DE10118805A1 - Applicator for cryogenic cooling medium comprises capillary tube, main capillary body, nozzle holder with duct, glass body, micro-sieve and duct openings - Google Patents

Abstract

The applicator capillary tube contains a main capillary body (2) made of glass at least in parts. A nozzle holder (3) has a duct in which are at least parts of the capillary body and of a tube(5). The nozzle holder is made of insulating material. The tube is in contact with the glass body near one duct-opening; and is in contact with a micro-sieve (6) near the other duct-opening.

Description

The invention relates to an applicator for application of cryogenic cooling media according to the preamble of claim 1 as well as an application device.

Such applicators are, for example, from the German Patent DE 195 48 652 A1 known.

In medical cryotherapy, but also in other tech niche areas, there is a need for very fine coolant quantities dosed, to be applied selectively to one place. On the one hand The criterion is that the coolant consumption is as low as possible, which means that it is possible corresponds to the actual cooling requirement without Evaporation losses arise which do not contribute to it provide the desired cooling capacity, and on the other hand one spatially exactly defined point can be cooled, the is delineated as sharply as possible from its periphery. In medical application it is known, for example, Cold for therapeutic effects, tissue destruction or pa use theological skin reactions that occur in certain Indications are desired and used successfully the. So far, devices have been used for this, either enable contact-freezing or spray-gas-freezing. Also known is liquid-freezing, in which with one Cotton swabs of liquid nitrogen are absorbed and applied treating surface or skin is applied.

The liquid-freezing with liquid nitrogen is a prin zip is the ideal form of introducing cold, because here the greatest cooling capacity is provided; however, is a selective one  Application of the cooling medium is not possible, so with this The procedure also cools healthy peripheral tissue where due to healthy tissue in medical application burns and when using other coolants, which one have a higher boiling point, he does not have such a good cooling performance is enough.

It is the object of the invention to create a device fen, which a selective application of cryogenic liquid possible on surfaces or in tissue, one Blockage of the capillary opening contained in the applicator should be effectively avoided.

According to the invention, this object is achieved in that a generic applicator is designed so that the appli cation capillary contains a capillary body that at least in sections consists of glass.

Furthermore, the task of avoiding contamination and avoiding clogging of the capillary opening solved by that pressure volume and temperature of the cryogenic Gases are kept essentially constant.

It is expedient for the applicator to have a nozzle holder indicates that the nozzle holder contains a channel and that in the canal both at least a section of the capil lar body as well as at least a portion of a tube are located.

With the application capillary according to the invention, it is possible to apply various types of cryogenic coolants, such as liquid nitrogen, liquid argon, CO ₂ or N ₂ O, with pinpoint accuracy, without the capillary opening being blocked. Even when using cryogenic coolants with relatively high evaporation temperatures and high cooling speeds of the treated tissue of 100 K / min, blockages in the capillary opening are still avoided. The cryogenic cooling liquids can be brought to the place to be cooled in a single liquid phase without bubble formation and associated evaporation losses.

Surprisingly, it has been shown that for the Appli cation of the cryogenic coolant used capillary per made of glass despite the high cooling capacities and the possible Freezing speeds in the order of 100 K / min no cracks received.

A particularly high cooling capacity can be achieved that the nozzle holder is made of an insulating material.

It is for the effective supply of the cryogenic cooling liquid further advantageous that the entire tube is within of the nozzle holder.

The tube expediently contains a channel, the Channel preferably a diameter of about 0.5 mm to about 1.0 mm.

To avoid clogging of the capillary by Verun cleaning, it is advantageous that they ent a microsieve holds.

The tube is integrated into the applicator in a particularly preferred embodiment of the invention there through that the tube is in the area of a channel opening in contact with the vitreous and that the  Tube in the area of the other channel opening in contact with the microsieve.

The invention further relates to an application device, which is characterized in that it is an inventive Contains applicator. The application device is preferably designed as a handheld device.

Surprisingly, it has been found that an application capillary with a diameter adapted to the pressure of the gas has particularly good application properties. In the event that the gas is N ₂ O, a preferred pressure is approximately 50 bar. In the event that the gas is CO ₂ , the pressure is 55 bar. An application capillary used for the application of N ₂ O has particularly good application properties at a diameter of 30 µm to 40 µm at the exit point. For other gases, for example CO ₂ , which has a preferred pressure of about 55 bar at room temperature, the preferred diameter is 25 μm to 30 μm. The application capillary according to the invention is preferably supplied with the cryogenic coolant by means of a hand-held device.

Other advantages, special features and useful training endings of the invention emerge from the subclaims and the following illustration of preferred exemplary embodiments le based on the drawing.

The drawing, Fig. 1, shows a particularly simple and expedient embodiment of an applicator according to the invention.

The applicator shown in FIG. 1 contains an application capillary with a capillary body 2 . The capillary body 2 is preferably made of glass, a variety of chemical glass compositions being suitable.

A glass capillary is preferably used, which with ho precision in a drawing process without accumulation of Dirt particles are made. When producing the Glass capillaries can be used for conventional manufacturing Manufacturing processes used in glass capillaries, in particular re pipe drawing process can be used.

The use of chemically resistant glass is an advantage liable, but especially when using non-reactive cryogenic coolants are not required. It is purpose moderately, chemically and thermally resistant glasses, as with for example, use borosilicate glass. Surprisingly It has been shown that thermi sensitive glass such as, for example Lime soda glass despite the capillary dimensions used the high cooling rates implemented of up to meh reren 100 K / min and a temperature of about -89 ° C at the The cryogenic coolant does not show any cracks form.

The capillary body contains a continuous capillary opening with an inner diameter of approximately 25 µm to 45 µm. Beson preferred are inner diameters between 30 microns and 45 microns.

The outer diameter of the capillary body 2 is preferably less than 3 mm, values in the order of 1 mm to 3 mm being preferred.

The application capillary is located inside a nozzle holder 3 . The nozzle holder 3 consists of an insulating material, preferably a polymer.

The capillary body 2 is introduced into the nozzle holder 3 such that a section A of the capillary body 2 protrudes from the nozzle holder 3 . Section A is preferably between 5 mm and 8 mm long.

The capillary body 2 exits at its end determined as an outlet opening for the cryogenic cooling liquid from the nozzle body. Pressure relief occurs in the area of the outlet opening for the cryogenic cooling liquid.

At the end intended for the entry of the cryogenic cooling liquid, the capillary body 2 is surrounded by the nozzle holder 3 .

In order to ensure an undisturbed supply of the cryogenic cooling liquid into the inner tube 1 of the capillary body 2 , it is expedient that the opening intended for the entry of the cryogenic cooling liquid is in contact with a channel of a tube 5 . It is particularly advantageous that the diameter of the channel is approximately 0.5 mm.

It is particularly advantageous that the channel of the tube 5 has a slightly larger inner diameter than the application capillary 2 . In the case shown, the inside diameter of the channel of the tube 5 is about 0.5 mm and the inside diameter of the application capillary 2 is about 0.045 mm.

The tube 5 preferably has a length of approximately 0.5 mm to 2.0 mm.

The channel of the tube 5 serves as a storage for the cryogenic cooling liquid.

To prevent access to the contaminants contained in the cryogenic cooling liquid, it is expedient that a microsieve is arranged in the inner tube of the nozzle body 3 . The microsieve 6 preferably has an outer diameter which corresponds to the outer diameters of the capillary body 2 and the tube 5 . In addition to a particularly high mechanical stability, this also makes it particularly easy and reliable to manufacture the applicator.

The applicator is connected to a coolant source not shown in the drawing. The coolant source may include N ₂ O, Ar, or another cryogenic liquid gas, such as liquid nitrogen or liquid CO ₂ .

It is particularly useful that the applicator as a hand advises is trained, or part of a hand device is.

The handheld device is preferably equipped with means which flexible exchange of the application capillaries is possible chen. Examples cannot be shown here in the figure screw threads.

In the simplest embodiment, there is the application capillary from a microcapillary on a supply source for the cryogenic coolant is applied. This supply source can be a hand-held device according to the invention or a larger stationary supply unit. Surprisingly  has invented for all embodiments application capillary according to the invention found that the Dosing of cryogenic coolant in a capillary diameter between 30 µm and 45 µm especially good of that User can be controlled because of these capillary cross sections Liquids with a viscosity and internal friction such as the flow and dosing egg, which is particularly good of liquid gases have properties.

The application capillaries according to the invention are fundamental Lich for all cryogenic gases, but are by their individual design quite different margin fair conditions.

As shown by way of example, the insulation results special advantages. On the one hand, evaporation losses, on the other hand, there will be tires in particular on the inner walls prevented, which prevents ice crystal formation, which too Malfunctions up to the closure of the application box pillare can lead because the ice crystals are also in rivers Do not let siggasen be avoided and on the inside wall of the Ap can deposit plication capillary.

The operating pressure used for all embodiments of the invention is in the order of magnitude up to about 5 bar, where an upper limit of 3 bar is even more expedient and an adjustment of the operating pressure between 0.1 bar and 0.3 bar is particularly advantageous. This applies both to the application of the application capillary by means of a hand-held device according to FIG. 5 and to its use with a stationary supply unit for liquid gases which is connected to the application capillary by means of a line.

The outside diameter of the application capil according to the invention lare is less than 3 mm in the preferred embodiment, better less than 2 mm, the preferred inside diameter the application capillary is between 30 µm and 50 µm and the exit point for the cryogenic coolant has egg NEN preferred diameter of about 0.8 mm. This dimensio Nations lead to an optimal relationship between Thurs and accuracy and can vary depending on the used Coolant can be varied.

Especially when coolants with a particularly low boiling point point is used, it makes sense to apply the application pillare at least partially with an insulating material equip, so that no formation of two phases by heat influence arises.

In a further preferred embodiment, the invention is application capillary according to the invention a microfilter switches which retains microorganisms and thus to Hygiene contributes.

In a preferred embodiment that can be used flexibly the application capillary has a thread-like professional lation to variable to a supply device, for. B. Handheld device to be able to be connected. In a broader sense, the Place the thread also another fastener, such as kick a buckle.

The application capillaries according to the invention can be connected both to a large stationary liquid gas source and to a hand-held device. Here, a capsule is filled to about 3/4 of its volume with an amount of the cryofluid which is kept at a substantially constant pressure of approximately 50 bar, which corresponds to the gas pressure of liquid N ₂ O at room temperature. The tube defines an elongated channel, not shown, through which the cryogenic coolant can pass. The closure ensures a secure connection between the tube and the capsule. A valve allows the cryogenic coolant to pass into the application capillary.

Claims (11)

1. Applicator for the application of cryogenic cooling liquids with an application capillary, characterized in that the application capillary contains a capillary body ( 2 ) which at least in sections consists of glass. 2. Applicator for the application of cryogenic cooling liquids with an application capillary, in particular according to claim 1, characterized in that it has a nozzle holder ( 3 ), that the nozzle holder ( 3 ) contains a channel, and that both in the channel at least a section of the capillary body ( 2 ) and at least a section of a tube ( 5 ) are located. 3. Applicator according to claim 2, characterized in that the nozzle holder ( 3 ) consists of an insulating material. 4. Applicator according to one or both of claims 2 or 3, characterized in that the entire tube ( 5 ) is located within the nozzle holder ( 3 ). 5. Applicator according to one or more of claims 2 to 4, characterized in that the tube ( 5 ) contains a channel. 6. Applicator according to claim 5, characterized in  that the channel one Has a diameter of 0.5 mm. 7. Applicator according to one or more of claims 1 to 6, characterized in that it contains a microsieve ( 6 ). 8. Applicator according to claim 7, characterized in that the tube ( 5 ) is in the region of a channel opening in contact with the glass body ( 2 ) and that the tube is in the region of the other channel opening in contact with the micro sieve ( 6 ) located. 9. Application device, thereby ge indicates that there is an applicator according to one of claims 1 to 8. 10. Application device according to claim 9, characterized characterized that it is a handge advises. 11. A method for producing an applicator for the application of cryogenic cooling liquids, characterized in that a glass capillary is produced in a pulling process and introduced into a nozzle holder ( 3 ) of the applicator.