|Title of Invention||
APPLIANCE FOR WATER-JET SURGERY
|Abstract||Disclosed is a water jet surgery device, comprising a plurality of supply cylinders with a working fluid stored therein, and which can be discharged through an outlet by means of a piston into a pressure line. At least one actuation device is provided in order to actuate the piston of the supply cylinders. Working fluid can be discharged into the pressure line from successively emptied supply cylinders by means of an alternating device used to alternate the actuation of the piston of one supply cylinder with that of another supply piston, resulting in a simple small structured device.|
Appliance for water-jet surgery
The invention relates to an appliance for water-jet surgery, in which a fluid is expelled from a nozzle under high pressure for the selective cutting of tissue.
Customarily in the case of such an appliance a supply cylinder having an (initially closed) outlet at one end is filled with a working fluid, such as Ringer solution, and at its other end is closed by means of a piston. This supply cylinder is then inserted into a stably positioned chamber in an appliance housing. After closure of the housing an actuating rod driven by a hydraulic cylinder is placed in contact with the piston in the supply cylinder. Now the known appliance is ready for operation. During operation the pressure that must be applied to the fluid is generated by the hydraulic cylinder.
So that during an operation a sufficient amount of working fluid is available with no need to exchange the supply cylinder, a procedure that would involve a not inconsiderable interruption of the operation, the supply cylinder must have a relatively large volume. The larger the cylinder bore is made, the larger must be the force exerted by the hydraulic system, and hence a correspondingly greater stability is required of the receptacle for the supply cylinder. On the other hand, if the volume of the supply cylinder is increased by lengthening it, and hence lengthening the stroke of the piston, the result is an increase in the overall height of the appliance. The
present-day compromise has produced supply cylinders with a diameter of ca. 60 mm, with the result that the associated appliances are constructed as stands and have a height of ca. 1,200 to 1,500 mm. The necessary actuation devices, i.e. the hydraulic cylinder along with the associated hydraulic pump, are extremely elaborate and very awkward to use.
Furthermore, in the case of Msmall" operations for which only a slight amount of fluid is used, the excess working fluid must be discarded because of the sterility requirements for a working fluid, which increases the operating costs of the known appliance.
It is the objective of the invention to disclose a simple appliance that enables economical operation while reducing the structural complexity.
This objective is achieved in the case of an appliance for water-jet surgery by providing a plurality of supply cylinders, in which a working fluid is stored and from which the fluid can be expelled through an outlet into a pressure conduit, by means of a piston. At least one actuation device is provided to actuate the pistons. In addition, a change-over device is provided by means of which the actuation is shifted from the piston of one supply cylinder to the piston of another supply cylinder, so that the working fluid can be expelled into the pressure conduit from the supply cylinders one after another, as they are consecutively emptied.
Thus an essential point of the invention resides in the fact that the one (single) supply cylinder previously provided is here subdivided into a plurality of correspondingly smaller supply cylinders. This measure solves several problems simultaneously. First, because of their reduced diameter the smaller supply cylinders can can be made of a weaker material, which nevertheless can resist the prevailing (very high) pressures. Second, the necessary working pressure can be
produced with less force, so that the necessary actuation devices can be more simply constructed. Third, the appliance can be made very much smaller (e.g., can be set onto a table), on account of the smaller stroke of the pistons. And fourth, during a "relatively small" operation fewer supply cylinders are used up than in a "larger" operation; in the present appliance, the supply cylinders that have not been used are available for a subsequent operation, as their sterility is still ensured.
Preferably the change-over device is so constructed that there is some overlap between the consecutive periods during which pistons are actuated, so that the expulsion of fluid into the pressure conduit produced by their actuation is uninterrupted. Whereas on one hand, in the case of the conventional large-volume supply cylinders, such an uninterrupted supply of working fluid is ensured by the large fluid volume, with the present invention this uninterrupted supply of fluid is very efficiently achieved.
Preferably sealing devices are provided to make the fluid outlet on the supply cylinder water-tight, so that no manual coupling is needed for a firm connection; instead, a forceful automatic/mechanical coupling of the supply cylinder to the sealing device suffices.
An overlapping actuation of the pistons is especially simple when a plurality of actuation devices is provided. Then there is no need to move the actuation devices from one piston to the next; when the number of actuation devices corresponds to the number of supply cylinders in the device, a simple (electronic) control means can implement the change-over. However, it is also possible to work with a smaller number of actuation devices (only one, in the minimal case) if the change-over device ensures that the actuation device is always guided to the next in a sequence of new supply cylinders.
The pistons are preferably provided with back-flow barriers, such that after working fluid has been ejected by a piston, the piston cannot be pushed back into a previous position from the position it has reached, in particular from its final position after all the working fluid has been ejected. By this means it can be ensured that refilling is prevented and hence the possibility of working with unsterile medium can be reliably eliminated.
At the outlet of the supply cylinder an irreversibly openable transport gasket is preferably provided. This measure likewise makes it possible for the use of unsterile medium to be prevented. Furthermore, such an irreversibly openable transport gasket can be very simply constructed and designed in such a way that it opens automatically when a supply cylinder is put into place or when it is first actuated. Because of the very high pressures employed here, it is possible also to construct the transport gasket so that it opens automatically when pressure is first applied.
Preferably a change-over magazine is provided, which accommodates a group of supply cylinders. This makes handling of the apparatus particularly simple, both during the insertion of multiple supply cylinders into the appliance and when individual actuation devices are being changed over from one supply cylinder to another. The change-over magazine preferably comprises chambers that closely surround the supply cylinders. In this case the supply cylinders can be constructed with an especially thin wall, which expands somewhat as the pressure builds up and then becomes apposed to the walls of the changeover magazine. The receptacle can also be made with sufficient shape stability to withstand the pressure without becoming form-fitted to the housing.
In the change-over magazine collection devices are preferably provided, to guide the working fluid from several supply cylinders to the pressure conduit. This is especially
advantageous when the working fluid is being conducted in an overlapping manner from various supply cylinders.
Preferably ventilation devices are provided, in particular to remove air simultaneously from conduit sections between the outlets of the supply cylinders and the pressure conduit, so that there is no interruption or pulsation of the working fluid associated with the release of air remnants. Preferably the ventilation devices are disposed in the change-over magazine.
In one embodiment of the invention the change-over magazine is fixedly connected to the pressure conduit and is intended to be used only once. In this case the change-over magazine can already be filled with supply cylinders by the manufacturer, so that although the advantage of saving working liquid (as well as the supply cylinders) is no longer obtained, all the other advantages cited above are nevertheless preserved. A special advantage in this case is the ease of manipulation, in particular with regard to sterility criteria.
Preferred embodiments of the invention will be apparent from the subordinate claims and the following exemplary embodiments, which are explained in greater detail with reference to drawings, wherein
Fig. 1 is a schematic sectional drawing of a first
embodiment of the invention with inserted magazine, prior to actuation,
Fig. 2 shows the arrangement according to Fig. 1 during the
initial phase of actuation of one cylinder,
Fig. 3 shows the previously illustrated arrangement during the expulsion of working fluid,
Fig. 4 shows the previously illustrated arrangement when one supply cylinder is empty and another supply cylinder is being actuated,
Fig. 5 is a perspective drawing of part of the arrangement according to Figs. 1-4,
Fig, 6 is a perspective drawing of part of another embodiment of the invention,
Fig. 7 is an exploded drawing of part of the arrangement according to Fig. 6, and
Fig. 8 is a schematic drawing of a control means for the arrangement according to Figs. 1-5.
In the following description, the same reference numerals are used for identical parts or parts with identical actions.
In the first embodiment of the invention, shown in Figs. 1-5,
an appliance housing 1 is provided that comprises an opening 2
on its front side, into which a change-over magazine 40 can be
The change-over magazine contains a plurality of supply cylinders 10-1 to 10-n; in the embodiment shown here, there are 8 such supply cylinders 10. It is evident in the drawings that in this case the supply cylinders 10 have been constructed directly within the change-over magazine or are formed by the magazine itself, and have not been inserted as separate cylinders.
Each of the supply cylinders 10 comprises a piston 12 that closes the cylinder at one end. In the interior of the supply cylinders 10 a working fluid, in particular Ringer solution, is enclosed in a leakproof manner.
Each supply cylinder communicates with an outlet 13 having a collection channel 45, which in turn is connected to a pressure conduit 20.
The pistons 12 comprise — as shown in the enlarged section of Fig. 4 — a back-flow barrier 14 that keeps the piston 12 in its final position, i.e. when all the fluid has been expelled, as is known per se for single-use syringes.
After being inserted into the opening 2 of the housing 1, the change-over magazine 40 is locked to a holder 41, so that it is firmly retained within the appliance housing 1.
Within the housing 1 there are additionally provided actuation devices 30-1 to 30-n, which are shown here as hydraulic cylinders but can of course also be designed as electrically driven recirculating ball screws or the like.
Each of the actuation devices 30 comprises a plunger 31, which is disposed in the housing 1 in such a way that when the change-over magazine 40 is in position, the actuating plungers 31 are situated opposite the pistons 12 that face them.
The insertion position, i.e. the position of the components immediately after the change-over magazine 40 has been inserted into the housing 1, is shown in Fig. 1. In this position the collection channel 5 and the pressure conduit 20 are still empty.
Now when the first actuation device 30-1 is actuated, so that its plunger 31 is driven forward, the plunger — as shown in Fig. 3 — presses the piston 12 into the supply cylinder 10, so that fluid 11 passes through an outlet 13 of the first supply cylinder 10-1 into the collection channel 45 and through the latter into the pressure conduit 20, which conducts it to the working instrument (not shown).
As soon as the first supply cylinder 10-1 is empty (see Fig. 4), another supply cylinder 10-n is "triggered" to deliver its stored working fluid 11 by way of the plunger 31 of the associated actuation device 30-n. As this occurs, the piston 12 of the emptied supply cylinder 10-1 is retained in its final position by the back-flow barrier 14, so that any force exerted by fluid emerging from the supply cylinder 10-n and present in the collection channel 45 cannot cause this piston 12 to be pushed backward.
The embodiment shown in Figs. 6 and 7 differs from that according to Figs. 1 - 5 in particular in that the change-over magazine 40 comprises chambers 42 into which individual supply cylinders 10 can be inserted as separate "structural components". In this arrangement the change-over magazine 40 can be rotated about its axis, allowing supply cylinders 10-1 to 10-n to be consecutively positioned so that their outlet 13 is connected to a sealing device 43, which mediates a leakproof connection between the associated supply cylinder 10 and the pressure conduit 20. These drawings show an opening needle 44, which is provided to open closure devices (not shown) on the outlets 13 of the supply cylinders 10; this needle opens the closure device of the relevant supply cylinder 10 whenever the sealing device 43 is pressed against the outlet 13 of the supply cylinder 10. Exchanging of the supply cylinders 10 by rotation of the change-over magazine 40 thus corresponds somewhat to the replacement of cartridges in (or at the entrance to) the barrel of a revolver.
Figure 8 shows a — highly schematic — control means for the appliance according to Figs. 1-5.
This control means comprises a computer 25 that is in controlling communication with the actuation devices 30-1 to 30-n. The plungers 31 of the actuation devices 30-1 to 30-n, which in the present case are constructed as electromotor drives (e.g., with recirculating ball screws), exert pressure
on the pistons 12 of the supply cylinders 10. The force thus employed can in this embodiment be controlled by the current with which the electromotors M1- Mn are driven by the computer 25.
The outlets of the supply cylinders 10 are connected to the collection channel 45. Between the various supply cylinders 10 and the collection channel 45 are provided back-flow barriers 14, here constructed as back-flow valves, disposed in such a way that the pressure in the collection channel 45 can in no case have an effect on a piston 12 that at the moment is not being actuated with the corresponding force.
Between the collection channel 45 and the pressure conduit 20 leading to a working instrument 5, a ventilation device 46 is provided.
In addition path sensors 32 are provided, which send a signal to the computer 25 at least when the associated plunger 31 has reached its final position.
With the arrangement shown in Fig. 8 it is now possible to drive the actuation devices 30-1 to 30-n in such a way that the supply cylinders can be emptied one after another, and even in such a way that their emptying periods overlap, so that the operator is not disturbed by fluctuations in pressure of the working fluid.
From the above it will be evident that a combination of the individual characteristics explained here is readily possible. For example, the magazine shown in Figs. 6 and 7 can also be replaced by one according to Fig. 5 (to be used only once) . Control by the computer 25 shown here can of course be replaced by provision of a corresponding cam-disk mechanism.
List of reference numerals
1 Appliance housing
5 Working instrument
10 Supply cylinder
14 Back-flow barrier
20 Pressure conduit
2 5 Computer
30 Actuation device
32 Path sensor
40 Change-over magazine
43 Sealing device
44 Opening needle
4 5 Collection channel
46 Ventilation device
50 Change-over device
|Indian Patent Application Number||4099/CHENP/2006|
|PG Journal Number||09/2013|
|Date of Filing||07-Nov-2006|
|Name of Patentee||ERBE ELEKTROMEDIZIN GMBH|
|Applicant Address||WLDHORNLESTRASSE 17, 72072 TUBINGON, GERMANY|
|PCT International Classification Number||A61B 17/00|
|PCT International Application Number||PCT/EP05/02917|
|PCT International Filing date||2005-03-18|