Adjustable reading stand

Abstract

An adjustable reading stand includes a base including two bottom plates foldable relative to each other, a resisting edge located on one side of the bottom plates and opposite limit grooves formed on the bottom plates, an butting member set on the bottom plates and providing an accommodating space near the resisting edge, and a positioning member having one side thereof set at the side of the accommodating space far from the resisting edge and an opposite side thereof provided with a retaining side that slides along the surface of the two bottom plates and embedded in any two opposite limit grooves. Thus, the inclination angle of the abutting member on the base can be adjusted, and the two bottom plates, the abutting member and the positioning member can be folded, so as to reduce the volume of the adjustable reading stand for convenient carrying.

Claims

1. An adjustable reading stand, comprising: a base, said base comprising two opposite bottom plates, a folding groove to be used for said two bottom plates to be relatively folded along the folding groove of said base, a resisting edge located on one side of said two bottom plates and said folding groove, and a plurality of limit grooves formed on an upper surface of each of said two bottom plates and respectively extending toward the folding groove of said base; an abutting member set on said bottom plates at an inner side of said resisting edge of said base, said abutting member comprising a hollow-shaped accommodating space arranged at a center position of one side thereof near said resisting edge, and a folding groove arranged on a surface thereof corresponding to the folding groove of said base; and a positioning member having one side thereof set at the side of said hollow-shaped accommodating space of said abutting member far from said resisting edge and an opposite side thereof provided with a retaining side that is configured to slide along the upper surface of said two bottom plates and be embedded in any two opposite said limit grooves, said positioning member comprising a folding groove arranged on surface thereof corresponding to the folding groove of said abutting member and the folding groove of said base; wherein said abutting member is provided with a hollow-shaped receiving space on another side of said abutting member opposite to said hollow-shaped accommodating space, one side of said receiving space near said hollow-shaped accommodating space being movably combined with a latching member, said latching member having a docking member with a magnetic element respectively extended from each of two sides thereof, a surf ace of said latching member being provided with a folding groove corresponding to the folding groove of said abutting member and the folding groove of said positioning member.

2. The adjustable reading stand as claimed in claim 1, wherein said bottom plates of said base are selectively made of metal material or hard non-metallic material and respectively covered with a bottom bushing of insulating material; said abutting member comprises an inner plate and an outer bushing of insulating material covering the outside of said inner plate, said inner plate being made of metal material or hard non-metallic material, said outer bushing being movably combined with said bottom bushing that cover said two bottom plates on the inner side of said resisting edge.

3. The adjustable reading stand as claimed in claim 2, wherein said bottom bushing and said outer bushing are soft materials selected from a group consisting of insulating fabrics, plastic sleeves, silicone sleeves and rubber sleeves; said outer bushing has one side thereof movably joined to said bottom bushing by stitching, hot melting or gluing.

4. The adjustable reading stand as claimed in claim 2, wherein the bottom bushing of one of said bottom plates of said base has an outer edge thereof extended with a fixing member with a magnetic element, so that said two bottom plates are adsorbed by said magnetic elements on said fixing member after said two bottom plates are folded relative to each other along the folding groove of said base.

5. The adjustable reading stand as claimed in claim 1, wherein said resisting edge on one side of said base is selectively made of insulating plastic, silicone, rubber or sponge.

6. The adjustable reading stand as claimed in claim 1, wherein said positioning member is selectively made of metal material or hard non-metallic material and externally covered with a hood bushing, said hood bushing being soft insulating material selected from a group consisting of cloth, plastic sleeve, silicone sleeve and rubber sleeve, said hood bushing having one side thereof movably combined with said outer bushing on the side of said hollow-shaped accommodating space of said abutting member by means of sewing, hot melting or gluing.

7. The adjustable reading stand as claimed in claim 1, wherein said latching member is selectively made of metal material or hard non-metallic material, said latching member having one side thereof movably combined with one side of said receiving space of said abutting member through stitching, hot melting or gluing selectively.

8. The adjustable reading stand as claimed in claim 1, wherein said abutting member is respectively provided with opposite support members on two side surfaces of the folding groove of said abutting member, each said support member having one side thereof movably combined with the surface of said abutting member and an opposite side thereof connected with an extension belt, said extension belt having one side thereof combined with said abutting member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a three-dimensional appearance view of the present invention.

(2) FIG. 2 is a three-dimensional exploded view of the present invention.

(3) FIG. 3 is a three-dimensional exploded view of the present invention from another perspective.

(4) FIG. 4 is a three-dimensional external view of the first embodiment implementation of the present invention.

(5) FIG. 5 is a three-dimensional external view of the second embodiment implementation of the present invention.

(6) FIG. 6 is a three-dimensional external view of the third embodiment implementation of the present invention.

(7) FIG. 7 is a three-dimensional external view of the fourth embodiment implementation of the present invention.

(8) FIG. 8 is a three-dimensional external view of the fifth embodiment implementation of the present invention.

(9) FIG. 9 is a three-dimensional external view of the sixth embodiment implementation of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(10) In order to achieve the above purpose and effect, the technical means used in the present invention and its structure, implementation method, etc., the preferred embodiments of the present invention are hereby described in detail and their features and functions are as follows, so as to be fully understood.

(11) Please refer to FIGS. 1, 2, and 3, which are an appearance view, an exploded view, and an exploded view from another perspective of the present invention. As shown in the drawings, it can be clearly seen that the adjustable reading stand of the present invention comprises a base 1, an abutting member 2 and a positioning member 3.

(12) The base 1 comprises two opposite bottom plates 11, a folding groove 12, which can be used for the two bottom plates 11 to be relatively folded along the folding groove 12, a resisting edge 13 located on one side of the two bottom plates 11 and the folding groove 12, and a plurality of limit grooves 14 formed on the surface of the two bottom plates 11 and respectively extending toward the folding groove 12.

(13) The abutting member 2 is movably set on the bottom plates 11 at the inner side of the resisting edge 13 of the base 1. A hollow-shaped accommodating space 20 is arranged at the center position of one side of the abutting member 2 near the resisting edge 13, and a folding groove 21 is arranged on the surface of the abutting member 2. The folding groove 21 corresponds to the folding groove 12 between the two bottom plates 11.

(14) The positioning member 3 has one side thereof set at the side of the accommodating space 20 of the abutting member 2 far from the resisting edge 13 and an opposite side thereof provided with a retaining side 31 that slides along the surface of the two bottom plates 11 and embedded in any two opposite limit grooves 14. The positioning member 3 comprises a folding groove 32 arranged on the surface thereof corresponding to the folding groove 21 of the abutting member 2 and the folding groove 12 of the base 1.

(15) The above base 1 with the two opposite bottom plates 11 can be made of metal materials (such as iron, steel, copper or metal alloy, etc.) or hard non-metallic materials (such as plastic, silicone, rubber or wood, etc.). The outside of the two bottom plates 11 can be respectively covered with bottom bushings 111 of insulating material, and a concave limit groove 14 is formed at the center position of the bottom bushings 111 opposite to the inner side of the two bottom plates 11. The abutting member 2 comprises an inner plate 22 and an outer bushing 221 of insulating material covering the outside of the inner plate 22. The inner plate 22 can be made of metal material (such as iron, steel, copper or metal alloy, etc.) or hard non-metallic material (such as plastic, silicone, rubber or wood, etc.). The outer bushing 221 covering the outer side of the inner plate 22 can be movably combined with the bottom bushings 111 that cover the two bottom plates 11 on the inner side of the resisting edge 13. The bottom bushings 111 and the outer bushing 221 can be soft materials such as insulating fabrics, plastic sleeves, silicone sleeves or rubber sleeves, respectively. One side of the outer bushing 221 can be movably joined to the bottom bushings 111 by stitching, hot melting or gluing. The outer edge of the bottom bushing 111 of one of the bottom plates 11 of the base 1 is extended with a fixing member 15 with a magnetic element (not shown), so that the two bottom plates 11 can be adsorbed by the magnetic element on the fixing member 15 after the two bottom plates 11 are folded relative to each other along the folding groove 12, so as to achieve the purpose of reducing the volume of the base 1 and the abutting member 2, and have the effect of being convenient to carry and easy to apply.

(16) The above-mentioned resisting edge 13 on one side of the base 1 can be made of soft materials such as insulating plastic, silicone, rubber or sponge.

(17) Furthermore, the above-mentioned abutting member 2 may be further provided with a hollow-shaped receiving space 201 on the other side of the abutting member 2 opposite to the accommodating space 20, and a docking slot 222 is respectively provided on both sides of the receiving space 201, and one side of the receiving space 201 near the accommodating space 20 is combined with a latching member 23. The latching member 23 can be made of metal material (such as iron, steel, copper or metal alloy, etc.) or hard non-metallic material (such as plastic, silicone, rubber or wood, etc.). A docking member 231 with a magnetic element (not shown) is respectively extended on each of two sides of the latching member 23, so that the two docking members 231 can be inserted into the docking slots 222 at the two sides of the receiving space 201 respectively to form a limit. One side of the latching member 23 outside the receiving space 201 is provided with a fitting edge 232 for being sucked on the abutting member 2 on the two sides of the receiving space 201. A folding groove 233 is provided on the surface of the latching member 23, so that the folding groove 233 can be positioned in the folding groove 21 of the abutting member 2 and a folding groove 32 of the positioning member 3. The abutting member 2 is respectively provided with opposite support members 24 on the two side surfaces of the folding groove 21. One side of each support member 24 is combined with the surface of the abutting member 2, and the other side is respectively connected with an extension belt 241, and one side of the extension belt 241 is combined with the abutting member 2. The latching member 23 can be made of hard insulating materials (such as plastic, silicone, rubber or wood, etc.). One side of the latching member 23 can be combined with one side of the receiving space 201 of the abutting member 2 by hot melting or gluing. The latching member 23 of the abutting member 2 movably connected at the receiving space 201 can be covered with a covering bushing 234. The covering bushing 234 can be soft insulating material such as cloth, plastic sleeve, silicone sleeve or rubber sleeve and other soft materials. One side of the covering bushing 234 can be movably combined with the outer bushing 221 on the side of the receiving space 201 of the abutting member 2 by stitching, hot melting or gluing.

(18) The above-mentioned positioning member 3 can be made of metal material (such as iron, steel, copper or metal alloy, etc.) or hard non-metallic material (such as plastic, silicone, rubber or wood, etc.). The outside of the positioning member 3 can be covered with a hood bushing 33. The hood bushing 33 can be soft insulating material such as cloth, plastic sleeve, silicone sleeve or rubber sleeve and other soft materials. One side of the hood bushing 33 can be movably combined with the position of the outer bushing 221 on the side of the accommodating space 20 of the abutting member 2 by means of sewing, hot melting or gluing.

(19) Please refer to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, and 9, which are the three-dimensional appearance view of the present invention, the three-dimensional exploded view of the present invention, the three-dimensional exploded view of the present invention from another perspective, the three-dimensional external view of the first embodiment implementation of the present invention, the three-dimensional external view of the second embodiment implementation of the present invention, the three-dimensional external view of the third embodiment implementation of the present invention, the three-dimensional external view of the fourth embodiment implementation of the present invention, the three-dimensional external view of the fifth embodiment implementation of the present invention, and the three-dimensional external view of the sixth embodiment implementation of the present invention.

(20) As shown in the drawings, it can be clearly seen that when the above-mentioned adjustable reading stand of the present invention is applied in practice, swing the abutting member 2 of the inner side of the resisting edge 13 of the base 1 to a proper inclination angle, then use the internal positioning member 3 in the accommodating space 20 of the abutting member 2 to slide and displace along the plurality of two opposite limit grooves 14 of the base 11 with the retaining side 31 of the internal positioning member 3, allowing the retaining side 31 to be embedded in any two opposite limit grooves 14, so that the abutting member 2 is located on the base 1 to form an appropriate inclination angle. That is, the preset object 4 (such as books, documents or paper materials, or electronic products such as tablet computers or smartphones, etc.) can be placed on the resisting edge 13 for the preset object 4 to be stably placed on the base 1 and the abutting member 2. In addition, the bottom bushings 111 of the two bottom plates 11 and the resisting edge 13 of the base 1 are also made of soft material, and the outer bushing 221 of the inner plate 21 of the abutting member 2 and the covering bushing 234 of the latching member 23 can provide a soft and elastic buffering effect, so that the base 1, the abutting member 2 and the positioning member 3 will not collide, scratch or rub against the external surface of the preset object 4 (such as smartphones or tablet computers of electronic products). Thus, the exterior of the preset object 4 will not be dented, painted or scratched, so as to achieve the purpose of protecting the preset object 4.

(21) Furthermore, the two support members 24 can be moved and separated to the outside of the abutting member 2 respectively, and the two sides of the extension belts 241 for the two support members 24 can be respectively connected to the support members 24 and the abutting member 2. Thus, the preset object 4 (such as books, documents or paper and other documents, or electronic products such as tablet computers or smartphones, etc.) can be placed on the extension belts 241 of the two support members 24, and the preset object 4 can be adjusted. It can adjust the height position of the preset object 4, and provide the preset object 4 of different sizes to be placed on the resisting edge 13 or the two extension belts 241 (please also refer to FIG. 8). With the placement of different heights, it is convenient to read or operate and apply the preset object 4, which has functions and advantages such as practicability and convenience.

(22) The above-mentioned abutting member 2 can be respectively slid by the positioning member 3 and the latching member 23 along the opposite limit grooves 14 on the base 1 in different directions, so that the retaining side 31 of the positioning member 3 and the fitting edge 232 of the latching member 23 can be respectively embedded in any two opposite limit grooves 14. That is, it can be used for the adjustment of multi-directional and multi-angle changes such as different directions, inclination angles and positions of the abutting member 2 on the base 1. That is, when the preset object 4 is placed on the base 1 and the abutting member 2, it is convenient to adjust and change different application methods, so as to improve the practicability and reliability of the present invention.

(23) In addition, the above-mentioned abutting member 2 can lie flat and close to the top of the base 1 at an appropriate inclination angle (the inclination angle is less than 180?, about 120??170?). The docking members 231 on the two sides of the latching member 23 at the receiving space 201 can then be separated from the docking slots 222 on the two sides of the receiving space 201 on the abutting member 2, respectively. Through sliding displacement of the fitting edge 232 of the latching member 23 along the plurality of two opposite limit grooves 14 on the base 1, the fitting edge 232 is then embedded in any two opposite limit grooves 14 to form an embedded position, for the abutting member 2 to lie on the base 1 in a near-flat position to form a proper inclination angle (the inclination angle is less than 180?, about 120??170?. The preset object 4 (such as books, documents or paper and other documents, or electronic products such as tablet computers or smartphones, etc.) can then be placed on the resisting edge 13 and the inner abutting member 2. It provides the preset object 4 with different placement positions, angles, etc., to facilitate operation, application or reading, etc.

(24) When the above base 1, the abutting member 2 and the positioning member 3 are not used, the abutting member 2 and the positioning member 3 can be placed flat against the base 1, then the folding groove 21 of the abutting member 2, the folding groove 32 of the positioning member 3, and the folding groove 233 of the latching member 23 are all aligned with the folding groove 12 of the base 1, so that the two sides of the base 1, the abutting member 2, the positioning member 3 and the latching member 23 can be folded relative to each other along the folding groove 12, the folding groove 21, the folding groove 32, and the folding groove 233. Then, the inner magnetic element of the fixing member 15 of the bottom plate 11 on one side of the base 1 is adsorbed on the other bottom plate 11. In this way, the base 1, the abutting member 2, the positioning member 3 and the latching member 23 can be folded into smaller volume (please also refer to FIG. 7), which can be easily stored and carried.

(25) The above description is only one preferred embodiment of the present invention, which is not intended to limit the scope of the invention. All simple modifications and equivalent structural changes made by using the contents of the description and drawings of the present invention shall be similarly included in the patent scope of the present invention.