CN216483527U - Special infrared thermal imager for police unmanned aerial vehicle - Google Patents

Abstract

The utility model discloses a special infrared thermal imager for an unmanned aerial vehicle for police, which comprises an infrared thermal imager body, a mounting plate and a connecting seat, wherein a rectangular plate is mounted at the center of the outer wall of the top of the infrared thermal imager body through a screw, a shaft rod is mounted at the axis of the outer wall of the top of the rectangular plate through a screw, the top end of the shaft rod is movably connected at the axis of the outer wall of the bottom of the connecting seat through a bearing, and a second motor is mounted on the outer wall of the bottom, close to the shaft rod, of the connecting seat through a screw. According to the utility model, the second motor drives the shaft rod to rotate through the driving wheel and the driven wheel disc, and the shaft rod drives the thermal infrared imager body to rotate, so that the irradiation range of the thermal infrared imager body is wider, the first motor drives the rotating shaft rod to rotate through the driving gear and the driven gear, and the rotating shaft rod drives the thermal infrared imager body to perform angle inclination through the disc block and the connecting seat, so that the irradiation precision of the thermal infrared imager body is improved.

Description

Special infrared thermal imager for police unmanned aerial vehicle

Technical Field

The utility model relates to the technical field of infrared thermal imaging, in particular to a thermal infrared imager special for an unmanned aerial vehicle for police.

Background

The thermal infrared imager converts invisible infrared energy emitted by an object into a visible thermal image, different colors on the thermal image represent different temperatures of the object to be measured, the thermal infrared imager receives an infrared radiation energy distribution pattern of a target to be measured by using an infrared detector and an optical imaging objective lens and reflects the infrared radiation energy distribution pattern onto a photosensitive element of the infrared detector, so that an infrared thermal image is obtained, and the thermal image corresponds to a thermal distribution field on the surface of the object.

In the prior art, the irradiation of the unmanned aerial vehicle thermal infrared imager can not be carried out by 360-degree rotation as required in the irradiation process, so that the irradiation range of the thermal infrared imager is reduced, and the practicability is poor. Therefore, it is necessary to design a thermal infrared imager dedicated for police unmanned aerial vehicles to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects that in the prior art, 360-degree rotary irradiation cannot be performed as required in the irradiation process of an unmanned aerial vehicle thermal infrared imager, and the irradiation range of the thermal infrared imager is reduced, and provides the special thermal infrared imager for the police unmanned aerial vehicle.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a special thermal infrared imager of alert unmanned aerial vehicle, includes thermal infrared imager body, mounting panel and connecting seat, the rectangular plate is installed through the screw in the center department of thermal infrared imager body top outer wall, and the axle center department of rectangular plate top outer wall installs the axostylus axostyle through the screw, bearing swing joint is passed through in the axle center department of connecting seat bottom outer wall in the top of axostylus axostyle, and installs the second motor through the screw on the connecting seat is close to the bottom outer wall of axostylus axostyle, the output parallel key of second motor is connected with the action wheel, and the center department parallel key of axostylus axostyle lateral wall is connected with the driven rim plate, mesh between action wheel and the driven rim plate.

Furthermore, a convex block is welded at the center of the outer wall of the top of the connecting seat, and an arc-shaped groove is formed in the convex block.

Further, the connecting plate is installed through the screw in the center department of mounting panel bottom outer wall, and the arc has all been welded to the both sides of connecting plate bottom outer wall.

Furthermore, the center of the inner side wall of the arc-shaped groove is welded with a disc block, and the arc-shaped plate is connected with the arc-shaped groove in a sliding mode.

Furthermore, the axle center of the outer wall of one side adjacent to the arc-shaped plate is movably connected with a rotating shaft rod through a bearing, and the disc block is movably connected between the arc-shaped plates through the rotating shaft rod.

Furthermore, a driven gear is connected to the outer wall of one side of the rotating shaft rod through a flat key, a first motor is installed on the outer wall of one side of the arc plate through a screw, a driving gear is connected to the output end of the first motor through a flat key, and the driving gear is meshed with the driven gear.

The utility model has the beneficial effects that:

1. through the second motor that sets up, the second motor passes through the action wheel and drives the axle bar through following the rim plate and rotate, and the axostylus axostyle drives thermal infrared imager body and rotates for thermal infrared imager body's irradiation range is wider, novel structure, reasonable in design, the practicality is strong.

2. Through the first motor that sets up, first motor passes through drive gear and drives the pivot pole through driven gear and rotate, and the pivot pole passes through the disc piece and drives thermal infrared imager body through the connecting seat and carry out the angle slope, and then has promoted the precision that the thermal infrared imager body shines, and is rational in infrastructure, convenient operation is fit for promoting.

3. Through the lug and the connecting plate that set up, the lug slides along the arc outer wall through the arc wall for it is more stable when thermal infrared imager body adjusts.

Drawings

Fig. 1 is a schematic structural diagram of a thermal infrared imager dedicated for a police unmanned aerial vehicle according to the present invention;

FIG. 2 is a schematic diagram of an explosion structure of a thermal infrared imager special for a police unmanned aerial vehicle, which is provided by the utility model;

FIG. 3 is a schematic view of a transmission structure of a thermal infrared imager dedicated for a police unmanned aerial vehicle according to the present invention;

fig. 4 is a schematic view of a primary view structure of a thermal infrared imager dedicated for a police unmanned aerial vehicle according to the present invention.

In the figure: the thermal infrared imager comprises a mounting plate 1, a connecting seat 2, a thermal infrared imager body 3, a convex block 4, an arc-shaped groove 5, a disk block 6, an arc-shaped plate 7, a first motor 8, a connecting plate 9, a rectangular plate 10, a shaft rod 11, a second motor 12, a driving wheel 13, a driven wheel disk 14, a rotating shaft rod 15, a driving gear 16 and a driven gear 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, a special infrared thermal imager for an unmanned aerial vehicle for police comprises an infrared thermal imager body 3, a mounting plate 1 and a connecting seat 2, wherein a rectangular plate 10 is mounted at the center of the outer wall of the top of the infrared thermal imager body 3 through a screw, a shaft rod 11 is mounted at the axis of the outer wall of the top of the rectangular plate 10 through a screw, the top end of the shaft rod 11 is movably connected at the axis of the outer wall of the bottom of the connecting seat 2 through a bearing, a second motor 12 is mounted on the outer wall of the bottom of the connecting seat 2 close to the shaft rod 11 through a screw, the second motor 12 is 42JSF330AS-1000 in model, the output end of the second motor 12 is in flat key connection with a driving wheel 13, the flat key at the center of the outer side wall of the shaft rod 11 is connected with a driven wheel disc 14, the driving wheel 13 is meshed with the driven wheel disc 14, the second motor 12 drives the shaft rod 11 to rotate through the driven wheel disc 14, and the shaft rod 11 drives the infrared thermal imager body 3 to rotate, the irradiation range of the thermal infrared imager body 3 is wider.

The welding of the center department of connecting seat 2 top outer wall has lug 4, and the arc wall 5 has been seted up to the inside of lug 4.

The connecting plate 9 is installed at the center of the outer wall at the bottom of the mounting plate 1 through a screw, the arc plates 7 are welded on the two sides of the outer wall at the bottom of the connecting plate 9, the arc plates 7 can be circular or arc-shaped according to different adjusting requirements, and then the thermal infrared imager body 3 is more stable when adjusted.

The center department welding of the 5 inside walls of arc wall has the disc piece 6, and is sliding connection between arc 7 and the arc 5, and lug 4 slides along 7 outer walls of arc through arc 5 for it is more stable when thermal infrared imager body 3 adjusts.

The axle center department of the adjacent one side outer wall of arc 7 has pivot pole 15 through bearing swing joint, and disc piece 6 passes through pivot pole 15 swing joint between arc 7, and disc piece 6 and the specification looks adaptation of arc 7 for thermal infrared imager body 3 is more stable when adjusting, and then promotes thermal infrared imager body 3's the precision of shining.

Flat key is connected with driven gear 17 on one side outer wall of pivot pole 15, and install first motor 8 through the screw on one side outer wall of arc 7, first motor 8's model is PLE40, first motor 8's output flat key is connected with drive gear 16, and mesh mutually between drive gear 16 and the driven gear 17, first motor 8 drives pivot pole 15 through driven gear 17 through drive gear 16 and rotates, pivot pole 15 carries out the angle slope through connecting seat 2 drive thermal infrared imager body 3 through disc piece 6, and then has promoted the precision that thermal infrared imager body 3 shines.

The working principle of the utility model is as follows: this it is alert with special thermal infrared imager of unmanned aerial vehicle during use, it rotates through driven rim plate 14 drive axostylus axostyle 11 through action wheel 13 at second motor 12, and axostylus axostyle 11 drives thermal infrared imager body 3 and rotates, make the irradiation range of thermal infrared imager body 3 wider, and first motor 8 drives pivot pole 15 through driven gear 17 through drive gear 16 and rotates, pivot pole 15 carries out the angle slope through disc piece 6 through connecting seat 2 drive thermal infrared imager body 3, and then the precision that thermal infrared imager body 3 shines has been promoted, when thermal infrared imager body 3 carries out the angle slope regulation, lug 4 slides along 7 outer walls of arc through arc wall 5, it is more stable when making thermal infrared imager body 3 adjust.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a special thermal infrared imager of alert unmanned aerial vehicle, includes thermal infrared imager body (3), mounting panel (1) and connecting seat (2), its characterized in that, rectangular plate (10) are installed through the screw in the center department of thermal infrared imager body (3) top outer wall, and the axle center department of rectangular plate (10) top outer wall installs axostylus axostyle (11) through the screw, bearing swing joint is passed through in the axle center department of connecting seat (2) bottom outer wall in the top of axostylus axostyle (11), and installs second motor (12) through the screw on connecting seat (2) is close to the bottom outer wall of axostylus axostyle (11), the output parallel key of second motor (12) is connected with action wheel (13), and the center department parallel key of axostylus axostyle (11) lateral wall is connected with from moving wheel dish (14), mesh between action wheel (13) and the driven wheel dish (14).

2. The infrared thermal imager special for the police unmanned aerial vehicle as claimed in claim 1, wherein a bump (4) is welded at the center of the outer wall of the top of the connecting seat (2), and an arc-shaped groove (5) is formed inside the bump (4).

3. The infrared thermal imager special for the police unmanned aerial vehicle as claimed in claim 1, wherein a connecting plate (9) is mounted at the center of the bottom outer wall of the mounting plate (1) through screws, and arc-shaped plates (7) are welded on two sides of the bottom outer wall of the connecting plate (9).

4. The infrared thermal imager special for police unmanned aerial vehicle as claimed in claim 2, wherein the disk block (6) is welded at the center of the inner side wall of the arc-shaped groove (5), and the arc-shaped plate (7) is connected with the arc-shaped groove (5) in a sliding manner.

5. The infrared thermal imager special for the police unmanned aerial vehicle as claimed in claim 3, wherein the axis of the outer wall of one side adjacent to the arc-shaped plate (7) is movably connected with a rotating shaft rod (15) through a bearing, and the disc block (6) is movably connected between the arc-shaped plates (7) through the rotating shaft rod (15).

6. The infrared thermal imager special for the police unmanned aerial vehicle as claimed in claim 5, wherein the outer wall of one side of the rotating shaft rod (15) is connected with a driven gear (17) through a flat key, the outer wall of one side of the arc-shaped plate (7) is provided with a first motor (8) through a screw, the output end of the first motor (8) is connected with a driving gear (16) through a flat key, and the driving gear (16) is meshed with the driven gear (17).

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