DEVICE AND METHOD FOR PRODUCING AND TRANSPORTING DRY ICE PELLETS

Abstract

A device for producing dry ice pellets comprises a pressing cylinder, into which an inlet opening for feeding liquid carbon dioxide leads and which is equipped with a die, which has one or more openings, and with a piston, which is longitudinally movable in the pressing cylinder. Liquid carbon dioxide is fed to the pressing cylinder, is expanded at the inlet opening, is at least partially converted into carbon dioxide snow and is pressed against and through the die by the movement of the piston. The die is in the form of a cylindrical body that can be connected to the pressing cylinder and is equipped with feed-throughs, which are oriented parallel to a longitudinal axis of the die and are dimensioned in such a way that the length and the diameters of the feed-throughs correspond to the length and the diameters of the dry ice pellets to be produced.

Claims

1. A device for producing and transporting dry ice pellets, comprising: a pelletizing device, which has a pressing cylinder comprising an inlet for supplying liquid carbon dioxide and a gas outlet for discharging carbon dioxide gas, a piston accommodated in a longitudinally movable manner in the pressing cylinder, and a die arranged at an end of the pressing cylinder and having leadthroughs aligned parallel to a longitudinal axis of the die; wherein the die is separably connected to the pressing cylinder and the length and the diameters of the leadthroughs correspond to the length and diameters of dry ice pellets to be produced.

2. The device as claimed in claim 1, wherein there is assigned to the die a separating means for removing dry ice strands protruding from an end of the die.

3. The device as claimed in claim 1, wherein the pelletizing device has a means for automatically inserting and fixing the die on the pressing cylinder.

4. The device as claimed in claim 1, wherein six to one hundred leadthroughs are provided in the die.

5. The device as claimed in claim 1, wherein the leadthroughs are arranged in a rotationally symmetrical manner around a central axis of the die.

6. The device as claimed in claim 1, wherein the leadthroughs extend within the die in parallel rows that are offset from one another.

7. The device as claimed in claim 1, wherein the leadthroughs each have a length of at least 50 mm and a diameter of at least 5 mm.

8. The device as claimed in claim 1, wherein the gas outlet is connected to a means for reliquefying carbon dioxide gas produced in the pressing cylinder upon expansion of liquid carbon dioxide.

9. A system for producing, transporting and applying dry ice pellets, comprising a device as claimed in claim 1 for producing conditioned dry ice pellets within the die, and comprising a means for applying dry ice pellets, in which the die can be used as a magazine for storing and supplying dry ice pellets.

10. A method for producing, transporting and applying dry ice pellets, in which dry ice pellets are produced in a die of a pelletizing means, the die stocked with dry ice pellets is separated from the pelletizing means and brought, as a magazine for dry ice pellets, to a means for applying dry ice pellets, and the dry ice pellets are applied, by the application means to their intended location.

11. The device as claimed in claim 4, wherein eight to eighty leadthroughs are provided in the die.

12. The device as claimed in claim 7, wherein the leadthroughs each have a length of at least 100 mm and a diameter of at least 10 mm.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The invention is now to be explained in greater detail on the basis of the drawings, in which, in schematic views:

[0021] FIG. 1 shows the pelletizing device of a device according to the invention, in a longitudinal section,

[0022] FIGS. 2 and 3 show exemplary embodiments of dies for devices according to the invention, in a front view,

[0023] FIG. 4 shows a system according to the invention for producing, transporting and applying dry ice pellets.

DETAILED DESCRIPTION

[0024] The pelletizing device 1 shown in FIG. 1 comprises, in a manner known per se, a pressure-resistant pressing cylinder 2 in which a piston 3 is received in a longitudinally movable manner. The piston 3 is moved by means of a piston rod 6, which is guided through an opening 5 in a rear end 4 of the pressing cylinder 2 and is connected to a drive, which is not shown here. The pressing cylinder 2 further comprises an inlet 7 for liquid carbon dioxide and a gas outlet 8 for carbon dioxide gas produced upon expansion of the supplied liquid carbon dioxide.

[0025] A die 10, described in greater detail below, is arranged on the end 9 of the pressing cylinder 2 that is opposite the rear end 4. For this purpose, arranged in a front portion 11 of the pressing cylinder 2 there are fastening means, for example threaded holes 12, which open out at the end face 9. The threaded holes 12 serve to detachably fasten the die 10 to the pressing cylinder 2 by means of screws, not shown here. In addition, instead of a screw connection, other connecting means may also be used, by means of which the die 10 can be easily mounted on the pressing cylinder 2 and just as easily demounted from it again and, for example replaced by another die.

[0026] The die 10 is a cylindrical body having an inner end 14 and an outer end face 15 made of a pressure-resistant material such as, for example, stainless steel, within which a number of leadthroughs 16 are provided, which extend parallel to a longitudinal axis 17 of the pressing cylinder 2 and die 10 and—in the exemplary embodiment according to FIG. 2—are arranged at the same radial distance from the longitudinal axis 17 in each case. Depending on the respective application, there may be a central leadthrough 18 (as shown in the exemplary embodiment) or a number of further leadthroughs arranged radially on the inside of the leadthroughs 16; or the die is closed in this region.

[0027] The length of the die 10, and thus the length of the leadthroughs 16, as well as the diameters of the leadthroughs 16, are dimensioned such that the dry ice pressed into them during the advance of the piston 3 corresponds in its length and diameter to the dimensions of dry ice pellets to be applied in an application. The dry ice pellets are thus produced inside the die 10 and remain there until they are applied at a place of use. The die 10 is therefore fastened to the pressing cylinder 2 in such a way that it can be easily removed from the pressing cylinder 2 by an operator or by an automatic means and replaced by an empty die 10, i.e. one not stocked with dry ice, and has corresponding connecting means, for example holes 19, that act in combination with the threaded holes 12.

[0028] The die 20 shown in FIG. 3 differs from the die 10 substantially in that the leadthroughs 21 are not arranged in a rotationally symmetrically manner about an axis, but are arranged in rows offset from each other to allow the leadthroughs 21 to be arranged as densely as possible, which in turn allows the greatest possible number of dry ice pellets to be produced in a die 20. To fasten the die 20 to a pressing cylinder 2 in the case of the die 20, holes 22 are used, which are arranged to the side of the leadthroughs and at which suitable connecting means, for example screws, not shown here, are screwed into corresponding threads on the front side of the pressing cylinder 2. The holes 22 may at the same time also serve to fasten the die 20 in an application means, for example a means for applying dry ice pellets to a piece of meat. In both exemplary embodiments according to FIG. 2 and FIG. 3, a sealing ring 23 provides a sealing connection to the pressing cylinder 2, which prevents carbon dioxide ice from escaping laterally at the die 10, 20.

[0029] In the operation of the pelletizing device 1, a die 10, 20 is first fastened to the pressing cylinder 2. Liquid carbon dioxide is then supplied to the pressing cylinder 2 via the inlet 7. The liquid carbon dioxide expands as it enters the pressing cylinder 2, forming carbon dioxide snow and carbon dioxide gas. While the carbon dioxide snow remains in the pressing cylinder 2, the carbon dioxide gas is discharged via the gas outlet 8. Finally, the inlet 7 and the gas outlet 8 are closed by means of valves, not shown here. Advancing of the piston 3 causes the carbon dioxide snow in the pressing cylinder 2 to be pressed against and into the leadthroughs 16, 18 of the die 10, 20 and thereby compressed to form dry ice. The mass of the carbon dioxide snow present in the pressing cylinder 2 in this case should not, or should only insignificantly exceed, the mass of the dry ice that can be pressed into the leadthroughs 16, 18, such that, after pressing, the piston 3 is as close as possible to the end 14 of the die 10, 20. The piston 3 is then returned to its initial position, as a result of which the interior of the pressing cylinder 2 is relieved of pressure. The die 10, 20 is now demounted, together with the dry ice contained in the leadthroughs 16, 18, and replaced by a new die not stocked with dry ice. Before or after separation from the pressing cylinder 2, the die 10, 20 stocked with dry ice is subjected to a post-treatment in a separating means (not shown in FIGS. 1 to 3), in which any protruding strands of dry ice are cut off and/or individual leadthroughs 16, 18 are completely freed from dry ice. The die 10, 20 thus stocked with dry ice pellets is removed from the pressing cylinder 2 and brought to the place of use of the dry ice pellets.

[0030] FIG. 4 shows a system 25 for applying dry ice pellets by use of a device according to the invention. In addition to the pelletizing device 1 and a separating means 26 for post-treatment of the die 10, 20, the system 25 comprises an application means 27. Furthermore, the system 25 comprises a tank 28 for pressurized carbon dioxide and a means 29 for reliquefying the carbon dioxide gas produced upon expansion of the liquid carbon dioxide in the pelletizing device 1.

[0031] For the purpose of producing dry ice pellets in the manner described above, a die (die 10 in the example shown here) is connected to the pressing cylinder 2 of the pelletizing device 1. Liquid carbon dioxide is then supplied from the tank 28 to the pelletizing device 1 via a feed line 30. The carbon dioxide gas that occurs upon expansion of the liquid carbon dioxide in the pressing cylinder 2 is supplied via a gas line 31 to the means 29, where it is pressurized, thereby reliquefied and returned to the tank 28 via a return line 32. The die 10 stocked with dry ice pellets is detached from the pressing cylinder 2 of the pelletizing device 1 and brought to the separating means 26, in which any protruding dry ice pieces are cut off. The die 10, which is thus stocked with dry ice pellets of a precisely defined geometry, is then used by the application means 27 as a magazine for dry ice pellets and for this purpose is inserted into a magazine receiver 33 of the application means 27.

[0032] The application means 27 is a means, for example of a pistol-like design, that is equipped with mechanical pushing means, for example with elongate needles, which are arranged so as to be axially movable within the application device in such a manner that they eject the dry ice pellets present in the leadthroughs 16 individually or in groups, one after the other or all at the same time. Upon ejection, the dry ice pellets are preferably brought directly to their place of use, which is, for example, a product to be cooled, in particular a food product. For example, this is a piece of meat into which dry ice pellets are filled, for the purpose of cooling, into openings or pockets previously made in the piece of meat.

[0033] The die 10, now emptied, is returned to the pelletizing device 1 and restocked with dry ice pellets, as indicated by the arrow 34. In the system 25 shown here for producing and applying dry ice pellets, both the carbon dioxide gas that occurs during pellet production and the die 10 are recirculated and reused. Instead of the die 10, another die, for example the die 20, may also be used in such a system.

LIST OF REFERENCES

[0034] 1 pelletizing device [0035] 2 pressing cylinder [0036] 3 piston [0037] 4 end [0038] 5 opening [0039] 6 piston rod [0040] 7 inlet [0041] 8 outlet [0042] 9 end [0043] 10 die [0044] 11 front portion [0045] 12 threaded hole [0046] 13 [0047] 14 inner end (of the die) [0048] 15 outer end (of the die) [0049] 16 leadthrough [0050] 17 longitudinal axis [0051] 18 central leadthrough [0052] 19 hole [0053] 20 die [0054] 21 leadthrough [0055] 22 hole [0056] 23 sealing ring [0057] 24 [0058] 25 system [0059] 26 separating means [0060] 27 application means [0061] 28 tank [0062] 29 means for reliquefying [0063] 30 supply line [0064] 31 gas line [0065] 32 return line [0066] 33 magazine receiver [0067] 34 arrow