EXTRACTION ARM WITH FILTER

Abstract

An extraction arm for an extraction device includes a suction pipe and a suction head and defines a suction path that extends from an extraction region in the surroundings of the suction head through the suction pipe to the extraction device. The extraction arm includes an exchangeable filter which is arranged within the suction path. The filter is located in a filter housing which has a main body and a closable cover. The filter is exchangeable, which makes it very easy to prepare the extraction arm for a new application. Since the filter is arranged in front of the suction pipe, the suction pipe remains clean. The filter can easily be changed, whereby disinfection or cleaning of the suction pipe is not necessary.

Claims

1. An extraction arm for an extraction device having a suction pipe and a suction head, wherein the extraction arm defines a suction path that extends from an extraction region in the surroundings of the suction head through the suction pipe to the extraction device, wherein the extraction arm comprises an exchangeable filter which is arranged within the suction path.

2. The extraction arm according to claim 1, wherein the filter is accommodated in a filter housing and the filter housing is designed to connect the filter and the suction pipe in an airtight manner.

3. The extraction arm according to claim 2, wherein the filter housing has a main body which is connected to the suction pipe and a removable cover for closing the filter housing.

4. The extraction arm according to claim 3, wherein the main body has a connecting piece for connection to the suction pipe.

5. The extraction arm according to claim 2, wherein the filter housing has a holding means for holding the cover in a closed position.

6. The extraction arm according to claim 3, wherein the cover has an air inlet, in order to guide the extracted air into the interior of the filter housing.

7. The extraction arm according to claim 3, wherein the cover of the filter housing is accessible from the extraction region in order to replace the filter without using tools.

8. The extraction arm according to claim 7, wherein the suction head comprises an extraction hood, in the center of which the filter housing is located.

9. The extraction arm according to claim 8, wherein the extraction hood is connected to the main body.

10. The extraction arm according to claim 3, wherein the cover of the filter housing is releasably attached to the main body by a latching means.

11. The extraction arm according to claim 10, wherein the latching means comprises a spring element on the cover, which spring element extends through a recess in the extraction hood in order to latch with the main body.

12. A method comprising applying the extraction arm according to claim 1 with a medical extraction device.

Description

[0023] An embodiment of the invention is described and explained in more detail below in connection with the accompanying drawings, in which:

[0024] FIG. 1 is a schematic view of an extraction arm;

[0025] FIG. 2 is a simplified perspective view of an extraction device with the extraction arm;

[0026] FIG. 3 shows only the suction head of the extraction arm of FIG. 2;

[0027] FIG. 4 shows only the extraction hood of the suction head of FIG. 3;

[0028] FIG. 5 shows only the filter housing of the suction head of FIG. 3, in the closed state; and

[0029] FIG. 6 shows the opened filter housing with the filter, in an exploded view.

[0030] FIG. 1 schematically shows an extraction arm 10 with a suction head 12 which is arranged on a suction pipe 14. The suction head 12 is arranged at the open end of the suction pipe 14.

[0031] The suction head 12 has a filter housing with a main body 16 and a cover 18. The cover 18 is arranged on the main body 16 by means of holding means 20. In addition, the cover 18 has an air inlet 22 in order to guide extracted air into the interior of the filter housing.

[0032] A filter 24 is located inside the filter housing. The filter housing and in particular the main body 16 are designed to connect the filter 24 to the suction pipe 14 in an airtight manner, so that air filtered through the filter 24 reaches the interior of the suction pipe 14. The extracted air flows through the air inlet 22 into the interior of the filter housing. The air inlet 22 can advantageously guide the air flow to the filter 24.

[0033] FIG. 2 shows an extraction device 26 with an extraction arm 10.

[0034] The extraction arm 10 has a suction head 12 which is connected to the extraction device 26 by means of the suction pipe 14. The suction head 12 has a collecting device in the form of an extraction hood. The filter housing is arranged in the center of the collecting device. The extraction device 26 with the extraction arm 10 can be used, for example, when treating a patient in order to reliably extract dirt, pollutants, viruses and bacteria. The suction head 12 can ensure that the suction pipe 14 remains substantially clean and germ-free. The filter 24, which is arranged in the center of the suction head 12, can easily be changed after the treatment.

[0035] FIG. 3 shows the suction head 12 in more detail. In the example shown, the holding means 20 comprises a pin 28, which is arranged on the main body 16, and a latching means in the form of a spring element 30, which is designed to be resilient away from the main body 16 and forms a type of tab that can wrap around the pin 28. The pin 28 is consequently received in the tab, the spring element 30 latching in place due to the spring action and thus fixing the cover 18 on the main body 16. Advantageously, the spring element 30 is slightly inclined at the end facing away from the cover 18, so that when the cover 18 is pushed onto the main body 16, the spring element 30 is pressed outwardly by the pin 28 due to the inclination counter to the spring action and, when the cover 18 is pushed in further, springs back in the direction of the main body 16 as soon as the pin 28 reaches a recess in the spring element 30. The spring element 30 holds the cover 18 in a closed position.

[0036] The main body 16 has a connecting piece 32 for attachment to the suction pipe 14 (see FIG. 1). Here, the connecting piece 32 is designed as a round flange, so that the main body 16 can be slipped onto the suction pipe 14. It goes without saying that the connecting piece 32 can have a seal and/or an adhesive layer in order to achieve a firm and tight connection with the suction pipe 14.

[0037] The suction head 12 further comprises an extraction hood 34. The extraction hood 34 can be attached to the filter housing, for example by screwing, gluing, snapping into place and/or screwing on. The extraction region of the suction head 12 is modified by means of the extraction hood 34. A first extraction region 36 and a second extraction region 38 are shown by way of example in FIG. 3. The extraction regions 36, 38 can be defined, for example, in such a way that 99.9% of a pollutant is extracted in the first extraction region 36, whereas only 95% of the pollutant is extracted in the second extraction region 38.

[0038] It goes without saying that the extraction region depends, among other things, on an alignment of the suction head 12, the design of the collecting device, such as the extraction hood 34, and the pollutant to be extracted. In particular, an extraction region can include both an extraction surface and an extraction volume. The collecting device can alternatively also be designed as a suction nozzle.

[0039] FIG. 4 shows the extraction hood 34 in detail. The extraction hood 34 has a connecting portion which is designed in the form of two connecting parts 40 which extend in the direction of the suction pipe. On the side facing the filter housing, the connecting part 40 preferably has a shape corresponding to the outside of the filter housing. The connecting portion 40 has two bores in order to screw the extraction hood 34 onto the filter housing. It goes without saying that the connecting part 40 can also be designed to be resilient, the connecting part 40 being able to recede outwards and to be fastened to the filter housing in a latching manner with corresponding pins.

[0040] The extraction hood 34 also has recesses 42. The recesses 42 are designed in such a way that the spring element 30 of the cover 18 can be passed through the recesses 42 and can be held by the pin 28 on the rear side of the extraction hood 34, as shown in FIG. 3.

[0041] In FIG. 5, the filter housing can be seen without the extraction hood 34. Like reference signs relate to like features and will not be explained again. The mode of operation of the latching means in the form of a spring element 30 can be explained in more detail with reference to FIG. 5. The spring element 30 comprises an arm or a tab which has a recess, the pin 28 being able to engage in the recess of the spring element 30. In this way, the cover 18 can be releasably but firmly attached to the main body 16. The spring element 30 can be resilient in the outward direction. For example, this can be achieved by weakening the material in the connection between the spring element 30 and the cover 18. It goes without saying that a metal connection or a spring can also be provided in order to enable the spring element 30 to recede in a resilient manner. As already described above, the spring element 30 has a curvature at the end facing the suction pipe, so that when the cover 18 is pushed on, the spring element 30 is pressed outward due to the interaction of the curvature of the spring element 30 with the pin 28. When the cover 18 is pushed in further in the direction of the suction pipe, the spring element 30 snaps inwards due to the spring action when the pin 28 penetrates the recess in the latching means 30. As a result, the cover 18 can be arranged on the main body 16 by simply being slid on from the front, i.e. from the extraction region. By bending the spring element 30 against the spring action, i.e. pulling it outward, the locking connection can be released and the cover 18 removed from the main body 16. When the extraction hood 34 is in place, the spring element 30 can be actuated behind the extraction hood 34.

[0042] The main body 16 also has two bores which are provided for connecting the main body 16 to the extraction hood 34.

[0043] FIG. 6 is an exploded view of the filter housing according to FIG. 5. The filter 24 is cuboid. The filter 24 can be inserted into the main body 16. The main body 16 has a placement edge 44 in order to allow the filter 24 to be securely seated in a predefined position in the filter housing. The placement edge 44 can have a seal, in particular a rubber seal, in order to allow an airtight connection of the filter 24 to the main body 16. This design makes it possible to remove the filter 24 from the filter housing and to replace it with a fresh filter quickly and without using tools.

[0044] In the claims, the words “comprise” and “having” do not preclude the presence of further elements. The indefinite article “a” or “an” does not preclude the presence of a plurality. A single element or a single unit can perform the functions of several of the units mentioned in the claims.

LIST OF REFERENCE SIGNS

[0045] 10 Extraction arm [0046] 12 Suction head [0047] 14 Suction pipe [0048] 16 Main body [0049] 18 Cover [0050] 20 Holding means [0051] 22 Air inlet [0052] 24 Filter [0053] 26 Extraction device [0054] 28 Pin [0055] 30 Spring element [0056] 32 Connecting piece [0057] 34 Extraction hood [0058] 36 First extraction region [0059] 38 Second extraction region [0060] 40 Connecting part [0061] 42 Recess [0062] 44 Placement edge