FR2928534A1 - Tick e.g. large size parasite mite, extracting device for e.g. dog ear, has openings provided with prehensible part for extracting trapped parasite by movements of traction, lever and revolution around axis through anchor point of rostrum - Google Patents

Abstract

The device has different shaped and/or different sized trapping openings (2a-2c) provided on a surface of a spherical shaped trapping chamber (1) i.e. open toroidal chamber, where the opening (2a) is in a form of a water drop and the openings (2b, 2c) are in the form of water drop with three notches. Each opening is provided with a prehensible part e.g. large handle (3) such as hammer handle, for extracting a trapped parasite by combined or uncombined movements of a traction, a lever and a revolution around an axis passing through an anchor point of a parasitic rostrum.

Description

The present invention relates to a device for extracting ticks fixed in the skin of its host, animal or human. The tick is a parasitic mite of large size (about 0.5 to 1 cm) which, like a nail in a board, is fixed by its mouthparts (or rostrum) in the skin of its host, in order to perform a long meal of blood. In addition to skin lesion following tick bite, diseases can be transmitted to the host (eg, Lime Disease). Ticks are usually removed from the skin using forceps or tick hooks. The correct extraction requires that the parasite be removed whole with its rostrum. If the rostrum remains anchored, then the rest of the tick's body is torn off, a local skin infection may occur. Some devices do not guarantee the complete extraction of the parasite. The size of some hooks limits their use to certain tick sizes. Handling some other small devices is not easy: besides being able to escape from the hands of the manipulator, the extraction of the parasite may require several attempts. Some devices finally require support, which makes them inconvenient when the tick is attached to soft areas (such as the ear of a dog) or wrinkled. The device of the invention overcomes the majority of these problems. It comprises in fact according to a first characteristic a trapping chamber, the size of which allows the removal of large as small ticks. The trapping chamber has, according to a second non-limiting characteristic, one or more orifices of different sizes and / or shapes, allowing the trapping of ticks of different sizes.

According to a third nonlimiting characteristic, the trapping chamber has a gripping portion that can have an orifice large enough to allow the passage of at least one finger, ensuring the proper grip -2- 1 of the device and facilitating the traction movements and / or lever and / or revolution around the axis passing through the rostrum parasite, to extract the tick. According to particular embodiments: - The trapping chamber may be partially or generally spherical shape, or ring, so that its handling in any direction whatsoever can cause no skin lesions. The trapping chamber may have 2 or 3 trapping apertures (non-limiting number, greater than or equal to 1) intended to trap ticks of different sizes and at different angles, thus allowing their removal from most body areas. - The grippable part may be a handle, which may have a large opening, allowing the easy passage of a finger. However, according to a first variant, a simple handle (such as that of a hammer) can be adapted to the manipulation of the system. In a second variant, when the trapping chamber is an open torus, the central hole can be used for gripping the device, thus dispensing with the presence of a handle. - The trapping holes can have, as you choose, two types of shape: the first type of form (type 1 orifice) can recall that of a drop of water, the constricted part (or notch) will receive the rostrum of the tick, once the body of it entered by the ovoid or round part. The second type of shape (type 2 orifice) is similar to the previous one, but it does not include a constricted part but several. By way of non-limiting example, three indentations may be present; the two additional indentations being at + 90 ° and -90 ° angle with respect to the indentation of type 1. The accompanying drawings illustrate the invention: - Figure 1 shows the device of the invention of face. - Figure 2 shows the device of the invention in right side view. - Figure 3 shows the device of the invention in -3- 1 left side view. - Figure 4 shows the device of the invention back. - Figure 5 shows, in profile, the trapping by one of the trapping holes of a tick (4) planted by its rostrum in the skin (5). - Figure 6 shows in profile the traction movements (6), lever (7) and revolution (8) for the extraction of a tick by the device of the invention. 10 (the trapping chamber is shown in section) - Figures 7 to 11 show a variant of the device, where the trapping chamber is an open torus. FIG. 7 is a side view, FIG. 8 is a front view, FIG. 9 is a sectional view, and FIGS. 10 and 11 represent in profile the traction (6), lever (7) and revolution (FIG. 8) allowing the extraction of a tick by the device of the invention-Figures 12 to 14 show a variant of the device, wherein the trapping chamber is surmounted by a handle having an internal gutter shape for accommodating, in a non-limiting way, several tools and blades. With reference to these drawings, the device comprises a trapping chamber (1) of globally spherical shape, on the surface of which three orifices are present: 1 orifice (2a) in the form of a drop of water (orifice of type 1) and 2 orifices (2b & 2c) in the form of a drop of water with three indentations (orifices of type 2). By way of example, the orifice 2a is particularly well adapted, by its position, to the withdrawal of ticks by traction on cutaneous zones that do not allow support (such as the ear of a dog). In a nonlimiting manner, the orifices 2b and 2c are well adapted to extractions with support on a cutaneous zone. The handle (3) has a large opening for the introduction of a finger. Depending on the movement of the finger inserted in the handle or the gripping of the latter, the extraction of the trapped tick may result from -4- 1 combined or non-combined movements of traction (4), lever (5) and / or revolution (6). By way of non-limiting example, the trapping chamber may have a diameter of 2.5 cm and the handle a length of 6 cm for a maximum width of 3 cm. According to a first variant not shown, the handle fixed on the trapping chamber, as described above, can be a simple handle, like a conventional hammer handle.

According to a second variant illustrated in FIGS. 7 to 11, the trapping chamber may be not a sphere, but an open torus. In this case, one or more orifices of type 1 and / or 2 are present on the outer edge of the open torus. In the example of a torus with two orifices, the size of the first trapping orifice is adapted to small ticks, that of the second to large ticks. The manipulator grasps the system by inserting his index finger into the torus and placing his thumb on the outer edge of the torus. This variant does not have a handle unlike previous versions. Once the tick is introduced into a trapping orifice, it is stuck by its rostrum as for the other version of the invention: it is then extracted by traction, lever and / or rotation movements around the axis passing through the rostrum anchored in the skin. According to a third variant illustrated in FIGS. 12 to 14, the trapping chamber has a rounded shape, which can be partially spherical, and the gripping part is a wide handle (3) whose internal shape is in a gutter, making it possible to receive, like a multi-blade knife handle, one or more tools and / or blades. The tools and / or blades folding in the handle (3) by rotation on an axis (9) may consist, without limitation, in at least one chip comb (10), and / or a knife blade and / or a pair of scissor blades, and / or tweezers and / or a spoon, and / or a thin, round-tipped spatula (11). An optional outer relief (12) can make the grip more ergonomic. In this latter variant, the manipulator thus has a combination of the main tools allowing it to remove from the skin the major external parasites (non-limiting list including ticks, fleas, chiggers) as well as simple foreign objects ( non-exhaustive list including spines, splinters, grass spikelets stuck in the auditory canal of a domestic carnivore).

The device according to the invention is particularly intended to remove ticks fixed in the skin of an animal or human host.

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Claims (10)

1 1) Device for extracting the ticks fixed in the skin of an animal or human host characterized in that it comprises a trapping chamber (1), having on its surface one or more orifices (2a, 2b, 2c), each intended to make a tick penetrate the chamber and seize by its rostrum, and provided with a gripping portion (3) for extracting the parasite trapped by combined or non-traction movements (6), lever (7) and revolution (8) around the axis passing through the anchor point of the rostrum. 2) Device according to claim 1 characterized in that the trapping chamber has a spherical shape and the gripping portion is a handle (3). 3) Device according to claim 1 characterized in that the trapping chamber is an open torus, the gripping portion is constituted by the orifice of the torus. It is then the opening of the torus that allows the passage of the index to, with the thumb applied to the outer edge of the torus, hold and manipulate the device. 4) Device according to claim 1 characterized in that the trapping chamber has a rounded shape, preferably spherical, and the gripping part is a wide handle (3) whose inner form in a gutter, can accommodate, such a handle multi-blade knife, one or more tools and / or blades. 5) Device according to claim 4, characterized in that the tools and / or blades folding in the handle (3) are selected from: a comb with chips (10), a knife blade, a pair of scissor blades, a tweezers, a spoon, or a thin spatula with rounded and hollow ends (9). 6) Device according to one of the preceding claims characterized in that the trapping chamber has 2 or 3 orifices of different sizes and / or shapes.-7- 1 7) Device according to one of the preceding claims characterized in that at least one of the orifices has the shape (2a) of a drop of water, the constricted portion, or indentation, is intended to grip the rostrum of the trapped tick, or the form (2b, 2c) of a drop of water, but which has several constricted parts, or indentations. 8) Device according to claim 7 characterized in that at least one of the orifices (2b, 2c) has the shape of a drop of water, but having three narrowed portions, or indentations, instead of one, each intended to grip the rostrum of the tick trapped, the 3 indentations being arranged at -90 °, 0 ° and + 90 ° angle. 9) Device according to one of claims 7 or 8 characterized in that the trapping chamber has an orifice at a notch (2a) and two openings with three notches (2b, 2c) 10) Device according to any one of claims 1 to 2 and 4 to 9 characterized in that the handle has at least one large orifice, allowing the passage of a finger to hold and manipulate the device, particularly in the case of a spherical trapping chamber. 30 35