JP2004260442A - Hinge and portable information apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive and light-weight hinge capable of preventing the drop of a product and to provide a portable information apparatus provided with the hinge. <P>SOLUTION: The hinge attached to a connection part between a body part (1st body component) 1 of a portable telephone and a display part (2nd body component) 2 and constituted so as to optionally rotate the display part 2 around the body part 1 is provided with a 1st component 11 to be attached and fixed to the body part 1, a specific screw part 17 included in the 1st component 11 and a 2nd component 12 provided with a screw hole 20 to be screwed into the specific screw part 17 of the 1st component 11 and allowed to be attached and fixed to the display part 2. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hinge for rotatably connecting a rotating component to a fixed component, and a portable information device using the hinge.
[0002]
[Prior art]
Conventionally, a so-called mobile phone, a PDA or an electronic organizer has been used as a portable information device.
FIG. 11A shows a configuration diagram of a mobile phone among mobile information devices. This mobile phone is small in size for easy carrying, and has a main body 1 provided with a keyboard a for inputting information, an LCD (liquid crystal panel) b for displaying information, an antenna c, and the like. And a display unit 2.
[0003]
The display unit 2 is rotatably connected to the main unit 1 via a hinge 3. To perform an input / display operation, the main body 1 is fixed with the palm and the display 2 is opened. Therefore, the main body 1 is also called a lower set, and the display 2 is also called an upper set.
[0004]
Since the display unit 2 is frequently rotated, the hinge 3 is required to operate smoothly and to have durability. From the viewpoint of operability, it is necessary to maintain the position of the display unit 2 when the display unit 2 is completely opened and to maintain the position of the display unit 2 when fully closed. You have to get the action.
[0005]
FIG. 11B is an assembly structural view of a conventional hinge 3 used for a mobile phone, and FIG. 11C is a cross-sectional view of the components of the hinge 3 described later.
The hinge member 3 has a first member 5 attached to and fixed to the main body 1, a second member 6 attached to and fixed to the display unit 2, and elastically attached to the first member 5 via a spring body 7. And an auxiliary member 8 which is supported in a state where the second member 6 is tightly pressed.
[0006]
More specifically, the first member 5 includes a substrate 5a oriented vertically in the figure, and the substrate 5a is attached and fixed to the main body 1 together with the cylindrical body c to be integrated.
One end of a column 5b extending in the horizontal direction is provided on one side surface of the substrate 5a, and the other end of the column 5b protrudes from the main body 1 into the display unit 2.
[0007]
A spring body 7 is wound around the column 5b, and holes 9 provided in the auxiliary member 8 and the second member 6, respectively, are inserted. One end of the spring body 7 is locked to the substrate 5a of the first member 5, and the other end is locked to the auxiliary member 8.
[0008]
While the substrate 5a is fixed to the main body 1, the auxiliary member 8 is loosely fitted into the column 5b, so that the auxiliary member 8 is elastically pressed and urged by the spring body 7 to the second member 6. In close contact. An end d of the support 5b protruding toward the display unit 2 is tapered so as to increase the diameter of the support 5b, thereby preventing the auxiliary member 8 and the second member 6 from coming off.
[0009]
The second member 6 is attached and fixed to the display unit 2 via a backup plate e. The second member 6 and the backup plate e are integrated with the display unit 2 and the display unit 2 is rotated. With this, it rotates integrally.
[0010]
A pair of protrusions 8a and 8b are provided at symmetrical positions on the mating surface of the auxiliary member 8 with respect to the second member 6 via the holes 9 and the mating surface of the second member 6 with the auxiliary member 8 A pair of recesses 6a and 6b are provided at symmetrical positions via the hole 9. The protrusions 8a and 8b and the recesses 6a and 6b have the same shape and size, and are detachable from each other.
[0011]
When the display unit 2 is closed, for example, the projection 8a and the recess 6a are in a fitting state, and the projection 8b and the recess 6b are in a fitting state. When the display unit 2 is opened for use, the second member recesses 6a and 6b come out of the auxiliary member protrusions 8a and 8b against the elastic force of the spring body 7 and rotate the display unit 2 together with the second member 6. Movement becomes possible.
[0012]
When the display unit 2 is rotated to a predetermined angle close to 180 °, each of the recesses 6a, 6b fits into another projection 8b, 8a different from the one when closed. The completely open position of the display unit 2 is maintained and can be operated. At the same time, a separately provided stopper (not shown) functions to assist in holding the position of the display unit 2.
[0013]
In this way, in the hinge 3 used for the mobile phone, the auxiliary member 8 and the second member 6 are pressed tightly by the spring body 7. Therefore, the recesses 6a and 6b are securely engaged with the protrusions 8a and 8b, and the completely open position and the completely closed position of the display unit 2 can be reliably held.
[0014]
[Problems to be solved by the invention]
The display unit 2 is opened and closed between the protrusions 8a and 8b of the auxiliary member 8 and the recesses 6a and 6b of the second member 6 and between the auxiliary member 8 and the second member 6 and the support 5b. A friction force is generated every time. From the viewpoint of wear resistance, it is necessary to use metal materials for all of these components.
[0015]
The spring body 7 must also be made of metal in order to reliably prevent so-called "sag" of the spring force. On the other hand, the main body 1 and the display 2 are made of synthetic resin for the purpose of weight reduction.
[0016]
For the above reasons, the following four problems are recognized in the structure of the hinge 3 conventionally used.
(1) It is difficult to delete the number of parts.
(2) Therefore, it is difficult to reduce the number of assembling steps.
(3) A plurality of manufacturing methods are required, and it is difficult to reduce the manufacturing cost.
That is, as the manufacturing method, the main body portion 1 and the display portion 2 are formed of resin, the substrate 5a of the first member 5, the second member 6, and the auxiliary member 8 are formed of sheet metal, the support 5b is formed by extrusion, and the support 5a , And a press working for expanding the diameter of the tip after attaching the spring body 7, the auxiliary member 8 and the second member 6 to the support 5b.
[0017]
(4) Since the hinge member 3 is entirely made of a metal material, it is difficult to reduce the weight.
Further, immediately before the display unit 2 is completely opened, the protruding portions 8b and 8a are suddenly fitted to the recesses 6a and 6b due to the restoring force of the spring body 7, and the display unit 2 is suddenly affected by the influence. Open to
[0018]
Since the LCD (liquid crystal display) b provided in the display unit 2 is easily damaged, a member (for example, made of metal) for protecting the LCD b from damage is provided, and the mass of the display unit 2 with respect to the mass of the entire product is increased. ing.
[0019]
When the mobile phone is held in the hand, only the main body 1 is actually in the palm, and the display 2 is out of the palm. Therefore, when the display unit 2 is suddenly opened as described above, the mobile phone itself easily falls from the palm due to inertia.
[0020]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a hinge device that is inexpensive, lightweight, and capable of preventing a product from falling, and a portable information device including the hinge device. Is what you do.
[0021]
[Means for Solving the Problems]
In order to solve the above problems and achieve the object, a hinge device of the present invention is provided at a connection portion between a first main body component and a second main body component, and a second main body is provided with respect to the first main body component. In a hinge that allows a part to rotate freely, a first part attached to and fixed to a first main body part, a screw part provided on the first part, and a screw part of the first part are screwed. A second part having a screw portion and attached and fixed to the second body part.
[0022]
In order to solve the above problems and achieve the object, a portable information device according to the present invention comprises a main body provided with input means, and display means for rotatably connected to the main body and displaying a result inputted to the input means. And the above-mentioned hinge is attached with the main body part as the first main body part and the display part as the second main body part.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a mobile phone having the same configuration as the mobile phone shown in FIG. 11A, and is rotatably connected to the main body 1 via a hinge 10 to be described later. And a display unit 2.
[0024]
Here, a side view in which the display unit 2 is completely opened with respect to the main body 1 is shown, and from this open state, the display unit 2 is rotated around the hinge 10 as a fulcrum and is superimposed on the main body 1. As a result, the display unit 2 is closed with respect to the main body 1.
[0025]
FIG. 2 is an assembly configuration diagram of the hinge device 10.
[0026]
The hinge 10 includes a first component 11 attached to and fixed to the main body 1, a second component 12 attached to and fixed to the display unit 2, and a third component 13 attached to the first component 11. It is composed of All of the constituent parts 11, 12, and 13 are made of a synthetic resin material such as PET (polybutylene terephthalate) or POM (polyoxymethylene).
[0027]
FIGS. 3A, 3B, 3C, and 3D are diagrams in which the first component 11 is drawn by a triangular method, and is viewed from various directions such as a front surface, left and right side surfaces, and a top surface.
[0028]
The first component 11 has a locking portion 15 at one end and a stopper 16 at the other end, and a portion between the locking portion 15 and the stopper 16 is a special screw 17. Is an integral connected body.
[0029]
The locking portion 15 is a substantially cylindrical body having an appropriate axial dimension, and a pair of radially projecting protrusions 15a are integrally provided at symmetrical positions of the outer shape. The end faces of these protrusions 15a are flat, and the end faces are parallel in this embodiment.
[0030]
The special screw portion 17 is integrally formed so as to protrude from one end surface of the locking portion 15 along the axial direction. The special screw portion 17 includes three screw portions. The first screw portion 17a, the second screw portion 17b, and the third screw portion 17c extend from the locking portion 15 side to the stopping portion 16 side. Call.
[0031]
The first screw portion 17a is a tapered screw whose screw diameter gradually decreases in the axial direction from the end face side of the locking portion 15. The second screw portion 17b is a straight screw having the same minimum screw diameter as the first screw portion 17a and having a constant screw diameter. The third screw portion 17c is a tapered screw whose screw diameter gradually increases in the direction of the stopper 16 from the same screw diameter as the second screw portion 17b.
[0032]
The stop portion 16 includes a straight portion 16a slightly smaller in diameter than the outer diameter of the locking portion 15, and a tapered portion 16b tapering from the straight portion 16a toward the tip. An opening 18 is provided from the distal end surface of the tapered portion 16b to the third screw portion 17c of the special screw portion 17 via the straight portion 16a.
[0033]
The opening 18 is a pair of opposed inclined surfaces 18a having a wide gap at the distal end face of the tapered portion 16b and a gradually narrowing gap over the third screw portion 17c. Further, locking grooves 19 for locking the third component 13 are provided at predetermined portions of the pair of inclined surfaces 18a.
[0034]
Both ends in the radial direction of the opening 18 are completely open, and cut into the so-called deformed cylindrical stopper 16 and the special screw 17. The stopper 16 has a structure that is divided into upper and lower parts in the figure with the opening 18 as a boundary.
[0035]
Therefore, if a pressing force is artificially applied so as to reduce the interval between the distal ends of the openings 18, the stoppers 16 are elastically deformed, and the inclined surfaces 18a forming the openings 18 become parallel to each other, thereby further increasing the strength. When the pressing force is applied, the ends of the openings 18 come into contact with each other.
[0036]
FIG. 4 shows a front view and a side view of the second component 12.
The length of the second component 12 in the axial direction is larger than the length of the second screw portion 17b in the first component 11 in the axial direction, and is set shorter than the entire length of the special screw portion 17 in the axial direction. Cylindrical body.
[0037]
The outer diameter dimension is the same as the outer diameter dimension of the first component locking portion 15, and a radially protruding projection 12a is integrally provided at a symmetrical position on the outer periphery. The shape and dimensions of these projections 12a are the same as those of the locking part projection 15a.
[0038]
The inner diameter of the second component 12 is provided with a screw hole 20 which is a screw portion. The screw hole 20 is a normal (straight) female screw, and the screw diameter is set to be the same as the second screw portion 17 b of the special screw portion 17 of the first component 11.
[0039]
FIG. 5 is a diagram in which the third component 13 is drawn by a trigonometric method, and is a top view, a front view, and a side view.
The third component 13 is a tapered cylindrical body having one end having a small diameter and the other end having a larger diameter. A locking projection 21 having the same shape as the locking groove 19 provided on the inclined surface 18a of the first component 11 is integrally formed at a predetermined position along the axial direction on the peripheral surface.
[0040]
As shown in FIGS. 1 and 2 again, the outer shape of the locking portion 15 of the first component 11 constituting the hinge 10 is engaged and fixed to a predetermined portion of the mobile phone main body 1. Further, the screw hole 20 of the second component 12 is screwed into the special screw portion 17 of the first component 11, and the outer shape is engaged with the display unit 2 so as to be movable in the axial direction.
[0041]
Note that the stopper 16 of the first component 11 is inserted into the display unit 2, and the third component 13 is inserted into the opening 18 provided therein. The locking projection 21 of the third component 13 is fitted in the locking groove 19 of the opening inclined surface 18 a, so that the third component 13 does not fall out of the stopper 16.
[0042]
FIG. 6A is a diagram showing a configuration of the hinge 10 at a position where the display unit 2 which has been closed so far is rotated with respect to the main body unit 1 and is completely opened.
[0043]
At this time, the second component 12 is at the position closest to the locking portion 15 of the first component 11, and the opposing end faces are close to each other or close to each other with a very small gap. is there. The screw hole 20 of the second component 12 is screwed over the second screw portion 17b and the first screw portion 17a of the special screw portion 17.
[0044]
Since the first screw portion 17a is set in a tapered shape in which the screw diameter increases toward the locking portion 15, the screw hole 20 of the second member 12 gradually bites into the first screw portion 17a. . That is, before the display unit 2 reaches the fully open position, the resistance against the rotation increases, and finally the display unit 2 reaches the fully open position.
[0045]
Therefore, as in a mobile phone having the hinge 3 of the conventional structure, the momentum immediately rises immediately before the display unit 2 reaches the fully open position, and there is no danger of the mobile phone dropping from the hand due to inertia. .
[0046]
As described above, if the end face of the second component 12 abuts on the end face of the locking part 15 of the first component 11 at the fully open position of the display unit 2, the end face of the locking part 15 is That is, it serves as a stopper for the display unit 2.
[0047]
In addition, the end face of the second component 12 may be in a state where the end face of the second component 12 has a small gap with the end face of the locking portion 15 of the first component 11 at the completely open position of the display unit 2. The first screw portion 17a has a stopper function for the second component 12.
[0048]
FIG. 6B is a diagram illustrating a configuration of the hinge 10 at a position where the display unit 2 that has been opened with respect to the main body unit 1 is completely closed by rotating the display unit 2.
[0049]
At this time, the second component 12 is located closest to the stop 16 of the first component 11, and their end faces are close to each other or close to each other with a very small gap. The screw hole 20 of the second component 12 is screwed over the second screw portion 17b and the third screw portion 17c of the special screw portion 17 of the first component 11.
[0050]
Since the third screw portion 17c is set in a tapered shape in which the screw diameter increases toward the stop portion 16, the screw hole 20 of the second member 12 gradually bites into the third screw portion 17c. That is, before the display unit 2 reaches the fully closed position, the resistance to the rotation increases, and finally the display unit 2 reaches the fully closed position.
[0051]
Also in this case, if the end face of the second component 12 contacts the end face of the stop part 16 of the first component 11 at the fully closed position of the display part 2, the end face of the stop part 16 is in contact with the second part 12 and the display part. 2 stopper.
[0052]
In addition, the end surface of the second component 12 may be in a state where a narrow gap exists with the end surface of the stop portion 16 of the first component 11 at the completely closed position of the display unit 2. That is, the third screw portion 17c of the special screw portion 17 has a stopper function of the second component 12 and the display unit 2.
[0053]
As described above, in either of the position where the display unit 2 is completely opened and the position where the display unit 2 is completely closed, the first screw portion 17a or the third screw portion 17a of the special screw portion 17 in the first component 11 is used. Since the straight screw holes 20 of the second component 12 are screwed into the screw portions 17c, the position of the display portion 2 is securely held in each state, and the usability can be improved.
[0054]
FIGS. 7A to 7E are views for sequentially explaining the steps of assembling the hinge 10.
FIG. 7A shows the initial state of the first component 11, and the interval between the inclined surfaces 18 a forming the opening 18 gradually increases from the special screw 17 to the tip of the tapered portion 16 b. It is inclined. The tapered portion 16b is formed so as to gradually decrease in diameter toward the distal end surface.
[0055]
FIG. 7B is a diagram illustrating attachment of the second component 12 to the first component 11. Here, the stopper 16 is gripped by some means, and is forcibly pressed and urged so that the interval between the inclined surfaces 18a of the opening 18 is reduced.
[0056]
The screw hole 20 of the second component 12 faces the stopper 16 while being urged and held until the front end of the facing surface of the opening 18 contacts. In this state, the corner of the straight portion 16 a has the largest diameter in the stop portion 16, but this diameter is smaller than the screw hole 20 of the second component 12.
[0057]
For this reason, the second component 12 can move along the axial direction from the position facing the stopper 16 and pass through the stopper 16. Since the tapered portion 16b is provided at the tip of the stopper 16, the passage of the screw hole 20 is smooth. In this state, the straight portion 16a is also tapered, so that the screw hole 20 passes smoothly.
[0058]
FIG. 7C is a diagram illustrating a state where the second component 12 is attached to the special screw portion 17 of the first component 11.
After the second component 12 has passed through the stop 16, the urging force against the stop 16 is removed. An elastic restoring force acts on the stopping portion 16 to return to the initial state as shown in FIG.
[0059]
Therefore, unless the second component 12 is in the special screw portion 17 between the locking portion 15 and the stopping portion 16 of the first component 11 and the opening portion 18 of the stopping portion 16 is elastically deformed again, Removal from the part 11 is restricted.
[0060]
FIG. 7D shows a state where the third component 13 is mounted on the stopper 16.
The locking projection 21 provided on the third component 13 faces the locking groove 19 provided on the first component opening 18. Then, the opening 18 is biased and held so that the angle between the inclined surfaces 18 a is further increased, and the third component 13 is inserted into the opening 18.
[0061]
FIG. 7E shows a state where the assembly as the hinge 10 is completed.
That is, after the tip of the third component 13 is inserted to a position where it comes into contact with the end face of the opening 18, the biasing force that has expanded and held the inclined surface 18a is released. An elastic restoring force acts on the stopper 16, and the inclined surface 18a returns to the original angle.
[0062]
At the same time, the inclined surface 18a sandwiches the third component 13, and the locking projection 21 of the third component 13 engages with the locking groove 19 provided on the inclined surface 18a. Due to the shape of the locking projection 21 and the locking groove 19, there is no possibility that the third component 13 will fall out of the opening 18.
Thus, the assembly of the hinge 10 is completed. In this assembling, a simple tool such as a hammer may be used, which enables easy assembling.
[0063]
The first component 11 has an opening 18 in the stopper 16 so that the rigidity of the first component 11 is reduced by itself. However, the third component 13 is inserted into the opening 18 to be engaged and fixed. Thereby, the rigidity can be ensured.
[0064]
Since the first component 11, the second component 12, and the third component 13 are all made of a synthetic resin material, the manufacturing lead time of the component can be reduced and the weight can be reduced. Furthermore, since the stopper 16 can be elastically deformed by utilizing the elasticity of the resin, the internal thread 20 of the second component 12 can be easily inserted.
[0065]
The constituent parts of the hinge 10 are preferably made of PET or POM among the synthetic resin materials, but other materials may be used as long as the synthetic resin material realizes the gist of the present invention. Alternatively, a material other than resin can be used.
[0066]
FIG. 8 shows a first modification of the hinge tool.
That is, the first component 11A is divided between the second screw portion 17b and the third screw portion 17c constituting the special screw portion 17, and the screw hole 22 is provided from the end face of the second screw portion 17b. The screw 23 is projected from the end face of the third screw 17c so that they can be screwed together.
[0067]
When the second component 12 is screwed into the first component 11A, the second screw portion 17b and the third screw portion 17c are split, and the screw hole portion 20 of the second component 12 is Then, the screw portion 23 of the third screw portion 17c is screwed and connected to the screw hole 22 of the second screw portion 17b.
[0068]
As a result, it is not necessary to provide the opening 18 as described above in the stopper 16 of the first component 11, and the die for producing the first component 11 can be simplified. Further, the third component 13 becomes unnecessary, which contributes to simplification of the hinge component configuration and reduction of cost.
[0069]
FIG. 9 shows a second modification of the hinge device.
Basically, each of the first component 11, the second component 12, and the third component 13 is required. However, the third component 13 is attached and fixed to the opening 18 of the stopper 16 by screwing or by applying an adhesive.
Therefore, the locking groove 19 in the inclined surface 18a of the opening 18 and the locking protrusion 21 in the third component 13 described above are not required, which contributes to simplification of a mold and reduction of component costs.
[0070]
FIG. 10 shows a third modification of the hinge device.
FIG. 10A shows the first component 11B, and FIG. 10B shows the second component 12B. Although the third component 13 is omitted here, it is used as it is. (The configuration shown in FIG. 9 may be adopted)
The first component 11B includes a locking portion 15 and a stopping portion 16 having the same structure as described above. The special screw portion 17B formed between the locking portion 15 and the stopping portion 16 is an elliptical screw having an elliptical cross section over the entire length.
[0071]
On the other hand, the second component 12B has the same outer shape and axial length as those described above, but the screw hole 20B is an elliptical screw hole having the same shape and dimensions as the special screw portion 17B.
[0072]
Therefore, when the hinge is attached to the mobile phone and the display 2 is completely closed with respect to the main body 1, the elliptical screw 17B in the first component 11 and the elliptical screw hole 20B in the second component 12B Have their major axes substantially perpendicular to each other.
[0073]
When the display unit 2 is rotated in use, the second component 12B is rotated together with the display unit 2, and when the main body 1 and the display unit 2 make approximately 90 degrees, the elliptical screw part 17B and the elliptical screw The major axes of the holes 20B substantially coincide with each other, that is, their elliptical shapes coincide with each other.
[0074]
In a state where the display unit 2 is completely opened (the display unit 2 is opened at substantially 120 degrees with respect to the main body unit 1), the major axes of the elliptical screw portion 17B and the elliptical screw hole 20B form approximately 60 degrees. In other words, the elliptical shapes coincide with each other at an intermediate position between the fully opened state and the completely closed state, and that position is maintained.
[0075]
Therefore, it is possible to reliably prevent an accident such as the moment when the rotation of the display unit 2 drops and the display unit 2 falls from the hand immediately before the completely open state of the display unit 2 as in the case where the conventional hinge 3 is used.
[0076]
In addition, it goes without saying that various modifications can be made without departing from the scope of the present invention.
[0077]
Further, in the above-described embodiment, the description has been given by applying the mobile phone as the mobile information device. However, the present invention is not limited to this. Is included.
[0078]
【The invention's effect】
As described above, according to the present invention, the number of components can be reduced as a hinge tool, and all the components can be made of synthetic resin, and the cost can be reduced as a portable information device having the hinge tool. In addition, there is an effect that the weight can be reduced and the product can be prevented from falling.
[Brief description of the drawings]
FIG. 1 is a side view of a mobile phone, which is a mobile information device, according to an embodiment of the present invention in a state where a display unit is completely opened.
FIG. 2 is a front view of a hinge attached to the mobile phone according to the embodiment.
FIG. 3 is a front view, a right side view, a left side view, and a top view of the first component according to the embodiment.
FIG. 4 is a front view and a side view of a second component according to the embodiment.
FIG. 5 is a front view, a side view, and a top view of a third component according to the embodiment.
FIG. 6 is a configuration diagram of the hinge device with the display unit completely opened according to the embodiment, and a configuration diagram of the hinge device with the display unit completely closed.
FIG. 7 is a view sequentially showing a process of assembling the hinge device according to the embodiment;
FIG. 8 is a front view of a first component of the hinge device of the first modification example according to the embodiment.
FIG. 9 is an exploded front view of a hinge according to a second modification of the embodiment.
FIG. 10 is a front view and a side view of a first component and a second component of a hinge according to a third modification of the embodiment.
FIG. 11 is a front view of a generally used mobile phone, a configuration diagram of a conventional hinge device, and a cross-sectional view of an auxiliary component and a second component constituting the hinge device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Main body part (1st main body part), 2 ... Display part (2nd main body part), 11 ... 1st part, 17 ... Special screw part, 12 ... 2nd part, 17b ... 2nd screw Parts (straight screws), 17a, 17c: first and third screw parts (tapered screw parts), 20: screw holes (screw parts), 15: locking parts, 16: stopping parts, 18a: inclined surface , 18 ... opening, 13 ... third part, 17B ... elliptical screw part, 12B ... elliptical screw hole.

Claims (9)

A hinge device provided at a connection portion between a first main body component and a second main body component, the second main body component being rotatable with respect to the first main body component.
A first component attached to and fixed to the first body component, a screw portion provided on the first component, and a screw portion screwed to the screw portion of the first component; A second part attached and fixed to the main body part. The screw part of the first part is a straight screw part in the middle part, and both sides of this middle part are tapered screw parts with increasing screw diameters, and the screw part of the second part is the screw part 2. The hinge device according to claim 1, wherein the screw hole has the same screw diameter as the straight screw portion of the one part. The first component has a locking portion attached to and fixed to the first main body component at one end, and has a stopper at the other end through which a screw hole of the second component can be inserted. The hinge device according to claim 2, wherein the screw portion is provided between the hinge and the stopper. The stopper is elastically deformable and has an opening formed by a pair of inclined surfaces having an angle expanding toward the distal end surface, and the stopper is elastically deformed so that the inclined surfaces of the opening contact each other. 4. The fastener according to claim 3, wherein the screw portion of the second component can pass through the stopper. The third part is fitted after the second part is attached to the thread part of the first part in order to maintain the angle of the inclined surface of the opening of the stop part. Stopper. Either one end of the straight screw portion and the tapered screw portion of the first component can be split, and the second component can be screwed into the straight screw portion in a split state. The hinge device according to claim 3, wherein The hinge according to claim 1, wherein the screw part of the first part and the screw part of the second part are an elliptical screw part and an elliptical screw hole, respectively. A hinge device provided at a connection portion between a first main body component and a second main body component, the second main body component being rotatable with respect to the first main body component.
A first component fixed to the first main body and formed with a male screw;
And a second part fixed to the second main body part, wherein a female screw to be screwed with a male screw formed on the first part is provided.
A hinge device wherein the amount of screwing of the male screw and the female screw is displaced as the second main body component rotates. A main unit provided with input means; and a display unit provided with display means for rotatably connected to the main body and displaying a result input to the input means. 9. A portable information device comprising the main body part, and the hinge member according to claim 1 as the second main body part, wherein the display part is a second main body part.

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