Resting device for a vehicle
By employing a combination of rigid and soft components in the vehicle parking device, along with a thin-film hinge and a reset element, the problem of insufficient accessibility and reachability of the parking device is solved, reducing the risk of driver distraction and achieving a stable and economical parking solution.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- VOLKSWAGEN AG
- Filing Date
- 2019-04-26
- Publication Date
- 2026-06-09
AI Technical Summary
Existing vehicle parking devices suffer from insufficient accessibility and reachability when using mobile devices, especially when they obstruct the view of the mobile device, which can easily distract the driver.
A placement device is designed, comprising a placement element and an openable cover element. The cover element is made of a rigid component, and the cover element is made of a soft component. They are connected by a thin-film hinge and have a reset element to ensure stable opening and closing, providing stability and reliable visual obstruction.
It improves the accessibility and reachability of mobile devices, reduces the risk of driver distraction, and provides a cost-effective solution that extends the lifespan of the device.
Smart Images

Figure CN112105527B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to an ablage (sometimes called a storage compartment or glove box) for a vehicle, the ablage having at least one resting surface. Furthermore, this invention relates to a method for manufacturing the ablage for a vehicle. Background Technology
[0002] As is known in the prior art, storage devices are used in the area of the vehicle's center console to store small items and / or mobile devices while driving. Here, good accessibility and accessibility of said items or mobile devices are often only achieved when the items or mobile devices are open and accessible. If the mobile device is a mobile phone, the resulting freed-up view of the mobile device can, in some cases, distract the driver. However, when the visibility of the mobile phone is blocked, for example by a roller shutter, cover, or similar object, this results in reduced accessibility.
[0003] This type of shelving device is known from DE 10 2015 222 685 A1, DE 20 2011 105 255 U1 and DE 10 2016 006 346 A1. Summary of the Invention
[0004] Therefore, the objective of this invention is to at least partially eliminate the aforementioned disadvantages. In particular, the objective of this invention is to improve the accessibility and availability of placed items and / or mobile devices in the placement device, and preferably to simultaneously and reliably enable vehicle operation and / or provide a cost-effective solution for the placement device for mobile devices.
[0005] The aforementioned task is accomplished by the placement device according to the invention and by the method according to the invention. Other features and details of the invention are derived from the specification and drawings. Herein, the features and details described in relation to the placement device according to the invention also apply to the features and details described in relation to the method according to the invention, and vice versa, so that the disclosure of various aspects of the invention can always be cross-referenced.
[0006] The task is addressed in particular by a vehicle mounting device, preferably a center bracket, for accommodating at least one mobile device, preferably a mobile phone, the mounting device having:
[0007] - A placement element that forms at least one storage space for accommodating a mobile (i.e., portable) device;
[0008] - A covering element that at least partially covers the receiving space, thereby preferably being able to at least limit the line of sight toward the mobile device in the receiving space;
[0009] - A cover element, which is constructed at the cover element, preferably covering (umfluten) the cover element, and preferably at least partially surrounding the cover element, so that the cover element constitutes a resting surface (especially composed of a soft component).
[0010] Here, in particular, the cover element is configured to be movably, preferably foldably, connected to the placement element and / or at least partially cover the receiving space, wherein, particularly preferably, the cover element is configured to at least stabilize the cover element and / or the entire placement device. This has the advantage of enabling the use of simple stabilization measures to provide a multi-functional placement device at a reasonable cost. Furthermore, the feasibility of covering the receiving space by means of the cover element and / or the cover element has the advantage of limiting the line of sight toward the mobile device, thereby reducing the risk of driver distraction.
[0011] Preferably, the cover element and the cover element are integrally constructed and / or fixedly and / or rigidly connected to each other. Preferably, opening the cover element and / or (and together with) the cover element results in at least partial exposure of the receiving space, and thereby improves accessibility to the receiving space in the open state compared to the closed state of the cover element and / or the cover element. This has the advantage that the mobile device can be more easily removed by opening (i.e., deflecting) the cover element and / or the cover element. In the closed state, the line of sight to the mobile device is restricted, preferably obstructing the line of sight to the device's display screen.
[0012] Preferably, the receiving space is further spatially defined by the bottom and / or wall of the receiving element and / or (at least partially in the closed state) by a covering element and / or a cover element. Areas not thus defined preferably form openings for the receiving space and are preferably used for inserting and removing the mobile device.
[0013] According to another advantage, the covering element can be configured to be made of a rigid component, wherein, preferably, the placement element and the cover element are each made of a soft component. This has the advantage that when articles and / or mobile devices come into contact with the soft component, the articles and / or mobile devices can be reliably and non-sliply accommodated in the placement device, wherein, at the same time, sufficient stability is provided by the rigid component. Here, all components of the placement element and / or cover element can be made of a soft component.
[0014] Furthermore, in the placement device according to the invention, the covering element can be configured such that it is made of a first material, particularly a rigid component, while the placement element and / or cover element is made of a second material, particularly a soft component, wherein the first material is different from the second material. Preferably, the second material can have greater elasticity than the first material, and is thus preferably constructed in a rubber-like manner. In other words, the placement element and / or cover element can also be understood as a rubber pad. Furthermore, the first material or rigid component can have greater hardness than the second material or soft component. Preferably, the first material and / or the second material are respectively implemented as plastics. Preferably, the hardness of the first material and / or the second material can be understood as Shore hardness. For example, the first material and / or the covering element is constructed to be rigid and / or inelastic in order to provide sufficient stability for the placement device. The rigid component can, for example, be a thermoplastic plastic and / or a thermoplastic terpolymer and / or acrylonitrile-butadiene-styrene copolymer (ABS). The soft component of the placement device, particularly the soft component injected into the rigid component, can, for example, be a thermoplastic elastomer (TPE).
[0015] Furthermore, the resting surface and / or bottom of the cover element and / or the soft component can be configured as a resting part for the device and / or other articles to provide cushioning and / or fixation and / or vibration damping and / or improved sliding behavior. For this purpose, the elastic properties of the soft component are utilized in particular. The soft component can correspondingly have higher elasticity than the hard component. The cover element and / or the hard component can be used for stability, preferably as the sole inelastic and / or rigid element of the resting device.
[0016] Furthermore, the placement device according to the invention can optionally be configured as a two-component injection-molded part, preferably as a one-piece and / or integral and / or monolithic component. This achieves a compact structure and particularly cost-effective manufacturing.
[0017] Advantageously, within the scope of the invention, a membrane hinge is provided that connects the cover element and / or the shielding element to the placement element in a flip-open manner. The membrane hinge is advantageously arranged in a region at the rear of the placement device, i.e., on the back side, wherein the rear region may be oriented towards the bottom of the vehicle and / or away from the vehicle interior space and / or away from the driver when the placement device is embedded in the intermediate bracket. This allows the driver to comfortably and easily flip open the cover element to retrieve the mobile device. Preferably, the opening of this receiving space is constructed on the front side of the placement device (i.e., the side facing the driver or vehicle interior space) and is limited by the front edge of the cover element and the front edge of the placement element spaced apart from the front edge of the cover element. Particularly preferably, the opening is configured such that the mobile device can be pushed into the receiving space with the cover element closed (in the case of a slightly open state) without having to flip the cover element open. When the cover element is flipped open, the opening, for example, enlarges. To reliably achieve the opening, the film hinge can be injected into the cover element and / or the placement element, preferably into the back side of the placement device.
[0018] Furthermore, the present invention allows for the arrangement of a membrane hinge in the placement device between the wall element of the cover element and the placement surface. Depending on the arrangement of the placement device in the center bracket or between the dashboard and the center bracket, the wall element can be a rear wall element or a lateral wall element. Preferably, the wall element with the membrane hinge arrangement closest to the placement device is a wall element in the rear region of the placement device that, in the embedded state of the placement device, faces away from the vehicle interior space and / or away from the driver. In the transition region from the wall element to the placement surface, the material thickness of the cover element is reduced and adapted for constructing the membrane hinge in an advantageous manner.
[0019] Furthermore, the present invention allows the storage device to be configured such that the membrane hinge has at least one reset element to support the cover element when transitioning from an open state to a closed state. During operation of the storage device, when the cover element is repeatedly opened and closed, it is possible that the cover element may not independently and completely fall back into its intended closed state. This may occur, for example, when the stress and / or strain of at least one of the elastic elements of the storage device is excessive. Here, there is a risk that the automatic closing of the reversible storage device may no longer be fully maintained after repeated operation. In the worst case, the storage device may be damaged and must be replaced. The reset element advantageously ensures that the cover element reliably reaches its intended closed state. Thus, the service life of the storage device can be significantly extended.
[0020] Furthermore, the present invention allows the at least one reset element to be configured in a spring-loaded and / or elastic manner in the placement device. This allows the cover element to be advantageously spring-loaded from an open state to a closed state. Consequently, the cover element can spring back to the closed state.
[0021] Within the scope of this invention, it is conceivable that the at least one reset element is composed of a soft component. Preferably, the soft component is the same as the soft component of the cover element. In this way, the manufacture of the reset element can be simplified and is preferably achieved together with the construction of the cover element. However, it is also conceivable that the reset element can be subsequently installed on the cover element, for example, by a material-fit connection, such as bonding or welding. Here, the reset element can be made of the same or different material as the cover element.
[0022] Furthermore, the present invention can be configured in the placement device such that the at least one reset element is constructed in the form of an S-shaped contact or a C-shaped contact.
[0023] Therefore, the spring-loaded function can be achieved solely through the shape of the reset element within the range of the reset element. When the cover element is opened, the reset element can be pressed into the curled portion of the S-shaped tab or the circular portion of the C-shaped tab. When the cover element is released, the reset element relaxes and the cover element springs back to the set closed state. Furthermore, it is conceivable that at least one reset element can be constructed in the form of a damping element or a cam, at which the cover element can be easily cushioned.
[0024] Furthermore, the present invention allows the placement device to be configured such that the at least one reset element is constructed between the rear wall element and the lateral wall element of the cover element. A thin-film hinge extends at this location, and the cover element has a contracted portion there. Here, a relatively short adjustment stroke of the reset element can be achieved, thereby enabling the reset element to stably transition the cover element to the set closed state.
[0025] Furthermore, within the scope of the invention, it is feasible for the cover element to have at least one wall element that extends (preferably orthogonally) from the edge of the resting surface and thereby defines the resting surface, thus preferably constructing the cover element as a shell for containing articles. The at least one wall element protects the articles contained in the shell from falling out in this way. Additionally, this can be supported by the resting surface on which the articles are placed being constructed as non-slip and / or made of a soft component and / or constructed as elastic. Furthermore, it is feasible for the (particularly the entire) resting surface to (preferably completely) cover the cover element. This ensures that the contained articles only contact the resting surface and not the cover element, and that the articles are still stably resting on the cover element.
[0026] Preferably, the placement element has at least one wall extending from the bottom edge of the placement element, thereby constructing a housing for the placement element, the housing providing a receiving space for accommodating a mobile device.
[0027] Furthermore, it is feasible for the cover element to completely surround, preferably cover, the covering element (except for at least one side of the covering element), wherein the preferred side extends outside the wall element parallel to the cover element and / or in a plane orthogonal to the placement surface. This ensures that only this area of the covering element is not covered by the cover element and does not come into contact with the article placed in the placement device. This achieves a saving of material that is not necessary for reliable placement.
[0028] Furthermore, the present invention allows the cover element to be configured in a placement device such that it has at least one locking element on one side, the locking element being capable of a detachable form-fit and / or force-fit connection with at least one mating locking element of the placement element, thereby securing the cover element in a closed state. Thus, securing the cover element in a closed state can be achieved in a simple and cost-effective manner. By engaging the locking element with the mating locking element, the closed state is marked, thereby preventing errors in aligning the cover element. Furthermore, by engaging the locking element with the mating locking element, tactile feedback indicating that the closed state has been reliably achieved can be output to the user.
[0029] Alternatively, the placement device can be implemented as a mobile phone placement device, and the covering element can be implemented to completely or partially cover the display screen of the device as a mobile phone. This reduces distraction during driving.
[0030] Furthermore, it is advantageous that the placement device is configured to be embedded in a receiving portion of the vehicle's center bracket, wherein, in particular, the device can be received in the receiving space of the placement element with its narrow side facing inward. Additionally, it is conceivable that the placement device is configured to be embedded in a receiving portion between the vehicle's dashboard and the center bracket, wherein, in particular, the device can be received in the receiving space of the placement element with its wide side facing outward. Thus, flexible embedding of the placement device within the vehicle can be achieved.
[0031] Preferably, the bottom of the mounting element is configured to further guide the electromagnetic signals of the vehicle's coupled antenna, which is adjacent to the bottom, to the device. The coupled antenna is located, for example, directly adjacent to the bottom of the mounting element at the intermediate bracket, and is preferably used to enhance the mobile radio signals of the device and / or to perform wireless charging, i.e., cableless charging, of the device's battery.
[0032] The device can be configured, for example, as a mobile wireless device for mobile radio communication and / or as a smartphone and / or as a tablet device and / or as an electronic terminal device and / or as an entertainment electronic device and / or as a small device. Preferably, the device can have a mobile radio interface and / or a display screen and / or a battery.
[0033] Furthermore, it is advantageous that the vehicle is configured as a motor vehicle, particularly a trackless land motor vehicle, for example, as a hybrid vehicle comprising an internal combustion engine and an electric motor for traction, or as an electric vehicle, preferably equipped with a high-voltage onboard electrical grid and / or an electric motor. In particular, the vehicle can be configured as a fuel cell vehicle and / or a passenger motor. Preferably, in the embodiment of the electric vehicle, no internal combustion engine is provided in the vehicle, and the vehicle is driven solely by electrical energy. Preferably, the vehicle has an intermediate bracket in the vehicle interior space between the driver's seat and the front passenger seat, in which the placement device according to the invention can be embedded.
[0034] Similarly, the subject of this invention is a method for manufacturing a support device for a vehicle, particularly a support device according to the invention, said support device for accommodating at least one mobile device. Here, the following steps are configured to be performed, preferably in any order or in the given order:
[0035] - The support element is made of soft components.
[0036] -The masking element is made of rigid components.
[0037] - The covering element is encapsulated by a soft component to form a cover element.
[0038] - The cover element is preferably connected to the placement element via an injection-formed thin-film hinge, the cover element surrounding the covering element.
[0039] Thus, the method according to the invention brings the same advantages as described in detail with reference to the placement device according to the invention.
[0040] Furthermore, it is feasible to perform at least one of the steps, preferably the manufacture of the placement element and / or the manufacture of the covering element and / or the encapsulation and / or the connection, in a two-component injection molding method.
[0041] In particular, the steps of the method according to the invention in two-component injection molding can be performed in a single mold, or alternatively, at least two molds can be used for these steps or for manufacturing a shelf without using the two-component injection molding method. Attached Figure Description
[0042] Other advantages, features, and details of the invention will become apparent from the following description, in which embodiments of the invention are described in detail with reference to the accompanying drawings. Here, the features mentioned in the claims and in the description are important to the invention individually or in any combination. In the drawings:
[0043] Figure 1 A schematic diagram of the placement device according to the present invention is shown.
[0044] Figure 2 A schematic diagram of the vehicle's center bracket is shown.
[0045] Figure 3 A schematic diagram of the placement device according to the invention in the closed state is shown, wherein the placement device is embedded in the intermediate bracket of the vehicle.
[0046] Figure 4 A schematic diagram of the placement device according to the invention in an open state is shown, wherein the placement device is embedded in the center bracket of the vehicle.
[0047] Figure 5 A schematic diagram of the intermediate bracket receiving portion for the placement device according to the present invention is shown.
[0048] Figure 6 A schematic diagram showing a middle bracket receiving portion with an embedded placement device according to the invention is provided.
[0049] Figure 7 A schematic diagram of the placement device according to the invention in its open state is shown.
[0050] Figure 8 A schematic diagram shows a receiving portion of the device according to the invention for a mounting device with a closed cover element, located between the dashboard and the center bracket.
[0051] Figure 9 A schematic diagram shows a receiving portion of the device according to the invention for a mounting device with a flip-open cover element, located between the dashboard and the center bracket.
[0052] Figure 10 A schematic diagram of a hinge element for opening the cover element is shown.
[0053] Figure 11 A schematic diagram of a hinge element with at least one reset element for the cover element is shown in top view.
[0054] Figure 12 A schematic diagram of a hinge element with at least one reset element for the cover element is shown in a side view. Figure 13 A schematic diagram of a locking element for securing the cover element is shown, and
[0055] Figure 14 A schematic diagram of a locking element used to secure the cover element is shown in cross-section. Detailed Implementation
[0056] In the figures below, the same reference numerals are used for the same technical features, and even for different embodiments, the same reference numerals are used.
[0057] exist Figure 1 The diagram schematically illustrates a placement device 10 according to the invention. Here, the placement device 10 according to the invention is suitable for embedding in the intermediate bracket 3 of a vehicle 2 to accommodate at least one mobile device 1. The mobile device 1 is configured, for example, as a mobile phone, smartphone, or similar device.
[0058] In addition, Figure 1 As shown, the placement device 10 according to the invention can have a covering element 20, which is made of, for example, a rigid component. Furthermore, a cover element 30 and a placement element 40 can be provided, each made of a soft component. The cover element 30 can constitute the upper shell of the placement device 10 according to the invention for accommodating small items. The placement element 40 can constitute the lower shell of the placement device 10 according to the invention for accommodating a mobile device 1. Here, the directional description refers to the vehicle orientation when the placement device 10 according to the invention is embedded in a vehicle or intermediate bracket.
[0059] The placement element 40 can construct a receiving space 41 for accommodating the device 1. The covering element 20 can at least partially cover the receiving space 41 to, for example, block the view towards the display screen 6 of the mobile device 1. The cover element 30 can be constructed at and at least partially surround the covering element 20, thereby constructing a placement surface 31. Thus, the placement surface 31 can provide a non-slip placement device for small items. Figure 1 As can be seen, the cover element 30 completely surrounds or covers the covering element 20, except for at least one side 21 of the covering element 20. Similarly, it can be seen that the side 21 extends in a plane parallel to the outside of the wall element 32 of the cover element 30 and orthogonal to the placement surface 31. Thus, only one such area of the covering element 20 is not covered by the cover element 30, and this area cannot come into contact with the placed article of the placement device 10 according to the invention.
[0060] The placement surface 31 is defined by at least one wall element 32, which extends from and thereby defines the placement surface 31 by an edge 33. The placement element 40 has a shell-like structure, which forms a bottom 42 with a wall portion 43 extending from the edge of the bottom. In this way, the receiving space 41 can be formed such that items or mobile devices 1 located in the receiving space cannot fall out.
[0061] Furthermore, in the placement device 10 according to the present invention Figure 1 A thin-film hinge 50 can be constructed on the back side facing away from the center, so that the covering element 20 or the cover element 30 can be flipped to connect with the placement element 40. This allows: the placement device 10 according to the invention to be in a closed state (in Figure 3 (as shown in the image) transitions to the open state (in...) Figure 4 (As shown in the image).
[0062] exist Figure 2 The diagram schematically shows a center bracket 3 of vehicle 2, which has a receiving portion 4 for the placement device 10 according to the invention. A coupling antenna 5 for signal connection with the mobile device 1 can be integrated into the receiving portion 4. Furthermore, various interfaces 7 for data connection with the mobile device 1, such as a USB interface, can be provided at the center bracket 3. Figure 2 In the diagram, double-headed arrows represent the wide side B and narrow side A of device 1. Figure 2 In one embodiment, the receiving portion 4 is constructed within the intermediate bracket 3. Here, the mobile device 1 is introduced into the receiving space 41 of the placement element 40 with its narrow side A. Within the scope of the invention, except... Figure 2 The receiving portion 4 shown for the placement device 1 according to the invention can also be envisioned as other receiving portions 4 in the vehicle 2. (The following is an explanation of the following...) Figure 8 and 9 We will discuss another feasible receiving portion 4 in vehicle 2 for use with the placement device 10 according to the invention.
[0063] exist Figure 3 and 4 The image shows the placement device 10 according to the invention, embedded in the intermediate bracket 3. It can be seen that even... Figure 3 In the closed state shown, the mobile device 1 can also be easily pushed into the receiving space 41, especially via the narrow side A. Furthermore, to remove the mobile device 1, the placement device 10 according to the invention can... Figure 4 It is turned upside down. The necessary stability for this is provided by the covering element 20.
[0064] exist Figure 5The image shows the receiving portion 4 of the intermediate bracket 3 with other details. It can be seen that a structural adapter 8 for the receiving portion 4 for coupling the antenna 5 can be provided to enable connection between the device 1 and the coupling antenna 5. The corresponding adapter can be provided at the bottom 42 of the supporting element 40, if possible.
[0065] Figure 6 An exemplary configuration of the placement device 10 according to the present invention is shown, in which the mobile device 1 is embedded in the receiving space 41. Here, it is feasible that the mobile device 1 can also be pushed into the receiving space 41 so far that the upper side of the mobile device 1 is completely covered by the placement surface 31 and / or the covering element 20.
[0066] Figure 7 A placement device 10 according to the invention is shown, wherein the cover element 30 is in an open state. This opening is achieved, for example, by a thin-film hinge 50 on the back side of the placement device 10 according to the invention, which extends partially along the edge 33 of the placement surface 31, if possible. Furthermore, in Figure 7 As can be seen, the covering element 20 is encapsulated by a soft component according to a method according to the invention in order to form the covering element 20.
[0067] Figure 8 and 9 This illustration shows another possible receiving portion 4 in the interior space of vehicle 2 for the placement device 10 according to the invention. The receiving portion 4 can be located, for example, between the dashboard 9 and the center bracket 3 of vehicle 2. Here, it is conceivable that the device 1 can be received on its wide side B within the receiving space 41 of the placement element 40. The placement device 10 can be used with... Figure 1 The placement device 10 of device 2 is constructed substantially the same, except that the receiving space 41 is open from the wide side B of the device. Other features of the placement device 10, such as the thin-film hinge 50 for opening the cover element 30, and the reset elements 52, 53 for springing back the cover element 30, may also be present. Figure 8 and 9 The placement device 10 shown.
[0068] Figure 8 and 9 As shown, the cover element 30 may have a soft, resilient groove (rille, sometimes referred to as a raised portion) 23 on its underside to prevent damage to the mobile device 1. On its upper side, for example on the resting surface 31, the cover element 30 may have a structured portion 24, thereby preventing small items from slipping.
[0069] like Figure 10As shown, a membrane hinge 50 can be constructed between the wall element 32 of the cover element 30 and the resting surface 31. The membrane hinge 50 has a flip / rotation axis 51 for opening or closing the cover element 30. Depending on the resting device 10... Figure 2 The arrangement structure in the intermediate bracket 3 or according to Figure 8 Depending on the arrangement between the dashboard 9 and the center bracket 3, the wall element 32 can be a rear wall element 32a or a lateral wall element 32b. Preferably, the membrane hinge 50 is configured such that the wall element 32 is positioned away from the vehicle interior space and / or the driver.
[0070] Such an exterior Figure 11 and 12 As shown, the film hinge 50 can have at least one reset element 52, 53 to support the cover element 30 when changing from an open state to a closed state. Preferably, each reset element 52, 53 can be provided on the end side of the respective wall element 32 on the left and right sides. After compression, the reset element 52 causes the cover element 30 to spring back from the open state to the closed state.
[0071] Within the scope of this invention, it is conceivable that the at least one reset element 52, 53 can be constructed in a spring-like and / or elastic manner. The at least one reset element 52, 53 can be made of, for example, a soft component like the cover element 30 or of other materials.
[0072] exist Figure 11 and 12 Two variations of the reset elements 52 and 53 are shown, namely, in the form of an S-shaped tab 52 or a C-shaped tab 53. This shape of the reset elements 52 and 53 facilitates their springback after compression. When the cover element 30 is opened, the reset elements 52 and 53 are pressed into the curled portion of the S-shaped tab 52 or the circular portion of the C-shaped tab 53. If the cover element 30 is released, the reset elements 52 and 53 relax, and the cover element 30 springs back to its closed state. Other designs of the reset elements 52 and 53 are also conceivable within the scope of the invention, such as in the form of damping elements or cams, to cushion the opening movement of the cover element 30 relative to the corresponding wall element 32.
[0073] Such external reasons Figure 11 and 12 As can be seen, the at least one reset element 52, 53 can be constructed between the rear wall element 32a and the lateral wall element 32b of the cover element 30. A thin-film hinge 50 extends in this region. At the thin-film hinge 50, the cover element 30 has a contraction portion. In this region, a relatively short adjustment stroke of the reset elements 52, 53 can be achieved, so that the cover element 30 can be relatively stably transitioned to the set closed state.
[0074] exist Figure 13 As can be seen, the placement element 40 can have a shaped part in the form of an opening aid 45 so as to make it easy to open the cover element 30.
[0075] also, Figure 13 and 14 As shown, the cover element 20 has at least one locking element 22 on one side 21 (two locking elements 22 are shown exemplarily). The locking element 22 can be disengaged form-fit and / or force-fitted with at least one mating locking element 44 of the resting element 40 in order to secure the cover element 30 in the closed state.
[0076] The above description of various embodiments is merely an example to illustrate the invention. Of course, the features of each embodiment can be freely combined with each other as long as they are technically meaningful, without departing from the scope of the invention.
[0077] List of reference numerals
[0078] 1. Device, mobile phone
[0079] 2 vehicles
[0080] 3 intermediate brackets
[0081] 4. Reception
[0082] 5 Coupled Antenna
[0083] 6 displays
[0084] 7 interfaces
[0085] 8 is used for the structural adapter of 5.
[0086] 9-Dashboard
[0087] 10. Shelving unit
[0088] 20 Covering elements
[0089] 21 Side View
[0090] 22 Locking components
[0091] 23 Grooves
[0092] 24. Structured Department
[0093] 30 Cover Components
[0094] 31. Placement surface
[0095] 32 wall components
[0096] 32a rear wall element
[0097] 32b Lateral wall element
[0098] 33 Edges / Frames
[0099] 40. Component placement
[0100] 41. Capacity
[0101] 42 Bottom
[0102] 43 Wall
[0103] 44 Pairing locking element
[0104] 45. Activate the auxiliary device.
[0105] 50 Membrane hinge
[0106] 51. Flip / Rotate axis
[0107] 52 Reset element, S-shaped connector
[0108] 53 Reset element, C-shaped connector
[0109] Narrow side of A1
[0110] B 1 wide side
Claims
1. A placement device (10) for a vehicle (2), the placement device being used to accommodate at least one mobile device (1), the placement device having: - A placement element (40) configured to accommodate a receiving space (41) for accommodating the device (1); - A covering element (20) that at least partially covers the receiving space (41); - A cover element (30), which is constructed at the cover element (20) and at least partially surrounds the cover element, such that the cover element (30) forms a resting surface (31). in, The placement device (10) is configured to be embedded in the receiving portion (4) of the intermediate bracket (3) of the vehicle (2), or wherein the placement device (10) is configured to be embedded in the receiving portion (4) between the dashboard (9) and the intermediate bracket (3) of the vehicle (2), and The cover element (30) is foldably connected to the placement element (40) and at least partially covers the receiving space (41). The covering element (20) is configured to at least stabilize the cover element (30). The covering element (20) is made of a rigid component, while the placing element (40) and the cover element (30) are respectively made of a soft component. The cover element (30) has at least one wall element (32) that extends at the edge (33) of the resting surface (31) and defines the resting surface (31), thereby constructing a shell for containing articles. The placement device (10) is implemented as a one-piece and / or integrated and / or monolithic unit. The accommodating space has an opening, which is constructed on the side of the device that faces the driver or the interior space of the vehicle.
2. The placement device (10) according to claim 1, characterized in that, The placement device (10) is implemented as a two-component injection molded part.
3. The placement device (10) according to claim 2, characterized in that, The hard component is a first material, and the soft component is a second material.
4. The placement device (10) according to claim 1 or 2, characterized in that, A thin-film hinge (50) is provided, which connects the cover element (30) to the placement element (40) in a flip-open manner.
5. The placement device (10) according to claim 4, characterized in that, The thin-film hinge (50) is constructed between the wall element (32) of the cover element (30) and the resting surface (31).
6. The placement device (10) according to claim 4, characterized in that, The thin-film hinge (50) has at least one reset element (52, 53) to support the cover element (30) when transitioning from an open state to a closed state.
7. The placement device (10) according to claim 6, characterized in that, The at least one reset element (52, 53) is configured to be springy and / or elastic. And / or at least one of the reset elements (52, 53) is made of a soft component.
8. The placement device (10) according to any one of claims 6 to 7, characterized in that, The at least one reset element (52, 53) is constructed in the form of an S-shaped contact (52) or a C-shaped contact (53).
9. The placement device (10) according to any one of claims 6 to 7, characterized in that, The at least one reset element (52, 53) is constructed between the rear wall element (32a) and the lateral wall element (32b) of the cover element (30).
10. The placement device (10) according to claim 1 or 2, characterized in that, The entire placement surface (31) covers the covering element (20).
11. The placement device (10) according to claim 1 or 2, characterized in that, The cover element (30) completely surrounds the cover element (20), except for at least one side (21) of the cover element (20), wherein the side (21) extends in a plane that is parallel to the wall element (32) of the cover element (30) and / or orthogonal to the resting surface (31).
12. The placement device (10) according to claim 11, characterized in that, The cover element (30) completely covers the cover element (20) except for at least one side (21) of the cover element (20).
13. The placement device (10) according to claim 1 or 2, characterized in that, The covering element (20) has at least one locking element (22) on one side (21), which is capable of being disengaged from at least one mating locking element (44) of the placement element (40) in a form-fitting and / or force-fitting connection, so as to fix the cover element (30) in the closed state.
14. The placement device (10) according to claim 1 or 2, characterized in that, The placement device (10) is implemented as a mobile phone placement device, and the covering element (20) is implemented to completely or partially cover the display screen of the mobile device (1).
15. The placement device (10) according to claim 1 or 2, characterized in that, The bottom (42) of the placement element (40) is configured to further guide the electromagnetic signal of the coupled antenna of the vehicle (2) adjacent to the bottom to the device (1).
16. A method for manufacturing a placement device (10) for a vehicle (2), the placement device being for accommodating at least one mobile device (1), wherein the placement device (10) is a placement device (10) according to any one of claims 1 to 15. in, Perform the following steps: -The placement element (40) is made of a soft component. -The masking element (20) is made of a rigid component. - The covering element (20) is encapsulated by a soft component to form a cover element (30). - Connect the cover element (30) to the placement element (40), the cover element surrounding the covering element (20).
17. The method according to claim 16, characterized in that, At least one of the steps is performed in a two-component injection molding method.
18. The method according to claim 17, characterized in that, The manufacturing of the placement element (40) and / or the covering element (20) and / or the enclosure and / or the connection are performed in a two-component injection molding method.