SAFETY HELMET WITH MECHANICAL CODING FOR PLUG CONNECTIONS BETWEEN THE INNER LINING AND THE BEARING STRUCTURE

Abstract

A safety helmet (100) includes an arched helmet shell (1), a bearing structure (3, 4.l, 4.r, 5, 6, 8, 10), an inner lining and a plurality of connection units. The inner lining comes into contact with the head of a user of the safety helmet. The bearing structure is attached on the inside to the helmet shell. Each connection unit is capable of detachably connecting the inner lining to the bearing structure. Each connection unit comprises a bearing structure-side component and an inner lining-side component. Each component is configured as exactly one connection type. A bearing structure-side component is connectable to an inner lining-side component if the two components are configured as the same connection type. The two components cannot otherwise be connected to one another or are incapable of establishing a connection between the bearing structure and the inner lining.

Claims

1. A safety helmet comprising: an arched helmet shell; an inner lining, the safety helmet being configured such that the inner lining comes into contact with the head of a user of the safety helmet; a bearing structure attached on an inside to the helmet shell and configured to carry the inner lining; and at least two connection units, wherein: the safety helmet has at least two different connection types; each of the connection units is configured to connect the inner lining detachably to the bearing structure; each connection unit comprises: a bearing structure-side component forming a part of the bearing structure and belonging to exactly one connection type of the at least two different connection types; and an inner lining-side component forming a part of the inner lining and belonging to exactly one connection type of the at least two different connection types; the bearing structure-side component is connectable to the inner lining-side component to establish a detachable connection between the bearing structure and the inner lining if the bearing structure-side component belongs to the same connection type as the inner lining-side component; and the bearing structure-side component cannot be connected to the inner lining-side component or the two components are incapable of establishing a connection between the bearing structure and the inner lining if the bearing structure-side component and the inner lining-side component belong to different connection types.

2. A safety helmet in accordance with claim 1, wherein two inner lining-side components of two different connection types differ from one another in geometric shapes and/or at least one dimension and/or two bearing structure-side components of two different connection types differ from one another in geometric shapes and/or in at least one dimension.

3. A safety helmet in accordance with claim 1, wherein at least one connection unit provides a respective positive-locking connection, wherein the positive-locking connection comprises at least one of a snap-in connection, a snap connection, a button connection, and a snap fastener connection.

4. A safety helmet in accordance with claim 1, wherein: the bearing structure-side component of at least one of the connection units comprises a recess; and the inner lining-side component of the connection units comprises a projection; or the inner lining-side component of at least another of the connection unit comprises a recess; or the bearing structure-side component of the connection unit comprises a projection; and each projection is inserted into a corresponding recess when the detachable connection has been established.

5. A safety helmet in accordance with claim 4, wherein: the recess of one component of this connection unit comprises an insertion opening and the other component of this connection unit comprises a body, to which the projection is attached; the projection is moveable through the insertion opening; and the projection is held in the recess when the connection has been established.

6. A safety helmet in accordance with claim 5, wherein: the projection further comprises: a roof section and a trunk section arranged between the body and the roof section; the recess further comprises a holding opening and a web between the insertion opening and the holding opening; and with the connection established, the trunk section passes through the holding opening and—the web prevents a movement of the trunk section towards the insertion opening.

7. A safety helmet in accordance with claim 5, wherein: the component with the recess comprises a holding element; and the holding element holds the projection, in a position moved through the insertion opening, with the connection has been established.

8. A safety helmet in accordance with claim 4, wherein at least one connection type has the feature that the bearing structure-side component comprises the recess and the inner lining-side component comprises the projection; and at least another connection type has the feature that the bearing structure-side component comprises the projection and the inner lining-side component comprises the recess.

9. A safety helmet in accordance with claim 1, wherein: the bearing structure comprises an outer component permanently connected to the helmet shell and an inner component, which is configured to be in contact with the head of a user of the safety helmet; a distance is formed between the outer component and the head of the user; and each bearing structure-side component is connected to the outer component.

10. A safety helmet process comprising the steps of: providing a safety helmet comprising: an arched helmet shell; an inner lining, the safety helmet being configured such that the inner lining comes into contact with the head of a user of the safety helmet; a bearing structure attached on an inside to the helmet shell and configured to carry the inner lining; and at least two connection units, wherein: the safety helmet has at least two different connection types; each of the connection units is configured to connect the inner lining detachably to the bearing structure; each connection unit comprises: a bearing structure-side component connected to the bearing structure and belonging to exactly one connection type of the at least two different connection types; and an inner lining-side component connected to the inner lining and belonging to exactly one connection type of the at least two different connection types; establishing a detachable connection between the bearing structure and the inner lining with the connection type of the bearing structure-side component being the same as the connection type of the inner lining-side component, wherein the bearing structure-side component cannot be connected to the inner lining-side component or the two components are incapable of establishing a connection between the bearing structure and the inner lining if the connection type of the bearing structure-side component is different from the connection type of the inner lining-side component.

11. A process according to claim 10, further comprising the steps of: providing a computer program, which can be executed on a computer and which prompts the computer when the computer program is being executed to one or more 3D printers such that the actuated 3D printer produces at least one of the bearing structure, the inner lining and at least one connection unit.

12. A process according to claim 10, further comprising providing a 3D printer, which is configured to produce at least one of the bearing structure, the inner lining and at least one connection unit.

13. A process according to claim 12, further comprising: providing at least another 3D printer configured to produce at least one of the bearing structure, the inner lining and at least one connection unit; producing at least one of the at least one of the bearing structure, the inner lining and at least one connection unit with the other 3D printer.

14. A safety helmet comprising: a helmet shell with a curved surface; an inner lining configured to come into contact with the head of a user of the safety helmet, the inner lining comprising: a first unit inner lining-side attaching component of a first connection unit, the first connection unit being configured to connect the inner lining detachably to the bearing structure, the first unit inner lining-side attaching component being configured as a first unit connection type that is one of a plurality of different connection types; and a second unit inner lining-side attaching component of a second connection unit, the second connection unit being configured to connect the inner lining detachably to the bearing structure, the second unit inner lining-side attaching component being configured as a second unit connection type that is one of the plurality of different connection types; a bearing structure attached on an inside to the helmet shell and configured to carry the inner lining, the bearing structure comprising: a first unit bearing structure-side attaching component of the first connection unit, the first unit bearing structure-side attaching component being configured as the first unit connection type; and a second unit bearing structure-side attaching component of the second connection unit, the second unit bearing structure-side attaching component being configured as the second unit connection type, wherein: the first unit connection type and the second unit connection type are different such that the bearing structure-side attaching component is connectable to the inner lining-side attaching component to establish a detachable connection between the bearing structure and the inner lining if the bearing structure-side attaching component is of the same connection type and the bearing structure-side attaching component cannot be connected to the inner lining-side attaching component or the two attaching components are incapable of establishing a connection between the bearing structure and the inner lining if the connection types are different.

15. A safety helmet in accordance with claim 14, wherein the first unit connection type and the second unit connection type differ from one another in geometric shapes and/or at least one dimension.

16. A safety helmet in accordance with claim 14, wherein at least one of the first unit connection type and the second unit connection type provides a positive-locking connection, wherein the positive-locking connection comprises at least one of a snap-in connection, a snap connection, a button connection, and a snap fastener connection.

17. A safety helmet in accordance with claim 14, wherein: one attaching component of the first connection unit comprises a recess; and another attaching component of the first connection unit comprises a projection; one attaching component of the second connection unit comprises a recess; another attaching component of the second connection unit comprises a projection; and each projection of the same connection unit is inserted into a corresponding recess with an established detachable connection.

18. A safety helmet in accordance with claim 17, wherein: the recess of the first connection unit comprises an insertion opening and the other attaching component of the first connection unit further comprises a body, to which the projection of the first connection unit is attached; the projection of the first connection unit is moveable through the insertion opening; and with the connection established the projection of the first connection unit is held in the recess of the first connection unit.

19. A safety helmet in accordance with claim 18, wherein: the projection of the first connection unit further comprises: a roof section and a trunk section arranged between the body and the roof section; the recess of the first connection unit further comprises a holding opening and a web between the insertion opening and the holding opening; and with the connection established, the trunk section passes through the holding opening and—the web prevents a movement of the trunk section towards the insertion opening.

20. A safety helmet in accordance with claim 18, wherein: the recess of the first connection unit further comprises a holding element; and the holding element holds the projection of the first connection unit, in a position moved through the insertion opening, with the connection established.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0041] In the drawings:

[0042] FIG. 1 is a bottom view showing an inner lining according to the state of the art;

[0043] FIG. 2 is a perspective view showing a safety helmet from a first viewing direction obliquely from below;

[0044] FIG. 3 is a perspective view showing the safety helmet from a second viewing direction obliquely from below;

[0045] FIG. 4 is a perspective view showing the safety helmet from a viewing direction vertically from below;

[0046] FIG. 5 is a perspective view showing the safety helmet from a third viewing direction obliquely from below, wherein the shock-absorbing shell and the bearing rings are omitted;

[0047] FIG. 6 is a perspective view showing the safety helmet from FIG. 5 from a fourth viewing direction from the side;

[0048] FIG. 7 is a perspective view showing the front holding ring part from a first viewing direction;

[0049] FIG. 8 is a perspective view showing the front holding ring part from a second viewing direction;

[0050] FIG. 9 is a perspective view showing the rear holding ring part;

[0051] FIG. 10 is a perspective view showing a recess of the first recess type and a recess of the second recess type;

[0052] FIG. 11 is a perspective view showing the front bearing ring part and the intermediate piece in a first viewing direction;

[0053] FIG. 12 is a perspective view showing the front bearing ring part and the intermediate piece in a second viewing direction;

[0054] FIG. 13 is a perspective view showing the front bearing ring part and the intermediate part in a third viewing direction wherein the projection is moved downwards.

[0055] FIG. 14 is a perspective view showing the right rear bearing ring;

[0056] FIG. 15 is a perspective view showing an attaching element of the first attaching type from two different viewing directions; and

[0057] FIG. 16 is a perspective view showing an attaching element of the second attaching type from two different viewing directions.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0058] Referring to the drawings, the present invention pertains to a safety helmet, which is worn by firefighters, police, rescue workers and other rescue team members on the head in order to better protect the head of the user from mechanical, thermal and chemical effects.

[0059] Just like many other safety helmets, the safety helmet according to the exemplary embodiment comprises an arched helmet shell made of a hard material, a bearing structure and an inner lining. An arched shock-absorbing shell, which absorbs kinetic energy, is optionally arranged between the helmet shell and the inner lining. The inner lining is in contact with the head of a person, who is wearing this safety helmet on his head; it contributes to holding the safety helmet on the head and is manufactured at least partially from at least one textile material, i.e., it comprises textile components. This person will hereinafter be called “the user.”

[0060] The designations “left,” “right,” “front,” “in the rear,” at the top” and “at the bottom,” which will be used below, pertain to the usual orientations when the safety helmet is seated on the head of the user and the user is looking horizontally forward. The bearing structure in the interior of the safety helmet connects the helmet shell to the inner lining and is manufactured from at least one solid, but elastic plastic.

[0061] In the exemplary embodiment, the bearing structure comprises [0062] an outer component, which is permanently connected to the helmet shell, as well as [0063] an inner component, which is in contact with the head of the user.

[0064] The outer component comprises a plurality of holding ring parts, which are permanently connected to the helmet shell, i.e., they are not separated from the helmet shell during the regular operation. The holding ring parts form together a circular holding ring, which is arranged on the inside at the arched helmet shell. The inner component comprises a plurality of bearing ring parts, which form together a continuous bearing ring. This bearing ring is led around the head of the user, it encloses the head fully and provides a head size, which can be changed.

[0065] Each textile component of the inner lining is detachably attached to the bearing structure. Each textile component is attached in the exemplary embodiment to the outer component, preferably at a holding ring, but not to the inner component.

[0066] When the user uses the safety helmet in an area that may be filled with gaseous harmful substances and/or particles of harmful substances, for example, in a burning or smoke-filled room, the safety helmet absorbs particles of harmful substances. The pollutant load of the textile components is, as a rule, higher than the pollutant load of other components of the safety helmet, and, in addition, these textile components come into contact with the head of the user. These textile components must therefore be cleaned and/or regularly decontaminated after each use, and this must be carried out with a process suitable for textile components, which is, as a rule, unsuitable for the rest of the safety helmet. An effective cleaning and decontamination therefore require that the textile components be removed from the safety helmet and be decontaminated in a suitable manner separately from the rest of the safety helmet, for example, in an industrial washing machine. The decontaminated textile components must then be reinserted into the safety helmet. The removal and the insertion shall require little time. The risk of a textile component being inserted incorrectly shall be reduced.

[0067] FIG. 1 shows a textile component according to the state of the art with many bands and mats and additional components, wherein the textile component forms an inner lining.

[0068] FIG. 2 through FIG. 6 show a safety helmet 100 according to the present invention. The textile components proper are omitted in these figures, while individual attaching elements for textile components of the inner lining are shown. The viewing direction BR of the user looking forward is suggested.

[0069] The safety helmet 100 comprises the following components: [0070] an arched helmet shell 1 made of a hard material, [0071] a pivotable visor 7, [0072] an additional visor in the form of pivotable sunglasses 22, [0073] an arched shock-absorbing shell 2, which is inserted into the helmet shell 1 on the inside and absorbs kinetic energy, [0074] a horseshoe-shaped front holding ring part 3, which is connected by two screw connections 18.l, 18.r to the helmet shell 1 and belongs to the outer component, [0075] a central rear holding ring part 5, which is connected by two additional screw connections 13.l, 13.r to the helmet shell 1 and likewise belongs to the outer component, [0076] an optional rigid intermediate piece 10 with a bent projection 23 and with a mushroom-shaped projection 17.2, [0077] a front bearing ring part 6, which is connected to the front holding ring part 3 directly or via an intermediary piece, which front bearing ring part 6 has a permanently mounted or rotatably mounted projection 21 and which belongs to the inner component, [0078] a bent left, rear bearing ring part 4.l and a bent right, rear bearing ring part 4.r, both of which belong to the inner component and are held by a bearing support 8 for the back of the head, [0079] the bearing support 8 for the back of the head, which is connected to the two rear bearing ring parts 4.l and 4.r and is attached to the central rear holding ring part 5, [0080] an inner lining, not shown, in the form of a head harness, which comprises at least one textile component and which is in contact at the top with the head of the user, and [0081] a rotatable handwheel 9, which is arranged on the outside at the helmet shell 1 and which the user can rotate in order to displace the two rear bearing ring parts 4.l and 4.r relative to the rear holding ring part 5 and thereby to change the head size of the safety helmet 100.

[0082] The indices .l and .r designate a left and right component, respectively.

[0083] The two rear bearing ring parts 4.l and 4.r are connected to the front bearing ring part 6 by two respective detachable snap-in connections. These two snap-in connections are established by two pairs of lateral projections 24.l and 24.r engaging (meshing) with a respective pair of corresponding lateral recesses at the two rear bearing ring parts 4.l and 4.r. The left rear bearing ring part 4.l is connected to the front holding ring part 3 by a snap-in connection 19.l, and the right rear bearing ring part 4.r is connected by a snap-in connection 19.r. The visor 7 is connected to the front holding ring part 3 by two screw connections 18.l and 18.r. The additional visor 22 is pivotably connected by two screw connections 20.l and 20.r to the front holding ring part 3. The rigid intermediate piece 10 bridges over the distance between the front bearing ring part 6 and the front holding ring part 3. The bent projection 23 of the intermediate piece 10 extends around the front holding part 3 from the bottom and from the front.

[0084] The shock-absorbing shell 2 and the bearing ring parts 4.l, 4.r, 6 are omitted in FIG. 5 and FIG. 6.

[0085] The inner lining can be detachably connected in the exemplary embodiment to the outer component of the bearing structure 3, 4.l, 4.r, 5, 6, 8, 10. The inner lining is not connected to the inner component 3, 5, so that a change in the provided head size does not affect the seating of the inner lining in the helmet shell 1. It is also possible that a textile component of the inner lining can be detachably connected to the inner component 3, 5 of the bearing structure.

[0086] The inner lining can be connected detachably to a holding ring part 3, 5 by means of a plurality of connection units in the exemplary embodiment. Each connection unit makes it possible to establish a detachable positive-locking connection between a respective textile component of the inner lining and a holding ring part 3, 5. This positive-locking connection may have the form of a snap-in connection, also called snap connection, or also the form of a snap fastener connection or toggle button connection.

[0087] Each connection unit comprises [0088] a bearing structure-side component, which belongs to the bearing structure, in the exemplary embodiment to a holding ring part 3 or 5, and [0089] an inner lining-side component, which belongs to a textile component of the inner lining.

[0090] Each bearing structure-side component has the form of an attaching element with a projection in the exemplary embodiment. Each inner lining-side component comprises a recess. With the connection established, the projection has been passed through the recess and is held in the recess, so that the projection cannot slide or slip out of the recess again by itself.

[0091] A plurality of attaching elements 11.1, 11.2, . . . of a first attaching type are shown as examples in FIG. 2 through FIG. 6. These attaching elements 11.1, 11.2, . . . of the first attaching type hold an inner lining with textile components, here in the form of a head harness, at the front holding ring part 3 and are connected to bands of this head harness. In addition, attaching elements 12.1, 12.2 of a second attaching type are shown, which are connected to another band of the head harness or of another textile component.

[0092] FIG. 7 and FIG. 8 show the bent front holding ring part 3 such that the viewing direction BR points obliquely to bottom left in FIG. 7 and to the viewer in FIG. 8. FIG. 9 shows the bent rear holding ring part 5 such that the viewing direction BR points towards the viewer.

[0093] The front holding ring part 3 has a series of recesses 14.1, 14.2, . . . of a first recess type as well as a series of recesses 15.1, 15.2, . . . of a second recess type. The rear holding ring part 5 has two columns with three respective recesses 14.10, . . . , 14.15. Two corresponding attaching elements can be inserted into two recesses 14.10, . . . , 14.15 located next to one another. Three rows with two respective recesses arranged next to one another are present, and three different heights can therefore be achieved. Each recess 14.1, 14.2, . . . of the first recess type is capable of receiving and holding an attaching element 11.1, 11.2, . . . each of the first attaching type. Each recess 15.1, 15.2, . . . of the second attaching type is capable of receiving and holding a respective attaching element 12.1, 12.2, . . . of the second attaching type.

[0094] The first attaching type and the first recess type form together a first connection type. The second attaching type and the second recess type form together a second connection type.

[0095] FIG. 10 shows an exemplary recess 14.x of the first recess type and an exemplary recess 15.x of the second recess type. Each recess 14.x, 15.x has a respective insertion opening EÖ, a holding opening HO and a web St between the insertion opening EÖ and the holding opening HÖ.

[0096] FIG. 11 and FIG. 12 show the front bearing ring part 6 with the upwards pointing projection 21 and the rigid intermediate piece 10 with the bent projection 23 in two perspective views from two different viewing directions. A mushroom-shaped attaching element 17.1 is located at the projection 21. A hole 16.2 is formed in the intermediate piece 10. The top part of FIG. 11 shows an embodiment in which the intermediate piece 10 is permanently connected to the projection 21 and the attaching element 17.1 points rearwards. FIG. 11 and FIG. 12 show an alternative embodiment, in which the projection 21 is rotatable about a horizontal axis relative to the front bearing ring part 6. If the projection 21 is folded down, the attaching element 17.1 points forward. The intermediate piece 10 can be attached onto the attaching element 17.1 such that the attaching element 17.1 passes through the recess 16.2.

[0097] FIG. 14 shows the right rear bearing ring part 4.r. Attaching elements 17.1, 17.2, . . . of a third attaching type and a recess 16.2 of a third recess type can be seen in FIGS. 11 and 13 (recess 16.1 of the third recess type is shown in FIG. 8). Each recess 16.1, 16.2 of the third recess type is capable of receiving a respective attaching element 17.1, 17.2, . . . of a third attaching type. The attaching element 17.1 is attached to the projection 21.

[0098] Note: The attaching elements 17.2 fasten the bearing ring part 6 at corresponding recesses in a holding ring part 4.l, 4.r. Attaching elements and recesses for fastening the inner lining to the bearing structure may have exactly the same configuration.

[0099] FIG. 15 shows an exemplary attaching element 11.x of the first attaching type from two different viewing directions. FIG. 16 shows an exemplary attaching element 12.x of the second attaching type from two different viewing directions. Each attaching element 11.x, 12.x, 17.x comprises each [0100] an attaching element body Kö, [0101] a band opening BO in the attaching element body Kö, through which a textile band can be pulled in order to attach the attaching element 11.x, 12.x, 17.x to the band, [0102] a roof section DaA and [0103] a trunk section StA between the roof section DaA and the attaching element body Kö.

[0104] The roof section DaA projects over the trunk section StA in each direction and is flatly connected to the trunk section StA.

[0105] An attaching element 11.x, 12.x, 17.x is connected detachably to a receiving component, for example, to a holding ring part 2, 5 or to a bearing ring part 4.l, 4.r, 6 as follows, as a result of which a detachable positive-locking connection is established: [0106] the roof section DaA is pushed through the insertion opening EO in an insertion direction, and [0107] the attaching element 11.x, 12.x, 17.x is pushed through the web St towards the holding opening HO in a holding direction until the trunk section StA is fully enclosed by the holding opening HO. The holding direction is positioned vertically or obliquely to the insertion direction.

[0108] The receiving component is manufactured from a reversibly deformable material, entirely or at least in the area that encloses the web St. The width of the trunk section StA is greater than the width of the web St, so that the trunk section StA deforms the web St reversibly during the insertion. The trunk section StA cannot slide back to the insertion opening Eö through the web St by itself because of the greater width. By contrast, a gap is formed between the circumference of the trunk section StA and the edge of the holding opening HO, so that the attaching element 11.x, 12.x, 17.x can rotate relative to the receiving component.

[0109] An attaching element 11.x, 12.x, 17.x provides an inner lining-side component. The insertion opening Eö, the holding opening HO and the web St belong to a recess 14.x, 15.x, 16.x, which provides a corresponding bearing structure-side component. An attaching element 11.x, 12.x, 17.x can consequently be inserted into a fitting recess 14.x, 15.x, 16.x and it then forms a detachable positive-locking connection.

[0110] The attaching elements 11.x, 12.x, 17.x belong in this embodiment to a respective inner lining-side component, and the recesses 14.x, 15.x, 16.x belong each to a bearing structure-side component. In another embodiment, each bearing structure-side component comprises a respective holding element for the attaching element, e.g., a clamp or a clip, but not necessarily a web and not necessarily a trunk section. The attaching element 11.x, 12.x, 17.x is pushed through the insertion opening Eö and is held by means of the holding element. The detachable positive-locking connection is established in this manner in this other embodiment.

[0111] The attaching elements of one attaching type have all the same geometric shape and the same dimensions, at least in a plane at right angles to the insertion direction. By contrast, the attaching elements of two different attaching types differ in the exemplary embodiment by their geometric shapes and/or by at least one dimension, at least in the plane at right angles to the insertion direction. The recesses of a recess type correspondingly have all the same geometric shape and the same dimensions in the plane in which the recess extends. The recesses of two different recess types differ from one another by their geometric shapes and/or by at least one dimension. Each attaching type is associated with exactly one recess type. An attaching element 11.x, 12.x, 17.x can be inserted into a recess 14.x, 15.x, 16.x of the associated recess type and be held there, without it being able to slide out again by itself.

[0112] The different attaching types and the different recess types thus provide a mechanical code. In other words, each attaching type is compatible with exactly one recess type and vice versa, each recess type is compatible with exactly one attaching type. It is not possible in some non-compatible combinations of attaching element and recess to insert without destruction an attaching element into a recess of a recess type, which is incorrect because it is not associated, because the recess is too small. In other possible combinations an incorrect recess is so large that the attaching element falls or slips out of the recess by itself, i.e., it is not capable of establishing a permanent connection and it does not therefore obviously match the recess. The present invention thus reduces the risk of an inner lining being arranged incorrectly in the interior of the safety helmet 100 after a cleaning or a replacement.

[0113] Independently from the attaching type and from the recess type, each attaching element can be inserted in the same, above-described manner into a recess of the associated recess type. This insertion is intuitive, especially because it is obvious which attaching element matches which recess and which recess it does not match.

[0114] While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.

LIST OF REFERENCE CHARACTERS

[0115] 1 Arched helmet shell made of a hard material, to which the bearing structure 3, 4.l, 4.r, 5, 6, 8, 10 is attached [0116] 2 Arched shock-absorbing shell, inserted into the helmet shell 1 on the inside [0117] 3 Front holding ring part, connected to the helmet shell 1 by two screw connections 18.l, 18.r; it belongs to the outer component of the bearing structure; it forms a circular holding ring together with the rear holding ring part 5 [0118] 4.l Left rear bearing ring part, connected to the front bearing ring part 6 in an articulated manner; it belongs to the inner component of the bearing structure [0119] 4.r Right rear bearing ring part, connected to the front bearing ring part 6 in an articulated manner; it belongs to the inner component of the bearing structure [0120] 5 Rear holding ring part, connected to the helmet shell 1 by the screw connections 13.l and 13.r; it belongs to the outer component of the bearing structure; it forms a circular holding ring together with the front holding ring part 3 [0121] 6 Front bearing ring, connected to the two rear bearing ring parts 4.l and 4.r; it belongs to the inner component of the bearing structure; it forms a circular bearing ring together with the two rear bearing ring parts 4.l and 4.r [0122] 7 Visor, attached pivotably to the helmet shell 1 with two screw connections 20.l, 20.r [0123] 8 Bearing support for the back of the head, connected to the rear holding ring part 5; it belongs to the inner component of the bearing structure [0124] 9 Handwheel, with which a user changes the head size of the safety helmet 100 [0125] 10 Centrally arranged rigid intermediate piece, which connects the front bearing ring part 6 to the front holding ring part 3 [0126] 11.1, 11.2 Attaching element of the first attaching type; it can be received by a recess 14.1, 14.2, . . . of the first recess type [0127] 12.1, 12.2, . . . Attaching element of the second attaching type; it can be received by a recess 15.1, 15.2, . . . of the second recess type [0128] 13.l, 13.r Screw connection, with which the rear holding ring type 5 is attached to the helmet shell 1 [0129] 14.1, 14.2 Recess of the first recess type; it is capable of receiving an attaching element 11.1, 11.2, . . . of the first attaching type [0130] 15.1, 15.2, . . . Recess of the second recess type; it is capable of receiving an attaching element 12.1, 12.2, . . . of the second attaching type [0131] 16.1, 16.2, . . . Recess of the third recess type; it is capable of receiving an attaching element 17.1, 17.2, . . . of the third attaching type [0132] 17.1, 17.2, . . . Attaching element of the second attaching type; it can be received by a recess 16.1, 16.2, . . . of the third recess type [0133] 18.1, 18.r Screw connections, with which the front holding ring part 3 is attached to the helmet shell 1 [0134] 19.l Snap-in connection, which connects the left rear bearing ring part 4.l to the front holding ring part 3 [0135] 19.r Snap-in connection, which connects the right rear bearing ring part 4.r to the front holding ring part 3 [0136] 20.l, 20.r Screw connections, with which the visor 7 is attached to the front holding ring part 3 [0137] 21 Upwards pointing projection at the front bearing ring part 6; it can be rotated in one embodiment about a horizontal rotation axis [0138] 22 Sunglasses in the form of an additional pivotable visor [0139] 23 Projection at the intermediate piece 10; it encloses the front holding ring part 3 [0140] 24.l Pair of lateral projections at the front bearing ring part; they engage with corresponding recesses at the left rear bearing ring part 4.l [0141] 24.r Pair of lateral projections at the front bearing ring part 6; they engage with corresponding recesses at the rear bearing ring part 4.r [0142] 100 Safety helmet, comprising the helmet shell 1, the shock-absorbing shell 2, the visor 7, the holding ring parts 3 and 5, the bearing ring parts 4.l, 4.r, 6, the intermediate piece 10 and the handwheel 9 as well as an inner lining [0143] Bö Band opening of an attaching element 11.x, 12.x, 17.x [0144] BR Viewing direction of a user of the safety helmet 100, who is looking straight forward [0145] DaA Roof section of an attaching element 11.x, 12.x; it projects over the trunk section StA [0146] Eö Insertion opening of a recess 14.x, 15.x, 16.x [0147] HöHolding opening of a recess 14.x, 15.x, 16.x [0148] Kö Attaching element body of an attaching element 11.x, 12.x, 17.x; it has a band opening Bö [0149] St Web between the insertion opening EÖ and the holding opening HO [0150] StA Trunk section of an attaching element 11.x, 12.x, 17.x; permanently connected to the attaching element body Kö; led through the holding opening HÖ when the connection has been established