CN221467841U - Binocular illumination video recorder that rotates to connect - Google Patents

Abstract

The utility model relates to a rotary-connection binocular lighting video recorder which comprises a lamp cap, a power panel arranged in the lamp cap, a commercial power connecting piece arranged above the lamp cap, wherein the commercial power connecting piece is connected with the power panel, a lamp holder is connected to the lower end of the lamp cap, a second camera component connected with the power panel is arranged in the lamp holder, a first camera component is arranged on the lamp cap, the lamp cap can rotate relative to the commercial power connecting piece to adjust the monitoring position of the first camera component, and the first camera component is electrically connected with the second camera component and transmits signals. The first camera component is arranged on the lamp cap to conduct wide-angle monitoring, the abnormal signal angle is transmitted to the second control board to drive the second camera to rotate to the angle to conduct high-definition monitoring, monitoring quality is improved, and monitoring information is recorded and stored. The lamp holder is connected with the mains supply connecting piece through rotating the connecting piece, makes things convenient for the position of the first camera of adjustment after the mains supply connecting piece inserts the mains supply, and the junction sets up the sealing washer and feel better when rotating.

Description

Binocular illumination video recorder that rotates to connect

Technical Field

The utility model relates to the field of video recorders, in particular to a binocular illumination video recorder in rotary connection.

Background

Video recorder (camera) is also called computer camera, computer eye, electronic eye, etc. and is a video input device widely used in video conference, remote medical treatment and real-time monitoring. The camera is widely applied to monitoring, namely commonly called a monitoring camera, the existing binocular monitoring camera is usually used for placing two groups of cameras on a lamp holder and performing rotation driving, and a high-definition camera drives a wide-angle camera to rotate in the rotation process, so that the monitoring range is changed; meanwhile, the camera can only monitor and cannot illuminate, meanwhile, the connection direction needs to be considered when the wide-angle camera is installed, if the connection direction is incorrect, the direction monitored by the wide-angle camera is not the direction required to be monitored, and the installation is inconvenient, so improvement is required.

Chinese patent publication No. CN219268989U provides a binocular camera, including base and monitoring component, monitoring component installs on the base, be provided with the lamp plate on the monitoring component, be provided with first lamp pearl and second lamp pearl on the lamp plate, be provided with first lamp shade on the first lamp pearl, first lamp shade is used for with the radiation angle control of the light of first lamp pearl is in first default angle range, be provided with on the second lamp pearl the second lamp shade, the second lamp shade is used for with the radiation angle control of the light of second lamp pearl is in second default angle range, the maximum value of first default angle range is less than the minimum value of second default angle range. According to the utility model, through the two angle lamp shades, the radiation angles of the first lamp beads and the second lamp beads are controlled, different lenses are switched according to the far and near views watched as required, and the high definition effect of night vision is improved by matching the light transmitted by the lamp shades with different angles, so that the stability of the definition of the monitoring picture is ensured. The binocular camera in this patent sets up side by side, and it often rotates simultaneously when rotating, and the monitoring range changes after the wide-angle camera rotates, and the monitoring effect exists the flaw.

Chinese patent publication No. CN217363196U provides a gun-ball linkage binocular zoom camera, comprising a fixed bracket, a gun-receiver housing connected with the fixed bracket, and a ball unit assembly rotatably and movably connected with the gun-receiver housing; the camera is characterized in that a control circuit board and a first driving motor for driving the ball machine assembly to axially rotate are arranged inside the camera shell, the ball machine assembly comprises a rotary connecting piece movably connected with the camera shell and a ball camera which is arranged on the inner side of the rotary connecting piece and can axially rotate relative to the rotary connecting piece, a camera lens is arranged on the outer side of the camera shell, a camera lens is arranged on the outer side of the camera lens, the first driving motor, the camera lens and the camera lens are electrically connected with the control circuit board, the camera lens further comprises a communication antenna connected with the outer side of the camera shell, in the practical application process, simultaneous operation of a plurality of cameras is realized, multi-screen monitoring is realized, the camera can simultaneously record and view two pictures, simultaneously record and play back, and the application effect is better. The ball camera and the gun camera in the patent can realize asynchronous rotation, but the monitoring azimuth of the gun camera is fixed due to the fixation of the gun camera, and the monitoring azimuth of the gun camera cannot be changed due to the fact that the monitoring azimuth of the gun camera is fixed in the installation process.

Disclosure of Invention

The utility model aims to solve the technical problems that the existing binocular monitoring cameras are often characterized in that two groups of cameras are arranged on a lamp holder and are driven to rotate, and a high-definition camera drives a wide-angle camera to rotate in the rotating process, so that the monitoring range is changed; meanwhile, the camera can only monitor and cannot illuminate, meanwhile, the connection direction needs to be considered when the wide-angle camera is installed, if the connection direction is incorrect, the direction monitored by the wide-angle camera is not the direction required to be monitored, and the installation is inconvenient. Aiming at the defects in the prior art, the binocular illumination video recorder is provided with rotary connection.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model provides a structure is rotated binocular illumination video recorder of connection, includes the lamp holder to and the power strip of setting in the lamp holder, set up the commercial power connecting piece in the lamp holder top, the commercial power connecting piece is connected with the power strip, inserts the commercial power for the video recorder through the commercial power connecting piece to step down by the power strip, the lamp holder lower extreme is connected with the lamp stand, be provided with the second camera subassembly of being connected with the power strip in the lamp stand, be provided with first camera subassembly on the lamp holder, and the lamp holder can rotate with the monitoring position of adjusting first camera subassembly relative the commercial power connecting piece, first camera subassembly is connected with second camera subassembly electricity and carries out signal transmission.

Preferably, the utility power connecting piece is connected with the lamp holder through rotating the connecting piece, the lamp holder upper end is provided with the through-hole, inwards extends in the through-hole to form the interior bulge loop, rotates the connecting piece lower extreme and corresponds interior bulge loop and be provided with two at least groups engaging lug, and the engaging lug tip is provided with the fixture block that makes lamp holder and utility power connecting piece relative rotation with interior bulge loop movable joint.

Preferably, the upper end of the inner convex ring is provided with a sealing groove, a sealing ring is arranged in the sealing groove, and the sealing ring is arranged at the rotary joint of the mains supply connecting piece and the lamp cap.

Preferably, the lamp holder is internally provided with a first motor, the first motor drives the lamp holder to rotate left and right so as to enable the second camera assembly to rotate left and right, the lamp holder is internally provided with a second motor, the second motor drives the second camera assembly to rotate up and down, the lamp holder is internally provided with a second lamp panel, the lamp holder is made of a light-transmitting material, and the lamp holder is illuminated after the second lamp panel emits light.

Preferably, the lamp stand includes the runing rest of being connected with the lamp holder to and the support shell of being connected with the runing rest, first motor drive runing rest left and right sides rotates and makes second camera subassembly left and right sides rotate, be provided with bearing structure in the runing rest, the second lamp plate is arranged in on the bearing structure, and the downside all is provided with the lamp pearl and carries out luminous illumination about the second lamp plate.

Preferably, the second camera assembly comprises a front shell, a second camera arranged on the front shell, and a second control board arranged in the front shell, wherein the second control board is connected with the first camera assembly and used for data transmission, the front shell is connected with the rotating bracket and rotates left and right along with the rotating bracket to enable the second camera to rotate left and right, and the second motor is arranged in the front shell and drives the front shell to rotate up and down to enable the second camera to rotate up and down.

Preferably, the rotary support is internally provided with a supporting device, the rotary support is connected with the front shell through the supporting device, the supporting device comprises a left support frame and a right support frame, the front shell is provided with the left support frame corresponding to the left support frame, the left support frame is connected with the left support frame through a rotating shaft, the front shell is provided with the right support frame corresponding to the right support frame, the second motor is connected with the right support frame, and the second motor rotating shaft is fixed on the right support frame, when the second motor works, the second motor rotating shaft is fixed, and the second motor body rotates up and down to drive the front shell to rotate up and down, so that the second camera rotates up and down.

Preferably, the lamp holder is provided with a travel groove, the second camera is arranged in the travel groove for rotation, the left support frame is provided with an arc groove, the left support frame is provided with a travel block corresponding to the arc groove, and when the travel block is in contact with the end part of the arc groove, the second camera is arranged at the end part of the travel groove.

Preferably, the front shell is provided with an arc-shaped rotating surface, the second camera is arranged on the arc-shaped rotating surface, and when the second camera is arranged at the end part of the travel groove, the arc-shaped rotating surface still covers the travel groove.

Preferably, the first camera subassembly includes first lamp plate, correspond first lamp plate on the lamp holder and be provided with the lamp lid, the lamp lid can be dismantled with first lamp plate and be connected, be provided with first motor fixed column in the lamp holder, first motor is fixed in on the first motor fixed column, and first motor fixed column perisporium is provided with multiunit strengthening rib, is provided with the spacing groove that passes the strengthening rib on the power strip.

The utility model has the beneficial effects that: the first camera component is arranged on the lamp cap to conduct wide-angle monitoring, the abnormal signal angle is transmitted to the second control board to drive the second camera to rotate to the angle to conduct high-definition monitoring, monitoring quality is improved, and monitoring information is recorded and stored. The lamp holder is connected with the mains supply connecting piece through rotating the connecting piece, makes things convenient for the position of the first camera of adjustment after the mains supply connecting piece inserts the mains supply, and the junction sets up the sealing washer and feel better when rotating.

The supporting structure on the rotating bracket is rotationally connected with the bracket of the front shell, so that the second camera component rotates up and down, the upper and lower rotation angles of the second camera are limited by the arc-shaped groove and the travel block, and the adjustment is more convenient. Meanwhile, as the lamp holder is made of light-transmitting materials, the lamp panel arranged in the lamp holder can enable the second camera to perform illumination work after light emission, the application of the video recorder is enriched, a certain light supplementing effect is provided for monitoring video recording work, and the monitoring video recording is clearer.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a schematic perspective view of a video recorder according to a preferred embodiment of the present utility model;

FIG. 2 is a schematic diagram of an exploded view of a video recorder according to a preferred embodiment of the present utility model;

FIG. 3 is a schematic view illustrating the connection of the rotary connector and the seal ring according to the preferred embodiment of the present utility model;

FIG. 4 is a schematic top view of a lamp head according to a preferred embodiment of the present utility model;

FIG. 5 is a schematic diagram showing the connection structure of the lamp cap, the first motor, the power panel and the first camera module according to the preferred embodiment of the present utility model;

FIG. 6 is a schematic diagram of a connection structure between a lamp cap and a power panel according to a preferred embodiment of the present utility model;

FIG. 7 is a schematic perspective view of a first camera module according to a preferred embodiment of the present utility model;

FIG. 8 is a schematic top view of a rotary support according to a preferred embodiment of the present utility model;

FIG. 9 is a schematic view of the structure of the upper side of the rotary rack according to the preferred embodiment of the present utility model;

FIG. 10 is a schematic view of the axial side structure of the housing of the bracket according to the preferred embodiment of the present utility model;

FIG. 11 is a schematic view showing a rear side shaft structure of a second camera module according to the preferred embodiment of the present utility model;

Fig. 12 is a schematic diagram of a front registration structure of a second camera module according to a preferred embodiment of the present utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

The binocular illumination video recorder is rotationally connected; 1-2, including lamp holder 20, and the screw interface 10 of being connected with the lamp holder, be provided with the power strip of being connected with screw interface in the lamp holder, it is the work of outputting after the video recorder inserts the commercial power and steps down for 5V through the power strip through screw interface, still be provided with second motor 503 and first camera subassembly 40 in the lamp holder, the lamp holder below is connected with lamp stand 30, the lamp stand includes and is connected with the second motor and can rotate relative lamp holder pivoted runing rest 300, the runing rest below is provided with support shell 301, still be provided with second camera subassembly 50 in the lamp stand, the second camera subassembly includes second camera 501, and the second control panel 502 of being connected with the second camera, the second control panel is connected with the power strip and drives first camera subassembly and second camera subassembly work. The first camera assembly 40 may be a wide-angle camera, which has a wide monitoring range but poor shooting definition; the second camera component adopts a high-definition camera, the monitoring range is narrow, but the shooting definition is high, the monitoring information monitored by the first camera component is transmitted to the second control board and drives the second camera component to rotate in the monitoring direction to acquire the high-definition monitoring information, and therefore high-definition comprehensive monitoring video recording is realized through binocular monitoring.

Specifically, as shown in fig. 2-4, the screw interface 10 is connected with the lamp cap 20 through a connecting piece, one side of the lamp cap connected with the screw interface is provided with a through hole 200, an inner convex ring 201 is formed on the through hole by extending inwards, the upper end of the rotating connecting piece 60 is fixedly connected with the screw interface, a plurality of groups of connecting lugs 600 are arranged at the lower end of the rotating connecting piece, the connecting lugs penetrate through the through hole 200 to enter the lamp cap, a rotating connecting piece clamping block 601 is arranged at the lower end of the connecting lugs, clamping force is generated between the rotating connecting piece clamping block and the inner convex ring, the rotating connecting piece is connected with the lamp cap, and the rotating connecting piece 60 can rotate on the lamp cap 20 so as to realize the rotation of the lamp cap relative to the screw interface through the rotating connecting piece. In order to increase the touch sense of rotation of the rotating connecting piece relative to the lamp holder, the connecting lug is sleeved with the sealing ring 70, the inner convex ring is provided with the sealing groove 202 corresponding to the sealing ring, the sealing ring is arranged in the sealing groove to enable the rotating connecting piece and the lamp holder to rotate through the sealing ring, the rotating harshness generated by contact rotation between the rotating connecting piece and the lamp holder is avoided, meanwhile, the sealing ring also enhances the tightness between the rotating connecting piece and the lamp holder, meanwhile, the friction force between the lamp holder and the rotating connecting piece is increased, the direction during rotation is enabled to be more accurate, and meanwhile, the direction after rotation is stabilized. It should be noted that, the mains supply access structure such as the plug can also be replaced with the threaded interface 10 to be the power panel to access the mains supply, at this time, the threaded interface or the plug can be directly connected to the mains supply, and then the lamp holder is rotated to enable the first camera component to be aligned to a proper direction, so that the abnormality of the monitoring direction of the first camera after the threaded interface is installed in place when the traditional first camera component is fixed with the threaded interface is avoided, or a proper mode is difficult to find to enable the threaded interface or the plug to be inserted into the proper direction.

Further, as shown in fig. 5-6, two sets of power board fixing posts 207 are provided in the lamp cap 20, and two sets of power board fixing holes 801 are correspondingly provided on the power board 80 to fix the power board in the lamp cap. Two groups of first motor fixing columns 205 are further arranged in the lamp cap, the first motor 90 is fixed on the first motor fixing columns through screws, and the first motor rotating shaft 900 is arranged towards the lamp holder. Because the first motor fixing column 205 is higher in height, in order to avoid folding of the first motor fixing column, the first motor fixing column is provided with reinforcing ribs 2050 around, and strength of the first motor fixing column is increased through the reinforcing ribs. Meanwhile, a power panel limiting bar 2051 is further formed on the first motor fixing seat, a power panel limiting groove 800 is correspondingly formed in the power panel, installation of the power panel is facilitated, and a stop plate 206 is further arranged in the lamp cap to prevent the power panel from shaking.

Further, as shown in fig. 4-7, the first camera assembly 40 is disposed in the lamp cap, and the first camera assembly includes a first control board 403, and a first lamp panel 401 connected to the first control board, where the first lamp panel and the first control board are fixed by a lamp panel bracket 402, and the first camera 400 passes through a sidewall of the lamp cap while the first lamp panel faces an external direction of the lamp cap. The lamp cap 20 is further provided with a lamp cap 203, the area of the lamp cap is the same as that of the first lamp plate, the lamp plate is transparent, a camera protection column 2030 is arranged on the lamp plate corresponding to the first camera, and the first camera is arranged in the camera protection column and plays a role in protecting the first camera from the lateral direction. To facilitate the removal of the lamp cap 203, the lamp cap is snap-connected to the lamp cap by a lamp cap snap 2031. The information acquired by the first camera is sent to the first control board through the first control board, and the second control board drives the first motor or the second motor to rotate so that the second camera component aims at the acquisition azimuth and acquires the azimuth information.

Further, as shown in fig. 2, the lamp socket 30 includes a rotating bracket 300, and a bracket housing 301 connected to the rotating bracket, a travel groove 302 is reserved on the rotating bracket and the bracket housing, the second camera assembly 50 is disposed in a space surrounded by the rotating bracket and the bracket housing, and the second camera is disposed at the travel groove.

Further, as shown in fig. 5-6 and 8, a sliding convex ring 204 is provided on the side of the lamp cap 20 facing the lamp base, a sliding groove 3002 is provided on the upper end of the rotating bracket corresponding to the sliding convex ring, the sliding convex ring and the clamp are inserted into the sliding groove, and can rotate relatively to the lamp base, when the lamp cap needs to be disassembled, only a shaping deformation force is applied to the lamp cap to deform the lamp cap, and the lamp cap can be disassembled in a shape-restorable manner. The rotating bracket 300 is provided with a first motor rotating shaft seat 3000 corresponding to the first motor rotating shaft 900, the first motor rotating shaft is non-cylindrical, and when the first motor works, the first motor rotating shaft rotates to drive the rotating bracket to rotate left and right so as to enable the second camera component to rotate left and right. The upper end of the rotating bracket 300 is further provided with a hollowed-out portion 3001, so that the power panel 80 and the second control panel 502 and the connecting wires of the first control panel 403 and the second control panel can conveniently penetrate through.

Further, as shown in fig. 8 to 10, the lower end of the rotating bracket 300 is provided with a lower convex ring 3005, and the bracket housing is provided with a step 3010 corresponding to the lower convex ring, thereby increasing the tightness of the rotating bracket and the bracket housing. The rotary support is also internally provided with a plurality of groups of rotary support buckles 3003, the support shell is internally provided with support shell grooves 3012 corresponding to the rotary support buckles, and support shell bayonets 3013 are arranged in the support shell grooves to connect and lock the support shell with the rotary support. A plurality of groups of baffle 3011 are also arranged in the bracket shell 301, and the lower convex ring is arranged in the step and provides a blocking force by the baffle, so that the connection of the rotary bracket and the bracket shell is convenient. In order to increase the heat dissipation of the lamp socket, heat dissipation holes 3004 are also provided in the rotating bracket.

Further, as shown in fig. 9 to 12, the second camera module 50 includes a front case 500, and a fixed front case supporting device is provided in the rotary bracket 300, and the supporting device includes a left supporting frame provided at the left side inside the rotary bracket and a right supporting frame 3007 provided at the right side inside the rotary bracket. The front shell 500 comprises a left bracket 5000 connected with a left support frame, a rotating shaft 5005 is arranged on the left bracket, and a front shell connecting column 30061 is arranged on the left support frame corresponding to the rotating shaft hole; the front shell further comprises a right support 5001, a second motor fixing groove 5004 is formed in the right support, a second motor fixing piece 5032 is connected with the front shell through the second motor fixing groove, a U-shaped groove 5003 is further formed in the right support, a second motor rotating shaft 5030 penetrates through the U-shaped groove, and a second motor support column 5031 at the end of the second motor rotating shaft is attached to the U-shaped groove to provide supporting force in the horizontal direction for the second motor. The right support frame 3007 is provided with a second motor rotating shaft fixing column 30071 corresponding to the second motor rotating shaft groove 30070, and the second motor rotating shaft is connected with the second motor rotating shaft fixing column through a screw, so that when the second motor rotates, the second motor rotating shaft is not moved, and the second motor rotates and drives the front shell to rotate up and down.

Further, as shown in fig. 9-12, the front shell 500 further includes an arc-shaped rotating surface 5002 connecting the left bracket and the right bracket, and the second camera 501 is disposed on the arc-shaped rotating surface, and in this embodiment, is disposed at a position in the middle of the arc-shaped rotating surface. A second control board 502 connected with the second camera is further arranged in the front shell, the arc-shaped rotating surface 5002 is arranged corresponding to the travel groove 302, and when the second camera rotates to the end of the travel groove, part of the arc-shaped rotating surface is still positioned on the travel groove. In order to increase the limiting effect during rotation, an arc-shaped groove 30060 is formed in the left support frame 3006, a travel block 5006 is arranged on the left support frame corresponding to the arc-shaped groove, when the front shell is connected with the rotating support frame, the travel block is arranged at the arc-shaped groove, and when the length of the arc-shaped groove is the same as that of the travel groove, and when the travel block is arranged at the end of the arc-shaped groove, the second camera is also arranged at the end of the travel groove. At this time, the second motor can only rotate along the direction of the other end part so as to realize the limit of the up-and-down monitoring angle.

Further, as shown in fig. 2 and 9, the second camera module 50 further includes a second light panel 504, a second light panel supporting table 3008 and a second light panel fixing post 3009 are disposed on the left support frame and the right support frame corresponding to the second light panel to fix the second light panel in the rotating bracket, and the second light panel is electrically connected with the second control board 502 and controlled by the second control board. The second light plate can be selected to be provided with light plates on the upper side and the lower side, and the rotating bracket 300 and the bracket shell 301 are made of light-transmitting materials at the moment, so that the video recorder can perform illumination work when the second light plate emits light.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes in the features and embodiments may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a binocular illumination video recorder that rotates to be connected, includes the lamp holder to and the power strip of setting in the lamp holder, set up the commercial power connecting piece in the lamp holder top, the commercial power connecting piece is connected with the power strip, inserts the commercial power for the video recorder through the commercial power connecting piece to step down by the power strip, the lamp holder lower extreme is connected with the lamp stand, be provided with the second camera subassembly of being connected with the power strip in the lamp stand, its characterized in that: be provided with first camera subassembly on the lamp holder, and the lamp holder can rotate in order to adjust the monitoring position of first camera subassembly relative mains connection spare, and first camera subassembly is connected with second camera subassembly electricity and carries out signal transmission.

2. The binocular lighting recorder of claim 1, wherein: the utility power connecting piece is connected with the lamp holder through rotating the connecting piece, the lamp holder upper end is provided with the through-hole, inwards extends in the through-hole to be formed with interior bulge loop, rotates the connecting piece lower extreme and corresponds interior bulge loop and be provided with two at least groups engaging lug, and the engaging lug tip be provided with interior bulge loop movable joint's fixture block messenger lamp holder and the relative rotation of utility power connecting piece.

3. The binocular lighting recorder of claim 2, wherein: the upper end of the inner convex ring is provided with a sealing groove, a sealing ring is arranged in the sealing groove, and the sealing ring is arranged at the rotary joint of the mains supply connecting piece and the lamp cap.

4. A binocular lighting video recorder according to any one of claims 1 to 3, wherein: the lamp holder is internally provided with a first motor, the first motor drives the lamp holder to rotate left and right so that the second camera assembly rotates left and right, the lamp holder is internally provided with a second motor, the second motor drives the second camera assembly to rotate up and down, the lamp holder is internally provided with a second lamp panel, the lamp holder is made of a light-transmitting material, and the lamp holder is illuminated after the second lamp panel emits light.

5. The binocular lighting recorder of claim 4, wherein: the lamp stand includes the runing rest of being connected with the lamp holder to and the support shell of being connected with the runing rest, and first motor drive runing rest rotates about making second camera subassembly rotate, be provided with bearing structure in the runing rest, the second lamp plate is arranged in on the bearing structure, and the downside all is provided with the lamp pearl and carries out luminous illumination about the second lamp plate.

6. The binocular lighting recorder of claim 5, wherein: the second camera subassembly includes the preceding shell to and set up the second camera on the preceding shell, and set up the second control panel in the preceding shell, the second control panel is connected and carries out data transmission with first camera subassembly, preceding shell and runing rest are connected and are rotated about the messenger second camera along with the runing rest, and the second motor is arranged in the preceding shell and drive preceding shell and rotate about making the second camera up-and-down.

7. The binocular lighting recorder of claim 6, wherein: the rotary support is internally provided with a supporting device, the rotary support is connected with the front shell through the supporting device, the supporting device comprises a left support frame and a right support frame, the front shell corresponds to the left support frame and is provided with the left support frame, the left support frame is connected with the left support frame through a rotating shaft, the front shell corresponds to the right support frame and is provided with the right support frame, a second motor is connected with the right support frame, a second motor rotating shaft is fixed on the right support frame, and when the second motor works, the second motor rotating shaft is fixed, and the second motor body rotates up and down to drive the front shell to rotate up and down, so that the second camera rotates up and down.

8. The binocular lighting recorder of claim 7, wherein: the lamp holder is provided with a travel groove, the second camera is arranged in the travel groove to rotate, the left support frame is provided with an arc groove, the left support frame is provided with a travel block corresponding to the arc groove, and when the travel block is in contact with the end part of the arc groove, the second camera is arranged at the end part of the travel groove.

9. The binocular lighting recorder of claim 8, wherein: the front shell is provided with an arc-shaped rotating surface, the second camera is arranged on the arc-shaped rotating surface, and when the second camera is arranged at the end part of the travel groove, the arc-shaped rotating surface still covers the travel groove.

10. The binocular lighting recorder of claim 1, wherein: the first camera subassembly includes first lamp plate, corresponds first lamp plate on the lamp holder and is provided with the lamp lid, and the lamp lid can be dismantled with first lamp plate and be connected, be provided with first motor fixed column in the lamp holder, first motor is fixed in on the first motor fixed column, and first motor fixed column week wall is provided with multiunit strengthening rib, is provided with the spacing groove that passes the strengthening rib on the power strip.