CN111818321A

CN111818321A - 3D camera

Info

Publication number: CN111818321A
Application number: CN202010667907.9A
Authority: CN
Inventors: 金情芬; 李涵
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-13
Filing date: 2020-07-13
Publication date: 2020-10-23

Abstract

The invention relates to the field of cameras, in particular to a 3D camera which comprises a rectangular shell, a camera lens, an adjusting structure, a glass sheet blowing structure and a wiping structure, wherein the glass sheet blowing structure is connected to the rectangular shell, the glass sheet blowing structure comprises ventilation pipes, an induced draft fan, a T-shaped air guide pipe and glass sheets, the glass sheets are arranged in the area, close to an open area, of the rectangular shell, the induced draft fan is arranged on two side faces of the rectangular shell respectively, an inlet and an outlet of the induced draft fan are communicated with the T-shaped air guide pipe respectively, the transverse side walls of the T-shaped air guide pipe are communicated with a plurality of ventilation pipes respectively, and the other end of each ventilation pipe is communicated with the side. The 3D camera provided by the invention has the advantages that through the glass sheet blowing structure, air in the tail area of the camera lens can be pumped out, the pumped air is blown to be scattered on the outer surface of the glass sheet, dust accumulation on the outer surface of the glass sheet can be reduced, heat in the rectangular shell can be pumped out, and the heat dissipation effect is ensured.

Description

3D camera

Technical Field

The invention relates to the field of cameras, in particular to a 3D camera.

Background

The camera is also called a computer camera, a computer eye, an electronic eye and the like, is a video input device, and is widely applied to aspects such as video conferences, telemedicine, real-time monitoring and the like.

To the camera of the control material process that uses inside the high temperature factory building, because the inside dust of mill is more to the temperature is higher, often install the camera in the material department of factory building and monitor the processing process, and the 3D camera is installed and is used in the eminence, long-time the use, the dust is piled up easily in the 3D camera region, often need maintain the workman and be located the eminence and clean, perhaps regular dismouting clearance, the operation is comparatively loaded down with trivial details, high altitude construction exists danger. Therefore, there is a need to provide a new 3D camera to solve the above technical problems.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a 3D camera.

The technical scheme adopted by the invention for solving the technical problems is as follows: A3D camera comprises a rectangular shell, an adjusting structure, a glass sheet blowing structure and a wiping structure, wherein one side surface of the rectangular shell is provided with an opening, and a camera lens is arranged in the rectangular shell close to the opening; the adjusting structure is connected to the rectangular shell; the glass sheet blowing structure is connected to the rectangular shell and comprises ventilation pipes, an induced draft fan, a T-shaped air guide pipe and glass sheets, the glass sheets are arranged in the area, close to the open area, of the rectangular shell, the induced draft fan is arranged on two side faces of the rectangular shell respectively, an inlet and an outlet of the induced draft fan are communicated with the T-shaped air guide pipe respectively, the transverse side walls of the T-shaped air guide pipe are communicated with the ventilation pipes respectively, the other ends of one group of ventilation pipes are communicated with the side face of the tail portion of the rectangular shell, and the other ends of the other group of ventilation pipes extend to the side wall; the wiping structure is connected to the rectangular housing.

Preferably, adjust the structure and include L shape pole, the mounting panel, a supporting plate, the riser, T shape rotation axis, rectangular rotation axis and U-shaped board, rectangle form casing bottom central point puts and connects the riser, the mounting panel is located the below of rectangle form casing and sets up perpendicularly with rectangle form casing, the L shape pole joint support board that the terminal surface set up through two symmetries before the mounting panel, the inside rotary groove that is equipped with the round platform shape of support plate surface, T shape rotation axis rotates with the rotary groove that is round platform shape to be connected, T shape rotation axis other end fixed connection U-shaped board, the riser is inserted and is established and rotate through rectangular rotation axis and U-shaped board in the U-shaped inboard.

Preferably, four mounting holes are formed in the mounting plate, the mounting holes are arranged in a rectangular mode, the T-shaped rotating shaft and the rotary outer side wall of the round table-shaped rotating shaft are connected with the first damping rubber pad, and the rotary end of the long rotating shaft is connected with the second damping rubber pad.

Preferably, clean the structure and include the rectangle box, the apron, a motor, the belt, the clearance roller bearing, the belt pulley, slip elastic block and lead screw, rectangle form casing top surface connection rectangle box, the rectangle box is close to the bottom surface that rectangle form casing is open regional and is equipped with the dead slot, rectangle form casing is close to open regional bottom and rotates and connect two lead screws, the lead screw is located the place ahead of glass piece and the inside that the top extended to the rectangle box, the internally mounted that the lead screw is located the rectangle box has the belt pulley, two belt pulleys pass through belt transmission and connect, top installation motor in the rectangle box, the output and the adjacent lead screw of motor are connected, the lead screw is located the inside threaded connection slip elastic block that still of rectangle box, the clearance roller bearing is installed between two slip elastic blocks, the terminal surface that the rectangle box is close to the lead.

Preferably, the clearance roller bearing both ends face is connected the card post, and the terminal surface is equipped with card post assorted arc wall before the slip elasticity piece, the bottom surface that the open side region was kept away from to rectangle form casing is equipped with a plurality of louvre.

Compared with the related art, the 3D camera provided by the invention has the following beneficial effects:

(1) the invention provides a 3D camera, which can be used for pumping out air in the tail area of a camera lens through a glass sheet blowing structure, the pumped air is blown to be scattered on the outer surface of a glass sheet, dust accumulation on the outer surface of the glass sheet can be reduced, heat in a rectangular shell can be pumped out, the heat dissipation effect is ensured, in autumn and winter, frost and dew accumulated on the surface of the glass sheet can be quickly dried in the air, and the shooting process of the camera lens is not blocked.

(2) The invention provides a 3D camera, which is characterized in that the inclination adjustment of a rectangular shell is completed through an adjusting structure, the rectangular shell is shifted left and right, a T-shaped rotating shaft completes rotation inside a round table-shaped rotating groove, so that horizontal rotation is completed, left and right deviation adjustment can be completed, a first damping rubber pad and a second damping rubber pad have friction in the adjusting process, the angle can not be changed by self gravity after the adjustment is completed, the placement stability after the adjustment is kept, the glass sheet wiping process can be completed through a wiping structure, the surface of the glass sheet is wiped cleanly, and a motor is arranged at a low position through an external circuit, so that a worker does not need to climb to a high position for wiping construction, the operation is safer, and the operation is convenient.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a 3D camera according to the present invention;

FIG. 2 is a side view partially schematic of the rectangular housing and rectangular box of FIG. 1;

fig. 3 is a partially enlarged schematic view of a portion a shown in fig. 1.

Reference numbers in the figures: 1. a rectangular housing; 2. a camera lens; 3. an adjustment structure; 4. a glass sheet blowing structure; 5. a wiping structure; 31. an L-shaped rod; 32. mounting a plate; 33. a support plate; 34. a vertical plate; 35. a T-shaped rotating shaft; 36. a strip rotation axis; 41. a vent pipe; 42. an induced draft fan; 43. a T-shaped air guide pipe; 44. a glass sheet; 51. a rectangular box; 52. a cover plate; 53. an electric motor; 54. clamping the column; 55. a belt; 56. cleaning the rolling shaft; 57. a belt pulley; 58. a sliding elastic block; 59. and a screw rod.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Referring to fig. 1, 2 and 3 in combination, a 3D camera includes a rectangular casing 1, a camera lens 2, an adjusting structure 3, a glass sheet blowing structure 4 and a wiping structure 5, wherein one side surface of the rectangular casing 1 is open, the camera lens 2 is installed inside the rectangular casing 1 close to the open, the glass sheet blowing structure 4 is connected to the rectangular casing 1, the glass sheet blowing structure 4 includes a ventilation pipe 41, an induced draft fan 42, a T-shaped air guide pipe 43 and a glass sheet 44, the glass sheet 44 is installed inside the rectangular casing 1 close to the open area, the induced draft fan 42 is installed on the two side surfaces of the rectangular casing 1, the inlet and the outlet of the induced draft fan 42 are respectively communicated with the T-shaped air guide pipe 43, the lateral side walls of the T-shaped air guide pipe 43 are respectively communicated with a plurality of ventilation pipes 41, and the other ends of a group of ventilation pipes 41 are communicated with the lateral side, the other end of another group of ventilation pipes 41 extends to the lateral wall of the outer surface of the glass sheet 44, it should be noted that the draught fans 42 on the two sides of the rectangular shell 1 can be opened through the ventilation pipes, the air in the tail area of the camera lens 2 can be pumped out, the pumped air is blown off to the outer surface of the glass sheet 44, the dust accumulation on the outer surface of the glass sheet 44 can be reduced, the heat inside the rectangular shell 1 can be pumped out, the heat dissipation effect is guaranteed, autumn and winter are achieved, frost and dew accumulated on the surface of the glass sheet 44 can be quickly air-dried, the camera shooting process is not shielded, the wiping structure 5 is opened at regular intervals, the glass sheet 44 is wiped, the glass sheet 44 can be kept clean, surface rain columns can be wiped, the glass sheet 44 is kept clean, the camera is kept clear, the whole camera is not required to be.

Referring to fig. 1, the adjusting structure 3 is connected to the rectangular casing 1, the adjusting structure 3 includes an L-shaped rod 31, a mounting plate 32, a supporting plate 33, a vertical plate 34, a T-shaped rotating shaft 35, a long rotating shaft 36 and a U-shaped plate 37, the vertical plate 34 is connected to a central position of the bottom of the rectangular casing 1, the mounting plate 32 is located below the rectangular casing 1 and is perpendicular to the rectangular casing 1, a front end surface of the mounting plate 32 is connected to the supporting plate 33 through two L-shaped rods 31 which are symmetrically arranged, a circular truncated cone-shaped rotating groove is arranged inside a surface of the supporting plate 33, the T-shaped rotating shaft 35 is rotatably connected to the circular truncated cone-shaped rotating groove, the other end of the T-shaped rotating shaft 35 is fixedly connected to the U-shaped plate 37, the vertical plate 34 is inserted inside the U-shaped plate 37 and is rotatably connected to the U-shaped plate 37 through the long rotating shaft 36, it should be noted that, thereby can rotate rectangle form casing 1 around can, accomplish the slope of rectangle form casing 1 and adjust, stir rectangle form casing 1 through controlling, T shape rotation axis 35 accomplishes the rotation in round platform shape swivelling chute inside to accomplish the horizontal direction and rotate, can accomplish and control skew the regulation. Set up the mounting hole that four rectangles set up on the mounting panel 32, first damping rubber pad is connected with the rotatory lateral wall of round platform shape rotation axis to T shape rotation axis 35, and second damping rubber pad is connected to the rotatory end of rectangular rotation axis 36, and it needs to explain, first damping rubber pad and second damping rubber pad effect can let accommodation process have frictional force, and the regulation is accomplished the back, can not receive self gravity and change the angle, keeps adjusting the back and places stability.

Referring to fig. 1 and 3, the wiping structure 5 is connected to the rectangular casing 1, the wiping structure 5 includes a rectangular box 51, a cover plate 52, a motor 53, a belt 55, a cleaning roller 56, a belt pulley 57, a sliding elastic block 58 and a screw rod 59, the rectangular box 51 is connected to the top surface of the rectangular casing 1, a hollow groove is formed in the bottom surface of the rectangular box 51 near the open area of the rectangular casing 1, two screw rods 59 are rotatably connected to the bottom of the rectangular casing 1 near the open area, the screw rod 59 is located in front of the glass sheet 44 and extends to the inside of the rectangular box 51, the belt pulley 57 is installed inside the rectangular box 51, the two belt pulleys 57 are in transmission connection through the belt 55, the motor 53 is installed at the top inside of the rectangular box 51, the output end of the motor 53 is connected to the adjacent screw rod 59, the screw rod 59 is located inside the rectangular box 51 and is further in, cleaning roller 56 installs between two slip elastic blocks 58, the terminal surface that rectangle box 51 is close to lead screw 59 is uncovered setting and the cover is equipped with apron 52, it is required to explain, open motor 53, pass through belt 55 transmission through two belt pulleys 57 and connect, thereby drive two synchronous rotations of lead screw 59, thereby let slip elastic block 58 make progress or move down, thereby drive cleaning roller 56 and make progress or move down, can accomplish glass piece 44 and clean the process, clean glass piece 44 surface cleaning, through external circuit, make motor 53's switch setting low, do not need the staff to climb the eminence and clean the construction, the operation is safer, and be convenient for operate.

Referring to fig. 1 and 3, the two end faces of the cleaning roller 56 are connected to the clamping posts 54, the front end face of the sliding elastic block 58 is provided with arc-shaped grooves matched with the clamping posts 54, and it should be noted that the whole cleaning roller 56 is pulled outwards by moving out the cover plate 52, so that the clamping posts 54 can be moved out from the inside of the arc-shaped grooves, and can be detached and replaced. Rectangular form casing 1 keeps away from the regional bottom surface of uncovered side and is equipped with a plurality of louvre, it needs to explain, can the inside circulation of air of rectangular form casing 1, guarantees that draught fan 42 bleeds the interior external pressure of in-process and is balanced.

The working principle is as follows: the draught fans 42 on the two sides of the rectangular shell 1 can be opened to draw out air in the tail area of the camera lens 2, the drawn air is blown away on the outer surface of the glass sheet 44, dust accumulation on the outer surface of the glass sheet 44 can be reduced, heat in the rectangular shell 1 can be drawn out, the heat dissipation effect is guaranteed, in autumn and winter, frost and dew accumulated on the surface of the glass sheet 44 can be quickly dried in the air, the camera shooting process is not shielded, the wiping structure 5 is periodically opened to wipe the glass sheet 44, and the glass sheet 44 can be kept clean; by dialing up or down the front end of the rectangular casing 1, the vertical plate 34 rotates in the U-shaped plate 37 through the long rotation shaft 36, so that the rectangular casing 1 can be rotated back and forth, the inclination adjustment of the rectangular casing 1 is completed, the rectangular casing 1 is dialed left and right, the rotation of the T-shaped rotation shaft 35 is completed in the circular truncated cone-shaped rotary groove, the rotation in the horizontal direction is completed, and the left and right deviation adjustment can be completed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The 3D camera is characterized by comprising a rectangular shell (1), an adjusting structure (3), a glass sheet blowing structure (4) and a wiping structure (5), wherein one side surface of the rectangular shell (1) is arranged in an open manner, and a camera lens (2) is arranged in the rectangular shell (1) close to the open manner; the adjusting structure (3) is connected to the rectangular shell (1); the glass sheet blowing structure (4) is connected to the rectangular shell (1), the glass sheet blowing structure (4) comprises ventilation pipes (41), an induced draft fan (42), a T-shaped air guide pipe (43) and glass sheets (44), the glass sheets (44) are installed inside the area, close to the opening area, of the rectangular shell (1), the induced draft fan (42) is installed on the two side faces of the rectangular shell (1) respectively, an inlet and an outlet of the induced draft fan (42) are communicated with the T-shaped air guide pipe (43) respectively, the transverse side walls of the T-shaped air guide pipe (43) are communicated with the ventilation pipes (41) respectively, the other ends of one group of ventilation pipes (41) are communicated with the side face of the tail portion of the rectangular shell (1), and the other ends of the other group of ventilation pipes (41) extend; the wiping structure (5) is connected to the rectangular housing (1).

2. 3D camera according to claim 1, characterized in that the adjusting structure (3) comprises an L-shaped bar (31), a mounting plate (32), a support plate (33), riser (34), T shape rotation axis (35), rectangular rotation axis (36) and U-shaped board (37), rectangle form casing (1) bottom central point puts and connects riser (34), mounting panel (32) are located the below of rectangle form casing (1) and set up perpendicularly with rectangle form casing (1), L shape pole (31) joint support board (33) that the terminal surface set up through two symmetries before mounting panel (32), backup pad (33) inside surface is equipped with the rotary groove of round platform shape, T shape rotation axis (35) rotate with the rotary groove of round platform shape and are connected, T shape rotation axis (35) other end fixed connection U-shaped board (37), riser (34) are inserted and are established U-shaped board (37) inside to rotate with U-shaped board (37) through rectangular rotation axis (36) and be connected.

3. The 3D camera according to claim 2, characterized in that the mounting plate (32) is provided with four mounting holes arranged in a rectangular shape, the T-shaped rotating shaft (35) and the rotary outer side wall of the truncated cone-shaped rotating shaft are connected with a first damping rubber pad, and the rotary end of the long rotating shaft (36) is connected with a second damping rubber pad.

4. The 3D camera according to claim 1, wherein the wiping structure (5) comprises a rectangular box (51), a cover plate (52), a motor (53), a belt (55), a cleaning roller (56), a belt pulley (57), a sliding elastic block (58) and a screw rod (59), the rectangular box (51) is connected to the top surface of the rectangular shell (1), a hollow groove is formed in the bottom surface of the rectangular box (51) close to an open area of the rectangular shell (1), the rectangular shell (1) is rotatably connected with the two screw rods (59) close to the bottom in the open area, the screw rod (59) is located in front of the glass sheet (44) and the top end of the screw rod extends into the rectangular box (51), the belt pulley (57) is installed in the rectangular box (51), the two belt pulleys (57) are in transmission connection through the belt (55), the motor (53) is installed at the top in the rectangular box (51), the output end of the motor (53) is connected with the adjacent screw rod (59), the screw rod (59) is located inside the rectangular box (51) and is further in threaded connection with the sliding elastic block (58), the cleaning roller (56) is installed between the two sliding elastic blocks (58), and the end face, close to the screw rod (59), of the rectangular box (51) is arranged in an open mode and is provided with the cover plate (52) in a sleeved mode.

5. The 3D camera according to claim 4, wherein two end faces of the cleaning roller (56) are connected with the clamping columns (54), an arc-shaped groove matched with the clamping columns (54) is formed in the front end face of the sliding elastic block (58), and a plurality of heat dissipation holes are formed in the bottom surface of the rectangular shell (1) far away from the open side area.