CZ30914U1 - A device for freezing insemination doses in the vertical position - Google Patents

Description

Technical field

The invention relates to a device for freezing insemination doses.

BACKGROUND OF THE INVENTION

The insemination doses of bulls used for the reproduction of bovine animals are preserved by freezing. Liquid nitrogen is used for their storage, so the final storage temperature is -196 ° C. In order to successfully freeze and achieve the desired quality of the insemination doses in terms of sperm activity, it is necessary to freeze the doses gradually, it is not possible to inject insemination doses directly into liquid nitrogen.

i o The simplest freezing device consists of an insulating vessel and a grid that is located just above the level of liquid nitrogen. Carriers with insemination doses are placed on the grid so that the initial freezing takes place in vapors of liquid nitrogen. The ambient temperature is approx. -70 ° C after placing the doses in the insulating container. After 8 to 10 minutes, the temperature reaches -120 ° C to -130 ° C. Thereafter, the insemination doses are manually transferred to liquid nitrogen.

Another type of device is an electronic freezer that uses a cryo valve to inject and atomize liquid nitrogen into a container into which, after freezing, the insemination doses placed on the carriers are stored at -110 ° C for 10 minutes. Thereafter, the insemination doses are manually transferred to liquid nitrogen.

Freezing boxes using freezing curves, which represent a decrease in temperature over time, are also currently being used. These devices use electronics to ensure that the surroundings of the insemination batches (stored on carriers) are freeze-dried by injecting liquid nitrogen. The injection rate is controlled based on an embedded freezing curve that represents the desired temperatures at a given freezing cycle time. The most common curves are those starting at +4 ° C and ending at about -130 ° C after about 8 to 10 minutes. Such a freezer has been developed, for example, by the French company IMV, the German company Mini Tube, and the company Cryo Tech, s.r.o.

Another freezing procedure is to place the insemination batches that are stored on the carriers in a box that is frozen at a temperature of about -80 ° C to -100 ° C. After 8 to 10 minutes, the process ends at about -130 ° C.

All these devices have a common feature - the insemination doses are frozen in all these devices in a horizontal position, where the whole dose is exposed to the same temperature and the whole is frozen by the given temperature.

The freezing process affects the quality of the sperm; it is known, for example, that successive freezing and subsequent immersion in nitrogen in a vertical position have a positive effect on sperm. However, no freezer has a structure that would allow such freezing.

The essence of the technical solution

The above technical problem is solved by a device according to the present invention which allows the insemination batches to be frozen successively, from the cotton pad to the weld, and for large volumes from one end to the other, i.e. in a vertical direction, at a precisely defined speed and temperature change.

Liquid nitrogen has a temperature of -196 ° C. In the final stage of freezing, the insemination batches are immersed in liquid nitrogen, so the temperature of -196 ° C is the final batch retention temperature.

The liquid nitrogen evaporates. Containers for its storage are insulated by vacuum to minimize evaporation. In containers that are isolated by other means, evaporation increases. Vapors form a temperature layer where the temperature rises from -196 ° C to room temperature, above the neck of the vessel where the vapor mixes with ambient air.

- 1 GB 30914 U1

The essence of the present invention is that the insemination batches in the straws pass through the individual temperature layers of liquid nitrogen vapors. The straws are housed vertically in the box, with the cotton pad down and the weld up, so that the end of the cotton pad is exposed to a lower temperature and the weld of the straw is exposed to a higher temperature. At different depths, these temperature differences may vary with and are 7 to 150 ° C.

The essential elements of the device according to the present invention are a freezing box containing a liquid nitrogen compartment at the bottom of the box, a mechanism for the gradual triggering of the insemination batches by the individual temperature nitrogen vapor layers, which is controlled by electronics, and a batching platform.

io The freezer box may consist of two layers of laminate shell with a polyurethane insulation between them. Other foam insulation of the same properties may also be used. Vacuum insulation is neither necessary nor desirable, since less perfect foam-based insulation has a positive effect on the function in the increased nitrogen evaporation that the temperature layers in the box can be used for freezing.

The freezer comprises at least one closable opening, covered, for example, by a hinged panel, which allows access to the interior of the box, insertion and removal of the semen collection in the straws. The panel may be attached to the box by buckles to provide sufficient insulation, but any other suitable securing is possible. In addition, the panel can be equipped with a handle for easier handling. The entire inner and outer surface is washable and can be disinfected with conventional laboratory disinfectants.

During freezing, the straws are placed on a platform, which may consist of one or more wire mesh sieves into which the insemination doses in the straws placed in goblets (cylindrical shells) made, for example, of plastic, are inserted. These goblets may be of various diameters commonly available for insemination practice. They are therefore between 7.1 mm and 65 mm in diameter. The appropriate type depends on the number of insemination doses required and the mesh size of the wire sieve. Holes can be cut into the side walls of these goblets to facilitate the passage of nitrogen vapors.

When positioning the goblets, it is advantageous to omit the secondary mesh positions so that liquid nitrogen vapor permeability is improved. Thus, the total number of goblets and straws that can be placed in the freezer depends on the desired box size, the mesh size of the wire screen and the screen selected for the appropriate type of goblet. For example, for goblets with a diameter of 35 mm, a smaller box could be adapted for

3o 20 goblets and for the purposes of large semen collection centers, the box could be adapted for 100 goblets, with up to 100 0.25 ml or 50 ml 0.5 ml containers being frozen in a 35 mm goblet.

The freezer further comprises a mechanism for causing the platform to move vertically downward and upwardly, thereby providing lowering of the straws by successive liquid nitrogen vapor temperature layers, the straws being mounted on the platform in a vertical position. The mechanism triggers doses to the bottom of the box, directly into liquid nitrogen.

The platform may preferably be suspended on a cable, wherein the vertical downward and upward movement of the platform is ensured by a pulley and the correct guidance of the platform is ensured by one or more guide bars. The metal parts may be made of stainless steel or other metal that is resistant to low temperatures, or they may be treated with a suitable corrosion preventing agent and resistant to low temperatures and disinfection procedures.

The vertical movement of the platform is controlled by an electronic unit that ensures the drive of the electric motor and the subsequent movement of the platform. Thus, in a preferred embodiment, the electric motor is coupled to a pulley that provides platform movement.

The electronic unit is further adapted to control the movement of the platform. It contains a control that allows you to select "lowering - off - lifting", which can be eg a rocker switch. Another control element for controlling the movement of the platform is a switch for varying the speed and thus for changing the speed of lowering or raising the platform, which control element may be, for example, a rotary switch. In this way, it is possible to control and adjust the platform descent speed.

-2GB 30914 U1

In a preferred embodiment, the freezer can be equipped with two thermometers to measure the actual temperature at the upper and lower ends of the semen collection. Thermometers are placed on both sides of the insemination batch, for example on a platform, which are connected by conductors to thermometers placed on the top of the box, for example, where the actual temperature can be read easily. In the cover at the top of the box, a notch can be formed through which the wires connecting the thermometers and sensors can pass without compromising the insulation of the box.

Clarification of drawings

Giant. 1 is a schematic illustration of a particular embodiment of the freezer according to said example - external view.

Giant. 2 is a schematic illustration of a particular embodiment of the freezer according to said example - an inside view showing the components.

Example of technical solution implementation

The device according to the present invention makes it possible to freeze the insemination batches gradually, from the cotton wool to the weld and, in large volumes, from one end to the other, ie in the vertical direction, at a precisely defined speed and temperature change. The essence of the present invention is that the insemination batches in the straws vertically pass through the individual temperature layers of liquid nitrogen vapors accumulated in the freezer until they are finally immersed directly in liquid nitrogen at -196 ° C, the final freezing temperature of the insemination batches. Thus, in the case of the straws which are housed in the box by a cotton pad down, this end of the straw is exposed to a lower temperature than the weld of the straw which is exposed to a higher temperature. At different depths, these temperature differences can vary from 7 to 150 ° C.

The freezing box according to the present invention may, in a particular embodiment, comprise a laminate box 1 consisting of two layers of a laminate shell between which is a polyurethane insulation. The outer dimensions of the box are: height 820 mm, length 500 mm, width 420 mm. The internal dimensions of the box are: depth 750 mm, length 380 mm, width 300 mm. In the lower part of the inner space 2 of the box 1 there is a space for liquid nitrogen, the dimensions of which are: depth 160 mm, length 380 mm, width 300 mm.

In the front wall 4, the opening 5 is covered by a hinged panel 6 which allows access to the interior of the box 2 and removal of the semen collection after freezing. The panel 6 is provided with two buckles 7 for locking on the box 1 and a handle 8 for easier handling. The dimensions of the opening 5 are: height 525 mm, width 325 mm and the dimensions of the panel 6 are: height 575 mm, width 405 mm. On the upper side 9 of the box 1 there are two plastic covers 11 of dimensions 230 x 410 mm. They serve to close the neck 10 of the box 1 and prevent vapor escape.

The entire inner and outer surface of the box 1 is washable and can be disinfected with conventional laboratory disinfectants.

The apparatus further comprises a platform 12 for receiving the straws. The platform 12 is made up of two wire mesh sieves 13, in which are placed insemination batches in boxes placed in plastic goblets (cylindrical shells; not shown) with a diameter of 35 mm. Holes are cut into the side walls of these goblets to facilitate the passage of nitrogen vapors.

In total there are 56 sts on the platform. However, when placing goblets, it is preferable to omit the secondary mesh positions to improve liquid nitrogen vapor permeability. The total number of goblets in this case is therefore 27.

The freezer further comprises a mechanism 16 for the vertical movement of the platform 12 and 12 respectively. for triggering the insemination doses in the straws deposited on the platform 12 through the interior of the box and successively through the individual temperature layers of liquid nitrogen vapors, the straws being stored in a vertical position. The mechanism 16 is controlled by an electronic unit (not shown) and comprises a pulley (not shown), a cable 19 and guide rods 20 such that the platform 12 is suspended on the cable 19 and the vertical movement of the platform 12 down and up is secured by the roller. All metal parts in this embodiment are made of stainless steel.

-3EN 30914 Ul

The mechanism 16 is controlled by an electronic unit which provides the drive of an electric motor, which is coupled to a pulley that provides the movement of the platform 12. The electronic unit is further adapted to regulate the movement of the platform. It includes a rocker switch that allows you to select “lowering - off - lifting”. Another control element for controlling the movement of the platform 12 is a rotary switch to change the speed and thus change the speed of lowering or raising the platform 12. In this way, the rate of descent of the platform 12 can be controlled and adjusted.

In this preferred embodiment, the freezer box 1 is equipped with two thermometers (not shown) for measuring the actual temperature at the top and bottom of the insemination batches. Thermometers on the platform 12 are used to measure the temperature at both ends of the insemination batch, which are connected by conductors to the thermometers on the top of the box 1, where the actual temperature can be read easily. A notch (not shown) is formed in the housing 11 at the top of the box 1 through which the wires connecting the thermometers and the sensors can pass without compromising the insulation of the box 1. The thermometers are powered by 9 V batteries.

The freezing of the insemination doses in a device according to the present invention described in the above-mentioned embodiment is carried out as follows. Approximately 18 liters of liquid nitrogen are poured into the liquid nitrogen space through an opening 5 in the front wall 4 of the box 1. The opening 5 in the wall is again closed by the hinged panel 6. The freezing of the box takes about 5 minutes, whereby individual temperature layers are formed.

The platform 12 is placed at a level where the temperatures are within the range in which the insemination doses are cooled, which is usually a temperature of 2 to 8 ° C.

Remove the plastic cover 11 from the opening 10 in the top wall of the box. Through this opening, already prepared goblets with insemination doses in straws are placed in the freezer. After inserting the batches, the opening vložení0 is closed again.

Use the dial to set the desired platform descent speed, which can be 8 to 25 minutes, and the toggle switch switches from off to descent.

During freezing, the temperature at which the rate of descent can be adjusted, if necessary, is checked. After reaching the bottom, the insemination doses are already completely submerged in liquid nitrogen. The rocker switch is set to OFF.

The hinged panel 6 of the opening 5 in the front wall 4 of the box 1 is opened and insemination batch goblets are removed from the platform 12 sunk in liquid nitrogen. Thereafter, the doses are transferred to another suitable liquid nitrogen container for further handling.

After all insemination batches have been removed, the rotary knob is switched to maximum speed and the rocker switch for lifting, and the platform 12 is again moved to a height at which further insemination batches for freezing can be inserted.

The level of liquid nitrogen is checked before the next cycle.

After freezing of all insemination batches, the remaining liquid nitrogen is removed and after warming the box to room temperature, it is dried, cleaned and disinfected according to the regulations in force.

Industrial applicability

The apparatus of the present invention is primarily suitable for freezing bull insemination batches in a standard product, in 0.25 ml and 0.5 ml standard volume containers, and for freezing whole diluted bull ejaculates in plastic tubes.

The device has also been successfully tested for freezing insemination doses of dog semen in 0.5 ml straws and for freezing predator, eagle, hawk and falcon ejaculates in 0.25 ml straws. Thus, the apparatus is useful for freezing semen in virtually all animal species in which semen is frozen in straws or similar cavities.

Claims (8)

Claims ΝΛ PROTECTION A device for freezing insemination batches in a vertical position, comprising a freezer box (1), which in its lower part (2) comprises a liquid nitrogen compartment, characterized in that it further comprises at least one closable opening (5, 10) arranged in the box wall (1) so that 5 has allowed the insertion and / or removal of the straws, a platform (12) adapted to receive the insemination dose straws in a vertical position, a mechanism (16) for vertical movement of the platform (12) in the interior of the box, and an electronic unit adapted to defined freezing curves. Device according to claim 1, characterized in that the mechanism (16) for vertical movement of the platform comprises a pulley and a cable (19) for ensuring vertical movement of the platform (12) and at least one vertical guide rod (20) for vertical guidance of the platform (12). 12) inside the box (1). Device according to any one of claims 1 or 2, characterized in that the electronic unit comprises control elements for controlling the movement of the platform (12), preferably in the form of 15 is a rocker switch for switching off and for controlling the direction of movement of the platform (12) and a rotary switch for controlling the speed of movement of the platform (12). Device according to any one of claims 1 to 3, characterized in that the platform (12) for receiving the straws comprises at least one sieve (13) with several meshes in which cylindrical goblets are arranged adapted to receive the straws in a vertical position. 20 May The device of claim 4, wherein the side walls of the goblets comprise openings. Apparatus according to any one of claims 4 or 5, characterized in that the goblets are arranged alternately in each second mesh screen (13). Device according to any one of claims 1 to 6, characterized in that the device 25 comprises a panel (6, 11) for closing the opening (5, 10) for receiving and / or removing the straws and means for securing the panel (6, 11) to the box wall, preferably comprising at least two buckles (7) and a handle (8) ) to facilitate panel handling. Device according to any one of claims 1 to 7, characterized in that the device further comprises means for measuring the temperature at both ends of the vertically mounted straws, preferably comprising temperature measuring sensors located at both ends of the vertically placed straws, thermometers preferably mounted on the surface of the freezer, and the wires connecting the sensors to the thermometers.