WO2020215290A1 - 一种显示器安装装置 - Google Patents
一种显示器安装装置 Download PDFInfo
- Publication number
- WO2020215290A1 WO2020215290A1 PCT/CN2019/084387 CN2019084387W WO2020215290A1 WO 2020215290 A1 WO2020215290 A1 WO 2020215290A1 CN 2019084387 W CN2019084387 W CN 2019084387W WO 2020215290 A1 WO2020215290 A1 WO 2020215290A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- rod
- rotation
- plate
- display
- side plate
- Prior art date
Links
- 238000009434 installation Methods 0.000 claims description 30
- 125000006850 spacer group Chemical group 0.000 claims description 14
- 238000004806 packaging method and process Methods 0.000 abstract description 11
- 238000010586 diagram Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 229910000831 Steel Inorganic materials 0.000 description 2
- 238000005452 bending Methods 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 239000004973 liquid crystal related substance Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/06—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting
- F16M11/08—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting around a vertical axis, e.g. panoramic heads
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/041—Allowing quick release of the apparatus
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/043—Allowing translations
- F16M11/048—Allowing translations adapted to forward-backward translation movement
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/06—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting
- F16M11/10—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting around a horizontal axis
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/20—Undercarriages with or without wheels
- F16M11/2092—Undercarriages with or without wheels comprising means allowing depth adjustment, i.e. forward-backward translation of the head relatively to the undercarriage
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M13/00—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles
- F16M13/02—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M13/00—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles
- F16M13/02—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
- F16M13/022—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle repositionable
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M2200/00—Details of stands or supports
- F16M2200/06—Arms
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M2200/00—Details of stands or supports
- F16M2200/06—Arms
- F16M2200/066—Arms being part of the head
Definitions
- This application relates to the technical field of installation equipment, and in particular to a display installation device.
- the overall size of the display mounting bracket is relatively large and cannot meet the packaging requirements. While reducing the overall size of the display mounting bracket to meet the packaging requirements, the display mounting bracket cannot meet the mounting requirements, resulting in restrictions on the installation of the display mounting bracket. Therefore, the current display mounting bracket structure has the problems of difficulty in installation and packaging.
- this application provides a display mounting device.
- the present application provides a display mounting device, wherein the display mounting device includes a wall panel, a telescopic hinged connecting rod group, an adapter bracket and a display bracket, and the wall panel includes a main frame, two upper extension rods and two lower
- the main frame includes an upper cross beam and a lower cross beam arranged opposite to the upper cross beam, and a bearing plate fixed between the upper cross beam and the lower cross beam, and the two upper expansion rods are respectively rotatably connected to the
- the two ends of the upper beam are expanded or overlapped relative to the upper beam, and each of the upper extension rods is provided with an upper mounting hole, and the upper mounting hole is used for screwing through to fix the upper extension rod on the wall Or on the load-bearing column, the two lower extension rods are respectively rotatably connected to both ends of the lower cross beam to expand or overlap with the lower cross beam.
- Each lower extension rod is provided with a lower mounting hole.
- the mounting hole is used for screws to pass through, so that the lower extension rod is fixed on the wall or the load-bearing column, one end of the telescopic hinge link group is connected to the bearing plate, and the adapter bracket is connected to the telescopic hinge connection.
- One end of the rod group is far away from the bearing plate, and the display bracket is connected to the adapter bracket to expand and contract with the adapter bracket and the telescopic hinged connecting rod group relative to the wall panel.
- the main frame includes an upper beam and a lower beam disposed opposite to the upper beam, and a bearing plate fixed between the upper beam and the lower beam, and the two upper extension rods are respectively It is rotatably connected to both ends of the upper cross beam, each of the upper extension rods is provided with an upper mounting hole, the two lower extension rods are respectively connected to both ends of the lower cross beam in rotation, and each of the lower extension rods
- the lower mounting hole realizes that the upper extension rod and the lower extension rod can meet the requirements of packaging size after being superimposed on the upper cross beam and the lower cross beam, respectively. After being unfolded relative to the upper cross beam and the lower cross beam, the requirements of installation dimensions can be met, so that the display installation device solves the problems of difficulty in packaging and installation.
- FIG. 1 is a schematic diagram of the structure of the display installation device provided by this application.
- FIG. 2 is an exploded schematic diagram of the display mounting device provided by this application.
- FIG. 3 is a schematic diagram of the use of the display mounting device provided by this application.
- a component when a component is said to be “fixed to” another component, it can be directly on the other component or a central component may also exist. When a component is considered to be “connected” to another component, it can be directly connected to another component or there may be a centered component at the same time.
- the present application provides a display mounting device 1000.
- the display mounting device 1000 includes a wall panel 100, a telescopic hinged connecting rod group 200, an adapter bracket 300 and a display bracket 400.
- the wall panel 100 includes a main frame 110, two upper extension rods 120 and two lower extension rods 130.
- the main frame 110 includes an upper cross beam 111, a lower cross beam 112 disposed opposite to the upper cross beam 111, and a bearing plate 113 fixed between the upper cross beam 111 and the lower cross beam 112.
- the two upper extension rods 120 are respectively rotatably connected to the two ends of the upper cross beam 111 to expand or overlap with the upper cross beam 111.
- Each of the upper extension rods 120 is provided with an upper mounting hole 121, and the upper mounting holes 121 are used to allow screws to pass through, so that the upper extension rod 120 is fixed on the wall or the load-bearing column, and the two lower extension rods 130 are respectively rotatably connected to both ends of the lower cross beam 112 to expand or overlap with the lower cross beam 112.
- Each of the lower extension rods 130 is provided with a lower mounting hole 131, and the lower mounting hole 131 is used for screws Pass through to fix the lower extension rod 130 on the wall or the load-bearing column, one end of the telescopic hinge link group 200 is connected to the bearing plate 113, and the adapter bracket 300 is connected to the telescopic hinge link group One end of 200 far away from the supporting board 113, the display bracket 400 is connected to the adapter bracket 300 to expand and contract with the wall panel 100 along with the adapter bracket 300 and the telescopic hinge link group 200.
- the wall panel 100 can be fixed to the wall surface of the wall, or can be fixed to the wall of the load-bearing column, can also be fixed to the cabinet of the decorative cabinet, or fixed to the decorative wall panel 100 On the wall.
- a display can be fixedly installed on the display stand 400.
- the display may be an electronic device with a display function such as a flat-screen TV, or a liquid crystal display, or a tablet computer, or a display terminal.
- the main frame 110 includes an upper beam 111, a lower beam 112 disposed opposite to the upper beam 111, and a bearing plate 113 fixed between the upper beam 111 and the lower beam 112, two upper extension rods 120 Are respectively rotatably connected to both ends of the upper cross beam 111, each of the upper extension rods 120 is provided with an upper mounting hole 121, and the two lower extension rods 130 are respectively rotatably connected to both ends of the lower cross beam 112, and each The lower extension rod 130 is provided with a lower mounting hole 131, so that the upper extension rod 120 and the lower extension rod 130 can meet the packaging size requirements after being overlapped with the upper beam 111 and the lower beam 112, respectively. After the upper expansion rod 120 and the lower expansion rod 130 are expanded relative to the upper cross beam 111 and the lower cross beam 112 respectively, they can meet the requirements of installation size, so that the display mounting device 1000 solves the packaging difficulties and installation difficulties The problem.
- the main frame 110 has a substantially rectangular frame structure.
- the main frame 110 also includes two vertical rods 114 fixedly connected between the upper cross beam 111 and the lower cross beam 112, and the two vertical rods 114 are respectively fixedly connected to the two ends of the upper cross beam 111 and are fixed respectively. At both ends of the lower beam 112.
- the position of the upper extension rod 120 rotatingly connected to the upper cross beam 111 is staggered from the position where the vertical rod 114 fixes the upper cross beam 111, so as to avoid the concentration of the upper cross beam 111 and increase the main frame 110 Service life.
- the position where the lower extension rod 130 rotates and connects the lower cross beam 112 is staggered from the position where the vertical rod 114 fixes the lower cross beam 112, so as to avoid the concentration of the force on the lower cross beam 112 and increase the power of the main frame 110. Service life.
- the rotation axis of the upper extension rod 120 rotatably connected to the upper cross beam 111 is substantially perpendicular to the upper cross beam 111 and substantially parallel to the carrying plate 113.
- the upper extension rod 120 After the upper extension rod 120 is expanded relative to the upper cross beam 111, it can form a long rod extending in a straight line with the upper cross beam 111 to increase the installation size of the wall panel 100.
- the upper mounting hole 121 of the upper extension rod 120 can be fixed on the wall by screws, bolts, pins and other fasteners, so that the wall panel 100 provides a bearing platform for the display bracket 400.
- the upper extension rod 120 may be provided with a plurality of upper mounting holes 121 arranged at equal intervals along the length direction to increase the installation structure of the upper extension rod 120.
- the rotation axis of the lower extension rod 130 rotatably connected to the lower cross beam 112 is substantially perpendicular to the lower cross beam 112 and is disposed substantially parallel to the carrying plate 113.
- the lower extension rod 130 can form a long rod extending in a straight line with the lower cross beam 112, so that the wall panel 100 increases the installation size.
- the lower mounting hole 131 of the lower extension rod 130 can be fixed to the wall by screws, bolts, pins and other fasteners, so that the wall panel 100 provides a bearing platform for the display bracket 400.
- the lower extension rod 130 may be provided with a plurality of lower mounting holes 131 arranged at equal intervals to increase the installation structure of the lower extension rod 130.
- the upper beam 111, the lower beam 112, the upper extension rod 120, and the lower extension rod 130 are all made of steel to increase the structural stability of the wall panel 100.
- the two ends of the supporting plate 113 are respectively fixed to the middle part of the upper cross beam 111 and the middle part of the lower cross beam 112.
- the carrying plate 113 provides bearing capacity for the telescopic hinged link group 200 so that the telescopic hinged link group 200 can drive the adapter bracket 300 and the display bracket 400 to expand and contract with respect to the wall panel 100.
- the carrying plate 113 is made of steel.
- the carrying plate 113 may be welded to the upper beam 111 and the lower beam 112.
- the upper cross beam 111 includes a first upper plate 1111 and a second upper plate 1112 opposite to the first upper plate 1111, and connected to the first upper plate 1111 and the second upper plate 1111
- the upper fixing plate 1113 between 1112, the rotation axis of the upper extension rod 120 is parallel to the upper fixing plate 1113, and is rotatably connected between the first upper plate 1111 and the second upper plate 1112, And it can be completely contained between the first upper side plate 1111 and the second upper side plate 1112 so as to be overlapped with the upper cross beam 111.
- the first upper side plate 1111, the second upper side plate 1112 and the upper fixing plate 1113 are integrally arranged.
- the first upper side plate 1111, the second upper side plate 1112 and the upper fixing plate 1113 may be formed by a bending process.
- the first upper side plate 1111 and the second upper side plate 1112 are substantially perpendicular to the upper fixing plate 1113.
- the upper fixing plate 1113 is substantially parallel to the carrying plate 113.
- the first upper side plate 1111 and the second upper side plate 1112 are respectively provided with a first upper groove 1114 and a second upper groove 1115 to reduce the overall weight of the upper cross beam 111 and reduce the cost .
- the upper expansion rod 120 is rotatably connected to the end of the first upper plate 1111 and rotatably connected to the end of the second upper plate 1112.
- the first upper side plate 1111 is provided with a first fixing hole 1116 at a position closer to the end, and the first fixing hole 1116 can be passed through by screws.
- the upper extension rod 120 is rotatably connected to the upper cross beam 111 through an upper extension shaft 1201.
- the upper expansion shaft 1201 passes through the first upper side plate 1111 and the second upper side plate 1112.
- the upper extension rod 120 is provided with an upper threaded hole 1117 on one side of the rotating shaft.
- the screw passes through the first fixing hole 1116, and is screwed to the upper threaded hole 1117, so that the upper extension rod 120 is relative to the upper
- the beam 111 is fixed to meet the requirement of stable installation performance of the wall panel 100.
- the upper fixing plate 1113 is provided with an upper fixing hole 1118, and the upper fixing hole 1118 is used to allow screws to pass through, so that the upper fixing plate 1113 can be fixed on a wall or a load-bearing column. Increase the structural stability of the wall panel 100 and the wall installation.
- the upper fixing plate 1113 may be provided with a plurality of upper fixing holes 1118 arranged at intervals along the length direction.
- the upper fixing hole 1118 may have an elliptical racetrack shape to facilitate adjustment of the installation size of the upper fixing plate 1113.
- the upper fixing plate 1113 is also provided with an upper punching boss 1119 to increase the structural stability of the upper beam 111.
- the lower cross beam 112 includes a first lower side plate 1121 and a second lower side plate 1122 opposite to the first lower side plate 1121, and connected to the first lower side plate 1121 and the second lower side plate
- the lower fixing plate 1123 between 1122, the rotation axis of the lower extension rod 130 is parallel to the lower fixing plate 1123, and is rotatably connected between the first lower plate 1121 and the second lower plate 1122, And it can be completely contained between the first lower side plate 1121 and the second lower side plate 1122 so as to be overlapped with the lower cross beam 112.
- the first lower side plate 1121, the second lower side plate 1122 and the lower fixing plate 1123 are integrally arranged.
- the first lower side plate 1121, the second lower side plate 1122 and the lower fixing plate 1123 may be formed by a bending process.
- the first lower side plate 1121 and the second lower side plate 1122 are substantially perpendicular to the lower fixing plate 1123.
- the lower fixing plate 1123 is substantially parallel to the carrying plate 113.
- the first lower side plate 1121 and the second lower side plate 1122 are respectively provided with a first lower groove 1124 and a second lower groove 1125 to reduce the overall weight of the lower beam 112 and reduce the cost .
- the lower extension rod 130 is rotatably connected to the end of the first lower plate 1121 and rotatably connected to the end of the second lower plate 1122.
- the lower extension rod 130 is rotatably connected to the lower cross beam 112 via a lower extension shaft 1301.
- the lower expansion shaft 1301 passes through the first lower side plate 1121 and the second lower side plate 1122.
- the first lower side plate 1121 is provided with a second fixing hole 1126 at a position closer to the end, and the second fixing hole 1126 can be passed through by screws.
- the lower extension rod 130 is provided with a lower threaded hole 1127 on one side of the rotating shaft.
- the second fixing hole 1126 is passed through the screw through the second fixing hole 1126 and screwed into the lower threaded hole 1127, so that the lower extension rod 130 is relatively opposite to the lower
- the beam 112 is fixed to meet the requirement of stable installation performance of the wall panel 100.
- the lower fixing plate 1123 is provided with a lower fixing hole 1128, and the lower fixing hole 1128 is used to allow screws to pass through, so that the lower fixing plate 1123 can be fixed on a wall or a load-bearing column. Increase the structural stability of the wall panel 100 and the wall installation.
- the lower fixing plate 1123 may be provided with a plurality of lower fixing holes 1128 arranged at intervals along the length direction.
- the lower fixing hole 1128 may have an oval racetrack shape to facilitate adjustment of the installation size of the lower fixing plate 1123.
- the lower fixing rod is also provided with a lower stamping boss 1129 to increase the structural stability of the lower cross beam 112.
- the length of the upper beam 111 and the lower beam 112 are both less than 60 cm, and the width of the wall panel 100 is less than 40 cm. Because the lengths of the upper beam 111 and the lower beam 112 are both less than 60 cm, the overall size of the display mounting device 1000 can meet the packaging size requirement of a length of 60 cm.
- the size of the outer edge of the upper beam 111 to the outer edge of the lower beam 112 is less than 40 cm, so that the width of the wall panel 100 is less than 40 cm, so that the overall size of the display mounting device 1000 can meet the width of 40 cm. Packing size requirements.
- the distance between the two upper mounting holes 121 is greater than 80 cm, and the distance between the two lower mounting holes 131 is greater than 80 cm, so as to satisfy
- the wall panel 100 can be installed and fixed to two load-bearing columns at a standard spacing of 80 cm, so that the display mounting device 1000 can meet more usage scenarios.
- the carrying plate 113 is provided with a first bearing portion 1131 and a second bearing portion 1132 disposed opposite to the first bearing portion 1131
- the telescopic hinged link assembly 200 includes two first front rotating rods 210, Two second front rotation rods 220 and two rear rotation rods 230, the two first front rotation rods 210 are rotatably connected to the first bearing portion 1131, and the two second front rotation rods 220 are rotatably connected to the The second bearing portion 1132, one end of each of the rear rotation rods 230 is rotatably connected between each of the first front rotation rods 210 and each of the second front rotation rods 220, and the adapter bracket 300 rotates Connected to the end of the rear rotating rod 230 away from the wall panel 100.
- the first bearing portion 1131 is provided with a first supporting plate, and the two first front rotating rods 210 are rotatably connected between the first supporting plate and the upper cross beam 111.
- the first front rotating rod 210 is rotatably connected between the first supporting plate and the second upper side plate 1112.
- the first supporting plate is substantially perpendicular to the supporting plate 113.
- the first supporting plate is substantially parallel to the upper cross beam 111.
- the supporting board 113 is provided with a first through hole 1133 adjacent to the first supporting board to facilitate the forming of the first supporting board and reduce the weight of the wall board 100.
- the second bearing portion 1132 is provided with a second supporting plate, and the two second front rotating rods 220 are rotatably connected between the second supporting plate and the lower cross beam 112.
- the second front rotating rod 220 is rotatably connected between the second supporting plate and the second lower side plate 1122.
- the second supporting plate is substantially perpendicular to the supporting plate 113.
- the second supporting plate is substantially parallel to the lower cross beam 112.
- the supporting board 113 is provided with a second through hole 1134 adjacent to the second supporting board to facilitate the forming of the second supporting board and reduce the weight of the wall board 100.
- the telescopic hinged connecting rod group 200 further includes a first plastic spacer 211, a second plastic spacer 221 and an intermediate rotating shaft 240.
- the first plastic spacer 211 connects the rear rotating rod 230 and the The first front rotation rod 210 is separated, the second plastic spacer 221 separates the rear rotation rod 230 and the second front rotation rod 220, and the intermediate rotation shaft 240 passes through the first front rotation rod in turn 210.
- both ends of the first plastic spacer 211 abut against the first front rotating rod 210 and the rear rotating rod 230, respectively, so that the first front rotating rod 210 and the rear rotating rod
- the distance between the rods 230 is increased, and the rotational friction of the first front rotating rod 210 and the rear rotating rod 230 is reduced.
- the two ends of the second plastic spacer 221 respectively abut against the second front rotation rod 220 and the rear rotation rod 230, so that the distance between the second front rotation rod 220 and the rear rotation rod 230 Increase and decrease the rotational friction of the second front rotating rod 220 and the rear rotating rod 230.
- first front rotating rod 210 has a hollow tubular structure in the middle
- second front rotating rod 220 has a hollow tubular structure in the middle
- the telescopic hinge link group 200 further includes a first middle pipe plug 212 and The second intermediate pipe plug 222, the first intermediate pipe plug 212 and the second intermediate pipe plug 222 are respectively inserted into one end of the first front rotating rod 210 and one end of the second front rotating rod 220, and the middle
- the rotating shaft 240 also passes through the first intermediate pipe plug 212 and the second intermediate pipe plug 222.
- the first intermediate pipe plug 212 and the second intermediate pipe plug 222 strengthen the structural strength of the end of the first front rotating rod 210 and the end of the second front rotating rod 220, respectively, so that the first The front rotating rod 210 and the second front rotating rod 220 are firmly connected to the rear rotating rod 230 in rotation.
- the first front rotating rod 210 and the second front rotating rod 220 are hollow inside, which reduces the weight and cost, so that the display mounting device reduces the weight and the cost.
- the telescopic hinge link group 200 further includes a first front pipe plug 213, a second front pipe plug 223, a first front shaft 214 and a second front shaft 224, the first front pipe plug 213 and The second front pipe plug 223 is respectively inserted into the end of the first front rotating rod 210 and the end of the second front rotating rod 220, and the first front rotating shaft 214 passes through the first front rotating rod.
- the end of the rod 210 and the first front pipe plug 213 are rotatably connected to the first bearing portion 1131, and the second front rotating shaft 224 passes through the end of the second front rotating rod 220 and the second front pipe plug 223 and rotatably connected to the second bearing portion 1132.
- the first front pipe plug 213 and the second front pipe plug 223 increase the structural strength of the end of the first front rotating rod 210 and the end of the second front rotating rod 220, respectively, so that the first front The rotating rod 210 and the second front rotating rod 220 are firmly connected to the wall panel 100 in rotation, which increases the bearing performance of the display mounting device 1000.
- the telescopic hinged linkage group 200 further includes a rear pipe plug 231 and a rear rotating shaft 232.
- the rear rotating rod 230 has a tubular structure with an empty middle, and the rear pipe plug 231 is inserted into the rear rotating rod 230 away from At the end of the wall panel 100, the rear rotating shaft 232 passes through the end of the rear rotating rod 230 and the rear pipe plug 231, and is rotatably connected to the adapter bracket 300.
- the telescopic hinge linkage group further includes a middle rear pipe plug 233, and the middle rear pipe plug 233 is inserted into an end of the rear rotating rod 230 away from the adapter bracket 300.
- the middle rotating shaft 240 passes through the middle rear pipe plug 233.
- the rear pipe plug 231 and the middle rear pipe plug 233 respectively strengthen the structural strength of the opposite ends of the rear rotating rod 230 to increase the structural stability of the telescopic hinged link assembly 200.
- the adapter bracket 300 includes a rotating base 310 that is rotatably connected to the rear rotating rod 230 and an inclined base 320 that is rotatably connected to the rotating base 310.
- the rotating base 310 is opposite to the rear rotating rod.
- the rotation direction of the rotation 230 is parallel to the rotation direction of the rear rotation rod 230 relative to the first front rotation rod 210, and the rotation direction of the tilt base 320 relative to the rotation base 310 is perpendicular to the rotation base 310 Relative to the rotation direction of the rear rotation rod 230, the display bracket 400 is fixed on the inclined base.
- the rotating base 310 is provided with a bearing plate 311 and an adjusting plate 312 fixedly connected to the bearing plate 311.
- the bearing plate 311 is provided with a rotating plate 313.
- the bearing plate 311 can be fixed to the adjusting plate 312 by screws.
- the bearing plate 311 is substantially parallel to the wall plate 100.
- the rotating board 313 is substantially perpendicular to the wall board 100.
- the rotating plate 313 is integrated with the bearing plate 311.
- the rear rotating shaft 232 passes through the rear rotating rod 230 and the rotating plate 313 so that the rotating base 310 can rotate relative to the rear rotating rod 230.
- the adjusting plate 312 is provided with a tilt adjusting end 314 and a tilt rotating end 315 opposite to the tilt adjusting end 314 on the side facing away from the rotating plate 313.
- the tilt adjusting end 314 is located at the upper part of the rotating base 310, and the tilting rotating end 315 is located at the lower part of the rotating base 310.
- the tilt base 320 is provided with a rotating connection part 321 which is rotatably connected to the tilt rotation end 315 and a sliding connection part 322 which is slidably connected to the tilt adjustment end 314.
- the adapter bracket 300 also includes a tilt adjustment bolt 330, which passes through the tilt adjustment end 314 of the rotating base 310 and the sliding connection portion 322 of the tilt base 320 to stabilize the tilt The rotation angle of the base 320 relative to the rotating base 310.
- the tilt base 320 can rotate around the tilt rotation end 315 and cause the sliding connection portion 322 to slide relative to the tilt adjustment end 314.
- the tilt adjustment bolt 330 can adjust the tilt angle of the tilt base 320 relative to the rotation base 310 to adjust the angle of the display bracket 400 relative to the wall panel 100.
- the display bracket 400 includes a fixed frame 410 and two hanging bars 420 that can be mounted on the fixed frame 410, the fixed frame 410 is fixed on the adapter bracket 300, and the two hanging bars 420 can be fixed on the back of the display.
- the fixing frame 410 includes an upper fixing rod 411, a lower fixing rod 412 disposed opposite to the upper fixing rod 411, and two fixing rods fixed between the upper fixing rod 411 and the lower fixing rod 412. Side fixed rod 413.
- the upper fixing rod 411 and the lower fixing rod 412 are respectively fixed to the upper and lower ends of the inclined base 320.
- the upper fixing rod 411 is formed by splicing two upper splicing rods.
- the lower fixing rod 412 is formed by splicing two lower splicing rods.
- the hanging bar 420 can be mounted on the upper fixing rod 411 and the lower fixing rod 412 so that the display can be mounted on the fixing frame 410 along with the hanging bar 420.
- the display can be extended and retracted with the display bracket 400 relative to the wall panel 100, and can be rotated at an angle in the horizontal direction, and can be adjusted to an inclined angle in the vertical direction.
- the hanging bar 420 is provided with a hook 421 that can be hung on the upper fixing rod 411 and a rotating buckle 422 that can be fastened to the lower fixing rod 412, so that the hanging bar is stable relative to the fixing frame 410.
- the main frame 110 includes an upper beam 111, a lower beam 112 disposed opposite to the upper beam 111, and a bearing plate 113 fixed between the upper beam 111 and the lower beam 112, two upper extension rods 120 Are respectively rotatably connected to both ends of the upper cross beam 111, each of the upper extension rods 120 is provided with an upper mounting hole 121, and the two lower extension rods 130 are respectively rotatably connected to both ends of the lower cross beam 112, and each The lower extension rod 130 is provided with a lower mounting hole 131, so that the upper extension rod 120 and the lower extension rod 130 can meet the packaging size requirements after being overlapped with the upper beam 111 and the lower beam 112, respectively. After the upper expansion rod 120 and the lower expansion rod 130 are expanded relative to the upper cross beam 111 and the lower cross beam 112 respectively, they can meet the requirements of installation size, so that the display mounting device 1000 solves the packaging difficulties and installation difficulties The problem.
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Abstract
一种显示器安装装置(1000),显示器安装装置(1000)包括墙板(100)、伸缩铰接连杆组(200)、转接支架(300)和显示器支架(400),墙板(100)包括主框架(110)、两个上扩展杆(120)和两个下扩展杆(130),主框架(110)包括上横梁(111)和相对上横梁(111)设置的下横梁(112),以及固定于上横梁(111)与下横梁(112)之间的承载板(113),两个上扩展杆(120)分别转动连接于上横梁(111)两端,以相对上横梁(111)展开或叠合,两个下扩展杆(130)分别转动连接于下横梁(112)两端,以相对下横梁(112)展开或叠合,伸缩铰接连杆组(200)一端连接于承载板(113),转接支架(300)连接于伸缩铰接连杆组(200)远离承载板(113)一端,显示器支架(400)连接于转接支架(300)。上扩展杆(120)和下扩展杆(130)分别相对上横梁(111)和下横梁(112)叠合后可满足包装尺寸的要求,在上扩展杆(120)和下扩展杆(130)分别相对上横梁(111)和下横梁(112)展开后,可满足安装尺寸的要求。
Description
本申请涉及安装设备技术领域,具体涉及一种显示器安装装置。
目前显示器安装支架的整体尺寸较大,无法满足包装要求。而减小显示器安装支架的整体尺寸,以满足包装要求的情况下,显示器安装支架又无法满足安装要求,导致显示器安装支架的安装受限制。故目前显示器安装支架的结构存在安装困难、包装困难的问题。
发明内容
本申请针对现有技术的缺陷,提供一种显示器安装装置。
本申请提供一种显示器安装装置,其中,所述显示器安装装置包括墙板、伸缩铰接连杆组、转接支架和显示器支架,所述墙板包括主框架、两个上扩展杆和两个下扩展杆,所述主框架包括上横梁和相对所述上横梁设置的下横梁,以及固定于所述上横梁与下横梁之间的承载板,两个所述上扩展杆分别转动连接于所述上横梁两端,以相对所述上横梁展开或叠合,每一所述上扩展杆设有上安装孔,所述上安装孔用于供螺钉穿过,以使上扩展杆固定于墙体或承重柱上,两个所述下扩展杆分别转动连接于所述下横梁两端,以相对所述下横梁展开或叠合,每一所述下扩展杆设有下安装孔,所述下安装孔用于供螺钉穿过,以使下扩展杆固定于墙体或承重柱上,所述伸缩铰接连杆组一端连接于所述承载板,所述转接支架连接于所述伸缩铰接连杆组远离所述承载板一端,所述显示器支架连接于所述转接支架,以随所述转接支架和所述伸缩铰接连杆组相对所述墙板伸缩。
本申请的显示器安装装置,通过所述主框架包括上横梁和相对所述上横梁设置的下横梁,以及固定于所述上横梁与下横梁之间的承载板,两个所述上扩 展杆分别转动连接于所述上横梁两端,每一所述上扩展杆设有上安装孔,两个所述下扩展杆分别转动连接于所述下横梁两端,每一所述下扩展杆设有下安装孔,实现所述上扩展杆和所述下扩展杆分别相对所述上横梁和所述下横梁叠合后可满足包装尺寸的要求,在所述上扩展杆和所述下扩展杆分别相对所述上横梁和所述下横梁展开后,可满足安装尺寸的要求,使得所述显示器安装装置解决了包装困难和安装困难的问题。
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的明显变形方式。
图1为本申请提供的显示安装装置的结构示意图;
图2为本申请提供的显示器安装装置的分解示意图;
图3为本申请提供的显示器安装装置的使用示意图。
下面将结合本实用新型实施例中的附图,对本实用新型实施例中的技术方案进行清楚地描述,显然,所描述的实施例仅仅是本实用新型一部分实施例,而不是全部的实施例。基于本实用新型中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本实用新型保护的范围。
需要说明的是,当组件被称为“固定于”另一个组件,它可以直接在另一个组件上或者也可以存在居中的组件。当一个组件被认为是“连接”另一个组件,它可以是直接连接到另一个组件或者可能同时存在居中组件。
除非另有定义,本文所使用的所有的技术和科学术语与属于本实用新型的技术领域的技术人员通常理解的含义相同。本文中在本实用新型的说明书中所使用的术语只是为了描述具体的实施例的目的,不是旨在于限制本实用新型。 本文所使用的术语“及/或”包括一个或多个相关的所列项目的任意的和所有的组合。
下面结合附图,对本实用新型的一些实施方式作详细说明。在不冲突的情况下,下述的实施例及实施例中的特征可以相互组合。
请参阅图1、图2和图3,本申请提供一种显示器安装装置1000,所述显示器安装装置1000包括墙板100、伸缩铰接连杆组200、转接支架300和显示器支架400。所述墙板100包括主框架110、两个上扩展杆120和两个下扩展杆130。所述主框架110包括上横梁111和相对所述上横梁111设置的下横梁112,以及固定于所述上横梁111与下横梁112之间的承载板113。两个所述上扩展杆120分别转动连接于所述上横梁111两端,以相对所述上横梁111展开或叠合。每一所述上扩展杆120设有上安装孔121,所述上安装孔121用于供螺钉穿过,以使上扩展杆120固定于墙体或承重柱上,两个所述下扩展杆130分别转动连接于所述下横梁112两端,以相对所述下横梁112展开或叠合,每一所述下扩展杆130设有下安装孔131,所述下安装孔131用于供螺钉穿过,以使下扩展杆130固定于墙体或承重柱上,所述伸缩铰接连杆组200一端连接于所述承载板113,所述转接支架300连接于所述伸缩铰接连杆组200远离所述承载板113一端,所述显示器支架400连接于所述转接支架300,以随所述转接支架300和所述伸缩铰接连杆组200相对所述墙板100伸缩。
可以理解的是,墙板100可以固定于墙体的墙面上,也可以固定于承重柱的墙面上,还可以是固定于装饰柜的柜体上,或者是固定于装饰墙板100的墙面上。显示器支架400上可以固定安装显示器。显示器可以为平板电视、或液晶显示器、或平板电脑、或显示终端等具有显示功能的电子设备。
通过所述主框架110包括上横梁111和相对所述上横梁111设置的下横梁112,以及固定于所述上横梁111与下横梁112之间的承载板113,两个所述上扩展杆120分别转动连接于所述上横梁111两端,每一所述上扩展杆120设有上安装孔121,两个所述下扩展杆130分别转动连接于所述下横梁112两端,每一所述下扩展杆130设有下安装孔131,实现所述上扩展杆120和所述下扩展杆130分别相对所述上横梁111和所述下横梁112叠合后可满足包装尺寸的要求,在所述上扩展杆120和所述下扩展杆130分别相对所述上横梁111和所 述下横梁112展开后,可满足安装尺寸的要求,使得所述显示器安装装置1000解决了包装困难和安装困难的问题。
本实施方式中,所述主框架110大致呈矩形框结构。所述主框架110还包括固定连接于所述上横梁111和所述下横梁112之间的两个竖杆114,两个所述竖杆114分别固定连接所述上横梁111两端以及分别固定于所述下横梁112两端。所述上扩展杆120转动连接所述上横梁111的位置与所述竖杆114固定所述上横梁111的位置相错开,以避免所述上横梁111受力集中,增加所述主框架110的使用寿命。所述下扩展杆130转动连接所述下横梁112的位置与所述竖杆114固定所述下横梁112的位置相错开,以避免所述下横梁112受力集中,增加所述主框架110的使用寿命。
本实施方式中,所述上扩展杆120转动连接所述上横梁111的转动轴大致垂直所述上横梁111,以及大致平行所述承载板113设置。所述上扩展杆120相对所述上横梁111展开后,可与所述上横梁111形成一个呈直线延伸的长条杆,以使得所述墙板100增大安装尺寸。所述上扩展杆120的上安装孔121可以经螺钉、螺栓、销钉等紧固件固定于墙体上,以使得墙板100为显示器支架400提供承载平台。所述上扩展杆120可以沿长度方向设置多个等距排列的上安装孔121,以增加所述上扩展杆120的安装结构形式。所述下扩展杆130转动连接所述下横梁112的转动轴大致垂直所述下横梁112,以及大致平行所述承载板113设置。所述下扩展杆130相对所述下横梁112展开后,可与所述下横梁112形成一个呈直线延伸的长条杆,以使得所述墙板100增大安装尺寸。所述下扩展杆130的下安装孔131可以经螺钉、螺栓、销钉等紧固件固定于墙体上,以使得墙板100为显示器支架400提供承载平台。所述下扩展杆130可以设置多个等距排列的下安装孔131,以增加所述下扩展杆130的安装结构形式。所述上横梁111、下横梁112、上扩展杆120和下扩展杆130均为钢材质,以增加所述墙板100的结构稳固性能。
本实施方式中,所述承载板113的两端分别固定于所述上横梁111的中间部分和所述下横梁112的中间部分。所述承载板113为所述伸缩铰接连杆组200提供承载力,以方便所述伸缩铰接连杆组200可带动所述转接支架300和所述显示器支架400相对所述墙板100伸缩。所述承载板113为钢材质。所述 承载板113可以焊接于所述上横梁111和所述下横梁112。
进一步地,所述上横梁111包括第一上侧板1111和相对所述第一上侧板1111的第二上侧板1112,以及连接于所述第一上侧板1111与第二上侧板1112之间的上固定板1113,所述上扩展杆120的转动轴平行所述上固定板1113,并转动连接于所述第一上侧板1111和所述第二上侧板1112之间,以及可完全收容于所述第一上侧板1111和所述第二上侧板1112之间,以实现与所述上横梁111叠合。
本实施方式中,所述第一上侧板1111、第二上侧板1112和上固定板1113一体设置。所述第一上侧板1111、第二上侧板1112和上固定板1113可以经折弯工艺成型。所述第一上侧板1111和所述第二上侧板1112大致垂直所述上固定板1113。所述上固定板1113大致平行所述承载板113。所述第一上侧板1111和所述第二上侧板1112分别设有第一上凹槽1114和第二上凹槽1115,以减小所述上横梁111的整体重量,以及减小成本。所述上扩展杆120转动连接于所述第一上侧板1111的端部,以及转动连接于所述第二上侧板1112的端部。所述第一上侧板1111在更靠近端部的位置设置有第一固定孔1116,所述第一固定孔1116可供螺钉穿过。所述上扩展杆120通过上扩展转轴1201转动连接所述上横梁111。所述上扩展转轴1201穿过所述第一上侧板1111和所述第二上侧板1112。所述上扩展杆120在转动轴一侧设有上螺纹孔1117。在所述上扩展杆120相对所述上横梁111展开后,通过螺钉穿过所述第一固定孔1116,并螺接于所述上螺纹孔1117,实现所述上扩展杆120相对所述上横梁111固定,以满足所述墙板100安装性能稳固的要求。
本实施方式中,所述上固定板1113设有上固定孔1118,所述上固定孔1118用于供螺钉穿过,以使所述上固定板1113可固定于墙体或承重柱上,实现增加所述墙板100与墙体安装的结构稳固性。所述上固定板1113可以沿长度方向设置多个间隔排列的上固定孔1118。所述上固定孔1118可以呈椭圆跑道形,以方便调节所述上固定板1113的安装尺寸。所述上固定板1113还设有上冲压凸台1119,以增加所述上横梁111的结构稳固性能。
进一步地,所述下横梁112包括第一下侧板1121和相对所述第一下侧板1121的第二下侧板1122,以及连接于所述第一下侧板1121与第二下侧板1122 之间的下固定板1123,所述下扩展杆130的转动轴平行所述下固定板1123,并转动连接于所述第一下侧板1121和所述第二下侧板1122之间,以及可完全收容于所述第一下侧板1121和所述第二下侧板1122之间,以实现与所述下横梁112叠合。
本实施方式中,所述第一下侧板1121、第二下侧板1122和下固定板1123一体设置。所述第一下侧板1121、第二下侧板1122和下固定板1123可以经折弯工艺成型。所述第一下侧板1121和所述第二下侧板1122大致垂直所述下固定板1123。所述下固定板1123大致平行所述承载板113。所述第一下侧板1121和所述第二下侧板1122分别设有第一下凹槽1124和第二下凹槽1125,以减小所述下横梁112的整体重量,以及减小成本。所述下扩展杆130转动连接于所述第一下侧板1121的端部,以及转动连接于所述第二下侧板1122的端部。所述下扩展杆130通过下扩展转轴1301转动连接所述下横梁112。所述下扩展转轴1301穿过所述第一下侧板1121和所述第二下侧板1122。所述第一下侧板1121在更靠近端部的位置设置有第二固定孔1126,所述第二固定孔1126可供螺钉穿过。所述下扩展杆130在转动轴一侧设有下螺纹孔1127。在所述下扩展杆130相对所述下横梁112展开后,通过螺钉穿过所述第二固定孔1126,并螺接于所述下螺纹孔1127,实现所述下扩展杆130相对所述下横梁112固定,以满足所述墙板100安装性能稳固的要求。
本实施方式中,所述下固定板1123设有下固定孔1128,所述下固定孔1128用于供螺钉穿过,以使所述下固定板1123可固定于墙体或承重柱上,实现增加所述墙板100与墙体安装的结构稳固性。所述下固定板1123可以沿长度方向设置多个间隔排列的下固定孔1128。所述下固定孔1128可以呈椭圆跑道形,以方便调节所述下固定板1123的安装尺寸。所述下固定杆还设有下冲压凸台1129,以增加所述下横梁112的结构稳固性能。
进一步地,所述上横梁111和所述下横梁112的长度均小于60cm,所述墙板100的宽度小于40cm。通过所述上横梁111和所述下横梁112的长度均小于60cm,使得所述显示器安装装置1000的整体尺寸可以满足长度60cm的包装尺寸要求。通过所述上横梁111的外边缘至所述下横梁112的外边缘的尺寸小于40cm,实现所述墙板100的宽度小于40cm,进而使得所述显示器安装 装置1000的整体尺寸可以满足宽度40cm的包装尺寸要求。所述上扩展杆120和所述下扩展杆130相对所述主框架110展开后,两个所述上安装孔121的间距大于80cm,两个所述下安装孔131的间距大于80cm,以满足所述墙板100可以安装固定于两个承重柱在标准间距80cm的需求,以使得所述显示器安装装置1000可以满足更多使用场景。
进一步地,所述承载板113设有第一轴承部1131和相对所述第一轴承部1131设置的第二轴承部1132,所述伸缩铰接连杆组200包括两个第一前转动杆210、两个第二前转动杆220和两个后转动杆230,两个所述第一前转动杆210转动连接所述第一轴承部1131,两个所述第二前转动杆220转动连接所述第二轴承部1132,每一所述后转动杆230的一端转动连接于每一所述第一前转动杆210和每一所述第二前转动杆220之间,所述转接支架300转动连接于所述后转动杆230远离所述墙板100一端。
本实施方式中,所述第一轴承部1131设有第一承托板,两个所述第一前转动杆210转动连接于所述第一承托板和所述上横梁111之间。所述第一前转动杆210转动连接于所述第一承托板和所述第二上侧板1112之间。所述第一承托板大致垂直所述承载板113。所述第一承托板大致平行所述上横梁111。所述承载板113设有邻近所述第一承托板的第一通孔1133,以方便所述第一承托板成型,并减小所述墙板100的重量。
本实施方式中,所述第二轴承部1132设有第二承托板,两个所述第二前转动杆220转动连接于所述第二承托板和所述下横梁112之间。所述第二前转动杆220转动连接于所述第二承托板和所述第二下侧板1122之间。所述第二承托板大致垂直所述承载板113。所述第二承托板大致平行所述下横梁112。所述承载板113设有邻近所述第二承托板的第二通孔1134,以方便所述第二承托板成型,并减小所述墙板100的重量。
进一步地,所述伸缩铰接连杆组200还包括第一塑胶隔圈211、第二塑胶隔圈221和中间转动轴240,所述第一塑胶隔圈211将所述后转动杆230和所述第一前转动杆210分隔,所述第二塑胶隔圈221将所述后转动杆230和所述第二前转动杆220分隔,所述中间转动轴240依次穿过所述第一前转动杆210、第一塑胶隔圈211、后转动杆230、第二塑胶隔圈221和所述第二前转动杆220。
本实施方式中,所述第一塑胶隔圈211的两端分别抵触于所述第一前转动杆210和所述后转动杆230,以使得所述第一前转动杆210和所述后转动杆230之间间距增大,并且减小所述第一前转动杆210和所述后转动杆230的转动摩擦力。所述第二塑胶隔圈221的两端分别抵触于所述第二前转动杆220和所述后转动杆230,以使得所述第二前转动杆220和所述后转动杆230之间间距增大,并且减小所述第二前转动杆220和所述后转动杆230的转动摩擦力。
进一步地,所述第一前转动杆210呈中间空置的管状结构,所述第二前转动杆220呈中间空置的管状结构,所述伸缩铰接连杆组200还包括第一中间管塞212和第二中间管塞222,所述第一中间管塞212和所述第二中间管塞222分别塞入所述第一前转动杆210一端和所述第二前转动杆220一端,所述中间转动轴240还穿过所述第一中间管塞212和所述第二中间管塞222。所述第一中间管塞212和所述第二中间管塞222分别加强所述第一前转动杆210端部和所述第二前转动杆220端部的结构强度,以使所述第一前转动杆210和所述第二前转动杆220与所述后转动杆230转动连接稳固。所述第一前转动杆210和所述第二前转动杆220因内部中空设置,减小了重量,以及成本,使得所述显示安装装置减轻重量以及减少成本。
本实施方式中,所述伸缩铰接连杆组200还包括第一前管塞213、第二前管塞223、第一前转轴214和第二前转轴224,所述第一前管塞213和所述第二前管塞223分别塞入所述第一前转动杆210的端部和所述第二前转动杆220的端部,所述第一前转轴214穿过所述第一前转动杆210端部和第一前管塞213并转动连接于所述第一轴承部1131,所述第二前转轴224穿过所述第二前转动杆220端部和所述第二前管塞223并转动连接于所述第二轴承部1132。所述第一前管塞213和所述第二前管塞223分别增加所述第一前转动杆210端部和所述第二前转动杆220端部的结构强度,使得所述第一前转动杆210和所述第二前转动杆220与所述墙板100转动连接稳固,增大所述显示器安装装置1000的承载性能。
进一步地,所述伸缩铰接连杆组200还包括后管塞231和后转轴232,所述后转动杆230呈中间空置的管状结构,所述后管塞231塞入所述后转动杆230远离所述墙板100的端部,所述后转轴232穿过所述后转动杆230端部和 所述后管塞231,并转动连接于所述转接支架300。所述伸缩铰链连杆组还包括中间后管塞233,所述中间后管塞233塞入所述后转动杆230远离所述转接支架300一端。所述中间转动轴240穿过所述中间后管塞233。所述后管塞231和所述中间后管塞233分别加强所述后转动杆230相对两端的结构强度,以增加所述伸缩铰接连杆组200的结构稳固性能。
进一步地,所述转接支架300包括转动连接所述后转动杆230的转动基座310和转动连接所述转动基座310的倾斜基座320,所述转动基座310相对所述后转动杆230转动的转动方向平行所述后转动杆230相对所述第一前转动杆210转动的转动方向,所述倾斜基座320相对所述转动基座310转动的转动方向垂直所述转动基座310相对所述后转动杆230转动的转动方向,所述显示器支架400固定于所述倾斜基座上。
本实施方式中,所述转动基座310设有轴承板311和固定连接所述轴承板311的调节板312。所述轴承板311设有转动板313。所述轴承板311可经螺钉固定于所述调节板312。所述轴承板311大致平行所述墙板100。所述转动板313大致垂直所述墙板100。所述转动板313与所述轴承板311一体设置。所述后转轴232穿过所述后转动杆230和所述转动板313,以使得所述转动基座310可相对所述后转动杆230转动。所述调节板312背离所述转动板313一侧设有倾斜调节端314和相对所述倾斜调节端314设置的倾斜转动端315。所述倾斜调节端314位于所述转动基座310的上部,所述倾斜转动端315位于所述转动基座310的下部。所述倾斜基座320设有转动连接所述倾斜转动端315的转动连接部321和滑动连接所述倾斜调节端314的滑动连接部322。所述转接支架300还包括倾斜调节栓330,所述倾斜调节栓330穿过所述转动基座310的倾斜调节端314和所述倾斜基座320的滑动连接部322,以稳定所述倾斜基座320相对所述转动基座310的转动夹角。所述倾斜基座320可绕所述倾斜转动端315转动,并使得所述滑动连接部322相对所述倾斜调节端314滑动。所述倾斜调节栓330可以调整所述倾斜基座320相对所述转动基座310的倾斜夹角,以实现调整所述显示器支架400相对所述墙板100的夹角。
进一步地,所述显示器支架400包括固定框架410和可挂载于所述固定框架410的两个挂条420,所述固定框架410固定于所述转接支架300上,两个 所述挂条420可固定于显示器的背部。
本实施方式中,所述固定框架410包括上固定杆411、相对所述上固定杆411设置的下固定杆412、固定于所述上固定杆411和所述下固定杆412之间的两个侧固定杆413。所述上固定杆411和所述下固定杆412分别固定于所述倾斜基座320的上下两端。所述上固定杆411由两个上拼接杆拼接构成。所述下固定杆412由两个下拼接杆拼接构成。所述挂条420可挂载于所述上固定杆411和所述下固定杆412上,以实现显示器随所述挂条420挂载于所述固定框架410上。显示器可随所述显示器支架400相对所述墙板100伸缩,并且可以在水平方向转动角度,以及可在竖直方向上调至倾斜角度。所述挂条420设有可挂在所述上固定杆411的挂钩421和可扣合于所述下固定杆412的转动扣422,实现所述挂条相对所述固定框架410稳固。
通过所述主框架110包括上横梁111和相对所述上横梁111设置的下横梁112,以及固定于所述上横梁111与下横梁112之间的承载板113,两个所述上扩展杆120分别转动连接于所述上横梁111两端,每一所述上扩展杆120设有上安装孔121,两个所述下扩展杆130分别转动连接于所述下横梁112两端,每一所述下扩展杆130设有下安装孔131,实现所述上扩展杆120和所述下扩展杆130分别相对所述上横梁111和所述下横梁112叠合后可满足包装尺寸的要求,在所述上扩展杆120和所述下扩展杆130分别相对所述上横梁111和所述下横梁112展开后,可满足安装尺寸的要求,使得所述显示器安装装置1000解决了包装困难和安装困难的问题。
以上已将本申请做一详细说明,以上,仅为本申请之较佳实施例而已,当不能限定本申请实施范围,即凡依本申请范围所作均等变化与修饰,皆应仍属本申请涵盖范围内。
Claims (17)
- 一种显示器安装装置,其特征在于,所述显示器安装装置包括墙板、伸缩铰接连杆组、转接支架和显示器支架,所述墙板包括主框架、两个上扩展杆和两个下扩展杆,所述主框架包括上横梁和相对所述上横梁设置的下横梁,以及固定于所述上横梁与下横梁之间的承载板,两个所述上扩展杆分别转动连接于所述上横梁两端,以相对所述上横梁展开或叠合,每一所述上扩展杆设有上安装孔,所述上安装孔用于供螺钉穿过,以使上扩展杆固定于墙体或承重柱上,两个所述下扩展杆分别转动连接于所述下横梁两端,以相对所述下横梁展开或叠合,每一所述下扩展杆设有下安装孔,所述下安装孔用于供螺钉穿过,以使下扩展杆固定于墙体或承重柱上,所述伸缩铰接连杆组一端连接于所述承载板,所述转接支架连接于所述伸缩铰接连杆组远离所述承载板一端,所述显示器支架连接于所述转接支架,以随所述转接支架和所述伸缩铰接连杆组相对所述墙板伸缩。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述上横梁包括第一上侧板和相对所述第一上侧板的第二上侧板,以及连接于所述第一上侧板与第二上侧板之间的上固定板,所述上扩展杆的转动轴平行所述上固定板,并转动连接于所述第一上侧板和所述第二上侧板之间,以及可完全收容于所述第一上侧板和所述第二上侧板之间,以实现与所述上横梁叠合。
- 根据权利要求2所述的显示器安装装置,其特征在于,所述上固定板设有上固定孔,所述上固定孔用于供螺钉穿过,以使所述上固定板可固定于墙体或承重柱上。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述下横梁包括第一下侧板和相对所述第一下侧板的第二下侧板,以及连接于所述第一下侧板与第二下侧板之间的下固定板,所述下扩展杆的转动轴平行所述下固定板,并转动连接于所述第一下侧板和所述第二下侧板之间,以及可完全收容于所述第一下侧板和所述第二下侧板之间,以实现与所述下横梁叠合。
- 根据权利要求4所述的显示器安装装置,其特征在于,所述下固定板设有下固定孔,所述下固定孔用于供螺钉穿过,以使所述下固定板可固定于墙 体或承重柱上。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述上横梁和所述下横梁的长度均小于60cm,所述墙板的宽度小于40cm。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述上扩展杆和所述下扩展杆相对所述主框架展开后,两个所述上安装孔的间距大于80cm,两个所述下安装孔的间距大于80cm。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述承载板设有第一轴承部和相对所述第一轴承部设置的第二轴承部,所述伸缩铰接连杆组包括两个第一前转动杆、两个第二前转动杆和两个后转动杆,两个所述第一前转动杆转动连接所述第一轴承部,两个所述第二前转动杆转动连接所述第二轴承部,每一所述后转动杆的一端转动连接于每一所述第一前转动杆和每一所述第二前转动杆之间,所述转接支架转动连接于所述后转动杆远离所述墙板一端。
- 根据权利要求8所述的显示器安装装置,其特征在于,所述第一轴承部设有第一承托板,两个所述第一前转动杆转动连接于所述第一承托板和所述上横梁之间。
- 根据权利要求8所述的显示器安装装置,其特征在于,所述第二轴承部设有第二承托板,两个所述第二前转动杆转动连接于所述第二承托板和所述下横梁之间。
- 根据权利要求8所述的显示器安装装置,其特征在于,所述伸缩铰接连杆组还包括第一塑胶隔圈、第二塑胶隔圈和中间转动轴,所述第一塑胶隔圈将所述后转动杆和所述第一前转动杆分隔,所述第二塑胶隔圈将所述后转动杆和所述第二前转动杆分隔,所述中间转动轴依次穿过所述第一前转动杆、第一塑胶隔圈、后转动杆、第二塑胶隔圈和所述第二前转动杆。
- 根据权利要求11所述的显示器安装装置,其特征在于,所述第一前转动杆呈中间空置的管状结构,所述第二前转动杆呈中间空置的管状结构,所述伸缩铰接连杆组还包括第一中间管塞和第二中间管塞,所述第一中间管塞和所述第二中间管塞分别塞入所述第一前转动杆一端和所述第二前转动杆一端,所述中间转动轴还穿过所述第一中间管塞和所述第二中间管塞。
- 根据权利要求12所述的显示器安装装置,其特征在于,所述伸缩铰接连杆组还包括第一前管塞、第二前管塞、第一前转轴和第二前转轴,所述第一前管塞和所述第二前管塞分别塞入所述第一前转动杆的端部和所述第二前转动杆的端部,所述第一前转轴穿过所述第一前转动杆端部和第一前管塞并转动连接于所述第一轴承部,所述第二前转轴穿过所述第二前转动杆端部和所述第二前管塞并转动连接于所述第二轴承部。
- 根据权利要求8所述的显示器安装装置,其特征在于,所述伸缩铰接连杆组还包括后管塞和后转轴,所述后转动杆呈中间空置的管状结构,所述后管塞塞入所述后转动杆远离所述墙板的端部,所述后转轴穿过所述后转动杆端部和所述后管塞,并转动连接于所述转接支架。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述转接支架包括转动连接所述后转动杆的转动基座和转动连接所述转动基座的倾斜基座,所述转动基座相对所述后转动杆转动的转动方向平行所述后转动杆相对所述第一前转动杆转动的转动方向,所述倾斜基座相对所述转动基座转动的转动方向垂直所述转动基座相对所述后转动杆转动的转动方向,所述显示器支架固定于所述倾斜基座上。
- 根据权利要求15所述的显示器安装装置,其特征在于,所述调节支架还包括倾斜调节栓,所述倾斜调节栓穿过所述转动基座和所述倾斜基座,以稳定所述倾斜基座相对所述转动基座的转动夹角。
- 根据权利要求1所述的显示器安装装置,其特征在于,所述显示器支架包括固定框架和可挂载于所述固定框架的两个挂条,所述固定框架固定于所述调节支架上,两个所述挂条可固定于显示器的背部。
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