LAPAROSCOPIC CLIPPING MACHINE FOR APPLICATION OF SURGICAL CLIPS ON TISSUE STRUCTURES

Abstract

A laparoscopic dipping machine that is used to apply dips on tissue structures is enclosed in a housing and includes a pair of movable jaws mounted on a stem. Operational movement for clamping the dips is indirectly triggered by a movement of the handle. The clipping machine further includes at least one spring and a mechanism directly triggering the operational movement of the jaws having at least one pusher movably arranged in the axis of the stem supported in the axis of the stem on the spring. An adjustment mechanism adjusts the jaws output opening to at least two different positions adapted to at least two sizes of the dips, resulting in a different output angle between the jaws, wherein the adjustment mechanism includes a movable shutter element having at least two parts, the narrower part of the shutter element and the wider part of the shutter element

Claims

1. A laparoscopic clipping machine for application of clips on tissue structures, enclosed in a housing, comprising a pair of movable jaws mounted on a stem, whose operational movement for clamping the clips is indirectly triggered by the movement of a handle, at least one spring, a mechanism directly triggering operational movement of the jaws including at least one pusher movably arranged in the axis of the stem supported in the axis of the stem on the spring, an adjustment mechanism that adjusts the jaws output opening to at least two positions of the output opening adapted to at least two sizes of the clips, resulting in an output angle between the jaws, the adjustment mechanism including: a movable shutter element having at least two parts, the narrower part of the shutter element and the wider part of the shutter element, and the shutter element is movably guided through the through opening laterally formed in the pusher, which is larger than the wider part of the shutter element, so that the shutter element, when seated in the through opening of the pusher, partially covers the through opening light of the pusher, thus limiting the movement of the pusher when determining the output angle, in such a way, that after passing through the pusher through opening of the narrower part of the shutter element a partially limited longitudinal movement of the pusher is obtained, resulting in the first output angle, and after passing the wider part of the shutter element and its location in the pusher through opening light, a significantly limited longitudinal movement of the pusher is obtained, resulting in the second output angle.

2. The clipping machine according to claim 1, wherein: the through opening is oval in the longitudinal cross-section, the oval has a shorter diameter and a longer diameter, and the longer diameter of the oval is directed along the axis of the pusher and the shorter diameter of the oval is perpendicular to the pusher axis and then the longer diameter of the oval is longer than the widest part of the shutter element.

3. The clipping machine according to claim 1, wherein: the movable shutter element has a shape of the first cylinder extending on one side into cone with a diameter increasing in relation to the diameter of the second cylinder and then extending into the second cylinder, which is partly guided in the first sleeve made in the clipping machine stem housing, and a threaded connection is formed on the lateral surface of the second cylinder extending through the first sleeve and on the inner surface of the first sleeve so that the shutter element is screwed into the first sleeve by passing through the through opening made in the pusher, in such a way, that the second cylinder is screwed into the first sleeve passing through the through opening made in the pusher, so that, after passing through the through opening light of the first cylinder, a partially limited longitudinal movement of the pusher is obtained, resulting in the first output angle, while after screwing into the first sleeve of the second cylinder and its passage through the through opening light, a significantly limited longitudinal movement of the pusher is obtained, resulting in the second output angle, and after passing through the through opening of the part of the cone, the output angle with a value between the first and second output angle is obtained.

4. The clipping machine according to claim 1, wherein: the movable shutter element is in the form of the third cylinder connected to the fourth cylinder with a larger diameter relative to the third cylinder, the fourth cylinder is being movably arranged in the first sleeve made in the clipping machine stem housing, and a threaded connection is formed on the lateral surface of the fourth cylinder passing through the first sleeve and on the inner surface of the first sleeve, so that the part of the fourth cylinder is screwed into the first sleeve passing through the through opening made in the pusher, so that, after passing through the pusher through opening light of the third cylinder part, the pusher partially limited longitudinal movement is obtained, resulting in the first output angle, and after screwing of the part of the fourth cylinder and its passage through the through opening light of the pusher, the pusher significantly limited longitudinal movement is obtained, resulting in the output second angle.

5. The clipping machine according to claim 1, wherein: the movable shutter element essentially comprises the gripping part mounted on the clipping machine housing and the shutter part permanently connected to the gripping part and the shutter part passes through the pusher through opening light, and wherein the shutter part has the shape of a cam with a width and a height, which shutter part is movably guided, by means of the gripping part, in the pusher through opening, so that, after passing the through opening light of the pusher of the shutter part in such a way that the width of the shutter part covers the through opening light, a partially limited longitudinal movement of the pusher is obtained, resulting in the first output angle, and after rotating the shutter element using the gripping part of the shutter element, so that, the height of the shutter part covers the through opening light, and then the significantly limited longitudinal movement of the pusher is obtained, resulting in the second output angle.

6. The clipping machine according to claim 1, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

7. The clipping machine according to claim 1, wherein: the movable shutter element has a shape of the first cylinder extending on one side into cone with a diameter increasing in relation to the diameter of the second cylinder and then extending into the second cylinder, which is partly guided in the first sleeve made in the clipping machine stem housing, and a threaded connection is formed on the lateral surface of the second cylinder extending through the first sleeve and on the inner surface of the first sleeve so that the shutter element is screwed into the first sleeve by passing through the through opening made in the pusher, in such a way, that the second cylinder is screwed into the first sleeve passing through the through opening made in the pusher, so that, after passing through the through opening light of the first cylinder, a partially limited longitudinal movement of the pusher is obtained, resulting in the first output angle, while after screwing into the first sleeve of the second cylinder and its passage through the through opening light, a significantly limited longitudinal movement of the pusher is obtained, resulting in the second output angle, and after passing through the through opening of the part of the cone, the output angle with a value between the first and second output angle is obtained.

8. The clipping machine according to claim 7, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

9. The clipping machine according to claim 1, wherein: the movable shutter element is in the form of the third cylinder connected to the fourth cylinder with a larger diameter relative to the third cylinder, the fourth cylinder is movably arranged in the first sleeve made in the clipping machine stem housing, and a threaded connection is formed on the lateral surface of the fourth cylinder passing through the first sleeve and on the inner surface of the first sleeve, so that the part of the fourth cylinder is screwed into the first sleeve passing through the through opening made in the pusher, so that, after passing through the pusher through opening light of the third cylinder part, the pusher partially limited longitudinal movement is obtained, resulting in the first output angle, and after screwing of the part of the fourth cylinder and its passage through the through opening light of the pusher, the pusher significantly limited longitudinal movement is obtained, resulting in the output second angle.

10. The clipping machine according to claim 9, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

11. The clipping machine according to claim 2, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

12. The clipping machine according to claim 3, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

13. The clipping machine according to claim 4, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

14. The clipping machine according to claim 5, further comprising: at least two movably connected pushers connected to each other, the first pusher at the height of the handle and the second pusher extending into a stem with jaws, wherein: one end of the first pusher has a spherical seat and the end of the second pusher connected to it has the sphere matching the seat and at a height of the said connection of at least two pushers there is the rotational mechanism resulting in rotation of the second pusher and the stem relative to the first pusher, consisting the knob resulting in rotational movement of the second pusher and the stem relative to the first pusher, the second sleeve with the knob, to which the stem is connected.

Description

[0015] The invention is illustrated in the drawings, in which:

[0016] FIG. 1 shows the clipping machine in embodiment where elements are shown from the outside,

[0017] FIG. 2a shows the clipping machine cross-section and its individual parts according to the embodiment of the clipping machine,

[0018] FIG. 2b shows a cross-section of the part of the clipping machine handle in close-up,

[0019] FIG. 2c shows a perspective view of the part of the handle in close-up with the adjustment mechanism for the jaws opening output angle,

[0020] FIG. 3a shows a cross-section through a part of the stem with clipping machine jaws for the first output angleone of the pre-set jaws opening position A, for the first and second embodiment of the invention,

[0021] FIG. 3b shows, corresponding to the first output angle (as in FIG. 3a), the pre-set for jaws opening position A adjustment mechanism, in longitudinal cross-section, for the first and second embodiment of the invention

[0022] FIG. 3c shows a cross-sectional view through the jaws opening adjustment mechanism with the shutter element shown positioned in the pusher opening light for the first output angleone of the pre-set jaws opening position A (as for FIG. 3b), for the first and second embodiment of the invention,

[0023] FIG. 3d shows a longitudinal cross-section through the pusher with the shutter element located in the through opening light corresponding to the first output angle (as in FIG. 3c)the pre-set for jaws opening position A adjustment mechanism, for the first and second embodiment of the invention,

[0024] FIG. 4a shows a cross-section through a part of the stem with the clipping machine jaws for the second output angleone of the pre-set jaws opening position B, for the first and second embodiment of the invention,

[0025] FIG. 4b shows the pre-set for jaws opening position B adjustment mechanism for corresponding second output angle (as in FIG. 4a), in longitudinal cross-section, for the first and second embodiment of the invention,

[0026] FIG. 4c shows a cross-section through the jaws opening adjustment mechanism with the shutter element shown in the pusher opening light, for the second output angleone of the pre-set jaws opening position B (as for FIG. 4b), for the first and second embodiment of the invention,

[0027] FIG. 4d shows a longitudinal cross-section through the pusher with the shutter element located in the through opening light corresponding to the second output angle (as in FIG. 4c)the pre-set for jaws opening position B adjustment mechanism, for the first and second embodiment of the invention,

[0028] FIG. 5a shows two views of the shutter element of the jaws opening adjustment mechanism in the first embodiment,

[0029] FIG. 5b shows two views of the shutter element of the jaws opening adjustment mechanism in the second embodiment,

[0030] FIG. 5c shows a view of the pusher with the through opening made,

[0031] FIG. 6 shows a cross-section through the clipping machine for the first output angleone of the pre-set for the jaws opening position A, for the third embodiment of the invention,

[0032] FIG. 6a shows a cross-section through the jaws opening adjustment mechanism, for the first output angleone of the pre-set jaws opening position A (corresponding to FIG. 6), for the third embodiment of the invention,

[0033] FIG. 6b shows a view of the clipping machine handgrip part from the gripping side of the shutter element for the pre-set jaws opening adjustment mechanism for the first output angleone of the pre-set jaws opening position A (corresponding to FIG. 6a), for the third embodiment of the invention,

[0034] FIG. 7 shows a cross-section through the clipping machine for the second output angleone of the pre-set jaws opening position B, for the third embodiment of the invention,

[0035] FIG. 7a shows a cross-section through the jaws opening adjustment mechanism, for the second output angleone of the pre-set jaws opening position B (corresponding to FIG. 7), for the third embodiment of the invention,

[0036] FIG. 7b shows a view of the clipping machine handgrip part from the gripping side of the shutter element for the pre-set jaws opening adjustment mechanism for the first second angleone of the pre-set jaws opening position B (corresponding to FIG. 7a), for the third embodiment of the invention,

[0037] FIG. 8 shows an axonometric view of the shutter element for the third embodiment of the invention,

[0038] FIG. 8a shows a perspective view of the shutter element for the third embodiment of the invention

[0039] FIG. 9 shows the clipping machine with elements shown from the outside with the rotational mechanism shownthe knob to rotate the stem with jaws, for the first and second embodiment of the invention,

[0040] FIG. 10 shows a cross-section through the clipping machine as for the first and second embodiment of the invention and its individual parts with an additional rotational mechanism shownthe knob to rotate the stem with jaws,

[0041] FIG. 10a shows a detail of cross-section through the clipping machine as for the first and second embodiment of the invention (from FIG. 10) in terms of the adjustment mechanism and with an additional rotational mechanism shownthe knob to rotate the stem with jaws,

[0042] FIG. 11 shows the clipping machine with elements shown from the outside as for the third embodiment of the invention with an additional rotational mechanism shownthe knob to rotate the stem with jaws,

[0043] FIG. 12 shows a cross-section through the clipping machine and its individual parts as for the third embodiment of the invention with an additional rotational mechanism shownthe knob to rotate the stem with jaws,

[0044] FIG. 12a shows a cross-sectional detail through the clipping machine (from FIG. 12) as for the third embodiment of the invention with an additional adjustment mechanism and with a rotational mechanism shownthe knob to rotate the stem with jaws, for the third embodiment of the invention.

[0045] FIG. 13a shows a perspective view of the clip FIG. 13b shows the jaws with the clip attached.

EXAMPLE 1

[0046] As shown in FIGS. 1 and 2a, the laparoscopic clipping machine 1 for application of clips 2 on tissue structures, enclosed in a housing 5, comprises a pair of movable jaws 3 mounted on the stem 4, whose operational movement for clamping the clips 2 is indirectly triggered by a movement of the handle in the handgrip 7. The clipping machine comprises a luer lock 39 connector. This connector is defined by a standard and is used in the case of the clipping machine to clean internal components. The handle 7 is embedded in the housing, the spring 38 of the handgrip directly affects the handle 7, and the handle 7 affects the pusher 6. The mechanism directly triggering the operational movement of the jaws 3 comprises the pusher 6 movably arranged in axis of the stem 4 supported in axis of the stem 4 on the spring 8. As shown in FIG. 2b, the handgrip is provided with two handlesmovable pulling handle 34 and fixed handle 35. Movement of the moving handle in the handgrip triggers an operational movement of the jaws 3 through the pulling handle and then through the pushers. The pair of springs is responsible for proper tension of pulling handle 34 relative to fixed handle 35several springs can be madespring 38 of handle and spring 8 in stem 4.

[0047] As shown in FIG. 2c, the clipping machine comprising the jaws 3 output opening adjustment mechanism 9 in the range of jaws position change for the output angle 10change of the output angle 10 to at least two angles 10a and 10b-positions A and B of the jaws.

[0048] As mentioned, generally, the adjustment mechanism 9 is the movable shutter element 11 with gradually changing or stepping shape. In general embodiment, the adjustment mechanism 9 comprising the narrower part 12 of the shutter element and the wider part 13 of the shutter elementfor example marked in FIG. 5b, which is moved in the through opening 14 light made in the pusher. The through opening 14 made transversely in the pusher is larger than the wider part 13 of the shutter element 11. Model positions A and B shown in the figures show two possible pre-sets of the shutter element 11. Model position (setting) Awhen the narrower part 12 of the shutter element is introduced into the through opening 14 light of the pusher 6; model position B (setting)when the wider part 13 of the shutter element is introduced into the through opening 14 light of the pusher 6.

[0049] The narrower part 12 and the wider part 13 of the shutter element 11 have a shape adapted to the through opening 14 made in the pusher 6, so that by placing a given part in the through opening 14 light it partially covers the light to varying degrees depending on which part of the element is in the opening 14 light. Entering a given part causes a restriction in the movement of the pusher through the handle and thus changes the output spacing of the jaws 3 by a given output angle, e.g. 10a and 10b. Due to such a construction, partially limited longitudinal movement of the pusher 6 is obtained, resulting in the output angle 10 to change and the first output angle 10a is obtained (model position A), and after passing the wider part 13 of the shutter element 11 and its location in the through opening 14 light of the pusher 6 a significantly limited longitudinal movement of pusher 6 is obtained, resulting in the second output angle 10b (model position B). In one embodiment, this is illustrated in FIGS. 3a-d and 4a-d.

[0050] The output angle 10 is adapted to two different sizes of the clips 2. For specific embodiment of the invention, these are the so-called L and XL clips from among those available on the market. In other embodiment of the adjustment mechanism 9, there may be several variations in the output angle 10more different positions of the jaws 3 output openingseveral possible output angles 10 between the jaws 3 that are matched to different surgical clips.

[0051] Preferably, the jaws 3 output opening is changed to other output positions by depressing the pulling handle 34, which releases spring tension, and simultaneously moves the adjustment mechanism 9. Changing the jaws 3 output opening can also be done without pressing the pulling handle 34, but this is difficult.

[0052] If the adjustment mechanism 9 is in the position for the second output angle 10b, then preferably the return to the first output angle 10a is realized by pressing the pulling handle 34 and sliding out/unscrewing from the through opening 14 of the shutter element 11 so that (again) its narrower part 12 covers the through opening 14 light. This position can also be changed without pressing the pulling handle 34, but this is difficult.

[0053] Pushing out the adjustment mechanism 9 will reverse the pusher 6. The pusher can be made in several partsinner handle pusher, inner stem pusherthe first pusher 26 and the second pusher 27, shown in FIG. 2b, as described in detail in Example 5.

[0054] As shown in FIG. 5c, in an embodiment, the through opening 14 is oval in longitudinal cross-section, where the oval is characterised by a shorter diameter 15 and a longer diameter 16, where the longer diameter 16 of the oval is directed along the axis of the pusher 6 and the shorter diameter 15 of the oval is perpendicular to the pusher 6 axis and then longer diameter 16 of the oval is longer than the widest part of the shutter element 11.

[0055] The through opening 14 may have a shape other than that described above. For example, it may be similar to a rectangle.

[0056] FIG. 13a shows a perspective view of a clip 2 and FIG. 13b shows a clip 2 located in the jaws 3 of the clipping machine 1. The clip 2 attached in such a way, with defined jaws 3 output opening, as a result of their clamping operational movement indirectly triggered by movement of the handle 7, is clamped on tissue structure.

EXAMPLE 2

[0057] The clipping machine in the first embodiment is constructed as described in examples 1 and 2a-c, as shown in detail in FIGS. 3a-d and 4a-d for the position of the jaws output opening, A and B respectively, and in FIG. 5a. In this embodiment, the movable shutter element 11 is a shaped profile comprising two parts of different width in longitudinal cross-section. As shown in FIG. 5a, these parts have a shape of the first cylinder 17a extending on one side into the cone 17b with a diameter increasing in relation to the diameter of the second cylinder 17c and then extending into the second cylinder 17c.

[0058] Both parts of the shutter element 11, which are positioned in the through opening 14 light, end with bases wider than width of each part of the cylinder and/or coneupper 36 and lower 37 base. These bases are the stop for movement of the shutter element 11 in the through opening 14. The shutter element 11 is partly guided in the first sleeve 18 made in the housing 5 of the stem 4. A threaded connection is formed on the side surface 19 of the second cylinder 17c extending through the first sleeve 18 and on the inner surface 20 of the first sleeve 18. Due to this, the shutter element 11 is gradually screwed into the through opening 14, so that the shutter element 11 is screwed into the first sleeve 18 passing through the through opening 14 made in the pusher 6. Further gradual screwing causes the second cylinder 17c to be screwed into the first sleeve 18 passing through the through opening 14 made in the pusher 6. Depending on, which part of the shutter element covers the through opening 14 light, after passing through the through opening 14 light of the first cylinder 17a, a partially limited longitudinal movement of the pusher 6 is obtained, resulting in the first output angle 10a-FIG. 3a-d, and after screwing the second cylinder 17c in the first sleeve 18 and its passage through the through opening 14 light results a significantly limited longitudinal movement of the pusher 6 is obtained, resulting in the second output angle 10b-FIGS. 4a-4d. After passing through the through opening 14 of the cone 17b part, the output angle 10 having a value between the first and second output angles 10a and 10b is obtained. Movement of the handle 7, therefore, and the movement of the pusher 6 operate within the range defined by the limit of movability determined by covering a given part of the shutter element 11 within through opening 14 light.

[0059] For this embodiment of the invention, operation of the adjustment mechanism 9 is illustrated in detail in FIG. 3a-d and FIG. 4a-d. FIG. 3a, the jaws 3 output opening at the first output angle 10a and FIG. 3b shows approximately the adjustment mechanism 9 in the pre-set imparting the jaws 3 output opening (position A) at the first output angle 10a. In FIG. 3b the shutter element 11 is shown whengenerally narrower part 12, and more specifically for this embodimentthe first cylinder 17a, as in FIG. 3c, covers the pusher 6 through opening 14. FIG. 3d shows how the first cylinder 17a covers the through opening 14 light. Because the through opening 14 light is partly covered (slightly), the pusher 6 is initially pre-set so as to give a significant jaws 3 output opening (position A) at the first angle 10a. The location of the through element 11 for this position A in the through opening 14 is shown in cross-section by the adjustment mechanism 11 in FIG. 3c and longitudinally cross-section through the pusher in FIG. 3d.

[0060] In turn, FIG. 4a shows the jaws 3 output opening (position B) at the second output angle 10b and FIG. 4b shows approximately the adjustment mechanism 9 in a position giving the jaws 3 output opening at the second output angle 10b. In FIG. 4b the shutter element 11 is shown whengenerally the wider part 13, and more specifically for this embodimentthe cone 17b or with further screwing of the shutter element 11 (as above), the second cylinder 17c, as in FIG. 4c, covers the through opening 14 light of the pusher 6. FIG. 4d shows how the second cylinder 17c limits the through opening 14 light. Because the through opening 14 light is significantly coveredmore than in the previous position A, due to the larger diameter of the second cylinder 17c relative to the first cylinder 17a, the pusher 6 is initially pre-set so that it gives a smaller jaws 3 output opening (position B) at the second output angle 10b. The location of the through element 11 for this position B in the through opening 14 is shown in cross-section by the adjustment mechanism in FIG. 4c and longitudinally cross-section through the pusher in FIG. 4d.

[0061] For this embodiment of the invention, it is possible to pre-set the jaws 3 output opening for a plurality of output angles 10. This is possible due to the construction of the shutter element 11, where depending on which part: the first cylinder 17a, the cone 17b, or the second cylinder 17c, covers the through opening 14 light of the pusher 6, this results in a different jaws 3 output opening resulting in different output angles 10. It should be noted that the cone 17b contains a larger number of sizes (diameters) that may, more or less, cover the through opening 14 light.

EXAMPLE 3

[0062] The clipping machine in the second embodiment is constructed as described in examples 1 and 2a-c, as shown in detail in FIGS. 3a-c and 4a-c for the position of the jaws output opening A and B and in FIG. 5b. In this embodiment, the movable shutter element 11 is in a form of the third cylinder 21a connected to the fourth cylinder 21b with a larger diameter relative to the third cylinder 21a. One part located in the through opening 14 light is ended with the base 36. The shutter element 11 is screwed into the first sleeve 18 made in the housing 5 as described in example 2. The fourth cylinder 21b is movably located in the first sleeve 18 made in the housing 5 of the stem 4 and on the side surface 19 of the fourth cylinder 21b passing through the first sleeve 18 and on the inner surface 20 of the first sleeve 18 a threaded connection is formed which allows the shutter element 11 to be gradually screwed into the through opening 14 light. During gradual screwing, a part of the fourth cylinder 21b is screwed into the first sleeve 18 passing through the through opening 14 made in the pusher 6. After passing through the through opening 14 light of the pusher 6 part of the third cylinder 21a, a partially limited longitudinal movement of the pusher 6 is obtained, resulting in the first output angle 10a, and after screwing the part of the fourth cylinder 21b and its passing through the through opening 14 light of the pusher 6, a significantly limited longitudinal movement of the pusher 6 is obtained, resulting in the second output angle 10b-shown respectively in FIGS. 3a-d and 4a-d and as discussed above.

[0063] The difference between the clipping machine according to example 2 and 3 is that, the shutter element 11 according to the second embodiment (example 3) has only two parts 12 and 13 (specifically 21a and 21b) which can more or less covers the through opening 14 light of the pusher 6, giving only two possible output angles 10: 10a and 10b. In case of the first embodiment (example 2), part of the cone 17b allows to obtain more jaws 3 output openings, i.e. output angles 10 (10a, 10b and other angles 10 between angles 10a and 10b).

EXAMPLE 4

[0064] In the third embodiment, the clipping machine is constructed as described in example 1, as shown in detail in FIGS. 6, 6a and 6b and FIGS. 7, 7a and 7b for the position of the jaws output openings A and B, respectively, and in FIGS. 8 and 8a. In this embodiment, the movable shutter element 11 shown in FIG. 8 and FIG. 8a essentially comprises the gripping part 22 mounted on the housing 5 of the clipping machine 1 and the shutter part 23 permanently connected to the gripping part 22 to obtain an L-shaped cross-section. The shutter part 23 passes through the through opening 14 light of the pusher 6. The shutter part 23 has a shape of a cam with width 24 and height 25 relative to the width of the through opening 14. The shutter part 23 is movably guided by means of the gripping part 22 in the through opening 14 of the pusher 6. Both elements are connected by means of a cylindersleeve. After passing through the through opening 14 light of the pusher 6 of the shutter part 23, the width 24 of the shutter part 23 covers the through opening 14 light, and the partially longitudinal limited movement of the pusher 6 is obtained, resulting in the first output angle 10a-FIGS. 6, 6a and 6b. After rotating the shutter element 23, using the gripping part 22 of the shutter element 11, height 25 of the shutter part 22 covers the through opening 14 light and then the significantly limited longitudinal movement of the pusher 6 is obtained, resulting in the second output angle 10bFIGS. 7, 7a and 7b.

[0065] FIGS. 6, 6a and 6b shows in detail position of the shutter element 11 in the through opening 14 light of the pusher 6. When the gripping part 22 is located along the axis of the clipping machine (pusher 6), then the cam forming shutter part 23 covers the through opening 14 light slightly over its longer diameter 16, if it was an oval, slightly blocking the movement of the pusher 6 and giving the output angle 10a as shown in FIG. 6. If the operator turns the shutter element 11, using the gripping part 22, changing its position perpendicular to the axis of the clipping machine (pusher 6)as in FIG. 7b, so that the cam forming shutter part 23 covers the through opening 14 light considerably on its longer diameter 16 if it was an oval, the cam in this arrangement significantly blocks the movement of the pusher 6as in FIG. 7a, and this pre-set evokes the second output angle 10b as shown in FIG. 7.

[0066] For such construction of the shutter element 11 as in the third embodiment, it is possible to obtain preferably two possible output angles 10: 10a and 10b.

EXAMPLE 5

[0067] The clipping machine is constructed as described in example 1-4 and is shown in FIGS. 9-12, except that the clipping machine comprises at least two movably connected pushers 6 to each other: the first pusher 26 at handle 7 height and the second pusher 27 extending into the stem 4 with the jaws 3 and directly triggering the jaws 3 to move. One end of the first pusher 26 has a spherical seat 28 and the end of the second pusher 27 connected to it has the sphere 29 matching the seat 28 allowing the movement of the second pusher 27 relative to the first pusher 26. At a height of said connection of the two pushers 6 there is the rotational mechanism 30 causing rotation of the second pusher 27 and the stem 4 relative to the first pusher 26 consisting the knob 31 to cause a rotation of the second pusher 27 and stem 4 relative to the first pusher 26, the second sleeve 32 with the knob 31, to which the stem 4 is connected. The control of the jaws output opening mechanism takes place as described abovethe rotational mechanism 30 operates independently of the jaws 3 output opening adjustment mechanism 9. Turning the knob with hand causes rotation of the second sleeve 32 permanently connected to the knob 31, rotation of the stem 4 and the second pusher 27 and the pair of jaws 3. Luer lock 39 is located in the knob 31 and can be considered as part of the rotation element, although it does not affect the rotation in any way.

[0068] This example of the invention is shown in FIG. 9, FIG. 10 and FIG. 10a, which shows the first and second embodiments (examples 2 and 3) of the invention with the additional rotational mechanism 30.

[0069] In turn, FIG. 11, FIG. 12 and FIG. 12a shows the third embodiment of the invention (example 4) with the additional rotational mechanism 30 as described above.

LIST OF REFERENCE NUMBERS

[0070] 1laparoscopic clipping machine [0071] 2clip [0072] 3jaws [0073] 4stem [0074] 5housing [0075] 6pusher [0076] 7handle [0077] 8spring [0078] 9adjustment mechanism [0079] 10output angle [0080] 10afirst output angle [0081] 10bsecond output angle [0082] 11shutter element [0083] 12narrower part of the shutter element (11) [0084] 13wider part of the shutter element (11) [0085] 14through opening [0086] 15shorter oval diameter [0087] 16longer oval diameter [0088] 17afirst cylinder [0089] 17bcone [0090] 17csecond cylinder [0091] 18first sleeve [0092] 19lateral surface of the second cylinder [0093] 20inner surface of the first sleeve (18) [0094] 21athird cylinder [0095] 21bfourth cylinder [0096] 22gripping part [0097] 23shutter part of the shutter element (11) [0098] 24width of the shutter part (22) [0099] 25height of the shutter part (22) [0100] 26first pusher [0101] 27second pusher [0102] 28seat [0103] 29sphere [0104] 30rotational mechanism [0105] 31knob [0106] 32second sleeve [0107] 33internal spring [0108] 34pulling handle [0109] 35fixed handle [0110] 36upper base [0111] 37lower base [0112] 38handle spring [0113] 39luer lock connector