CN217935804U - Camera IR test equipment - Google Patents

Abstract

The utility model provides a camera IR test equipment, shell including frame and cladding frame, the inside of shell is equipped with the multistation swivel work head and encircles the overhead door that multistation swivel work head set up, hemisphere IR test module, light source test module, the overhead door is installed on the shell, the overhead door is located the top of multistation swivel work head and isolated a station in the outside of shell, make the camera that awaits measuring on the multistation swivel work head can carry out infrared function test and LED function test in proper order in no light or darkroom, the imaging test of the grey level under the infrared and the imaging test of no light to bright environment switching, and when testing at other stations, can carry out the camera that awaits measuring of material loading installation simultaneously, and the efficiency is improved.

Description

Camera IR test equipment

Technical Field

The utility model belongs to the technical field of the electronic product test technique and specifically relates to a camera IR test equipment.

Background

With the progress of modern technologies, various electronic products tend to be diversified and multifunctional, so that the performance requirements of the electronic products are higher and higher. The field of security monitoring cameras provides more requirements for night monitoring shooting, and the requirements are mainly that the security monitoring cameras can clearly detect imaging in a dark or dark environment, and whether the dark or light environment and the light environment change normally play a normal function. At present, manual testing is carried out in a dark room or a bright environment manually, so that the efficiency is low and the testing effect is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a camera IR test equipment.

In order to realize the purpose, the utility model discloses a realize through following technical scheme:

the utility model provides a camera IR test equipment, includes frame and cladding the shell of frame, the inside of shell is equipped with multistation swivel work head and encircles overhead door, hemisphere IR test module, the light source test module that multistation swivel work head set up, the overhead door is installed on the shell, the overhead door is located multistation swivel work head's top and isolated a station in the outside of shell.

Further, the multi-station rotary worktable comprises a rotary table, four clamps, four power line pushing tables, an illuminance tester and a laser range finder, wherein the four clamps, the four power line pushing tables, the illuminance tester and the laser range finder are arranged on the rotary table; four anchor clamps and four the power cord pushes away the platform and equally divide the setting just the power cord pushes away the platform and is located the rear of anchor clamps, the illuminance tester with the laser range finder is located one the both sides of anchor clamps just can be isolated simultaneously in the outside of shell.

Still further, anchor clamps include the layer board, lean on the piece before, lean on the piece on a left side, lean on the piece on the right side, lean on the piece after, backplate, first cylinder, the layer board is fixed on the revolving stage, the preceding terminal surface rigid coupling of layer board has before lean on the piece, its side end face rigid coupling respectively have a left side lean on the piece with the right side leans on the piece, the right side leans on the outside end rigid coupling of piece to have first cylinder, first cylinder with the backplate is connected, a left side is leaned on the outside end of piece to be equipped with the slide rail, slide rail and rigid coupling the connecting plate sliding connection of backplate, lean on the piece after through first spring with the backplate is connected.

Still further, the power cord pushes away the platform and includes second cylinder, 7 shape connecting plates, T shape regulating plate, power cord holder, the second cylinder is fixed on the revolving stage, 7 shape connecting plates with the operation pole of second cylinder is connected, 7 shape connecting plates with T shape regulating plate passes through screwed connection, the lower terminal surface of power cord holder with the horizontal part sliding connection of T shape regulating plate, the rear end face of power cord holder pass through the second spring with the vertical portion of T shape regulating plate is connected.

Furthermore, the lifting door comprises a door frame, a fixed door, a movable door and a third cylinder, the door frame is fixed on the rack, the outer side face of the door frame is connected with the shell, the fixed door is fixed on the upper portion of the door frame, the movable door is connected with the third cylinder arranged on the side end of the door frame, and the movable door is always positioned right above or right below the fixed door.

Furthermore, the fixed door and the movable door are both inwards concave doors and respectively comprise a door plate, a door edge and a connecting edge which are integrally formed, and two sides of the door edge are respectively perpendicular to the door plate and the connecting edge.

Furthermore, the hemisphere IR testing module comprises a bottom plate, a hemisphere IR testing pot, a front and back moving support, a fixed support, a left and right moving plate, an up and down moving plate and a 7-shaped plate, wherein the bottom plate is fixed on the rack, the front and back moving support is connected with the bottom plate in a sliding mode, four corners of the left and right moving plate are respectively provided with adjusting holes, the adjusting holes penetrate through bolts to be connected with the front and back moving support, the hemisphere IR testing pot is fixed on the fixed support, the lower end of the fixed support is fixedly connected with the up and down moving plate, the up and down moving plate is connected with the transverse portion of the 7-shaped plate through screws, and the vertical portion of the 7-shaped plate is fixedly connected with the left and right moving plate.

Furthermore, the up-down moving plate is positioned between the left-right moving plate and the transverse part of the 7-shaped plate, the lower end and the upper end of the screw are respectively connected with bearings arranged on the transverse parts of the left-right moving plate and the 7-shaped plate, and a rocker handle is arranged at the upper end of the screw.

Furthermore, a horizontal rod is arranged at the front end of the hemispherical IR test pot, the horizontal rod is parallel to the bottom plate, and a test hole is formed in the middle of the horizontal rod and is located in the center of the sphere of the hemispherical IR test pot.

Further, the light source test module includes mounting panel, driving motor, lead screw, light source front bezel, light source back plate, fourth cylinder, light screen, the mounting panel is fixed in the frame, the lead screw with driving motor connects and installs on the mounting panel, the light source front bezel with the light source back plate passes through the frame and connects just the bottom of frame pass through the adapter sleeve with the lead screw is connected, the light source front bezel with the middle part of light source back plate all is equipped with the light source hole, just be equipped with between the light source front bezel with the light source back plate the light screen, the light screen with install the frame the fourth cylinder is connected.

The beneficial effects of the utility model are that: a multi-station rotary workbench, a hemispherical IR test module and a light source test module are arranged in the shell, so that a camera to be tested on the multi-station rotary workbench can sequentially perform an infrared function test and an LED function test, an infrared gray level imaging test and an imaging test of switching from a non-light environment to a light environment in a dark or dark room; be equipped with the overhead door that is located the top of the rotatory workstation of multistation and isolated one worker is located the outside of shell when other stations are tested, can carry out the material loading installation camera that awaits measuring simultaneously, raise the efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a middle part of the present invention;

fig. 3 is a schematic structural view of a multi-station rotary table according to the present invention;

fig. 4 is a schematic structural view of the clamp of the present invention;

fig. 5 is a schematic structural view of a power line pushing table of the present invention;

fig. 6 is a schematic structural view of the lift gate of the present invention;

fig. 7 is a schematic structural diagram of a hemispherical IR testing module according to the present invention;

FIG. 8 is a schematic view of the connection between the middle 7-shaped plate and the left and right moving plates according to the present invention;

fig. 9 is a schematic structural diagram of the middle light source testing module of the present invention;

in the figure: 1. a lift gate; 101. a fixed door; 102. a movable door; 103. a door frame; 2. a multi-station rotary worktable; 21. an illuminance tester; 22. a laser range finder; 23. a power line pushing table; 230. a second cylinder; 231. connecting holes; 232. a T-shaped adjustment plate; 233. a power cord clamp; 234. a second spring; 235. a power line; 236. 7-shaped connecting plates; 24. a rotating table; 25. a camera to be tested; 26. a clamp; 260. connecting blocks; 261. a support plate; 262. a front rest; 263. a right backrest; 264. a left rest member; 265. a first cylinder; 266. a connecting plate; 267. a reclining member; 268. a back plate; 269. a first spring; 3. a hemispherical IR test module; 31. a base plate; 32. moving the plate left and right; 33. moving the plate up and down; 34. a 7-shaped plate; 340. a screw; 341. an adjustment hole; 342. a rocker handle; 35. moving the support back and forth; 36. a fixed bracket; 37. hemispherical IR test pots; 38. a horizontal bar; 4. a light source testing module; 41. a drive motor; 42. a light source rear plate; 43. mounting a plate; 44. a frame; 45. a visor; 46. a light source aperture; 5. a keyboard box; 6. an equipment door; 7. a display.

Detailed Description

The present invention is described in detail below with reference to the attached drawings:

as shown in fig. 1 to 9, an IR testing apparatus for a camera includes a frame and a housing covering the frame, wherein a multi-station rotary table 2, a lifting door 1 surrounding the multi-station rotary table 2, a hemisphere IR testing module 3, and a light source testing module 4 are disposed inside the housing, so that a camera 25 to be tested on the multi-station rotary table 2 can sequentially perform an infrared function test and an LED function test, an infrared gray level imaging test, and a non-light to light environment switching imaging test in a dark or dark room; and overhead door 1 installs on the shell, and overhead door 1 is located the top of multistation swivel work head 2 and isolated a station in the outside of shell, when other stations are tested, can carry out the material loading simultaneously and install the camera 25 that awaits measuring, raises the efficiency. The frame is also provided with a keyboard box 5, a display 7, a three-color lamp, a controller for controlling the whole equipment and an electric cabinet for providing power supply for the equipment; the keyboard box 5 comprises a box plate and a keyboard fixed on the upper end face of the box plate, the lower end of the box plate is hinged with the rack, a handle is arranged on one side of the box plate, which is different from the keyboard, and the keyboard can be closed in a keyboard groove arranged on the shell or pulled open for operation through the handle, so that the keyboard is protected and the equipment is more attractive; and the side of the shell is also provided with an equipment door 6, which is convenient for internal operation or maintenance and the like.

Specifically, as shown in fig. 2 and 3, the multi-station rotary table 2 includes a rotary table 24, four clamps 26 mounted on the rotary table 24, four power line pushing tables 23, an illuminance tester 21, and a laser range finder 22; the four clamps 26 and the four power line push tables 23 are arranged uniformly, the power line push tables 23 are located behind the clamps 26, the illuminance tester 21 and the laser range finder 22 are located on two sides of one clamp 26 and can be isolated from the outer part of the shell at the same time, namely, each clamp 26 and each power line push table 23 correspond to one station, namely a four-station rotating workbench, and the illuminance tester 21 and the laser range finder 22 are fixed on the rotating table 24 through screws, so that the disassembly is convenient;

as shown in fig. 2 and 4, the fixture 26 includes a supporting plate 261, a front leaning member 262, a left leaning member 264, a right leaning member 263, a back leaning member 267, a back plate 268, and a first cylinder 265, the supporting plate 261 is fixed on the rotating platform 24, two sides of a lower end surface of the supporting plate are respectively fixed on the rotating platform 24 through two connecting blocks 260, the front end surface of the supporting plate 261 is fixedly connected with the front leaning member 262, and side end surfaces of the supporting plate are respectively fixedly connected with the left leaning member 264 and the right leaning member 263, wherein the supporting plate 261, the front leaning member 262, the left leaning member 264, and the right leaning member 263 are connected through screws, so that the assembly and disassembly are convenient, an outer end of the right leaning member 263 is fixedly connected with the first cylinder 265, the first cylinder 265 is connected with the back plate 268, a sliding rail is arranged at an outer end of the left leaning member 264, the sliding rail is connected with a connecting plate 266 fixedly connected with the back plate 268, the back leaning member 267 is connected through a first spring 269, and a guiding column is further arranged between the back member 267 and the back plate 268, so as to prevent the back leaning member 267 from freely swinging up and down; when the camera 25 that awaits measuring material, place the camera 25 that awaits measuring in the front by a 262, a left side by a 264, the right side by a 263, lean on between the piece 267, later first cylinder 265 drives backplate 268 and leans on a 267 to be close to the camera 25 that awaits measuring and carry out the centre gripping to it, and the camera 25 that awaits measuring when avoiding testing swings at will and influences the test effect.

As shown in fig. 2 and 5, the power line pushing table 23 includes a second cylinder 230, a 7-shaped connecting plate 236, a T-shaped adjusting plate 232, and a power line clamping member 233, the second cylinder 230 is fixed on the rotating table 24, the 7-shaped connecting plate 236 is connected to the working rod of the second cylinder 230, the 7-shaped connecting plate 236 is connected to the T-shaped adjusting plate 232 by a screw, the lower end surface of the power line clamping member 233 is slidably connected to the horizontal portion of the T-shaped adjusting plate 232, the rear end surface of the power line clamping member 233 is connected to the vertical portion of the T-shaped adjusting plate 232 by a second spring 234, that is, after the power line 235 is clamped and fixed on the power line clamping member 233, the second cylinder 230 drives the power line 235 to approach the camera 25 to be tested and connects the power line 235 with the camera 25 to be tested; wherein, a plurality of connecting holes 231 distributed in an array are arranged on the vertical part of the 7-shaped connecting plate 236 and are fixedly connected with the screw holes at the lower end of the vertical part of the T-shaped adjusting plate 232 through screws, so that the T-shaped adjusting plate 232 can be adjusted up, down, left and right on the 7-shaped connecting plate 236 conveniently.

As shown in fig. 2 and 6, the lifting door 1 includes a door frame 103, a fixed door 101, a movable door 102, and a third cylinder, wherein the door frame 103 is fixed on the frame and the outer side surface thereof is connected to the housing, such that the door frame 103 and the interior of the housing form a dark room without light, the fixed door 101 is fixed on the upper portion of the door frame 103, the movable door 102 is connected to the third cylinder installed on the side end of the door frame 103, and the movable door 102 is always positioned directly above or directly below the fixed door 101, i.e., the uppermost end of the movable door 102 is always positioned above the lowermost end of the fixed door 101, such that the movable door 102 moves up and down behind or in front of the fixed door 101 without leaving the fixed door 101, such that after the movable door 102 moves down to the lowermost position, external light cannot be emitted from between the fixed door 101 and the movable door 102, and the dark room with light inside is maintained. And fixed door 101 and floating gate 102 all are the indent door, all wrap integrated into one piece including door plant, door limit, connection limit, the both sides of door limit respectively with the door plant with be connected the limit perpendicular setting, and the distance that door limit and door frame 103 add is the fore-and-aft distance of a station promptly, make things convenient for other stations this station to carry out the material loading simultaneously when testing, avoid this station outwards to bulge again and influence pleasing to the eye and by pollutions such as dust.

As shown in fig. 2, 7 and 8, the hemisphere IR testing module 3 includes a bottom plate 31, a hemisphere IR testing pan 37, a front and back moving bracket 35, a fixed bracket 36, a left and right moving plate 32, an up and down moving plate 33, and a 7-shaped plate 34, the bottom plate 31 is fixed on the rack, the front and back moving bracket 35 is slidably connected to the bottom plate 31, four corners of the left and right moving plate 32 are respectively provided with an adjusting hole 341 and are connected to the front and back moving bracket 35 through a bolt passing through the adjusting hole 341, the adjusting hole 341 is an elongated hole, the length of the adjusting hole 341 is greater than the outer diameter of the bolt, the bolt is located at different positions of the adjusting hole 341 to adjust the left and right moving plate 32, the hemisphere IR testing pan 37 is fixed on the fixed bracket 36, the lower end of the fixed bracket 36 is fixedly connected to the up and down moving plate 33, the up and down moving plate 33 is connected to the transverse moving plate of the 7-shaped plate 34 through a screw 340, and the vertical portion of the 7-shaped plate 34 is fixedly connected to the left and right moving plate 32, i.e., the hemisphere IR testing pan 37 can be adjusted on the bottom plate 31 in a front and back, and left and right directions, and is suitable for different product tests; specifically, the up-down moving plate 33 is located between the lateral portions of the left-right moving plate 32 and the 7-shaped plate 34, the lower end and the upper end of the screw 340 are respectively connected with bearings installed at the lateral portions of the left-right moving plate 32 and the 7-shaped plate 34, a plurality of guide rods are further arranged between the lateral portions of the left-right moving plate 32 and the 7-shaped plate 34 in a dividing mode, the up-down moving plate 33 is connected with the guide rods in a sliding mode, so that the up-down adjustment of the hemispherical IR test pot 37 is more stable, the rocker handle 342 is arranged at the upper end of the screw 340, the hemispherical IR test pot 37 can be adjusted up and down by rotating the rocker handle 342, and the operation is convenient; in order to stabilize the hemispherical IR testing pot 37, a fixing buckle is arranged in the middle of the fixing support 36 and connected with the front-back moving support 35;

and the front end of hemisphere IR test pot 37 is equipped with horizon bar 38, and horizon bar 38 is parallel with bottom plate 31, and the middle part of horizon bar 38 is equipped with the test hole, and the test hole is located hemisphere IR test pot 37's centre of sphere, passes the test hole perpendicularly and can shine at hemisphere IR test pot 37's center through laser etc. at the shooting position of the camera 25 that awaits measuring, and quick accurate finding test position.

As shown in fig. 2 and 9, the light source testing module 4 includes a mounting plate 43, a driving motor 41, a screw rod, a light source front plate, a light source rear plate 42, a fourth cylinder, and a light shielding plate 45, the mounting plate 43 is fixed on the frame, the screw rod is connected with the driving motor 41 and mounted on the mounting plate 43, the light source front plate and the light source rear plate 42 are connected through a frame 44, the bottom of the frame 44 is connected with the screw rod through a connecting sleeve, light source holes 46 are formed in the middle of the light source front plate and the light source rear plate 42, the light shielding plate 45 is arranged between the light source front plate and the light source rear plate 42, and the light shielding plate 45 is connected with the fourth cylinder mounted on the frame, wherein the light source holes 46 are all right opposite to the shooting opening of the camera 25 to be tested, and the size of the light source holes in the light source front plate is larger than the shooting opening, so that the light source holes are close to the shooting opening and wrap the shooting opening, which not only meets the testing requirements of the bright environment but also does not affect other testing environments; when the test, driving motor 41 drives the lead screw rotatory, the lead screw drives light source front bezel and light source back plate 42 and draws close to the camera 25 that awaits measuring, when the light source hole on the light source front bezel that is close to the camera 25 that awaits measuring is pressed close to and is shot the mouth, thereby the fourth cylinder drives shielding plate 45 upwards or moves down and leaves light source hole 46, thereby make outside light or set up the light of light near light source back plate 42 shine through two light source holes and can carry out the test of bright environment on the shooting mouth of camera 25 that awaits measuring.

The utility model discloses a theory of operation does:

as shown in fig. 1-9, before testing, adjustment of the hemispherical IR testing module 3, testing stations, etc. and detection of testing environment are performed; the four stations are all uniformly distributed on the rotating platform 24; for the adjustment of the power line pushing table 23, the screw holes at the lower end of the vertical part of the T-shaped adjusting plate 232 are connected with the connecting holes 231 distributed in an array manner on the vertical part of the 7-shaped connecting plate 236 through screws, and the left, right, up and down positions of the power line clamping piece 233 are adjusted, so that the end of the power line 235 just extends into the power line socket of the camera 25 to be detected when moving forwards; for the adjustment of the hemispherical IR testing module 3, the front-back moving bracket 35 moves on the sliding rail to adjust the hemispherical IR testing pan 37 back and forth, the bolts are located at different positions of the adjusting holes 341 to adjust the left-right moving plate 32 left and right, the rocker handle 342 is rotated to drive the screw 340 to rotate so as to drive the upper-lower moving plate 33 to adjust up and down, i.e., the hemispherical IR testing pan 37 is adjusted up and down front and back, left and right, and finally the laser and the like placed at the shooting position of the camera 25 to be tested vertically penetrate through the testing hole and irradiate the center of the hemispherical IR testing pan 37, so that the adjustment of the hemispherical IR testing module 3 is completed; then, an illuminance tester 21 and a laser range finder 22 are installed on two sides of a station through screws, and then the internal environments of the lifting door 1 and the shell are detected and adjusted along with the rotation of the rotating platform 24, so that the internal environments meet the test requirements;

during testing, the movable door 102 descends, the camera 25 to be tested is placed on the supporting plate 261, then the first air cylinder 265 drives the rear leaning piece 267 to approach the camera 25 to be tested and clamp the camera 25 to be tested, and then the second air cylinder 230 drives the power line 235 on the power line clamping piece 233 to move forwards and insert the power line 235 into the power line socket of the camera 25 to be tested, so that loading can be completed; then, following the lifting of the lifting door 1 and the rotation of the rotating platform 24, the camera 25 to be tested sequentially passes through a darkroom environment, the hemispherical IR test module 3 and the light source test module 4 in the darkroom environment, and is subjected to an infrared test LED function test in a dark or darkroom environment, an imaging test of gray level in infrared and an imaging test of switching from the dark environment to the bright environment, and then the camera is taken down outside the lifting door 1, so that one-time test of the camera can be completed.

The above is only the preferred embodiment of the present invention, and not the patent protection scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings of the present invention can be directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a camera IR test equipment, its characterized in that, includes the shell of frame and cladding frame, and the inside of shell is equipped with multistation swivel work head (2) and encircles overhead door (1), hemisphere IR test module (3), light source test module (4) that multistation swivel work head (2) set up, and overhead door (1) is installed on the shell, and overhead door (1) is located the top of multistation swivel work head (2) and isolated a station in the outside of shell.

2. The camera IR testing apparatus according to claim 1, wherein the multi-station rotary table (2) comprises a rotary table (24) and four clamps (26), four power line pushing tables (23), an illuminance tester (21), a laser range finder (22) mounted on the rotary table (24); four anchor clamps (26) and four power cord push away platform (23) and equally divide the setting and power cord push away the rear that platform (23) are located anchor clamps (26), and illuminance tester (21) and laser range finder (22) are located the both sides of an anchor clamps (26) and can be isolated in the outside of shell simultaneously.

3. The camera IR testing device according to claim 2, wherein the fixture (26) comprises a supporting plate (261), a front leaning piece (262), a left leaning piece (264), a right leaning piece (263), a back leaning piece (267), a back plate (268), and a first cylinder (265), the supporting plate (261) is fixed on the rotating table (24), the front end surface of the supporting plate (261) is fixedly connected with the front leaning piece (262), the side end surfaces of the supporting plate are respectively fixedly connected with the left leaning piece (264) and the right leaning piece (263), the outer end of the right leaning piece (263) is fixedly connected with the first cylinder (265), the first cylinder (265) is connected with the back plate (268), the outer end of the left leaning piece (264) is provided with a sliding rail, the sliding rail is slidably connected with the connecting plate (266) fixedly connected with the back plate (268), and the back leaning piece (267) is connected with the back plate (268) through a first spring (269).

4. The camera IR testing apparatus according to claim 2, wherein the power line pushing table (23) comprises a second cylinder (230), a 7-shaped connecting plate (236), a T-shaped adjusting plate (232), and a power line clamping member (233), the second cylinder (230) is fixed on the rotating table (24), the 7-shaped connecting plate (236) is connected to the working rod of the second cylinder (230), the 7-shaped connecting plate (236) is connected to the T-shaped adjusting plate (232) by screws, the lower end surface of the power line clamping member (233) is slidably connected to the horizontal portion of the T-shaped adjusting plate (232), and the rear end surface of the power line clamping member (233) is connected to the vertical portion of the T-shaped adjusting plate (232) by a second spring (234).

5. The camera IR testing apparatus according to claim 1, wherein the lifting door (1) comprises a door frame (103), a fixed door (101), a movable door (102), and a third cylinder, the door frame (103) is fixed on the frame and the outer side of the door frame is connected to the housing, the fixed door (101) is fixed on the upper portion of the door frame (103), the movable door (102) is connected to the third cylinder installed on the side of the door frame (103), and the movable door (102) is always located right above or below the fixed door (101).

6. The camera IR testing device according to claim 5, wherein the fixed door (101) and the movable door (102) are recessed doors, each comprising an integrally formed door panel, a door edge, and a connecting edge, and both sides of the door edge are respectively perpendicular to the door panel and the connecting edge.

7. The camera IR testing device according to claim 1, wherein the hemisphere IR testing module (3) comprises a bottom plate (31), a hemisphere IR testing pan (37), a front and back moving support (35), a fixed support (36), a left and right moving plate (32), a top and bottom moving plate (33) and a 7-shaped plate (34), the bottom plate (31) is fixed on the frame, the front and back moving support (35) is connected with the bottom plate (31) in a sliding manner, four corners of the left and right moving plate (32) are respectively provided with an adjusting hole (341) and connected with the front and back moving support (35) through the adjusting hole (341) by a bolt, the hemisphere IR testing pan (37) is fixed on the fixed support (36), the lower end of the fixed support (36) is fixedly connected with the top and bottom moving plate (33), the top and bottom moving plate (33) is connected with the transverse portion of the 7-shaped plate (34) by a screw (340), and the vertical portion of the 7-shaped plate (34) is fixedly connected with the left and right moving plate (32).

8. The camera IR testing apparatus of claim 7, wherein the up-down moving plate (33) is located between the left-right moving plate (32) and the lateral portion of the 7-shaped plate (34), the lower end and the upper end of the screw (340) are connected to bearings installed at the lateral portions of the left-right moving plate (32) and the 7-shaped plate (34), respectively, and the upper end of the screw (340) is provided with a rocking handle (342).

9. The camera IR testing device according to claim 7, characterized in that the hemisphere IR testing pan (37) has a horizontal rod (38) at its front end, the horizontal rod (38) is parallel to the bottom plate (31), and the middle of the horizontal rod (38) has a testing hole at the center of the hemisphere IR testing pan (37).

10. The camera IR testing apparatus according to claim 1, wherein the light source testing module (4) comprises a mounting plate (43), a driving motor (41), a screw rod, a light source front plate, a light source rear plate (42), a fourth cylinder, and a light shielding plate (45), the mounting plate (43) is fixed on the frame, the screw rod is connected with the driving motor (41) and is installed on the mounting plate (43), the light source front plate and the light source rear plate (42) are connected through a frame (44), the bottom of the frame (44) is connected with the screw rod through a connecting sleeve, light source holes (46) are formed in the middle of the light source front plate and the light source rear plate (42), the light shielding plate (45) is arranged between the light source front plate and the light source rear plate (42), and the light shielding plate (45) is connected with the fourth cylinder installed on the frame (44).

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