NL1013400C2 - Instrument for extracting insect stings and contaminated blood from skin, has vacuum chamber which has piston operated by pulling on ring - Google Patents

Abstract

The user removes the cap (14) from the instrument (1) and places the flexible mouthpiece (7) over the sting. He pulls the ring (4) to retract the piston (3). The vacuum in the cylinder (2) deforms the outer mouthpiece (7) causing suction which removes stings and contaminated blood from sting or bite sites.

Description

METHOD AND APPLICATOR FOR EXTRACTING AN INSECT BITE

The present invention relates to a method for sucking out an insect bite, wherein liquids which are foreign to the body are often sucked away with vacuum generated by an applicator at the bite site.

The present invention also relates to an applicator for extracting an insect bite, comprising a vacuum chamber and an elastic nozzle coupled to the vacuum chamber, which is placed on the bite site.

Such a method and applicator are known from US-A-2 15 539 846. Therein, with vacuum, ie an underpressure, an insect bite or sting is sucked out by an applicator which has a vacuum chamber, in which the vacuum is generated under the influence of a spring which longitudinally mounted in a piston movable in the vacuum chamber. While holding an elastic nozzle coupled to the vacuum chamber at the bite location, the spring is released and moves back, thereby creating the necessary vacuum in the vacuum chamber at that time. Such a method and applicator are not simple, because the longitudinally extending spring takes up a considerable amount of space, weight and assembly operations required with respect to the applicator, and moreover simultaneously holding the spring in position at the bite site must be released.

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A similar applicator device is known from EP-A-0 166 010, but it is also provided with a longitudinal spring.

UK-A-2 008 200 and UK 2 066 376 both disclose a similar device not provided with such a spring. These known devices are each provided with a hollow piston which is movable in the vacuum chamber. The vacuum is generated by depressing the plunger, while simultaneously holding a mouthpiece of the applicator at the bite site 101 34 00 - 2 -. At the end of the piston movement, an opening in the hollow piston is released and a connection is established between the nozzle and the vacuum.

Here too, however, several operations must be performed simultaneously.

WO 86/04819 discloses a method and a separate component suction device, whereby a vacuum is generated in a vacuum chamber of the suction device and is maintained with a valve. Thereafter coupling takes place with a separate nozzle already held at the bite site. Although the generation of the vacuum does not coincide with the actual use of the suction device, it is necessary to combine operations with the two parts, i.e. holding the nozzle at the respective bite point and simultaneously coupling it to the vacuum chamber, in problematic in practice. This applies to a greater extent in the event of a possible panic situation after a painful sting, and certainly if the actions to be combined are performed by only one person, in a possibly hard to reach place on the body.

It is therefore an object of the present invention to provide an improved method and applicator, wherein the simultaneous carrying out of several operations in sucking out insect bites is avoided, and the applicator is nevertheless simple and can be ordered in large numbers at a relatively low cost price. manufacture.

For this purpose, the method according to the invention is characterized in that the applicator is placed on the bite site after the vacuum has been generated therewith.

Accordingly, the applicator according to the invention is characterized in that the vacuum chamber is provided with a spout, and that the nozzle is mounted on the spout and releases vacuum from the vacuum chamber, if the nozzle placed on the bite site deforms elastically.

101 34 0 0 - 3 -

The advantage of the method and applicator according to the present invention is that the applicator, which is simply built up as a whole and can therefore be manufactured at a low cost, is brought directly to the bite site after the vacuum has been generated therein. As a result of pressing the applicator on the site of the insect bite, the elastic mouthpiece deforms, so that not only a vacuum-loss-free contact with the skin is ensured, but also - and without the need for further operations - the earlier in the vacuum chamber generated vacuum is automatically applied to the bite site.

According to the invention, an embodiment of the applicator is characterized in that the nozzle of the spout 15 is made detachable.

The detachability has the advantage that in case of possible contamination of the nozzle, the vacuum chamber or the spout, cleaning is easily possible, after which the same nozzle can possibly be placed back, for the purpose of reuse of the applicator. In addition, replacement is possible if the mouthpiece is damaged.

According to the invention, a further embodiment of the applicator is characterized in that the mouthpiece is provided with a normally closed opening and with a peripheral edge to be pressed to bite the bite site, and the mouthpiece is formed such that during the application of a pressure force on the circumferential edge opening opens.

This embodiment is based on the fact that the pressure force 30 exerted on the bite site can also be effectively utilized, in order to open the normally closed opening, to make the desired vacuum available on site. Further special embodiments of the applicator according to the invention are defined in the remaining dependent claims.

The present invention, together with the further 101 34 0 0 - 4 - related advantages, will now be further elucidated with reference to the following drawing, in which corresponding parts are provided with the same reference numerals in different figures. In the drawing: Fig. 1 is a sectional view of a preferred embodiment of the applicator according to the invention;

Fig. 2 is a section along line A-A of the applicator of FIG. 1; and

Fig. 3 is a front view of a mouthpiece for use in the applicator of FIG. 1.

Figures 1 and 2 show respective longitudinal sections of an applicator 1 which can be used to suck out the stinging or bite site of an insect, such as, for example, a mosquito, fly, wasp, bee, mite, spider, scorpion or the like . Usually, foreign substances, in particular liquids, such as poison injected by the insect, as well as blood and wound fluid, are sucked away with any sting left behind by means of a vacuum or vacuum which is generated in the applicator 1 and applied to the bite site. . The dimensions of the applicator 1 are preferably such that the applicator can be taken along by a traveler, such as a tropical traveler, or walker, and for instance be inserted with him as a pen. The applicator 1 is provided with a vacuum chamber 2, in which a piston 3 is movable. When the piston 3 is pulled out, for instance with the aid of a ring 4 arranged at one end, the vacuum to be further explained is created in the vacuum chamber 2. When the applicator 1 has a shown oval cross-section, a substantial volume of air can be evacuated from the vacuum chamber 2, resulting in a relatively deep vacuum of about 0.1 bar. The oval applicator 1 protrudes less in a breast pocket than if a circular cross-section were chosen. The other end of the piston 3 moving in the vacuum chamber 2 is provided with a sealing ring 5. The vacuum chamber 2 is provided with a nozzle 6 and a 1013400-5 elastic nozzle 7, preferably detachably, is arranged on the nozzle.

The elastic mouthpiece 7 is shown in detail in front view in oval section in Fig. 3.

The nozzle 7 in this case extends via two side surfaces 8 into a top in which an opening 9 in the form of a cut is provided. The two side surfaces 8 are elastically movable, so that when the vacuum is created in the vacuum chamber 2 in a first phase of the process, the opening automatically closes itself by external atmospheric pressure and the vacuum is maintained therein. The nozzle 7 is designed such that when it is pressed onto the bite site, the pressure force exerted thereby causes the normally closed opening 9 to open automatically, allowing the vacuum 15 to access the bite site and draw out the contaminated blood therefrom. In the illustrated embodiment of the applicator 1, the mouthpiece 7 is provided with a peripheral edge 10 and with a recess 11 in which the spout 6 is inserted. The peripheral point P, in which the spout 6 in the recess 20 abuts against the nozzle 7 acts as a tilting point, as it were, which converts the pressure force directed in the drawing to the right into an outwardly directed force acting on the side surfaces 8, which displaces the side surfaces and opening 9 opens.

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The applicator 1 is provided with locking means which are shown as simple radially outwardly springing fins 12 which are integrated here in the stem of the piston 3. When the piston 3 is pulled out to an extreme position, the longitudinal fins extend radially to rest on the outer edge 13 of the vacuum chamber, i.e. the vacuum chamber housing H, while the vacuum remains in that position in the then enlarged chamber 2 . In a second phase of the method, the applicator 1 is then pressed onto the bite site without further necessary operations, whereby the suctioning of contaminated blood already explained is achieved.

101 3400 - 6 -

In the illustrated embodiment, the applicator 1 is provided with a sealing cap 14, in which a spare nozzle 7 is stored. Furthermore, the applicator 1 is provided with a pen pin 15 which has been formed with which the applicator can be clipped as a pin 5. Apart from the elastic parts, such as the nozzles and the sealing ring, the housing H, the piston 3 and the sealing cap 14 can be produced from a sturdy plastic, for example by means of injection molding.

»101 3400

Claims (10)

1. A method for sucking out an insect bite, wherein liquids which are usually foreign to the bite site are sucked away with vacuum generated by an applicator, characterized in that the applicator is placed on the bite site after the vacuum has been generated therewith. 2. Method according to claim 1, characterized in that the vacuum generated is released on site by placing the applicator on the site of the insect bite. 3. Applicator for extracting an insect bite, comprising a vacuum chamber and an elastic nozzle coupled to the vacuum chamber, which is placed on the bite site, characterized in that the vacuum chamber is provided with a spout, and that the nozzle is mounted on the spout and releasing vacuum from the vacuum chamber if the mouthpiece placed on the bite site elastically deforms. 20 Applicator according to claim 3, characterized in that the nozzle of the spout is detachable. Applicator according to any one of claims 3 or 4, characterized in that the mouthpiece is provided with a normally closed opening and with a peripheral edge to be pressed to bite the bite site, and the mouthpiece is shaped such that during the application of the peripheral edge a pressure force opens the opening. 30 Applicator according to any one of claims 3-5, characterized in that the spout has a protruding part and the mouthpiece is provided with a recess surrounding the protruding part, in which the opening is arranged. 35 Applicator according to any one of claims 3-6, characterized in that the vacuum chamber is provided with a piston, and in that 101 3400 - 8 - the applicator is provided with locking means to keep the piston in a vacuum-drawn position. 8. Applicator according to claim 7, characterized in that the piston is provided with locking means which are provided with radially resilient fins. Applicator according to any one of claims 3-8, with reference to claim 4, characterized in that the applicator 10 is provided with a sealing cap, in which a spare nozzle can be stored. 10. Applicator according to any of the preceding claims, characterized in that the applicator has an oval cross-section. 1013400