description

The invention relates to a freezing device for freezing insemination doses in metal tubes.

Currently, semen freezing for insemination batches is carried out in various ways, for example freezing in the form of pellets of different size on solid carbon dioxide, or in the form of pellets of different size in glass or plastic ampoules by freezing in liquid nitrogen vapors. Recently, semen freezing technology has been applied in metal tubes cooled by liquid nitrogen vapors. When freezing semen in metal tubes in nitrogen vapors, a certain number of tubes are horizontally positioned at a certain distance above the level of liquid nitrogen. Tubes are cooled mainly from the bottom by liquid nitrogen vapor flow. Various devices are used to freeze semen in this case. In this method, the main disadvantage is the uneven rate of decrease in the temperature of the semen in the individual tubes depending on their location in the freezer used. The outer tubes are frozen faster than the tubes placed in the middle of the co-frozen series. A disadvantage is also that the rate of decrease of the frozen semen temperature is not optimal. This results in variability in semen quality in individual tubes. Due to the need to position the tubes only horizontally oriented, they occupy a relatively large area in the freezer, allowing only a limited number of metal tubes to be frozen at the same time. The process is time-consuming, increasing the consumption of liquid nitrogen and also the consumption of working time.

These drawbacks are substantially eliminated by the freezing device for freezing the insemination doses in the metal tubes according to the invention, characterized in that the freezer tray provided with the freezing ribs between which the metal tubes are placed is immersed in the freezing medium. The freezer tray is connected to the inner shell of the package, which is separated from the outer shell of the package by an insulating layer.

The advantages of the freezing device according to the invention are mainly that the intensive freezing of the semen takes place uniformly in all the tubes, thereby ensuring the same quality of the individual frozen batches at the same time. An indisputable advantage is the possibility of achieving a higher rate of temperature decrease in frozen semen. The rate of temperature drop in frozen semen is close to the desired optimal curve. The temperature drop curve can be partially controlled according to the specific requirements of the type of frozen semen by the pitch and dimensions of the freezing ribs. Optimum rate of temperature drop is a necessary condition for achieving high quality frozen semen. It is also an advantage with the freezing device according to the invention that a higher number of insemination doses can be frozen simultaneously. Compared to current technologies, it is necessary to freeze approximately three times the number of insemination doses. For this reason, both working time and liquid nitrogen savings are evident. It can be stated that the whole process of freezing becomes better, faster and more efficient with the device according to the invention.

The device according to the invention is schematically shown in the accompanying drawings, in which Fig. 1 is a sectional view and Fig. 2 is a top view.

The device consists of an outer casing 1 of the casing, to which the thermal insulating layer 3 adjoins, and the entire casing of the device according to the invention is terminated by the inner casing 2 of the casing. In the inner jacket 2 of the package, there is a freezing tray 5, which is provided with freezing ribs. Between these ribs 6 are stored freezing metal tubes. There is a freezing medium between the freezing tray 5 and the inner shell 2 of the container.

A cooling medium is poured into the indicated cooling space, which begins to cool the inner shell 2, the freezer tray 5 and the freezing fins 6. After equalizing the temperature of the freezing pan 5 and the freezing fins 6 with the cooling medium 6, metal tubes 2 are inserted. · freezing ribs 6 and two freezing tray ³ and the heat rejection from the entire surface of metallic tubes 2 ^and added to the cooling medium _4. The inner casing 2 of the casing with the thermal insulation layer 3 ^{and the} outer casing 2 of the casing prevents unnecessary leakage of the freezing medium 4.

Claims (1)

Freezing device for freezing insemination doses in metal tubes, characterized in that it consists of a freezing tray (5) provided with freezing ribs (6), which is placed in the freezing medium (4) and connected to the inner casing (2) of the packaging which is separated from the outer shell (1) of the packaging by an insulating layer (3).