Button fastening kit

Abstract

The kit comprises a fastening structure and an anchoring structure. The fastening structure includes two vertical poles which are connected at their top ends by a horizontal bar and are inserted into two apertures of the button. The lower ends of the poles are attached to terminal elements. The anchoring structure comprises two trapping mechanisms which are configured to trap the terminal elements and to prevent them from detachment once they fully enter the mechanisms. The user places the fastening structure with the button above the cloth at the desired location and places the trapping mechanisms below the cloth opposite to the terminal elements. Next, the user pushes the poles downwards pierces the cloth and permanently traps the terminal elements by fully inserting them into the trapping mechanisms. The user can create a buttoning gap by installing two spacing rings on the poles between the button and the cloth.

Claims

1. A button assembly configured for a button fastening on a cloth; wherein the button assembly comprises: the button, a fastening structure and an anchoring structure; wherein the fastening structure comprising a left pole, a right pole, a horizontal bar, a left terminal element, a right terminal element, a left spacing ring, and a right spacing ring; wherein the anchoring structure comprises a left trapping mechanism and a right trapping mechanism; wherein the button is positioned horizontally and comprises a button's upper surface, a button's lower surface, a left buttoning aperture and a right buttoning aperture; wherein the left pole is inserted inside the left buttoning aperture and positioned vertically; wherein the right pole is inserted inside the right buttoning aperture and positioned vertically; wherein a top end of the left pole is attached to a left end of the horizontal bar; wherein a top end of the right pole is attached to a right end of the horizontal bar; wherein the horizontal bar is positioned engaging the button's upper surface; wherein the left spacing ring is installed on the left pole below the button; wherein the right spacing ring is installed on the right pole below the button; wherein a left terminal element's upper side is attached to a bottom end of the left pole; wherein a right terminal element's upper side is attached to a bottom end of the right pole; wherein the left terminal element is tied to the button via the left pole which is attached to the horizontal bar; wherein the right terminal element is tied to the button via the right pole which is attached to the horizontal bar; wherein the cloth is placed horizontally below the left terminal element and below the right terminal element; wherein the left trapping mechanism is placed below the cloth and opposite to the left terminal element; wherein the left trapping mechanism is configured to trap the left terminal element and prevent it from moving upwards when it fully enters the left trapping mechanism; wherein the right trapping mechanism is placed below the cloth and opposite to the right terminal element; wherein the right trapping mechanism is configured to trap the right terminal element and prevent it from moving upwards when it fully enters the right trapping mechanism; wherein the left terminal element when pushed downwards, is configured to pierce the cloth and to enter fully into the left trapping mechanism; wherein the right terminal element when pushed downwards, is configured to pierce the cloth and to enter fully into the right trapping mechanism; wherein the button which is tied to the left terminal element and to the right terminal element is configured to be fastened on the cloth when the left terminal element and the right terminal element are pushed downwards and fully enter the left trapping mechanism and the right trapping mechanism respectively.

2. A button assembly of claim 1, wherein the anchoring structure comprises a left anchoring aperture and a right anchoring aperture; wherein the left anchoring aperture houses the left trapping mechanism; wherein the right anchoring aperture houses the right trapping mechanism; wherein the left trapping mechanism is configured to trap the left terminal element inside the left anchoring aperture and to prevent it from moving upwards once the left trapping mechanism is activated; wherein the left trapping mechanism is activated when the left terminal element is fully inserted into the left anchoring aperture; wherein the right trapping mechanism is configured to trap the right terminal element inside the right anchoring aperture and to prevent it from moving upwards once the right trapping mechanism is activated; wherein the right trapping mechanism is activated when the right terminal element is fully inserted into the right anchoring aperture; wherein the button is configured to be fastened on the cloth by pushing simultaneously downwards the left pole and the right pole such that the left terminal element and the right terminal element move downwards and are configured to pierce the cloth with the left terminal element and the right terminal element; wherein pushing the left pole and the right pole even further downwards such that the left terminal element and the right terminal element fully enter the left anchoring aperture and the right anchoring aperture respectively, is configured to activate the left trapping mechanism and the right trapping mechanism thereby trapping the left terminal element in the left anchoring aperture and trapping the right terminal element in the right anchoring aperture; thereby, the trapped left terminal element and the trapped right terminal element which both are attached to the fastening structure, fasten the button to the anchoring structure and to the cloth.

3. The button assembly of claim 1, wherein a left pole's radius of a left pole's minimal bounding cylinder is smaller than a left terminal element's radius of a left terminal element's minimal bounding cylinder; wherein a right pole's radius of a right pole's minimal bounding cylinder is smaller than a right terminal element's radius of a right terminal element's minimal bounding cylinder; wherein the left buttoning aperture and the right buttoning aperture are circular; wherein the left terminal element's radius and the right terminal element's radius are smaller than a left buttoning aperture's radius and a right buttoning aperture's radius respectively; wherein a horizontal bar's horizontal length is larger than a minimal distance between the left buttoning aperture and the right buttoning aperture; wherein the horizontal bar's horizontal length is smaller than a maximal distance between the left buttoning aperture and the right buttoning aperture.

4. The button assembly of claim 1, wherein a left spacing ring's height equals a distance between a left spacing ring's upper side and a left spacing ring's lower side; wherein a right spacing ring's height equals a distance between a right spacing ring's upper side and a right spacing ring's lower side; wherein the left spacing ring's height and the right spacing ring's height are configured to be equal; wherein the left spacing ring's height and the right spacing ring's height are equal to a buttoning spacing; wherein the buttoning spacing is configured to be larger than a thickness of the doth; wherein a left spacing ring's aperture radius is configured to be larger than a radius of a left terminal element's minimal bounding cylinder; wherein a right spacing ring's aperture radius is configured to be larger than a radius of a right terminal element's minimal bounding cylinder.

5. The button assembly of claim 1, wherein the anchoring structure comprises a left anchoring aperture, a right anchoring aperture, a left planar plate and a right planar plate; wherein the left anchoring aperture has an upper left rim; wherein the right anchoring aperture has an upper right rim; wherein the left planar plate and the right planar plate are made of a resilient material; wherein the upper left rim is entirely attached to the left planar plate; wherein the upper right rim is entirely attached to the right planar plate; wherein the left planar plate is divided into a left multiplicity of flaps by a left multiplicity of radial slits which are centered at an upper left rim's center; wherein the right planar plate is divided into a right multiplicity of flaps by a right multiplicity of radial slits which are centered at an upper right rim's center; wherein when the left terminal element is pushed downwards through the left multiplicity of flaps via the upper left rim's center, the left multiplicity of flaps is configured to bend and to turn downwards reaching a left bent lowest position; wherein when the left terminal element's upper side is pushed further downwards below the left bent lowest position, the left multiplicity of flaps is released and is configured to unbend and to turn upwards due to their resiliency until the left multiplicity of flaps end up diagonally resting on the left pole above the left terminal element's upper side; while the left multiplicity of flaps is diagonally resting on the left pole above the left terminal element's upper side, they are configured to prevent the left terminal element from moving upwards, thereby trapping the left terminal element inside the left anchoring aperture; when the right terminal element is pushed downwards through the right multiplicity of flaps via the upper right rim's center, the right multiplicity of flaps is configured to bend and to turn downwards reaching a right bent lowest position; when the right terminal element's upper side is pushed further downwards below the right bent lowest position, the right multiplicity of flaps is released and is configured to unbend and to turn upwards due to their resiliency until the right multiplicity of flaps end up diagonally resting on the right pole above the right terminal element's upper side; while the right multiplicity of flaps is diagonally resting on the right pole above the right terminal element's upper side, they are configured to prevent the right terminal element from moving upwards, thereby trapping the right terminal element inside the right anchoring aperture.

6. The button assembly of claim 4, wherein a radius of a maximal circle bounded by the left anchoring aperture is larger than a radius of a left terminal element's bounding cylinder by at least a thickness of the left planar plate; wherein a radius of a maximal circle bounded by the right anchoring aperture is larger than a radius of a right terminal element's bounding cylinder by at least a thickness of the right planar plate.

7. The button assembly of claim 4, wherein a height of a bounding cylinder of the left pole is greater than the sum of a thickness of the button, the buttoning spacing, the thickness of the cloth and a radius of a circle bounding the left aperture; wherein a height of a bounding cylinder of the right pole is greater than the sum of the thickness of the button, the buttoning spacing, the thickness of the cloth and a radius of a circle bounding the right aperture.

8. The button assembly of claim 1, wherein the button assembly also comprises a left cone and a right cone, which are configured to facilitate piercing of the cloth; wherein the left cone includes a left cone's upper side and a left cone's lower side; wherein the right cone includes a right cone's upper side and a right cone's lower side; wherein the left cone's upper side is flat and the left cone's lower side is pointed; wherein the right cone's upper side is flat and the right cone's lower side is pointed; wherein a left terminal element's lower side is connected by a left temporary connection to the left cone's upper side; wherein the right terminal element's lower side is connected by a right temporary connection to the right cone's upper side; wherein the left temporary connection and the right temporary connection are configured to be breakable by the user after facilitating piercing of the cloth.

9. The button assembly of claim 1, wherein the left terminal element is configured to have a shape of a left hemisphere; wherein the left hemisphere includes the left terminal element's upper side shaped as a left circular upper plane of the left hemisphere and a left terminal element's lower side shaped as a left hemispherical dome which is connected to the left circular upper plane; wherein the left pole's bottom end is attached to the left circular upper plane; wherein the right terminal element is configured to have a shape of a right hemisphere; wherein the right hemisphere includes the right terminal element's upper side shaped as a right circular upper plane of the right hemisphere and a right terminal element's lower side shaped as a right hemispherical dome which is connected to the right circular upper plane; wherein the right pole's bottom end is attached to the right circular upper plane.

10. The button assembly of claim 8, wherein the left pole is configured to be cylindrical; wherein a radius of a left pole's circular cross section is configured to be smaller than a radius of the left circular upper plane of the left hemisphere; wherein the right pole is configured to be cylindrical; wherein a radius of a right pole's circular cross section is configured to be smaller than a radius of the right circular upper plane of the right hemisphere.

11. The button assembly of claim 1, wherein the left terminal element is configured to have a shape of a left cylindrical plate; wherein the left cylindrical plate includes a left terminal element's upper side shaped as a circular upper plane of the left cylindrical plate and a left terminal element's lower side shaped as a lower plane of the left cylindrical plate; wherein the bottom end of the left pole is attached to the circular upper plane of the left cylindrical plate; wherein the right terminal element is configured to have a shape of a right cylindrical plate; wherein the right cylindrical plate includes a right terminal element's upper side shaped as a circular upper plane of the right cylindrical plate and a right terminal element's lower side shaped as a lower plane of the right cylindrical plate; wherein the bottom end of the right pole is attached to the circular upper plane of the right cylindrical plate.

12. The button assembly of claim 1, wherein a left guiding aperture and a right guiding apertures are drilled in the cloth; wherein the left guiding aperture is located opposite the left terminal element; wherein the right guiding aperture is located opposite the right terminal element; wherein the left guiding aperture is configured to facilitate piercing of the cloth by the left terminal element; wherein the right guiding aperture is configured to facilitate piercing of the cloth by the right terminal element.

13. The button assembly of claim 1, wherein the anchoring structure comprises a left anchoring aperture and a right anchoring aperture; wherein the left anchoring aperture houses the left trapping mechanism; wherein the right anchoring aperture houses the right trapping mechanism; wherein the left aperture includes an upper left opening; wherein the right aperture includes an upper right opening; wherein the left trapping mechanism includes a left resilient gate which is configured to facilitate a left unidirectional downwards translation of the left terminal element via the left upper opening into the left aperture; wherein the left terminal element is configured to move downwards and to push down the left resilient gate; wherein the left resilient gate is configured to open the left upper opening by bending downwards; when the left terminal element is pushed downwards through the upper left opening while pushing downwards the left resilient gate, the left resilient gate is configured to bend and to turn downwards reaching a left bent lowest position; when the left terminal element's upper side is pushed further downwards below the left bent lowest position, the left resilient gate is released and is configured to unbend and to turn upwards due to its resiliency; the left resilient gate is configured to continue unbending and turning upwards until the left resilient gate ends up diagonally resting on the left pole above the left terminal element's upper side; while the left resilient gate is diagonally resting on the left pole above the left terminal element's upper side, it is configured to prevent the left terminal element from moving upwards, thereby trapping the left terminal element inside the left anchoring aperture; wherein the right trapping mechanism includes a right resilient gate which is configured to facilitate a right unidirectional downwards translation of the right terminal element via the right upper opening into the right aperture; wherein the right terminal element is configured to move downwards and to push down the right resilient gate; wherein the right resilient gate is configured to open the right upper opening by bending downwards; when the right terminal element is pushed downwards through the upper right opening while pushing downwards the right resilient gate, the right resilient gate is configured to bend and to turn downwards reaching a right bent lowest position; when the right terminal element's upper side is pushed further downwards below the right bent lowest position, the right resilient gate is released and is configured to unbend and to turn upwards due to its resiliency; the right resilient gate is configured to continue unbending and turning upwards until the right resilient gate ends up diagonally resting on the right pole above the right terminal element's upper side; while the right resilient gate is diagonally resting on the right pole above the right terminal element's upper side, it is configured to prevent the right terminal element from moving upwards, thereby trapping the right terminal element inside the right anchoring aperture.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 displays a side view of an embodiment of the anchoring structure in 3D isometric drawing.

(2) FIG. 2 Depicts in 3D isometric drawing a bottom view of an embodiment of the anchoring structure which includes two trapping mechanisms inside two apertures.

(3) FIG. 3 Illustrates in 3D isometric drawing a top view of an embodiment of the fastening structure, the anchoring structure, the button, the spacing rings and a piece of cloth.

(4) FIG. 4 illustrates in 3D isometric bottom view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the fastening structure, the anchoring structure, the spacing rings and the garment cloth. FIG. 4 shows the fastening structure already inserted into the button.

(5) FIG. 5 illustrates in 3D isometric bottom view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the fastening structure, the anchoring structure, the spacing rings and the garment cloth. FIG. 5 shows the fastening structure already inserted into the button and the spacing rings installed beneath the button.

(6) FIG. 6 illustrates in 3D isometric bottom view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the fastening structure, the anchoring structure, the spacing rings and the garment cloth. FIG. 6 shows the fastening structure already inserted into the button and already pierced the cloth while the spacing rings are installed beneath the button and above the cloth.

(7) FIG. 7 illustrates in 3D isometric side view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the fastening structure, the anchoring structure, the spacing rings and the garment cloth. FIG. 7 shows the fastening structure already inserted into the button and already pierced the cloth while the spacing rings are installed beneath the button and above the cloth. In FIG. 7 the fastening structure is installed also in the anchoring structure's apertures activating the trapping mechanisms as well.

(8) FIG. 8 illustrates in 3D isometric side view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the fastening structure, the anchoring structure, the spacing rings and the garment cloth. FIG. 8 shows the fastening structure already inserted into the button and already pierced the cloth while the spacing rings are installed beneath the button and above the cloth. In FIG. 8 the fastening structure is installed also in the anchoring structure's apertures activating the trapping mechanisms as well. In FIG. 8 the piercing cones were removed as well.

DETAILED DESCRIPTION OF THE DRAWINGS

(9) FIG. 1 displays a side view of an embodiment of the anchoring structure 1 in 3D isometric drawing. The left and right Poles are divided into two connected parts: the upper pole parts 4 and the lower pole parts 3. The left upper pole part 4 is attached at its bottom end to the top end of the left lower pole part 3 and together they are defined as the left pole in the Claims. The right upper pole part 4 is attached at its bottom end to the top end of the right lower pole part 3 and together they are defined as the right pole in the Claims. The top end of left Pole part 4 is attached to the left end of the horizontal bar 6. The top end of right Pole part 4 is attached to the right end of the horizontal bar 6. The horizontal bar 6 engages with the upper button 11 surface. The upper sides of the left and right terminal 2 are attached to the bottom ends of left lower pole part 3 and the right lower pole part 3 respectively. The left and right piercing cones 5 are temporarily attached at their top faces to the bottom faces of the left and right terminal elements 2 respectively. The piercing cones 5 facilitate piercing of the cloth by the terminal elements 2. The cones 5 are configured to be removed by the user after piercing.

(10) FIG. 2 Depicts in 3D isometric drawing a bottom view of an embodiment of the anchoring structure 8 which includes two trapping mechanisms 7 housed inside two apertures 14.

(11) FIG. 3 Illustrates in 3D isometric drawing a top view of an embodiment of the fastening structure 1, the anchoring structure 8, the button 11, the spacing rings 10 and a piece of doth 12 which is used for the demonstration. At the fastening structure 1 the left and right poles (i.e. pole parts 3+4) are positioned vertically and are connected to each other by the horizontal bar 6. The left and right terminal elements 2 are attached to the bottom ends of left and right pole parts 3 respectively. The left and right piercing cones 5 are temporarily attached at their top faces to the bottom faces of the left and right terminal elements 2 respectively. The piercing cones 5 facilitate piercing of the cloth by the terminal elements 2. The cones 5 are configured to be removed by the user after piercing. FIG. 3 also includes a 3D isometric drawing of a top view of an embodiment of the anchoring structure 8 which includes two trapping mechanisms 7 housed inside two apertures 14 which are placed horizontally beneath the fastening structure 1.

(12) Top view of the button 11 is displayed horizontally on the right side of the Fastening structure 1. The buttoning apertures 9 are also depicted. The left and right spacing rings 10 are displayed at the right side of the button 11. A piece of cloth 12 which is necessary for the fastening demonstration is also included on the left.

(13) FIG. 4 illustrates in 3D isometric bottom view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the button 11, the fastening structure 1, the anchoring structure 8, the spacing rings 10 and the garment cloth 12. FIG. 4 also includes a cross sectional view of the anchoring structure 8 shown beneath the piercing cones. In FIG. 4, the fastening structure 1 already is inserted into the button 11 apertures 9.

(14) FIG. 5 illustrates in 3D isometric bottom view of a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the button 11, the fastening structure 1, the anchoring structure 8, the spacing rings 10 and the garment cloth 12. FIG. 5 also includes a cross sectional view of the anchoring structure 8 shown beneath the piercing cones. In FIG. 5, the fastening structure 1 already was inserted into the button apertures 9 and into the spacing rings 10.

(15) FIG. 6 illustrates in 3D isometric bottom view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the button 11, the fastening structure 1, the anchoring structure 8, the spacing rings 10 and the garment cloth 12. FIG. 6 also includes a cross sectional view of the anchoring structure 8 shown beneath the piercing cones. In FIG. 6, the fastening structure 1 already was inserted into the button apertures 9 and into the spacing rings 10 and already pierced the cloth 12.

(16) FIG. 7 illustrates in 3D isometric side view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the button 11, the fastening structure 1, the anchoring structure 8, the spacing rings 10 and the garment cloth 12. FIG. 7 shows the fastening structure already inserted into the button 11 and already pierced the cloth 12 while the spacing rings 10 are already installed beneath the button 11 and above the cloth 12. In FIG. 7 the fastening structure is installed also in the anchoring structure's apertures 13 already activating the trapping mechanisms 7 as well.

(17) FIG. 8 illustrates in 3D isometric side view a cross sectional view of a collection of components required for a button fastening demonstration. The collection includes the button 11, the fastening structure 1, the anchoring structure 8, the spacing rings 10 and the garment cloth 12. FIG. 8 shows the fastening structure already inserted into the button 11 and already pierced the cloth 12 while the spacing rings 10 are already installed beneath the button 11 and above the cloth 12. In FIG. 8 the fastening structure is inserted also in the anchoring structure's apertures 13 and already is activating the trapping mechanisms 7 as well. It can be observed that the resilient flaps 7 are already bent and resting diagonally on the poles 3 above the terminal elements 2. In FIG. 8 the piercing cones 5 were removed as well.