Holding arrangement for holding a weapon, adapter arrangement and storage space
The holding arrangement with dual magnet sides and functional layer addresses the limitations of existing gun holders by allowing secure, one-handed attachment and versatile positioning, while preventing damage to handguns.
Patent Information
- Authority / Receiving Office
- DE · DE
- Patent Type
- Utility models
- Current Assignee / Owner
- HUBENTHAL JENS
- Filing Date
- 2025-02-05
- Publication Date
- 2026-06-11
AI Technical Summary
Existing magnetic gun holders for handguns are limited to a single fixed position, require two-handed installation and removal, and can cause scratches or damage to the weapon over time, posing safety risks.
A holding arrangement with a base body featuring a first and second magnet arrangement on opposing sides, allowing secure two-sided magnetic attachment and removal with one hand, and a functional layer to prevent scratches, along with an adapter arrangement for versatile wall mounting.
Enables secure, ergonomic, and damage-free holding of handguns in various positions, facilitating easy installation and removal, and reducing wear and tear on the weapon.
Smart Images

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Abstract
Description
TECHNICAL AREA
[0001] The present disclosure relates generally and in particular to a holding arrangement for releasably holding a weapon, in particular a handgun, on a wall, an adapter arrangement for the holding arrangement and a storage room with the holding arrangement. TECHNICAL BACKGROUND
[0002] Magnetic holders for attaching objects to a wall are generally known. However, universally applicable holders for firearms or handguns must meet several technical requirements. To ensure versatility, a holder should be adaptable to different weapon positions. One requirement is that the firearm can be securely and ergonomically attached to and removed from the holder. Furthermore, the holder should be compatible with a wide range of firearms and easy to install in gun cabinets.
[0003] Known magnetic gun holders, especially for handguns, are often designed so that the weapon can be held in a single, fixed position. Any deviation from this position during mounting would compromise the secure hold of the weapon. In other known designs, the handgun can only be securely positioned on and removed from the holder using two hands.
[0004] Furthermore, regular use often carries the risk of the holder wearing down and causing scratches or other damage to the weapon. In the worst case, this could pose a safety risk when using the weapon. TASK
[0005] The object of the present invention is therefore to provide an improved holding arrangement for a weapon, in particular for a handgun, in which the disadvantages known above can be at least partially eliminated. SUMMARY
[0006] The present invention solves this problem. According to a first aspect, the present disclosure provides a holding arrangement for releasably holding a weapon, in particular a handgun, on a wall, comprising a base body having a holding profile with a first holding side and a second holding side, a first magnet arrangement and a second magnet arrangement, wherein the first magnet arrangement is arranged in the region of the first holding side and the second magnet arrangement is arranged in the region of the second holding side and act in such a way that the weapon is held on both sides by the first magnet arrangement and the second magnet arrangement together.
[0007] According to a second aspect, the present invention provides an adapter arrangement for mounting on a wall, wherein the adapter arrangement is designed to accommodate the holding arrangement according to the invention.
[0008] According to a third aspect, the present invention provides a storage space for storing a weapon, with the holding arrangement according to the invention.
[0009] Further aspects and features will become apparent from the dependent claims, the accompanying drawing and the following description of embodiments. BRIEF DESCRIPTION OF THE DRAWING
[0010] Exemplary embodiments will now be described by way of example and with reference to the accompanying drawing. This shows: Fig. 1a a perspective view of a holding arrangement according to the invention with a first and a second magnet arrangement; Fig. 1b a perspective view of the holding arrangement according to the invention with a third magnet arrangement; Fig. 2a a perspective view of the holding arrangement according to the invention with an embodiment of the first and the second magnet arrangement; Fig. 2b a perspective view of the holding arrangement according to the invention with an embodiment of the third magnet arrangement; Fig. 3a a top view of the holding arrangement according to the invention; Fig. 3b a schematic sectional view of the holding arrangement according to the invention; Fig. 4 a detailed view of the holding arrangement according to the invention with a first and a holding side Fig. 5 a detailed view of the holding arrangement according to the invention with a mounting side; Fig. 6 a schematic sectional view of the holding arrangement according to the invention with magnetic arrangements; Fig. 7 a schematic representation of the holding arrangement with a weapon against a wall; Fig. Figures 8a to 8c are schematic representations of the holding arrangement on the wall with a weapon in a holding state in various positions in a storage room according to the invention; and Fig. 9 an embodiment of an adapter arrangement according to the invention in an installed state. DESCRIPTION OF EXECUTION FORMS
[0011] Before a detailed description of the embodiment with reference to Fig. 1a. General explanations of the embodiments follow.
[0012] The following embodiments and exemplary embodiments can be combined within the holding arrangement according to the invention.
[0013] There are embodiments in which the holding arrangement for releasably holding a weapon, in particular a handgun, on a wall, comprises a base body having a holding profile with a first holding side and a second holding side, a first magnet arrangement and a second magnet arrangement, wherein the first magnet arrangement is arranged in the area of the first holding side and the second magnet arrangement is arranged in the area of the second holding side and act in such a way that the weapon is held on both sides by the first magnet arrangement and the second magnet arrangement together.
[0014] The holding arrangement can be a holder. The holding arrangement can be a bracket.
[0015] The base body is made of a non-magnetic material. The base body can be made of plastic. The base body can be made of fiber-reinforced plastic. The base body can be made of aluminum. The base body can be made of stainless steel. The base body can be made of another suitable material.
[0016] The first holding side with the first magnet arrangement and the second holding side with the second magnet arrangement can together form a holding angle.
[0017] The dimensions of the first and second mounting sides can be adjusted to suit the dimensions of the weapons being held. This allows the mounting arrangement to be adapted to one or more types of weapons.
[0018] The first magnet arrangement can include one magnet. The first magnet arrangement can include multiple magnets. If there are multiple magnets, they can be arranged side by side in a row. The multiple magnets can be spaced apart from each other. The multiple magnets can be arranged in a row spaced apart from each other.
[0019] The magnet can be a permanent magnet. The permanent magnet can be made of a ferromagnetic material. The ferromagnetic material can be, for example, neodymium-iron-boron (NdFeB), samarium-cobalt (SmCo), or ferrite.
[0020] The magnet can be round, square, rectangular, or any other shape. For example, the magnet can be shaped like a round tablet.
[0021] The above can be applied in the same way to the second magnet arrangement.
[0022] Besides a normal wall, the wall could also be, for example, a wall inside a closet or a vehicle.
[0023] In one embodiment, the second magnetic arrangement can fulfill an additional function besides holding the weapon. The second magnetic arrangement can also be designed and positioned such that it holds the mounting bracket to the wall. In this way, the second magnetic arrangement, together with the first magnetic arrangement, holds the weapon and secures the mounting bracket to the wall. The distance between a surface of the second mounting bracket and the second magnetic arrangement is designed accordingly.
[0024] The weapon, or handgun, can be a pistol or a revolver. The holding device allows a pistol or revolver to be held securely. It is also conceivable that a long gun can be held with the device. For example, the long gun can be held with two holding devices.
[0025] The holding arrangement according to the invention magnetically holds the weapon from two sides simultaneously. This holding from both sides is achieved by the first and second magnetic arrangements. "Two-sided" in this context means that the magnetic arrangements each engage on both sides via their magnetic forces and hold the weapon together.
[0026] The holding device according to the invention allows the weapon to be securely held against the wall in various positions. For example, the weapon can be held horizontally, vertically, or upside down against the wall using the holding device. The holding device can accommodate different types of weapons. Most conventional pistols can be securely held with the device.
[0027] There are embodiments in which the retaining profile is L-shaped and the first retaining side and the second retaining side are aligned perpendicular to each other.
[0028] The first and second mounting sides are aligned at right angles to each other. The first and second mounting sides are arranged in an L-shape relative to each other. The L-shaped mounting profile can be gallows-like.
[0029] This allows the weapon to be held securely in different positions. This makes it possible to hold weapons, especially handguns of various designs.
[0030] There are embodiments in which the first magnet arrangement and the second magnet arrangement act in such a way that the weapon is held simultaneously via a first contact zone and a second contact zone of the weapon.
[0031] The first magnetic arrangement and the second magnetic arrangement act in such a way that the weapon is held simultaneously via a first contact zone and a second contact zone of the weapon.
[0032] The contact zone can be any section of the weapon's surface.
[0033] In a case where the weapon is a pistol, the two contact zones can each be a surface section within the area of the weapon's or pistol's breechblock. In this case, one of the two contact zones can be an upper surface section on the pistol's breechblock. The other contact zone can be a lateral surface section on the pistol's breechblock.
[0034] In a case where the weapon is a revolver, the two contact zones can each be a section of the barrel. Alternatively, both contact zones, or one of the two contact zones, can be located in a section of the revolver's cylinder.
[0035] In one embodiment, the contour of the contact zones can be transferred or mirrored onto a surface of the first holding side and / or the second holding side. This allows the holding arrangement to be further adapted to one or more types or kinds of weapons.
[0036] This allows the weapon to be held securely against the wall in various positions.
[0037] There are embodiments in which a first receiving recess is formed on the first holding side and the first magnet arrangement is arranged within the first receiving recess.
[0038] The arrangement within the first receiving recess can, in this case, mean that the depth of the first receiving recess is chosen such that the first magnet arrangement does not protrude beyond the first retaining surface. The first magnet arrangement can be flush with the first retaining surface in the installed state or be completely recessed within the first receiving recess. The first magnet arrangement can be embedded within the first receiving recess.
[0039] In the case where the first magnet arrangement comprises several magnets arranged side by side in a row, the first receiving recess comprises several smaller receiving recesses arranged side by side in a row.
[0040] The geometry of the first receiving recess can essentially correspond to the geometry of the first magnet array. The first magnet array can have slightly smaller dimensions than the first receiving recess. This allows the first receiving recess to accommodate the first magnet array. For example, the first receiving recess can be round, and the first magnet array can also be round.
[0041] The first receiving recess can be, for example, a bore or a milled groove. The bore or milled groove is formed in the first retaining side.
[0042] The first receiving recess can be blind-shaped. The first magnet assembly can contact the bottom of the blind hole in a mounting position. This allows the first magnet assembly to be positioned at a predetermined location without additional alignment.
[0043] The first magnet assembly can be arranged in the first receiving recess by positive locking, force locking, and / or material locking. The first magnet assembly can be pressed into the first receiving recess. Alternatively or additionally, the first magnet assembly can be glued into the first receiving recess.
[0044] In one embodiment, the first receiving recess can comprise one or more retaining ribs. Each retaining rib runs parallel to a depth axis of the first receiving recess. The multiple retaining ribs are spaced apart from each other in the circumferential direction. The retaining ribs are designed such that they partially reduce the inner dimensions of the first receiving recess. During assembly, the first magnet assembly is pressed into the first receiving recess, thereby pushing the retaining ribs away. The resulting deformation of the retaining ribs holds the first magnet assembly in the first receiving recess.
[0045] This allows the first magnet assembly to be integrated into the base of the holding device in such a way that direct contact between the first magnet assembly and the weapon during holding is avoided. This allows the first magnet assembly to be integrated invisibly into the base of the holding device. The first receiving recess and the arrangement or positioning of the first magnet assembly within this recess allow for the adjustment of the initial magnetic force exerted on the weapon.
[0046] There are embodiments in which a second receiving recess is formed on the second holding side and the second magnet arrangement is arranged within the second receiving recess.
[0047] What has been said previously regarding the first receiving recess and the first magnet arrangement applies in the same way to the second receiving recess and the second magnet arrangement.
[0048] In one embodiment, the second magnet arrangement can be positioned on a side opposite the second mounting side. This opposite side can be a mounting side. In this case, the second receiving recess is formed on the mounting side. The second magnet arrangement can then fulfill the previously described additional function of allowing the mounting assembly to be attached to the wall via the second magnet arrangement. This additional function can be achieved through the specific arrangement or positioning of the second magnet arrangement along a wall between the mounting side and the second mounting side, and by selecting the appropriate magnetic force for the second magnet.
[0049] There are embodiments in which the wall thickness of the retaining profile in the area of the second retaining side is greater than the wall thickness in the area of the first retaining side.
[0050] The wall thickness in the area of the second holding surface can be chosen to allow one hand to be inserted between the weapon and the wall, enabling the weapon to be placed on and removed from the holding device with one hand. For example, the weapon can thus be easily gripped by the handle.
[0051] The wall thickness in the area of the second holding side can be more than twice as large as the wall thickness in the area of the first holding side.
[0052] This allows the weapon to be safely and comfortably placed on and removed from the holding device with one hand – via the grip.
[0053] There are embodiments which further include a functional layer, wherein the functional layer is applied to the first holding side and / or the second holding side.
[0054] The functional layer is applied to the holding side. The following explanations apply equally to the functional layer on the first holding side and the second holding side.
[0055] The functional layer is applied in such a way that the first or second magnet arrangement is completely covered or concealed by the functional layer. The functional layer is applied in such a way that the first or second receiving recess is completely covered by the functional layer. The functional layer can substantially completely cover the first or second retaining side. The functional layer can substantially completely span the first or second retaining side.
[0056] In a case where a functional layer is applied to both the first and second holding surfaces, a separate functional layer can be applied to each surface. Alternatively, a single functional layer spanning both surfaces can be applied.
[0057] The functional layer can be bonded to the base material. For example, the functional layer can be glued to the base material.
[0058] The material of the functional layer has a lower hardness than the material of the base body. The material of the functional layer has a lower hardness than the metallic material of a weapon. The material of the functional layer must be selected to increase friction between the weapon and the gripping surface when held. Furthermore, the material of the functional layer must be selected to prevent abrasion when holding the weapon. The functional layer can be made of a durable elastomer. The functional layer can be made of a thermoplastic elastomer. The functional layer can be made of rubber. The functional layer can be made of thermoplastic polyurethane (TPU). The functional layer can be made of chlorinated polyethylene (CPE). The functional layer can be made of another material with comparable properties.
[0059] This ensures the weapon is held securely and without slippage in the holder. This further reduces the risk of scratches or damage to the weapon. It also reduces wear and tear on the holder and protects the weapon's surface.
[0060] There are embodiments in which a recessed surface is formed on the first holding side and / or on the second holding side, and the functional layer is arranged in the recessed surface.
[0061] The following explanations apply equally to the first holding side and the second holding side.
[0062] The recessed area can be slightly smaller than the mounting surface. The recessed area is set back along one thickness direction of the respective mounting surface.
[0063] The recessed surface has a depth less than the receiving recess. In one embodiment, the depth can range between 0.1 mm and 1.0 mm. The recessed surface completely covers or surrounds the receiving recess.
[0064] The perimeter geometry of the functional layer can correspond to the perimeter geometry of the recessed surface. The functional layer is connected to the recessed surface in the manner described above.
[0065] The thickness of the functional layer can be slightly greater than the depth of the recessed area. In an applied state, the functional layer may extend beyond the bonding surface.
[0066] This ensures the weapon is held securely and without slippage in the holder. This further reduces the risk of scratches or damage to the weapon. This also reduces wear on the functional coating. This also reduces wear on the holder itself.
[0067] There are embodiments in which the base body further comprises a mounting side which is arranged opposite the second holding side on a common base body wall.
[0068] The mounting side and the second support side form the common base body wall. The mounting side forms one wall face of the base body wall, and the second support side forms the opposite wall face of the base body wall.
[0069] In its installed state, the mounting arrangement contacts the wall with the mounting side.
[0070] The base body can be designed such that one surface of the mounting side is larger than one surface of the second holding side.
[0071] This can further simplify or improve the mounting of the bracket assembly on the wall.
[0072] There are embodiments which further include a third magnet arrangement for mounting on the wall, wherein the third magnet arrangement is located in the area of the mounting side.
[0073] The third magnetic arrangement allows the mounting bracket to be detachably attached to the wall.
[0074] The third magnet arrangement can comprise one magnet. The third magnet arrangement can comprise multiple magnets. If there are multiple magnets, they can be arranged side by side in a row. The multiple magnets can be spaced apart from each other. The multiple magnets can be arranged in a row spaced apart from each other. The third magnet arrangement can, for example, comprise one row, two rows, or more rows of multiple magnets.
[0075] The magnet can be a permanent magnet. The permanent magnet can be made of a ferromagnetic material. The ferromagnetic material can be, for example, neodymium-iron-boron (NdFeB), samarium-cobalt (SmCo), or ferrite.
[0076] A third magnetic force of the third magnet assembly must be adjusted or selected such that the mounting bracket remains securely attached to the wall while the weapon is being held. This third magnetic force should be able to support at least the combined weight of the mounting bracket and the weapon on the wall.
[0077] This allows the mounting bracket to be used in a variety of locations. It can be easily installed, enabling the weapon to be securely held on the wall in various positions. For example, the weapon can be held horizontally, vertically, or upside down using the bracket.
[0078] There are embodiments in which a third receiving recess is formed on the mounting side and the third magnet arrangement is arranged within the third receiving recess.
[0079] The third intake recess can be designed in the same way as the first and second intake recesses. The explanations regarding the first and second intake recesses apply equally to the third intake recess.
[0080] The third and second receiving recesses run parallel to each other along the second wall thickness in the depth direction. The third and second magnet arrangements are located in the common base wall.
[0081] The depth of the third receiving recess can be less than half the thickness of the second wall. The depths of the third receiving recess and the second receiving recess can be matched such that a gap in the wall between the third and second receiving recesses shields the magnetic forces of the third and second magnet arrangements from each other.
[0082] This allows the third magnet arrangement to be invisibly integrated into the base of the mounting bracket. This makes the mounting bracket multifunctional and suitable for use in various locations. It also allows for easy and straightforward installation of the mounting bracket, enabling the weapon to be securely held on the wall in various positions.
[0083] There are embodiments in which a third magnetic force of the third magnet arrangement is greater than a holding force acting on the weapon resulting from the first magnet arrangement and the second magnet arrangement.
[0084] The first magnetic array exerts its force with the first magnetic force. The second magnetic array exerts its force with the second magnetic force. The holding force acting on the weapon results from the first magnetic force and the second magnetic force.
[0085] The third magnetic force and the resulting holding force acting on the weapon are adjusted and balanced in such a way that the weapon can be removed from the holder without the holder detaching from the wall. The same applies when the weapon is placed on the holder. Both when the weapon is removed and when it is placed on the holder, the holder remains in position on the wall.
[0086] The magnetic force can be adjusted, for example, by changing the size and / or number of magnets in the respective magnetic arrangement. Additionally or alternatively, the magnetic force can be adjusted by changing the positioning within the base of the holding assembly.
[0087] This ensures that the weapon can be securely held or positioned on the wall in various positions. This allows the mounting bracket to be securely held or positioned on the wall.
[0088] There are embodiments which further include a non-slip mounting layer, wherein the mounting layer is applied to the mounting surface.
[0089] The mounting layer can be applied or attached in the same way as the functional layer.
[0090] The mounting layer material is a material that increases friction between the mounting surface and the wall. This material can be foam or sponge rubber.
[0091] The mounting layer fulfills, among other things, the task of ensuring that the mounting arrangement can be installed on the wall in a non-slip manner.
[0092] A recessed surface may be formed on the mounting side. This recessed surface may be designed in the same way as a recessed surface on a holding side.
[0093] This ensures the mounting bracket is held securely and without slipping on the wall. This further reduces the risk of scratches or damage to the wall.
[0094] There are embodiments in which the base body is made in one piece.
[0095] The base body can be additively manufactured. The base body can be injection molded. The base body can be manufactured by machining.
[0096] The basic geometry of the base body can be adapted according to the requirements profile or weapon geometry.
[0097] The manufacturing technique is chosen according to the material and the quantity of the holding arrangement.
[0098] This can save costs. This can save weight.
[0099] A second aspect of the present invention relates to an adapter arrangement for mounting on a wall, wherein the adapter arrangement is designed to accommodate the holding arrangement according to the invention.
[0100] The adapter arrangement can be plate-shaped. The adapter arrangement can be bowl-shaped. The adapter arrangement can itself be a magnet or comprise a magnetic array. The adapter arrangement can include a metallic element that is magnetic.
[0101] The holding arrangement can be attached to the adapter arrangement via the magnetic force of the third magnet arrangement.
[0102] The mounting bracket can be attached to the wall using magnetic force or an additional fastener. This additional fastener could be, for example, a screw connection or an adhesive bond. The adapter assembly can also be permanently attached to the wall.
[0103] Additionally, a positioning recess can be formed in one side of the holding assembly. The circumferential geometry of the positioning recess can correspond to the circumferential geometry of the mounting side. The circumferential geometry of the mounting side can be slightly smaller than the circumferential geometry of the positioning recess. This allows the holding assembly to be detachably inserted into the positioning recess. This allows the holding assembly to be positioned within the positioning recess.
[0104] The adapter arrangement allows the mounting bracket to be securely held in various positions on the wall. The adapter arrangement ensures the mounting bracket is securely positioned on the wall and prevents it from slipping.
[0105] A third aspect of the present invention relates to a storage space for storing a weapon, with the holding arrangement according to the invention.
[0106] The storage space can be a gun cabinet. The gun cabinet can include multiple holding arrangements.
[0107] The storage area can include a magnetic wall. The storage area can include a wall with a magnetic section.
[0108] The mounting bracket can be detachably attached to a magnetic wall inside the gun cabinet.
[0109] Additionally or alternatively, the storage space can include the adapter arrangement according to the invention. The adapter arrangement can be permanently or detachably mounted on a wall of the storage space.
[0110] Returning to Fig. Figure 1a shows a perspective view of a holding arrangement 1 according to the invention with a first magnet arrangement 11 and a second magnet arrangement 13.
[0111] The holding assembly 1 has a one-piece base body 3 with a holding profile 5. The holding profile 5 is L-shaped. The holding profile 5 has a first holding side 7 and a second holding side 9. The first magnet assembly 11 is arranged in the area of the first holding side 7. The second magnet assembly 13 is arranged in the area of the second holding side 9. The first holding side 7 and the second holding side 9 are aligned perpendicular to each other.
[0112] The first magnetic arrangement 11 acts such that a nearby object or weapon (not shown) is attracted in one direction towards the first holding side 7 by a first magnetic force F1 (not shown). The second magnetic arrangement 13 acts such that the nearby object is simultaneously attracted in one direction towards the second holding side 9 by a second magnetic force F2 (not shown).
[0113] Optionally, the second magnetic arrangement 13 acts in such a way that the holding arrangement 1 is held by the second magnetic force F2 in addition to being mounted on a wall.
[0114] Fig. Figure 1b shows a perspective view of the holding arrangement 1 according to the invention with a third magnet arrangement 23.
[0115] The third magnet arrangement 23 is located in the area of a mounting side 21. The mounting side 21 is located on a rear side of the holding arrangement 1. The mounting side 21 is located opposite the second holding side 9. The mounting side 21 and the second holding side 9 form a common base body wall of the base body 3.
[0116] The third magnetic arrangement 23 acts in such a way that the holding arrangement 1 can be mounted or attached to a wall via a third magnetic force F3 (not shown).
[0117] The three magnetic forces F1, F2, F3 are designed such that the third magnetic force F3 is greater than a holding force FH to hold the object, which results from the first magnetic force F1 and the second magnetic force F2.
[0118] Fig. Figure 2a shows a perspective view of the holding arrangement 1 according to the invention with an embodiment of the first magnet arrangement 11 and the second magnet arrangement 13.
[0119] A first receiving recess 15 is formed on the first retaining side 7. The first receiving recess 15 comprises three circular recesses 15a, 15b, 15c. The three circular recesses 15a, 15b, 15c are arranged in a row along the first retaining side 7, spaced apart from one another. Each of the recesses 15a, 15b, 15c holds a magnet 11a, 11b, 11c of the first magnet arrangement 11. Alternatively or additionally, each magnet 11a, 11b, 11c can comprise one or more magnets.
[0120] A second receiving recess 17 is formed on the second retaining side 9. The second receiving recess 17 comprises round recesses 17a, 17b, 17c. The three round recesses 17a, 17b, 17c are arranged in a row along the second retaining side 9, spaced apart from one another. Each of the recesses 17a, 17b, 17c holds a magnet 13a, 13b, 13c of the second magnet arrangement 13. Alternatively or additionally, each magnet 13a, 13b, 13c can comprise one or more magnets.
[0121] The in Fig. The first magnet arrangement 11 shown in Figure 2a, comprising magnets 11a, 11b, 11c, and the second magnet arrangement 13, comprising magnets 13a, 13b, 13c, act in the same manner as in Figure 2a. Fig. 1a described.
[0122] Fig. Figure 2b shows a perspective view of the holding arrangement 1 according to the invention with an embodiment of the third magnet arrangement 23.
[0123] A third receiving recess 25 is formed on the mounting side 21. The third receiving recess 15 comprises round recesses 25a, 25b, 25c, 25d, 25e, 25f. The six round recesses 25a to 25f are arranged in two rows spaced apart from each other along the mounting side 21. The two rows run parallel to each other. Three round recesses 25a, 25b, 25c run along a first row. Three round recesses 25d, 25e, 25f run along a second row. A magnet 23a, 23b, 23c, 23d, 23e, 23f of the third magnet arrangement 23 is arranged in each of the recesses 25a to 25f. Alternatively or additionally, each magnet 23a to 23f can comprise one or more magnets.
[0124] The in the Fig. The embodiments described in 1a to 2b can be combined arbitrarily within the holding arrangement 1 according to the invention.
[0125] Fig. Figure 3a shows a top view of the second holding side 9 of the holding arrangement 1 according to the invention.
[0126] Unlike Fig. 2a comprises the second receiving recess 17 round recesses 17 with retaining ribs 18. Each round recess 17 includes several retaining ribs 18. The retaining ribs 18 are spaced apart from each other along a circumferential direction within the round recesses 17. The retaining ribs 18 project into the round recess 17.
[0127] The first receiving recess 15 includes the support platforms 18 in the same manner (not shown). The third receiving recess 25 includes the support platforms 18 in the same manner (not shown).
[0128] Fig. Figure 3b shows a schematic sectional view of the holding arrangement 1 according to the invention. The sectional view corresponds to a section AA through the in Fig. 3a shown holding arrangement 1.
[0129] The retaining profile 5 has a first wall thickness S1 and a second wall thickness S2. The first wall thickness S1 is the wall thickness of the wall that runs behind the first retaining side 7. The second wall thickness S2 is the wall thickness of the wall that runs behind the second retaining side 9. The second wall thickness S2 is greater than the first wall thickness S1.
[0130] The first receiving recess 15 is designed as a blind hole. The blind hole of the first receiving recess 15 extends from the first retaining side 7 along the wall thickness S1.
[0131] The second receiving recess 17 is designed as a blind hole. The blind hole of the second receiving recess 17 extends from the second retaining side 9 along the wall thickness S2. The depth of the blind hole of the second receiving recess 17 is less than half the wall thickness S2.
[0132] The third receiving recess 25 is designed as a blind hole. The blind hole of the third receiving recess 25 extends from the mounting side 21 along the wall thickness S2. The depth of the blind hole of the third receiving recess 25 is less than half the wall thickness S2. Within the common base body wall, there is a gap between the second receiving recess 17 and the third receiving recess 25.
[0133] A first recessed surface 7a is formed on the first retaining side 7. The first recessed surface 7a completely covers the first receiving recess 15. The depth of the first recessed surface 7a is less than the depth of the blind hole of the first receiving recess 15.
[0134] A second recessed surface 9a is formed on the second retaining side 9. The second recessed surface 9a completely covers the second receiving recess 17. The depth of the second recessed surface 9a is less than the depth of the blind hole of the second receiving recess 17.
[0135] A third recessed surface 21a is formed on the mounting side 21. The third recessed surface 21a completely covers the third receiving recess 25. The depth of the third recessed surface 21a is less than the depth of the blind hole of the third receiving recess 25.
[0136] Fig. Figure 4 shows a perspective detail view of the holding arrangement 1 according to the invention with the first holding side 7 and the second holding side 9.
[0137] The transition between the first holding side 7 and the second holding side 9 is chamfered.
[0138] A transition within the first support side 7 to the recessed surface 7a is frame-shaped. A transition within the second support side 9 to the recessed surface 9a is frame-shaped.
[0139] The retaining webs 18 of the first receiving recess 15 each run in a depth direction along the first receiving recess 15. The retaining webs 18 of the second receiving recess 17 each run in a depth direction along the second receiving recess 17.
[0140] Fig. Figure 5 shows a detailed view of the mounting side 21 of the holding arrangement 1 according to the invention.
[0141] The support ribs 18 of the third receiving recess 25 each run in a depth direction along the third receiving recess 25.
[0142] Fig. Figure 6 shows a schematic sectional view of the holding arrangement 1 according to the invention.
[0143] The holding arrangement 1 in Fig. 6 essentially corresponds to the one in Fig. The holding arrangement 1 shown in 3b has additional features. The following discussion focuses exclusively on the additional features shown in Fig. 3b are not shown.
[0144] The first magnet assembly 11 is completely located within the first receiving recess 15. The first magnet assembly 11 is held in the first receiving recess 15 by the retaining ribs 18. A first functional layer 19a is applied to the first retaining surface 7. The first functional layer 19a completely covers the first receiving recess 15 containing the first magnet assembly 11. The first functional layer 19a is located in the first recessed area 7a. The first functional layer 19a completely fills the first recessed area 7a. The thickness of the first functional layer 19a is slightly greater than the depth of the first recessed area 7a. The first functional layer 19a projects slightly beyond the first retaining surface 7.
[0145] The second magnet assembly 13 is completely located within the second receiving recess 17. The second magnet assembly 13 is held in the second receiving recess 17 by the retaining ribs 18. A second functional layer 19b is applied to the second retaining surface 9. The second functional layer 19b completely covers the second receiving recess 17 with the second magnet assembly 13. The second functional layer 19b is located in the second recessed surface 9a. The second functional layer 19b completely fills the second recessed surface 9a. The thickness of the second functional layer 19b is slightly greater than the depth of the second recessed surface 9a. The second functional layer 19b projects slightly beyond the second retaining surface 9.
[0146] The third magnet assembly 23 is completely located within the third receiving recess 25. The third magnet assembly 23 is held in the third receiving recess 25 by the retaining ribs 18. A mounting layer 27 is applied to the mounting side 21. The mounting layer 27 completely covers the third receiving recess 25 with the third magnet assembly 23. The mounting layer 27 is located in the third recessed area 21a. The mounting layer 27 completely fills the third recessed area 21a. The thickness of the mounting layer 27 is slightly greater than the depth of the third recessed area 21a. The mounting layer 27 projects slightly beyond the mounting side 21.
[0147] Fig. Figure 7 shows a schematic representation of the holding arrangement 1 according to the invention with a weapon 100 on a wall 210. The wall 210 is, for example, part of a storage room 200.
[0148] The holding arrangement 1 is mounted or held on the wall 200, 210 via the third magnet arrangement 23 with the magnetic force F3.
[0149] The weapon 100 has a first contact zone 101 in an upper area and a second contact zone 102 in a lateral area. The first magnet arrangement 11 and the second magnet arrangement 13 act such that the weapon 100 is held simultaneously by the first contact zone 101 and the second contact zone 102. The weapon 100 is held by the holding force FH resulting from the first magnetic force F1 (schematic arrow) and the second magnetic force F2. The holding force FH is less than the third magnetic force F3.
[0150] When held by the holding arrangement 1, the weapon 100 is at a distance from the wall 200 that corresponds approximately to the wall thickness S2.
[0151] The Fig. Figures 8a to 8c each show a schematic representation of the holding arrangement 1 with the weapon 100 in a holding state in various positions on a wall 210 in the storage room 200 according to the invention. The storage room 200 is only shown schematically for clarity.
[0152] In the Fig. In sections 8a to 8c, the weapon 100 is held in the area of a breechblock. In this case, one of the two contact zones 101, 102 is located in the upper area of the breechblock, and the other contact zone 101, 102 is located in the lateral area of the breechblock. The dashed lines represent concealed edges.
[0153] In Fig. 8a The weapon 100 is oriented perpendicular to the wall 210 or in the storage room 200. The barrel or the breechblock of the weapon 100 runs parallel to and spaced apart from the wall 210. A lower base surface of a grip of the weapon 100 is oriented essentially parallel to the plane of the wall 210.
[0154] In Fig. 8b The weapon 100 is aligned perpendicular to the wall 210 or in the storage room 200. The barrel or the breechblock of the weapon 100 runs parallel to and spaced apart from the wall 210. The lower base of the grip of the weapon 100 is essentially perpendicular to the plane of the wall 210.
[0155] In Fig. In 8c, weapon 100 is aligned horizontally to wall 210 or in storage room 200. The barrel or breechblock of weapon 100 runs parallel to and spaced apart from wall 210. The lower base of the grip of weapon 100 is essentially perpendicular to the plane of wall 210.
[0156] Fig. Figure 9 shows an embodiment of an adapter arrangement 50 according to the invention in an installed state.
[0157] The adapter assembly 50 is positioned between the mounting assembly 1 and the wall 210. The adapter assembly 50 is attached to the wall 210 by a fastener 53.
[0158] The adapter assembly 50 receives the holding assembly 1. A positioning recess 51 is formed on one side facing the holding assembly 1. The holding assembly 1 is detachably seated in the positioning recess 51.
[0159] Optionally, the adapter arrangement 50 includes a magnetic arrangement 55 or a magnetic element 55. The holding arrangement 1 is detachably mounted on the adapter arrangement 50 via the third magnetic arrangement 23 and the element 55.
[0160] The holding arrangement according to the invention is not limited to the use of weapons, in particular handguns. The holding arrangement according to the invention can also be used for any other objects with magnetic contact zones. Other objects include, for example, tools, kitchen utensils, electronic devices, or other items of any kind.
[0161] Further embodiments and variants of the invention will become apparent to the person skilled in the art within the scope of the claims. REFERENCE MARK LIST 1 Holding arrangement 3 basic shapes 5 retaining profile 7 First holding side 7a Recessed area 9 Second holding side 9a Recessed area 11 First magnet arrangement 13 Second magnet arrangement 15 First admission procedure 17 Second admission procedure 18 landing stage 19a Functional layer 19b Functional layer 21 Assembly page 21a Recessed area 23 Third magnet arrangement 25 Third admission exemption 27 Assembly layer 50 adapter arrangement 51 Positioning recess 53 Fasteners 55 Magnetic arrangement / metallic element 100 weapons 101 First Contact Zone 102 Second contact zone 200 storage space 210 wall FH holding force F1 First magnetic force F2 Second magnetic force F3 Third magnetic force S1 wall thickness in the area of the first holding side S2 wall thickness in the area of the second holding side
Claims
[1] Holding arrangement (1) for releasably holding a weapon (100), in particular a handgun, on a wall, comprising a base body (3) having a holding profile (5) with a first holding side (7) and a second holding side (9), a first magnet arrangement (11) and a second magnet arrangement (13), wherein the first magnet arrangement (11) is arranged in the area of the first holding side (7) and the second magnet arrangement (13) is arranged in the area of the second holding side (9) and act in such a way that the weapon (100) is held on both sides by the first magnet arrangement (11) and the second magnet arrangement (13). [2] Holding arrangement (1) according to claim 1, wherein the holding profile (5) is L-shaped and the first holding side (7) and the second holding side (9) are aligned perpendicular to each other. [3] Holding arrangement (1) according to claim 1 or 2, wherein the first magnet arrangement (11) and the second magnet arrangement (13) act such that the weapon (100) is held simultaneously via a first contact zone (101) and a second contact zone (102) of the weapon (100). [4] Holding arrangement (1) according to one of the preceding claims, wherein a first receiving recess (15) is formed on the first holding side (7) and the first magnet arrangement (11) is arranged within the first receiving recess (15). [5] Holding arrangement (1) according to one of the preceding claims, wherein a second receiving recess (17) is formed on the second holding side (9) and the second magnet arrangement (13) is arranged within the second receiving recess (17). [6] Holding arrangement (1) according to one of the preceding claims, wherein a wall thickness (S2) of the holding profile (5) in the area of the second holding side (9) is greater than a wall thickness (S1) in the area of the first holding side (7). [7] Holding arrangement (1) according to one of the preceding claims, further comprising a functional layer (19a, 19b) wherein the functional layer (19) is applied to the first holding side (7) and / or the second holding side (9). [8] Holding arrangement (1) according to claim 7, wherein a recessed surface (7a, 9a) is formed on the first holding side (7) and / or the second holding side (9) and the functional layer (19a, 19b) is arranged in the recessed surface (7a, 9a). [9] Holding arrangement (1) according to one of the preceding claims, wherein the base body (3) further comprises a mounting side (21) which is arranged opposite the second holding side (9) on a common base body wall. [10] Holding arrangement (1) according to claim 9, further comprising a third magnet arrangement (23) for mounting on the wall, wherein the third magnet arrangement (23) is arranged in the area of the mounting side (21). [11] Holding arrangement (1) according to claim 10, wherein a third receiving recess (25) is formed on the mounting side (21) and the third magnet arrangement (23) is arranged within the third receiving recess (25). [12] Holding arrangement (1) according to claim 10 or 11, wherein a third magnetic force (F3) of the third magnet arrangement (23) is greater than a holding force (FH) acting on the weapon (100) resulting from the first magnet arrangement (11) and the second magnet arrangement (13). [13] Holding arrangement (1) according to one of claims 10 to 12, further comprising a non-slip mounting layer (27), wherein the mounting layer (27) is applied to the mounting side (21). [14] Holding arrangement (1) according to one of the preceding claims, wherein the base body (3) is made in one piece. [15] Adapter arrangement (50) for mounting on a wall, wherein the adapter arrangement (50) is designed to accommodate a holding arrangement (1) according to one of the preceding claims. [16] Storage space (200) for storing a weapon (100), with a holding arrangement (1) according to one of claims 1 to 14.