EP3664654A1

EP3664654A1 - Helmet

Info

Publication number: EP3664654A1
Application number: EP18745529.0A
Authority: EP
Inventors: Simon JASCHKE; Michael Abel; Frederic SCHUSS
Original assignee: Uvex Arbeitsschutz GmbH
Current assignee: Uvex Arbeitsschutz GmbH
Priority date: 2017-08-07
Filing date: 2018-07-17
Publication date: 2020-06-17
Also published as: DE102017213645A1; RU2734688C1; WO2019029952A1; US20200163402A1; CN111031833A; AU2018314320A1; US11317674B2

Abstract

The invention relates to a helmet comprising a helmet shell (4) for spatially limiting a head receiving space (5) and an adjustable ventilation arrangement which is in flow connection with the head receiving space (5). The ventilation arrangement has at least one first ventilation device (6) having at least one first ventilation channel (9) running through the helmet shell (4), and a first slider mechanism (18), associated with the at least one first ventilation channel (9), which slider mechanism can slide along the helmet shell (4) in order to change a flow cross-section of the at least one first ventilation channel (9) between a ventilation channel open position and a ventilation channel closed position. The at least one first ventilation device (6) also has a first locking device for locking and locally securing the first slider device (18) in at least one predefined locking position.

Description

helmet

The present patent application claims the priority of German Patent Application DE 10 2017 213 645.6, the content of which is incorporated herein by reference.

The invention relates to a helmet, in particular protective helmet, which is used for example for occupational safety or sports purposes. The prior art discloses a wide variety of helmets, which comprise ventilation arrangements for conditioning a head receiving space, by means of prior public use. Often these helmets are not very user friendly. US 2012/0180199 A1 discloses a helmet with a ventilation closure arrangement. A latching arrangement of a ventilation closure element is possible. Details of the latching arrangement are not disclosed. US 2016/0150845 A1 discloses a helmet with a ventilation control associated with a vent. The ventilation control includes a sliding plate, which can be fixed locally by friction.

A well-known from DE 697 14 398 T2 helmet has adjustable openings or valve openings to allow air circulation through the

To control the helmet. An airflow can be adjusted by moving sliding elements. The sliding elements are guided and fixed locally by means of friction. From DE 698 12 594 T2 a crash helmet with devices for locking and unlocking of moving parts, such as sliders or panels for opening and closing of air inlets is known. The device comprises a first element and a second element which is connected to a helmet body. The first member has a pair of racks between which a spring arms of toothed block of the second member is disposed. The teeth engage the racks and thus keep the moving part in a desired position. The structure of this locking arrangement is complicated.

The invention has for its object to provide a helmet that is on the one hand particularly user-friendly and on the other hand extremely well customizable with respect to air conditioning. This object is achieved by the features specified in the claim 1. The essence of the invention lies in a first latching device, which allows a latching local definition of the first slider device with respect to the helmet shell. The first slider device is releasably fixed locally in the respective detent position. By then prevailing latching connection an individually set position of the first slider device is held. To move the first slider device from a detent position, it is necessary to apply a latching connection (sliding) force, in particular manually or manually, to the first slider device.

The ventilation arrangement is capable of conditioning the head receiving space. The at least one first ventilation channel expediently discharges into the head receiving space. It is advantageous if the at least one first ventilation duct also outside with respect to the helmet cap in the Environment ends. Preferably, the at least one first ventilation duct extends over a full thickness of the helmet shell, wherein there is a (flow) connection between the head receiving space and the environment when the first slide device is in the ventilation channel opening position.

It is advantageous if the first slide device completely closes the at least one first ventilation channel in the ventilation channel closed position, so that an air exchange between the environment and the head receiving chamber is omitted. In the ventilation channel opening position, the at least one first ventilation channel is at least partially, preferably completely, released for the exchange of air between the environment and the head receiving space. Conveniently, the first slider device is guided on the helmet shell along or along the same slidably. It is expedient if the first slide device is accommodated at least partially in the helmet cap both in its ventilation channel opening position and in its ventilation channel closed position. A distance between the first slider device and its displacement relative to the head receiving space in a thickness direction of the helmet cap advantageously remains substantially constant.

The first slider device is, for example, in one or more parts. A multi-part, in particular two-part, design is preferred for assembly reasons. It is expedient for the first slider device to comprise at least one actuating part for displacing the same. It is useful if the at least one operating part is accessible from the outside. Conveniently, the at least one first ventilation device is arranged in a middle region of the helmet cap. Alternatively, this is arranged for example in side surfaces of the helmet cap.

The at least one latching means is for example designed as a latching projection and arranged on the first slider device. The at least one detent counterpart is preferably complementary to the at least one detent means and arranged on the helmet shell, in particular on the inside. In the locking position engage at least one locking means and at least one locking counter-locking means, but releasably, one another.

The at least one non-locking means is conveniently formed on the inside of the helmet shell.

The flow cross section of the at least one first guide channel is conveniently arbitrary. The at least one first guide channel runs, for example, in the helmet cap at least partially straight and / or curved.

The helmet cap is preferably rigid or intrinsically stiff. It is advantageous if the helmet calotte is yielding on the inside. When the helmet is worn properly, a helmet wearer's head engages the head cavity or helmet cavity. It is expedient if a (belt) holding system for securely holding the helmet cap to the head of the helmet wearer is arranged on the helmet cap. The helmet is conveniently symmetrical with respect to a midplane.

The terms "front", "rear" or the like used preferably refer to a proper wearing of the helmet. Further advantageous embodiments of the invention are specified in the subclaims.

The embodiment according to the dependent claim 2 is particularly user-friendly. It is useful if there are between three and ten rest stops. It is expedient if intermediate locking positions between a fully open ventilation duct opening position and a fully closed ventilation duct closed position are ingestible. Preferably, the distance between adjacent detent positions is equidistant.

The non-locking means according to the dependent claim 3 preferably extend parallel to each other. They are preferably arranged in a latching strip area of the helmet cap. Preferably, between three and ten locking antagonists are present.

According to the dependent claim 5, a distance between the first slider device and a front or rear end of the helmet is dependent on the respective detent position of the first slider device. The first slider device is for influencing the flow cross section the at least one first ventilation duct to the front and / or rear sliding. For example, in the fully closed vent channel closed position, the first slider device is in a forward position relative to the helmet while the first slider device is in a fully open vent channel open position in a rearward position relative to the helmet. A reverse arrangement is alternatively possible.

The at least one first guide recess according to subclaims 6 and 7 is preferably slit-like. It is expedient if the at least one first guide recess passes completely through the helmet cap in its thickness direction.

The embodiment according to the dependent claim 8 preferably ensures a functionally reliable, guided displacement of the at least one coupling body and thus the first slider device with respect to the at least one first guide recess or the helmet shell. The at least one coupling body preferably passes through the at least one first guide recess. Alternatively, this engages only partially in the at least one first guide recess. It is expedient if the first slide device is displaceable between 5 mm and 25 mm, more preferably between 8 mm and 18 mm.

The at least one blocking element according to subclaim 9 is preferably plate-like or web-like. It conveniently has a shape and size corresponding to an adjacent cross section of the at least one first ventilation duct. The at least one blocking element is conveniently able, in the fully closed ventilation channel closed position of the first slide device, the at least one first Ventilation duct at least partially completely block, so that an air exchange is prevented.

The embodiment according to the subclaim 10 is particularly user-friendly and leads to a particularly powerful air conditioning of the head receiving space. By displacing exactly one first slide device, at least two ventilation channels can be influenced in their flow cross-section. The helmet according to the dependent claims 1 1, 12 is particularly well air-conditioned.

Hereinafter, a preferred embodiment of the invention will be described by way of example with reference to the accompanying drawings. Show:

1 is an exploded perspective view of a helmet according to the invention,

2 is a perspective view of the helmet shown in Fig. 1 in the assembled state,

Fig. 3 marked in Fig. 2 detail III, the first

Ventilation device of the illustrated in Fig. 1, 2 helmet shows,

4 shows a longitudinal section through the helmet shown in FIG. 1, 2,

5 shows the marked in Fig. 4 detail V, FIG. 6 is a plan view of the composite helmet shown in FIG. 2, and FIG. 7 is another exploded perspective view of the assembled helmet shown in FIG.

1 helmets, which mainly a rear part of the

Helms illustrates.

A helmet shown in the figures is designed as a working protective helmet. The helmet is symmetrical with respect to a median plane EH extending in a longitudinal direction 1 of the helmet between the front end 2 and the rear end 3 thereof.

The helmet has a stable helmet cap 4, which spatially limited a head receiving - space 5 for receiving a head of a helmet wearer (not shown) to the outside.

The helmet cap 4 and the head receiving space 5 is air-conditioned. For this, the helmet has a ventilation arrangement with three independent, mutually spaced ventilation devices 6, 7, 8. The first ventilation device 6 is disposed adjacent to the front end 2 of the helmet shell 4 and is designed as a ventilation device. The second ventilation device 7 and the third ventilation device 8 are arranged adjacent to one another and adjacent to the rear end 3 in the helmet cap 4. They are designed as venting devices.

The ventilation devices 6, 7, 8 are basically structurally identical, but differently shaped or dimensioned. The first ventilation device 6 has two elongated first ventilation channels 9, which are arranged at a distance from the center plane EH of the helmet and converge in the direction of the front end 2. The first ventilation ducts 9 completely penetrate the helmet cap 4 over its thickness. They form ventilation channels.

Adjacent to the first ventilation channels 9, the first ventilation device 6 has a first elongated guide recess 10, which is formed in the helmet cap 4 and open to the outside. The first guide recess 10 is bounded by a first guide plate 1 1 of the helmet cap 4 inside. The first guide plate 11 is set back from an outer surface 12 of the helmet cap 4 and is flush with an adjacent inner surface 13 of the helmet cap 4. The center plane EH of the helmet passes centrally through the first guide recess 10.

In the first guide recess 10, an elongated first guide opening 14 is formed, which passes through the first guide plate 1 1 completely in a thickness direction of the helmet cap 4 and opens to the head receiving space 5 out. The first guide opening 14 is arranged in a central region of the first guide plate 11. It is arranged at a distance from longitudinal edges 15 and longitudinal ends 16 of the first guide recess 10. The first guide opening 14 has a length in the longitudinal direction 1 of the helmet which is substantially greater than its width perpendicular to the longitudinal direction 1.

Adjacent to the first guide opening 14, the first ventilation device 6 has a plurality of separate locking counter-means 17, which are formed on the inside of the helmet cap 4 and adjacent to each other. The locking counter means 17 are adjacent to the rear end 3 of the Helms facing longitudinal edge 15 of the first guide recess 10 is arranged. The locking counter-means 17 have different distances to the front end 2 of the helmet and are designed as latching recesses, which are in cross section, for example, triangular or kreisseg- mentförmig. They are the head receiving space 5 facing and open to this. The locking countermeasures are conveniently limited spatially by locking teeth.

The first ventilation device 6 also has a first slide device 18, which is symmetrical with respect to a center plane ES and comprises a one-piece first support body 19. From the first support body 19, a latching projection 20 protrudes outwards at the end. The first support body 19 and the latching projection 20 are integrally connected to each other. In the first support body 19, a first mounting opening 21 is formed.

The first support body 19 carries two first locking plates 22 which are spaced from each other and at an angle to each other. The first locking plates 22 are arranged on a latching projection 20 opposite the end of the first support body 19. They face the front end 2 of the helmet. Each first blocking plate 22 is adapted in its contour to an opening cross section of a first ventilation channel 9.

The first slider device 18 also includes a first actuation handle 23, which is coupled by means of a coupling body 24 with the first support body 19. The coupling body 24 has, perpendicular to the center plane EH of the helmet, a width which corresponds to the width of the first guide opening 14. The first guide opening 14 has in the longitudinal direction 1 of the helmet a length which is substantially greater than a length of the first Coupling body 24 in the longitudinal direction 1 of the helmet is. The coupling body 24 passes through the mounting opening 21, so that the first actuating handle 23 and the first support body 19 are firmly connected to each other. In the assembled state of the helmet, the first operating handle 23 is located in the first guide recess 10. A bottom surface 25 of the first actuating handle 23 is the first guide plate 1 1 facing and is on the outside on this. The coupling body 24 passes through the first guide opening 14 and the first mounting opening 21, whereby the first support body 19 is held on the inside of the helmet cap 4 and the first operating handle 23 on the outside of the first support body 19. The first locking plates 22 are located adjacent to the first ventilation channels 9, while the locking projection 20 is in latching connection with a locking counter-means 17 to form a first latching device.

In a displacement or displacement of the first slider device 18 by applying a corresponding pushing force from a helmet carrier on the first operating handle 23 on the first slider means 18 slides the bottom surface 25 of the first operating handle 23 on the first guide plate 1 1 outside along, while the first support body 19th slides on the inside of the helmet cap 4 along and shifted relative to the helmet cap 4. In this case, the first blocking plates 22 are displaced relative to the first ventilation channels 9, which has an influence on their adjacent, free, effective flow cross-section. A displacement is preferably possible via a displacement of 10 mm to 18 mm.

To displace the first slide device 18, the latching projection 20 and the respective active latching counteracting means 17 must be disengaged. A corresponding locking resistance must be overcome the. A gradual adjustment is possible. Conveniently, five to nine locking positions are given. The displacement of the first slider device 18 is limited by the first longitudinal edges 16 of the first guide plate 1 1.

A displacement of the first slider device 18 in the direction of the front end 2 of the helmet leads to a partial reduction of the effective flow cross sections of the first ventilation channels 9. When the first slider device 18 occupies a minimum distance to the front end 2, close the first locking plates 22, the first Ventilation channels 9 completely. When the distance of the first slider device 18 to the front end 2 of the helmet is maximum, the first blocking plates 22 are preferably arranged at a distance from the first ventilation channels 9, blocking of the first ventilation channels 9 being omitted. In intermediate positions, the first ventilation ducts 9 are partially closed.

The second ventilation device 7 and the third ventilation device 8 are designed according to the first ventilation device 6. For the sake of brevity, reference is made to the design and the basic function of the ventilation devices 7, 8 with respect to the embodiment of the first ventilation device 6. In the second and third ventilation device 7 and 8 are preferably given between three and seven locking positions. The displacement of the respective slider device is preferably between see 7 mm and 16 mm.

In the open state of the first slide devices 18, air can flow from the front into the head receiving space 5 via the ventilation channels 9. Cooler ambient air can be inserted into the helmet cap 4. Air from the head receiving space 5 can leave the head receiving space 5 behind the ventilation devices 7, 8, if they are at least partially open. The heated air from the head of the helmet wearer can be discharged via the ventilation device 7, 8 again from the helmet cap 4.

The helmet is so easily adaptable, for example, to prevailing external climatic conditions. Furthermore, the helmet is also customizable to the heat balance of the body of the helmet wearer.

Claims

claims

1. helmet, in particular protective helmet comprising

a) a helmet cap (4) for the spatial delimitation of a head receiving space (5), and

b) an adjustable ventilation arrangement in flow communication with the head receiving space (5), comprising

i) at least one first ventilation device (6)

with at least one first ventilation duct (9) running in the helmet cap (4),

with a first slide device (18) assigned to the at least one first ventilation channel (9), which is used to at least partially change a flow cross section of the at least one first ventilation channel (9) between a ventilation channel opening position and a

Ventilation duct closed position along the helmet cap (4) is displaceable, and

with a first latching device for latching local fixing of the first slide device (18) in at least one predetermined detent position with respect to the

Helmet cap (4),

- Wherein the first latching device at least one with the first slide means (18) in connection standing latching means (20) and at least one with the helmet calotte (4) in connection standing Rastgegenmittel

(17) for latching interaction with the at least one latching means (20), - wherein the at least one non-locking means (17) is arranged facing the head receiving space (5),

- wherein the at least one latching means (20) the

Head receiving space (5) facing away from the first slider device (18) is arranged.

A helmet according to claim 1, characterized by a plurality of detents for latching local fixing of the first slide device (18) in different locking positions.

A helmet according to claim 1 or 2, characterized by a plurality of non-locking means (17) which are adjacent to each other spaced apart, in particular under specification of the locking positions, are arranged.

Helmet according to one of the preceding claims, characterized in that a first center plane (ES) of the first slider device (18) coincides with a center plane (EH) of the helmet, wherein preferably the first slider device (18) in the center plane (EH) of the helmet displaceable is.

Helmet according to one of the preceding claims, characterized in that the first slider device (18) between a front relative to the helmet locking position and a rear detent position is displaceable.

Helmet according to one of the preceding claims, characterized in that the at least one first ventilation device (6) has at least one elongated first guide element formed in the helmet cap (4). having recess (14) for guiding the first slide device (18) between the ventilation duct opening position and the ventilation duct closed position. 7. A helmet according to claim 6, characterized in that extending the at least one first guide recess (14) along the helmet cap (4).

8. A helmet according to claim 6 or 7, characterized in that the first slide device (18) at least one arranged in the at least one first guide recess (14) coupling body (24) which in a longitudinal direction (1) of the helmet substantially shorter as the at least one first guide recess (14). 9. Helmet according to one of the preceding claims, characterized in that the first slide device (18) has at least one blocking element (22) for at least partially changing the flow cross-section of the at least one first ventilation duct (9). 10. A helmet according to claim 9, characterized by at least two spaced-apart locking elements (22) for at least partially changing the flow cross-sections of at least two first ventilation ducts (9). 1 1. A helmet according to any one of the preceding claims, characterized in that the at least one first ventilation device (6) as a ventilation device for supplying fresh air to the head receiving space (5) or as a venting device (7, 8) for discharging air from the head receiving space ( 5) is formed.

12. A helmet according to any one of the preceding claims, characterized in that the ventilation arrangement at least one spaced apart from the at least one first ventilation device (6) arranged further ventilation device (7, 8), the functionally opposite to the at least one first ventilation device (6) effectively is.

13. A helmet according to one of the preceding claims, characterized in that the at least one locking counter-means (17) is formed on the inside of the helmet cap (4).

14. Helmet according to one of the preceding claims, characterized in that the at least one latching means (20) leads out as a locking projection.