CN217057073U

CN217057073U - Supporting device

Info

Publication number: CN217057073U
Application number: CN202220933523.1U
Authority: CN
Inventors: 李奕昕; 钟川岷
Original assignee: Syncmold Enterprise Corp
Current assignee: Syncmold Enterprise Corp
Priority date: 2021-11-17
Filing date: 2022-04-21
Publication date: 2022-07-26
Anticipated expiration: 2032-04-21
Also published as: TWM631180U; CN218208930U; TWM631879U; TWM630384U; TWM629651U; CN217382284U; CN218441330U; TWM631524U; CN218441331U; CN218441332U; TWM637005U

Abstract

The application provides a support device, includes: a base frame unit; an extension frame, comprising: the main board is fixedly arranged on the base frame unit and extends along a first axis; and a pivot hole formed on the main board; and a bearing tilting unit pivoted to the extending frame and including: a rotating column accommodated in the pivot hole and capable of rotating by itself around a second axis, and having a first side and a second side; the first bearing piece is fixedly arranged on the first side of the rotating column; and the second bearing piece is fixedly arranged on the second side of the rotating column.

Description

Supporting device

Technical Field

The present application provides a supporting device, and more particularly, to a supporting device with light and thin size of each component, easy assembly, and small volume of packaging material.

Background

The conventional tilt-angle-adjustable display supporting device is generally composed of a base, a column, a protruding neck and a carrying unit, wherein the base is generally a thick disk-shaped structure, and the column and the protruding neck are generally long cylindrical structures, and have a certain weight and volume. Such overall structure is not only comparatively thick and heavy, and when the shipment, even if disassemble each subassembly after, still can occupy certain space, the package material volume can't effectively reduce. Therefore, there is a need for a novel supporting device with thin and light components, easy assembly, and small package size.

SUMMERY OF THE UTILITY MODEL

The application provides a support device for bearing a display on a working face, the support device includes: a base frame unit disposed on the working surface; an extension frame, comprising: the main board is fixedly arranged on the pedestal frame unit and extends along a first axis which is not parallel to the working surface; and a pivot hole formed on the main board; and a bearing tilting unit pivoted to the extending frame and including: a rotating column accommodated in the pivot hole and capable of rotating by itself around a second axis, and having a first side and a second side; the first bearing piece is fixedly arranged on the first side of the rotating column; the second bearing piece is fixedly arranged on the second side of the rotating column; when an external force is applied, the bearing tilting unit can rotate between a first position and a second position relative to the extension frame by taking the second axis as an axis, and when the external force is removed, the bearing tilting unit stops at any position between the first position and the second position.

In the above-mentioned supporting device, the extending frame further comprises a limiting projection, the rotary column further comprises a groove, the limiting projection is disposed on the main board and extends into the groove, the limiting projection abuts against a head end of the groove at the first position, and the limiting projection abuts against a tail end of the groove at the second position.

In the above-mentioned supporting device, the first bearing member has a first main board and a first fixing plate connected in a bending manner, the second bearing member has a second main board and a second fixing plate connected in a bending manner, the first fixing plate is fixedly arranged on the first side of the rotating column, and the second fixing plate is fixedly arranged on the second side of the rotating column.

In the above-mentioned supporting device, the bearing tilting unit further includes a first friction ring and a second friction ring, the first friction ring is sandwiched between the first fixed connection plate and the main plate, and the second friction ring is sandwiched between the second fixed connection plate and the main plate.

In the aforementioned supporting device, the bearing tilting unit further includes a plurality of first locking members and a plurality of second locking members, the first fixing plate has a plurality of first locking holes, the second fixing plate has a plurality of second locking holes, the rotating column has a plurality of through holes, the first locking members respectively penetrate through the first locking holes and are correspondingly locked to the through holes from a first side of the rotating column, and the second locking members respectively penetrate through the second locking holes and are correspondingly locked to the through holes from a second side of the rotating column.

In the aforementioned supporting device, the first fixing plate further has a plurality of first positioning posts, the second fixing plate further has a plurality of second positioning posts, the rotating post further has a plurality of positioning holes, the first positioning posts are correspondingly engaged with the positioning holes respectively from the first side of the rotating post, and the second positioning posts are correspondingly engaged with the positioning holes respectively from the second side of the rotating post.

In the above-mentioned supporting device, the first supporting member further includes a first protruding plate, the second supporting member further includes a second protruding plate, and the first protruding plate and the second protruding plate are overlapped and fixed to each other.

In the aforementioned supporting device, the first protruding board further has a positioning recess hole, and the second protruding board further has a positioning post, wherein the positioning post is engaged with the positioning recess hole.

In the aforementioned supporting device, the first fixing plate further has a plurality of first engaging holes, the second fixing plate further has a plurality of second engaging holes, the first friction ring has a plurality of first engaging posts, the second friction ring has a plurality of second engaging posts, the first engaging posts are respectively engaged with the first engaging holes, and the second engaging posts are respectively engaged with the second engaging holes.

In the aforementioned supporting device, the base frame unit includes a first foot plate and a second foot plate, the first foot plate has a first extending section and a first fixed connection section, the second foot plate has a second extending section and a second fixed connection section, the first extending section and the first fixed connection section are connected with each other at an angle, the second extending section and the second fixed connection section are connected with each other at an angle, the first fixed connection section is correspondingly connected with the second fixed connection section, and the first extending section and the second extending section respectively extend outwards from the first fixed connection section and the second fixed connection section in a manner of gradually separating from each other.

In the above-mentioned supporting device, the base frame unit further includes a plurality of quick-release screws, the main board further has a plurality of through holes, the first fixing section has a plurality of first locking screw holes, the second fixing section has a plurality of second locking screw holes, and the quick-release screws are correspondingly screwed in the through holes, the first locking screw holes and the second locking screw holes, respectively.

In the above-mentioned supporting device, the main board further has a plurality of through holes, the first fixed connection section further has a plurality of first stamping columns, the second fixed connection section further has a plurality of second stamping columns, and the first stamping columns and the second stamping columns are respectively correspondingly engaged with the through holes.

In the above-mentioned supporting device, the main board further has an arc end and a pointed end opposite to each other, the pivot hole is formed at the arc end, and the base frame unit is fixedly disposed at the pointed end.

In the above-mentioned supporting device, the main board, the first bearing member, the second bearing member, the first foot board and the second foot board are iron pieces or aluminum extruded pieces.

Drawings

Fig. 1 is an overall schematic view of the support device of the present application.

Fig. 2A and 2B are exploded views of a base frame unit and an extension frame in the supporting device of the present application.

Fig. 3A and 3B are exploded views of the extension frame and the carrying tilting unit in the supporting device of the present application from different perspectives.

Fig. 4A is a cross-sectional view of a support device of the present application in a first position.

Fig. 4B is a cross-sectional view of the support device of the present application in a second position.

Description of the main component symbols

1000 supporting device

2000 display

3000 working surface

1 base frame unit

11 first foot board

111 first extension

112 first fastening section

1121 first lock screw hole

1122 first stamped column

12 second foot board

121 second extension

122 second fastening section

1221 second Lock screw hole

1222 second ram post

13 quick-release screw

2 extending frame

21 mainboard

211 pointed end

212 arc end

213 through hole

214 through hole

22 pivoting hole

23 position limiting projection

3 bearing tilting unit

31 rotating column

311 column

3111 first side

3112 second side

3113 big external convex surface

3114 connecting surface

3115 Small outer convex surface

312 groove

3121 head end

3122 the tail end

313 through hole

314 locating hole

32 first bearing member

321 first main board

322 first fixed connection plate

3221 the first keyhole

3222 first positioning column

3223 the first engaging hole

323 first protruding board

3231 positioning concave hole

33 second bearing member

331 second main board

332 second fastening plate

3321 second lock hole

3322 second positioning column

3323 second engaging hole

333 second protruding board

3331 alignment column

34 first friction ring

341 first engaging column

35 second friction ring

351 second engaging column

36 first locking member

37 second locking element

F external force

G direction of gravity

First axis of X1

X2 second axis.

Detailed Description

Referring to fig. 1, the supporting device 1000 of the present application is used for carrying a display 2000 on a working surface 3000, and the supporting device 1000 includes a base frame unit 1, an extending frame 2 and a carrying tilting unit 3, wherein the base frame unit 1 is disposed on the working surface 3000 (for example, a desktop), the extending frame 2 is fixed on the base frame unit 1, and the carrying tilting unit 3 is pivoted to the extending frame 2 and is used for carrying the display 2000. The structure and the connection relationship of the elements will be described in detail below, wherein some of the drawings show a gravity direction G, a first axis X1 and a second axis X2, the first axis X1 is not parallel to the working surface 3000, and the second axis X2 is perpendicular to the first axis X1 and the gravity direction G.

Referring to fig. 2A and fig. 2B, the base frame unit 1 includes a first foot plate 11, a second foot plate 12 and two quick-release screws 13. The first leg plate 11 is disposed on the working surface 3000 and has a first extending section 111 and a first fixing section 112. The first extending section 111 and the first fixed section 112 are respectively tabular and connected with each other at an angle, and the length of the first extending section 111 is greater than that of the first fixed section 112. The first fastening section 112 has two first locking screw holes 1121 and two first pressing posts 1122. The first bolt holes 1121 are formed through in a direction parallel to the working surface 3000 and are horizontally arranged in a direction perpendicular to the gravity direction G. The first stamping posts 1122 are formed to protrude in a direction parallel to the working surface 3000, are arranged vertically in the gravity direction G, and are spaced apart from the first bolt holes 1121. Similarly, the second foot board 12 is disposed on the working surface 3000, and has a second extending section 121 and a second fixing section 122. The second extending section 121 and the second fixed section 122 are respectively flat and connected with each other at an angle, and the length of the second extending section 121 is greater than that of the second fixed section 122. The second fixed section 122 is correspondingly connected to the first fixed section 112, and has two second lock screw holes 1221 and two second stamping columns 1222. The second locking screw holes 1221 are formed through in a direction parallel to the working surface 3000, are horizontally arranged in a direction perpendicular to the gravity direction G, and respectively correspond to the first locking screw holes 1121. The second pressing columns 1222 are formed by protruding in a direction parallel to the working plane 3000 and arranged up and down in the gravity direction G, and are disposed at intervals with the second locking screw holes 1221 and correspond to the first pressing columns 1122, respectively. In the present embodiment, the first extending section 111 and the second extending section 121 extend outward from the first fixing section 112 and the second fixing section 122 respectively in a manner of gradually departing from each other, so that the first foot plate 11 and the second foot plate 12 can be stably placed on the working surface 3000, but not limited thereto. One of the quick release screws 13 can sequentially penetrate through one of the first lock screw holes 1121 and be screwed and locked in one of the second lock screw holes 1221, and the other quick release screw 13 can sequentially penetrate through the other second lock screw hole 1221 and be screwed and locked in the other first lock screw hole 1121. In other embodiments, the first lock screw hole 1121, the first pressing column 1122, the second lock screw hole 1221, the second pressing column 1222 and the quick release screw 13 may have different corresponding numbers according to requirements, which is not limited in the present application.

The extension frame 2 includes a main board 21, a pivot hole 22 and a limit bump 23. The main plate 21 is flat and extends along the first axis X1, and has a sharp end 211, an arc end 212, two through holes 213, and a through hole 214. The sharp-angled end 211 is clamped between the first fixing section 112 and the second fixing section 122. The circular arc end 212 is opposite to the sharp corner end 211 and is distant from the base frame unit 1 along the first axis X1. The through holes 213 are formed at the pointed end 211 in a direction parallel to the second axis X2 and are horizontally arranged along the vertical gravity direction G, and are respectively communicated with the first lock screw hole 1121 and the second lock screw hole 1221, so that the quick release screws 13 can respectively pass through the through holes. The through holes 214 are formed through the pointed end 211 along a direction parallel to the second axis X2 and are arranged vertically along the gravity direction G, and the first stamping column 1122 and the second stamping column 1222 are correspondingly engaged with each other, so that the main board 21 can be assembled with the first leg board 11 and the second leg board 12 in advance, and the quick release screw 13 can be screwed into the through hole 213, the first lock screw hole 1121 and the second lock screw hole 1221, thereby locking the main board 21, the first leg board 11 and the second leg board 12 together. In the present embodiment, the number of the through holes 213 and the through holes 214 corresponds to the number of the first lock screw holes 1121, the first pressing column 1122, the second lock screw holes 1221, the second pressing column 1222 and the quick release screws 13. In other embodiments, the number of the through

holes

213 and 214 may be adjusted according to the requirement, and the application is not limited thereto. The pivot hole 22 penetrates the arc end 212 of the main board 21 along the second axis X2. The limiting protrusion 23 protrudes from the arc end 212 of the main board 21 along the gravity direction G and extends into the pivot hole 22.

Referring to fig. 3A and fig. 3B, the tilting unit 3 includes a rotary column 31, a first bearing member 32, a second bearing member 33, a first friction ring 34, a second friction ring 35, three first locking members 36 and three second locking members 37. The rotating column 31 is accommodated in the pivot hole 22, can rotate around the second axis X2, and has a column 311 (as shown in fig. 4A and 4B), a recess 312, three through holes 313 and two positioning holes 314. The cylinder 311 is generally cylindrical, and has a central axis coincident with the second axis X2, and has a first side 3111, a second side 3112, a large outer surface 3113, two connecting surfaces 3114 and a small outer surface 3115. The first side 3111 and the second side 3112 correspond to each other and are generally circular. The large outer convex surface 3113, the connection surface 3114 and the small outer convex surface 3115 jointly surround and are connected to the periphery of the first side 3111 and the second side 3112, and the connection surface 3114 is connected to two ends of the large outer convex surface 3113 and two ends of the small outer convex surface 3115 respectively. The recess 312 is defined by the connecting surfaces 3114 and the small outer convex surface 3115, into which the limiting projection 23 extends, and has a head end 3121 and a tail end 3122 (as shown in fig. 4A and 4B), the head end 3121 is adjacent to one of the connecting surfaces 3114, and the tail end 3122 is adjacent to the other connecting surface 3114. The through holes 313 are formed through the column 311 along the second axis X2, and are arranged at intervals. The positioning hole 314 is formed through the column 311 along the second axis X2, and is disposed at an interval from the through hole 313.

The first bearing member 32 is fixedly disposed on the first side 3111 of the rotating column 31, and has a plate-shaped first main plate 321, a first fixing plate 322, and a first protruding plate 323. The first main plate 321 is formed extending in the direction of the second axis X2. The first fastening plate 322 is connected to the first main plate 321 in a bending manner, and has three first locking holes 3221, two first positioning posts 3222 and two first engaging holes 3223. The first locking holes 3221 are formed through along the second axis X2, and are arranged at intervals, and are respectively communicated with the through holes 313 through the first side 3111 of the rotating column 31. The first positioning posts 3222 are formed to protrude along the second axis X2, and are respectively engaged with the first side 3111 of the rotating post 31 in the positioning holes 314. The first engaging hole 3223 is formed to penetrate in the direction of the second axis X2, and is arranged vertically in the gravity direction G. The first protruding board 323 extends from the first main board 321 along the second axis X2, and is vertically arranged with the first fixing board 322 along the gravity direction G, and has a positioning concave hole 3231.

The second supporting member 33 is fixed on the second side 3112 of the rotating column 31, and has a second main board 331, a second fixing board 332 and a second protruding board 333. The second main plate 331 is formed to extend in the direction of the second axis X2. The second fixing plate 332 is connected to the second main plate 331 in a bending manner and has three second locking holes 3321, two second positioning posts 3322 and two second engaging holes 3323. The second locking holes 3321 are formed through along the second axis X2, and are arranged at intervals, and are respectively communicated with the through holes 313 through the second side 3112 of the rotating column 31. The second positioning posts 3322 are formed by protruding along the second axis X2, and are respectively engaged with the positioning holes 314 by the second sides 3112 of the rotating posts 31. The second engaging hole 3323 is formed to penetrate in the direction of the second axis X2 and is arranged vertically in the direction of gravity G. The second lug plate 333 is formed extending from the second main plate 331 in the direction of the second axis X2, is aligned vertically with the second fixing plate 332 in the direction of gravity G, and has an alignment post 3331, the alignment post 3331 being engaged with the positioning recess 3231, whereby the first lug plate 323 and the second lug plate 333 are partially overlapped and fixed to each other so as to be movable.

The first friction ring 34 is sandwiched between the first fastening plate 322 and the main plate 21, and has two first engaging posts 341. The first engaging posts 341 are formed to protrude along the second axis X2, arranged vertically along the gravity direction G, and engaged with the first engaging holes 3223 respectively. The second friction ring 35 is disposed between the second fastening plate 332 and the main plate 21, and has two second engaging posts 351. The second engaging posts 351 are formed to protrude in the direction of the second axis X2, are arranged vertically in the gravity direction G, and are respectively engaged with the second engaging holes 3323. The first locking elements 36 are screws respectively inserted into the first locking holes 3221 and are correspondingly locked to the through holes 313 through the first side 3111 of the rotating column 31, so that the first fixing plate 322 is fixedly disposed on the first side 3111 of the rotating column 31. The second locking members 37 are screws respectively inserted into the second locking holes 3321 and are correspondingly locked to the through holes 313 from the second side 3112 of the rotary column 31, so that the second fastening plate 332 is fixedly disposed on the second side 3112 of the rotary column 31. In other embodiments, the number of the through holes 313, the first locking holes 3221, the second locking holes 3321, the first locking members 36, and the second locking members 37 may also be adjusted according to requirements, and the disclosure is not limited thereto.

In the present embodiment, the first leg plate 11, the second leg plate 12, the main plate 21, the first carrier 32 and the second carrier 33 are iron members or aluminum extruded members, but the present invention is not limited thereto, and any metal member may be used. The first friction ring 34 and the second friction ring 35 are made of wear-resistant material, such as Polyoxymethylene (POM).

Referring to fig. 4A and 4B, fig. 4A is a schematic cross-sectional view of the load-bearing tilting unit 3 at a first position relative to the extension frame 2, and fig. 4B is a schematic cross-sectional view of the load-bearing tilting unit 3 at a second position relative to the extension frame 2. In the first position, the limiting protrusion 23 is adjacent to or abuts against the head end 3121 of the groove 312 (or adjacent to/abutting against one of the connection surfaces 3114), and in the second position, the limiting protrusion 23 is adjacent to or abuts against the tail end 3122 of the groove 312 (or adjacent to/abutting against the other of the connection surfaces 3114). When an external force F is applied to rotate the bearing tilting unit 3 from the first position to the second position, the rotary column 31, the first bearing member 32, the second bearing member 33, the first friction ring 34 and the second friction ring 35 move together and rotate relative to the extension frame 2, at this time, the limit protrusion 23 can move between the head end 3121 and the tail end 3122 of the groove 312, and friction is generated between the first friction ring 34, the second friction ring 35 and the main plate 21. When the external force F is removed, the load-bearing tilting unit 3 can be stopped at any position between the first position and the second position, thereby adjusting the tilt angle of the display 2000.

Further, when the limiting protrusion 23 abuts against the head end 3121 of the groove 312 (or against one of the connection surfaces 3114), the inclination angle of the display 2000 is 23 degrees, and when the limiting protrusion 23 abuts against the tail end 3122 of the groove 312 (or against the other connection surface 3114), the inclination angle of the display 2000 is-5 degrees, in other words, the adjustable range covers 28 degrees, but not limited thereto, and at this time, the adjustable range of the inclination angle of the display 2000 can be enlarged by only changing the design of the groove 312, for example, enlarging the groove 312.

In summary, the supporting device of the present application has the first foot plate, the second foot plate, the main plate, the first bearing member and the second bearing member formed as plates, so that the size of each component is relatively light and thin, the volume of the packaging material can be effectively reduced, and the carrying is convenient for the user. In addition, the components are locked by screws or quick-release screws, and stamping columns, clamping holes, clamping columns, positioning holes, positioning columns and other elements with foolproof and pre-assembly functions are arranged among the components, so that a user can easily assemble or quickly release the components.

Claims

1. A supporting device for supporting a display on a working surface, the supporting device comprising:

a base frame unit disposed on the working surface;

an extension frame, comprising:

the main board is fixedly arranged on the pedestal frame unit and extends along a first axis which is not parallel to the working surface; and

a pivot hole formed on the main board; and

a bearing tilting unit pivoted to the extending frame and comprising:

a rotating column accommodated in the pivot hole and capable of rotating by itself around a second axis, and having a first side and a second side;

the first bearing piece is fixedly arranged on the first side of the rotating column; and

the second bearing piece is fixedly arranged on the second side of the rotating column;

when an external force is applied, the bearing tilting unit can rotate between a first position and a second position relative to the extension frame by taking the second axis as an axis, and when the external force is removed, the bearing tilting unit stops at any position between the first position and the second position.

2. The supporting device as claimed in claim 1, wherein the extending frame further comprises a limiting protrusion, the rotating post further comprises a recess, the limiting protrusion is disposed on the main plate and extends into the recess, the limiting protrusion abuts against a head end of the recess in the first position, and the limiting protrusion abuts against a tail end of the recess in the second position.

3. The supporting device as claimed in claim 2, wherein the first supporting member has a first main plate and a first fastening plate connected with each other in a bent manner, the second supporting member has a second main plate and a second fastening plate connected with each other in a bent manner, the first fastening plate is fixed on the first side of the rotating column, and the second fastening plate is fixed on the second side of the rotating column.

4. The support device of claim 3, wherein the load-bearing tilting unit further comprises a first friction ring and a second friction ring, the first friction ring being sandwiched between the first fixed plate and the main plate, the second friction ring being sandwiched between the second fixed plate and the main plate.

5. The supporting device as claimed in claim 4, wherein the supporting tilting unit further comprises a plurality of first locking members and a plurality of second locking members, the first fixing plate has a plurality of first locking holes, the second fixing plate has a plurality of second locking holes, the rotating column has a plurality of through holes, the first locking members respectively penetrate through the first locking holes and are correspondingly locked in the through holes from a first side of the rotating column, and the second locking members respectively penetrate through the second locking holes and are correspondingly locked in the through holes from a second side of the rotating column.

6. The support device as claimed in claim 5, wherein the first fastening plate further has a plurality of first positioning posts, the second fastening plate further has a plurality of second positioning posts, the rotating post further has a plurality of positioning holes, the first positioning posts are correspondingly engaged with the positioning holes respectively from a first side of the rotating post, and the second positioning posts are correspondingly engaged with the positioning holes respectively from a second side of the rotating post.

7. The support device of claim 6, wherein the first support member further comprises a first protruding plate, the second support member further comprises a second protruding plate, the first protruding plate and the second protruding plate are overlapped and fixed to each other, the first protruding plate further has a positioning recess, the second protruding plate further has a positioning post, and the positioning post is engaged with the positioning recess.

8. The support device as claimed in claim 7, wherein the first fastening plate further has a plurality of first engaging holes, the second fastening plate further has a plurality of second engaging holes, the first friction ring has a plurality of first engaging posts, the second friction ring has a plurality of second engaging posts, the first engaging posts are respectively engaged with the first engaging holes, and the second engaging posts are respectively engaged with the second engaging holes.

9. The supporting device as claimed in any one of claims 1 to 8, wherein the base frame unit comprises a first foot plate and a second foot plate, the first foot plate has a first extending section and a first fixed section, the second foot plate has a second extending section and a second fixed section, the first extending section and the first fixed section are connected with each other at an angle, the second extending section and the second fixed section are connected with each other at an angle, the first fixed section is correspondingly connected with the second fixed section, and the first extending section and the second extending section extend outwards from the first fixed section and the second fixed section respectively in a way of gradually departing from each other.

10. The supporting device as claimed in claim 9, wherein the base frame unit further comprises a plurality of quick release screws, the main board further has a plurality of through holes, the first fastening section has a plurality of first locking screw holes, the second fastening section has a plurality of second locking screw holes, and the quick release screws are correspondingly screwed into the through holes, the first locking screw holes and the second locking screw holes.

11. The supporting device as claimed in claim 10, wherein the main board further has a plurality of through holes, the first fastening section further has a plurality of first stamping posts, the second fastening section further has a plurality of second stamping posts, the first stamping posts and the second stamping posts are respectively engaged with the through holes, the main board further has an arc end and a pointed end opposite to each other, the pivot hole is formed at the arc end, and the pedestal unit is fixed at the pointed end.

12. The support device of claim 11, wherein the main plate, the first carrier, the second carrier, the first foot plate and the second foot plate are iron or aluminum extrusions.