RU2322200C1 - Valve for trocar (versions) - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: valve can be used for sealing trocars; it can be also used with other medical instrument and devices. According to first version, valve, made of elastic material, has hollow case with edge movable shutter, cap with instrumental opening, main lock in form of first bushing and additional lock in form of second bushing. Instrumental opening has diameter being shorter than lateral size of cavity of case. Main lock in form of first bushing is placed in cap. Hollow case is provided with flange. Additional lock is disposed in flange. First bushing is made for mounting onto second bushing. Movable shutter is made in form of at least two lobes disposed for interaction through ribs or side surfaces. Difference between lateral size of cavity and diameter of instrumental opening equals to 1/8 thickness of cap at least. According to second version of making of valve for trocars, its case has length which doesn't exceed maximal lateral external size of that case. In the second version unlike the first one, case has lateral size being equal to diameter of instrumental opening.

EFFECT: better interaction of sealing elements of trocar's valve with working parts of endoscopic instruments; higher reliability of sealing; ability of replacement of valve when using one sleeve of trocar for different instruments; higher results of operation.

7 cl, 4 dwg

Description

The valve options for the trocar relate to medical equipment, in particular to means for sealing hollow surgical instruments, but can also be used with other medical instruments and devices.

Valves for trocars, ensuring their tightness during the operation, are known.

For example, a valve for a trocar according to the patent RU 2212198 of 09/20/2003 is known, comprising a hollow body with a mechanical end flap, a cover with a tool hole having a smaller diameter compared to the cavity, and a sleeve retainer located on the cover.

A disadvantage of the known valve is its body, which is made in the form of a tube with an oblique cut at the end. The case in the form of a tube complicates the design, requires a lot of time to replace, and can only be installed on a trocar that exactly matches its size.

Closer to the variants of the present invention is the valve for a trocar described in patent RU 2212199 from 09/20/2003. This valve is made of elastic material and contains a hollow body with an end movable shutter, a cover with a tool hole with a smaller diameter compared to the transverse size of the cavity, and a latch in the form of a sleeve placed on the cover.

The disadvantage of the valve according to patent RU 2212199 should be considered the implementation of its fastening, through which it is connected to the head of the sleeve of the trocar. Since the fastening of the valve on the sleeve head is carried out by tensioning only one latch, which is part of the cover, this fastening cannot be considered reliable.

Variants of the present invention are aimed at solving the problem of creating reliable and durable valves for trocars, allowing to minimize installation time on the trocar when working with endoscopic instruments having different diameters of the working parts of endoscopic instruments.

The technical result of both the first and second variants of the invention is the improved interaction of the sealing elements of the trocar valve with the working parts of endoscopic instruments, the reliability of the seal and ease of replacement when using different tools with different sizes of working parts with one sleeve of the trocar, facilitating the surgeon’s work and, as a result getting good surgery results.

The essence of the first embodiment of the invention is expressed in the combination of essential features, in which the valve for the trocar, made of elastic material, containing a hollow body with a mechanical end shutter, a cover with a tool hole having a diameter smaller than the transverse size of the cavity, and a main retainer placed on the cover in the form of a first sleeve, differs from the closest analogue in that its hollow body is provided with a flange having an additional retainer in the form of a second sleeve, the first sleeve being filled with the possibility of installation on the second sleeve, and the movable shutter is made in the form of at least two petals placed with the possibility of interaction between the ribs or side surfaces, while the difference between the transverse size of the cavity and the diameter of the tool hole is at least 1/8 of the thickness covers.

The essence of the second embodiment of the invention is expressed in the combination of essential features, in which the valve for a trocar made of elastic material, comprising a hollow body with a mechanical end flap, a cover with a tool hole and a main retainer in the form of a first sleeve placed on the cover, differs from the closest analogue in that the housing is equipped with a flange having an additional retainer in the form of a second sleeve, and the first sleeve is made with the possibility of installation on the second sleeve, and the movable damper is made in the form, at least two petals placed with the possibility of interaction between each other with ribs or side surfaces, while the body has a length that does not exceed its maximum transverse outer dimension, and is made with a cavity whose transverse dimension is equal to the diameter of the tool hole.

The given combination of essential features is sufficient to achieve the technical result of each variant of the invention in all cases to which the requested amount of legal protection applies.

In particular cases of its implementation or use, the valve for the trocar in either one or the other embodiment may comprise a first sleeve having a first inner ring-shaped protrusion and a second sleeve having a second internal ring-shaped protrusion.

The causal relationship of the listed features of the first embodiment of the invention with its technical result is manifested in the fact that the execution of a hollow body with a flange having an additional retainer in the form of a second sleeve on which the first sleeve is mounted allows to significantly increase the pressing force of the second sleeve to the head of the trocar sleeve. An increase in the clamping force is necessary due to the fact that the tight fit of the valve cover to the instrument, necessary to maintain the tightness of the trocar, can cause the valve to break from the sleeve head when the tool is sharply removed from the trocar. In addition, the location of the first sleeve on the second allows you to use the first sleeve as a protector, eliminating the accidental contacts of the second sleeve with tools or, for example, with the hands of a surgeon, which can also lead to disruption of the valve body from the sleeve head.

The presence in the valve of a cover with a tool hole having a smaller diameter compared to the transverse dimension of the cavity and a latch in the form of a first sleeve in combination with a hollow valve body having a movable shutter ensures reliable sealing of the trocar and, thus, eliminates the loss of pneumoperitoneum due to quick and a simple transition to an endoscopic instrument with a different size of the working part.

The implementation of the movable shutter in the form of at least two petals placed with the possibility of interaction between the ribs or side surfaces allows on the one hand to ensure the tightness of the trocar, and on the other hand reduces the pressure of the shutter on the instrument. In addition, the presence of the petals makes the pressure of the valve on the tool equilateral, which allows you to manipulate it with greater accuracy. The interaction of the petals with each other by the ribs makes the indicated pressure the smallest, and the interaction of the side surfaces allows you to hold a stronger pressure of pneumoperitoneum.

The difference between the transverse size of the cavity and the diameter of the tool hole, which is at least 1/8 of the thickness of the cover, provides an increased contact area of the surface of the tool and the cover due to the bending of the edge of the hole both in the direction of movement of the tool and with its lateral or angular displacement.

The ratio of the difference between the transverse size of the cavity and the diameter of the instrument hole with the thickness of the lid was established due to the fact that a significant thickness of the lid with a small difference in the size of the hole and the cavity prevents the tool installed in the trocar, because in this case, there is not enough space in the housing to accommodate the deformed edge of the tool hole.

The ratio of valve element sizes was obtained as a result of studies of housings and covers, which were made of medicine-approved elastic materials with different characteristics. These studies have shown the sufficiency of the ratio found not only to conclude that it is possible to achieve the technical result of the invention in the particular case, which is illustrated by the following example, but also in other cases of the invention. For example, it was found that with a cover thickness of 2 mm, normal manipulation of the tool became possible only with a difference between the transverse dimension of the body cavity and the diameter of the tool hole of 1.6 mm.

The causal relationship of the above features of the second embodiment of the invention with its technical result is manifested in the same as the connection with the technical result of the same features of the first option.

A feature of the second variant of the valve for the trocar is the execution of its body with a length that does not exceed the maximum external transverse dimension of this body, and with a cavity having a transverse size equal to the diameter of the instrumental hole. These ratios of the length, maximum external size of the body and the transverse dimensions of the hole and cavity are necessary conditions for the convenient operation of the surgeon, as the sealing of the trocar, achieved by fitting not only the lid to the surface of the instrument, but also of the body, makes it difficult to move this instrument during the operation.

The significance of these relations is confirmed by an example in which the force acceptable to work to move the tool along the axis of a trocar having a working part of 10 mm was obtained with a transverse size (diameter) of the body cavity of 15 mm, a length of the body cavity of 6.4 mm and the diameter of the tool hole 9.7 mm.

The invention is illustrated by drawings, where Fig. 1 shows a longitudinal section of a first embodiment of a valve mounted on the head of a trocar sleeve, Fig. 2 is a view A of the same valve having a movable shutter of two petals, Fig. 3 is a view A of the same a valve having a movable flap of three petals, and in Fig.4 is a longitudinal section of a second variant of the valve mounted on the head of the sleeve of the trocar.

In the first embodiment, the valve for the trocar contains a hollow body 1 with an end-face movable flap 2 and a cover 3 with a tool hole 4. The movable shutter 2 is made in the form of at least two petals arranged to interact with each other by ribs or side surfaces, and the tool hole 4 has a reduced diameter compared to the transverse dimension of the cavity of the housing 1. The difference between the transverse dimension of the cavity of the housing 1 and the diameter of the tool hole 4 is at least 1/8 of the thickness rods 3, on which the main retainer is located in the form of a first sleeve 5. An additional retainer in the form of a second sleeve 6 is located on the flange 7 of the hollow body 1. The first sleeve 5 is made with the possibility of installation on the second sleeve 6. All valve elements for the trocar are made of elastic material .

In the second embodiment, the valve for the trocar has a hollow body 1 with a length that does not exceed the maximum transverse outer dimension of the body 1, and with a cavity having a transverse dimension equal to the diameter of the tool hole 4.

In particular cases, the valve for the trocar may include a first sleeve 5 with a first inner annular protrusion 8 and a second sleeve 6 having a second inner annular protrusion 9.

In preparation for surgery, the valve is connected to the trocar. For this, the hollow body 1 with the end-face movable shutter 2 is placed in the head 10 of the sleeve of the trocar, orienting the movable shutter 2 to the lumen of its sleeve 11. The sleeve 11 may have a smooth outer surface or a surface with single or multi-thread screw 12 for setting the trocar in the working position . The head 10 may include an axial or lateral fitting 13 for connecting the trocar with the necessary equipment for the operation.

Flange 7 allows you to place an additional retainer, made in the form of a second sleeve 6, coaxially to the head 10 and due to the elasticity of the material put the sleeve 6 on the head 10, securing the hollow body 1. Then install the cover 3, for which the main retainer is put on the second sleeve 6, made in the form of a first sleeve 5. The first sleeve 5 presses the second sleeve 6 against the surface of the head and increases the reliability of the connection. If the first inner ring-shaped protrusion 8 is present on the first sleeve 5 and the second internal annular protrusion 9 is present on the second sleeve 6, the connection becomes even more reliable since the displacement of the hollow body 1 and the cover 3 in the axial direction is excluded.

During the operation, a stylet (not shown) is placed in the lumen of the sleeve 11 and, rotating the sleeve 11 clockwise or counterclockwise (depending on the direction of the screw thread 12), the trocar is installed in the patient’s abdominal wall.

Installing the sleeve 11 by rotation allows you to easily connect the axial or side fitting 13 with the necessary operating equipment, as well as facilitate the entry of a working endoscopic instrument into the operating cavity.

When an endoscopic instrument is inserted into the operating cavity through a trocar with the first valve variant, the instrument passes through the instrument hole 4 of the cover 3 and through the cavity of the housing 1, pushing the petals of the movable shutter 2, which are arranged to interact with each other by ribs or side surfaces.

The tool hole 4 tightly covers the tool and, due to the difference between the transverse size of the cavity of the housing 1 and the diameter of the tool hole 4, immediately ensures the tightness of the connection. Reliability of the tightness of the connection is guaranteed by the fact that the difference between the transverse dimension of the cavity of the housing 1 and the diameter of the tool hole 4, which is at least 1/8 of the thickness of the cover 3, provides an increased contact area of the surface of the tool and cover 3 due to the bending of the edge of the hole 4 in the direction of movement of the tool.

Subsequently, due to the bending of the edge of the tool hole 4, lateral displacement of the tool becomes possible without violating the tightness of the connection with the cover 3.

When an endoscopic instrument is inserted into the operating cavity through a trocar with the second valve variant, the instrument also passes through the instrument hole 4 of the cover 3 and through the cavity of the housing 1, spreading the petals of the movable shutter 2, which are arranged to interact with each other by ribs or side surfaces.

Since the housing 1 is made with a cavity whose transverse dimension is equal to the diameter of the tool hole 4, the tool tightly covers not only the tool hole 4, but also the walls of the cavity of the housing 1. The tight connection provided by the edges of the tool hole 4 of the cover 3 and the housing 1 has high reliability and, in addition, increases the stability of the installation position of the tool in the sleeve 11 of the trocar. At the same time, such a connection requires considerable effort from the surgeon to advance the instrument and to change its position during the operation. Therefore, to limit the force of compression of the tool, the length of the housing 1 does not exceed its maximum external transverse dimension. However, with the specified ratio of the length and transverse size of the housing 1, its outer surface has a sufficient support area on the inner surface of the head 10.

Removing the instrument from the trocar during surgical operations does not lead to the loss of pneumoperitoneum, since the petals of the movable shutter 2 immediately exit after the instrument leaves the sleeve 11, while the instrument still continues to contact the curved edges of the tool hole 4 of the cover 3 in the first embodiment of the valve or in the second embodiment, to contact with the edges of the tool hole 4 of the cover 3 and with the surface of the cavity of the housing 1.

Claims (6)

1. Valve for a trocar made of elastic material, comprising a hollow body with a mechanical end flap, a cover with a tool hole having a diameter smaller than the transverse dimension of the body cavity, and a main retainer in the form of a first sleeve placed on the cover, characterized in that it has an additional lock in the form of a second sleeve, the hollow body is equipped with a flange, and on the last there is an additional lock, the first sleeve made with the possibility of installation on the second sleeve, and the movable shutter is made in the form of There are at least two petals placed with the possibility of interaction between each other with ribs or side surfaces, and the difference between the transverse cavity size and the diameter of the tool hole is at least 1/8 of the cover thickness. 2. The valve according to claim 1, characterized in that the first sleeve has a first inner annular protrusion. 3. The valve according to claim 1 or 2, characterized in that the second sleeve has a second inner annular protrusion. 4. A valve for a trocar made of elastic material, comprising a hollow body with a mechanical end flap, a cover with a tool hole and a main retainer in the form of a first sleeve located on the cover, characterized in that it has an additional retainer in the form of a second sleeve, the hollow body is equipped with a flange , and on the latter there is an additional clamp, the first sleeve made with the possibility of installation on the second sleeve, and the movable shutter is made in the form of at least two petals placed with the possibility of interaction between the ribs or lateral surfaces, while the housing has a length not exceeding its maximum transverse outer dimension, and the cavity of the housing has a transverse dimension equal to the diameter of the tool hole. 5. The valve according to claim 4, characterized in that the first sleeve has a first inner annular protrusion. 6. The valve according to claim 4 or 5, characterized in that the second sleeve has a second inner annular protrusion.

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