CN114508668A - Be applied to high altitude and throw thing installation mechanism of monitoring camera - Google Patents

Abstract

The invention relates to the technical field of high-altitude monitoring camera equipment, in particular to an installation mechanism applied to a high-altitude parabolic monitoring camera. The mounting mechanism applied to the high-altitude parabolic monitoring camera comprises a fixed framework, a monitoring camera and a solar cell panel, wherein the fixed framework is provided with an arc-shaped adjusting frame on the left side, the monitoring camera is controlled by an adjusting motor, and the solar cell panel is controlled by an electric control hydraulic support rod, so that the angles of the monitoring camera and the solar cell panel can be adjusted, the monitoring range is wider, the solar energy conversion efficiency is greatly improved, and the later-stage use and control are convenient; the monitoring camera is fixedly assembled through the locking bolt on the outer side of the rear mounting sleeve frame, so that the mounting and dismounting are convenient, and the adaptation range is improved; the arc-shaped adjusting frame is used for enhancing the assembling firmness of the arc-shaped adjusting frame and the arc-shaped adjusting frame, and the safety of the arc-shaped adjusting frame and the arc-shaped adjusting frame in severe weather can be improved.

Description

Be applied to high altitude and throw thing installation mechanism of monitoring camera

Technical Field

The invention relates to the technical field of high-altitude monitoring camera equipment, in particular to an installation mechanism applied to a high-altitude parabolic monitoring camera.

Background

The high-altitude monitoring camera is an acquisition device which aims at high-rise building video monitoring and converts light images in a range from visible light to near infrared spectrum on a target surface of an image sensor into video image signals. Mainly comprises a shell, a photosensitive element, a lens and other parts. The high altitude is thrown thing because its position is very high, lead to the monitoring degree of difficulty very big, consequently need the high altitude monitoring camera to come the cooperation monitoring, traditional high altitude monitoring camera is mostly installed on wall and support through fixing device, and fixing device's mounted position is lower, lead to it to shoot the distance than far away, it is not enough even to shoot the precision, the structure is fixed simultaneously, can't adjust, it is limited to shoot the scope, also can't self-power, lead to later stage use cost than higher, the adaptation degree is less.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the background technology, an improved mounting mechanism applied to a high-altitude parabolic monitoring camera is provided, and the problems that the mounting position of a fixing device for the traditional high-altitude monitoring camera is low, the structure is fixed, the fixing device cannot be adjusted, the shooting range is limited, self-power cannot be supplied, the later-stage use cost is high, and the adaptability is low are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: an installation mechanism applied to a high-altitude parabolic monitoring camera comprises a fixed frame, a monitoring camera, a solar cell panel, an electric control hydraulic support rod and an adjusting motor, wherein the fixed frame, the monitoring camera, the solar cell panel, the electric control hydraulic support rod and the adjusting motor are arranged on the outer wall of a building, an arc adjusting frame is welded on the outer wall of the left side of the fixed frame, the left side of the fixed frame is positioned at the inner side of the arc adjusting frame and is movably assembled with an internal assembly pipe, the outer side end of the internal assembly pipe is welded and fixed with a rear installation sleeve frame for assembling the monitoring camera, the left side of the fixed frame is positioned above the internal assembly pipe and is fixedly connected with an inclined assembly seat for installing the adjusting motor, the outer side of a rotating shaft at the lower end of the adjusting motor is in threaded connection with an internal thread telescopic pipe, the bottom end of the internal thread telescopic pipe is movably connected with the outer side of the internal assembly pipe through a movable connecting rod, a front assembly groove with a built-in longitudinal assembly shaft is arranged in the middle section of the outer side of the arc adjusting frame, the solar cell panel is sleeved on the longitudinal assembling shaft through the rear movable support and movably connected with the outer side of the arc-shaped adjusting frame, and a lateral assembling opening used for installing the electric control hydraulic support rod is formed in the arc-shaped adjusting frame.

The rear mounting sleeve frame is fixedly connected with the outer side surface of the monitoring camera through the locking bolts.

The arc adjusting frame is internally provided with an arc adjusting hole, the outer side surface of the rear mounting sleeve frame is provided with a side guide shaft protruding towards the inside of the arc adjusting hole, and the outer side of the side guide shaft is movably sleeved with a guide roller for reducing friction force.

The rear movable support comprises a fixed back plate fixed on the back of the solar cell panel, a longitudinal assembly pipe fixed on the rear side of the fixed back plate and a movable sleeve arranged on the outer side face of the longitudinal assembly pipe through a movable support, and an external telescopic rod of the electric control hydraulic support rod is fixedly connected with the movable sleeve through being inserted into the movable sleeve.

And an external control groove for installing a light sensation and rainfall switch is formed on the inclined surface of the outer side of the inclined assembly seat.

The side surface in the lateral assembly port is positioned on the upper end and the lower end of the electric control hydraulic stay bar and is provided with a transverse assembly pipe, and the electric control hydraulic stay bar is inserted into the inner part of the transverse assembly pipe through an upper end and a lower end integrated structure assembly shaft and is movably connected with the inner part of the lateral assembly port.

The invention has the beneficial effects that:

(1) the mounting mechanism applied to the high-altitude parabolic monitoring camera comprises a fixed framework, a monitoring camera and a solar cell panel, wherein the fixed framework is provided with an arc-shaped adjusting frame on the left side, the monitoring camera is controlled by an adjusting motor, and the solar cell panel is controlled by an electric control hydraulic support rod, so that the angles of the monitoring camera and the solar cell panel can be adjusted, the monitoring range is wider, the solar energy conversion efficiency is greatly improved, and the later-stage use and control are convenient;

(2) an internal assembly pipe with a rear-mounted sleeve frame is movably assembled on the left side of the fixed frame, the rear-mounted sleeve frame for assembling the monitoring camera is fixedly welded on the outer end of the internal assembly pipe, the monitoring camera is fixedly assembled through a locking bolt on the outer side of the rear-mounted sleeve frame, the assembly and disassembly are convenient, and the adaptation range is improved;

(3) the monitoring camera adjusts the frame and vertically overturns along the arc and adjusts, and solar cell panel adjusts the frame and transversely overturns along the arc and adjusts, adjusts the frame through the arc and strengthens assembly firmness between them, can promote its security under adverse weather.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

Fig. 2 is a schematic structural diagram of an electrically controlled hydraulic strut mounting end according to the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

The installation mechanism applied to the high-altitude parabolic monitoring camera shown in the figures 1 and 2 comprises a fixed frame 1, a monitoring camera 2, a solar cell panel 3, an electric control hydraulic support rod 4 and an adjusting motor 5, wherein the adjusting motor 5 is used for adjusting the turnover of an internal assembly pipe 7, the electric control hydraulic support rod 4 is used for controlling the solar cell panel 3 to overturn, the outer side end of the solar cell panel 3 is fixed with a rear movable support, when the solar cell panel is in severe weather, the electric control hydraulic support rod 4 controls the solar cell panel 3 to be tightly attached to an arc-shaped adjusting frame 6 to improve the support resistance of the solar cell panel, the solar cell panel can be automatically controlled through a light sensation switch and a rain amount switch and also can be manually and remotely controlled, the electric control hydraulic support rod 4 and the adjusting motor 5 are powered by the solar cell 3, then the angle sleeve of the monitoring camera 2 can be automatically controlled and adjusted at regular time, and the day is upward, the solar cell panel is downwards monitored at night, so that high-altitude monitoring can be realized, a cell can be monitored at night, an arc-shaped adjusting frame 6 is welded on the outer wall of the left side of a fixed frame 1, an internal assembly pipe 7 is movably assembled at the inner side of the arc-shaped adjusting frame 6 at the left side of the fixed frame 1, a rear mounting sleeve frame 8 for assembling a monitoring camera 2 is fixedly welded at the outer side end of the internal assembly pipe 7, an inclined mounting seat 9 for mounting an adjusting motor 5 is fixedly connected to the upper side of the internal assembly pipe at the left side of the fixed frame 1, an internal thread telescopic pipe 10 is connected to the outer side of a rotating shaft at the lower end of the adjusting motor 5 in a threaded manner, the bottom end of the internal thread telescopic pipe 10 is movably connected with the outer side face of the internal assembly pipe 7 through a movable connecting rod 11, a front mounting groove 11 with a built-in longitudinal assembly shaft is formed in the middle section of the outer side face of the arc-shaped adjusting frame 6, and the solar cell panel 3 is sleeved on the longitudinal assembly shaft and movably connected with the outer side of the arc-shaped adjusting frame 6 through a rear movable support, the arc is adjusted 6 inside and is offered the side direction assembly opening 12 that is used for installing automatically controlled hydraulic pressure vaulting pole 4, and furtherly, in order to cooperate inside fixed, set up the side direction internal thread pilot hole of 4 built-in locking bolts 13 on the 8 lateral surfaces of rearmounted installation cover frame, rearmounted installation cover frame 8 passes through locking bolts and 2 lateral surfaces fixed connection of monitoring camera.

Further, in order to promote regulation stability and reduce the direction frictional force, arc regulation hole 14 has been seted up to arc regulation frame 6 inside, it has the side guiding axle 15 to the inside bellied arc regulation hole 14 on the 8 lateral surfaces of rearmounted installation cover frame, the guide roller 16 that reduces the frictional force has been cup jointed in the activity of side guiding axle 15 outside, furthermore, in order to install adjusting device conveniently, rearmounted movable support is including fixing the fixed backplate 17 at the solar cell panel 3 back, fix the vertical assembly pipe 18 at fixed backplate 17 rear side and install the movable sleeve 20 on the 18 lateral surfaces of vertical assembly pipe through the movable support, the outside telescopic link of automatically controlled hydraulic strut 4 is through inserting inside and the movable sleeve 20 fixed connection of movable sleeve 20.

Further, in order to conveniently install the external control switch, an external control groove 21 for installing a light sensation switch and a rain amount switch is formed in the inclined plane of the outer side of the inclined assembly seat 9, an internal cover plate for facilitating assembly and disassembly of the adjusting motor 5 is further fixed inside the external control groove 21 through bolts, the adjusting motor 5 is replaced by disassembling the internal cover plate, a lateral opening for installing an external thread rotating shaft is formed in one side of the external control groove 21, further, in order to conveniently assemble transversely, the inner side face of the lateral assembly opening 12 is located on the electric control hydraulic support rod 4, the lower end of the electric control hydraulic support rod 4 is provided with a transverse assembly pipe 22, and the electric control hydraulic support rod 4 is connected with the inside of the lateral assembly opening 12 in a mode through an upper end and lower end integrated structure assembly shaft inserted into the transverse assembly pipe 22.

The mounting mechanism applied to the high-altitude parabolic monitoring camera comprises a fixing frame 1 with an arc-shaped adjusting frame 6 on the left side, a monitoring camera 2 controlled by an adjusting motor 5 and a solar cell panel 3 controlled by an electric control hydraulic stay bar 4, so that the angles of the monitoring camera 2 and the solar cell panel 3 can be adjusted, the monitoring range is wider, the solar energy conversion efficiency is greatly improved, and the later-stage use and control are convenient; an internal assembly pipe 7 with a rear-mounted sleeve frame 8 is movably assembled on the left side of the fixed frame 1, the rear-mounted sleeve frame 8 for assembling the monitoring camera 2 is fixedly welded on the outer side end of the internal assembly pipe 7, and the monitoring camera 2 is fixedly assembled through a locking bolt 13 on the outer side of the rear-mounted sleeve frame 8, so that the assembly and disassembly are convenient, and the adaptation range is improved; monitoring camera 2 is adjusted along the vertical upset of arc adjusting frame and is adjusted, and solar cell panel 3 is adjusted along the 6 horizontal upset of arc adjusting frame and is adjusted, adjusts frame 6 through the arc and strengthens assembly firmness between them, can promote its security under adverse weather.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides an installation mechanism for thing monitoring camera is thrown in high altitude, is including being used for installing fixed frame (1), monitoring camera (2), solar cell panel (3), automatically controlled hydraulic pressure vaulting pole (4) and adjusting motor (5) on the building outer wall, characterized by: the outer wall of the left side of the fixed frame (1) is welded with an arc-shaped adjusting frame (6), the left side of the fixed frame (1) is positioned at the inner side of the arc-shaped adjusting frame (6) and is movably assembled with an internal assembly pipe (7), the outer side end of the internal assembly pipe (7) is fixedly welded with a rear installation sleeve frame (8) for assembling a monitoring camera (2), the left side surface of the fixed frame (1) is positioned above the internal assembly pipe (7) and is fixedly connected with an inclined assembly seat (9) for installing an adjusting motor (5), the outer side of a rotating shaft at the lower end of the adjusting motor (5) is in threaded connection with an internal thread telescopic pipe (10), the bottom end of the internal thread telescopic pipe (10) is movably connected with the outer side surface of the internal assembly pipe (7) through a movable connecting rod, and the outer side surface of the middle section of the arc-shaped adjusting frame (6) is provided with a front assembly groove (11) with a built-in which a longitudinal assembly shaft is arranged, the solar cell panel (3) is sleeved on the longitudinal assembly shaft through the rear movable support and is movably connected with the outer side of the arc-shaped adjusting frame (6), and a lateral assembly opening (12) used for installing the electric control hydraulic support rod (4) is formed in the arc-shaped adjusting frame (6).

2. The mounting mechanism for the high altitude parabolic monitoring camera according to claim 1, wherein: the device is characterized in that a plurality of lateral internal thread assembling holes with built-in locking bolts (13) are formed in the outer side face of the rear mounting sleeve frame (8), and the rear mounting sleeve frame (8) is fixedly connected with the outer side face of the monitoring camera (2) through the locking bolts (13).

3. The mounting mechanism for the high altitude parabolic monitoring camera according to claim 1, wherein: arc regulation frame (6) inside seted up arc regulation hole (14), rearmounted installation cover frame (8) lateral surface on have to arc regulation hole (14) inside bellied side guiding axle (15), side guiding axle (15) outside activity cover connect the guide roller (16) that reduce frictional force.

4. The mounting mechanism for the high altitude parabolic monitoring camera according to claim 1, wherein: the rear movable support comprises a fixed back plate (17) fixed on the back of the solar panel (3), a longitudinal assembly pipe (18) fixed on the rear side of the fixed back plate (17) and a movable sleeve (20) installed on the outer side surface of the longitudinal assembly pipe (18) through a movable support, and an external telescopic rod of the electric control hydraulic support rod (4) is fixedly connected with the movable sleeve (20) through being inserted into the movable sleeve (20).

5. The mounting mechanism for the high altitude parabolic monitoring camera according to claim 1, wherein: an outer control groove (21) for installing a light sensation switch and a rain amount switch is formed in the inclined surface of the outer side of the inclined assembly seat (9).

6. The mounting mechanism for the high altitude parabolic monitoring camera according to claim 1, wherein: the inner side surface of the lateral assembly port (12) is positioned at the upper end and the lower end of the electric control hydraulic stay bar (4) and is provided with a transverse assembly pipe (22), and the electric control hydraulic stay bar (4) is inserted into the transverse assembly pipe (22) through an upper end and a lower end integrated structure assembly shaft and is movably connected with the inside of the lateral assembly port (12).

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