DE102021001395A1 - Vibration device - Google Patents

Abstract

The invention relates to a vibration device (10) for generating vibrations for use as a massage for a user (12) of a vehicle seat (14) of a motor vehicle (16), with a vibrating element (18) and with a vibrating frame (20) for transmitting the vibrations via at least one vibration conductor (22) at at least one decoupling point (24), the at least one decoupling point (24) having a narrow point (30) with a second bending stiffness (B2) that is lower relative to the first flexural strength (B1) of the remaining decoupling point (24) which is formed in a central region (32) of an elongated extension of the vibration conductor (22), and the vibration conductor (22) has a step-shaped contour (36) which is formed by at least two opposing bending points (38) and is designed for this purpose, to convert a longitudinal vibration (L) of the vibrating device (10) into a transverse vibration (T) of the vibrating device (10) .

Description

The invention relates to a vibration device for generating vibrations according to the preamble of patent claim 1.

From the DE 103 20 371 A1 is a massage device for seats, in particular for seats in motor vehicles, in which vibrations are generated with the aid of the movement of a mass element. These vibrations are transmitted to an outer housing of the massage device in order to then pass them on to a seated person in order to achieve the massage effect.

The object of the invention is to create a vibration device whose vibrations can be passed on in a particularly advantageous manner.

According to the invention, this object is achieved by a vibration device for generating vibrations having the features of claim 1. Advantageous configurations with favorable developments of the invention are the subject of the dependent claims.

The oscillation device according to the invention for generating oscillations or vibrations for use for massage for a user of a vehicle seat of a motor vehicle, in particular a passenger car, comprises a swing element which can be designed as an oscillator, for example. Furthermore, the vibration device comprises a vibration frame or a vibration housing for transmitting the vibrations via at least one vibration conductor to at least one decoupling point of the vibration conductor. The decoupling point, in turn, is connected to a seat surface of the vehicle seat and transmits the vibrations to the surroundings of the seat surface. Here, the decoupling point is formed along an elongated extension of the vibration conductor and transmits the vibrations to the seat surface. The vibration conductor is connected to the vibration housing and thus to the vibration element at a connection point. These transmitted vibrations into the environment generate a vibration and, in the case of a user, the desired massage on, for example, the user's back or neck.

In other words, the oscillation is generated by means of the oscillation element in such a way that it is passed on via the oscillation frame and via the connection point to the oscillation conductor, which in turn transfers the oscillation to the seat surface via the decoupling point. In particular, a large number of vibration conductors are also possible, which are fastened to the vibration frame via respective connection points. Via the respective decoupling points of the respective oscillation conductors, a single oscillation can be conducted several times onto the seat surface, making the vibration possible. By installing such vibration frames at certain points on the vehicle seat, it is possible, for example, to make several predetermined points on the seat surface of the vehicle seat oscillate or vibrate so that the desired massage of the seat occupant takes place.

In order to make the vibrations of the vibration device as advantageously conductive as possible, in particular to amplify the vibrations, the at least one decoupling point has a narrow point with a second bending strength that is lower relative to the first flexural strength of the remaining decoupling point. The narrow point with the second flexural strength is formed in a central area of the elongated extension of the vibration conductor. This means that the vibration conductor has a change in flexural rigidity in the area of the coupling-out point, for example due to a recess at the narrow point, as a result of which the narrow point is made narrower relative to the thickness of the vibration conductor.

Furthermore, the vibration conductor has a stepped contour which is formed by at least two opposing bending points and is designed to convert a longitudinal vibration of the vibration device into a transverse vibration of the vibration device. A vertical component is achieved in that the vibration conductor is connected perpendicularly to the connection point to the vibration frame. The longitudinal vibration at least partially creates a kink at the narrow point, which generates a vibration across the longitudinal vibration and thus forms the transverse vibration. Furthermore, it is possible to expand the vibration conductor by means of a cross-sectional shape that is advantageous for the vibrations to be transmitted, for example by means of a trapezoidal shape. In other words, it is possible to generate vibrations in such a way that they are passed on via the vibration conductor further developed according to the invention in such a way that they can be transmitted more strongly to the seat surface and thus massage the user more intensely. By transferring the longitudinal vibration into the transverse vibration, it is possible, for example, to generate several types of vibration or vibration possibilities.

An advantageous embodiment of the invention provides that the vibration conductor is made from a fiber-reinforced plastic. The use of a CFRP material is advantageous here, since the transmission of vibrations is very pronounced within the material. Furthermore are a Design and production of the vibration ladder due to the multiple processing options that the CFRP material brings with it, particularly advantageous. It is also possible to use other materials for the vibration conductor, whereby the breaking limit of the material must be taken into account when transmitting vibrations.

Another advantageous embodiment of the invention provides that the vibration conductor has a highly rigid shell with a filled core. Such a hybrid structure is particularly advantageous because the transmission of vibrations through the core is reinforced. Here, for example, the highly rigid shell can be formed from a plastic and the filled core from a metallic material.

A further advantageous embodiment of the invention provides that at least one adapter element is arranged at the decoupling point. This adapter element is arranged, in particular, at the narrow point with the second flexural rigidity, as a result of which transverse vibration can be conducted through the bend produced. Here, the adapter element can be used at the coupling-out point in such a way that no hard edges can be felt on the seat surface, which are caused by the coupling-out point. Furthermore, by means of the adapter element, the vibrations can be transmitted with as little loss as possible. The adapter element therefore has a convex shape with a large radius of curvature on the outside and is seamlessly connected to the vibration conductor on the inside. Further adapter element shapes are adapted to body parts of the user and / or to the location of the vibration device on the vehicle seat.

Furthermore, it is provided in an advantageous embodiment of the invention that at least one second swing element is provided. In particular, it is possible to operate the vibration conductor in different vibration directions so that, for example, each vibration element that is connected to the vibration conductor via the vibration conductor specifies a vibration direction and thus the vibration possibilities of the vibration conductor are expanded. Direct longitudinal as well as transverse vibrations are thus possible. Combinations of both result in further oscillation possibilities.

Finally, it is provided in an advantageous embodiment of the invention that the generation of vibrations, in particular high-frequency vibrations, can be activated by means of an arranged sensor device. Here, the sensor device is arranged, for example, in an interior of the motor vehicle and / or directly on the vehicle seat and has, for example, heat sensors as well as sensors for pulse measurement, by means of which a driver's body temperature and / or pulse can be measured and thereby conclusions can be drawn about the driver's fatigue are. Here, the vibration device has a large number of swing elements at different points of the vehicle seat, in particular in a head area, in particular in a neck area, in particular in a seat area or buttocks area, in particular in a calf area, in particular in a finger area on a steering wheel of the motor vehicle, which is controlled by means of the Sensor device for generating high-frequency vibrations can be activated. It is thus possible for the sensor device designed as a monitoring device to recognize whether the driver of the motor vehicle is getting tired while driving. Physiological stimulation generated by means of the multiplicity of swing elements due to the high-frequency vibrations in all areas that can be activated by means of the sensor device leads, in particular, to the driver receiving an incentive to wake up. In addition, this also leads to an improvement in the physical condition of the driver and ultimately to an increase in driving safety.

In summary, the invention offers a possibility of designing a vibration device in such a way that a massage effect can be generated by mechanical vibrations, which are generated in particular by means of fewer vibration elements or actuators. These vibrations are passed on or coupled into the vibration conductors through the vibration frame and transmitted to the massage points on the seat surface of the vehicle seat. The solution consists in the design of the swing elements and the vibration ladders as well as in the design of the vibration ladders. Particularly advantageous are massages with a large frequency range, a few swing elements that cause the massage at several massage points and an improvement in the massage effect through an optimal frequency and amplitude as well as an improvement in the massage programs.

Further advantages, features and details of the invention emerge from the following description of preferred exemplary embodiments and with reference to the drawings. The features and combinations of features mentioned above in the description as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the combination specified, but also in other combinations or on their own, without the scope of the Invention to leave.

• 1 eine schematische Seitenansicht eines Querschnitts eines Ausführungsbeispiels einer Schwingungseinrichtung zur Erzeugung von Schwingungen zur Nutzung als Massage für einen Nutzer eines Fahrzeugsitzes eines Kraftwagens;
• 2 eine schematische Seitenansicht eines Ausführungsbeispiels eines Schwingungsleiters aus einem Karbonwerkstoff mit einem gefüllten Kern;
• 3 eine schematische Seitenansicht eines weiteren Ausführungsbeispiels des Schwingungsleiters mit verschiedenen Biegefestigkeiten;
• 4 eine schematische Seitenansicht des in 3 dargestellten Ausführungsbeispiels des Schwingungsleiters;
• 5 eine schematische Seitenansicht des Ausführungsbeispiels des in 2 gezeigten Schwingungsleiters mit einem weiteren Schwungelement;
• 6 die in 5 dargestellte schematische Seitenansicht des Ausführungsbeispiels des Schwingungsleiters mit zwei Schwungelementen;
• 7 eine jeweilige schematische Seitenansicht verschiedener Ausführungsbeispiele des in 6 dargestellten Schwingungsleiters mit verschiedenen Schwingungsoptionen.

It shows:

• 1 a schematic side view of a cross section of an embodiment of a vibration device for generating vibrations for use as a massage for a user of a vehicle seat of a motor vehicle;
• 2 a schematic side view of an embodiment of a vibration conductor made of a carbon material with a filled core;
• 3 a schematic side view of a further embodiment of the vibration conductor with different flexural strengths;
• 4th a schematic side view of the in 3 illustrated embodiment of the vibration conductor;
• 5 a schematic side view of the embodiment of the in 2 vibration conductor shown with a further swing element;
• 6th in the 5 illustrated schematic side view of the embodiment of the vibration conductor with two swing elements;
• 7th a respective schematic side view of various embodiments of the in 6th shown vibration conductor with different vibration options.

Identical or functionally identical elements are provided with the same reference symbols in the figures.

1 shows a schematic side view of a cross section of an embodiment of a vibration device 10 for generating vibrations for use as a massage for a user 12th a vehicle seat 14th of a motor vehicle 16 . The vibration device 10 includes a swing element 18th , which is designed in particular as an oscillator, and a vibration frame 20th to transmit the vibrations via at least one vibration conductor 22nd to at least one decoupling point 24 , which extends along an elongated extension X of the vibration conductor 22nd extends. Here shows 1 especially the swing element 18th and a variety of vibration ladders 22nd , which a respective decoupling point 24 exhibit. Also shows 1 another support surface 28 , by means of which the vibrations of the respective decoupling points 24 mechanically to the vehicle seat 14th be transmitted.

The vibration device 10 also has the at least one decoupling point 24 with a narrow point 30th on, which is a relative to the flexural strength B1 the remaining decoupling point 24 lower second flexural strength B2 having. This narrow point 30th is particularly in a middle range 32 the elongated extension X of the vibration conductor 22nd educated. This means that the vibration ladder 22nd in the area of the decoupling point 24 has a change in flexural strength, in particular due to a recess 25th at the narrow point 30th , eliminating the narrow point 30th relative to a thickness of the vibration conductor 22nd is formed narrower.

In addition, the vibration conductor points 22nd a stepped contour 36 on, which by at least two opposing bending points or corners 38 is formed and is furthermore designed to produce a longitudinal vibration L. the vibration device 10 into a transverse vibration T the vibration device 10 to convert. This is created at least partially by means of a kink at the narrow point 30th , which is a vibration transverse to the longitudinal vibration L. generated and thus the transverse vibration T forms. It is also possible to use the vibration conductor 22nd to expand by means of a cross-sectional shape that is advantageous for the vibrations to be transmitted, for example by means of a trapezoidal shape.

Furthermore, in the 1 the vibration device 10 at the decoupling point 24 at least one adapter element 40 on, the arrangement of the adapter element 40 at the decoupling point 24 in 1 is not visible. The adapter element 40 transmits the mechanical vibrations to the support surface 28 , with a vibration at one of the edge of the coupling-out point 24 is at least partially attenuated, and what this edge for the user 12th of the vehicle seat 14th thus is not noticeable.

The 2 , 5 and 6th show a cross section of an embodiment of the vibration conductor 22nd , which is formed in particular from a CFRP material. The vibration conductor 22nd has a highly rigid shell 42 on and a filled core 44 on, whereby the vibration transmission of the vibration conductor 22nd is at least partially increased. In addition, the 2 , 5 and 6th each the swing element 18th on which one for a longitudinal vibration L. responsible is. This means that the vibration ladder 22nd the longitudinal vibration L. of the swing element 18th to the support surface 28 forwards.

In contrast to the 2 and 5 shows 6th an additional second swing element 26th on, by means of which a transverse vibration T by means of the second swing element 26th is also controllable and thereby the oscillation possibilities of the oscillation device 10 are expanded.

4th shows a schematic sectional view of a plan view of a further embodiment of the vibration device 10 , in which in particular the at least one decoupling point 24 the narrow point 30th with the relative to the flexural strength B1 the remaining decoupling point 24 lower second flexural strength B2 having. This narrow point 30th is particularly in the middle range 32 the elongated extension of the vibration conductor 22nd educated. Additionally points 4th a support structure 45 to support the vibration ladder 22nd , a surface material 46 , for example made of leather for a conformity of the vehicle seat 14th and an arranged foam 48 for upholstering the vehicle seat 14th on.

Finally shows 7th a respective schematic side view of various embodiments of the in 6th illustrated vibration conductor 22nd with different oscillation options through different construction options of the swing elements 18th , 26th , which the vibration conductor 22nd are arranged and cause both the longitudinal vibration L. as well as the transverse vibration T is applicable.

The vibration device 10 a sensor device is also arranged, by means of which a large number of swing elements 18th , 26th at various points on the vehicle seat 14th , in particular in a head area, in particular in a neck area, in particular in a seat area or buttocks area, in particular in a calf area, in particular in a finger area on a steering wheel of the motor vehicle 16 , can be activated and in particular generate high-frequency vibrations.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 10320371 A1 [0002]

Claims (6)

Vibration device (10) for generating vibrations for use as a massage for a user (12) of a vehicle seat (14) of a motor vehicle (16), with a vibration element (18) and with a vibration frame (20) for transmitting the vibrations via at least one vibration conductor (22) at at least one decoupling point (24), characterized in that the at least one decoupling point (24) has a narrow point (30) with a second bending stiffness (B2) which is lower relative to the first flexural strength (B1) of the remaining decoupling point (24), which is formed in a central region (32) of an elongated extension of the vibration conductor (22), and that the vibration conductor (22) has a stepped contour (36) which is formed by at least two opposing bending points (38) and is designed for this purpose, to convert a longitudinal vibration (L) of the vibration device (10) into a transverse vibration (T) of the vibration device (10) n. Vibration device (10) according to Claim 1 , characterized in that the vibration conductor (22) is formed from a fiber-reinforced plastic. Vibration device (10) according to Claim 1 or 2 , characterized in that the vibration conductor (22) has a highly rigid sheath (42) with a filled core (44). Vibration device (10) according to one of the preceding claims, characterized in that at least one adapter element (40) is arranged at the decoupling point (24). Oscillation device (10) according to one of the preceding claims, characterized in that at least one second oscillation element (26) is provided. Vibration device (10) according to one of the preceding claims, characterized in that the generation of vibrations can be activated by means of an arranged sensor device.

Images