CN204667259U - Multi-axial carrier - Google Patents
Multi-axial carrier Download PDFInfo
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- CN204667259U CN204667259U CN201520282423.7U CN201520282423U CN204667259U CN 204667259 U CN204667259 U CN 204667259U CN 201520282423 U CN201520282423 U CN 201520282423U CN 204667259 U CN204667259 U CN 204667259U
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- 238000005452 bending Methods 0.000 claims description 80
- 238000010586 diagram Methods 0.000 description 10
- 238000005516 engineering process Methods 0.000 description 2
- 230000000007 visual effect Effects 0.000 description 2
- 239000000969 carrier Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000007493 shaping process Methods 0.000 description 1
Abstract
A multi-axial carrier includes a fixed plate and a movable plate. The movable plate is movably arranged on the fixed plate and can rotate relative to the fixed plate by taking a first axis as a rotation central line. One side of the movable plate is used for connecting a display device, and the display device can pivot relative to the movable plate by taking a second axis as a rotation center line. Wherein the first axis is orthogonal to the second axis.
Description
Technical field
The utility model relates to a kind of multiaxis to carrier, particularly relates to a kind of multiaxis of three axis to carrier.
Background technology
The category of early stage PC only comprises desktop computer (desktop computer) and notebook computer (Note Book, NB).In the recent period, notebook computer develops towards the design concept of " light, thin, short, little " gradually, add the shaping of touch technology, the input of notebook computer and Presentation Function can be integrated, panel computer (tablet computer) namely arises at the historic moment.
In addition, panel computer can be arranged in pairs or groups a carrier usually, to change its angles of display relative to user, or makes it be fixed on metope.But existing carrier is only limitted to make panel computer be fixed on metope usually, or only there is the function making panel computer relative to the movement of metope upper and lower, left and right.If user, for increasing the variability of angles of display, namely must buy an arm type support, the expense so will user being caused extra separately.
Utility model content
In view of this, the utility model provides a kind of multiaxis to carrier, to make panel computer relative to the angles of display variation of user.
A kind of multiaxis that the utility model proposes, to carrier, includes fixing plate and a movable plate.Movable plate is arranged at fixing plate movably, and movable plate with a first axle for rotation centerline, can rotate relative to fixing plate.The side of movable plate connects with for a display device, and display device can with one second axis for rotation centerline be relative to movable plate pivotable.Wherein, first axle is orthogonal to the second axis.
According to an embodiment, this first axle is orthogonal to the surface of this movable plate towards this fixing plate, and this second axis being parallel is in a wherein side of this movable plate.
According to an embodiment, also comprise a linking shaft member, this fixing plate also has one and locks hole, and this movable plate also has an axis hole, this linking shaft member run through this axis hole and be attached to this fixing plate this lock hole.
According to an embodiment, this movable plate also has multiple shrinkage pool, and this fixing plate has the projection being matched with described multiple shrinkage pool, and this movable plate can rotate relative to this fixing plate and this projection of interlock is positioned one of described multiple shrinkage pool.
According to an embodiment, described multiple shrinkage pool around and be arranged in around this axis hole.
According to an embodiment, also comprise a bracket, this movable plate is located at slidably by this bracket, this bracket away from the side of this movable plate with for this display device pivot joint.
According to an embodiment, also comprise a bearing carrier and a bracket, this bearing carrier has relative first surface and second surface, this display device is arranged at this first surface of this bearing carrier, this movable plate is located at slidably by this bracket, and this bracket is articulated in this second surface of this bearing carrier away from the side of this movable plate.
According to an embodiment, this movable plate also comprises a top board, one first bending plate, one second bending plate and one the 3rd bending plate, this first bending plate and this second bending plate are connected to the relative both sides of this top board, 3rd bending plate is connected to the side of this top board away from this display device, this axis hole and described multiple shrinkage pool are all positioned at this top board, this first bending plate and this second bending plate are formed with one first chute and one second chute, and the relative both sides of this bracket are arranged at this first chute and this second chute movably.
The utility model separately proposes a kind of multiaxis to carrier, includes fixing plate and a movable plate.Movable plate is arranged at fixing plate movably, and movable plate can move along a first axle relative to fixing plate.The side of movable plate connects with for a display device, and display device can with one second axis for rotation centerline be relative to movable plate pivotable.
According to an embodiment, also comprise a linking shaft member, this fixing plate also has a convergence hole, this movable plate also has a sliding tray, this linking shaft member run through this sliding tray and be attached to this fixing plate this lock hole, can move along this first axle relative to this fixing plate to make this movable plate.
According to an embodiment, this first axle is parallel to this second axis.
According to an embodiment, also comprise a bracket, one end of this bracket is connected to this movable plate, and this bracket is articulated in this display device away from one end of this movable plate.
According to an embodiment, also comprise a bearing carrier and a bracket, this bearing carrier has relative first surface and second surface, this display device is arranged at this first surface of this bearing carrier, this movable plate is located at slidably by this bracket, and this bracket is articulated in this second surface of this bearing carrier away from the side of this movable plate.
According to an embodiment, also comprise a linking shaft member, this fixing plate also has a convergence hole, this movable plate also has a sliding tray, this linking shaft member run through this sliding tray and be attached to this fixing plate this lock hole, can move along this first axle relative to this fixing plate to make this movable plate, this movable plate also comprises a top board, one first bending plate, one second bending plate and one the 3rd bending plate, this first bending plate and this second bending plate are connected to the relative both sides of this top board, 3rd bending plate is connected to the side of this top board away from this display device, this sliding tray is positioned at this top board, this first bending plate and this second bending plate are formed with one first chute and one second chute, the relative both sides of this bracket are arranged at this first chute and this second chute movably.
The multiaxis proposed due to the utility model is to carrier, its movable plate can be that rotation centerline rotates relative to fixing plate with first axle, and display device can with the second axis for rotation centerline be relative to movable plate pivotable, and first axle is orthogonal to the second axis, therefore, display device relative to the angles of display variation of user, but not is only limitted to upper and lower, left and right and moves, adjusts.
Above about the explanation of the utility model content and the explanation of following embodiment in order to demonstration with explain principle of the present utility model, and provide the utility model further to explain.
Accompanying drawing explanation
Fig. 1 is for illustrating the schematic side view of the multiaxis described in the utility model first embodiment to carrier.
Fig. 2 is for illustrating the decomposing schematic representation of the multiaxis described in the utility model first embodiment to carrier.
Fig. 3 is for illustrating the schematic perspective view of the movable part described in the utility model first embodiment.
Fig. 4 is for illustrating the using state schematic diagram of the multiaxis described in the utility model first embodiment to carrier.
The using state schematic diagram that Fig. 5 rotates relative to fixing plate with a first axle for the movable plate illustrated described in the utility model first embodiment.
Fig. 6 is for illustrating display device with the using state schematic diagram of one second axis relative to the movable plate pivotable described in the utility model first embodiment.
Fig. 7 is for illustrating bracket described in the utility model first embodiment along the using state schematic diagram of the 3rd axis relative to movable plate movement.
Fig. 8 is for illustrating the schematic perspective view of the multiaxis described in the utility model second embodiment to carrier.
Fig. 9 is for illustrating the decomposing schematic representation of the multiaxis described in the utility model second embodiment to carrier.
Figure 10 is for illustrating the schematic perspective view of the multiaxis described in the utility model the 3rd embodiment to carrier.
The using state schematic diagram that Figure 11 rotates relative to fixing plate with first axle for the movable plate illustrated described in the utility model the 3rd embodiment.
Wherein, description of reference numerals is as follows:
1 multiaxis is to carrier
10 fixing plates
101 locking sections
102 lock hole
103 projections
11 movable plates
111 top boards
1111 axis holes
1112 shrinkage pools
1113 first sides
1114 second sides
1115 the 3rd sides
1116 the 4th sides
112 first bending plates
1121 first chutes
1122 first location divisions
113 second bending plates
1131 second chutes
1132 the 3rd location divisions
114 the 3rd bending plates
115 extension boards
1151 seize end on both sides by the arms
1152 guide end
12 are connected shaft member
13 brackets
131 the 3rd location divisions
2 multiaxises are to carrier
23 brackets
24 bearing carriers
241 first surfaces
242 second surfaces
3 multiaxises are to carrier
30 fixing plates
301 locking sections
302 lock hole
31 movable plates
311 top boards
3111 sliding trays
3113 first sides
3114 second sides
3115 the 3rd sides
3116 the 4th sides
312 first bending plates
3121 first chutes
3122 first location divisions
313 second bending plates
3131 second chutes
3132 the 3rd location divisions
314 the 3rd bending plates
315 extension boards
3151 seize end on both sides by the arms
3152 guide end
32 are connected shaft member
33 brackets
331 the 3rd location divisions
9 display device
S load-bearing surface
L1 first axle
L2 second axis
L3 the 3rd axis
Embodiment
Refer to Fig. 1 to Fig. 3, Fig. 1 is for illustrating the schematic side view of the multiaxis described in the utility model first embodiment to carrier.Fig. 2 is for illustrating the decomposing schematic representation of the multiaxis described in the utility model first embodiment to carrier.Fig. 3 is for illustrating the schematic perspective view of the movable part described in the utility model first embodiment.As shown in the figure, the multiaxis of the present embodiment in order to carry a display device 9 to carrier 1, and includes the movable plate 11, of a fixing plate 10, and is connected shaft member 12 and a bracket 13.
In the present embodiment, fixing plate 10 has four locking sections 101, and locks hole 102 and a projection 103.Fixing plate 10 passes through these locking sections 101, to be fixedly arranged on a load-bearing surface S.In practical application, for example, load-bearing surface S can be a metope or a desktop.
Movable plate 11 is arranged at fixing plate 10 movably, and comprises top board 111,1 first bending plate 112,1 second bending plate 113, the 3rd bending plate 114 and two extension boards 115.Top board 111 has an axis hole 1111, multiple shrinkage pool 1112, the first relative side 1113 and the second side 1114, the 3rd relative side 1115 and the 4th side 1116.These shrinkage pools 1112 around and be arranged in axis hole 1111 around, and each shrinkage pool 1112 is all matched with the projection 103 of fixing plate 10.Specifically, in the present embodiment, the quantity of these shrinkage pools 1112 is 12, and with axis hole 1111 for the center of circle and equidistant arrangement.In addition, in the present embodiment, the projection 103 of fixing plate 10 is a screw, and these shrinkage pools 1112 of movable plate 11 are all screw.But the utility model, for the quantity of these shrinkage pools 1112 and arrangement mode, is not limited.
First bending plate 112 of movable plate 11 is connected to the first side 1113 of top board 111.Wherein, the first bending plate 112 is formed with one first chute 1121, and has 2 first location divisions 1122, is positioned at the first chute 1121.Second bending plate 113 is connected to the second side 1114 of top board 111.Wherein, the second bending plate 113 is formed with one second chute 1131, and has 2 second location divisions 1132, is positioned at the second chute 1131.
3rd bending plate 114 of movable plate 11 is connected to the 3rd side 1115 (side away from display device 9) of top board 111, and between the first bending plate 112 and the second bending plate 113.Two extension boards 115 are connected to the 3rd bending plate 114, simultaneously also between the first bending plate 112 and the second bending plate 113.Each extension board 115 has seizes end 1151 and a guide end 1152 on both sides by the arms.Seize end 1151 on both sides by the arms and be connected to the 3rd bending plate 114, and guide end 1152 is connected to and seizes end 1151 on both sides by the arms.
Be connected shaft member 12 and run through the axis hole of movable plate 11, and be attached to fixing plate 10 lock hole 102.In the present embodiment, being connected shaft member 12 is single order ladder shell silk, and the hole 102 that locks of fixing plate 10 is a screw.
Bracket 13 has four the 3rd location divisions 131, is matched with two the first location divisions 1122 of the first bending plate 112 and two the second location divisions 1132 of the second bending plate 113 respectively.In addition, movable plate 11 is located at slidably by bracket 13, and bracket 13 is away from the side of movable plate 11 and display device 9 directly pivot joint mutually.Specifically, in the present embodiment, bracket 13 is in " U " type, and its relative both sides are arranged at the first chute 1121 of the first bending plate 112 and the second chute 1131 of the second bending plate 113 movably.
It is noted that, the utility model is not limited for the shape of bracket 13, allly in order to match activities plate 11, and can be located at the shape of movable plate 11 slidably, all belongs to the category of bracket 13 of the present utility model.For example, in other embodiments, bracket 13 can be a tabular.In addition, whether the utility model comprises bracket 13 1 thing for multiaxis to carrier 1, is not also limited.For example, in other embodiments, display device 9 directly can be hubbed at movable plate 11.
So far, foregoing is about the introduction of multiaxis of the present invention to each component of carrier 1.Illustrate about the using state of multiaxis to carrier 1, refer to following, and refer to Fig. 4 to Fig. 7.Wherein, Fig. 4 is for illustrating the using state schematic diagram of the multiaxis described in the utility model first embodiment to carrier, the using state schematic diagram that Fig. 5 rotates relative to fixing plate with a first axle for the movable plate illustrated described in the utility model first embodiment, Fig. 6 is for illustrating display device with the using state schematic diagram of one second axis relative to the movable plate pivotable described in the utility model first embodiment, and Fig. 7 is for illustrating bracket described in the utility model first embodiment along the using state schematic diagram of one the 3rd axis relative to movable plate movement.
As shown in Figure 4, in the present embodiment, definition has a first axle L1, one second axis L2 and the 3rd axis L3, hereby illustrates.Wherein, first axle L1 is orthogonal to the surface of movable plate 11 towards fixing plate 10.Second axis L2 is parallel to the 3rd side 1115 and the 4th side 1116 of the top board 111 of movable plate 11, and is orthogonal to first axle L1.3rd axis L3 is parallel to the first side 1113 and the second side 1114 of the top board 111 of movable plate 11, and is orthogonal to the second axis L2.
When the projection 103 of fixing plate 10 is separated from each other with these shrinkage pools 1112 of movable plate 11, namely as shown in Figure 5, movable plate 11 is able to first axle L1 and is rotation centerline and rotates relative to fixing plate 10.Now, by interlock display device 9, also opposing fixed plate part 10, load-bearing surface S rotate movable plate 11.When user by display device 9 (or, movable plate 11) when rotating to appropriate viewing location, again the projection 103 of fixing plate 10 is positioned arbitrary shrinkage pool 1112 of movable plate 11, display device 9 (or, movable plate 11) firmly can be maintained at viewing location.
Moreover, as shown in Figure 6, user can by display device 9 with one second axis L2 for rotation centerline and relative to movable plate 11 pivotable, to adjust the visual angle that display device 9 presents relative to user.
Moreover as shown in Figure 7, bracket 13 can move along the 3rd axis L3 relative to movable plate 11 by user.When user by bracket 13 towards movable plate 11 the 3rd bending plate 114 (namely, from the 4th side 1116 of the top board 111 of movable plate 11 towards the 3rd side 1115) mobile time, guide end 1152 guide bracket 13 of two extension boards 115, must seize on both sides by the arms in seizing end 1151 on both sides by the arms to make bracket 13.Side by side, two the first location divisions 1122 of the first bending plate 112 engage mutually with wherein two the 3rd location divisions 131 of bracket 13, and two the second location divisions 1132 of the second bending plate 113 engage mutually with another two the 3rd location divisions 131 of bracket 13.
On the contrary, when user by bracket 13 away from movable plate 11 the 3rd bending plate 114 (namely, from the 3rd side 1115 of the top board 111 of movable plate 11 towards the 4th side 1116) mobile time, wherein one second location division 1132 of wherein one first location division 1122 and second bending plate 113 of the first bending plate 112 must engage mutually with wherein two the 3rd location divisions 131 of bracket 13.
Below introduce the second embodiment of the present utility model.Refer to Fig. 8 and Fig. 9, Fig. 8 is for illustrating the schematic perspective view of the multiaxis described in the utility model second embodiment to carrier, and Fig. 9 is for illustrating the decomposing schematic representation of the multiaxis described in the utility model second embodiment to carrier.With the first embodiment unlike, the multiaxis of the present embodiment also comprises a bearing carrier 24 to carrier 2, and display device 9 is hubbed at bracket 23 indirectly by bearing carrier 24.
The bearing carrier 24 of the present embodiment has relative first surface 241 and second surface 242.Display device 9 is arranged at the first surface 241 of bearing carrier 24, and bracket 23 is articulated in the second surface 242 of bearing carrier 24 away from the side of movable plate 21.
Brought forward, bearing carrier 24 can also the second axis L2 be rotation centerline, and relative to movable plate 21 pivotable.Because display device 9 is arranged at the first surface 241 of bearing carrier 24, therefore when bearing carrier 24 is relative to movable plate 21 pivotable, also can interlock display device 9 relative to movable plate 21 pivotable, to adjust the visual angle that display device 9 presents relative to user.
Because the multiaxis of the present embodiment is similar to the multiaxis of the first embodiment to carrier 1 to carrier 2, therefore the NM component of the present embodiment and use-pattern please see aforementioned first embodiment, and the present embodiment is not repeated in this.
In addition, Figure 10 and Figure 11 is referred to.Wherein, Figure 10 is for illustrating the schematic perspective view of the multiaxis described in the utility model the 3rd embodiment to carrier, the using state schematic diagram that Figure 11 rotates relative to fixing plate with first axle for the movable plate illustrated described in the utility model the 3rd embodiment.In the present embodiment, multiaxis also in order to carry a display device 9 to carrier 3, and includes a fixing movable plate of plate 30, one 31, two and is connected shaft member 32 and a bracket 33.
Fixing plate 30 there are four locking sections 301 and two lock hole 302.Fixing plate 30 passes through these locking sections 301, to be fixedly arranged on a load-bearing surface S.
Movable plate 31 is arranged at fixing plate 30 movably, and comprises top board 311,1 first bending plate 312,1 second bending plate 313, the 3rd bending plate 314 and two extension boards 315.Top board 311 has two sliding trays 3111, the first relative side 3113 and the second side 3114, the 3rd relative side 3115 and the 4th side 3116.In the present embodiment, two sliding trays 3111 are parallel to the 3rd side 3115 and the 4th side 3116 of top board 311.
First bending plate 312 of movable plate 31 is connected to the first side 3113 of top board 311.Wherein, the first bending plate 312 is formed with one first chute 3121, and has two the first location divisions 3122, is positioned at the first chute 3121.Second bending plate 313 is connected to the second side 3114 of top board 311.Wherein, the second bending plate 313 is formed with one second chute 3131, and has two the second location divisions 3132, is positioned at the second chute 3131.
3rd bending plate 314 of movable plate 31 is connected to the 3rd side 3115 (side away from display device 9) of top board 311, and between the first bending plate 312 and the second bending plate 313.Two extension boards 315 are connected to the 3rd bending plate 314, simultaneously also between the first bending plate 312 and the second bending plate 313.Each extension board 315 has seizes end 3151 and a guide end 3152 on both sides by the arms.Seize end 3151 on both sides by the arms and be connected to the 3rd bending plate 314, and guide end 1152 is connected to and seizes end 3151 on both sides by the arms.
Each linking shaft member 32 runs through each sliding tray 3111 of movable plate 31, and be attached to fixing plate 30 respectively lock hole 302.In the present embodiment, each linking shaft member 32 is also single order ladder shell silk, and the hole 302 that respectively locks of fixing plate 30 is a screw.
Bracket 33 has four the 3rd location divisions 331, is matched with two the first location divisions 3122 of the first bending plate 312 and two the second location divisions 3132 of the second bending plate 313 respectively.In addition, movable plate 31 is located at slidably by bracket 33, and bracket 33 is away from the side of movable plate 31 and display device 9 directly pivot joint mutually.Specifically, in the present embodiment, bracket 33 is in " U " type, and its relative both sides are arranged at the first chute 3121 of the first bending plate 312 and the second chute 3131 of the second bending plate 313 movably.
So far, foregoing is about the introduction of multiaxis of the present invention to each component of carrier 3.Illustrate about the using state of multiaxis to carrier 3, refer to following, and refer to Figure 11.Wherein, in the present embodiment, definition has a first axle L1, one second axis L2 and the 3rd axis L3, first gives explanation.Wherein, first axle L1 is parallel to two sliding trays 3111 of the top board 311 of movable plate 31.The parallel first axle L1 of second axis L2.3rd axis L3 is parallel to the first side 3113 and the second side 3114 of the top board 311 of movable plate 31, and is orthogonal to the second axis L2.
As shown in figure 11, movable plate 31 must move along first axle L1 relative to fixing plate 30.Now, movable plate 31 by interlock display device 9 also opposing fixed plate part 30 move.
In addition, user can by display device 9 with the second axis L2 for rotation centerline, and relative to movable plate 31 pivotable, also bracket 33 can be moved along the 3rd axis L3 relative to movable plate 31.Using state mode is all similar to the first embodiment herein, therefore does not repeat them here.
To sum up institute is old, the multiaxis that the utility model proposes is to carrier, its movable plate can first axle be that rotation centerline rotates relative to fixing plate, display device can the second axis be rotation centerline relative to movable plate pivotable, and bracket can move along the 3rd axis relative to movable plate.In addition, the second axis vertical take-off is in first axle, and the 3rd axis vertical take-off is in the second axis.Therefore, display device presents the angles of display variation giving user, but not is only limitted to upper and lower, left and right and moves, adjust.In addition, the multiaxis that the utility model proposes to carrier, only must by fixing plate, movable plate and bracket can simple and easy, assemble rapidly, user also must not buy arm type support separately, can save the expense of user.
Although embodiment of the present utility model illustrates as mentioned above, so and be not used to limit the utility model, any those skilled in the art, not departing from design of the present utility model and scope, all working as according to shape, structure, feature and the quantity described in the utility model claims, can do a little change, and the scope that therefore scope of the present utility model must define depending on the claim appended by this instructions is as the criterion.
Claims (14)
1. multiaxis is to a carrier, it is characterized in that, comprises:
One fixing plate; And
One movable plate, be arranged at this fixing plate movably, and this movable plate can with a first axle for rotation centerline rotates relative to this fixing plate, the side of this movable plate connects with for a display device, and this display device can with one second axis for rotation centerline be relative to this movable plate pivotable;
Wherein, this first axle is orthogonal to this second axis.
2. multiaxis as claimed in claim 1 is to carrier, it is characterized in that, this first axle is orthogonal to the surface of this movable plate towards this fixing plate, and this second axis being parallel is in a wherein side of this movable plate.
3. multiaxis as claimed in claim 1 is to carrier, and it is characterized in that, also comprise a linking shaft member, this fixing plate also has one and locks hole, and this movable plate also has an axis hole, this linking shaft member run through this axis hole and be attached to this fixing plate this lock hole.
4. multiaxis as claimed in claim 3 is to carrier, it is characterized in that, this movable plate also has multiple shrinkage pool, and this fixing plate has the projection being matched with described multiple shrinkage pool, and this movable plate can rotate relative to this fixing plate and this projection of interlock is positioned one of described multiple shrinkage pool.
5. multiaxis as claimed in claim 4 is to carrier, it is characterized in that, described multiple shrinkage pool around and be arranged in around this axis hole.
6. multiaxis as claimed in claim 5 is to carrier, and it is characterized in that, also comprise a bracket, this movable plate is located at slidably by this bracket, this bracket away from the side of this movable plate with for this display device pivot joint.
7. multiaxis as claimed in claim 5 is to carrier, it is characterized in that, also comprise a bearing carrier and a bracket, this bearing carrier has relative first surface and second surface, this display device is arranged at this first surface of this bearing carrier, this movable plate is located at slidably by this bracket, and this bracket is articulated in this second surface of this bearing carrier away from the side of this movable plate.
8. multiaxis is as claimed in claims 6 or 7 to carrier, it is characterized in that, this movable plate also comprises a top board, one first bending plate, one second bending plate and one the 3rd bending plate, this first bending plate and this second bending plate are connected to the relative both sides of this top board, 3rd bending plate is connected to the side of this top board away from this display device, this axis hole and described multiple shrinkage pool are all positioned at this top board, this first bending plate and this second bending plate are formed with one first chute and one second chute, the relative both sides of this bracket are arranged at this first chute and this second chute movably.
9. multiaxis is to a carrier, it is characterized in that, comprises:
One fixing plate; And
One movable plate, be arranged at this fixing plate movably, and this movable plate can move along a first axle relative to this fixing plate, the side of this movable plate connects with for a display device, and this display device can with one second axis for rotation centerline be relative to this movable plate pivotable.
10. multiaxis as claimed in claim 9 is to carrier, it is characterized in that, also comprise a linking shaft member, this fixing plate also has a convergence hole, this movable plate also has a sliding tray, this linking shaft member run through this sliding tray and be attached to this fixing plate this lock hole, can move along this first axle relative to this fixing plate to make this movable plate.
11. multiaxises as claimed in claim 9 are to carrier, and it is characterized in that, this first axle is parallel to this second axis.
12. multiaxises as claimed in claim 9, to carrier, is characterized in that, also comprise a bracket, and one end of this bracket is connected to this movable plate, and this bracket is articulated in this display device away from one end of this movable plate.
13. multiaxises as claimed in claim 9 are to carrier, it is characterized in that, also comprise a bearing carrier and a bracket, this bearing carrier has relative first surface and second surface, this display device is arranged at this first surface of this bearing carrier, this movable plate is located at slidably by this bracket, and this bracket is articulated in this second surface of this bearing carrier away from the side of this movable plate.
14. multiaxises as described in claim 12 or 13 are to carrier, it is characterized in that, also comprise a linking shaft member, this fixing plate also has a convergence hole, this movable plate also has a sliding tray, this linking shaft member run through this sliding tray and be attached to this fixing plate this lock hole, can move along this first axle relative to this fixing plate to make this movable plate, this movable plate also comprises a top board, one first bending plate, one second bending plate and one the 3rd bending plate, this first bending plate and this second bending plate are connected to the relative both sides of this top board, 3rd bending plate is connected to the side of this top board away from this display device, this sliding tray is positioned at this top board, this first bending plate and this second bending plate are formed with one first chute and one second chute, the relative both sides of this bracket are arranged at this first chute and this second chute movably.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW104205233 | 2015-04-08 | ||
| TW104205233U TWM506230U (en) | 2015-04-08 | 2015-04-08 | Multiaxial holder |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204667259U true CN204667259U (en) | 2015-09-23 |
Family
ID=54137619
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520282423.7U Active CN204667259U (en) | 2015-04-08 | 2015-05-04 | Multi-axial carrier |
Country Status (2)
| Country | Link |
|---|---|
| CN (1) | CN204667259U (en) |
| TW (1) | TWM506230U (en) |
-
2015
- 2015-04-08 TW TW104205233U patent/TWM506230U/en unknown
- 2015-05-04 CN CN201520282423.7U patent/CN204667259U/en active Active
Also Published As
| Publication number | Publication date |
|---|---|
| TWM506230U (en) | 2015-08-01 |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |