JP2009069554A - Thin-type monitoring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a thin-type monitoring device, easily adjusting the inclination of a monitor body without having to equipp a stand of a complex structure, and reducing the packing bulk, when it is stored in a packing material to lower the storage and carrying cost. <P>SOLUTION: This thin-type monitoring device includes a base part supporting the lower surface of the monitor body in contact; a plurality of arm parts interposed between the back of the monitor body and the rear-end part of the base part; a base hinge part, connecting one end of each arm part and the rear part of the base part so that the arm parts are turnable with respect to the base part; a monitor hinge part connecting the other end of each arm part and the back of the monitor body so that the arm parts are turnable with respect to the monitor body; and engaging projecting parts, projected from a plurality of positions that differ in distances from the base hinge part so that in the base part, the surface thereof contact-supporting the lower surface of the monitor body, engages with the lower surface of the monitor body. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a thin monitor device including a stand that can be compactly stored and can easily change the angle of a display unit.

  In recent years, thin monitor devices typified by space-saving and lightweight liquid crystal display devices are often used as display devices for displaying images such as PC monitors and TV receivers. Many of the thin monitor devices have a monitor main body and a stand portion connected to the monitor main body. By arranging the stand on the horizontal surface of the installation unit using the stand unit, the monitor body is arranged on the installation unit while maintaining an upright state.

  The stand part has a leg part connected to the monitor main body and a base part provided on the opposite side of the leg part from the monitor main body. The leg is a columnar member protruding from the lower part of the monitor body. In order to prevent the monitor body from falling in the front-rear direction, the base portion has a flat plate shape having a width corresponding to the size and weight of the monitor body in the front-rear direction.

  The base portion and the leg portion are attached so as to form a predetermined angle. When the thin monitor device having the stand portion is packed with a packing material such as a corrugated cardboard, it is necessary to have a thickness that is greater than the length of the stand portion in the front-rear direction, and that much wasteful space is required. When the thin monitor device is circulated, if the thickness at the time of packing is large, a lot of cost is required for transportation.

  In view of this, in some cases, the stand portion is formed so as to be removable in order to reduce the thickness at the time of packing. The thickness at the time of packing can be made thin by removing the said stand part which causes the thickness at the time of packing, and packing it with the said monitor main body.

  Japanese Patent Application Laid-Open No. 2003-280533 includes a monitor body, a base portion that supports the monitor body, and a link portion that is interposed between the monitor body and the base portion. A monitor device having a base hinge that rotatably connects one end of the base and the base part, and a monitor hinge that connects the other end of the link part and the monitor body so as to be tiltable with each other is shown. ing.

  In the monitor device, by rotating the base hinge and the monitor hinge, the link part and the base part can be arranged along the monitor main body, and the packing bulk can be reduced.

JP 2003-280533 A

  However, in the case of a thin monitor device having a stand part that can be disassembled, the stand part must be assembled when the thin monitor device is installed on an installation base. The stand part includes the base part and the leg part. Each of the base part and the leg part is a member extending in three-dimensionally different directions, and even when the stand part is disassembled, it may be difficult to reduce the thickness at the time of packaging.

  Further, in recent years, the thin monitor device has been increased in size and has become significantly heavier. It is difficult to assemble the stand portion of the heavy thin monitor device. In addition, when the weight is heavy, there is a possibility that sufficient strength cannot be obtained in the case of a stand part that can be disassembled. In this case, the thin monitor device may drop or fall down, which is dangerous.

  Moreover, in the monitor apparatus described in Unexamined-Japanese-Patent No. 2003-280533, the angle of the said base part and the said link part and the angle of the said monitor main body and the said link part are not adjusted with the said base hinge or the said monitor hinge. In other words, the shapes of the base hinge and the monitor hinge are complicated.

  Accordingly, an object of the present invention is to provide a thin monitor device that can reduce the bulk of the packaging when stored in the packaging material and reduce the cost of storage and transportation without providing a stand having a complicated structure. And

  It is another object of the present invention to provide a thin monitor device including a stand unit that can easily adjust the tilt of the monitor main body without being disturbed during storage.

  In order to achieve the above object, the present invention provides a thin monitor device having a monitor main body for displaying an image, wherein the base portion contacts and supports the lower surface of the monitor main body, the back surface of the monitor main body, and the base portion. A plurality of arm portions interposed between the rear end portion, and one end portion of the arm portion and the rear portion of the base portion so that the arm portion is rotatable with respect to the base portion. A base hinge portion to be connected, a monitor hinge portion for connecting the other end of the arm portion and the back surface of the monitor main body so that the arm portion is rotatable with respect to the monitor main body, and the base portion Is provided with an engaging convex portion which is engaged with the lower surface of the monitor main body on a surface which contacts and supports the lower surface of the monitor main body and protrudes from a plurality of positions having different distances from the base hinge portion. And

  According to this configuration, since the arm part and the base part can be easily folded, it is possible to prevent the thin monitor device from becoming bulky when packing during transportation or storage.

  In addition, the angle can be easily adjusted simply by changing the engagement position between the lower surface of the monitor body and the engagement projection, and the thin monitor device can be used under various usage conditions. is there.

  In the above-described configuration, the engagement convex portion is a triangular protrusion having a slope that protrudes toward the monitor main body and has a lower surface of the monitor main body arranged in contact with the lower surface of the monitor main body. The angle of the inclined surface with respect to the surface that contacts and supports the lower surface of the monitor main body of the base portion increases as the distance from the base hinge portion increases.

  The said structure WHEREIN: The said base hinge part may be provided with the rotation restriction | limiting part which restrict | limits the rotation operation | movement with the said arm part and the said base part.

  In the above configuration, a base bracket for engaging the base portion and attaching the base portion to a vertical surface is provided, and a concave notch is formed on the slope where the bottom surface of the monitor main body of the engaging convex portion is contacted. The base bracket may be provided with a rod-like engaging portion that engages with the engaging convex portion.

  According to this configuration, by using the base bracket, it is possible to prepare the thin monitor device in a portion other than a horizontal plane or a plane following the horizontal plane. Further, since there is no member to be removed, there is no worry of losing the member, and the change of the installation location (for example, from the wall to the table) can be executed quickly.

  In the above configuration, the base hinge portion is connected to a base connection support portion including a pair of flat plates protruding from the base, and one end portion of the arm portion, and the pair of flat plates of the base connection support portion. A base connection portion disposed between the base connection support portion and the base connection portion, and the base connection support portion and the base connection portion. A rotation support member that passes through the through hole at the same time is inserted, and the rotation limiting portion includes an outer surface of the rotation support member, an inner surface of the through hole of the base connection support portion, and a through hole of the base connection portion. A sheet-like member having a friction coefficient higher than the friction coefficient of the inner surface, and externally fitting the rotation support member so as to contact the inner surface of the through hole of the base connection support portion and the inner surface of the base connection portion Even There.

  In addition, the base connection support portion is formed with at least one of the surfaces of the pair of flat plates facing each other, the first uneven portion formed radially around the through hole, and the first uneven portion of the base connection portion A pressing member that presses the pair of flat plates against the base connecting portion so that the first uneven portion and the second uneven portion are engaged with each other. May be provided. Examples of the pressing member include a bolt that can be used as a common member with the rotation support member, and a nut that is screwed to the bolt.

  In the above configuration, the rotation limiting portion includes a brace that is rotatably supported on a side surface of the base portion, and a plurality of engagement pins are provided on a side surface of the arm portion. You may restrict | limit rotation with the said arm part and the said base part by engaging the notch formed in the front-end | tip part with the said engaging pin.

  In the above configuration, the monitor hinge portion may be provided with a rotation restricting portion for restricting a rotation operation between the arm portion and the monitor main body.

  In the above configuration, the monitor hinge portion is connected to a monitor connection support portion having a pair of flat plates protruding from the monitor main body, and the other end portion of the arm portion, and the pair of flat plates of the monitor connection support portion. And the monitor connection support portion and the monitor connection portion have a through hole, and the through hole of the monitor connection support portion and the monitor connection portion. A rotation support member that penetrates through the through-holes at the same time is inserted. A sheet-like member having a friction coefficient higher than the friction coefficient of the inner surface of the monitor, and the rotation support member is externally fitted so as to be in contact with the inner surface of the through hole of the monitor connection support portion and the inner surface of the monitor connection portion. Stuff It may be.

  In addition, the monitor connection support portion includes a first uneven portion formed radially around the through hole on at least one of a pair of flat plates facing each other, and the first uneven portion of the monitor connection portion. A pressing member that presses the pair of flat plates against the monitor connecting portion so that the first uneven portion and the second uneven portion are engaged with each other. May be provided.

  According to the present invention, it is possible to provide a thin monitor device capable of reducing the packing bulk when stored in the packing material and reducing the cost of storage and transportation without providing a stand having a complicated structure. .

  In addition, the present invention can provide a thin monitor device including a stand unit that can easily adjust the inclination of the monitor main body without being in the way of storage.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view seen from the front side of a liquid crystal display device which is an example of a thin monitor device, and FIG. 2 is a perspective view seen from the back side of the liquid crystal display device shown in FIG. As shown in FIGS. 1 and 2, the liquid crystal display device A includes at least a monitor body 1 and a stand 2. As shown in FIG. 1, the monitor main body 1 is supported by a stand 2 in an upright state. In the following description, unless otherwise indicated, the direction of the liquid crystal display device A (left-right direction, up-down direction) will be described based on the upright state and the state from the back side to the front side.

  The monitor main body 1 includes a front cabinet 11, a rear cabinet 12, and a liquid crystal module 13. The front cabinet 11 is an exterior member on the front side of the monitor body 1 and is a rectangular frame. The front cabinet 11 is a member manufactured by integral molding of resin, although not limited thereto. The front cabinet 11 is formed with a window 110 which is a rectangular through hole on the front side.

  The rear cabinet 12 is an exterior member on the back side of the monitor body 1 and is fitted to the back side of the front cabinet 11. Similarly to the front cabinet 11, the rear cabinet 12 is manufactured by integral molding of resin. A liquid crystal module 13 is arranged inside a space surrounded by the chlorofluorocarbon, the cabinet 11 and the rear cabinet 12. The liquid crystal module 13 receives an external signal and displays an image on the display unit. The liquid crystal module 13 is arranged in a space between the front cabinet 11 and the rear cabinet 12 so that the effective display area 131 on the front side is exposed from the window 110 of the front cabinet 11.

  As shown in FIG. 2, the stand 2 includes a base portion 21, two arm portions 22, a base hinge portion 23, and a monitor hinge portion 24. The base hinge portion 23 is rotatably connected to the arm portion 22 and the base portion 21, and the monitor hinge portion 24 is rotatably connected to the back surface of the rear cabinet 12.

  The stand 2 will be described in more detail. 3 is a plan view of the base portion of the stand shown in FIG. 2, FIG. 4 is a side view of the base portion shown in FIG. 3, and FIG. 5 is a side view of the arm portion of the stand shown in FIG. 6 is a side view of the stand. As shown in FIGS. 4 and 6, the base portion 21 has an upper surface 21 u and a lower surface 21 d when the liquid crystal display device A is placed on a horizontal surface on the stand 2, and the lower surface 21 d is flat. Is formed.

  As shown in FIG. 3, the base portion 21 has a rectangular outer frame portion 211, five vertical beam portions 212 that extend in the longitudinal direction of the outer frame portion 211 and are arranged in parallel in the lateral direction, It has a mountain-shaped stopper portion 213 projecting from the vertical beam portion 212 to the upper side 21 u of the base portion 21. As shown in FIG. 4, the stopper portion 213 is formed such that the angle of the apex decreases as the distance from the base hinge portion 23 increases. Here, for convenience, reference numerals 213a, 213b, and 213c are attached to the stopper portion 213 sequentially from the base connection support portion 231. Each of the stopper portions 213 has an isosceles triangle shape. The top of 213a is a degree, the top of 213b is b degree, and the top of 213c is c degree (a> b> c).

  As shown in FIGS. 3, 4, and 5, the base hinge portion 23 is formed on the base portion 21 and includes a base connection support portion 231 including a pair of flat plate portions 2311 arranged in opposition to each other (see FIGS. 4) and a base connecting part 232 (see FIG. 5) formed integrally with the arm part 22 at one end of the arm part 22. The base connecting portion 232 is formed in a cylindrical shape except for the portion connected to the arm portion 22, and a cylindrical through hole 233 (see FIG. 5) is formed in the center of the cylindrical shape. The base connection support portion 231 is formed at both end portions of one short side of the base portion 21, and a circular through hole 230 is formed in the flat plate portion 2311. The through hole 230 of each flat plate portion 2311 has a common central axis and the same inner diameter. As shown in FIG. 5, the base connecting portion 232 is connected to be shifted upward with respect to the central axis of the arm portion 22.

  The monitor hinge portion 24 is formed on the rear surface of the rear cabinet 12 and is opposite to the monitor connection support portion 241 including a pair of flat plate portions 2411 arranged opposite to each other (see FIG. 2) and the base connection portion 232 of the arm portion 22. A monitor connecting portion 242 formed integrally with the arm portion 22 is provided at the end portion on the side. The monitor connecting portion 242 is formed in a columnar shape other than the portion connected to the arm portion 22, and a columnar through hole 243 (see FIG. 5) is formed in the center of the columnar shape. Two monitor connection support portions 241 are provided on the rear surface of the rear cabinet 12 so as to be separated from each other on the left and right. The through hole 240 of each flat plate portion 2411 has a common central axis and the same inner diameter. As shown in FIG. 5, the monitor connecting portion 242 is connected to the end of the arm portion 22 opposite to the base connecting portion 232 and to the side opposite to the base connecting portion 232 with respect to the central axis.

  As shown in FIGS. 2 and 6, the base coupling portion 231 is disposed between the two flat plates 2311 of the pair of base coupling support portions 231 disposed in parallel. The base connecting portion 231 is disposed so as to protrude from the end portion of the arm portion 22 toward the base portion 21 side. The through hole 230 of the base connection support portion 231 and the through hole 233 of the base connection portion 232 are penetrated by the rotation pin 234. Since the stand 2 is provided with the rotation pin 234, the base portion 21 and the arm portion 22 are connected to each other via the base hinge portion 23 so as to be rotatable relative to each other.

  It should be noted that a retaining member 235 having an outer diameter larger than the inner diameter of the through hole 230 is attached to both ends of the rotating pin 234 in the axial direction. The rotation pin 234 is provided with the retaining member 235 so that the rotation pin 234 is prevented from dropping from the through hole 230 and the through hole 233 even when the base hinge portion 23 is repeatedly operated. Is possible.

  As shown in FIG. 2, the monitor connecting portion 242 is arranged between the two flat plates 2411 of the pair of monitor connecting support portions 241 arranged in parallel. The monitor connecting portion 242 is disposed so as to protrude from the end portion of the arm portion 22 toward the rear cabinet. The through hole 240 of the monitor connection support portion 241 and the through hole 243 of the monitor connection portion 242 are penetrated by the rotation pin 244.

Since the stand 2 is provided with the rotation pin 244, the arm portion 22 is rotatably connected to the rear cabinet 12 so as to form a predetermined angle. It should be noted that a retaining member 245 having an outer diameter larger than the inner diameter of the through hole 240 is attached to both ends of the rotating pin 244 in the axial direction. Since the rotation pin 244 is provided with the retaining member 245, even when the arm portion 22 is repeatedly rotated around the monitor hinge portion 24, the rotation pin 244 is dropped from the through hole 240 and the through hole 243. Can be suppressed.

  The stand 2 will be further described. FIG. 7 is a side view showing a state in which the stand of the liquid crystal display device according to the present invention is folded, and FIG. 8 is a side view showing a state where the stand of the liquid crystal display device shown in FIG. 7 is used. The liquid crystal display device A shown in FIG. 7 is in a state of being transported and stored in a packing material. As shown in FIG. 7, in the liquid crystal display device A, the arm portion 22 is rotated around the monitor hinge portion 24 and is disposed along the rear surface of the rear cabinet 12. Further, the base portion 21 is rotated around the base hinge portion 23 and is disposed so as to contact the link portion 22. At this time, the base portion 21 is disposed so that the bottom surface 21 d faces the rear cabinet 12.

  That is, in the liquid crystal display device A, the stand 2 is folded along the monitor body 1. In this state, the stand that extends in the thickness direction of the monitor main body 1 can be stored along with the monitor main body 1 without being disassembled, so that the thickness at the time of packing can be reduced. can do.

  Next, the stand 2 when the liquid crystal display device A is taken out from the packing material and installed at the installation location will be described. When the liquid crystal display device A is taken out of the packing material, the stand 2 is folded as shown in FIG. The link part 22 is rotated around the monitor hinge part 24 so that the tip of the arm part 22 is separated from the rear cabinet 12. At the same time, the base portion 21 is rotated around the base hinge portion 23, and the base portion 21 is moved below the monitor body 1. At this time, the upper surface 21 u of the base portion 21 faces the monitor main body 1.

  As shown in FIG. 8, the base portion 21 is arranged with the bottom surface 21d in contact with the horizontal surface Sg on which the liquid crystal display device A is installed. Further, the lower surface 10 of the monitor main body 1 is brought into contact with a stopper portion 213 (here, the stopper portion 213a) protruding from the upper surface 21u of the base portion 21. As described above, since the back surface of the rear cabinet 12 is supported by the link portion 22 and the lower portion is supported by the stopper portion 213 of the base portion 21 in the monitor main body 1, the liquid crystal display device A is aligned on the horizontal plane Sg. Supported in an upright position.

  9 and 10 are side views in which the installation angle of the liquid crystal display device shown in FIG. 8 is changed. As described above, the base portion 21 includes a plurality of stopper portions 213. It is assumed that the lower surface 10 of the monitor main body 1 and the effective display area of the liquid crystal module 13 are perpendicular to each other.

  As shown in FIG. 8, when the lower surface 10 of the monitor body 1 is supported by the stopper portion 213a, the lower surface 10 of the monitor body 1 is supported in contact with the inclined surface of the stopper portion 213a. Thus, the effective display area 131 of the liquid crystal module 13 is supported upright while being raised a / 2 degrees with respect to the horizontal plane Sg. Similarly, when the lower surface 10 is supported by the stopper portion 213b, the effective display area 131 is established and supported in a state of being raised by b / 2 with respect to the horizontal plane Sg (see FIG. 9). Furthermore, when the lower surface 10 is supported by the stopper portion 213c, the effective display area 131 is supported upright and raised by c / 2 degrees with respect to the horizontal plane Sg (see FIG. 10).

  Here, as described above, since the angles of the tops of the stopper portions 213a, 213b, and 213c have a relationship of a> b> c, the lower surface 10 of the monitor body 1 is supported by the stopper portion 213a. In some cases, the effective display area 131 of the liquid crystal module 13 is supported in a state of being almost upright with respect to the horizontal plane Sg. On the contrary, when the lower surface 10 is supported by the stopper portion 213c, the effective display area 131 is supported in a state of being most inclined with respect to the horizontal plane Sg.

 As described above, the plurality of stopper portions 213 are appropriately selected, and the lower surface 10 of the monitor main body 1 is supported by the selected stopper portion 213, thereby tilting the effective display area 131 of the monitor main body 1. Can be easily changed.

  In the stand 2, the distance from the end of the base portion 21 on the base coupling support portion 231 side to the stopper portions 213 a, 213 b, and 213 c, the length of the arm portion 22 (from the center of the through hole 233 to the center of the through hole 243). Length) and the length from the lower surface 10 of the monitor main body 1 to the monitor connection support portion 241 can stably support the monitor main body 1 when the monitor main body 1 is supported by the base portion 21 and the arm portion 22. Is set to

  Another example of the base hinge portion will be described. FIG. 11 is a cross-sectional view of another example of the base hinge portion. As shown in FIG. 11, a cylindrical friction member 236 may be provided between the rotation pin 234 and the through hole 230 and the through hole 233. The friction member 236 generates a frictional force between the rotation pin 232 and the through hole 230 and between the rotation pin 232 and the through hole 231. When the friction member 236 is provided, the base portion 21 and the arm portion 22 are rotated around the base hinge portion 23 only when a certain force or more is applied to the base portion 21 and / or the arm portion 22. As a result, the angle between the base portion 21 and the arm portion 22 is maintained at a constant angle unless a certain force or more is applied between the base portion 21 and the arm portion 22.

  FIG. 12 is an exploded view of still another example of the base hinge portion. As shown in FIG. 12, a plurality of irregularities 237 and 238 formed radially around the through holes 230 and 233 are formed on the inner surface side of the base connection support portion 231 and the outer surface side of the base connection portion 232, respectively. In addition, a mechanism for preventing the rotation of the base portion 21 and the arm portion 22 by engaging the concaves and convexes 237 and 238 may be provided. In this case, bolts and nuts are used instead of the rotation pin 234 and the retaining member 235. When the base part 21 and the arm part 22 make an appropriate angle, the bolts and nuts are tightened so that the irregularities 237 and 238 are firmly engaged, and a large force acts on the base part 21 and / or the arm part 22. Even in this case, the angle between the base portion 21 and the arm portion 22 is maintained. In addition to the bolts and nuts, those that can press the concaves and convexes 237 and 238 can be widely used.

  Although the base hinge portion 23 has been described with reference to FIGS. 11 and 12, the monitor hinge portion 24 may have the same structure.

  Another embodiment of the liquid crystal display device according to the present invention will be described with reference to the drawings. FIG. 13 is a side view of a stand used in another example of the liquid crystal display device according to the present invention, and FIG. 14 is a side view of the liquid crystal display device provided with the stand shown in FIG. As shown in FIG. 15, the base portion 21 has the same configuration as the base portion 21 shown in FIG. 4 and the like except that the shape of the stopper portion 214 is different. Substantially identical parts are given the same reference numerals.

  As shown in FIG. 13, the stopper portion 214 of the base portion 21 is formed in an isosceles triangle shape, and a recess 215 having an opening on the slope closer to the monitor connection support portion 241 is formed.

  As shown in FIG. 14, the lower surface 10 of the monitor main body 1 is provided with an engaging portion 101 that is engaged with the recess 215 of the stopper portion 214. The engaging portion 101 is a rod-like member that is disposed below the lower surface 10 and supported at both ends. By engaging the rod-like engagement portion 101 with the recess 215, the monitor body 1 can be supported more stably in an upright state. As shown in FIGS. 13 and 14, the base portion 21 is provided with the same number (three in this case) of fixing protrusions 216 protruding from the side surfaces as the stopper portions 214. Further, a stationary convex portion 217 having the same shape as the fixing convex portion 216 is provided on the side surface of the base portion 21.

  As shown in FIGS. 13, 14, and 15, a brace 221 that is rotatably supported is provided on a side surface of the arm portion 22. The brace 221 is a long member shorter than the arm portion 22, and one end portion vicinity is rotatably supported on the side portion of the arm portion 22. Further, an engaging recess 223 that is engaged with a fixing protrusion 216 formed on the base portion 21 is formed in the vicinity of the other end. The engaging recess 222 has an inlet portion 223 through which the fixing convex portion 216 and the stationary convex portion 217 can pass, and an engaging portion 224 extending in the longitudinal direction of the brace 221 behind the inlet portion 223.

  As shown in FIG. 14, when the liquid crystal display device is installed on the horizontal plane Sg, the base portion 21 is disposed in contact with the horizontal plane Sg, and the braces 221 are engaged with the fixing convex portions 216. At this time, the monitor main body 1 tends to fall to the back side, and a force acts on the arm 22 on the back side (clockwise direction in FIG. 14) around the base hinge 23. By this force, the brace 221 is pulled by the arm portion 22. By pulling the brace 221, the fixing convex portion 216 moves to the tip side of the engaging portion 224, and the engaging concave portion 222 of the brace 221 is engaged so as not to be separated from the fixing convex portion 216. As described above, the engagement concave portion 222 of the brace 221 and the fixing convex portion 216 are engaged, thereby restricting the rotation of the arm portion 22 and maintaining the monitor body 1 in an upright state without falling down. The The fixing convex portion 216 that engages with the engaging concave portion 222 of the brace 221 is determined by the position of the stopper portion 215 that engages with the engaging portion 101 of the monitor main body 1.

  Further, as shown in FIG. 15, when the stand 2 is folded to the back side of the monitor body 1, the following is performed. The link portion 22 is disposed along the back surface of the monitor body 1, and the base portion 21 is moved so that the lower surface 21 d faces the back surface of the monitor body 1. At this time, the engaging concave portion 222 of the brace 221 is engaged with the stationary convex portion 217. As described above, the engagement concave portion 222 and the stationary convex portion 217 are engaged with each other, so that the base portion 21 of the stand 2 can be prevented from falling to the back side with the base hinge portion 23 as the center. Although the arm portion 22 and the rear cabinet 12 are not fixed, the monitor hinge portion 24 supports the folded upper end portion of the stand 2, so that the stand 2 can move away from the rear cabinet 12 by its own weight. Hard to occur.

  Moreover, as shown in FIG. 15, the wall-hanging bracket 4 may be prepared in advance, and the base portion 21 may be engaged so that the liquid crystal display device A can be installed on the wall. At this time, the wall-hanging bracket 4 has an engaging portion 41 that can be engaged with a recess 215 formed in the stopper portion 213 of the base portion 21. The engaging portion 41 is a bar-like member extending in three lateral directions at a position corresponding to the recess 215 of the stopper portion 213. By engaging the recess 215 with the rod-shaped engaging portion 41, the wall hanging bracket 4 and the base portion 21 can be engaged.

  When the liquid crystal display device A is installed on the wall surface with the wall-hanging bracket 4, the arm portion 22 has a force to rotate in a direction away from the base portion 21 around the base hinge portion 23 due to the weight of the monitor body 1. Works. The brace 222 is pulled away from the base portion 21 by the force of the monitor body 1 due to its own weight. As a result, the stationary convex portion 217 is moved to the distal end side of the engaging concave portion 222, and the stationary convex portion 217 is reliably engaged with the engaging concave portion 222. Thereby, since the monitor main body 1 is restrained from moving away from the base portion 21 by the brace 221, the liquid crystal display device A is stably installed on the wall surface.

  In each of the above embodiments, a liquid crystal display device is cited as an example of a thin monitor device. However, the present invention is not limited to this, and the present invention can be widely applied to a video display device having a small thickness such as a plasma display device.

  As mentioned above, although embodiment of invention was described concretely, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the summary.

  The present invention is applicable to thin display devices such as liquid crystal display devices and plasma display devices.

It is the perspective view seen from the front side of the liquid crystal display device which is an example of a thin monitor device. It is the perspective view seen from the back side of the liquid crystal display device shown in FIG. It is a top view of the base part of the stand shown in FIG. It is a side view of the base part shown in FIG. It is a side view of the link part of the stand shown in FIG. It is a side view of a stand. It is a side view of the state which folded the stand of the liquid crystal display device concerning this invention. FIG. 8 is a side view showing a state where the stand of the liquid crystal display device shown in FIG. 7 is used. It is the side view which changed the installation angle of the liquid crystal display device shown in FIG. It is the side view which changed the installation angle of the liquid crystal display device shown in FIG. It is sectional drawing of the other example of a base hinge part. It is sectional drawing of the further another example of a base hinge part. It is a side view of the stand used for the other example of the liquid crystal display device concerning the present invention. It is a side view of the state installed in the horizontal surface of the liquid crystal display device provided with the stand shown in FIG. It is a side view of the state which folded the stand of the liquid crystal display device shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Monitor main body 11 Front cabinet 12 Rear cabinet 2 Stand 21 Base part 211 Outer frame part 212 Vertical beam part 213 Stopper part 22 Arm part 23 Base hinge part 24 Monitor hinge part

Claims (10)

A thin monitor device having a monitor main body for displaying images,
A base portion that contacts and supports the lower surface of the monitor body;
A plurality of arm portions interposed between a back surface of the monitor body and a rear end portion of the base portion;
A base hinge part that connects one end of the arm part and the rear part of the base part so that the arm part can rotate with respect to the base part;
A monitor hinge for connecting the other end of the arm and the back of the monitor body so that the arm is rotatable with respect to the monitor body;
The base portion includes an engagement convex portion that is engaged with the lower surface of the monitor main body on a surface that contacts and supports the lower surface of the monitor main body and protrudes from a plurality of positions at different distances from the base hinge portion. A thin monitor device.   The engaging protrusion is a triangular protrusion having a slope that protrudes toward the monitor main body and has a lower surface of the monitor main body in contact with the lower surface of the monitor main body. The thin monitor device according to claim 1, wherein an angle of the base portion with respect to a surface that contacts and supports the lower surface of the monitor main body increases as the distance from the base hinge portion increases.   The thin monitor device according to claim 1, wherein the base hinge portion includes a rotation restricting portion that restricts a rotation operation between the arm portion and the base portion. A base bracket for engaging the base portion and attaching the base portion to a vertical surface;
A concave notch is provided on the slope where the bottom surface of the monitor main body of the engagement convex portion is contacted,
The thin monitor device according to claim 3, wherein the base bracket includes a rod-like engagement portion that engages with the engagement convex portion. The base hinge portion is connected to a base connection support portion having a pair of flat plates projecting from the base and one end of the arm portion, and is disposed between the pair of flat plates of the base connection support portion. The base connection support portion and the base connection portion have through holes, and the through holes of the base connection support portion and the through holes of the base connection portion are provided. A rotating support member that penetrates at the same time is inserted,
The rotation limiting portion is a sheet-like member having a higher friction coefficient than the outer surface of the rotation support member, the inner surface of the through hole of the base connection support portion, and the inner surface of the through hole of the base connection portion. The thin monitor device according to claim 3 or 4, wherein the rotation support member is externally fitted so as to be in contact with the inner surface of the through hole of the base connection support portion and the inner surface of the base connection portion. The base hinge portion is connected to a base connection support portion having a pair of flat plates projecting from the base and one end of the arm portion, and is disposed between the pair of flat plates of the base connection support portion. The base connection support portion and the base connection portion have through holes, and the through holes of the base connection support portion and the through holes of the base connection portion are provided. A rotating support member that penetrates at the same time is inserted,
The base connection support portion has a first uneven portion formed radially around the through hole on at least one of a pair of flat surfaces facing each other, and the first uneven portion of the base connection portion A second concavo-convex portion is formed on the opposite surface,
5. The thin monitor according to claim 3, wherein the base hinge portion includes a pressing member that presses the pair of flat plates against the base connecting portion so that the first uneven portion and the second uneven portion are engaged with each other. apparatus. The rotation restricting portion includes a brace that is rotatably supported on a side surface of the base portion,
A plurality of engagement pins are provided on the side surface of the arm portion,
The rotation of the said arm part and the said base part is restrict | limited by engaging the notch formed in the front-end | tip part of the said brace with the said engagement pin, The Claim 3 or Claim 4 characterized by the above-mentioned. Thin monitor device.   The thin monitor device according to any one of claims 1 to 7, wherein the monitor hinge portion includes a rotation restricting portion that restricts a rotation operation between the arm portion and the monitor main body. The monitor hinge part is connected to a monitor connection support part having a pair of flat plates projecting from the monitor main body, and the other end part of the arm part, and is arranged between the pair of flat plates of the monitor connection support part. The monitor connection support portion and the monitor connection portion have through holes, and the monitor connection support portion has a through hole and the monitor connection portion have a through hole. A rotation support member that passes through the
The rotation restricting portion is a sheet-like member having a higher friction coefficient than the outer surface of the rotation support member, the inner surface of the through hole of the monitor connection support portion, and the inner surface of the through hole of the monitor connection portion. The thin monitor device according to claim 8, wherein the rotation support member is externally fitted so as to come into contact with an inner surface of the through hole of the monitor connection support portion and an inner surface of the monitor connection portion. The monitor hinge part is connected to a monitor connection support part having a pair of flat plates projecting from the monitor main body, and the other end part of the arm part, and is arranged between the pair of flat plates of the monitor connection support part. The monitor connection support portion and the monitor connection portion have a through hole, and a rotation support member is inserted.
The monitor connection support portion is formed with a first uneven portion radially formed around the through hole on at least one of a pair of flat surfaces facing each other, and the first uneven portion of the monitor connection portion A second concavo-convex portion is formed on the opposite surface,
The thin monitor device according to claim 8, wherein the monitor hinge portion includes a pressing member that presses the pair of flat plates against the monitor connecting portion so that the first uneven portion and the second uneven portion are engaged with each other.

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