Source: https://patents.google.com/patent/KR100998192B1/en
Timestamp: 2020-06-04 19:05:08
Document Index: 50029046

Matched Legal Cases: ['art 124', 'art 124', 'art 162', 'art 153', 'art 162', 'art 162', 'art 162', 'art 153', 'art 162', 'art 224', 'art 124', 'art 162', 'art 163', 'art 120', 'art\n160']

KR100998192B1 - Slide hinge module and slide type equipment utilizing the same - Google Patents
Slide hinge module and slide type equipment utilizing the same Download PDF
KR100998192B1
KR100998192B1 KR1020070066955A KR20070066955A KR100998192B1 KR 100998192 B1 KR100998192 B1 KR 100998192B1 KR 1020070066955 A KR1020070066955 A KR 1020070066955A KR 20070066955 A KR20070066955 A KR 20070066955A KR 100998192 B1 KR100998192 B1 KR 100998192B1
KR1020070066955A
KR20090002747A (en
한 상 이
주식회사 피앤텔
2007-07-04 Application filed by 한 상 이, 주식회사 피앤텔 filed Critical 한 상 이
2007-07-04 Priority to KR1020070066955A priority Critical patent/KR100998192B1/en
2009-01-09 Publication of KR20090002747A publication Critical patent/KR20090002747A/en
2010-12-03 Application granted granted Critical
2010-12-03 Publication of KR100998192B1 publication Critical patent/KR100998192B1/en
A slide hinge mechanism of a slide type device is disclosed. The slide hinge mechanism is a hinge that is connected to the connecting member and the guide member formed with the guide portion is formed foldable and the elastic member receives an elastic force in the direction in which the connecting member and the guide member are unfolded, the guide portion The locking jaw and the movable position of the slide member which is coupled to the slide member and the swing member is formed at one end so as to be rotated in place and installed on the guide member and is caught or released by the locking portion according to the rotation angle. According to the swing operating part is rotated so that the locking jaw releases the state caught in the locking portion or the reverse rotation while moving away from the swing operating portion is the piece wing operating portion to catch the locking jaw Has a configuration including a swing member having a slide guide portion During engagement and to be moved along so that the jaw is made to hold because the torque of the hinge spring smooth sliding movement of the slide member or the slide member, a large frictional force due to the torque of the hinge spring between the guide member and the slide member does not occur.
Slide, hinge, slide member, torque, hinge spring, torsion spring
Slide hinge module and slide type equipment utilizing the same}
The present invention relates to a slide hinge mechanism and a slide type device using the same, and more particularly, to a mobile terminal having a first body and a second body which is inclined at a predetermined angle with respect to the first body after the slide movement in the first body. The present invention relates to a slide hinge mechanism and a slide type portable terminal using the same.
In general, the term "portable terminal" refers to a personal portable terminal capable of communication, games, Internet, TV viewing, calculation, etc. while being carried by an individual such as a PDA, a mobile phone, an electronic calculator, a portable game machine, a notebook, an electronic notebook, etc. Say.
The portable terminal has a slide type and a folder type according to the operation of opening and closing the body. Among these, the present invention relates to a slide type.
In general, a portable terminal adopting a slide type opening and closing method is capable of sliding a second body provided with a display on a first body provided with a button in parallel with each other. In order to make the slide body stand inclined at a predetermined angle after sliding the second body parallel to the first body in the portable terminal, a torsion spring or the like is installed on the connection part for rotating the first body and the second body. 1 Torque should be applied to the body.
In the slide-type portable terminal having such a structure, the torque is rotated by a hinge spring between the second body and the portion for guiding the movement of the second body while the second body is moved in parallel with the first body on the first body. It is foreseen that scratches or large frictional forces are generated between the contact portions and thus the slide movement of the slide member is not smooth.
SUMMARY OF THE INVENTION An object of the present invention is to provide a slide hinge mechanism for smoothly sliding a slide member by preventing scratches or large frictional forces caused by rotational torque between the slide member and its guide member when the slide member is moved. have.
Another object of the present invention is that the sliding action of the slide member can be made smoothly by preventing the scratching phenomenon or large frictional force caused by the rotational torque between the slide member and its guide member when the second body slides along the first body. To provide a sliding device that allows.
In the slide hinge mechanism according to the present invention, a hinge member receiving an elastic force in a direction in which the connecting member and the guide member having an inner portion are formed to be collapsible, and the connecting member and the guide member are unfolded by an elastic member. And a slide member coupled to the guide part, the slide member having a swing operation part formed at one end thereof, and the locking jaw installed on the guide member so as to rotate in place and being caught or released by the locking part according to a rotation angle. According to the moving position of the member is caught by the swing operating part is rotated so that the locking jaw is released from the locking portion or the reverse rotation while moving away from the swing operating portion so that the locking jaw is caught on the locking portion It has a configuration including a swing member having a piece wing operating portion.
A first through hole is formed in the connection member, and the engaging portion is formed at one side of the through hole, and the guide member has a second through hole which the swing member passes through and is directed toward the connection member.
Preferably, the connecting member and the guide member are pivotally connected to each other by a hinge shaft, and the connecting member and the guide member receive elastic force in a direction unfolded from each other by a hinge spring installed on the hinge shaft.
The swing member is such that the locking jaw is released from the locking portion as the one end of the slide member reaches the guide member and is rotated due to the swing operation portion. When the slide member is moved after the guide member is folded to the connecting member by external force in the unfolding angle state, the piece wing operating part is released from the swing operating part. Rotated so that the locking jaw is in a locking angle that is caught by the locking portion so that the guide member is folded into the connection member so that the slide member is not affected by the force of the hinge spring. It is good to be configured to be able to slide.
The guide portion is formed in the form of a T-groove, the swing member is installed to be rotated in place around a rotation axis perpendicular to the guide member, the swing operation portion is formed on the side wall of the slide member protruding toward the guide member desirable.
In some cases, the swing member may be installed to rotate in place about a rotation axis disposed on the bottom of the guide in a direction parallel to the bottom of the guide member, and the swing operation part may be formed on the bottom surface of the slide member.
According to an aspect of the present invention, a slide type device includes a first body and a second body which is slidably movable horizontally with respect to the first body and is bent at an angle with respect to the first body at one end. The hinge member connected to the body and the connecting member formed with the engaging portion and the guide member formed with the guide portion are foldable and receive elastic force in the direction in which the connecting member and the guide member are unfolded by the elastic member, the second body. A locking member coupled to the guide part and movable in a slide and having a swing operation part formed at one end thereof so that the guide member can be rotated in place and caught or released by the locking part according to a rotation angle; According to the movement position of the slide member is caught by the swing operation part is rotated to raise the locking step The state caught in the locking part or is such that the reverse rotation while away from the swing operating part turn has a configuration that includes a swing member having the engaging shoulder portion is operated so as to avoid swinging to take on the locking part.
The connecting member and the guide member are pivotally connected to each other by a hinge shaft, and the connecting member and the guide member receive elastic forces in a direction unfolded from each other by a hinge spring installed on the hinge shaft.
The swing member is such that the locking jaw is released from the locking portion as the one end of the slide member reaches the guide member and is rotated due to the swing operation portion. When the slide member moves after the guide member is folded to the connecting member by external force in the unfolding angle state, the piece wing operating part is released from the swing operating part and rotates backward. The locking jaw is brought into the locking angle of the locking portion so that the guide member is in a folded state so that the slide member slides along the guide portion without being affected by the force of the hinge spring. It is desirable to be configured to be.
The slide member may be integrally formed with the second body.
In some cases, the swing member may be installed to rotate in place about a rotation axis disposed in a direction parallel to the guide member, and the swing operation part may be formed on a bottom surface of the slide member.
A torsion spring is provided between the guide member and the second body to push the second body in a first direction in which the slide member moves along the guide part or in a second direction in the reverse direction according to the movement position of the slide member. It is good.
The hinge, the slide member and the swing member is preferably provided with a pair of intervals.
The slide hinge mechanism according to the present invention includes a body having a locking portion and a hinge portion, and a guide portion, which is rotatably installed on the hinge portion, is connected to the body so that it can be folded, and is elastically moved in a direction unfolded with respect to the body by an elastic member. A guide member receiving the guide member, the slide member coupled to the guide portion is movable and the swing member is formed on one end and the guide member is pivotably installed on the guide member, and the hook is caught or the latch is released according to the rotation angle. According to the movement position of the jaw and the slide member is caught by the swing operating part is rotated so that the state of the locking jaw is released to the locking portion or released from the swing operating portion reversely rotated the locking jaw is the locking portion A spherical member comprising a swing member having a piece wing actuating portion to be caught by May have a last name
As can be seen from the above description, the slide hinge mechanism and the slide type device using the same according to the present invention have a hinge spring between the guide member and the slide member because the locking jaw catches the torque of the hinge spring while the slide member is moved along the guide portion. Scratch phenomenon or large frictional force is not generated due to the torque of the slide member or the slide member is smoothly moved.
Accordingly, in the slide-type device to which the present invention is applied, the operation feeling due to the slide movement is excellent, the service life is long, and no failure occurs.
In addition, the slide hinge mechanism and the slide type device according to the present invention help improve the quality of a PDA, a mobile phone, a portable game machine, an electronic notebook, and the like.
1 is a perspective view of a slide hinge mechanism according to the invention, Figure 2 is an exploded perspective view of the slide hinge mechanism of Figure 1, Figure 3 is an exploded perspective view of the slide hinge mechanism of Figure 1 shown from the bottom.
1 to 3 show a slide hinge mechanism 100 according to the invention. As shown, the slide hinge mechanism 100 according to the present invention includes a connecting member 110. The connection member 110 is connected to the first body of the slide-type device such as a PDA or a mobile phone, and has a plurality of fastening holes 112. The first hinge hole 114 to which the hinge shaft 130 can be coupled to one end is formed at intervals on both sides, and the groove 116 may be caught by one end of the hinge spring 140 on the upper surface of the intermediate portion therebetween. ) Is formed. The first through hole 117 and the locking portion 118 are formed near the other end of the connecting member 110, respectively. The first through hole 117 is to allow a portion of the swing member 150, which will be described later, to be passed and to be rotated within a predetermined range, and the locking portion 118 of the swing member 150 is rotated. The hooking jaw 151 is to be caught to maintain the connection member 110 and the guide member 120 in a folded state.
The slide hinge mechanism 100 according to the present invention includes a guide member 120. The guide member 120 is formed with a second hinge hole 121 into which the hinge shaft 130 can be inserted at both sides. The guide member 120 is foldably connected to the connecting member 110 through the hinge shaft 130, the groove is the other end of the hinge spring 140 on the bottom near the center between the second hinge hole 121 122 is provided. The guide member 124 is formed in the guide member 120. The guide portion 124 is formed in the form of a T-groove. It can be easily understood that the shape of the guide part 124 can be variously changed, and in some cases, the part to be guided to the guide part 124 and its shape may be configured to be interchanged. The second through hole 126 is formed in the vicinity of the other end opposite to the second hinge hole 121 of the guide member 120. The second through hole 126 is to allow a portion of the swing member 150 to be described later to pass through and allow the swing member 150 to be rotated within a certain range. One side edge of the guide member 120 is formed with a torsion spring connector 128 for connecting one end of the torsion spring for providing power to the body of the device.
The slide hinge mechanism 100 according to the present invention includes a hinge shaft 130 and a hinge spring 140. The hinge shaft 130 is inserted into the first hinge hole 114 and the second hinge hole 121 so that the connecting member 110 and the guide member 120 can be folded or unfolded about the hinge shaft 130. .
Hinge spring 140 is coupled to the hinge shaft 130, one end is caught in the groove 116 of the connection member 110, the other end is caught in the groove 122 of the guide member 120 to guide the connection member 110 and Torque is applied in the direction in which the member 120 is unfolded.
The connecting member 110, the guide member 120, and the hinge shaft 130 described above serve as hinges in a coupled state.
The slide hinge mechanism 100 according to the present invention includes a swing member 150. The swing member 150 is installed in the guide member 120, and can be rotated in place about a rotation axis perpendicular to the surface of the guide member 120, and passes through the second through hole 126 to pass through the first through hole (126). 117 is inserted into the swing operation part 162 according to the moving position of the locking jaw 151 and the slide member 160, which is inserted into the end and the end is bent to one side by the locking portion 118 according to the rotation angle or the release is released. The rear wing rotates so that the latching jaw 151 is caught by the catching portion 118 or the swinging portion 162 is reversely rotated so that the catching jaw 151 is caught by the catching portion 118. The operation part 153 is provided.
The slide hinge mechanism 100 according to the present invention includes a slide member 160. The slide member 160 is coupled to the guide portion 124 of the guide member 120 and slides, and is a part connected to the second body of the slide-type device. The slide member 160 is formed by forming side walls 164 along both edges of the bottom and protruding outward from each side wall 164 to be coupled to the guide portion 124 of the guide member 120. It is desirable to form an empty space between the bottom surface of the 120 and the bottom surface. As shown in the drawing, one end sidewall of the slide member 160 has a swing operation part 162 formed thereon. The swing operation part 162 is a swing wing 150 is caught so that the swing member 150 is rotated at the position where the swing member 150 meets the swing operation part 162 is caught. Play a role.
In a state in which the above components are coupled as shown in FIG. 1, the swing member 150 has the piece wing operating portion 153 as the swing operating portion as one end of the slide member 160 reaches the guide member 120. 162, as the locking jaw 151 is caught by the rotation of the locking portion 118 to release the guide member 120 in the unfolding angle to unfold the connection member 110, the unfolding angle When the slide member 160 is moved after the guide member 120 is folded to the connecting member 110 by an external force in the state, the piece wing operating part 153 is rotated in reverse from the swing operating part 162 and the locking step ( Influence of the torque acting on the hinge spring 140 by the slide member 160 by causing the guide member 120 to be folded to the connecting member 110 such that the locking angle 151 is caught by the locking portion 118. To be able to slide along the guide 124 without receiving.
Here, the swing operation portion 162 is formed of a protrusion 162a and a groove 162b protruding to the side so that the swing member 150 can be rotated in the clockwise and counterclockwise directions, respectively. When a spring is added to the swing member 150 to apply a force in one rotational direction, the piece wing operating portion 153 may be shortly formed, and the swing operating portion 162 may be formed only by the protrusion 162a.
Figure 4 is a partially broken perspective view showing the internal coupling state of Figure 1, Figure 5 is a partially broken perspective view of the slide member is moved to the extended position, Figure 6 is a guide member and the slide member in the unfolded state of Figure 5 Partially broken perspective view, FIG. 7 is a rear view of FIG. 4, FIG. 8 is a rear view of FIG. 5, and FIG. 9 is a side view in a state where the six slide hinge mechanism is set up.
4 and 7 show the folded state, one end of the slide member 160 is coupled to the guide member 120. In this state, the piece wing operating portion 153 of the swing member 150 is in contact with the side wall 164 of the slide member 160 is rotated to one side, accordingly, the locking jaw 151 of the swing member 150 is It is caught in the locking portion 118 of the connection member 110.
5 and 8, when the other end of the slide member 160 reaches the guide member 120, the piece wing operating portion 153 of the swing member 150 moves to the swing operation portion. (162) is caught and rotated. Accordingly, the locking jaw 151 of the swinging member 150 is rotated in a direction that is separated from the locking portion 118 of the connecting member 110.
When the piece wing operating portion 153 of the swinging member 150 is caught by the swing operating portion 162 and rotates completely in the clockwise direction, the locking jaw 151 of the swinging member 150 is the locking portion 118 of the connecting member 110. ) Is completely separated, and when there is no external force, the connecting member 110 and the guide member 120 are unfolded as shown in FIGS. 6 and 9 by the force of the hinge spring 140, and the slide member 160. The guide member 120 is also unfolded in the connection member 110.
FIG. 10 is an exploded perspective view of the slide-type device according to the present invention, and FIG. 11 is an exploded perspective view showing FIG. 10 from the bottom.
10 and 11, the slide type device 200 according to the present invention includes a first body 210. The first body 210 corresponds to a main body of a slide type device such as a PDA or a mobile phone, and is mainly provided with input keys or buttons. The first body 210 is formed with a connection groove 212 for the connection of the connection member 110 at intervals. The connecting member 110 is coupled to the connecting groove 212 through a screw 214 or the like.
The sliding device 200 according to the present invention includes a second body 220. The second body 220 is a portion in which a display of a slide device such as a PDA or a mobile phone is mainly installed, and mounting grooves 222 for fixing the slide member 160 are formed on the bottom thereof at intervals, respectively. The recessed part 224 for installation of the torsion spring 230 is provided in between. The slide member 160 is mounted to the mounting groove 222 through a fastening member such as a screw 166.
The slide member 160 is assembled to be movable in the guide portion 124 of the guide member 120 in a state coupled to the second body 220. In some cases, the slide member 160 may be integrally formed on the bottom surface of the second body 220.
Preferably, the slideable device 200 according to the invention has a torsion spring 230. The torsion spring 230 is for pushing the second body 220 in the first direction or the second direction according to the movement position of the slide member 160. One end of the torsion spring 230 is rotatably connected to the torsion spring connector 128 formed at the edge of the guide member 120, and the other end is supported on the bottom of the second body 220, and preferably, a supporting plate (described later) ( Through 240). The support plate 240 is disposed on the bottom of the recess 224 to support the other end of the torsion spring 230 and to support the bottom of the torsion spring 230 so as not to protrude downward.
In this embodiment, a pair of slide hinge mechanisms are illustrated, but in some cases, one or more slide hinge mechanisms may be installed.
12 is an exemplary view of a closed state of the slide-type device according to the present invention, Figure 13 is an illustration of a state in which the second body is moved, Figure 14 is an illustration of the state in which the second body is inclined.
As shown in FIG. 12, in a state where the second body 220 is closed to the first body 210, the upper end of the slide member 160 is coupled to the guide member 120, and the torsion spring of the guide member 120 is provided. One end of the torsion spring 230 connected to the connector 128 is disposed to face upward.
In the state of FIG. 12, when the second body 220 is pushed upward, the slide member 160 fixed to the second body 220 moves upward while being guided by the guide part 124. 220 is also moved upward, as shown in FIG. During the process of moving from the state of FIG. 12 to FIG. 13, since the locking jaw 151 of the swing member 150 described above is caught by the locking portion 118 of the guide member 120, the slide member 160 includes a hinge spring ( The slide moves smoothly without being affected by the torque of 140).
In the state of FIG. 12, since the torsion spring 230 exerts a force downward on the second body 220, the second body 220 is moved downward as much as possible without play while being forced downward.
When the second body 220 is pushed up to the middle, the torsion spring 230 changes the direction of action of the force thereafter, thereby applying a force toward pushing up the second body 220.
When the second body 220 is raised to the maximum, the piece wing operating portion 153 of the swing member 150 described above is caught by the swing operating portion 162 and the swinging member 150 is rotated so that the locking jaw 151 is rotated. It is separated from the locking portion 118, and accordingly the guide member 120 is unfolded from the connecting member 110 by the torque of the hinge spring 140, accordingly the slide member 160 and the second body 220 also As shown in FIG. 14, the second body 220 is inclined with respect to the first body 210.
In the case of using it in the state of FIG. 14 and then closing it again, press the second body 220 to lie in parallel with the first body 210, and then slightly pull the second body 220 downward to swing the member 150 described above. The piece wing operating portion 153 of the swing operating portion 118 is rotated in the opposite direction from the beginning, and thus the locking jaw 151 is caught by the locking portion 118. After the locking jaw 151 is caught by the locking portion 118, the torque of the hinge spring 140 is held by the locking jaw 151, so that the slide member 160 is not affected by the torque of the hinge spring 140. The slide moves along the guide 124 smoothly.
15 is a partial cross-sectional view showing another example of a swing member, a swing operating portion and a piece wing operating portion.
As shown in FIG. 15, in some cases, the swing operation part 162 is formed at the bottom part 163 of the slide member 160, and the swing member 150 is formed in parallel with the surface of the guide member 120. The rotating shaft installed on the bottom 163 of the 120 may be rotatably installed so that the locking jaw 151a may grasp or release the locking portion 118a of the connection member 110. The rest is as described above.
16 is an exploded perspective view showing another embodiment of the slide hinge mechanism according to the present invention.
In some cases, the first and second through holes are not formed in the connecting member 110 and the guide member 120, and the swing member 150 is installed near the end of the guide member 120, and the connecting member 110 is provided. By forming the engaging portion 118 at the end of the swinging member 150 according to the rotation angle of the locking jaw 151 is caught in the engaging portion 118 or folded state or guide member 120 is connected to the connection member ( 110) may be unfolded.
In some cases, the locking portion 118 may be formed to extend toward the upper surface of the guide member 120. In this case, it is not necessary to form the position of the latching jaw 151 at a position extended downwardly as shown in FIG.
The rest is as described above with reference to FIGS. 1 to 9.
17 is an exploded perspective view of a slide-type device showing another embodiment of the present invention.
In some cases, the hinge portion 215 is integrally formed on a body such as the first body 210 of the slide-type device 200 without the connecting member described in the previous embodiment, and the locking portion 216 is formed at one side thereof. The present invention may be implemented by forming.
In this case, the guide member 120 may be rotatably installed on the hinge portion 215 by using the hinge shaft 130 and the hinge spring 140.
The rest is as described above.
As can be seen from the above description, the slide hinge mechanism and the slide type apparatus using the same according to the present invention have a locking jaw while the slide member is moved along the guide portion, so as to catch the torque of the hinge spring. Scratching phenomenon or a large friction due to the torque does not occur can be made to smoothly move the slide member or the slide member.
Accordingly, in the slide-type device to which the present invention is applied, it can be used to have an excellent operation feeling, a long life, and a failure of the slide movement.
1 is a perspective view of a slide hinge mechanism according to the present invention,
Figure 2 is an exploded perspective view of the slide hinge mechanism of Figure 1,
3 is an exploded perspective view of the slide hinge mechanism of FIG. 1 as viewed from the bottom;
4 is a partially broken perspective view showing the internal coupling state of FIG.
5 is a partially broken perspective view of the slide member moved to the extended position;
6 is a partially broken perspective view of the guide member and the slide member in the expanded state in FIG. 5;
7 is a rear view of FIG. 4;
8 is a rear view of FIG. 5;
9 is a side view of a six slide hinge mechanism in an upright position;
1 is an exploded perspective view of a slide-type device according to the present invention,
FIG. 11 is an exploded perspective view of FIG. 10 viewed from the bottom;
12 is an exemplary view of a closed state of a sliding device according to the present invention;
13 is an exemplary view of a state in which the second body is moved;
14 is an exemplary view of a state in which the second body is inclinedly placed;
15 is a partial cross-sectional view showing another example of a swing member, a swing operating portion and a piece wing operating portion;
16 is an exploded perspective view showing another embodiment of the slide hinge mechanism according to the present invention;
100: slide hinge mechanism 110: connecting member
118, 216: catching part 120: guide member
124: guide 130: hinge axis
140: hinge spring 150: swing member
151: engaging jaw 153: piece wing operating part
160: slide member 162: swing operating portion
200: sliding device 210: first body
215: hinge portion 220: second body
230: torsion spring
A hinge member in which a connecting member having a locking portion is formed and a guide member having a guide portion are foldably connected thereto, and receiving elastic force in a direction in which the connecting member and the guide member are unfolded by an elastic member;
A slide member coupled to the guide part and movable in a slide and having a swing operation part formed at one end thereof; And
It is installed in the guide member so that it can be rotated in place and is caught or rotated by the locking jaw according to the moving position of the locking jaw and the sliding position of the locking section according to the rotational angle, and the locking jaw is rotated by the locking section. And a swing member having a piece wing operating portion configured to release the latched state or to reverse the swing operating portion while being reversed so that the locking step is caught by the locking portion.
According to claim 1, The first member is formed in the connecting member and the engaging portion is formed on one side of the through hole, The guide member is formed with a second through hole through which the swing member can be directed toward the connecting member There is,
The connecting member and the guide member are pivotally connected to each other by a hinge shaft, and the connecting member and the guide member are received by the elastic force in a direction unfolding from each other by a hinge spring installed on the hinge shaft. Instrument.
3. The swing member of claim 2, wherein the locking jaw is caught in the locking portion as the one end of the slide member reaches the guide member and the piece wing operating portion is rotated by the swing operating portion. The guide member is in an unfolding angle state to be unfolded from the connecting member, and when the slide member moves after the guide member is folded to the connecting member by an external force in the unfolding angle state, the piece wing operating part is operated by the swing operation. The slide member is reversely rotated while being out of a portion so that the locking jaw is brought into a locking angle of the locking portion so that the guide member is folded into the connecting member so that the slide member is not affected by the force of the hinge spring. A slide, characterized in that configured to be able to slide along the guide without Id hinge mechanism.
According to any one of claims 1 to 3, wherein the guide portion is formed in the form of a T-groove, the swing member is installed so as to rotate in place around a rotation axis perpendicular to the guide member, the swing operation portion is A slide hinge mechanism, characterized in that formed on the side wall of the slide member protruding toward the guide member.
According to any one of claims 1 to 3, The swing member is installed so as to rotate in place around the axis of rotation disposed on the bottom of the guide in a direction parallel to the bottom of the guide member, Slide hinge mechanism, characterized in that formed on the bottom surface of the slide member.
In the device having a first body and a second body which is slidable horizontally to the first body and can be bent inclined with respect to the first body at one end,
A hinge member connected to the first body and having a connecting member formed with a locking portion and a guide member formed with a guide portion to be foldable and receiving an elastic force in a direction in which the connecting member and the guide member are unfolded by an elastic member;
A slide member connected to the second body and coupled to the guide part, the slide member being movable and having a swing operation part formed at one end thereof; And
It is installed in the guide member so that it can be rotated in place and is caught or rotated by the locking jaw according to the moving position of the locking jaw and the sliding position of the locking section according to the rotational angle, and the locking jaw is rotated by the locking section. And a swing member having a piece wing operating portion which is rotated in a reverse direction while being released from the swing operating portion so as to be caught by the locking jaw.
The method of claim 6, wherein the connecting member and the guide member are pivotally connected to each other by a hinge shaft, the connecting member and the guide member are subjected to an elastic force in a direction unfolding each other by a hinge spring installed on the hinge shaft. Sliding device, characterized in that.
8. The swing member of claim 7, wherein the locking jaw is caught by the locking portion as the one end of the slide member reaches the guide member and is rotated by being caught by the swing operating portion. The guide member is in an unfolding angle state to be unfolded from the connecting member, and when the slide member moves after the guide member is folded to the connecting member by an external force in the unfolding angle state, the piece wing operating part is operated by the swing operation. The slide member is reversely rotated while being out of a portion so that the locking jaw is brought into a locking angle of the locking portion so that the guide member is folded into the connecting member so that the slide member is not affected by the force of the hinge spring. A slide, characterized in that configured to be able to slide along the guide without Id-type device.
The slide type device according to any one of claims 6 to 8, wherein the slide member is formed integrally with the second body.
According to any one of claims 6 to 8, The guide portion is formed in the form of a T-groove, The swing member is installed so as to rotate in place around a rotation axis perpendicular to the guide member, The swing operation portion is And a side wall of the slide member protruding toward the guide member.
According to any one of claims 6 to 8, The swing member is installed so as to rotate in place around a rotation axis arranged in a direction parallel to the guide member, The swing operation portion is formed on the bottom surface of the slide member Sliding device, characterized in that.
9. The method of claim 6, wherein, between the guide member and the second body, the slide member moves forward along the guide part according to the movement position of the slide member. Or a torsion spring is installed to push in the second direction to move backward.
The slide type device according to any one of claims 6 to 8, wherein the hinge member, the slide member, and the swing member are provided in pairs at intervals.
A body having a locking portion and a hinge portion formed thereon;
A guide member having a guide part rotatably installed at the hinge part and connected to the body so as to be foldable and receiving an elastic force in a direction unfolded with respect to the body by an elastic member;
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BRPI0803006-5A BRPI0803006A2 (en) 2007-07-04 2008-07-04 sliding hinge module, and, sliding type device
KR20090002747A KR20090002747A (en) 2009-01-09
KR100998192B1 true KR100998192B1 (en) 2010-12-03
ID=39789619
US (1) US7650671B2 (en)
EP (1) EP2012506A2 (en)
JP (1) JP2009019767A (en)
KR (1) KR100998192B1 (en)
CN (1) CN101340793A (en)
BR (1) BRPI0803006A2 (en)
RU (1) RU2382864C1 (en)
TW (1) TW200930004A (en)
WO (1) WO2009005238A2 (en)
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2007-07-04 KR KR1020070066955A patent/KR100998192B1/en not_active IP Right Cessation
2008-06-24 WO PCT/KR2008/003581 patent/WO2009005238A2/en active Application Filing
2008-06-25 RU RU2008125561/12A patent/RU2382864C1/en not_active IP Right Cessation
2008-06-27 US US12/163,482 patent/US7650671B2/en not_active Expired - Fee Related
2008-06-30 TW TW097124533A patent/TW200930004A/en unknown
2008-07-02 EP EP08104602A patent/EP2012506A2/en not_active Withdrawn
2008-07-03 JP JP2008174777A patent/JP2009019767A/en not_active Abandoned
2008-07-04 BR BRPI0803006-5A patent/BRPI0803006A2/en not_active Application Discontinuation
2008-07-04 CN CNA2008101282457A patent/CN101340793A/en not_active Application Discontinuation
KR20090002747A (en) 2009-01-09
US20090007383A1 (en) 2009-01-08
CN101340793A (en) 2009-01-07
RU2382864C1 (en) 2010-02-27
WO2009005238A3 (en) 2009-02-26
BRPI0803006A2 (en) 2009-09-08
RU2008125561A (en) 2009-12-27
WO2009005238A2 (en) 2009-01-08
JP2009019767A (en) 2009-01-29
TW200930004A (en) 2009-07-01
EP2012506A2 (en) 2009-01-07
US7650671B2 (en) 2010-01-26
US9870031B2 (en) 2018-01-16 Hinge device applicable to soft display screen
US9915981B2 (en) 2018-03-13 Hinge device applicable to soft display module
US7667959B2 (en) 2010-02-23 Foldable electronic device having double-axis hinge and locking spring
KR100722240B1 (en) 2007-05-29 hinge device and electronic apparatus using the device
TWI545423B (en) 2016-08-11 Information apparatus and link mechanism of information apparatus
US8064970B2 (en) 2011-11-22 Hinge assemblies for mobile terminals
EP2014064B1 (en) 2011-03-09 Compact devices with turn and slide concept
JP5910409B2 (en) 2016-04-27 Information device and information device link mechanism
DE102008027768B4 (en) 2015-07-30 Mobile terminal
US9939851B2 (en) 2018-04-10 Electronic device and hinge thereof
EP2134065B1 (en) 2014-12-03 Portable terminal
KR100675734B1 (en) 2007-01-23 Slide-up opening and closing mechanism for portable terminal
EP1892932B1 (en) 2015-12-30 Mobile phone having dual connection member and hinge device thereof
KR20030068422A (en) 2003-08-21 Opening and closing unit and electric device using same
TWI364647B (en) 2012-05-21 Overturning cover mechanism and electronic device using the same
2008-07-01 A201 Request for examination
2010-11-29 GRNT Written decision to grant
2013-11-30 LAPS Lapse due to unpaid annual fee