CN218469050U - Control beacon - Google Patents

Abstract

The utility model relates to the technical field of lighting monitoring lighthouses, in particular to a monitoring lighthouse, which comprises a movable bearing main body and a lamp component, wherein the lamp component is movably connected with the bearing main body; the lamp assembly comprises a lamp post and a functional assembly, one end of the lamp post is connected with the bearing main body, the functional assembly comprises a monitoring module, a searchlight and a substrate, the searchlight and the monitoring module are movably connected onto the substrate, the substrate is rotatably connected to the lamp post and is far away from one end of the bearing main body, the substrate can simultaneously drive the monitoring module and the searchlight to rotate when rotating, and the searchlight and the monitoring module can rotate in a plane parallel to the substrate and/or in a plane perpendicular to the substrate. The utility model provides a control beacon has solved the poor technical problem of traditional control beacon monitoring effect.

Description

Control beacon

[ technical field ] A method for producing a semiconductor device

The utility model relates to an illumination control beacon technical field, in particular to control beacon.

[ background of the invention ]

The lighthouse can be widely applied to construction sites, large-scale parties, disaster relief sites, mines, night activity sites and other places needing temporary illumination at night. In order to meet the requirements of various industrial constructions and social life such as large-scale and rapid urban construction requirements, requirements of enriching cultural life of people, requirements of mineral exploration and development and the like, the lighthouse which is safe, efficient, large in brightness and flexible to control becomes a hotspot of research, development and manufacturing in the industry. But traditional beacon function singleness can not satisfy the demand of a lot of special environment, for example can want the demand of security protection to the beacon in the activity place at night, though there are a few beacons to be equipped with traditional control on the market, but traditional control exists because the reason of light causes the condition that monitoring range is little in the process of application, and the angle of illumination of light can't be adjusted, and the control shines the technical problem that the monitoring effect is poor that leads to incompletely.

[ Utility model ] content

For solving the poor technical problem of traditional beacon monitoring effect, the utility model provides a control beacon.

The utility model provides a monitoring lighthouse, which comprises a movable bearing main body and a lamp assembly, wherein the lamp assembly is movably connected with the bearing main body; the lamp assembly comprises a lamp post and a functional assembly, one end of the lamp post is connected with the bearing main body, the functional assembly comprises a monitoring module, a searchlight and a substrate, the searchlight is movably connected to the substrate, the substrate is rotatably connected to one end, far away from the bearing main body, of the lamp post, the substrate can simultaneously drive the monitoring module and the searchlight to rotate when rotating, and the searchlight and the monitoring module can rotate in a plane parallel to the substrate and/or in a plane perpendicular to the substrate.

Preferably, the control module on the main part is still born including locating to the control beacon, the functional component still includes the cloud platform, the cloud platform include with the revolving stage of base plate connection, with the fixed station that the lamp pole is connected, control module with revolving stage electric connection controls the revolving stage is relative the rotatory driving piece of fixed station.

Preferably, the driving member is disposed at a sidewall of the rotating table or the fixing table.

Preferably, the monitoring module comprises a camera and a rotating support, one end of the rotating support is fixedly connected with the substrate, the other end of the rotating support is connected with the camera in a rotating mode, and the rotating support is electrically connected with the control module.

Preferably, the rotating bracket comprises a fixed part and a movable part, one end of the fixed part is fixedly connected with the substrate, one end of the movable part is rotatably connected with the other end of the fixed part, and the other end of the movable part is rotatably connected with the camera.

Preferably, the functional assembly further comprises a lighting lamp and a U-shaped support, one end of the U-shaped support is arranged on the substrate and fixedly connected with the substrate, and the other end of the U-shaped support is rotatably connected with the lighting lamp.

Preferably, the base plate still includes hollow division board, the division board sets up the base plate is close to the one end of cloud platform with cloud platform fixed connection, the inside of division board is provided with the radiating piece, the division board is close to the one end of cloud platform corresponds the position of radiating piece still is equipped with the ventilation hole.

Preferably, the functional assembly further comprises a steering engine for controlling the searchlight to rotate relative to the base plate, and the steering engine controls the searchlight to rotate in a plane parallel to the base plate and/or a plane perpendicular to the base plate.

Preferably, a photosensitive belt is arranged on the camera and electrically connected with the control module.

Preferably, the number of the cameras is two.

Compared with the prior art, the utility model provides a pair of control beacon has following advantage:

1. the embodiment of the utility model provides a monitoring lighthouse, which comprises a movable bearing main body and a lamp component, wherein the lamp component is movably connected with the bearing main body; the lamp assembly comprises a lamp post and a functional assembly, one end of the lamp post is connected with the bearing main body, the functional assembly comprises a monitoring module, a searchlight and a substrate, the searchlight and the monitoring module are movably connected onto the substrate, the substrate is rotatably connected to the lamp post and is far away from one end of the bearing main body, the substrate can simultaneously drive the monitoring module and the searchlight to rotate when rotating, and the searchlight and the monitoring module can rotate in a plane parallel to the substrate and/or in a plane perpendicular to the substrate. It can be understood that under the condition that searchlight and monitoring module have two rotational degrees of freedom, can carry out 360 degrees panorama covers to the control range, as long as the region that monitoring module can cover, the searchlight also can cover, carries out the light filling in order to obtain clear control image to the control range. Therefore, the flexible degree of searchlight angle adjustment on the monitoring lighthouse is improved in the design, the coverage range of light is wider than that of the traditional movable monitoring lighthouse, the problem that the monitoring effect is poor due to the fact that the monitoring range is small due to the fact that light exists in the process of application of traditional monitoring and the illuminating angle of the light cannot be adjusted and the monitoring is incomplete is solved.

2. The embodiment of the utility model provides a control beacon is still including locating the control module who bears in the main part, and functional component still includes the cloud platform, and the cloud platform includes the revolving stage with the base plate connection, the fixed station of being connected with the lamp pole, and control module and revolving stage electric connection control revolving stage relatively fixed station rotatory driving piece. Can understand ground, be connected lamp pole and base plate through the cloud platform, make the base plate whole cloud platform and base plate relative rotation relatively, it is worth noting, control cloud platform revolving stage pivoted driving piece and control module electric connection, can realize that control module controls the rotation of base plate through the cloud platform, thereby make searchlight and monitoring module on the base plate can actuate along with the base plate, only need searchlight and monitoring module to keep predetermined angle this moment, traditional cruiser monitoring task can be accomplished according to predetermined speed and angle range rotation to cloud platform control substrate. Therefore, the design of connecting the base plate and the lamp post through the holder greatly improves the flexibility and the simplicity of controlling the functional components on the base plate, and improves the practicability and the convenience of monitoring the lighthouse.

3. The embodiment of the utility model provides a driving piece setting of control beacon is at the lateral wall of revolving stage or fixed station. It can be understood that the base plate and the functional components on the base plate have a certain weight, and the driving member is arranged on the side wall of the rotating table or the fixed table, so that the driving member can be prevented from bearing the part of load, the service life of the driving member is prolonged, and the reliability and the durability of the monitoring lighthouse are improved.

4. The embodiment of the utility model provides a monitoring module of control beacon includes camera and runing rest, the one end and the base plate fixed connection of runing rest, the other end and the camera of runing rest rotate to be connected, and runing rest and control module electric connection. It can understand ground, the runing rest provides two rotational degrees of freedom for the camera, compares the camera on the traditional control beacon, and the far and near angle of control can be adjusted to two rotational degrees of freedom, has further enlarged the scope of keeping watch on, and control module carries out direct control through the rotatory gesture of the rotation support of carrying out electric connection to the runing rest of runing rest, can realize the monitoring angle and the indirect control of the cycle of cruising to the camera. Therefore, the design improves the flexibility of monitoring lighthouse monitoring.

5. The embodiment of the utility model provides a runing rest of control beacon includes fixed part and movable part, the one end and the base plate fixed connection of fixed part, and the one end of movable part is rotated with the other end of fixed part and is connected, and the other end and the camera of movable part rotate to be connected. The camera comprises a base plate, a movable part, a camera head, a fixed part, a control module and a control module, wherein the movable part is connected with the fixed part in a rotating mode, the movable part is connected with the camera head in a rotating mode, the camera head is connected with the movable part in a rotating mode, the movable part is connected with the fixed part in a rotating mode, the movable part is connected with the camera head in a rotating mode, the camera head is connected with the fixed part in a rotating mode, the movable part and the camera head are integrally provided with one degree of freedom in rotating, the movable part and the camera head are connected in rotating mode, the movable part and the camera head are controlled by the control module, and the camera head can rotate along with the base plate and can independently move through command signals of the control module, so that different tasks are completed. Therefore, the design improves the flexibility of the monitoring module, and the monitoring range is improved, and the control of the camera is more convenient.

6. The embodiment of the utility model provides a functional unit of control beacon still includes light and U-shaped support, the one end setting of U-shaped support on the base plate with base plate fixed connection, the other end and the light rotation of U-shaped support are connected. The floodlight can be used for illuminating the floodlight without high power and concentrated light beams, the floodlight with low power and wide light coverage can well complete the illumination work, the definition of a monitored image is improved, the illumination range of the floodlight can be more flexible through the U-shaped support, and the floodlight is convenient to radiate. Therefore, the practicality of monitoring the lighthouse is improved by the design.

7. The embodiment of the utility model provides a base plate of control beacon still includes hollow division board, and the division board setting is close to the one end and the cloud platform fixed connection of cloud platform at the base plate, and the inside of division board is provided with the radiating piece, and the division board is close to the position that the one end of cloud platform corresponds the radiating piece and still is equipped with the ventilation hole. It can be understood that, for the equipment that carries out the illumination in places such as building site construction, large-scale party, disaster relief scene, mining site, night activity place, the power all can be bigger, consequently there can be very serious phenomenon of generating heat in the position of light source, the temperature on light source surface can reach 70 ~ 80 ℃, and the light source sets up on same base plate with the monitoring module again, consequently, the monitoring module probably receives the influence of light source high temperature and damages inner structure, consequently, dispel the heat and can reduce the temperature of light source effectively to the light on the base plate through the radiating piece on the division board, thereby indirectly play effective protection to the monitoring module, also prolong the life of light source on the base plate.

8. The embodiment of the utility model provides a functional module of control beacon is still including being used for controlling the relative base plate pivoted steering wheel of searchlight, steering wheel control searchlight in the plane that is on a parallel with the base plate and/or the in-plane rotation of perpendicular to base plate. The steering engine can control the angle of the searchlight independently, the searchlight can be controlled by two rotational degrees of freedom to completely cover the monitoring area of the monitoring module, and accurate illumination can be provided for the area of the monitoring module with unclear imaging. Therefore, the searchlight is controlled independently through the steering engine in the design, the monitoring effect of the monitoring module is improved, and the use flexibility of the monitoring lighthouse is improved.

9. The embodiment of the utility model provides a be provided with the photosensitive belt on the camera of control beacon, photosensitive belt and control module electric connection. The light of the monitoring area can be sensed by the camera due to the design of the photosensitive belt, and the part needing light supplement is selectively supplemented with light for illumination. Therefore, the design of the photosensitive belt improves the intelligent degree of monitoring the lighthouse.

10. The embodiment of the utility model provides a quantity of the camera of control beacon is two. It can be understood that a general monitoring task requires that the cameras cruise and monitor back and forth within a certain range to complete a traditional monitoring task, but when the monitoring module needs to perform a task of acquiring a panoramic image, one camera obviously cannot perform two tasks at the same time well, so when one camera performs the cruise monitoring task, the other camera can perform a panoramic shooting task. Therefore, the two cameras can enable the monitoring lighthouse to execute different tasks in the process, the mode is more flexible, and the process is smoother.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of a monitoring lighthouse according to an embodiment of the present invention.

Fig. 2 is a first schematic structural diagram of a functional component of a monitoring lighthouse according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a tripod head of a monitoring lighthouse provided by the embodiment of the present invention.

Fig. 4 is a schematic structural diagram ii of a functional component of a monitoring lighthouse according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a monitoring module for monitoring a lighthouse according to an embodiment of the present invention.

Fig. 6 is a partial structural sectional view of a functional module of a monitoring lighthouse according to an embodiment of the present invention.

The attached drawings indicate the following:

1. monitoring the lighthouse;

10. a load bearing body; 11. a lamp assembly; 12. a control module;

110. a lamp post; 111. a functional component;

1110. a substrate; 1111. a monitoring module; 1112. a searchlight; 1113. A holder; 1114. an illuminating lamp; 1115. a U-shaped bracket; 1116. a steering engine;

11100. a separator plate; 11101. a heat sink; 11102. a vent hole; 11103. a mounting frame; 11110. a camera; 11111. rotating the bracket; 11112. a fixed part; 11113. a movable portion; 11114. a photosensitive belt; 11130. a rotating table; 11131. an installation table; 11132. a drive member.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the terms "first" and "second" and the like in the description and the claims of the present invention are used for distinguishing different objects, and are not used for describing a specific order.

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 an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used in other meanings besides orientation or positional relationship, for example, the term "upper" may also be used in some cases to indicate a certain attaching or connecting relationship. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1 and fig. 2, a monitoring lighthouse 1 according to a first embodiment of the present invention includes a movable supporting body 10 and a lamp assembly 11, wherein the lamp assembly 11 is movably connected to the supporting body 10; the lamp assembly 11 includes a lamp post 110 and a function assembly 111, one end of the lamp post 110 is connected to the main body 10, the function assembly 111 includes a monitoring module 1111, a searchlight 1112 and a substrate 1110, the searchlight 1112 and the monitoring module 1111 are movably connected to the substrate 1110, the substrate 1110 is rotatably connected to one end of the lamp post 110 away from the main body 10, the substrate 1110 can simultaneously drive the monitoring module 1111 and the searchlight 1112 to rotate when rotating, and the searchlight 1112 and the monitoring module 1111 can respectively rotate in a plane parallel to the substrate 1110 and/or a plane perpendicular to the substrate 1110.

It can be understood that the searchlight 1112 and the monitoring module 1111 can perform large-area panoramic coverage on the monitoring range under the condition that the searchlight 1112 and the monitoring module 1111 have two rotational degrees of freedom, and the searchlight 1112 can also cover the monitoring range as long as the monitoring module 1111 can cover the area, so as to perform light supplement on the monitoring range to obtain a clear monitoring image. It can be seen that, the above design improves the flexibility of adjusting the angle of the searchlight 1112 on the monitoring lighthouse 1, so that the coverage area of the light is wider than that of the traditional mobile monitoring lighthouse, and the technical problems that the monitoring range is small due to the light in the process of the traditional monitoring, the irradiation angle of the light cannot be adjusted, and the monitoring effect is poor due to incomplete irradiation in the monitoring process are solved.

Referring to fig. 1 to fig. 3, in some embodiments, the monitoring lighthouse 1 further includes a control module 12 disposed on the main carrying body 10, the functional assembly 111 further includes a cradle 1113, the cradle 1113 includes a rotating stage 11130 connected to the base plate 1110 and a fixing stage connected to the lamppost 110, and the control module 12 is electrically connected to the rotating stage 11130 and the control module 12 and controls a driving member 11132 of the rotating stage 11130 to rotate relative to the fixing stage. It can be understood that the lamp post 110 is connected to the substrate 1110 through the cradle 1113, so that the substrate 1110 can rotate relatively to the cradle 1113 and the substrate 1110 as a whole, it is worth noting that the driving component 11132 for controlling the rotation of the cradle 1113 rotating platform 11130 is electrically connected to the control module 12, and the control module 12 can control the rotation of the substrate 1110 through the cradle 1113, so that the searchlight 1112 and the monitoring module 1111 on the substrate 1110 can move together with the substrate 1110, at this time, only the searchlight 1112 and the monitoring module need to keep a preset angle, and the cradle 1113 controls the substrate 1110 to rotate according to a preset speed and angle range to complete the conventional cruise monitoring task. It can be seen that, the design of connecting the base plate 1110 and the lamppost 110 through the cradle 1113 greatly improves the flexibility and convenience of controlling the functional components 111 on the base plate 1110, and improves the practicability and convenience of monitoring the lighthouse 1.

Illustratively, a mounting bracket 11103 is fixedly disposed on a side of the base plate 1110 close to the cradle head 1113, and the base plate 1110 is fixedly connected or detachably connected with the rotating platform 11130 of the cradle head 1113 through the mounting bracket 11103. Optionally, the cradle head 1113 and the mounting frame 11103 may be connected by threads or welded, and the specific manner may be determined according to the use scenario. The cradle head 1113 further includes a drive member 11132 electrically connected to the control module 12, and it should be understood that the control module 12 controls the rotation of the rotating table 11130 relative to the mounting table 11131 by controlling the drive member 11132. In some embodiments, the driving member 11132 is a dc motor, which has a fast response speed and can be used for shooting targets with a fast tracking speed, and the dc motor has a good mute effect, and the cradle head 1113 rotates without noise; meanwhile, the direct current motor is light in weight and large in torque, and the overall weight of the holder 1113 can be effectively reduced. However, the dc motor itself cannot bear force, that is, cannot bear the gravity from the rotating table 11130, which means that the rotating table 11130 cannot be fixed with a hard connection such as a screw for a dc motor, that is, cannot be directly borne on the output shaft of the dc motor. In this embodiment, the rotating platform 11130 is supported by the mounting platform 11131 and the lamp post 110, and the dc motor only needs to provide the rotating driving force for the rotating platform 11130, and does not need to support the rotating platform 11130.

In some embodiments, the drive member 11132 is disposed on a sidewall of the rotating table 11130 or the stationary table. It can be appreciated that the base plate 1110 and the functional elements 111 on the base plate 1110 have a certain weight, and the driving member 11132 is disposed on the side wall of the rotating table 11130 or the fixed table, so as to prevent the driving member 11132 from bearing such a part of the load, thereby prolonging the service life of the driving member 11132 and further improving the reliability and durability of the monitoring lighthouse 1.

With continued reference to FIG. 2, in some embodiments, the functional assembly 111 further includes a steering engine 1116 for controlling the rotation of the searchlight 1112 relative to the base 1110, and the steering engine 1116 controls the rotation of the searchlight 1112 in a plane parallel to the base 1110 and/or in a plane perpendicular to the base 1110. It can be appreciated that steering engine 1116 can provide independent control over the angle of searchlight 1112, and two rotational degrees of freedom can control searchlight 1112 to completely cover the monitoring area of monitoring module 1111, can provide accurate illumination for areas where monitoring module 1111 is not imaged clearly. Therefore, the searchlight 1112 is controlled independently through the steering engine 1116, the monitoring effect of the monitoring module 1111 is improved, and the flexibility of the monitoring lighthouse 1 is improved.

Referring to fig. 1 and 4, in some embodiments, the monitoring module 1111 includes a camera 11110 and a rotating bracket 11111, one end of the rotating bracket 11111 is fixedly connected to the substrate 1110, the other end of the rotating bracket 11111 is rotatably connected to the camera 11110, and the rotating bracket 11111 is electrically connected to the control module 12. It can be understood that, the rotating bracket 11111 provides two rotational degrees of freedom for the camera 11110, and compared with the camera 11110 on the traditional monitoring lighthouse, the two rotational degrees of freedom can adjust the distance angle of monitoring, so as to further expand the monitoring range, and the control module 12 directly controls the rotating attitude of the rotating bracket 11111 by electrically connecting the rotating bracket 11111, i.e. indirectly controls the monitoring angle and the cruise cycle of the camera 11110. It can be seen that the above design increases the degree of flexibility in monitoring the lighthouse 1.

Referring to fig. 1, fig. 4 and fig. 5, in some embodiments, the rotating bracket 11111 includes a fixed portion 11112 and a movable portion 11113, one end of the fixed portion 11112 is fixedly connected to the base plate 1110, one end of the movable portion 11113 is rotatably connected to the other end of the fixed portion 11112, and the other end of the movable portion 11113 is rotatably connected to the camera 11110. It is understood that the rotatable connection of the movable part 11113 to the fixed part 11112 provides one degree of freedom for the movable part 11113 and the camera 11110 as a whole, and the rotatable connection of the movable part 11113 to the camera 11110 provides another degree of freedom for the camera 11110, and it is understood that both degrees of freedom are controlled by the control module 12, i.e., the camera 11110 can move independently by the command signal of the control module 12 while following the rotation of the substrate 1110, thereby accomplishing different tasks. Therefore, the design improves the flexibility of the monitoring module 1111, and the control of the camera 11110 is more convenient while the monitoring range is improved.

In some embodiments, the camera 11110 may be configured with a photoreceptor belt 11114, and the photoreceptor belt 11114 may be electrically coupled to the control module 12. It can be understood that, the design of photoreceptor belt 11114 can make camera 11110 sense the light of monitoring area, carry out the illumination of selectively light filling again to the part that needs to carry out the light filling, when photoreceptor belt 11114 senses the light in current monitoring area is more weak and leads to the monitoring picture to be unclear promptly, can send the signal to control module 12, the adjustable searchlight 1112 of control module 12 and/or light 1114 carry out the illumination of light filling to this region, in order to provide clear monitoring picture, high durability and convenient use, and safe and reliable. It can be seen that the design of the photoreceptor belt 11114 increases the degree of intelligence in monitoring the lighthouse 1.

Referring to fig. 1 and 4, in some embodiments, the functional assembly 111 further includes an illuminating lamp 1114 and a U-shaped support 1115, one end of the U-shaped support 1115 is disposed on the base 1110 and fixedly connected to the base 1110, and the other end of the U-shaped support 1115 is rotatably connected to the illuminating lamp 1114. Understandably, for some usage scenes of the searchlight 1112 which does not need high power and has concentrated light beams, the illuminating lamp 1114 which has smaller power and wider light coverage can well complete the illumination work, the definition of a monitored image is improved, and the illuminating range of the illuminating lamp 1114 can be more flexible through the U-shaped support 1115, and the illuminating lamp 1114 can dissipate heat conveniently. It can be seen that the above design improves the utility of the monitoring lighthouse 1.

Referring to fig. 4 and fig. 6, in some embodiments, the base plate 1110 further includes a hollow isolation plate 11100, the isolation plate 11100 is disposed at an end of the base plate 1110 close to the pan/tilt head 1113 and fixedly connected to the pan/tilt head 1113, a heat dissipation member 11101 is disposed inside the isolation plate 11100, and a ventilation hole 11102 is further disposed at an end of the isolation plate 11100 close to the pan/tilt head 1113 and corresponding to the position of the heat dissipation member 11101. It can be understood that, for the equipment for lighting in the construction of construction site, large-scale gathering, disaster relief site, mine site, night activity site, etc., the power will be relatively high, so there will be a very serious heating phenomenon at the position of the light source, the temperature of the surface of the light source can reach 70-80 ℃, and the light source and the monitoring module 1111 are disposed on the same substrate 1110, therefore, the monitoring module 1111 is likely to be affected by the over-high temperature of the light source to damage the internal structure, therefore, the temperature of the light source can be effectively reduced by radiating the lighting lamp 1114 on the substrate 1110 through the radiating element 11101 on the isolation board 11100, thereby indirectly effectively protecting the monitoring module 1111 and also prolonging the service life of the light source on the substrate 1110.

In some embodiments, the number of cameras 11110 is two. It is understood that a general monitoring task requires the cameras 11110 to perform cruise monitoring back and forth within a certain range to complete a conventional monitoring task, but when the monitoring module 1111 needs to perform a task of acquiring a panoramic image, one camera 11110 may not perform both tasks at the same time well, and thus when one camera 11110 performs the cruise monitoring task, the other camera 11110 may perform the panoramic photographing task. Illustratively, the rotating bracket 11111 of the camera 11110 executing the cruise monitoring task enables the camera 11110 to keep a preset inclination angle to be aligned with the area to be monitored, and enables the camera 11110 and the base plate 1110 to keep relatively static, the control module 12 controls the cradle head 1113 to rotate within a preset angle range, at this time, the camera 11110 executing the panoramic shooting task and the searchlight 1112 for supplementing light to the camera 11110 are controlled by the control module 12, so that the shooting angle of the camera 11110 and the light supplementing angle of the searchlight 1112 are kept in a continuous area for shooting and supplementing light although the whole of the camera 11110 and the searchlight 1112 moves along with the base plate 1110, namely, the angle of the camera 11110 executing the cruise monitoring task is adjusted by the cradle head 1113 alone, and the angle of the camera 11110 and the searchlight 1112 for acquiring the panoramic image is adjusted by the cradle head 1113 and the rotating bracket 11111 and the steering engine 1116 of the camera. It should be understood that this is only an example for explaining the control principle of the two cameras 11110 when performing different tasks, and is not limited to the above control method. Therefore, the two cameras 11110 can make the monitoring lighthouse 1 perform different tasks in the process, so that the mode is more flexible and the process is smoother.

Compared with the prior art, the utility model provides a pair of control beacon has following advantage:

1. the embodiment of the utility model provides a monitoring lighthouse, which comprises a movable bearing main body and a lamp component, wherein the lamp component is movably connected with the bearing main body; the lamp assembly comprises a lamp post and a functional assembly, one end of the lamp post is connected with the bearing main body, the functional assembly comprises a monitoring module, a searchlight and a substrate, the searchlight and the monitoring module are movably connected onto the substrate, the substrate is rotatably connected to the lamp post and is far away from one end of the bearing main body, the substrate can simultaneously drive the monitoring module and the searchlight to rotate when rotating, and the searchlight and the monitoring module can rotate in a plane parallel to the substrate and/or in a plane perpendicular to the substrate. It can be understood that under the condition that searchlight and monitoring module have two rotational degrees of freedom, can carry out 360 degrees panorama covers to the control range, as long as the region that monitoring module can cover, the searchlight also can cover, carries out the light filling in order to obtain clear control image to the control range. Therefore, the flexible degree of searchlight angle adjustment on the monitoring lighthouse is improved in the design, the coverage range of light is wider than that of the traditional movable monitoring lighthouse, the problem that the monitoring effect is poor due to the fact that the monitoring range is small due to the fact that light exists in the process of application of traditional monitoring and the illuminating angle of the light cannot be adjusted and the monitoring is incomplete is solved.

2. The embodiment of the utility model provides a control beacon is still including locating the control module who bears in the main part, and functional component still includes the cloud platform, and the cloud platform includes the revolving stage with the base plate connection, the fixed station of being connected with the lamp pole, and control module and revolving stage electric connection control revolving stage relatively fixed station rotatory driving piece. Can understand ground, be connected lamp pole and base plate through the cloud platform, make the base plate whole cloud platform and base plate relative rotation relatively, it is worth noting, control cloud platform revolving stage pivoted driving piece and control module electric connection, can realize that control module controls the rotation of base plate through the cloud platform, thereby make searchlight and monitoring module on the base plate can actuate along with the base plate, only need searchlight and monitoring module to keep predetermined angle this moment, traditional cruiser monitoring task can be accomplished according to predetermined speed and angle range rotation to cloud platform control substrate. Therefore, the design of connecting the base plate and the lamp post through the holder greatly improves the flexibility and the simplicity of controlling the functional components on the base plate, and improves the practicability and the convenience of monitoring the lighthouse.

3. The embodiment of the utility model provides a driving piece setting of control beacon is at the lateral wall of revolving stage or fixed station. It can be understood that the base plate and the functional components on the base plate have a certain weight, and the driving member is arranged on the side wall of the rotating table or the fixed table, so that the driving member can be prevented from bearing the part of load, the service life of the driving member is prolonged, and the reliability and the durability of the monitoring lighthouse are improved.

4. The embodiment of the utility model provides a monitoring module of control beacon includes camera and runing rest, the one end and the base plate fixed connection of runing rest, the other end and the camera of runing rest rotate to be connected, and runing rest and control module electric connection. It can understand ground, the runing rest provides two rotational degrees of freedom for the camera, compares the camera on the traditional control beacon, and the far and near angle of control can be adjusted to two rotational degrees of freedom, has further enlarged the scope of keeping watch on, and control module carries out direct control through the rotatory gesture of the rotation support of carrying out electric connection to the runing rest of runing rest, can realize the monitoring angle and the indirect control of the cycle of cruising to the camera. Therefore, the design improves the flexibility of monitoring lighthouse monitoring.

5. The embodiment of the utility model provides a runing rest of control beacon includes fixed part and movable part, the one end and the base plate fixed connection of fixed part, and the one end of movable part is rotated with the other end of fixed part and is connected, and the other end and the camera of movable part rotate to be connected. Understandably, the movable part and the fixed part are rotatably connected to provide a rotational degree of freedom for the movable part and the camera integrally, and the movable part and the camera are rotatably connected to provide another rotational degree of freedom for the camera. Therefore, the design improves the flexibility of the monitoring module, and the monitoring range is improved, and the control of the camera is more convenient.

6. The embodiment of the utility model provides a function block of control beacon still includes light and U-shaped support, the one end setting of U-shaped support on the base plate with base plate fixed connection, the other end and the light rotation of U-shaped support are connected. The floodlight can be used for illuminating the floodlight without high power and concentrated light beams, the floodlight with low power and wide light coverage can well complete the illumination work, the definition of a monitored image is improved, the illumination range of the floodlight can be more flexible through the U-shaped support, and the floodlight is convenient to radiate. Therefore, the practicality of monitoring the lighthouse is improved by the design.

7. The embodiment of the utility model provides a base plate of control beacon still includes hollow division board, and the division board setting is close to the one end and the cloud platform fixed connection of cloud platform at the base plate, and the inside of division board is provided with the radiating piece, and the division board is close to the position that the one end of cloud platform corresponds the radiating piece and still is equipped with the ventilation hole. It can be understood that, for the equipment that carries out the illumination in places such as building site construction, large-scale party, disaster relief scene, mining site, night activity place, the power all can be great, consequently there can be very serious heating phenomenon in the position of light source, the temperature on light source surface can reach 70 ~ 80 ℃, and the light source sets up on same base plate with the control module again, consequently, the control module probably receives the influence of light source high temperature and damages inner structure, consequently, dispel the heat and can reduce the temperature of light source effectively to the light on the base plate through the radiating piece on the division board, thereby indirectly played effectively protection to the control module, also prolong the life of light source on the base plate.

8. The embodiment of the utility model provides a functional module of control beacon is still including being used for controlling the relative base plate pivoted steering wheel of searchlight, steering wheel control searchlight in the plane that is on a parallel with the base plate and/or the in-plane rotation of perpendicular to base plate. The steering engine can control the angle of the searchlight independently, the searchlight can be controlled by two rotational degrees of freedom to completely cover the monitoring area of the monitoring module, and accurate illumination can be provided for the area of the monitoring module with unclear imaging. Therefore, the searchlight is controlled independently through the steering engine in the design, the monitoring effect of the monitoring module is improved, and the use flexibility of the monitoring lighthouse is improved.

9. The embodiment of the utility model provides a be provided with the sensitization area on the camera of control beacon, sensitization area and control module electric connection. The light of the monitoring area can be sensed by the camera due to the design of the photosensitive belt, and the part needing light supplement is selectively supplemented with light for illumination. Therefore, the design of the photosensitive belt improves the intelligent degree of monitoring the lighthouse.

10. The embodiment of the utility model provides a quantity of the camera of control beacon is two. It can be understood that a general monitoring task requires that the cameras cruise and monitor back and forth within a certain range to complete a traditional monitoring task, but when the monitoring module needs to perform a task of acquiring a panoramic image, one camera obviously cannot perform two tasks at the same time well, so when one camera performs the cruise monitoring task, the other camera can perform a panoramic shooting task. Therefore, the two cameras can enable the monitoring lighthouse to execute different tasks in the process, the mode is more flexible, and the process is smoother.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, and improvements made within the principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A monitoring lighthouse, comprising: the monitoring lighthouse comprises a movable bearing main body and a lamp assembly, wherein the lamp assembly is movably connected with the bearing main body;

the lamp assembly comprises a lamp post and a functional assembly, one end of the lamp post is connected with the bearing main body, the functional assembly comprises a monitoring module, a searchlight and a substrate, the searchlight is movably connected to the substrate, the substrate is rotatably connected to one end, far away from the bearing main body, of the lamp post, the substrate can simultaneously drive the monitoring module and the searchlight to rotate when rotating, and the searchlight and the monitoring module can rotate in a plane parallel to the substrate and/or in a plane perpendicular to the substrate.

2. The monitoring lighthouse of claim 1 wherein: the control lighthouse is still including locating the control module who bears in the main part, the functional unit still includes the cloud platform, the cloud platform include with revolving stage that the base plate is connected, with the fixed station that the lamp pole is connected, control module with revolving stage electric connection controls the revolving stage is relative the rotatory driving piece of fixed station.

3. The monitoring lighthouse of claim 2 wherein: the driving piece is arranged on the side wall of the rotating table or the fixed table.

4. The monitoring lighthouse of claim 2 wherein: the monitoring module comprises a camera and a rotating support, one end of the rotating support is fixedly connected with the substrate, the other end of the rotating support is connected with the camera in a rotating mode, and the rotating support is electrically connected with the control module.

5. The monitoring lighthouse of claim 4 wherein: the rotary support comprises a fixed part and a movable part, one end of the fixed part is fixedly connected with the substrate, one end of the movable part is rotatably connected with the other end of the fixed part, and the other end of the movable part is rotatably connected with the camera.

6. The monitoring lighthouse of claim 1 wherein: the functional assembly further comprises an illuminating lamp and a U-shaped support, one end of the U-shaped support is arranged on the substrate and fixedly connected with the substrate, and the other end of the U-shaped support is rotatably connected with the illuminating lamp.

7. The monitoring lighthouse of claim 2 wherein: the base plate still includes hollow division board, the division board sets up the base plate is close to the one end of cloud platform with cloud platform fixed connection, the inside of division board is provided with the radiating piece, the division board is close to the one end of cloud platform corresponds the position of radiating piece still is equipped with the ventilation hole.

8. The monitoring lighthouse of claim 1 wherein: the functional component further comprises a steering engine for controlling the searchlight to rotate relative to the base plate, and the steering engine controls the searchlight to rotate in a plane parallel to the base plate and/or a plane perpendicular to the base plate.

9. The monitoring lighthouse of claim 4 wherein: the camera is provided with a photosensitive belt, and the photosensitive belt is electrically connected with the control module.

10. The monitoring lighthouse of claim 4 wherein: the number of the cameras is two.

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