阅读说明：本技术 压力轴转式电子镜面装置 (Pressure shaft type electronic mirror device ) 是由 秦子文 罗登男 于 2019-01-11 设计创作，主要内容包括：本发明公开一种压力轴转式电子镜面装置,包括一支撑单元、一镜面显示板、以及一压力轴转构件；镜面显示板以一电缆连接至支撑单元内,压力轴转构件则用于连接支撑单元与镜面显示板,并包含彼此相互枢接的一第一轴转部与一第二轴转部,第一轴转部内具有一供电缆通过的走线空间,且第一轴转部具有一与第二轴转部作枢转配合的接触面,而第二轴转部通过接触面与第一轴转部对应,并于第一、二轴转部间设有一贴接于接触面上的迫紧件,借以维持无段式的定位效果。(The invention discloses a pressure shaft rotating type electronic mirror device, which comprises a supporting unit, a mirror display panel and a pressure shaft rotating member, wherein the supporting unit is provided with a supporting hole; the mirror display panel is connected to the support unit by a cable, the pressure shaft rotating member is used for connecting the support unit and the mirror display panel and comprises a first rotating part and a second rotating part which are mutually pivoted, the first rotating part is internally provided with a wiring space for the cable to pass through, the first rotating part is provided with a contact surface which is in pivot fit with the second rotating part, the second rotating part corresponds to the first rotating part through the contact surface, and a forcing member attached to the contact surface is arranged between the first rotating part and the second rotating part so as to maintain the stepless positioning effect.)

1. A pressure-axis rotary electronic mirror apparatus, comprising:

a supporting unit;

a mirror display panel, which contains a cable inside and extends into the supporting unit; and

a pressure shaft rotating member connecting the supporting unit and the mirror display panel and including a first rotating part and a second rotating part pivotally connected to each other, the first rotating part having a wiring space for the cable to pass through, the first rotating part having a contact surface pivotally engaged with the second rotating part, the second rotating part corresponding to the first rotating part through the contact surface;

wherein, a packing piece attached to the contact surface is arranged between the first rotating part and the second rotating part.

2. The pressure-actuated mirror apparatus according to claim 1, wherein the supporting unit has a base and a supporting rod vertically disposed on the base.

3. The pressure-actuated electronic mirror device of claim 2, wherein the rod comprises a first rod and a second rod, and the second rod is movably nested in the first rod and extends out of the first rod.

4. The pressure-actuated electronic mirror device of claim 2, wherein the mirror display panel has a display surface and a back surface opposite to the display surface, the first pivoting portion is disposed on the back surface, and the second pivoting portion is disposed on one end of the supporting rod, so that the cables passing through the routing space extend into the rod and are electrically connected to the base.

5. The pressure-actuated electronic mirror device of claim 4, wherein a pivot seat is disposed on the back side, and the first pivot portion is pivotally disposed on the pivot seat.

6. A pressure-actuated electronic mirror device according to claim 1, wherein said second pivot portion comprises two half-shaft portions spaced apart from each other, and said first pivot portion is disposed between said two half-shaft portions.

7. The pressure-actuated electronic mirror device according to claim 6, wherein the first rotating portion has a limiting arc edge, a limiting portion is protruded above the limiting arc edge, and the two half shaft portions have abutting edges respectively corresponding to and sliding along the limiting arc edge.

8. The pressure-actuated mirror apparatus according to claim 6, wherein the shaft portions are provided with grooves corresponding to the contact surfaces, and the urging member is engaged in the grooves.

9. The pressure-fed rotary electronic mirror apparatus of claim 8, wherein said grooves are arranged in a circular array, and said urging member is a rubber ring and is fitted into said grooves arranged in a circular array.

10. The pressure-actuated electronic mirror device of claim 1, wherein the pressure-actuated rotating member further comprises a pivot pivotally connecting the first rotating portion and the second rotating portion.

11. The pressure-actuated electronic mirror device according to claim 10, wherein the first shaft portion has a first pivot hole penetrating the contact surface, and one of the half shaft portions of the second shaft portion has a second pivot hole, and the other of the half shaft portions has a locking hole, the pivot has a pivot portion and a locking portion extending from an end of the pivot portion, and the pivot portion penetrates the second pivot hole and the first pivot hole and is locked into the locking hole by the locking portion.

Technical Field

The present invention relates to electronic devices, and particularly to a pressure-axis-rotating electronic mirror device.

Background

According to the prior art, the conventional mirror is mainly hung on a wall surface or placed on a place such as a table top by decoration, such as a table mirror. Most of the table mirrors have a mirror surface with a fixed angle or a rotating shaft to adjust the elevation angle of the mirror surface. In addition, the design of the rotating shaft is generally simply locked and fixed, so that the rotating shaft will always loosen after a period of use, and the mirror surface cannot be effectively positioned at the angle or elevation angle and the position of the mirror surface that the user wants to adjust.

In addition, with the rapid development of the 3C industry, there is also an electronic mirror device, or "smart mirror", created by integrating technologies such as a display and a camera, wherein the camera captures the appearance of a user and reflects the data and/or the appearance of the user onto the display, so that the electronic mirror device can be used in a manner of using the electronic mirror device according to the situation, or in a conventional manner, wherein the mirror itself of the electronic mirror device has an optical reflection function of a conventional mirror to reflect the appearance of the user, or in a novel electronic manner, wherein the mirror itself of the electronic mirror device can also be used as a built-in display module (e.g., L cdplay) to display the appearance of the user captured by the camera through a display unit thereof to the electronic mirror as a conventional mirror.

In view of the above, the present invention is directed to overcoming the above-mentioned drawbacks, and therefore, the present invention provides a method for effectively overcoming the above-mentioned drawbacks.

Disclosure of Invention

The present invention is directed to a pressure-driven pivoting electronic mirror device, which is mainly characterized in that a pivoting member capable of providing pressure is used as a pivot connection, so as to generate and maintain a good stepless positioning effect when adjusting an angle.

In order to achieve the above object, the present invention provides a pressure-axis-rotating electronic mirror device, which comprises a supporting unit, a mirror display panel, and a pressure-axis rotating member; the mirror display panel is internally provided with a cable which extends into the supporting unit, the pressure shaft rotating component is connected with the supporting unit and the mirror display panel and comprises a first rotating part and a second rotating part which are mutually pivoted, the first rotating part is internally provided with a wiring space for the cable to pass through, the first rotating part is provided with a contact surface which is in pivot fit with the second rotating part, and the second rotating part corresponds to the first rotating part through the contact surface; wherein, a packing piece attached on the contact surface is arranged between the first and the second rotating parts.

Wherein, the supporting unit is provided with a base and a supporting rod vertically arranged on the base.

The support rod comprises a first rod piece and a second rod piece, and the second rod piece is movably sleeved in the first rod piece and extends out of the first rod piece.

The mirror display panel is provided with a display surface and a back side surface opposite to the display surface, the first rotating part is arranged on the back side surface, and the second rotating part is arranged on one end of the supporting rod, so that the cable passing through the wiring space extends into the rod piece and is electrically connected into the base.

Wherein, a rotating shaft seat is arranged on the back side surface, and the first rotating part is pivoted on the rotating shaft seat.

The first rotating part is provided with a contact surface which is in pivot fit with the second rotating part, and the packing piece is at least attached to the contact surface of the first rotating part.

The second rotating part comprises two half shaft parts arranged at intervals, and the first rotating part is arranged between the two half shaft parts.

Wherein, the first rotating part is provided with a limit arc edge, a limit part is arranged above the limit arc edge in a protruding way, and the two half shaft parts are respectively provided with corresponding propping edges which are matched with the limit arc edge to slide.

Wherein, the two half shaft parts are provided with grooves corresponding to the contact surfaces, and the packing pieces are embedded into the grooves.

The grooves are annularly arranged, and the packing piece is a rubber ring and is embedded into the annularly arranged grooves.

Wherein the pressure shaft rotating member further comprises a pivot pivotally connecting the first rotating portion and the second rotating portion.

The first shaft part has the first pivot hole through the contact surface, the second shaft part has the second pivot hole on one half shaft part, the other half shaft part has the locking hole, the pivot has a pivot part and a locking part extending from the end of the pivot part, and the pivot part penetrates the second pivot hole and the first pivot hole and is locked into the locking hole by the locking part.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a side cross-sectional view of a portion of the internal construction of the present invention.

Fig. 3 is a partially exploded perspective view of the present invention.

Fig. 4 is a rear sectional view of a partial internal configuration of the present invention.

Fig. 5 is a schematic cross-sectional view of a pressure shaft rotating member of the present invention.

FIG. 6 is a side cross-sectional view of a partial internal structure of the present invention in rotation.

Wherein, the reference numbers:

1 support unit

10 base

11 support rod

110 first bar

111 second bar

2 mirror display panel

20 display surface

21 back side

210 rotating shaft seat

211 open pore

22 electric cable

3 pressure shaft rotating component

30 first rotating part

300 routing space

301 contact surface

301a first pivot hole

302 limiting arc edge

302a limiting part

303 pivot edge

31 second axis rotation part

310 half axle part

310a second pivot hole

310b groove

310c abutting edge

311 half axle part

311a locking hole

311b groove

311c against the edge

32 pivot

320 pivot part

321 locking part

33 packing piece

Detailed Description

For those skilled in the art to further understand the features and technical content of the present invention, refer to the following detailed description and drawings, which are provided for reference and illustration purposes only and are not intended to limit the present invention.

Fig. 1 is a perspective view of the present invention. The invention provides a pressure shaft rotating type electronic mirror device, which comprises a supporting unit 1, a mirror display panel 2 and a pressure shaft rotating member 3; the supporting unit 1 is used to support and support the mirror display panel 2 on a desktop, so that the mirror display panel 2 can be placed in front of a user, and the pressure shaft rotating member 3 is connected between the supporting unit 1 and the mirror display panel 2, so that the mirror display panel 2 can adjust the angle of the mirror display panel facing the user, thereby facilitating the user to watch the mirror display panel.

Referring to fig. 2, the supporting unit 1 mainly includes a base 10 and a supporting rod 11 vertically disposed on the base 10. The rod 11 can be composed of a first rod 110 and a second rod 111, and the second rod 111 can be movably sleeved in the first rod 110, so as to extend out of the first rod 110 to raise the height, or retract into the first rod 110 to lower the height. In addition, the base 10 can be provided with the circuit board and its electronic components (not shown) required by the mirror display panel 2, and the support rod 11 is hollow and connected to the inside of the base 10.

As mentioned above, the mirror display panel 2 has a display surface 20 and a back side surface 21 opposite to the display surface 20, the display surface 20 can shoot the image of the user through a shooting head (not shown), and the shot image of the user is reflected or reflected to be displayed on the display surface 20; meanwhile, a display module (not shown) is also disposed in the mirror display panel 2, and an image generated by the display module can be displayed through the display surface 20.

The pressure shaft rotating member 3 includes a first rotating portion 30 and a second rotating portion 31 pivotally connected to each other, and a pivot 32 pivotally connecting the first and second rotating portions 30, 31, the first rotating portion 30 is disposed on the back side 21 of the mirror display panel 2, and the second rotating portion 31 is disposed on one end of the support rod 11 of the support unit 1, so that the support unit 1 and the mirror display panel 2 are coupled by the pivotal connection of the first and second rotating portions 30, 31, and the mirror display panel 2 can adjust its angle facing a user.

Referring to fig. 3, the first rotating portion 30 has a wiring space 300 therein and is connected to the mirror display panel 2, so that a cable 22 connected from the inside of the mirror display panel 2 can extend into the rod 11 of the supporting unit 1 through the wiring space 300 and then electrically connected to the circuit board in the base 10. The first rotating part 30 has at least one contact surface 301 pivotally engaged with the second rotating part 31, and the second rotating part 31 is corresponding to the first rotating part 30 through the contact surface 301 and pivotally connected to each other by the pivot 32; as shown in fig. 4 and 5, in the embodiment of the present invention, the second rotating portion 31 may include two half shaft portions 310 and 311 disposed at an interval, so that the first rotating portion 30 is disposed between the two half shaft portions 310 and 311, the first rotating portion 30 corresponds to the two half shaft portions 310 and 311 through the contact surface 301 outside the two sides, the first rotating portion 30 has a first pivot hole 301a penetrating the contact surface 301, one half shaft portion 310 of the second rotating portion 31 has a corresponding second pivot hole 310a, the other half shaft portion 311 has a locking hole 311a, the pivot 32 has a pivot portion 320 and a locking portion 321 extending from the end of the pivot portion 320, the pivot 32 penetrates the second pivot hole 310a and the first pivot hole 301a through the pivot portion 320 and is locked into the locking hole 311a by the locking portion 321, the locking portion 321 and the locking hole 311a are screwed into each other, to pivotally connect the first and second pivoting portions 30 and 31.

Referring to fig. 3 and 5, in addition, a packing member 33 is disposed between the first and second rotating portions 30 and 31, wherein the packing member 33 can be a rubber ring and is mainly attached to the contact surface 301 of the first rotating portion 30; more specifically, the second shaft half portions 310 and 311 of the second shaft portion 31 are both provided with grooves 310b and 311b corresponding to the contact surface 301, the grooves 310b and 311b can be arranged in a ring shape for embedding and positioning a rubber ring (i.e. the packing member 33), and the second shaft half portions 310 and 311 respectively correspond to the contact surface 301 outside the two sides of the first shaft portion 30, and further can be used as a pressure adjustment with the first shaft portion 30 through the packing member 33, so that the pressure shaft member 3 can generate a stepless positioning effect when providing the above-mentioned angle adjustment of the mirror display panel, as shown in fig. 6.

In addition, as shown in fig. 2 and fig. 3, the first rotating portion 30 may also have a limiting arc edge 302, a limiting portion 302a is disposed above the limiting arc edge 302, and two half shaft portions 310 and 311 of the second rotating portion 31 are respectively disposed with abutting edges 310c and 311c corresponding to the limiting arc edge 302 and sliding outside the arc surface; when the angle of the mirror display panel 2 is adjusted, the distance that the abutting edges 310c, 311c can slide on the limiting arc edge 302 is used as the adjustable angle range until the abutting edges 310c, 311c abut against the limiting portion 302a, so as to prevent the mirror display panel 2 from turning excessively and damaging the cable 22 passing through the inside of the pressure shaft rotating member 3. Furthermore, a rotating shaft seat 210 may be further disposed on the back side 21 of the mirror display panel 2, and the first rotating portion 30 is pivotally disposed on the rotating shaft seat 210, i.e. the rotating shaft seat 210 is disposed with an opening 211 for the first rotating portion 30 to pass through, and the first rotating portion 30 is disposed with a pivot edge 303 pivotally coupled with the opening 211, so that the mirror display panel 2 and the first rotating portion 30 can further rotate, thereby providing a function of turning the mirror display panel 2.

Therefore, the pressure axis rotation type electronic mirror device of the invention can be obtained by the above structure composition.

However, the above description is only a preferred and practical embodiment of the present invention, and not intended to limit the scope of the present invention. The present invention is capable of other embodiments, and various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.