CN210965202U - Imaging device for console and console - Google Patents

Abstract

The utility model discloses a camera device and operation panel for operation panel. Based on the above embodiment, the camera device includes the first camera module and the second camera module that intersect the shooting visual field, so that the operation process occurring in the intersection region of the shooting visual fields can be performed with stereo shooting in two directions. Moreover, the first camera module and the second camera module are respectively accommodated in the inner cavities of the support rod and the suspension rod, so that concealed shooting can be realized.

Description

Imaging device for console and console

Technical Field

The utility model relates to a camera technique, in particular to an operation panel that is used for camera device of operation panel and applied this mechanism of making a video recording.

Background

In the prior art, a console for manually performing operations, such as a laboratory bench, may be provided with a camera for photographing the operation processes occurring at the console.

However, in the prior art, a single-camera arrangement scheme of a lens straight-face operator is often adopted, such an arrangement scheme can only achieve single-plane shooting of an operation process, and moreover, the lens of the straight-face operator is easy to interfere with the operator.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a camera device for operation panel, include:

the camera module comprises a supporting rod, a first camera module and a second camera module, wherein a first camera module is arranged in an inner cavity of the supporting rod, and the supporting rod is provided with a first perspective window which exposes the shooting view field of the first camera module;

the suspension rod is provided with a second camera module in an inner cavity and a second perspective window for exposing the shooting visual field of the second camera module;

the suspension rod is arranged on the support rod, and the shooting visual field exposed by the first camera module through the first perspective window is intersected with the shooting visual field exposed by the second camera module through the second perspective window.

Optionally, the support rod comprises a first rod-shaped cavity shell with a side opening, and a first decorative plate with the first transparent window, wherein the first decorative plate covers the side opening of the first rod-shaped cavity shell; the suspension rod comprises a second rod-shaped cavity shell with a side opening and a second decorative plate with a second perspective window, wherein the second decorative plate covers the side opening of the second rod-shaped cavity shell.

Optionally, the first decorative board includes a first light-transmitting substrate, wherein the surface of the first light-transmitting substrate has a first light-shielding printed layer coated intermittently, and the first transparent window is located at the coating interval of the first light-shielding printed layer; the second decorative plate comprises a second light-transmitting substrate, wherein a second shading printing layer which is coated intermittently is arranged on the surface of the second light-transmitting substrate, and the second transparent window is positioned at the brushing interval of the second shading printing layer.

Optionally, a first support bracket row group is further arranged in the first rod-shaped cavity shell, and the first decorative plate is supported by the first support bracket row group at the side opening of the first rod-shaped cavity shell; a second support bracket row is further mounted within the second rod-shaped chamber shell, and the second decorative plate is supported by the second support bracket row at the side opening of the second rod-shaped chamber shell.

Optionally, the first support bracket row set is mounted on the first rod-shaped cavity shell in a screwing and/or bonding manner, and the second support bracket row set is mounted on the second rod-shaped cavity shell in a screwing and/or bonding manner.

Optionally, the first decorative plate is bonded to the first support bracket row group, and the second decorative plate is bonded to the second support bracket row group.

Optionally, each of the first support bracket row group and the second support bracket row group includes a combination of a first sheet metal preforming bracket and a second sheet metal preforming bracket, wherein the length of the first sheet metal preforming bracket is greater than the length of the second sheet metal preforming bracket: the first support bracket row group comprises one first sheet metal preforming bracket arranged on one side, close to the suspension rod, of the first camera module and two second sheet metal preforming brackets arranged on one side, far away from the suspension rod, of the first camera module; the second support bracket row group comprises a first metal plate performing bracket and a second metal plate performing bracket, wherein the second camera module is close to one side of the support rod, the first metal plate performing bracket is arranged on the second support bracket row group, and the second camera module is far away from one side of the support rod.

Optionally, the bottom end of the support rod has a mounting coil.

Optionally, the inner cavity of the suspension rod is communicated with the inner cavity of the support rod, the inner cavity of the support rod is communicated with the lumen of the installation solenoid, and the connection harness of the first camera module and the connection harness of the second camera module are led out from the installation solenoid.

Optionally, the bottom end of the support rod is further provided with a decorative washer.

Optionally, the suspension rod is connected with the support rod by a screw connection.

Optionally, the suspension rod is mounted on the top end of the support rod.

Optionally, the suspension bar is perpendicular to the support bar.

Optionally, each of the first camera module and the second camera module includes an image sensor and a lens.

Another embodiment of the present invention provides an operation table, comprising a table plate and the camera device installed on the table plate according to the foregoing embodiment.

Based on the above embodiment, the camera device includes the first camera module and the second camera module that intersect the shooting visual field, so that the operation process occurring in the intersection region of the shooting visual fields can be performed with stereo shooting in two directions. Moreover, the first camera module and the second camera module are respectively accommodated in the inner cavities of the support rod and the suspension rod, so that concealed shooting can be realized.

Drawings

The following drawings are only schematic and explanatory and do not limit the scope of the present invention:

fig. 1 is a schematic view of an assembly structure of an image pickup device for an operation table according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the assembled structure shown in FIG. 1;

fig. 3 is a schematic view showing a state where the image pickup apparatus shown in fig. 1 is detached from the platen;

fig. 4 is a schematic wiring diagram of an image pickup device for an operation console according to an embodiment of the present invention;

fig. 5 is an exploded schematic view of an image capturing device in an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

fig. 7 is a partially enlarged view of fig. 5 at B.

Description of the reference numerals

10 support rod

100 first perspective window

11 first rod-like housing

111 first strip-shaped back plate

112 first containment flap

12 first decorative board

20 suspension rod

200 second perspective window

21 second rod-shaped cavity housing

211 second strip-shaped back plate

212 second surrounding flange

213 installation turnup

22 second decorative board

30 connecting harness

31 first camera module

32 second camera module

40a first sheet metal preforming bracket

40a-1 support frame

40a-2 screw joint support leg

40a-3 adhesive foot

40b second sheet metal preforming bracket

40b-1 support sheet

40b-2 screw connection support leg

41 first support bracket row group

42 second support bracket row group

50 installation solenoid

60 mounting nut

70 decorative washer

81 first mounting screw

82 second mounting screw

90 bedplate

900 mounting hole

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of an assembly structure of an image pickup apparatus for an operation console according to an embodiment of the present invention. Fig. 2 is a cross-sectional view of the assembled structure shown in fig. 1. Referring to fig. 1 in conjunction with fig. 2, in one embodiment, an image capturing apparatus for an operation table may include:

a support bar 10, in which a first camera module 31 is installed in an inner cavity of the support bar 10, and the support bar 10 has a first transparent window 100 exposing a shooting view of the first camera module 31;

a suspension rod 20, in which a second camera module 32 is installed in an inner cavity of the suspension rod 20, and the suspension rod 20 has a second transparent window 200 exposing a photographing field of view of the second camera module 31;

the suspension rod 20 is mounted on the support rod 10, and the shooting field of view of the first camera module 31 exposed through the first transparent window 100 intersects with the shooting field of view of the second camera module 32 exposed through the second transparent window 200.

For example, each of the first camera module 31 and the second camera module 32 may include an image sensor and a lens, and the intersection of the shooting fields of view of the first camera module 31 and the second camera module 32 may be regarded as the overlapping of the lens fields of view of the first camera module 31 and the second camera module 32.

Based on the above structure, the image pickup apparatus includes the first camera module 31 and the second camera module 32 in which the photographing fields of view intersect, and thus it is possible to perform stereoscopic photographing in two directions for an operation process occurring in the intersection region of the photographing fields of view. Also, the first camera module 31 and the second camera module 32 are respectively received in the inner cavities of the support bar 10 and the suspension bar 20, so that concealed photographing can be achieved.

This embodiment is only an example in which the suspension bar 20 is installed at the top end of the support bar 10 and the suspension bar 20 is perpendicular to the support bar 10, but it is understood that the suspension bar 20 may be installed at the middle of the support bar 10 and/or the suspension bar 20 and the support bar 10 may be alternatively arranged to intersect at a non-perpendicular angle as long as the first camera module 31 and the second camera module 32 may intersect.

The vertical height of the first camera module 31 from the bedplate 90 may be 200mm, the vertical height of the second camera module 32 from the bedplate 90 may be 600mm, and the horizontal distance between the first camera module 31 and the second camera module 32 may be 350mm, but the exemplary values of the distance settings should not be understood as unnecessary limitations on the layout position, and the dimensions of the first transparent window 100 and the second transparent window 200 may be set according to the dimensions of the support bar 10 and the suspension bar 20 and the specifications of the first camera module 31 and the second camera module 32, for example, the dimensions of the first transparent window 100 and the second transparent window 200 may be set to 50mm × 50mm, or may be set to other dimensions.

Fig. 3 is a schematic view showing a state where the imaging device shown in fig. 1 is detached from the platen. Referring to fig. 3 and back to fig. 1 and 2, the camera device may be mounted above a platen 90 of the console. Specifically, the bottom end of the support rod 10 may have a mounting screw 50, and the mounting screw 50 may pass through the mounting hole 900 of the bedplate 90 and extend into the lower part of the bedplate 90 to be in threaded connection with the mounting nut 60, so that the support rod 10 may be fixed on the bedplate 90 by the bottom end of the support rod 10 and the mounting nuts 60 being clamped on the upper and lower sides of the bedplate 90, thereby realizing the installation of the image pickup device on the bedplate 90. In addition, the bottom end of the support pole 10 may be further provided with a decorative washer 70 for covering the gap between the bottom end of the support pole 10 and the bedplate 90. In practical applications, the decorative washer 70 may be made of silicone.

Fig. 4 is a schematic wiring diagram of an image pickup device for an operation console according to an embodiment of the present invention. Referring to fig. 4, the inner cavity of the suspension rod 20 is communicated with the inner cavity of the support rod 10, the inner cavity of the support rod 10 is communicated with the lumen of the installation screw 50, and the connection harness 30 of the first camera module 31 and the second camera module 32 can be led out from the installation screw 50.

When the above-described image pickup apparatus is specifically implemented, the support rod 10 and the suspension rod 20 as the main body portion may be made of a metal plate material and may be supplemented with other materials.

Fig. 5 is an exploded schematic view of an image capturing device in an embodiment of the present invention. Fig. 6 is a partially enlarged view of a portion a in fig. 5. Fig. 7 is a partially enlarged view of fig. 5 at B.

Referring to fig. 5, the support rod 10 may include a first rod-shaped cavity shell 11 having an open side, and the first rod-shaped cavity shell 11 may be formed by bending a sheet metal, that is, the first rod-shaped cavity shell 11 may have a first strip-shaped back plate 111 and surrounding flanges 112 bent at a bottom end and two sides of the strip-shaped back plate. Similarly, the suspension rod 20 may include a second rod-shaped cavity shell 21 with a side opening, and the second rod-shaped cavity shell 21 may also be formed by bending a sheet metal, that is, the second rod-shaped cavity shell 21 may also have a second strip-shaped back plate 211 and a surrounding flange 212 bent at the far end of the second strip-shaped back plate 211 away from the support rod 10 and at two sides.

Referring to fig. 6 in conjunction with fig. 5, the first strip-shaped back plate 111 and the surrounding flange 112 of the first rod-shaped cavity shell 11 are provided with screw holes at the top end of the support rod 10, and correspondingly, the second rod-shaped cavity shell 21 is further provided with a mounting flange 213 at the end of the suspension rod 20 facing the support rod 10, and the mounting flange 213 is provided with screw holes and the surrounding flange 212 is also provided with screw holes at the end, so that the suspension rod 20 and the support rod 10 can be connected by screwing through the first mounting screws 81 inserted into the screw holes.

When actually installed, the side opening of the first rod chamber housing 11 is directed toward the side where the suspension rod 20 is located, and the side opening of the second rod chamber housing 21 is directed downward.

Referring to fig. 7 in conjunction with fig. 5, the first camera module 31 may be screwed to the first rod-shaped cavity housing 11 by the second mounting screw 82, for example, screwed to the first strip-shaped back plate 111 of the first rod-shaped cavity housing 11. Although not shown in the drawings, the second camera module 32 may also be screwed to the second rod-shaped cavity housing 21, for example, screwed to the second strip-shaped back plate 211 of the second rod-shaped cavity housing 21.

In addition, referring back to fig. 3, the first rod-shaped cavity shell 11 is further provided with a first support bracket row 41, and the second rod-shaped cavity shell 21 is further provided with a second support bracket row 42, wherein the first support bracket row 41 can be mounted on the first rod-shaped cavity shell 11 by screwing and/or bonding, and the second support bracket row 42 can also be mounted on the second rod-shaped cavity shell 21 by screwing and/or bonding.

In order to improve the versatility of the parts, two kinds of sheet metal preforming brackets 40a and 40b different in length may be provided, and each of the first support bracket row group 41 and the second support bracket row group 42 includes a combination of the first sheet metal preforming bracket 40a and the second sheet metal preforming bracket 40 b.

Specifically, the first support bracket group 41 includes one first sheet metal preforming bracket 40a arranged on the side of the first camera module 31 close to the suspension rod 20, and two second sheet metal preforming brackets 40b arranged on the side of the first camera module 31 far from the suspension rod 20; the second support bracket row 42 includes a first sheet metal preforming bracket 40a arranged on a side of the second camera module 32 close to the support bar 10 and a second sheet metal preforming bracket 40b arranged on a side of the second camera module 32 away from the support bar 10.

The length of the first sheet metal preforming bracket 40a is greater than that of the second sheet metal preforming bracket 40 b. The first sheet metal preforming bracket 40a has a support frame 40a-1, screw-coupling legs 40a-2 at both ends of the support frame 40a-1, and bonding legs 40a-3 spaced apart along both side edges of the support frame 40 a-1. The second sheet metal preformed bracket 40b may have support tabs 40b-1 and threaded legs 40b-2 diagonally disposed from the support tabs 40 b-1.

For the first support bracket row 41, the screw-on leg 40a-2 of the first sheet metal preforming bracket 40a and the screw-on leg 40b-2 of the second sheet metal preforming bracket 40b may be screw-connected with the first rod-shaped cavity housing 11, and the adhesive leg 40a-3 of the first sheet metal preforming bracket 40a may be adhered with the first rod-shaped cavity housing 11.

For the second support bracket row 42, the threaded leg 40a-2 of the first sheet metal preforming bracket 40a and the threaded leg 40b-2 of the second sheet metal preforming bracket 40b may be threaded with the second rod-shaped cavity housing 21, and the adhesive leg 40a-3 of the first sheet metal preforming bracket 40a may be adhered to the second rod-shaped cavity housing 21.

Referring again to fig. 5, the support pole 10 may further include a first decorative plate 12 having a first transparent window 100, and the suspension pole 20 may further include a second decorative plate 22 having a second transparent window 200. The first decorative board 12 may include a first light-transmitting substrate, the surface of which has a first light-shielding printed layer that is intermittently brushed, and the first transparent window 100 is located at the brushing interval of the first light-shielding printed layer. Similarly, the second decorative sheet 22 includes a second light-transmitting substrate having a second light-shielding printed layer intermittently brushed on a surface thereof, and the second transparent window 200 is located at an interval of brushing of the second light-shielding printed layer.

Also, the first decorative plate 12 is supported by the first support bracket row 41 at the side opening of the first rod-like chamber housing 11, so that the first decorative plate 12 covers the side opening of the first rod-like chamber housing 11. Similarly, the second decorative plate 22 is supported at the side opening of the second rod-like chamber housing 21 by the second support bracket row group 42, so that the second decorative plate 22 covers the side opening of the second rod-like chamber housing 21.

In a particular implementation, the first trim panel 12 may be bonded to the first support bracket row 41 and the second trim panel 22 may be bonded to the second support bracket row 42, for example, by double-sided adhesive bonding to the support frame 40a-1 of the first sheet metal pre-form bracket 40a and the support piece 40b-1 of the second sheet metal pre-form bracket 40 b.

While providing support to the first and second trim panels 12, 22, the first and second support bracket banks 41, 42 may clear the connection harness 30 of the first and second camera modules 31, 32.

In another embodiment, a console is provided that includes a platen 90, and an imaging device as described in the previous embodiments mounted to the platen 90.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. An image pickup apparatus for an operation table, comprising:

the camera module comprises a supporting rod (10), wherein a first camera module (31) is arranged in an inner cavity of the supporting rod (10), and the supporting rod (10) is provided with a first perspective window (100) exposing a shooting view field of the first camera module (31);

the suspension rod (20), a second camera module (32) is arranged in the inner cavity of the suspension rod (20), and the suspension rod (20) is provided with a second perspective window (200) which exposes the shooting visual field of the second camera module (32);

the suspension rod (20) is mounted on the support rod (10), and the shooting visual field exposed by the first camera module (31) through the first transparent window (100) is intersected with the shooting visual field exposed by the second camera module (32) through the second transparent window (200).

2. The image pickup apparatus according to claim 1,

the support rod (10) comprises a first rod-shaped cavity shell (11) with a side opening and a first decorative plate (12) with a first perspective window (100), wherein the first decorative plate (12) covers the side opening of the first rod-shaped cavity shell (11);

the suspension rod (20) comprises a second rod-shaped cavity shell (21) with a side opening and a second decorative plate (22) with a second perspective window (200), wherein the second decorative plate (22) covers the side opening of the second rod-shaped cavity shell (21).

3. The image pickup apparatus according to claim 2,

the first decorative plate (12) comprises a first light-transmitting substrate, wherein the surface of the first light-transmitting substrate is provided with a first shading printing layer which is coated intermittently, and the first transparent window (100) is positioned at the brushing intermittent position of the first shading printing layer;

the second decorative plate (22) comprises a second light-transmitting substrate, wherein the surface of the second light-transmitting substrate is provided with a second shading printing layer which is coated intermittently, and the second transparent window (200) is positioned at the brushing intermittent position of the second shading printing layer.

4. The image pickup apparatus according to claim 2,

a first support bracket row group (41) is further arranged in the first rod-shaped cavity shell (11), and the first decorative plate (12) is supported by the first support bracket row group (41) at the side opening of the first rod-shaped cavity shell (11);

a second support bracket row (42) is further installed in the second rod-shaped chamber shell (21), and the second decorative plate (22) is supported by the second support bracket row (42) at a side opening of the second rod-shaped chamber shell (21).

5. The imaging device according to claim 4, wherein the first support bracket row (41) is attached to the first rod-shaped chamber housing (11) by screwing and/or bonding, and the second support bracket row (42) is attached to the second rod-shaped chamber housing (21) by screwing and/or bonding.

6. The camera device according to claim 4, wherein the first decorative plate (12) is bonded to the first support bracket row group (41), and the second decorative plate (22) is bonded to the second support bracket row group (42).

7. The imaging apparatus according to claim 4, wherein each of the first and second support bracket row groups (41, 42) comprises a combination of a first sheet metal preforming bracket (40a) and a second sheet metal preforming bracket (40b), wherein the length of the first sheet metal preforming bracket (40a) is greater than the length of the second sheet metal preforming bracket (40 b):

the first support bracket row group (41) comprises one first sheet metal preforming bracket (40a) arranged on one side, close to the suspension rod (20), of the first camera module (31) and two second sheet metal preforming brackets (40b) arranged on one side, far away from the suspension rod (20), of the first camera module (31);

the second support bracket row group (42) comprises a first metal plate preforming bracket (40a) arranged on one side of the support rod (10) close to the second camera module (32) and a second metal plate preforming bracket (40b) arranged on one side of the support rod (10) far away from the second camera module (32).

8. The camera device according to claim 1, characterized in that the bottom end of the support rod (10) has a mounting screw (50).

9. The camera device according to claim 8, characterized in that the inner cavity of the suspension rod (20) communicates with the inner cavity of the support rod (10), the inner cavity of the support rod (10) communicates with the lumen of the mounting solenoid (50), and the connection harness of the first camera module (31) and the connection harness of the second camera module (32) are led out from the mounting solenoid (50).

10. The camera device according to claim 1, characterized in that the suspension rod (20) is connected with the support rod (10) by means of screw connection; the suspension rod (20) is arranged at the top end of the support rod (10) and is perpendicular to the support rod (10).

11. A console comprising a table (90) and the image pickup apparatus according to any one of claims 1 to 10 mounted on the table (90).

Images