阅读说明：本技术 用于碱石灰容器的过滤器和制造碱石灰容器的方法 (Filter for soda lime container and method for manufacturing soda lime container ) 是由 安妮特·科泽加滕 泽伦·基尔姆泽 托尔斯滕·皮特斯 克里斯托弗·利比歇尔 于 2021-06-04 设计创作，主要内容包括：本发明涉及一种用于碱石灰容器(20)的过滤器(10a；10b；10c),该过滤器具有基体(11)和至少一个固定在基体(11)的外环周面(12)处的能量导向器(13),该能量导向器用于将过滤器(10a；10b；10c)与碱石灰容器(20)的容器壁(21)焊接,其中,至少一个能量导向器(13)具有能量导入边缘(14),并且其中,能量导向器(13)的横截面朝向能量导入边缘(14)缩小,其中,基体(11)的过滤方向(15)正交于能量导入边缘(14)的延伸方向(16)地延伸。本发明还涉及一种使用根据本发明的过滤器(10a；10b；10c)制造碱石灰容器(20)的方法。(The invention relates to a filter (10 a; 10 b; 10c) for a soda lime container (20), having a base body (11) and at least one energy director (13) which is fastened to an outer circumferential surface (12) of the base body (11) and which serves for welding the filter (10 a; 10 b; 10c) to a container wall (21) of the soda lime container (20), wherein the at least one energy director (13) has an energy introduction edge (14), and wherein a cross section of the energy director (13) tapers towards the energy introduction edge (14), wherein a filter direction (15) of the base body (11) extends orthogonally to an extension direction (16) of the energy introduction edge (14). The invention also relates to a method for producing a soda-lime container (20) using a filter (10 a; 10 b; 10c) according to the invention.)

1. A filter (10 a; 10 b; 10c) for a soda lime vessel (20), having a base body (11) and at least one energy director (13) fixed at an outer circumferential surface (12) of the base body (11) for welding the filter (10 a; 10 b; 10c) to a vessel wall (21) of the soda lime vessel (20), wherein at least one energy director (13) has an energy introduction edge (14) and wherein a cross section of the energy director (13) decreases towards the energy introduction edge (14),

it is characterized in that the preparation method is characterized in that,

the filter direction (15) of the base body (11) extends orthogonally to the extension direction (16) of the energy introduction edge (14).

2. Filter (10 a; 10c) according to claim 1, wherein a plurality of mutually spaced energy directors (13) each have an energy entry edge (14), wherein the filter direction (15) extends perpendicularly with respect to each energy entry edge (14).

3. Filter (10a) according to claim 2, wherein the energy introduction edges (14) each lie on a circular track extending concentrically with the outer circumferential surface (12) of the base body (11).

4. Filter (10b) according to claim 1, wherein a single energy director (13) extends annularly around the base body (11).

5. Filter (10b) according to claim 4, wherein the annular energy director (13) has a circular energy introduction edge (14) which is designed concentrically to the outer circumferential surface (12) of the base body (11).

6. A filter (10b) according to any of the preceding claims, wherein at least one of the energy directors (13) is an integral part of the base body (11).

7. A method for manufacturing a soda lime container (20) for a respiratory protection device, the method having the steps of:

providing a tubular container wall (21),

a filter (10 a; 10 b; 10c) according to any one of the preceding claims is fixed at an inner circumferential surface (22) of the vessel wall (21) by means of an energy introduction edge (14) of at least one energy director (13), and

the filter (10 a; 10 b; 10c) is welded to the container wall (21) by means of welding via at least one of the energy directors (13).

Technical Field

The invention relates to a filter for a soda lime container, having a base body and at least one energy director fixed to the outer circumferential surface of the base body for welding the filter to the container wall of the soda lime container, wherein the at least one energy director has an energy entry edge, and wherein the cross section of the energy director tapers towards the energy entry edge. The invention also relates to a method for manufacturing such a soda lime vessel.

Background

This soda lime vessel is filled with so-called soda lime (Atemkalk). Soda lime generally has a mixture of calcium hydroxide and sodium hydroxide, with other material components, for example a mixture of potassium hydroxide and barium hydroxide, also being known. Soda lime is used to bind carbon dioxide contained in exhaled breath, for example to prevent the harmful effects of excessively high carbon dioxide content in inhaled air in cyclic breathing apparatus and pendulum breathing apparatus.

Known soda lime containers can be divided into soda lime disposable containers and reusable soda lime containers. In particular, disposable containers always have the requirement of producing soda lime containers in an easy and cost-effective manner, which also have a sufficiently high storage and transport capacity. Furthermore, for use in a cyclic breathing apparatus, the manual operability of maintenance and preparation should be as simple as possible.

Different systems and methods for manufacturing such disposable containers are known. In one of the methods, the soda lime is deposited in bulk in an open container. The filter is then placed as a lid over the soda lime to cover the soda lime in the container. As long as the filter is in the desired position, the filter is welded by means of ultrasonic welding to the housing or to the wall of the subsequent soda lime vessel. For this purpose, known filters are equipped with so-called energy directors on the outer circumferential surface of the base body. Such energy directors are designed in the form of a triangle or roof, wherein the tip or the roof edge of the energy director or the energy director respectively extends parallel to the filter direction or the longitudinal or height direction of the container. In this way, energy directors are each arranged in a point-like manner on the inner wall of the container, which energy directors are usually designed in a somewhat funnel-like manner or with a slight taper, depending on the manufacturing technology. This can result in a partially undesirable transfer of energy between the filter and the container during the ultrasonic welding process. As a result, the welding process lasts longer than desired, and/or the desired strength of the connection between the filter and the housing is not achieved. Furthermore, the known methods cannot be used for any arbitrary filter device shape. Furthermore, the contact between the filter and the housing results in low processing reliability and uneven welding points between the energy director and the housing wall.

The most common method for attaching such filters to the vessel wall is anvil welding. The filter is connected to a fixed stop of the container. A disadvantage of this solution is the invariable filling height when filling the container with soda lime. This results in no active space to compensate for process-related vibrations due to the properties of soda lime. This in turn leads to improved transport and storage capacities.

Disclosure of Invention

The object of the present invention is to at least partly solve the above problems. In particular, the object of the invention is to propose a device and a method for manufacturing a soda lime vessel that are cost-effective, simple and/or satisfactory in terms of storage capacity, transport capacity and/or manual operability of the soda lime vessel.

The above object is achieved by the claims. In particular, the above object is achieved by a filter according to claim 1 and a method according to claim 7. Further, advantages of the invention are given in the dependent claims, the description and the drawings. Thus, the features described in connection with the filter are of course also applicable in connection with the method for manufacturing a soda lime vessel according to the invention and vice versa, so that the disclosures in respect of the various inventive aspects are always and/or can be mutually referenced.

According to a first aspect of the invention there is provided a filter for a soda lime vessel. The filter has a base body and at least one energy director fixed to the outer circumferential surface of the base body for welding the filter to the wall of the soda lime vessel. At least one energy director has an energy entry edge, and the energy director has a cross-section that decreases toward the energy entry edge. The filter direction of the base body extends orthogonally to the extension direction of the energy input edge.

The systems known from the prior art for welding a filter to the vessel wall of a soda lime vessel are formed in such a way that at least one energy director or energy introduction edge extends currently orthogonally to the direction of filtration and therefore also orthogonally to the height or longitudinal direction of the vessel wall during the welding process for welding the filter to the vessel wall. In contrast to known systems in which the energy introduction edge extends parallel to the filter direction and therefore the point contact described, which is introduced during the ultrasonic welding process, is present between the filter and the container wall, line contact is currently possible. This may result in less energy and thus less time being required for an equally good welding result during the welding process. Furthermore, the welded connection can be realized with an improved connection fixing. The advantage compared to the widely used anvil welding is, in particular, that the filter can be fixedly welded at the container wall in a relatively variable height. This may enable a secure fixation of the uniform package.

The invention relates in particular to a filter for a disposable soda lime container of a circulating respiratory apparatus. That is, the proposed filter is suitable for welding containers filled with soda lime by ultrasonic welding for manufacturing useful soda lime containers. However, the filter mentioned can be used not only for disposable soda lime containers, but also for the manufacture of other bulk containers, for example containers for activated carbon filters and/or carbon dioxide filters.

The filter and in particular the base body of the filter can have different geometries. The base body is preferably designed in the form of a plate with a height that is smaller than the width and/or diameter of the base body. Furthermore, such a filter can be designed in an arched shape. That is, the filter can have an arch above the filter or at the filter input face and/or below the filter or at the filter output face. The height of the base body extends in the height direction, which can also be understood as the direction of filtration and/or the direction of flow, i.e. the working direction of the filter or the base body. The sheet shape should not be considered as being limited to a circular sheet shape. The base body of the filter can thus also be designed according to a preferred variant, for example as a square with rounded corners and/or edges. The filter direction can extend in the y-direction in a three-dimensional coordinate system, while the width direction and/or the diameter direction extends in the x-direction and/or the z-direction. In this case, the direction of extension extends in the z-direction, in the y-direction and/or on a circular trajectory towards or parallel to the x-z plane. The direction of extension of the energy introduction edge may also be out of the x-z plane, as long as the energy introduction edge extends non-parallel to the filtering direction. Furthermore, the filter direction running orthogonally to the energy input edge can be understood to mean that the filter direction edge runs orthogonally to a tangential direction along the energy input edge, which has a curved course. Furthermore, the filter direction can extend parallel to and/or directly on the axis of rotation of the base body, as long as the base body is designed, for example, as a cylindrical or substantially cylindrical body of revolution.

In particular, a soda lime container is understood to be a soda lime container for carbon dioxide for joining carbon dioxide. The energy introduction edge can be understood as a linear end of the energy director. In the case of a triangular and/or roof-shaped energy director, the energy entry edge can thus be considered as a roof-shaped ridge, which extends straight or curved in the longitudinal direction in the direction of extension or extends substantially. The energy-introducing edge does not necessarily have to be designed as a point. It may also be a rounded edge having a radius of curvature in the range of millimeters or less. In particular, the outer circumferential surface is formed on an outer wall section of the base body facing away from the base body. The normal vectors of the outer wall sections preferably each extend perpendicularly to the filter direction. The normal vectors can also each extend perpendicularly to the direction of extension of the energy-guiding edge of the energy director, which is situated partially on the outer circumferential surface at the same position as the normal vectors.

The base body is preferably designed for welding the filter to the inner circumferential surface of the container wall. The at least one energy director can be designed to have a predetermined minimum distance at the base to a corner and/or edge of the base. If the base body is designed, for example, as a rectangle or substantially rectangle, i.e., for example, with rounded corners and/or edges, a plurality of energy directors at the side faces of the base body can be designed, wherein the energy directors have a minimum distance of, for example, a few millimeters or a few centimeters with respect to the corners of the base body. Thus, an excessive energy input at the base body, which would weaken the material of the base body and/or the connection between the base body or the filter and the container wall, can be avoided. Damage and/or damage to the manufactured soda lime container when the soda lime container is in use can also be avoided thereby. The side faces are considered here to have, for example, four faces which are significantly smaller than the two cover faces of the base body. The normal vectors of the two cover surfaces extend in the filter direction.

According to a further variant of the invention, it is possible to realize that the filter has a plurality of energy directors which are spaced apart from one another and each have an energy entry edge, wherein the filter direction extends perpendicularly with respect to each energy entry edge. The energy directors can thus be arranged one after the other in the circumferential direction around the base body, wherein the energy introduction edge extends in the circumferential direction. In the case of a sheet-like base body with a circular outer circumference, the energy introduction edges can, for example, each have the same radius of curvature and/or lie on the same circular path. Thus, the filter can be quickly and stably connected to the container wall.

It can be advantageously achieved in the filter according to the invention that the energy introduction edges each lie on a circular path which runs concentrically with the outer circumferential surface of the base body. In a simple manner, a uniform connection of the filter, in particular, to the container wall can thus be achieved.

It is furthermore possible to realize that in the filter according to the invention, the single energy director extends annularly around the base body. A particularly uniform and stable connection of the filter to the container wall can likewise be achieved by means of such an energy director. In this case, it is also advantageously possible for the annular energy director to have a circular energy entry edge which is designed concentrically with the outer circumferential surface of the base body. In this embodiment, a dust-proof and/or gas-tight connection can be realized between the filter and the container. Thus, the bulk can be reliably contained in the soda lime container or other bulk containers. In particular, no dust can pass between the filter and the housing wall.

Furthermore, the filter according to the invention makes it possible for at least one energy director to be an integral component of the base body. It is thus possible to provide a filter comprising at least one energy director securely. In addition, separate processing steps, such as injection molding of the energy director onto the base body, can be omitted. A relatively low cost filter can therefore be provided.

According to another aspect of the invention, a method for manufacturing a soda lime vessel for a respiratory protection device is presented. The method comprises the following steps:

-providing a tubular container wall,

the filter as described in detail above is fixed at the inner circumferential surface of the container wall by means of the energy introduction edge of at least one energy director, and

welding the filter to the container wall by means of welding, in particular ultrasonic welding, via at least one energy director.

The method according to the invention therefore gives the same advantages as detailed in connection with the filter according to the invention. Tubular vessel walls are to be understood as meaning, in particular, hollow columns having a circular, elliptical or angular cross section. Furthermore, it is preferred to provide a tubular, slightly funnel-shaped container wall or a tubular container wall with a slight taper.

Drawings

The invention is further developed by the following description of various embodiments, which are schematically illustrated in the drawing. All features and/or advantages from the claims, the description or the drawings, together with details of construction and spatial arrangement, can be given individually and in various combinations.

The figures each schematically show:

figure 1 shows a cross-sectional view of a filter according to a first embodiment of the invention,

figure 2 shows a top view of a filter according to a first embodiment of the invention,

figure 3 shows a cross-sectional view of a filter according to a second embodiment of the invention,

figure 4 shows a side view of a filter according to a second embodiment of the invention,

figure 5 shows a top view of a filter according to a second embodiment of the invention,

figure 6 shows a cross-sectional view of a filter according to a third embodiment of the invention,

figure 7 shows a top view of a filter according to a third embodiment of the invention,

figure 8 shows a schematic diagram for illustrating a method for manufacturing a soda lime vessel according to a preferred embodiment,

figure 9 shows a flow chart for illustrating a method according to a preferred embodiment,

FIG. 10 shows a soda lime vessel manufactured by the method according to the present invention, and

fig. 11 shows a schematic diagram for illustrating a method known in the prior art for manufacturing a soda lime vessel.

Elements having the same function and mode of operation are provided with the same reference numerals, respectively, in the drawings.

Detailed Description

Fig. 1 shows a filter 10a according to a first embodiment for use in the soda lime container 20 shown in fig. 10. The filter 10a is shown with a base body 11. At the outer circumferential surface 12 of the base body 11, a plurality of energy directors 13 are provided, spaced apart from one another, for welding the filter 10a to the container wall 21 of the soda lime container 20. The energy directors 13 each have an energy entry edge 14, wherein the cross section of the energy directors 13 decreases in each case toward the energy entry edge 14. The filter direction 15 or the working direction of the base body 11 or of the filter 10a, respectively, extends perpendicularly to the extension direction 16 of the energy introduction edge 14. In other words, the direction of extension 16 of each energy introduction edge 14 extends orthogonally to the filter direction 15. Furthermore, with reference to the coordinate system shown, it is possible to know: the filter direction 15 extends in the y direction, and the extension direction 16 or at least one tangent line extends in the z direction along the extension direction 16. In the example shown in fig. 1, the extension direction 16 or a tangent along the extension direction 16 extends in a plane parallel to the x-z-plane.

The filter 10a is shown in a top view in fig. 2. In particular, it can be noted here that: the energy introduction edges 14 are each located on the same circular path extending concentrically with the outer circumferential surface 12 of the base body 11.

In fig. 3 to 5, a filter 10b is shown according to a second embodiment. According to a variant, a single energy director 13 extends annularly around the base body 11. The annular energy director 13 has a circular energy entry edge 14 which is concentric with the outer circumferential surface 12 of the base body 11. Furthermore, the energy director 13 is an integral component of the base body 11 in the illustrated embodiment.

In fig. 6 and 7, a filter 10c is shown according to a third embodiment. The base body 11 of the filter 10c is not circular in plan view, but rather square or substantially square with rounded corners. The illustrated filter 10c has four energy directors 13, which are designed to be arranged on four different side sections of the outer circumferential surface 12 of the base body 11 facing away from one another.

Subsequently, a method for producing the soda lime container 20 of the breathing protective device shown in fig. 10 is explained with reference to fig. 8 and 9. In a first step S1, a container filled with soda lime 23 is first provided, having a tubular container wall 21. In the second step S2, the filter 10b is fixed to the inner circumferential surface 22 of the container wall 21 by the energy introduction edge 14, as described above. In a third step S3, the filter 10b is welded to the container wall 21 by means of ultrasonic welding via the energy director 13. In this case, mechanical vibrations 31 are introduced into energy guide 13 in introduction direction 30 and are transmitted from there to container wall 21. A soda lime container 20 filled with soda lime 23 manufactured by this method is shown in fig. 10.

Fig. 11 shows a filter 10d with a base body 11, on which an energy director 13 used in the prior art is arranged, the energy directing edge 14 of which extends parallel to the filter direction 15.

In addition to the exemplary embodiments shown, the invention is also capable of other embodiments. That is, the present invention should not be limited to the embodiments set forth in connection with the accompanying drawings.

List of reference numerals

10a filter

10b Filter

10c Filter

10d filter

11 base body

12 outer ring peripheral surface

13 energy director

14 energy introduction edge

15 direction of filtration

16 direction of extension

20 soda lime container

21 container wall

22 inner ring circumference

23 soda lime

30 introduction direction

31 are mechanically vibrated.