CN220087375U - Camera structure for floodlight - Google Patents

Abstract

The utility model provides a camera structure for floodlights, which comprises a camera, wherein the camera, a left lamp cap and a right lamp cap are all installed on one side of a power supply cavity assembly, and the camera comprises a camera assembly, an infrared pyroelectric sensor assembly and a camera connection assembly. The utility model has the beneficial effects that: the utility model provides a with illumination security protection equipment that illumination and security protection combined together, this equipment is installed wall or roof through the power supply chamber, and the operation is simple and easy, and power supply chamber outside both sides set up two lamp holders, and power supply chamber outside downside sets up the camera, not only can play illumination and frighten effect, and lamp and camera are installed in same power supply chamber moreover, can compromise illumination and security protection simultaneously.

Description

Camera structure for floodlight

Technical Field

The utility model belongs to the field of lamps, and particularly relates to a camera structure for floodlights.

Background

The existing floodlight is complex in operation, and because the product is generally installed at the height of about 3 meters, the floodlight can be completed by means of a ladder when the lighting mode (normally on, off and automatic) of the lamp is switched. In addition, the existing camera has no corresponding illumination and deterrence effects. The lamp and the camera are relatively independent, and more equipment needs to be installed for illumination and security, so the utility model provides a structure for combining the camera with the floodlight to solve the defects in the prior art.

Disclosure of Invention

In view of the above, the utility model aims to provide a camera structure for floodlights, which solves the problems that the existing floodlights are complex in operation, the existing cameras have no corresponding illumination and deterrence effects, the lights and the cameras are relatively independent, and more equipment is required to be installed for illumination and security protection.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

the camera structure for the floodlight comprises a camera, wherein the camera, a left lamp cap and a right lamp cap are all installed on one side of a power cavity assembly, the left lamp cap and the right lamp cap are symmetrically arranged, and the camera is positioned between the left lamp cap and the right lamp cap;

the camera comprises a camera component, an infrared pyroelectric sensor component and a camera connecting component, wherein one side of the camera component is installed to the power cavity component through the camera connecting component, and the infrared pyroelectric sensor component is installed on one side of the bottom of the camera component.

Further, the subassembly of making a video recording includes casing, light guide body, infrared lens double faced adhesive tape, infrared lens, button plug, camera lens silica gel circle, infrared lamp plate, loudspeaker silica gel circle, loudspeaker body, loudspeaker support, camera mainboard and camera back lid of making a video recording, the casing front side is installed infrared lens double faced adhesive tape, infrared lens from right to left in proper order, the infrared pyroelectric sensor subassembly is installed to casing bottom of making a video recording, the button plug is installed on the casing right side of making a video recording, the lid behind the casing of making a video recording is installed to the casing rear side of making a video recording, the inside hollow structure that forms of lid behind casing, the camera, the lid is installed to power supply cavity subassembly one side through making a video recording coupling assembling, infrared lamp plate, camera mainboard pass infrared lamp plate installation lens silica gel circle inside from a left side to right side, infrared lamp plate bottom installation loudspeaker body, loudspeaker body is installed to loudspeaker body front and back both sides are installed respectively to loudspeaker body front and back.

Further, the camera assembly further comprises a plurality of camera screw plugs, and the four corners of the camera rear cover, which are connected with the camera shell, are respectively provided with one camera screw plug.

Further, the infrared pyroelectric sensor assembly comprises a first infrared pyroelectric sensor support, a second infrared pyroelectric sensor support, an infrared pyroelectric sensor FPC soft board and an infrared pyroelectric sensor lens, wherein one side of the first infrared pyroelectric sensor support is mounted to the bottom of the camera shooting shell, the other side of the first infrared pyroelectric sensor support is mounted to the infrared pyroelectric sensor lens, the first infrared pyroelectric sensor support and the infrared pyroelectric sensor lens form a hollow structure, the second infrared pyroelectric sensor support is mounted close to one side of the near infrared pyroelectric sensor lens, the infrared pyroelectric sensor FPC soft board is mounted on one side of the second infrared pyroelectric sensor support, and the second infrared pyroelectric sensor support and the infrared pyroelectric sensor FPC soft board are both located inside the hollow structure.

Further, the infrared pyroelectric sensor assembly further comprises infrared pyroelectric sensor lens double-sided adhesive and infrared pyroelectric sensor lens silica gel rings, and the joint of the first infrared pyroelectric sensor support and the infrared pyroelectric sensor lens is also provided with the infrared pyroelectric sensor lens double-sided adhesive and the infrared pyroelectric sensor lens silica gel rings.

Further, the camera connecting assembly comprises a wire passing rubber plug and a camera rotating shaft, one side of the rear cover of the camera is connected with one end of the camera rotating shaft, and the other end of the camera rotating shaft is mounted to the power cavity assembly through the wire passing rubber plug and the silica gel ring.

Further, the rotation angle of the joint of the camera rotating shaft and the power cavity assembly reaches 311 degrees.

Compared with the prior art, the camera structure for the floodlight has the following advantages:

(1) The utility model provides a camera structure for floodlights, which provides illumination security equipment combining illumination and security, the equipment is installed on a wall or a roof through a power cavity, the operation is simple, two lamp caps are arranged on two sides outside the power cavity, a camera is arranged on the middle side outside the power cavity, the effects of illumination and frightening are achieved, and the lamp and the camera are installed in the same power cavity, so that illumination and security can be simultaneously considered.

(2) According to the camera structure for the floodlight, the camera part is connected to the power cavity through the camera rotating support and is connected with the internal connecting circuit, the rotating angle of the joint of the camera rotating shaft and the power cavity reaches 311 degrees, the camera and the camera rotating shaft are installed and fixed in a locking mode through the ball head matched with the screw, the camera can adjust the angle in the corresponding taper due to the ball head connection, the camera provides a camera night vision function through the infrared lamp, the movement of a human body can be detected through the infrared pyroelectric sensor, and the camera is provided with the loudspeaker and the MIC, so that the two-way call language can be realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic structural view of an embodiment of the present utility model;

FIG. 2 is a schematic view of a wall-mounted structure in operation according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of the hoisting operation according to the embodiment of the utility model;

FIG. 4 is a schematic view illustrating an angle adjustment of a lamp cap according to an embodiment of the present utility model;

fig. 5 is an exploded view of a camera according to an embodiment of the present utility model;

fig. 6 is a schematic diagram of an image capturing connection assembly according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a camera; 2. a left lamp cap; 3. a power supply cavity assembly; 4. a right lamp cap; 6. a wire passing rubber plug; 7. a camera rotation shaft; 8. a silica gel ring; 16. a rotation shaft; 26. a light guide; 27. infrared lens double faced adhesive tape; 28. an infrared lens; 29. a key rubber plug; 30. lens silica gel ring; 31. an infrared lamp panel; 32. a loudspeaker silica gel ring; 33. a horn body; 34. a horn bracket; 35. a camera main board; 36. a camera rear cover; 37. the camera is screwed with the rubber plug; 38. a first infrared pyroelectric sensor bracket; 39. a second infrared pyroelectric sensor bracket; 40. an infrared pyroelectric sensor FPC soft board; 41. double faced adhesive tape of infrared pyroelectric sensor lens; 42. an infrared pyroelectric sensor lens silica gel ring; 43. an infrared pyroelectric sensor lens.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The utility model will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1 to 6, a camera structure for floodlight comprises a camera 1, a left lamp cap 2, a power cavity assembly 3 and a right lamp cap 4, wherein the camera 1, the left lamp cap 2 and the right lamp cap 4 are all installed on one side of the power cavity assembly 3, the left lamp cap 2 and the right lamp cap 4 are symmetrically arranged, and the camera 1 is located between the left lamp cap 2 and the right lamp cap 4.

The utility model provides illumination security protection equipment combining illumination and security protection, the equipment is mounted on a wall or a roof through a power cavity, two lamp holders are arranged on two sides outside the power cavity, the lamp holders can be connected with the power cavity through a rotary support and are internally connected with a circuit, the rotation angle of the joint of the rotary support and the power cavity reaches 311 degrees, the rotation angle of the joint of the lamp holders and the rotary support can reach 90 degrees, silica gel rings are added at interfaces to increase damping and achieve IPX5 waterproof, a heat dissipation aluminum cup is arranged in the lamp holders, the temperature of an LED aluminum substrate is effectively reduced, the service life of LED lamp beads is prolonged, and light extraction efficiency can be improved and light loss can be reduced by matching with a light reflection cup.

In a preferred embodiment of the utility model, the camera 1 comprises a camera component, an infrared pyroelectric sensor component and a camera connecting component, wherein one side of the camera component is mounted to the power cavity component 3 through the camera connecting component, and the infrared pyroelectric sensor component is mounted on one side of the bottom of the camera component; the camera shooting assembly comprises a camera shooting shell, a light guide body 26, an infrared lens double faced adhesive tape 27, an infrared lens 28, a key rubber plug 29, a lens silica gel ring 30, an infrared lamp plate 31, a horn silica gel ring 32, a horn body 33, a horn bracket 34, a camera head main board 35 and a camera head rear cover 36, wherein the infrared lens double faced adhesive tape 27 and the infrared lens 28 are sequentially installed on the front side of the camera shooting shell from right to left, an infrared pyroelectric sensor assembly is installed on the bottom of the camera shooting shell, the key rubber plug 29 is installed on the right side of the camera shooting shell, the camera head rear cover 36 is installed on the rear side of the camera shooting shell, the camera head rear cover 36 is installed on one side of a power cavity assembly 3 through a camera shooting connecting assembly, the camera head main board 35 is sequentially installed on the left side to right side, the lens silica gel ring 30 is internally installed on the lens silica gel ring 30, the loudspeaker body 33 is installed on the bottom of the camera head main board 31, and the horn body 33 is installed on the two sides of the horn body 33 and the horn bracket 32 is respectively installed on the two sides of the front side of the horn body 32. In this embodiment, the camera part is then connected to the power cavity through the camera rotating support and is connected with the circuit internally, the rotation angle of the joint of the camera rotating shaft and the power cavity reaches 311 °, and the camera rotating shaft are installed and fixed in a locking manner through the ball head matching screw, so that the camera can adjust the angle in the corresponding taper due to the ball head connection, and the camera provides the camera night vision function through the infrared lamp, the movement of a human body can be detected through the infrared pyroelectric sensor, and the bidirectional talking language can be realized through the horn and the MIC.

In a preferred embodiment of the utility model, the camera assembly further comprises a plurality of camera screw plugs 37, and one camera screw plug 37 is respectively arranged at four corners of the camera rear cover 36 connected with the camera shell.

In a preferred embodiment of the utility model, the infrared pyroelectric sensor assembly comprises a first infrared pyroelectric sensor support 38, a second infrared pyroelectric sensor support 39, an infrared pyroelectric sensor FPC soft board 40 and an infrared pyroelectric sensor lens 43, one side of the first infrared pyroelectric sensor support 38 is mounted to the bottom of the camera housing, the other side of the first infrared pyroelectric sensor support 38 is mounted to the infrared pyroelectric sensor lens 43, the first infrared pyroelectric sensor support 38 and the infrared pyroelectric sensor lens 43 form a hollow structure, the second infrared pyroelectric sensor support 39 is mounted near one side of the near infrared pyroelectric sensor lens 43, the infrared pyroelectric sensor FPC soft board 40 is mounted on one side of the second infrared pyroelectric sensor support 39, and the second infrared pyroelectric sensor support 39 and the infrared pyroelectric sensor FPC soft board 40 are both positioned inside the hollow structure.

In a preferred embodiment of the utility model, the infrared pyroelectric sensor assembly further comprises an infrared pyroelectric sensor lens double faced adhesive tape 41 and an infrared pyroelectric sensor lens silica gel ring 42, and the connection part of the first infrared pyroelectric sensor bracket 38 and the infrared pyroelectric sensor lens 43 is also provided with the infrared pyroelectric sensor lens double faced adhesive tape 41 and the infrared pyroelectric sensor lens silica gel ring 42.

In a preferred embodiment of the utility model, the camera shooting connection assembly comprises a wire passing rubber plug 6 and a camera shooting rotation shaft 7, one side of the camera shooting rear cover 36 is connected with one end of the camera shooting rotation shaft 7, and the other end of the camera shooting rotation shaft 7 is mounted to the power supply cavity assembly 3 through the wire passing rubber plug 6 and the silica gel ring 8.

Example 1

The utility model relates to an illumination and video equipment for assisting in angle adjustment, which comprises a camera 1. The left lamp holder 2 and the right lamp holder 4 are connected to the power supply chamber subassembly 3, and the left lamp holder 2 and the right lamp holder 4 are connected through rotation axis 16 to connect camera 1 through camera rotation axis 7, this patent can be through wall installation and furred ceiling installation dual mode application. The left lamp holder 2, right lamp holder 4 and camera 1 can carry out axial angle rotation, camera rotation axis 7 passes through bayonet connection mode to be fixed on power cavity subassembly 3, increase damping and waterproof through silica gel ring 8, camera 1 is connected through bulb cooperation screw locking mode by camera rotation axis 7, camera 1 can be at the internal rotation of the open tapering that camera rotation axis 7 prescribes a limit, built-in infrared lamp plate 31 of camera, camera mainboard and infrared pyroelectric sensor FPC soft board 40, infrared lamp plate 31 has put infrared blue pilot lamp and can demonstrate the camera state through the form of light through leading optical body 26, camera mainboard 35 and lens silica gel cover 30 are fixed to camera 1 and realize the camera waterproof, and loudspeaker body 33 and loudspeaker support 34 point glue are fixed back and are fixed to camera 1 behind the loudspeaker silica gel ring 32, infrared pyroelectric sensor FPC soft board 40 uses the screw to fix on the infrared pyroelectric sensor support 39 of No. two, use the screw locking is on infrared pyroelectric sensor support 38, infrared pyroelectric sensor 43 cover is put into infrared pyroelectric sensor 42 through leading optical body 26 and can be fixed to realize the camera waterproof through the form of light, and then the camera plug 37 is pasted to the camera plug 1, the infrared plug is pasted on the camera plug 1, the infrared plug is pasted to the plug 1, the infrared plug is pasted and the plug 1 is pasted and is locked to the plug 1, finally, the plug is pasted and the plug is screwed to be screwed to the plug is screwed to the plug 1.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A camera structure for floodlight, characterized in that: the LED lamp comprises a camera (1), wherein the camera (1), a left lamp cap (2) and a right lamp cap (4) are all installed on one side of a power cavity assembly (3), the left lamp cap (2) and the right lamp cap (4) are symmetrically arranged, and the camera (1) is positioned between the left lamp cap (2) and the right lamp cap (4);

the camera (1) comprises a camera shooting assembly, an infrared pyroelectric sensor assembly and a camera shooting connecting assembly, wherein one side of the camera shooting assembly is installed to a power supply cavity assembly (3) through the camera shooting connecting assembly, and the infrared pyroelectric sensor assembly is installed on one side of the bottom of the camera shooting assembly.

2. The camera structure for floodlight according to claim 1, wherein: the camera shooting assembly comprises a camera shooting shell, a light guide body (26), an infrared lens double faced adhesive tape (27), an infrared lens (28), a key rubber plug (29), a lens silica gel ring (30), an infrared lamp plate (31), a loudspeaker silica gel ring (32), a loudspeaker body (33), a loudspeaker support (34), a camera head main board (35) and a camera head rear cover (36), the infrared lens double faced adhesive tape (27) and the infrared lens (28) are sequentially installed on the front side of the camera shooting shell from right to left, an infrared pyroelectric sensor assembly is installed on the bottom of the camera shooting shell, the key rubber plug (29) is installed on the right side of the camera shooting shell, the camera head rear cover (36) is internally provided with a hollow structure, the camera head rear cover (36) is installed on one side of a power supply cavity assembly (3) through a camera connecting assembly, the camera head main board (35) is sequentially installed from left to right, the camera head main board (35) passes through the lamp plate (31) to install the silica gel ring, the camera head main board (30) is installed on the bottom of the camera head main board, the loudspeaker body (30) is installed on the two sides of the camera head main board (33), the infrared lamp plate (30) is installed on the two sides of the camera head main board (33) A horn support (34).

3. A floodlight camera structure according to claim 2, wherein: the camera shooting assembly further comprises a plurality of camera screw rubber plugs (37), and the four corners of the camera rear cover (36) connected with the camera shooting shell are respectively provided with one camera screw rubber plug (37).

4. A floodlight camera structure according to claim 2, wherein: the infrared pyroelectric sensor assembly comprises a first infrared pyroelectric sensor support (38), a second infrared pyroelectric sensor support (39), an infrared pyroelectric sensor FPC soft board (40) and an infrared pyroelectric sensor lens (43), wherein one side of the first infrared pyroelectric sensor support (38) is mounted to the bottom of a camera shooting shell, the other side of the first infrared pyroelectric sensor support (38) is mounted to the infrared pyroelectric sensor lens (43), the first infrared pyroelectric sensor support (38) and the infrared pyroelectric sensor lens (43) form a hollow structure, the second infrared pyroelectric sensor support (39) is mounted on one side of the first infrared pyroelectric sensor support (38) close to the near infrared pyroelectric sensor lens (43), the infrared pyroelectric sensor FPC soft board (40) is mounted on one side of the second infrared pyroelectric sensor support (39), and the second infrared pyroelectric sensor FPC soft board (40) are both located inside the hollow structure.

5. The camera structure for floodlight according to claim 4, wherein: the infrared pyroelectric sensor assembly further comprises an infrared pyroelectric sensor lens double faced adhesive tape (41) and an infrared pyroelectric sensor lens silica gel ring (42), and the joint of the first infrared pyroelectric sensor bracket (38) and the infrared pyroelectric sensor lens (43) is further provided with the infrared pyroelectric sensor lens double faced adhesive tape (41) and the infrared pyroelectric sensor lens silica gel ring (42).

6. A floodlight camera structure according to claim 2, wherein: the camera shooting connecting assembly comprises a wire passing rubber plug (6) and a camera rotating shaft (7), one side of a camera rear cover (36) is connected with one end of the camera rotating shaft (7), and the other end of the camera rotating shaft (7) is mounted to the power supply cavity assembly (3) through the wire passing rubber plug (6) and a silica gel ring (8).

7. The camera structure for floodlight according to claim 6, wherein: the rotation angle of the joint of the camera rotating shaft (7) and the power cavity assembly (3) reaches 311 degrees.