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WO2025018444A1 - Support de moniteur - Google Patents

Support de moniteur Download PDF

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Publication number
WO2025018444A1
WO2025018444A1 PCT/KR2023/010279 KR2023010279W WO2025018444A1 WO 2025018444 A1 WO2025018444 A1 WO 2025018444A1 KR 2023010279 W KR2023010279 W KR 2023010279W WO 2025018444 A1 WO2025018444 A1 WO 2025018444A1
Authority
WO
WIPO (PCT)
Prior art keywords
receiving groove
fixed part
stand
cover
key
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
PCT/KR2023/010279
Other languages
English (en)
Korean (ko)
Inventor
손영욱
김용환
류정한
황성걸
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LG Electronics Inc
Original Assignee
LG Electronics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Priority to PCT/KR2023/010279 priority Critical patent/WO2025018444A1/fr
Publication of WO2025018444A1 publication Critical patent/WO2025018444A1/fr
Pending legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16MFRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
    • F16M11/00Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
    • F16M11/02Heads
    • F16M11/04Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements

Definitions

  • the present invention relates to a monitor stand.
  • a typical monitor product is installed in a normal stand form, placed on an object such as a desk or table.
  • VESA fastening refers to fastening the bracket to the back of the monitor with screws. This type of fastening method makes it difficult for the user to easily change the mounting method, and causes inconvenience to the user as they have to purchase and store separate parts.
  • the purpose of the present invention is to provide a monitor stand that allows anyone to easily change the position of the monitor.
  • another object of the present invention is to provide a monitor stand that can be mounted in a general mounting form by mounting a monitor on the upper surface of an object (e.g., a desk), or can stably mount a monitor by clamping to an end of the object.
  • an object e.g., a desk
  • a monitor stand is a monitor stand for supporting a monitor, and includes a stand cover, an upper bracket, a lower bracket, a fixing member, and a key member.
  • the upper bracket is accommodated in the stand cover.
  • the lower bracket is accommodated in the stand cover and is positioned below the upper bracket.
  • the fixing member is accommodated in a fixing member accommodation groove formed in the lower bracket.
  • the key member is fastened to the fixing member. When the key member is pressed, the lower bracket and the stand cover are separable from the fixing member.
  • the fixed part receiving groove is formed by being sunk into the lower part of the lower bracket to a depth preset in the longitudinal direction of the lower bracket.
  • the fixed part receiving groove includes a first fixed part receiving groove and a second fixed part receiving groove that is in communication with the first fixed part receiving groove and is positioned below the first fixed part receiving groove.
  • an receiving groove step surface is formed in a direction orthogonal to the depth direction of the fixed part receiving groove at a boundary between the inner surface of the first fixed part receiving groove and the inner surface of the second fixed part receiving groove.
  • the fixing portion includes a first fixing portion, a second fixing portion connected to the first fixing portion, and an elastic member support portion formed between the first fixing portion and the second fixing portion.
  • the elastic member support portion partitions the first fixing portion and the second fixing portion, and has a nut hole formed in the center thereof.
  • a first guide portion is formed on the inner surface of the first fixing portion receiving groove.
  • the first guide portion is formed with a preset length in the longitudinal direction of the first fixing portion receiving groove.
  • a second guide portion is formed on the outer surface of the first fixing portion.
  • the second guide portion is formed with a preset length in the longitudinal direction of the first fixing portion. The first guide portion and the second guide portion are interlocked with each other.
  • a step surface of the fixing part is formed at a boundary between the outer surface of the first fixing part and the outer surface of the second fixing part in a direction perpendicular to the longitudinal direction of the fixing part.
  • the first fixing part has a lever receiving groove.
  • the lever receiving groove is formed by being opened at the top and sunken to a preset depth in the longitudinal direction of the first fixing part.
  • the second fixing part has a desk receiving groove.
  • the desk receiving groove is formed by being opened at the side and sunken to a preset depth in a direction orthogonal to the longitudinal direction of the fixing part.
  • the monitor stand includes a fixed lever.
  • the fixed lever includes a handle member arranged in the lever receiving groove, a pressure member connected to the handle member, and an elastic member arranged in the lever receiving groove and connected to the handle member. When the handle member rotates, the handle member and the pressure member rotate and move up or down.
  • the pressurizing member includes a pressurizing column and a pressurizing plate.
  • the pressurizing column is arranged in a nut hole of an elastic member support member, one end is connected to a handle member, and the other end is connected to a pressurizing plate arranged in a desk receiving groove.
  • the pressurizing column has screw threads formed on its outer surface, and can move up or down while rotating.
  • one end of the elastic member is connected to the handle member, and the other end is connected to the elastic member support member.
  • the second fixing member has a second fixing member side wall surrounding a portion of the desk receiving groove, and a key member receiving groove sunken to a predetermined depth is formed in the second fixing member side wall.
  • the key member is arranged in the key member receiving groove.
  • the key member includes a key body, a key button, and a key protrusion.
  • the key body is formed in a plate shape and is bent by an external force.
  • the key button is formed on one side of one surface of the key body.
  • the key protrusion is connected to the bottom surface of the key member receiving groove and is formed on the other side of the other surface of the key body.
  • the key button and the key protrusion are formed to protrude in opposite directions.
  • the key body is spaced apart from the bottom surface of the key member receiving groove by a length by which the key protrusion protrudes.
  • the lower bracket includes a first lower hole and a second lower hole, each communicating with the second fixing portion receiving groove.
  • the first lower hole and the second lower hole are formed spaced apart from each other.
  • the key button portion is arranged in the first lower hole. And, the key body portion is exposed to the outside of the lower bracket through the second lower hole.
  • the monitor stand includes a pressing member.
  • the pressing member includes a pressing base portion, a pressing projection portion, and a button contact portion.
  • the pressing base portion is formed in a plate shape.
  • the pressing projection portion is formed by protruding from the upper surface of the pressing base portion to a preset height.
  • the button contact portion is formed by protruding from the lower surface of the pressing base portion to a preset height and comes into contact with the key button portion.
  • the stand cover includes a cover lower hole formed at the bottom.
  • the lower bracket includes a second fixing member receiving groove and a first lower hole communicating with the cover lower hole.
  • the pressing base portion and the pressing protrusion portion are arranged in the cover lower hole, and the button contact portion is arranged in the first lower hole.
  • the cover lower hole includes a first cover lower hole and a second cover lower hole.
  • the first cover lower hole faces the outside of the stand cover.
  • the second cover lower hole communicates with the first cover lower hole and faces the inside of the stand cover.
  • the width of the first cover lower hole is formed smaller than the width of the second cover lower hole, so that a step is formed at a boundary between the first cover lower hole and the second cover lower hole.
  • the pressing protrusion is disposed in the first cover lower hole and is exposed to the outside of the stand cover.
  • the pressing base is disposed in the second cover lower hole.
  • the pressing force due to the pressing is transmitted to the key button portion through the pressing base portion and the button contact portion.
  • the key button portion moves in the direction in which the pressing force is applied, and is separated from the first lower hole of the lower bracket.
  • the lower bracket and stand cover can be separated from the fixing portion.
  • the desk receiving groove of the second fixing member is exposed to the outside, and the edge of the desk can be inserted into the desk receiving groove.
  • a hinge part is arranged between the upper bracket and the lower bracket.
  • the hinge part is connected to a monitor connection part that is connected to a monitor.
  • the monitor stand includes a support part that is coupled with the lower surface of the fixed part.
  • the support part is placed on the upper surface of the desk or is placed under the lower surface of the desk.
  • a monitor stand according to an example of an embodiment of the present invention has the effect of allowing anyone to easily change the placement of a monitor.
  • a monitor stand has the effect of allowing a user to place a monitor on the upper surface of an object (e.g., a desk) or to stably place the monitor by clamping it to an end of the object.
  • an object e.g., a desk
  • Figure 1 shows an example of an embodiment in which the monitor stand of the present invention is placed on the upper surface of a desk.
  • Figure 2 shows an example of an embodiment in which the monitor stand illustrated in Figure 1 is placed at the edge of a desk.
  • Figure 3 is an exploded perspective view of the monitor stand illustrated in Figure 1.
  • Figure 4 is a perspective view showing the upper bracket.
  • Figure 5 is a perspective view showing the lower bracket.
  • Figure 6 is a perspective view showing a fixed lever, a fixed part, and a support part.
  • Figure 7 is a perspective view showing the monitor connection part.
  • Figure 8 is a perspective view showing a hinge part.
  • Figure 9 is a perspective view of the fixed part viewed from below.
  • Figure 10 is a perspective view showing the absence of a key.
  • Figure 11 is a perspective view showing the absence of a press.
  • Fig. 12 shows an example of the embodiment of Fig. 1, in which the fixed part is placed in the receiving space of the stand cover.
  • FIG. 13 is a cross-sectional view showing a fixing part arranged in a fixing part receiving groove of a lower bracket in an example of the embodiment of FIG. 1.
  • Figures 14 to 16 illustrate the process of inserting and fixing a desk into the desk receiving groove of the fixed part.
  • Figure 17 illustrates a process from an example of an embodiment in which the monitor stand of the present invention is placed on the upper surface of a desk to an example of an embodiment in which it is placed on the edge of the desk.
  • the present invention relates to a monitor stand.
  • the monitor stand of the present invention is characterized in that anyone can easily change the placement of the monitor.
  • the monitor stand of the present invention is characterized in that it allows a user to place a monitor on the upper surface of a desk or to stably place it by clamping it to the end of an object.
  • monitor stand (10) according to an example of an embodiment of the present invention is described.
  • the monitor stand (10) of the present invention supports a monitor (1).
  • the monitor (1) represents a TV monitor or a computer monitor.
  • the monitor stand (10) of the present invention can be placed on the 'upper surface of the desk (2)' (see Fig. 1) and can be placed and fixed to the 'edge of the desk (2)' (see Fig. 2).
  • the desk (2) represents an object to which the monitor stand (10) is fixed.
  • FIG. 1 An example of an embodiment in which the monitor stand (10) of the present invention is placed on the 'upper surface of the desk (2)' (an example of the first embodiment) shows that the support part (19) of the monitor stand (10) of the present invention is placed on the upper surface of the desk (2).
  • Fig. 1, Fig. 12, Fig. 13, and Fig. 17 (a) show an example of the first embodiment.
  • the support part (19) serves as a stand of the monitor stand (10) of the present invention.
  • FIGS. 2, 15, 16, and 17 show an example of the second embodiment.
  • the support member (19) is placed under the desk (2) and serves to prevent the monitor stand (10) of the present invention from tilting.
  • a monitor stand (10) includes a stand cover (11), an upper bracket (12), a lower bracket (13), a monitor connection part (14), a hinge part (15), a fixing part (16), and a support part (19).
  • the above stand cover (11) forms the outer shape of the monitor stand (10) of the present invention.
  • the stand cover (11) has a preset length in one direction.
  • the stand cover (11) is formed in a column shape and has an accommodation space (111) inside.
  • An upper bracket (12), a lower bracket (13), a hinge part (15), and a fixing part (16) are accommodated in the accommodation space (111).
  • the stand cover (11) can be formed into various shapes.
  • the stand cover (11) may be formed in a truncated cone shape (see FIGS. 1 to 3, etc.), but is not limited thereto, and may be formed in a polygonal truncated pyramid shape, a cylindrical shape, a polygonal cylinder shape, etc.
  • the stand cover (11) includes an upper cover hole (112) and a lower cover hole (113).
  • the cover upper hole (112) is formed above the cover lower hole (113).
  • the above cover upper hole (112) penetrates the stand cover (11) in a direction orthogonal to the longitudinal direction of the stand cover (11). That is, the cover upper hole (112) connects the exterior of the stand cover (11) and the receiving space (111).
  • the cover upper hole (112) is arranged such that the monitor connection part (14) described later passes through it.
  • the cover upper hole (112) has a preset length in the longitudinal direction of the stand cover (11). Due to this, the monitor connection part (14) can move or rotate in the longitudinal direction of the stand cover (11). Movement or rotation of the monitor connection part (14) indicates movement or rotation of the monitor (1).
  • the above cover lower hole (113) penetrates the stand cover (11) in a direction orthogonal to the longitudinal direction of the stand cover (11). That is, the cover lower hole (113) connects the outside of the stand cover (11) and the receiving space (111).
  • the cover lower hole (113) has a key button portion (182) (see FIG. 10) of a key member (18) described later or a pressing member (184) (see FIG. 11) that comes into contact with the key button portion (182) placed therein.
  • the cover lower hole (113) includes a first cover lower hole (1131) and a second cover lower hole (1132) (see Fig. 16).
  • the first cover lower hole (1131) and the second cover lower hole (1132) are connected to each other.
  • the first cover lower hole (1131) is positioned on the outside of the stand cover (11), and the second cover lower hole (1132) is positioned on the inside of the stand cover (11).
  • the first cover lower hole (1131) faces the outside of the stand cover (11)
  • the second cover lower hole (1132) faces the inside of the stand cover (11).
  • the first cover lower hole (1131) and the second cover lower hole (1132) are formed with different diameters (or widths). Specifically, the diameter (or width) of the first cover lower hole (1131) is formed smaller than the diameter (or width) of the second cover lower hole (1132). Accordingly, a step (not given a sign) is formed at the boundary between the first cover lower hole (1131) and the second cover lower hole (1132). The step surface of the step is formed in the longitudinal direction of the stand cover (11).
  • a pressing protrusion (1842) of the pressing member (184) is placed in the first cover lower hole (1131), and a pressing base portion (1841) of the pressing member (184) is placed in the second cover lower hole (1132).
  • the upper surface of the pressing protrusion (1842) is exposed to the outside of the stand cover (11).
  • the cover lower hole (113) illustrated in Fig. 2 is formed in a circular shape, but is not limited thereto and may be formed in various shapes such as a polygon.
  • Fig. 4 shows the upper bracket
  • Fig. 5 shows the lower bracket
  • the upper bracket (12) and the lower bracket (13) can be slidably connected to the receiving space (111) of the stand cover (11).
  • the upper bracket (12) and the lower bracket (13) have preset lengths in one direction.
  • the upper bracket (12) and the lower bracket (13) are formed in a pillar shape.
  • the upper bracket (12) is placed above the lower bracket (13).
  • a hinge part (15), described later, is placed between the upper bracket (12) and the lower bracket (13).
  • a hinge receiving groove (121, 131) is formed in which the entire hinge portion (15) is received.
  • a first hinge receiving groove (121) is formed in the upper bracket (12) to receive a portion of the hinge portion (15)
  • a second hinge receiving groove (131) is formed in the lower bracket (13) to receive the remaining portion of the hinge portion (15).
  • one hinge receiving groove (121, 131) is formed in which the entire hinge portion (15) is secured.
  • the first hinge receiving groove (121) of the upper bracket (12) is formed by being sunken into the lower portion of the upper bracket (12) to a depth preset in the longitudinal direction of the upper bracket (12) and receives a part (e.g., the upper portion) of the hinge portion (15).
  • the second hinge receiving groove (131) of the lower bracket (13) is formed by being sunken into the upper portion of the lower bracket (13) to a depth preset in the longitudinal direction of the lower bracket (13) and receives the remaining portion (e.g., the lower portion) of the hinge portion (15).
  • a first nut receiving groove (123) is formed in the first hinge receiving groove (121). Two first nut receiving grooves (123) are formed facing each other (123a, 123b).
  • a second nut receiving groove (133) is formed in the second hinge receiving groove (131).
  • Two second nut receiving grooves (133) are formed facing each other (133a, 133b).
  • one nut receiving groove (123, 133) is formed in which the entire nut of the hinge portion (15) is received.
  • one nut (1521a) fastened to the hinge portion (15) is received by combining one first nut receiving groove (123a) and one second nut receiving groove (133a). Then, another nut (1521b) fastened to the hinge portion (15) is received by combining another first nut receiving groove (123b) and another second nut receiving groove (133b).
  • an opening (122, 132) facing the monitor is formed in each of the first hinge receiving groove (121) of the upper bracket (12) and the second hinge receiving groove (131) of the lower bracket (13).
  • a first opening (122) formed in the first hinge receiving groove (121) of the upper bracket (12) and a second opening (132) formed in the second hinge receiving groove (131) of the lower bracket (13) are connected to each other to form one opening (122, 132).
  • the one opening (122, 132) communicates with the cover upper hole (112) of the stand cover (11).
  • the first opening (122) formed in the first hinge receiving groove (121) of the upper bracket (12) is formed in a direction orthogonal to the first hinge receiving groove (121) and communicates with the upper side of the cover upper hole (112) formed in the stand cover (11).
  • the opening formed in the second hinge receiving groove (131) of the lower bracket (13) is formed in a direction orthogonal to the second hinge receiving groove (131) and communicates with the lower side of the cover upper hole (112) formed in the stand cover (11).
  • the second monitor connection part (142) of the monitor connection part (14) and/or the hinge connection part (151) of the hinge part (15) is positioned to pass through the openings (122, 132) formed in the hinge receiving grooves (121, 131) of the upper bracket (12) and the lower bracket (13).
  • the lower bracket (13) includes a fixed portion receiving groove (134) (see FIGS. 13 and 16).
  • the above fixed part receiving groove (134) is formed at the lower part of the lower bracket (13).
  • the fixed part receiving groove (134) is formed by being sunken to a preset depth in the longitudinal direction of the lower bracket (13) and receives the fixed part (16) described later.
  • the fixed part (16) is inserted into the fixed part receiving groove (134) and is slidably coupled.
  • the lower bracket (13) includes one side in the longitudinal direction and the other side opposite to the one side.
  • the second hinge receiving groove (131) described above is formed on one side of the lower bracket (13), and the fixed part receiving groove (134) is formed on the other side of the lower bracket (13).
  • the second hinge receiving groove (131) faces upward and the fixed portion receiving groove (134) faces downward.
  • the fixed part receiving groove (134) includes a first fixed part receiving groove (1341) and a second fixed part receiving groove (1342).
  • the first fixed part receiving groove (1341) and the second fixed part receiving groove (1342) are formed integrally and are connected to each other.
  • the first fixed part receiving groove (1341) is placed above and the second fixed part receiving groove (1342) is placed below.
  • the cross-sectional diameters (e.g., inner diameter) of the first fixed part receiving groove (1341) and the second fixed part receiving groove (1342) are formed differently.
  • the cross-sectional diameter refers to the diameter (e.g., inner diameter) in a direction orthogonal to the depth direction of the fixed part receiving groove (134).
  • the inner diameter of the first fixed part receiving groove (1341) is formed smaller than the inner diameter of the second fixed part receiving groove (1342). Accordingly, a step surface is formed at the boundary between the first fixed part receiving groove (1341) and the second fixed part receiving groove (1342). Specifically, a step surface (which may be named a 'receiving groove step surface (1343)') is formed in a direction orthogonal to the depth direction of the fixed part receiving groove (134) at the boundary between the inner surface of the first fixed part receiving groove (1341) and the inner surface of the second fixed part receiving groove (1342).
  • the receiving groove step surface (1343) prevents the fixing part (16) from being inserted beyond a certain depth when the fixing part (16) is inserted into the fixing part receiving groove (134).
  • the receiving groove step surface (1343) comes into contact with the fixed part step surface (1631) (see FIGS. 14 and 16) formed on the fixed part (16), so the fixed part (16) cannot be inserted into the fixed part receiving groove (134) beyond a certain depth.
  • the first fixed part (161) of the fixed part (16) is inserted and placed in the first fixed part receiving groove (1341), and the second fixed part (162) of the fixed part (16) is inserted and placed in the second fixed part receiving groove (1342).
  • the receiving groove step surface (1343) comes into contact with the fixed part step surface (1631) formed on the outer surface of the fixed part (16).
  • the lower bracket (13) includes a first lower hole (135) and a second lower hole (136) which communicate with a fixed part receiving groove (134) (specifically, a second fixed part receiving groove (1342)) (see FIG. 3 and FIG. 16).
  • a fixed part receiving groove (134) specifically, a second fixed part receiving groove (1342)
  • the first lower hole (135) is formed above the second lower hole (136).
  • the first lower hole (135) and the second lower hole (136) are spaced apart from each other.
  • the above first lower hole (135) is formed in a direction orthogonal to the longitudinal direction of the lower bracket (13).
  • the first lower hole (135) communicates with the outside of the lower bracket (13) and the second fixing receiving groove (1342). In addition, the first lower hole (135) communicates with the cover lower hole (113) of the stand cover (11).
  • the first lower hole (135) has a key button portion (182) of a key member (18) described later or a pressing member (184) in contact with the key button portion (182) placed therein.
  • the above second lower hole (136) is formed in a direction orthogonal to the longitudinal direction of the lower bracket (13).
  • the second lower hole (136) connects the outside of the lower bracket (13) and the second fixed portion receiving groove (1342).
  • the second lower hole (136) exposes the key body (181) of the key member (18) to the outside of the lower bracket (13). In other words, the key body (181) of the key member (18) is exposed to the outside of the lower bracket (13) through the second lower hole (136).
  • the key body part (181) exposed by the second lower hole (136) is fixed by a fastening member such as a rivet or screw.
  • the second lower hole (136) may be formed so that the lower end of the second lower hole (136) is open, as shown in FIG. 3.
  • At least one guide portion (1341a) (which may be named a 'first guide portion (1341a)') is formed in the fixed portion receiving groove (134) (specifically, the first fixed portion receiving groove (1341)) (see FIG. 16).
  • the first guide portion (1341a) is formed on the inner surface of the first fixed portion receiving groove (1341) and has a preset length in the longitudinal direction of the lower bracket (13) (or fixed portion receiving groove (134)).
  • the first guide part (1341a) is interlocked with the second guide part (1612) (see FIG. 6 and FIG. 9) formed on the outer surface of the first fixed part (161) described later.
  • the second guide portion (1612) when the first guide portion (1341a) is formed in a protruding shape, the second guide portion (1612) may be formed in a recess. Conversely, when the first guide portion (1341a) is formed in a recess shape, the second guide portion (1612) may be formed in a protruding shape.
  • the first guide part (1341a) e.g., having a protruding shape of the first fixed part receiving groove (1341) is inserted into the second guide part (1612) (e.g., having a groove shape) of the first fixed part (161) and interlocks with each other, or the second guide part (1612) (e.g., having a protruding shape) of the first fixed part (161) is inserted into the first guide part (1341a) (e.g., having a groove shape) of the first fixed part receiving groove (1341) and interlocks with each other.
  • the first fixing part receiving groove (1341) and the first fixing part (161) can be easily fastened because the fastening direction is determined by the first guide part (1341a) of the first fixing part receiving groove (1341) and the second guide part (1612) of the first fixing part (161).
  • the fixing part (16) is inserted into the fixing part receiving groove (134)
  • the movement of the fixing part (16) is restricted.
  • the above monitor connection part (14) connects the monitor (1) and the monitor stand (10) of the present invention (see FIG. 3 and FIG. 7).
  • the monitor stand (10) of the present invention is connected to a monitor (1) via a monitor connection part (14) and supports the monitor (1).
  • the monitor connection part (14) includes a first monitor connection part (141) connected to the rear of the monitor (1) and a second monitor connection part (142) connected to the hinge part (15).
  • the first monitor connection part (141) and the second monitor connection part (142) may be formed integrally, or may be manufactured separately and then connected by a connecting member such as a screw.
  • the above first monitor connection part (141) can be formed in a plate shape of a certain size.
  • the first monitor connection part (141) can be connected to the rear of the monitor (1) by a fastening member such as a screw.
  • the first monitor connection part (141) and/or the monitor (1) may further include other components that connect the first monitor connection part (141) and the rear of the monitor (1).
  • the above second monitor connection part (142) can be formed by protruding from one side of the first monitor connection part (141) to a preset length.
  • a connection groove (142h) is formed in the second monitor connection part (142).
  • connection groove (142h) is formed by recessing the second monitor connection part (142) to a preset depth in the protruding direction.
  • a hinge connection part (151) of a hinge part (15) is inserted into the connection home (142h).
  • the second monitor connection portion (142) and/or the hinge portion (15) may further include other components that connect the second monitor connection portion (142) and the hinge portion (15).
  • the monitor connection part (14) is not limited to a specific shape.
  • the monitor connection part (14) is not limited to the shape of the monitor connection part (14) shown in FIG. 3 and FIG. 7, and can be formed in various ways.
  • the above hinge portion (15) is placed in the hinge receiving grooves (121, 131) of the upper bracket (12) and the lower bracket (13) (see FIGS. 4, 5 and 8).
  • the hinge part (15) includes a hinge connection part (151) connected to the monitor connection part (14) and a hinge body part (152) connected to the lower bracket (13).
  • the above hinge connection (151) includes one side (1511) and the other side (1512) opposite to the one side.
  • One side (1511) and the other side (1512) of the hinge connection (151) are not limited to a specific shape and can be formed in various shapes.
  • One side (1511) of the hinge connection part (151) is inserted into and fixed in a connection groove (142h) formed in the second monitor connection part (142).
  • the other side (1512) of the hinge connection (151) extends from one side (1511) of the hinge connection (151) and is fastened to the hinge body (152).
  • the other side (1512) of the hinge connection (151) fastened to the hinge body (152) has protrusions (not shown) formed at both ends, and the protrusions are fitted and fixed to both side walls (1521) of the hinge body (152).
  • the above hinge body part (152) can be formed with a side wall (1521) in the shape of the letter ‘ ⁇ ’.
  • a spring (1522) is arranged inside the hinge body (152) (specifically, the side wall (1521)).
  • a fastening hole is formed in the above side wall (1521) to which an axle support (not marked) is fastened.
  • the above-mentioned shaft support is inserted and placed into the through hole of the spring (1522).
  • the shaft support has a protrusion formed at both ends on the other side (1512) of the hinge connection portion (151) and penetrates the side wall (1521) of the hinge body portion (152).
  • Both ends of the axle support have screw threads formed on the outer surface, protrude through a fastening hole formed in the side wall (1521), and are fastened with nuts (1521a, 1521b).
  • the spring (1522) and the shaft support support the monitor (1) and the monitor connection part (14) in the vertical direction and limit the vertical movement of the monitor (1) and/or the monitor connection part (14).
  • the above-mentioned fixing member (1523) is inserted into a fixing hole (133c) formed in the upper portion of the lower bracket (13), thereby connecting and fixing the hinge body (152) and the lower bracket (13).
  • the hinge part (15) (specifically, the hinge body part (152)) is fixed to the lower bracket (13) by a fixing member (1523).
  • a fixed part (16) is illustrated in FIG. 3, FIG. 6, FIG. 9, FIG. 12 to FIG. 16. Referring to the above drawings, the fixed part (16) is described as follows.
  • the above fixed part (16) is received in the fixed part receiving groove (134) of the lower bracket (13).
  • the fixed part (16) is inserted into the fixed part receiving groove (134) and is slidably connected.
  • the fixed part (16) has a preset length in one direction.
  • the fixed part (16) includes a first fixed part (161), a second fixed part (162), and an elastic member support part (163).
  • the first fixed part (161), the second fixed part (162), and the elastic member support part (163) are formed integrally.
  • the first fixed part (161) is arranged above and the second fixed part (162) is arranged below.
  • An elastic member support member (163) is formed between the first fixing member (161) and the second fixing member (162), thereby dividing the first fixing member (161) and the second fixing member (162).
  • the elastic member support member (163) is formed in a direction orthogonal to the longitudinal direction of the first fixing member (161) and the second fixing member (162).
  • the first fixed part (161) is formed with a lever receiving groove (1611) with an open top.
  • the lever receiving home (1611) is formed by being sunken to a preset depth in the longitudinal direction of the first fixing part (161).
  • the lever receiving home (1611) receives a fixed lever (17) described later.
  • the elastic member support member (163) becomes the bottom surface of the lever receiving groove (1611).
  • a nut hole (163h) is formed in the center of the elastic member support member (163).
  • the nut hole (163h) is a hole that penetrates the elastic member support member (163) in the longitudinal direction of the fixed member (16).
  • a screw thread is formed on the inner surface of the elastic member support member (163) surrounding the nut hole (163h). That is, the elastic member support member (163) functions as a female screw.
  • a pressure pillar (1721) of a pressure member (172) described later is inserted and placed in the nut hole (163h).
  • One or more guide parts (1612) (which may be referred to as a ‘second guide part (1612)’) are formed on the outer surface (or outer circumference) of the first fixed part (161).
  • the second guide part (1612) has a preset length in the longitudinal direction of the first fixed part (161).
  • the second guide part (1612) is interlocked with the first guide part (1341a) formed in the fixed part receiving groove (134) of the lower bracket (13).
  • the first guide part (1341a) and the second guide part (1612) serve to guide each other when combined and to limit the movement of the fixed part (16).
  • the first fixed part (161) and the second fixed part (162) are connected to each other.
  • the cross-sectional diameters of the first fixed part (161) and the second fixed part (162) are formed differently.
  • the cross-sectional diameter refers to the diameter (specifically, the outer diameter) in the direction orthogonal to the longitudinal direction of the fixed part (16).
  • the cross-sectional diameter of the first fixed portion (161) is formed smaller than the cross-sectional diameter of the second fixed portion (162). Accordingly, a step surface (which may be named a 'fixed portion step surface (1631)') is formed in a direction orthogonal to the longitudinal direction of the fixed portion (16) at the boundary between the outer surface of the first fixed portion (161) and the outer surface of the second fixed portion (162).
  • the fixed part step surface (1631) prevents the fixed part (16) from being inserted beyond a certain depth when the fixed part (16) is inserted into the fixed part receiving groove (134) of the lower bracket (13).
  • the first fixed part (161) is placed in the first fixed part receiving groove (1341)
  • the second fixed part (162) is placed in the second fixed part receiving groove (1342).
  • the fixed part step surface (1631) comes into contact with the receiving groove step surface (1343) formed on the inner surface of the fixed part receiving groove (134).
  • the second fixed part (162) is formed with a desk receiving groove (1621) with an open side.
  • the desk receiving home (1621) is formed by being sunken to a preset depth in a direction orthogonal to the longitudinal direction of the fixed part (16).
  • the second fixed part (162) is formed with a desk receiving groove (1621) that is open on the side and sunken to a certain depth, the second fixed part (162) is provided with only a side wall (1622) of a preset size.
  • the side wall (1622) may be named a 'second fixed part side wall (1622)'.
  • the above second fixed side wall (1622) surrounds a portion of the desk receiving groove (1621).
  • the edge of the desk (2) is inserted into the desk receiving groove (1621), and the edge of the desk (2) is pressed by the pressing member (172) of the fixing lever (17) described later.
  • the monitor stand (10) of the present invention is fixed to the desk (2).
  • a key member (18) is arranged on the second fixed side wall (1622).
  • a key member receiving groove (1622a) in which a key member (18) is placed is formed in the second fixed side wall (1622).
  • the keyless receiving home (1622a) is formed by being sunken into a preset depth from the outer surface of the second fixed member side wall (1622).
  • a fastening hole (1622h) is formed in the keyless receiving home (1622a).
  • the above fastening hole (1622h) may be a hole penetrating the second fixed part side wall (1622), or may be a groove sunken to a certain depth.
  • a fastening member such as a rivet or screw is inserted into the fastening hole (1622h).
  • the monitor stand (10) of the present invention includes a fixing lever (17).
  • the fixing lever (17) is illustrated in FIG. 6, FIG. 13 to FIG. 16.
  • the fixed lever (17) is placed in the lever receiving groove (1611) of the first fixed part (161).
  • the fixed lever (17) can move up or down while rotating.
  • the fixed lever (17) presses the edge of the desk (2) so that the monitor stand (10) of the present invention is fixed to the desk (2).
  • the fixed lever (17) includes a handle member (171), a pressure member (172), and an elastic member (173).
  • the above handle member (171) is placed in the lever receiving groove (1611) of the first fixing member (161).
  • the handle member (171) is formed and positioned so that the user can rotate it.
  • the handle member (171) includes a handle disc (1712) and a handle protrusion (1711) protruding from the upper surface of the handle disc (1712).
  • the handle disc (1712) and the handle projection (1711) may be formed integrally, or may be manufactured separately and fastened to each other by a fastening member such as a screw.
  • the above handle disc (1712) is formed into a disc shape with a constant thickness and diameter.
  • the diameter of the handle disc (1712) is smaller than the inner diameter of the lever receiving groove (1611). Therefore, the handle disc (1712) is inserted into the lever receiving groove (1611).
  • the above handle protrusion (1711) has a constant length in the diameter direction of the handle disc (1712).
  • the handle projection (1711) can be held and rotated by the user.
  • the handle member (171) is connected to the pressure member (172). When the handle member (171) is rotated by the user, the pressure member (172) also rotates. The handle member (171) and the pressure member (172) move up or down while rotating.
  • the above pressurizing member (172) includes a pressurizing column (1721) and a pressurizing plate (1722) connected to the pressurizing column (1721).
  • the pressure column (1721) and the pressure plate (1722) may be formed integrally, or may be manufactured separately and fastened to each other by fastening members such as screws.
  • the above-mentioned pressure column (1721) is formed into a rod shape with a preset length.
  • the pressurized column (1721) includes one end in the longitudinal direction and an opposite end.
  • One end of the pressure column (1721) is connected to the handle disc (1712), and the other end of the pressure column (1721) is connected to the pressure plate (1722).
  • the handle disc (1712) rotates, the pressure column (1721) and the pressure plate (1722) also rotate.
  • connection between one end of the pressure column (1721) and the handle disc (1712) can be made, for example, as follows.
  • One end of the pressure column (1721) has screw threads formed along the outer surface, and a screw groove into which one end of the pressure column (1721) is inserted is formed on the lower surface of the handle disc (1712).
  • the screw groove refers to a groove in which screw threads are formed on the inner surface.
  • One end of the pressure column (1721) is rotated and inserted into and fixed in a screw groove formed on the lower surface of the handle disc (1712), so that one end of the pressure column (1721) and the handle disc (1712) can be connected to each other.
  • the pressure column (1721) acts as a male screw.
  • the pressure column (1721) is positioned to penetrate the nut hole (163h) formed in the elastic member support member (163). That is, one end of the pressure column (1721) is positioned in the lever receiving groove (1611) of the first fixing member (161), and the other end of the pressure column (1721) is positioned in the desk receiving groove (1621) of the second fixing member (162).
  • the pressure column (1721) can rotate while placed in the nut hole (163h).
  • the pressure column (1721) can move downward or upward while rotating.
  • the above-mentioned pressure plate (1722) is formed in a plate shape with a constant thickness and width.
  • the pressure plate (1722) may be formed by combining a plurality of plates according to an example of an embodiment.
  • the pressure plate (1722) is placed in the desk receiving groove (1621) of the second fixing part (162).
  • the pressure column (1721) rotates in one direction (e.g., clockwise), the pressure column (1721) moves downward. Accordingly, the pressure plate (1722) connected to the pressure column (1721) also moves downward. The pressure plate (1722) moving downward presses the edge of the desk (2). Due to the pressurization, the monitor stand (10) of the present invention is fixed to the edge of the desk (2).
  • the pressure column (1721) rotates in the opposite direction (e.g., counterclockwise) of one direction, the pressure column (1721) moves upward. Accordingly, the pressure plate (1722) connected to the pressure column (1721) also moves upward. The pressure plate (1722) that moves upward no longer presses the edge of the desk (2).
  • the desk (2) can be separated from the monitor stand (10) of the present invention.
  • the pressure plate (1722) may be formed in a circular shape. Additionally, if the pressure plate (1722) can rotate, it may be formed in a polygonal shape.
  • the above elastic member (173) may be a spring.
  • the elastic member (173) is placed in the lever receiving groove (1611) of the first fixing member (161).
  • the elastic member (173) is formed to a preset length.
  • the elastic member (173) includes one end in the longitudinal direction and the other end opposite to the one end.
  • One end of the elastic member (173) is connected to the handle member (171) (specifically, the handle disc (1712)), and the other end of the elastic member (173) is connected to the elastic member support member (163).
  • a groove may be formed on the lower surface of the handle disc (1712) into which one end of an elastic member (173) is inserted and fixed.
  • a groove may be formed on the elastic member support portion (163) into which the other end of the elastic member (173) is inserted and fixed.
  • a pressure column (1721) of a pressure member (172) is placed in a through hole penetrating the center of an elastic member (173).
  • the elastic member (173) supports the handle member (171) and the pressure member (172).
  • the elastic member (173) is elastically deformed and has a restoring force when the pressing member (172) moves downward.
  • the restoring force of the elastic member (173) presses the handle member (171) connected to one end of the elastic member (173) and the elastic member support member (163) connected to the other end of the elastic member (173), respectively. Accordingly, the elastic member (173) supports the handle member (171) and the pressing member (172) connected to the handle member (171).
  • the key member (18) is placed in the key member receiving groove (1622a) of the second fixing member (162).
  • the key member (18) is illustrated in FIGS. 6, 10, 13 to 16.
  • the key absence (18) secures the lower bracket (13) to the fixing member (16) or separates it from the fixing member (16).
  • a key member (18) is mounted on the fixed member (16), and when the key member (18) is pressed by the user, the lower bracket (13) and the stand cover (11) can be separated from the fixed member (16).
  • the key body (18) includes a key body (181), a key button (182), and a key protrusion (183).
  • the key body (181), the key button (182), and the key protrusion (183) are formed integrally.
  • the above key body part (181) is placed in the key member receiving groove (1622a) of the second fixing part (162).
  • the key body (181) is formed in a plate shape with a constant thickness.
  • the key body (181) is formed so that the length in one direction is longer than the length in the other direction.
  • the one direction may be, for example, a vertical direction
  • the other direction may be, for example, a horizontal direction. That is, the key body (181) has a constant thickness, and is formed so that the vertical length is longer than the horizontal length.
  • the key body (181) includes one side and a side opposite to the one side.
  • the key body (181) includes one side in a long direction and the other side opposite to the one side.
  • One side of the key body (181) is arranged to face the outside of the second fixing part (162), and the other side of the key body (181) is arranged to face the second fixing part side wall (1622) (specifically, the key member receiving groove (1622a)).
  • the key body (181) can be bent in the thickness direction of the key body (181) by an external force.
  • the above key button portion (182) is formed on one side of one side of the key body portion (181).
  • the key button portion (182) is formed by protruding from one side of the key body portion (181).
  • the key button portion (182) can be placed in the first lower hole (135) of the lower bracket (13).
  • the key button portion (182) can be pressed by the user.
  • the key body portion (181) bends in the pressing direction. Accordingly, the key button portion (182) is detached from the first lower hole (135) of the lower bracket (13). Since the lower bracket (13) is no longer restrained from the key member (18), the lower bracket (13) and the stand cover (11) can be separated from the fixing portion (16).
  • the above key protrusion (183) is formed on the other side of the key body (181).
  • the key protrusion (183) is formed by protruding from the other surface of the key body (181).
  • the key protrusion (183) and the key button portion (182) protrude in opposite directions.
  • a fastening hole (183h) is formed in the key member (18).
  • the fastening hole (183h) of the key member (18) is formed in the key protrusion (183) and the key body (181).
  • the fastening hole (183h) of the key member (18) is one hole penetrating the key protrusion (183) and the key body (181).
  • the fastening hole (183h) of the key member (18) is formed in the thickness direction of the key body (181) or in the direction in which the key protrusion (183) protrudes.
  • the fastening hole (183h) of the key member (18) communicates with the fastening hole (1622h) of the key member receiving groove (1622a).
  • a fastening member e.g., a rivet or screw, etc.
  • a fastening member is inserted into the fastening hole (183h) of the key member (18) and the fastening hole (1622h) of the key member receiving groove (1622a).
  • the key member (18) is fastened to the second fixing portion (162) (specifically, the key member receiving groove (1622a)) by the fastening member.
  • the key member (18) being secured to the key member receiving groove (1622a) by the fastening member indicates that the key protrusion (183) is connected to the bottom surface of the key member receiving groove (1622a).
  • the key protrusion (183) comes into contact with the bottom surface of the key member receiving groove (1622a).
  • the key body part (181) is spaced apart from the bottom surface of the key member receiving groove (1622a) by the length (height) by which the key protrusion (183) protrudes.
  • the bottom surface of the key member receiving groove (1622a) is the bottom surface of the key member receiving groove (1622a) and represents a sunken surface in the second fixing member side wall (1622).
  • the key button portion (182) When the key button portion (182) is pressed by the user in a direction orthogonal to the longitudinal direction of the stand cover (11), the key body portion (181) bends in the pressing direction. Accordingly, the key button portion (182) moves in the pressing direction and is separated from the first lower hole (135) of the lower bracket (13).
  • the key button portion (182) when the key button portion (182) is pressed by the user from the outside toward the second fixed portion side wall (1622), the key body portion (181) bends toward the side wall of the second fixed portion (162). Accordingly, the key button portion (182) moves toward the second fixed portion side wall (1622) and is detached from the first lower hole (135) of the lower bracket (13).
  • the angle at which the key body (181) is bent toward the second fixed portion side wall (1622) or the distance at which the key button portion (182) moves toward the second fixed portion side wall (1622) depends on the protruding height of the key protrusion (183).
  • the protruding height of the key protrusion (183) represents the distance at which the key body (181) is spaced from the bottom surface of the key member receiving groove (1622a) as described above.
  • the monitor stand (10) of the present invention may further include a pressing member (184) that contacts the key button portion (182) of the key member (18).
  • the pressing member (184) is illustrated in FIG. 6, FIG. 11 to FIG. 13, and FIG. 17.
  • the pressing member (184) is placed in the cover lower hole (113) formed in the stand cover (11).
  • the pressing member (184) presses the key button portion (182) of the adjacently arranged key member (18).
  • the pressing member (184) includes a pressing base portion (1841) and a pressing protrusion portion (1842).
  • the pressing base portion (1841) and the pressing protrusion portion (1842) are formed integrally (see FIG. 11).
  • the above pressing base portion (1841) is formed in a plate shape with a constant thickness.
  • the pressing base part (1841) is placed in the second cover lower hole (1132) among the cover lower holes (113) of the stand cover (11) (see Fig. 16).
  • the above pressing protrusion (1842) is formed by protruding from the upper surface of the pressing base (1841) to a preset height.
  • the pressing projection (1842) is placed in the first cover lower hole (1131) among the cover lower holes (113) of the stand cover (11) (see Fig. 16).
  • a step is formed between the upper surface of the pressing base (1841) and the upper surface of the pressing projection (1842) equal to the protruding height of the pressing projection (1842).
  • a user can press the upper surface of the pressing projection (1842) to press the key button portion (182) adjacent to the pressing member (184).
  • the pressing base part (1841) presses the key button part (182) of the adjacently arranged key member (18).
  • the upper surface of the pressing projection (1842) is placed in the first cover lower hole (1131) of the stand cover (11) and is exposed to the outside of the stand cover (11).
  • the upper surface of the pressing base (1841) is not exposed to the outside of the stand cover (11) through the first cover lower hole (1131).
  • the edge of the upper surface of the pressing base portion (1841) other than the portion where the pressing protrusion portion (1842) is formed protruding is in contact with the step surface (not given a symbol) formed in the cover lower hole (113). Accordingly, the pressing member (184) cannot escape from the cover lower hole (113) to the outside of the stand cover (11).
  • the pressing base portion (1841) and the pressing protrusion portion (1842) illustrated in Fig. 11 are formed in a circular shape, but are not limited thereto and may be formed in various shapes such as a polygon.
  • the pressing member (184) may further include a button contact portion (1843).
  • the above button contact portion (1843) is formed to protrude from the lower surface of the press base portion (1841) to a preset height.
  • the button contact portion (1843) protrudes in the opposite direction to the protrusion direction of the press projection portion (1842).
  • the button contact portion (1843) can be placed in the first lower hole (135) of the lower bracket (13).
  • the button contact portion (1843) can come into contact with the key button portion (182) of the key member (18).
  • the pressing projection (1842) of the pressing member (184) the pressing force due to the pressing is transmitted to the key button portion (182) of the key member (18) through the pressing base portion (1841) and the button contact portion (1843). Accordingly, the key button portion (182) moves toward the second fixing portion side wall (1622) and is separated from the first lower hole (135) of the lower bracket (13).
  • the user can insert the edge of the desk (2) into the desk receiving groove (1621) and rotate the fixing lever (17) so that the pressure member (172) of the fixing lever (17) presses the edge of the desk (2) inserted into the desk receiving groove (1621).
  • the fixing member (16) When the pressurizing member (172) presses the edge of the desk (2), the fixing member (16) is fixed to the desk (2).
  • the user can reattach the separated lower bracket (13) and stand cover (11) to the fixing member (16) (specifically, the first fixing member (161)) (see (d) of FIG. 16 and FIG. 17).
  • the first fixed part (161) is divided into upper and lower parts according to the height of the first fixed part (161).
  • the first fixed part receiving groove (1341) of the lower bracket (13) is divided into upper and lower parts according to the depth of the first fixed part receiving groove (1341)
  • the second fixed part receiving groove (1342) is divided into upper and lower parts according to the depth of the second fixed part receiving groove (1342).
  • the upper portion of the first fixing member (161) is positioned at the lower portion of the first fixing member receiving groove (1341).
  • the fixing member step surface (1631) formed at the boundary area between the first fixing member (161) and the second fixing member (162) is positioned at the lower portion of the second fixing member receiving groove (1342). Accordingly, the movement of the lower bracket (13) and the stand cover (11) is restricted (they do not shake).
  • the above-mentioned support member (19) is formed in a plate shape of a preset size.
  • the above-mentioned support member (19) is illustrated in FIGS. 1 to 3, FIG. 6, and FIGS. 12 to 17.
  • the support part (19) is placed below the fixed part (16) and is combined with the lower surface of the fixed part (16).
  • the upper surface of the support member (19) is fastened to the lower surface of the second fixing member (162).
  • the support member (19) and/or the second fixing member (162) may further include other components necessary for fastening the upper surface of the support member (19) and the lower surface of the second fixing member (162).
  • the support member (19) may include a support protrusion (191) (see FIG. 6) arranged on the lower surface of the second fixing member (162) according to an example of an embodiment.
  • the above-mentioned support protrusion (191) is formed by protruding from the upper surface of the support part (19) and helps in fixing the fixing part (16).
  • the support (19) serves as a support for the monitor stand (10) of the present invention, or prevents the monitor stand (10) of the present invention from tilting.
  • the monitor stand of the present invention allows a user to place a monitor on the upper surface of a desk (see FIG. 1 and FIG. 17 (a)) or to stably place the monitor by clamping it to the end of an object (see FIG. 2 and FIG. 17 (d)).
  • a user can easily remove the stand cover by pressing the press member and/or the key member of the monitor stand, and clamp the monitor stand of the present invention directly to an object.
  • the fixing part of the monitor stand is normally placed inside the stand cover, there is no problem in terms of design.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

Un support de moniteur est divulgué. Le support de moniteur permet à un utilisateur de changer facilement le montage d'un moniteur. Le support de moniteur selon un mode de réalisation de la présente invention est un support de moniteur pour supporter un moniteur, le support de moniteur comprenant : un couvercle de support ; un support supérieur ; un support inférieur ; une partie de fixation ; et un élément clavette. Le support supérieur est logé dans le couvercle de support. Le support inférieur est logé dans le couvercle de support et disposé au-dessous du support supérieur. La partie de fixation est logée dans une rainure de réception de partie de fixation formée dans le support inférieur. L'élément clavette est fixé à la partie de fixation Si l'élément clavette est pressé, le support inférieur et le couvercle de support peuvent être séparés de la partie de fixation
PCT/KR2023/010279 2023-07-18 2023-07-18 Support de moniteur Pending WO2025018444A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/KR2023/010279 WO2025018444A1 (fr) 2023-07-18 2023-07-18 Support de moniteur

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/KR2023/010279 WO2025018444A1 (fr) 2023-07-18 2023-07-18 Support de moniteur

Publications (1)

Publication Number Publication Date
WO2025018444A1 true WO2025018444A1 (fr) 2025-01-23

Family

ID=94282363

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/KR2023/010279 Pending WO2025018444A1 (fr) 2023-07-18 2023-07-18 Support de moniteur

Country Status (1)

Country Link
WO (1) WO2025018444A1 (fr)

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KR100609180B1 (ko) * 2004-03-08 2006-08-02 엘지전자 주식회사 영상표시기기용 스탠드 구조
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KR101406452B1 (ko) * 2007-08-31 2014-06-13 엘지전자 주식회사 디스플레이 장치
CN106051394A (zh) * 2016-07-18 2016-10-26 天津众世机电设备有限公司 一种监控安装设备

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Publication number Priority date Publication date Assignee Title
KR100609180B1 (ko) * 2004-03-08 2006-08-02 엘지전자 주식회사 영상표시기기용 스탠드 구조
KR20060045467A (ko) * 2004-04-27 2006-05-17 델 프로덕트 엘 피 분리기능 및 잠금기능이 구비된 엘씨디 모니터용 높이조절스탠드
KR101406452B1 (ko) * 2007-08-31 2014-06-13 엘지전자 주식회사 디스플레이 장치
KR20110016333A (ko) * 2009-08-11 2011-02-17 엘지전자 주식회사 디스플레이 기기의 스탠드 장치
CN106051394A (zh) * 2016-07-18 2016-10-26 天津众世机电设备有限公司 一种监控安装设备

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