CN211236542U - High-definition far infrared camera - Google Patents

Abstract

The utility model relates to the technical field of cameras, in particular to a high-definition far infrared camera, which comprises a monitoring shell, a first positioning plate and an elastic buckle, wherein the top of the monitoring shell is fixedly connected with a shielding cover plate through a screw, the bottom of the monitoring shell is fixedly provided with a connecting bottom plate, a connecting bracket is arranged under the connecting bottom plate, and the connecting bracket is movably connected with the connecting bottom plate through a movable connecting shaft, in the utility model, the shielding cloth in a winding and rolling state is unfolded by combining the device and carrying the movable shaft body through a traction disc through a movable connecting shaft and a movable connecting bottom plate, after the hook is realized and the positioning post is connected in a hanging way, the shielding cloth can completely cover the outer surface of the monitoring shell, at the moment, the arrangement of the shielding cloth can play a role of shielding sunlight from the outer end of the monitoring shell, the whole device is prevented from being damaged in the environment of strong ultraviolet rays.

Description

High-definition far infrared camera

Technical Field

The utility model relates to a camera technical field specifically is a high definition far infrared camera.

Background

The camera is also called computer camera, computer eye, electronic eye, etc., it is a kind of video input equipment, widely used in video conference, remote medical treatment and real-time monitoring, etc., the camera generally has video shooting/spreading and static image capturing, etc. basic functions, it is after gathering the picture by the lens, process the picture and convert into the digital signal that the computer can discern by photosensitive assembly circuit and control assembly in the camera, then input to the computer by parallel port or USB connection and then carry on the image reduction by the software, wherein the high-definition far infrared camera is one kind of camera.

The camera on the market is when realizing the seizure and the monitoring operation to the image, and the directness of camera is exposed, receives external strong ultraviolet's irradiation extremely easily, and the phenomenon of fading, morals and manners will appear in the casing when serious to when single screw fixed mounting mode can't satisfy in the device realizes multinomial installation operation, holistic limitation is great, consequently, proposes a high definition far infrared camera to above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high definition far infrared camera to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a high-definition far-infrared camera comprises a monitoring shell, a first positioning plate and an elastic buckle, wherein the top of the monitoring shell is fixedly connected with a shielding cover plate through a screw, the bottom of the monitoring shell is fixedly provided with a connecting bottom plate, a connecting support is arranged under the connecting bottom plate and is movably connected with the connecting bottom plate through a movable connecting shaft, the first positioning plate is fixedly arranged on one side of the connecting support through welding, the middle part of the first positioning plate is provided with a matching opening through pouring, the middle part of the connecting support is fixedly provided with a built-in frame through welding, a built-in semi-ring is arranged inside the built-in frame and is movably connected with the built-in frame through a hinged connecting shaft, a second positioning plate is arranged on one side of the built-in semi-ring, the elastic buckle is fixedly provided with the middle part of the built-in frame through an integral type, and a rectangular frame is fixed on the, and the inside of rectangle frame embeds there is the activity axis body, the positive dead ahead of activity axis body is provided with shelters from cloth, and one side of activity axis body has cup jointed the traction disc, the bottom that shelters from cloth is fixed with the couple, and is fixed with the reference column under the couple, the reference column passes through welding and control shell fixed connection, and the inside middle-end of control shell sets up through the integral type and is fixed with monitor, be provided with the infrared lamp directly over monitor, the inside grafting of built-in semi-ring has the extension semi-ring.

Preferably, the monitoring shell and the shielding cover plate are connected to form a semi-surrounding structure, the monitoring shell is connected with the first positioning plate through a connecting bottom plate, a connecting support, a movable connecting shaft, and the first positioning plate and the connecting support are perpendicular to each other.

Preferably, the shape of the inner end of the built-in frame is matched with the shape of the outer end of the built-in half ring, the built-in half ring is connected with the built-in frame through a hinged connecting shaft to form a movable structure, the built-in half ring is symmetrically arranged along the transverse central axis of the first positioning plate as a symmetry axis, and the built-in half ring and the extension half ring are connected to form a nested structure.

Preferably, the connection of rectangle frame and activity axis body constitutes embedded structure, and the activity axis body is through winding and sheltering from cloth fixed connection, the bottom of sheltering from cloth is provided with the couple that the middle part is the ring structure.

Preferably, the vertical central axis of the monitoring probe and the vertical central axis of the infrared lamp are superposed with each other, and the infrared lamp forms an integrated structure through connection of the internally-arranged monitoring shell and the monitoring shell.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, the traction disc, the monitoring shell, the movable shaft body, the shielding cloth, the hook and the positioning column are arranged, the device is combined to carry the movable shaft body through the traction disc to rotate anticlockwise in a circling way so as to expand the shielding cloth in a winding and rolling state, after the hook is realized and the positioning column is connected in a hanging way, the shielding cloth can be completely covered on the outer surface of the monitoring shell, the shielding cloth is arranged at the moment to play a role of shielding sunlight from the outer end of the monitoring shell, and the whole device is prevented from being damaged in a strong ultraviolet environment;

2. the utility model discloses in, through the built-in semi-ring that sets up, articulated even axle, the second locating plate, built-in frame and the opening of agreeing with, when needing to be fixed in the device on the cylinder, under built-in frame and the cooperation of agreeing with open-ended cavity, 180 upset skew is realized through articulated even axle to built-in semi-ring after the traction, until the cylinder outer end that the required binding was held in to a set of built-in semi-ring after the upset just obtained bolt location through a set of second locating plate, the device can be accomplished with the ring body location operation of cylinder, combine the screw fixation mode of basis, can make whole device have the structure of multinomial installation, improve the practicality of whole device simultaneously.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the monitoring probe of the present invention;

fig. 3 is a schematic view of the extended semi-ring structure of the present invention.

In the figure: 1-monitoring shell, 2-shielding cover plate, 3-connecting bottom plate, 4-connecting support, 5-movable connecting shaft, 6-first positioning plate, 7-fit opening, 8-built-in frame, 9-built-in semi-ring, 10-hinged connecting shaft, 11-second positioning plate, 12-elastic buckle, 13-rectangular frame, 14-movable shaft body, 15-shielding cloth, 16-traction disc, 17-hook, 18-positioning column, 19-monitoring probe, 20-infrared lamp and 21-extension semi-ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

a high-definition far infrared camera comprises a monitoring shell 1, a first positioning plate 6 and an elastic buckle 12, wherein the top of the monitoring shell 1 is fixedly connected with a shielding cover plate 2 through screws, the bottom of the monitoring shell 1 is fixedly provided with a connecting bottom plate 3, a connecting support 4 is arranged right below the connecting bottom plate 3, the connecting support 4 is movably connected with the connecting bottom plate 3 through a movable connecting shaft 5, the first positioning plate 6 is fixedly arranged on one side of the connecting support 4 through welding, the middle part of the first positioning plate 6 is provided with a matching opening 7 through pouring, the middle part of the connecting support 4 is fixedly provided with a built-in frame 8 through welding, a built-in semi-ring 9 is arranged inside the built-in frame 8, the built-in semi-ring 9 is movably connected with the built-in frame 8 through a hinged connecting shaft 10, one side of the built-in semi-ring 9 is provided with a second positioning plate 11, the elastic buckle 12 is fixedly provided with, the top of sheltering from apron 2 is fixed with rectangle frame 13, and the inside of rectangle frame 13 embeds there is movable axis body 14, the positive dead ahead of movable axis body 14 is provided with shelters from cloth 15, and traction disc 16 has been cup jointed to one side of movable axis body 14, the bottom that shelters from cloth 15 is fixed with couple 17, and be fixed with reference column 18 under couple 17, reference column 18 is through welding and control shell 1 fixed connection, and the inside middle-end of control shell 1 sets up through the integral type and is fixed with monitor 19, be provided with infrared lamp 20 directly over monitor 19, the inside of built-in semi-ring 9 is pegged graft and is had extension semi-ring 21.

The monitoring shell 1 and the shielding cover plate 2 are connected to form a semi-surrounding structure, the monitoring shell 1 is connected with a first positioning plate 6 through a connecting bottom plate 3, a connecting support 4, a movable connecting shaft 5 and the first positioning plate 6, the first positioning plate 6 and the connecting support 4 are perpendicular to each other, along with the connection and matching of the connecting support 4 and the connecting bottom plate 3, the device takes the first positioning plate 6 as a positioning component, the device is quickly fixed on a wall surface in a screw insertion mode, and in rainy days, the shielding cover plate 2 can cover the monitoring shell 1 by means of the shielding cover plate 2 under the arrangement of the semi-surrounding structure, so that the effect of shielding rain can be achieved from the position right above the monitoring shell 1; the inner end of the built-in frame 8 is matched with the outer end of the built-in semi-ring 9 in shape, the built-in semi-ring 9 is connected with the built-in frame 8 through a hinged connecting shaft 10 to form a movable structure, the built-in semi-ring 9 is symmetrically arranged along the transverse central axis of the first positioning plate 6 as a symmetry axis, and the built-in semi-ring 9 is connected with the extension semi-ring 21 to form a nested structure, when the device is influenced by external environmental factors and needs to be fixed on a column body, under the hollow fit of the built-in frame 8 and the fit opening 7, the device takes the hinged connecting shaft 10 as a movable component, the built-in semi-ring 9 is manually controlled and dragged to realize 180-degree overturning deviation through the hinged connecting shaft 10, a group of the built-in semi-ring 9 after overturning is just clamped at the outer end of the column body needing to be bound, then the device draws out the extension semi-ring 21 through a group of, by combining with a screw fixing mode of a foundation, the structure enables the whole device to have a plurality of mounting structures, and meanwhile, the practicability of the whole device can be effectively improved by adopting corresponding mounting modes aiming at different environments; the rectangular frame 13 and the movable shaft 14 are connected to form an embedded structure, the movable shaft 14 is fixedly connected with the shielding cloth 15 through winding, a hook 17 with a ring-shaped structure in the middle is arranged at the bottom of the shielding cloth 15, when a camera directly exposed to the outside is irradiated by strong ultraviolet rays, the device carries the movable shaft 14 through a traction disc 16 to rotate anticlockwise in a circling way under the connection and matching of the rectangular frame 13 until the device unfolds the shielding cloth 15 in a winding and rolling state through the releasing force generated in the rotating process, after the shielding cloth 15 is connected with a positioning column 18 in a hanging way through the hook 17, the shielding cloth 15 completely covers the outer surface of the monitoring shell 1, the shielding cloth 15 woven with a layer of black silk in the device can play a role of shielding sunlight from the outer end of the monitoring shell 1, and the structure enables the whole device to have a sun-shading structure, by rolling the sunshade structure, the scratch damage of external force factors to the sunshade cloth can be effectively avoided; the vertical axis of the monitoring probe 19 and the vertical axis of the infrared lamp 20 coincide with each other, and the infrared lamp 20 constitutes an integral structure through the connection of agreeing with built-in and monitoring shell 1, when the installation operation of the whole device is completed, and the whole device is adjusted to the operating condition, under the connection cooperation of monitoring shell 1, the device utilizes the infrared lamp to send the infrared ray irradiation object that infrared lamp 20 produced, under the cooperation of infrared ray diffuse reflection action, received by the monitoring probe 19 of monitoring component, after forming video image, and direct network transmission gives control system, thereby realize the control and the operation of catching of whole camera, and the theory of operation of the infrared camera that this structure relates to is prior art.

The working process is as follows: when the installation operation of the whole device is completed and the whole device is adjusted to a working state, under the connection and the coordination of the monitoring shell 1, the device utilizes the infrared lamp to emit infrared rays generated by the infrared lamp 20 to irradiate an object, under the coordination of infrared ray diffuse reflection, the object is received by the monitoring probe 19 serving as a monitoring component, after a video image is formed, the object is directly transmitted to the control system through a network, so that the monitoring and capturing operation of the whole camera is realized, when the device is required to be fixed on a cylinder, the internal semi-ring 9 is stressed to realize 180-degree overturning deflection through the hinged connecting shaft 10, the overturned group of internal semi-rings 9 is just clamped at the outer end of the cylinder required to be bound, then the device is drawn out to form the extension semi-ring 21, and after the bolt positioning is obtained through the group of second positioning plates 11, the positioning operation of the device and the ring body of the cylinder, the screw fixed mode who combines the basis can make whole device have the structure of multinomial installation, combines the device to carry movable axis body 14 through traction disc 16 and carries out the anticlockwise rotation that circles round, will be in the sheltering from cloth 15 expansion of winding rolling state, after sheltering from cloth 15 through couple 17 realization and reference column 18 suspension connection, shelters from cloth 15 and will cover completely in the surface of control shell 1, and the sheltering from cloth 15 that itself was woven into the black silk of one deck will play the effect of sheltering from sunshine from the outer end of control shell 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a high definition far infrared camera, includes control shell (1), first locating plate (6) and elasticity buckle (12), its characterized in that: the top of the monitoring shell (1) is fixedly connected with a shielding cover plate (2) through a screw, the bottom of the monitoring shell (1) is fixedly provided with a connecting bottom plate (3), a connecting support (4) is installed under the connecting bottom plate (3), the connecting support (4) is movably connected with the connecting bottom plate (3) through a movable connecting shaft (5), a first positioning plate (6) is fixedly arranged on one side of the connecting support (4) through welding, the middle of the first positioning plate (6) is provided with a matching opening (7) through pouring, the middle of the connecting support (4) is fixedly provided with a built-in frame (8) through welding, a built-in semi-ring (9) is installed inside the built-in frame (8), the built-in semi-ring (9) is movably connected with the built-in frame (8) through a hinged connecting shaft (10), and a second positioning plate (11) is arranged on one side of the built-in semi-ring (9), the elastic buckle (12) is integrally arranged and fixed with the middle part of the built-in frame (8), the top of the shielding cover plate (2) is fixed with a rectangular frame (13), a movable shaft body (14) is arranged in the rectangular frame (13), a shielding cloth (15) is arranged right in front of the front surface of the movable shaft body (14), and one side of the movable shaft body (14) is sleeved with a traction disc (16), the bottom of the shielding cloth (15) is fixed with a hook (17), a positioning column (18) is fixed under the hook (17), the positioning column (18) is fixedly connected with the monitoring shell (1) through welding, and the inner middle end of the monitoring shell (1) is fixedly provided with a monitoring probe (19) through an integrated arrangement, an infrared lamp (20) is arranged right above the monitoring probe (19), and an extension semi-ring (21) is inserted into the built-in semi-ring (9).

2. The high definition far infrared camera according to claim 1, characterized in that: the monitoring shell (1) and the shielding cover plate (2) are connected to form a semi-surrounding structure, the monitoring shell (1) is connected with the first positioning plate (6) through the connecting base plate (3), the connecting support (4), the movable connecting shaft (5), and the first positioning plate (6) and the connecting support (4) are perpendicular to each other.

3. The high definition far infrared camera according to claim 1, characterized in that: the shape of the inner end of the built-in frame (8) is matched with the shape of the outer end of the built-in semi-ring (9), the built-in semi-ring (9) forms a movable structure through the connection of the hinged connecting shaft (10) and the built-in frame (8), the built-in semi-ring (9) is symmetrically arranged along the transverse central axis of the first positioning plate (6) for a symmetry axis, and the built-in semi-ring (9) is connected with the extension semi-ring (21) to form a nested structure.

4. The high definition far infrared camera according to claim 1, characterized in that: the connection of rectangle frame (13) and activity axis body (14) constitutes embedded structure, and activity axis body (14) through the winding with shelter from cloth (15) fixed connection, the bottom that shelters from cloth (15) is provided with couple (17) that the middle part is the ring structure.

5. The high definition far infrared camera according to claim 1, characterized in that: the vertical central axis of the monitoring probe (19) and the vertical central axis of the infrared lamp (20) are mutually overlapped, and the infrared lamp (20) forms an integrated structure through connection of the internally-arranged monitoring shell (1).

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