CN215335639U - Rotatory pinhole appearance of making a video recording - Google Patents

Abstract

The utility model discloses a rotary pinhole camera which comprises a support frame, a monitoring assembly and a rotating assembly, wherein the monitoring assembly is slidably arranged on the support, the rotating assembly is arranged in the monitoring assembly, the monitoring assembly comprises a flow guide pipe, a camera arranged at one end of the flow guide pipe, a protective cover sleeved on the flow guide pipe and a connecting pipe connected with one end, far away from the camera, of the protective cover, the rotating assembly comprises a motor arranged on the inner wall of the connecting pipe, a first gear sleeved on an output shaft of the motor and a second gear sleeved at one end, far away from the camera, of the flow guide pipe, and the first gear is meshed with the second gear. According to the rotary pinhole camera, the connecting pipe moves rightwards until the camera enters the furnace, then the motor is started, the motor drives the first gear to rotate, so that the second gear and the guide pipe can be driven to rotate, the camera rotates and monitors the condition in the furnace, the camera can rotate without being pushed out of the furnace, and the operation is simple.

Description

Rotatory pinhole appearance of making a video recording

Technical Field

The utility model relates to the technical field of power production monitoring, in particular to a rotary pinhole camera.

Background

The rotary pinhole camera is used for monitoring the industrial production process in the furnace and monitoring the conditions in the furnace during maintenance, and is applied to the aspects of monitoring, safety, fire fighting and the like in the power production process. However, when the rotary pinhole camera rotates the camera, the camera needs to be pushed out of the furnace and then rotated, and the operation process is troublesome.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need for a rotary pinhole camera that does not require the camera to be pushed out of the furnace for rotation.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a rotatory pinhole appearance of making a video recording, rotatory pinhole appearance of making a video recording includes that support frame, slidable ground set up monitoring subassembly and setting on the support are in runner assembly in the monitoring subassembly, monitoring subassembly includes the honeycomb duct, sets up camera, the cover of honeycomb duct one end are established protection casing on the honeycomb duct and with the protection casing is kept away from the connecting pipe that camera one end is connected, runner assembly is including setting up motor, cover on the connecting pipe inner wall are established first gear and cover on the motor output shaft are established the honeycomb duct is kept away from the second gear of camera one end, first gear with the second gear meshes mutually.

Further, the monitoring component also comprises a sealing pipe, and the sealing pipe is arranged at one end, far away from the protective cover, of the connecting pipe.

Furthermore, the space between the protective cover and the flow guide pipe forms a cavity, one end of the cavity is a closed end, the other end of the cavity is an open end, and the camera is located at the open end.

Further, the support frame includes the support body and sets up support piece on the support body, support piece is that the lower extreme has open-ended square column structure, support piece's extending direction with the extending direction of support body is mutually perpendicular.

Further, rotatory pinhole appearance of making a video recording still includes the sliding assembly, the sliding assembly sets up on the support piece.

Furthermore, the sliding assembly comprises a driving motor, a screw rod, a sliding rail and a sliding part, the driving motor is fixedly arranged in the supporting piece, the screw rod is fixedly connected with an output shaft of the driving motor, the sliding rail is fixedly arranged on the top wall of the supporting frame and is positioned on one side of the screw rod, and the sliding part is slidably arranged on the screw rod and the sliding rail.

Further, the sliding part comprises a sliding block and a sliding plate which are connected with each other, the sliding block is sleeved on the screw rod, a sliding groove is formed in the sliding plate, and the sliding groove is connected with the sliding rail in a clamping and embedding manner in a sliding manner.

Furthermore, a connecting piece is arranged between the connecting pipe and the sliding plate, one end of the connecting piece is fixedly connected with the sliding plate, and the other end of the connecting piece is fixedly connected with the connecting pipe.

Further, rotatory pinhole appearance of making a video recording still includes the pipe that sweeps, sweep the pipe with protection casing fixed connection, just sweep the inner chamber of pipe with the cavity is linked together.

Further, be provided with the folding door on the support body, the folding door includes the body and sets up door body on the body, the body is the square tubular structure that both ends link up, the door body sets up the body is close to the one end of monitoring subassembly.

The utility model has the beneficial effects that: according to the rotary pinhole camera provided by the utility model, the connecting pipe moves rightwards until the camera enters the furnace, then the motor is started, the motor drives the first gear to rotate, so that the second gear and the guide pipe can be driven to rotate, the camera can rotate and the condition in the furnace can be monitored, the camera can rotate without being pushed out of the furnace, and the operation is simple.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a schematic diagram of a rotary pinhole camera of the present invention;

FIG. 2 is a schematic structural view of a support frame and a sliding assembly in the rotary pinhole camera shown in FIG. 1;

FIG. 3 is a schematic view of the monitoring assembly of the rotary pinhole camera of FIG. 1;

FIG. 4 is a cross-sectional view taken along A-A of the rotary pinhole camera of FIG. 3;

fig. 5 is a cross-sectional view of another angle in the rotating pinhole camera of fig. 3.

The names and the numbers of the parts in the figure are respectively as follows:

support 1 and frame 11 support 12

Folding door 110 body 111 and body 112

Slide assembly 2 driving motor 21 screw rod 22

Slide rail 23 slide 24 slider 241

Flow guide tube 31 of sliding plate 242 monitoring assembly 3

Camera 32 connects tube 33 to sealing tube 34

Shield 35 cavity 350 connector 25

First gear 42 of motor 41 of rotating assembly 4

Second gear 43 purge tube 5

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Referring to fig. 1 to 5, the present invention provides a rotary pinhole camera, which includes a supporting frame 1, a sliding component 2 disposed on the supporting frame 1, a monitoring component 3 disposed on the sliding component 2, and a rotating component 4 disposed in the monitoring component 3.

Support frame 1 includes support body 11 and support piece 12 of setting on support body 11, support body 11 and furnace body fixed connection, support frame 12 has the square column structure of open-ended for the lower extreme, support piece 12's extending direction is mutually perpendicular with support body 11's extending direction, be provided with folding door 110 on support body 11, folding door 110 includes body 111 and the door body 112 of setting on body 111, body 111 is the square tubular structure that both ends link up, door body 112 sets up the one end that is close to monitoring component 3 at body 111, door body 112 can supply monitoring component 3 to pass.

The sliding assembly 2 comprises a driving motor 21, a screw rod 22, a sliding rail 23 and a sliding part 24, the driving motor 21 is fixedly arranged in the support part 12, the screw rod 22 is fixedly connected with an output shaft of the driving motor 21, the sliding rail 23 is fixedly arranged on the top wall of the support part 12, the sliding rail 23 is positioned on one side of the screw rod 22, and the sliding part 24 is slidably arranged on the screw rod 22 and the sliding rail 23. The sliding member 24 includes a sliding block 241 and a sliding plate 242 that are connected to each other, the sliding block 241 is sleeved on the screw rod 22, a sliding slot (not shown) is formed in the sliding plate 242, and the sliding slot is slidably inserted into the sliding rail 23, so that the sliding block 242 is slidably inserted into the sliding rail 23, when in use, the driving motor 21 is started, an output shaft of the driving motor 21 drives the screw rod 22 to rotate, so that the sliding block 241 slides left and right along the length direction of the screw rod 22, and the sliding plate 242 slides left and right along the length direction of the sliding rail 23.

The monitoring assembly 3 comprises a guide pipe 31, a camera 32, a connecting pipe 33 and a sealing pipe 34, wherein a protective cover 35 is sleeved outside the guide pipe 31, the protective cover 35 is of a tubular structure with two through ends, a space between the protective cover 35 and the guide pipe 31 forms a cavity 350, one end of the cavity 350 is a closed end, the other end of the cavity 350 is an open end, so that the cavity 350 is communicated with external gas, and the camera 32 is located at the open end of the cavity 350. The camera 32 is arranged at one end of the guide tube 31, one end of the guide tube 31 far away from the camera 32 extends into the inner cavity of the connecting tube 33, the connecting tube 33 is fixedly connected with the protective cover 35, the connecting tube 33 is arranged at one end of the protective cover 35 far away from the camera 32, the connecting tube 33 is fixedly connected with the sliding plate 242, and the sealing tube 34 is arranged at one end of the connecting tube 33 far away from the protective cover 35.

Further, a coupling member 25 is provided between the coupling pipe 33 and the sliding plate 242, one end of the coupling member 25 is fixedly connected to the sliding plate 242, and the other end of the coupling member 25 is fixedly connected to the coupling pipe 33.

The rotating assembly 4 is arranged in the inner cavity of the connecting pipe 33, the rotating assembly 4 comprises a motor 41, a first gear 42 and a second gear 43, the motor 41 is fixedly connected with the inner wall of the connecting pipe 33, the first gear 42 is sleeved on an output shaft of the motor 41, the second gear 43 is sleeved on the flow guide pipe 31, and the first gear 42 is meshed with the second gear 43. When the camera is used, the motor 41 is started, and the motor 41 drives the first gear 42 to rotate, so that the second gear 43 and the guide pipe 31 can be driven to rotate, and the camera 32 can further rotate.

Further, a stopper (not shown) is fitted over the output shaft of the motor 41, and the stopper enables the first gear 42 not to be disengaged from the output shaft of the motor 41 when rotated. The guide tube 31 is provided with a flange (not shown) for preventing the second gear 43 from being disengaged from the guide tube 31.

Further, rotatory pinhole appearance of making a video recording still includes and sweeps pipe 5, sweeps pipe 5 and protection casing 35 fixed connection, and sweeps the inner chamber and the cavity 350 of pipe 5 and be linked together, and during the use, gas enters into to the cavity 350 through sweeping pipe 35 in, can cool off honeycomb duct 31 and camera 32 on the one hand, and on the other hand can sweep cavity 350.

When the device is used, the driving motor 21 is started, the output shaft of the driving motor 21 drives the screw rod 22 to rotate, so that the sliding block 241 slides left and right along the length direction of the screw rod 22, the sliding plate 242 slides left and right along the length direction of the sliding rail 23, the sliding plate 242 drives the connecting pipe 33 to move right until the camera 32 penetrates through the folding door 110 and enters the furnace, then the motor 41 is started, the motor 41 drives the first gear 42 to rotate, the second gear 43 and the guide pipe 31 can be driven to rotate, and then the camera 32 can rotate and monitor the condition in the furnace.

According to the rotary pinhole camera provided by the utility model, the connecting pipe 33 moves rightwards until the camera 32 enters the furnace, then the motor 41 is started, the motor 41 drives the first gear 42 to rotate, so that the second gear 43 and the guide pipe 31 can be driven to rotate, further the camera 32 can rotate and the condition in the furnace can be monitored, further the camera 32 can rotate without pushing the camera 32 out of the furnace, and the operation is simple.

In light of the foregoing description of preferred embodiments in accordance with the utility model, it is to be understood that numerous changes and modifications may be made by those skilled in the art without departing from the scope of the utility model. 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 (10)

1. The utility model provides a rotatory pinhole appearance of making a video recording which characterized in that: rotatory pinhole appearance of making a video recording includes that support frame, slidable ground set up monitoring subassembly and setting on the support are in runner assembly in the monitoring subassembly, the monitoring subassembly includes the honeycomb duct, sets up camera, the cover of honeycomb duct one end are established protection casing on the honeycomb duct and with the protection casing is kept away from the connecting pipe that camera one end is connected, the runner assembly is including setting up motor, cover on the connecting pipe inner wall are established first gear and cover on the motor output shaft are established the honeycomb duct is kept away from the second gear of camera one end, first gear with the second gear meshes mutually.

2. The rotary pinhole camera of claim 1 wherein: the monitoring assembly further comprises a sealing pipe, and the sealing pipe is arranged at one end, far away from the protective cover, of the connecting pipe.

3. The rotary pinhole camera of claim 2, characterized by: the space between the protective cover and the flow guide pipe forms a cavity, one end of the cavity is a closed end, the other end of the cavity is an open end, and the camera is located at the open end.

4. The rotary pinhole camera of claim 1 wherein: the support frame includes the support body and sets up support piece on the support body, support piece has open-ended square column structure for the lower extreme, support piece's extending direction with the extending direction of support body is mutually perpendicular.

5. The rotary pinhole camera of claim 4, characterized by: the rotating pinhole camera further comprises a sliding assembly, and the sliding assembly is arranged on the supporting piece.

6. The rotary pinhole camera of claim 5, characterized by: the sliding assembly comprises a driving motor, a screw rod, a sliding rail and a sliding piece, the driving motor is fixedly arranged in the supporting piece, the screw rod is fixedly connected with an output shaft of the driving motor, the sliding rail is fixedly arranged on the top wall of the supporting frame and is located on one side of the screw rod, and the sliding piece is slidably arranged on the screw rod and the sliding rail.

7. The rotary pinhole camera of claim 6, characterized by: the sliding piece comprises a sliding block and a sliding plate which are connected with each other, the sliding block is sleeved on the screw rod, a sliding groove is formed in the sliding plate, and the sliding groove is connected with the sliding rail in a clamping and embedding mode in a sliding mode.

8. The rotary pinhole camera of claim 7 wherein: and a connecting piece is arranged between the connecting pipe and the sliding plate, one end of the connecting piece is fixedly connected with the sliding plate, and the other end of the connecting piece is fixedly connected with the connecting pipe.

9. The rotary pinhole camera of claim 3, characterized by: the rotary pinhole camera further comprises a purging pipe, the purging pipe is fixedly connected with the protective cover, and an inner cavity of the purging pipe is communicated with the cavity.

10. The rotary pinhole camera of claim 4, characterized by: the foldable door is arranged on the frame body and comprises a body and a door body arranged on the body, the body is of a square tubular structure with two through ends, and the door body is arranged at one end, close to the monitoring assembly, of the body.

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