CROSS REFERENCE TO RELATED APPLICATIONS

[0001] This application claims the benefit under 35 U.S.C. § 119(e) to U.S. Provisional Patent Application No. 63249387, filed Sep. 28, 2021, entitled "METHOD AND APPARATUS FOR REDUCING DYNAMIC FORCES ON DOORS AND WINDOWS AND WALLS AND THEIR SUPPORTS" and U.S. Non-Provisional Patent Application No. 17/929,727 filed Sep. 5, 2022 entitled "METHOD AND APPARATUS FOR REDUCING DYNAMIC FORCES ON DOORS AND WINDOWS AND BARRIERS AND THEIR SUPPORTS", which are incorporated herein by reference in its entirety.

BACKGROUND OF THE DISCLOSURE

[0002] The present disclosure generally relates to doors and windows and barriers, and more specifically, to reducing dynamic forces on doors and windows and barriers and their supports.

SUMMARY OFTHE DISCLOSURE

[0003] In accordance with one embodiment an apparatus for reducing dynamic forces on doors and windows and barriers and their supports comprises at least one impact receiver 10 on sides of the doors and windows and barriers that receive the dynamic forces and at least one impact reducer 20 transferring the dynamic forces from the impact receiver 10 to the supports while undergoing elastic deformation. Elastic deformation of the impact reducer 20 elongates the duration of the dynamic forces and reduces the dynamic forces on the doors and windows and barriers and their supports.

[0004] Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one coupling means 40 for keeping the impact receiver 10 and the impact reducer 20 contiguous without transferring the dynamic forces from the impact receiver 10 to the supports. [0005] Another embodiment comprises ot at least one impact receiver 10 and at least one impact reducer 20 and at least one joint 50 guiding the impact receiver 10 towards the impact reducer 20.

[0006] Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one coupling means 40 and at least one joint 50.

[0007] Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 receiving the dynamic forces from the impact reducer 20 and transferring it to the supports. Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and at least one coupling means 40.

[0008] Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and at least one joint 50.

[0009] Another embodiment comprises of at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and at least one coupling means 40 and at least one joint 50.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] In the drawings, related figures have the same number with different alphabetic suffixes.

[0011] FIG. 1A is a comprehensive isometric view of the first embodiment;

[0012] FIG. IB is an isometric view of the first embodiment before the dynamic forces are applied;

[0013] FIG.1C is a cross-sectional view taken along line 1-1 of FIG. IB before the dynamic forces are applied;

[0014] FIG. ID is an enlarged view of the encircled portion labeled 1 in FIG.1C before the dynamic forces are applied;

[0015] FIG. IE is an enlarged view of the encircled portion labeled 1 in FIG.1C while the dynamic forces are applied;

[0016] FIG.2A is an isometric exploded view of the second embodiment; [0017] FIG.2B is an isometric view of the second embodiment before the dynamic forces are applied;

[0018] FIG.2C is a cross-sectional view taken along line 2-2 of FIG.2B before the dynamic forces are applied;

[0019] FIG.2D is an enlarged view of the encircled portion labeled 2 in FIG.2C before the dynamic forces are applied; and

[0020] FIG.2E is an enlarged view of the encircled portion labeled 2 in FIG.2C while the dynamic forces are applied.

REFERENCE NUMERALS OF THE DRAWINGS

DETAILED DESCRIPTION

[0021] The first embodiment is illustrated in Fig.lA (exploded isometric view) and Fig. IB (isometric view) and Fig.lC (cross-sectional view) and Fig. ID (enlarged cross-sectional view). It comprises an impact receiver 10, an impact reducer 20, a backing 30, a plurality of couplers 40, and a joint 50.

[0022] The impact receiver 10 comprises a plate 12 made from steel and peripheral stiffeners 14 and horizontal and vertical intermediate stiffeners 16 made from steel welded to surface 13 of the plate 12 at predetermined distances. The impact reducer 20 comprises elastically deformable steel springs 22 and foams 24 disposed against the surface 13 of the plate 12 at predetermined locations between the peripheral stiffeners 14 and intermediate stiffeners 16. The backing 30 comprises a plate 32 made from steel and peripheral stiffeners 34 made from steel welded to the surface 33 of the plate 32. The length between the peripheral stiffeners 34 of the backing 30 is slightly larger than the exterior length of the impact receiver 10. Couplers 40, as seen in Figures ID and IE, comprise L-shaped latches 42 attached to the surface 13 of the plate 12, and their corresponding holes 44 on the plate 32 of the backing 30.

[0023] The impact receiver 10 and the impact reducer 20 are inserted in the backing 30 to make the impact reducer 20 touch the surface 33 of the plate 32 and so that the coupler latches 42 projecting outward from the surface 13 are aligned with and extend outward from their corresponding holes 44. The end pieces 42a of the L-shaped latches 42 are welded to the base piece 42b after the insertion. The joint 50, as seen in Figure 1C, comprises the surfaces 15 of the impact receiver 10 and the surfaces 35 of the backing 30. The surfaces 15 and/or 35 are coated with a low-friction material.

[0024] The operation of the first embodiment is illustrated in Fig. IE (which illustrates an enlarged cross-sectional view while dynamic forces are applied). The impact receiver 10 receives the dynamic forces from its source and starts moving towards the plate 32 of the backing 30. Joint 50 guides the impact receiver 10 towards the impact reducer 20. The low- friction material coating on the surface 15 and surface 35 of the joint 50 reduces the friction and prevents sticking of the joint 50. Stiffeners 34 of the backing 30 reduce tilting of the impact receiver 10 inside the backing 30. This makes the elastic deformation of the impact reducer 20 more uniform when the dynamic forces are applied to other than the center of the impact receiver 10. Couplers 40 keep the impact receiver 10, the impact reducer 20, and the backing 30 contiguous before, during, and after the dynamic forces are applied. Elastic deformation of the impact reducer 20 elongates the duration of the dynamic forces and reduces the dynamic forces. Deformation of the impact receiver 10 and the backing 30 further elongates the duration of the dynamic force, and reduces the dynamic forces. Elastic deformation of the impact reducer 20 is larger than the deformation of the backing 30. The damping effect of the foam materials 24 diminish the vibration after the application of the dynamic forces and thereby reduces damage from resonating loads. [0025] The second embodiment is illustrated in Fig.2A (exploded isometric view) and Fig.2B (isometric view) and Fig.2C (cross-sectional view) and Fig.2D (enlarged cross- sectional view). It comprises an impact receiver 10, an impact reducer 20, a backing 30, and a joint 50. The impact receiver 10 is made of an impact and blast-resistant glass sheet and the impact reducer 20 is made of an elastically deformable frame-shaped foam. The backing 30 comprises four plates 32 made of aluminum and a peripheral frame 34 made of aluminum. First, the impact receiver 10 is placed in the peripheral frame 34. Next, the impact reducer 20 is glued to the impact receiver 10. Finally, the plates 32 are embedded in the frame 34. The joint 50 comprises the surfaces 15 of the impact receiver 10 and the surfaces 35 of the backing 30. The surfaces 15 and/or 35 are coated with a low-friction material.

[0026] The operation of the second embodiment is illustrated in Fig.2E (enlarged cross- sectional view during the application of the dynamic force). The impact receiver 10 receives the dynamic forces from its source and starts moving towards the backing 30. Joint 50 guides the impact receiver 10 towards the impact reducer 20. The low-friction material coating on the surfaces 15 of the joint 50 reduces the friction and prevents sticking of the joint 50. Peripheral frame 34 of the backing 30 reduces tilting of the impact receiver 10 inside the backing 30. This makes the elastic deformation of the impact reducer 20 more uniform when the dynamic forces are not applied on the center of the impact receiver 10. Elastic deformation of the impact reducer 20 elongates the duration of the dynamic force, and reduces the dynamic forces. Deformation of the backing 30 further elongates the duration of the dynamic force, and reduces the dynamic forces. Elastic deformation of the impact reducer 20 is larger than the deformation of the backing 30. Damping effect of the foam 24 diminishes the vibration after the application of the dynamic force, and reduces damages from resonating loads.

[0027] Applications: One application of the method and apparatus for reducing dynamic forces is in construction of doors. Another application is in construction of windows. Another application is in construction of barriers. Another application is in construction of security doors. Another application is in construction of security windows. Another application is in construction of security barriers. Another application is in construction of blast-resistant doors. Another application is in construction of blast-resistant windows. Another application is in construction of blast-resistant barriers.

[0028] Association/Connection: There are various possibilities with regard to connecting the impact reducer 20 to the impact receiver 10 and backing 30. In one configuration, the impact reducer 20 is attached to the impact receiver 10. In another configuration, the impact reducer 20 is attached to the backing 30. In another configuration, the impact reducer 20 is attached to both the impact receiver 10 and the backing 30. In another configuration, the impact reducer 20 is detached from both the impact receiver 10 and the backing 30.

[0029] Construction: There are also various methods to attach the parts of the impact receiver 10, impact reducer 20, backing 30, coupler 40, and joint 50. These include fastening, inserting, using adhesives, welding, and other attachment methods.

[0030] Duplication/Elimination: There are also various possibilities with regard to the number of impact receivers 10. In one configuration, the doors and windows and barriers have one impact receiver 10. In another configuration, the doors and windows and barriers have a plurality of impact receivers 10. There are also various possibilities with regard to the number of impact reducers 20. In one configuration, the doors and windows and barriers have one impact reducer 20. In another configuration, the doors and windows and barriers have a plurality of impact reducers 20. There are also various possibilities with regard to the number of backings 30. In one configuration, the doors and windows and barriers have one backing 30. In another configuration, the doors and windows and barriers have a plurality of backings 30. There are also various possibilities with regard to the number of couplers 40. In one configuration, the doors and windows and barriers have one coupler 40. In another configuration, the doors and windows and barriers have a plurality of couplers 40. There are also various possibilities with regard to the number of joints 50. In one configuration, the doors and windows and barriers have one joint 50. In another configuration, the doors and windows and barriers have a plurality of joints 50. There are also various possibilities with regard to the number of supports. In one configuration, the doors and windows and barriers have one support. In another configuration, the doors and windows and barriers have a plurality of supports.

[0031] Materials: There are also various possibilities with regard to the material used for construction of the impact receiver 10, impact reducer 20, backing 30, coupler 40, and joint 50, including carbon fiber, glass, metal, polymers, wood, and other engineering materials. The impact reducer 20 is made of materials and devices that can elastically deform including foam and spring. The impact reducer 20 deforms under the dynamic load and when the load is removed goes back to its original shape. The joint 50 can have a coating of materials with low-friction properties. Joint 50 can include ball bearings and other low- friction mechanisms.

[0032] Modes of Operation: There are also various possibilities with regard to the mode of operation. In one configuration, the impact reducer 20 works in compression. In another configuration, the impact reducer 20 works in tension.

[0033] Parts: There are also various possibilities with regard to the parts used in the doors and windows and barriers. In one configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and couplers 40. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and at least one joint 50. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and couplers 40 and at least one joint 50. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and couplers 40. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and at least one joint 50. In another configuration, the doors and windows and barriers comprise at least one impact receiver 10 and at least one impact reducer 20 and at least one backing 30 and couplers 40 and at least one joint 50. There are also various possibilities with regard to how the doors and windows and barriers are connected to their supports. It includes types of frames, hinges, locks, rails, and bearings.

[0034] Parts Order: There are also various possibilities with regard to the order of the impact receiver 10, the impact reducer 20, and the backing 30. In one configuration, the impact reducer 20 is sandwiched between the impact receiver 10 and the backing 30. In another configuration the backing 30 is sandwiched between the impact receiver 10 and the impact reducer 20. In another configuration the backing 30 is sandwiched between one impact reducer 20 and one impact receiver 10 on one side and another impact reducer 20 and impact receiver 10 on the other side. There are also various possibilities with regard to position of the couplers 40. In one configuration, the coupler latches 42 are attached to the impact receiver 10 and the corresponding holes 44 are located on the backing 30. In another configuration, the coupler latches 42 are attached to the backing 30 and the corresponding holes 44 are located on the impact receiver 10.

[0035] Shapes and Sizes: There are various possibilities with regard to shapes, sizes, and placement patterns of the comprising parts of the impact receiver 10, the impact reducer 20, the backing 30, the coupler 40, the joint 50, and their parts.

[0036] Ramifications and Scope: While the above descriptions contain many specificities, they are merely exemplification of several embodiments and what is presently contemplated for them and should not be construed as limitations on the scope. Accordingly, the scope should be determined not by the illustrated embodiment(s) but by the appended claims and their legal equivalents.

[0037] Advantages: Described method and apparatus, reduces dynamic forces on all parts of the doors and windows and barriers and their supports, thus the reader will see that this method has the additional advantages in that:

[0038] It enables the doors and windows and barriers and their supports to withstand dynamic forces from heavier objects and more powerful blasts

[0039] It enable the doors and windows and barriers and their supports to withstand dynamic forces without the need for modifying existing parts

[0040] It enables the doors and windows and barriers and their supports to withstand dynamic forces without the need for increasing parts size [0041] It enables the doors and windows and barriers and their supports to withstand dynamic forces without the need for stronger materials

[0042] It enables the doors and windows and barriers to maintain their capacity to reduce dynamic forces after the application of the dynamic force

[0043] It increases the safety and ease of operation depending on the type of the doors and windows

[0044] It reduces the cost of construction, transportation, and installation of the doors and windows and barriers and their supports

[0045] It reduces the damages and injuries from the doors and windows and barriers impacting humans, animals, and objects

[0046] It reduces the damages from dynamic forces on the doors and windows and barriers and their supports

[0047] It reduces the weight of the doors and windows and barriers and their supports