CN210958590U - Detection device for fire rescue - Google Patents

Abstract

The utility model belongs to the technical field of the detecting tool technique and specifically relates to a detecting device for fire control rescue is disclosed, including detecting device, image processing apparatus, detecting device with the image processing apparatus electricity is connected, detecting device includes scalable metal probe rod, scalable metal probe rod head end has the probe through the thread tightening, inlay at probe tip center has main camera, it has vice camera to inlay on the probe lateral wall, scalable metal probe rod afterbody has the handle through the thread tightening, scalable metal probe rod with the inside signal transmission cable that is provided with of handle, signal transmission cable one end with main camera vice camera electricity is connected. Has the advantages that: the rear situation of the barrier can be quickly explored and clarified, search and rescue personnel can timely know the field situation, a reasonable rescue scheme is timely adopted, the rescue speed and efficiency are improved, and unnecessary time and energy waste is avoided.

Description

Detection device for fire rescue

Technical Field

The utility model belongs to the technical field of the detecting tool technique and specifically relates to a detection device for fire rescue is related to.

Background

When the danger such as conflagration takes place or the building collapses, often need the fire fighter to go out to rescue trapped personnel, when taking place to collapse, some regions are blockked by the barrier, lead to the fire fighter can not normally pass through, just can not closely look over the sight at barrier rear yet, often need the fire fighter to clear away the back just can explore the barrier, consumed a large amount of time and energy like this for rescue work can not quick completion. At present, the firemen confirm whether someone passes behind the barrier during rescue mainly has two means, one is whether someone answers through voice call, and the other is surveyed through infrared ray equipment, but infrared ray equipment receives the temperature influence great, and when rescue regional temperature was higher, infrared ray equipment will receive the interference, can not provide detailed data to influence and survey search speed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a detection device for fire rescue to solve the above problems.

The technical scheme of the utility model is realized like this:

a detection device for fire rescue comprises a detection device and an image processing device, wherein the detection device is electrically connected with the image processing device, the detection device comprises a telescopic metal probe rod, the head end of the telescopic metal probe rod is fixed with a probe through threads, the center of the end part of the probe is embedded with a main camera, an auxiliary camera is embedded on the side wall of the probe, the tail part of the telescopic metal probe rod is fixed with a handle through threads, a signal transmission cable is arranged inside the telescopic metal probe rod and the handle, one end of the signal transmission cable is electrically connected with the main camera and the auxiliary camera, the image processing device comprises an image processor, the front surface of the image processor is embedded with a display screen, a control button is arranged below the display screen, and a signal transmitting antenna is rotatably arranged at the upper end of the image processor, the other end of the signal transmission cable is electrically connected with the image processor.

Further, still include wearable vision transmission equipment, wearable vision transmission equipment pass through radio signal with image processing apparatus connects, wearable vision transmission equipment includes the picture frame, the picture frame front end is inlayed and is had LED optical lens and ordinary transparent lens, be close to on the picture frame lateral wall LED optical lens's position has signal receiver through the fix with screw, it has charge jack and function button to inlay on the signal receiver lateral wall, signal receiver with LED optical lens electricity is connected.

Furthermore, the telescopic metal probe rod is formed by sequentially nesting a plurality of sections of hollow metal pipes together, the length of a single metal pipe is not more than one meter, and the maximum length of the telescopic metal probe rod is not less than two meters.

Furthermore, the grip is wrapped with an anti-slip sleeve.

Further, at least one of the wearable visual communication devices may be connected to the image processing apparatus by not more than six of the wearable visual communication devices.

Furthermore, the image processor is internally provided with a power supply module and a control module.

Further, the main camera with vice camera all adopts the pinhole camera, the main camera with the contained angle of vice camera is ninety degrees.

Further, the wearable visual communication device is internally provided with a power supply module and a control module.

By adopting the technical scheme, the beneficial effects of the utility model are that: the rear situation of the barrier can be quickly explored and clarified, search and rescue personnel can timely know the field situation, a reasonable rescue scheme is timely adopted, the rescue speed and efficiency are improved, and unnecessary time and energy waste is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a block diagram of the circuit structure of the present invention.

The reference numerals are explained below:

1. a detection device; 11. a retractable metal probe; 12. a probe; 13. a main camera; 14. a sub-camera; 15. a grip; 16. a signal transmission cable; 2. an image processing device; 21. an image processor; 22. a display screen; 23. a signal transmitting antenna; 24. a control button; 3. a wearable visual communication device; 31. a mirror frame; 32. a charging jack; 33. a signal receiver; 34. a function button; 35. an LED optical lens; 36. a common transparent lens.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-2, a detection device for fire rescue comprises a detection device 1 and an image processing device 2, the detection device 1 is electrically connected with the image processing device 2, the detection device 1 comprises a telescopic metal probe 11, a probe 12 is fixed at the head end of the telescopic metal probe 11 through a thread, a main camera 13 is embedded in the center of the end part of the probe 12 and used for shooting an image at the front end of the probe 12, a sub camera 14 is embedded on the side wall of the probe 12 and used for shooting an image at the side surface of the probe 12, a handle 15 is fixed at the tail part of the telescopic metal probe 11 through a thread, a signal transmission cable 16 is arranged inside the telescopic metal probe 11 and the handle 15, the signal transmission cable 16 is furled inside the telescopic metal probe 11 and can be used along with the length change of the telescopic metal probe 11, one end of the signal transmission cable 16 is electrically connected with the main camera 13 and the sub camera 14, image processing apparatus 2 includes image processor 21, and image processor 21 front surface inlays there is display screen 22 for the picture that shows to shoot, and display screen 22 below is provided with control button 24, and image processor 21 upper end is rotated and is installed signal emission antenna 23 for send wireless signal and give wearable vision transmission equipment 3 with video data transmission, and signal transmission cable 16 other end electricity is connected with image processor 21.

In this embodiment, still include wearable vision transmission equipment 3, wearable vision transmission equipment 3 is connected with image processing apparatus 2 through radio signal, wearable vision transmission equipment 3 includes picture frame 31, the front end of picture frame 31 is inlayed and is had LED optical lens 35 and ordinary transparent lens 36, LED optical lens 35 is used for showing the image, ordinary transparent lens 36 facilitates the normal observation environment of user, the position that is close to LED optical lens 35 on the picture frame 31 lateral wall has signal receiver 33 through the fix with screw, it has charging jack 32 and function button 34 to inlay on the signal receiver 33 lateral wall, charging jack 32 is used for pegging graft the charger and charges, it can use four hours in succession to charge each time, signal receiver 33 is connected with LED optical lens 35 electricity.

In this embodiment, the telescopic metal probe 11 is formed by sequentially nesting a plurality of hollow metal tubes, the length of a single metal tube is not more than one meter, and the maximum length of the telescopic metal probe 11 is not less than two meters, so that remote environmental detection is facilitated.

In this embodiment, the grip 15 is wrapped with an anti-slip sleeve, which facilitates the operation of holding by hand.

In this embodiment, wearable visual transmission equipment 3 has at least one, and image processing apparatus 2 can be connected no more than six wearable visual transmission equipment 3 simultaneously, can many people watch the image simultaneously, is convenient for know environment and collaborative work fast.

In this embodiment, the image processor 21 is provided with a power supply module and a control module therein.

In this embodiment, the main camera 13 and the auxiliary camera 14 both adopt pinhole cameras, and the included angle of the main camera 13 and the auxiliary camera 14 is ninety degrees, so that the environment at the rear of the barrier can be detected in all directions.

In this embodiment, the wearable visual communication device 3 has a power module and a control module inside.

The utility model discloses a theory of operation does: when the device is used, the power supply is started through the control button 24, the main camera 13 and the auxiliary camera 14 work after being electrified, images shot by the main camera 13 and the auxiliary camera 14 are displayed on the display screen 22, an operator holds the detection device 1 by one hand and holds the image processing device 2 by the other hand, the probe 12 extends to the rear of an obstacle through a direct gap of the obstacle by adjusting the length of the telescopic metal probe rod 11, the main camera 13 and the auxiliary camera 14 take a picture of the rear of the obstacle, the operator of the handheld image processing device 2 can select a picture to be watched through the control button 24, for example, the operator can select to watch the picture of only one of the main camera 13 or the auxiliary camera 14 or watch the pictures of the main camera 13 and the auxiliary camera 14 simultaneously, the probe 12 can be driven to rotate by rotating the telescopic metal probe rod 11, and then the shooting direction of the auxiliary camera 14 is adjusted, when there are a plurality of search personnel, other search personnel can wear wearable vision transmission equipment 3, then transmit the picture that main camera 13 or vice camera 14 were shot to signal receiver 33 through wireless signal, control the picture through function button 34 and show on LED optical lens 35 or close the picture, and search personnel can know the condition side behind the barrier fast through the picture on LED optical lens 35 to the rescue scheme is formulated as required.

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, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a detection device for fire rescue which characterized in that: including detection device (1), image processing apparatus (2), detection device (1) with image processing apparatus (2) electricity is connected, detection device (1) is including scalable metal probe (11), scalable metal probe (11) head end has probe (12) through the threaded fixation, probe (12) tip center is inlayed and is had main camera (13), it has vice camera (14) to inlay on probe (12) lateral wall, scalable metal probe (11) afterbody has handle (15) through the threaded fixation, scalable metal probe (11) with handle (15) inside is provided with signal transmission cable (16), signal transmission cable (16) one end with main camera (13), vice camera (14) electricity is connected, image processing apparatus (2) includes image processor (21), image processor (21) front surface inlays and has display screen (22), display screen (22) below is provided with control button (24), signal emission antenna (23) are installed in image processor (21) upper end rotation, signal transmission cable (16) other end electricity is connected with image processor (21).

2. A fire rescue detecting device as defined in claim 1, wherein: still include wearable vision conveying equipment (3), wearable vision conveying equipment (3) through radio signal with image processing apparatus (2) are connected, wearable vision conveying equipment (3) include picture frame (31), picture frame (31) front end is inlayed and is had LED optical lens (35) and ordinary transparent lens (36), be close to on picture frame (31) lateral wall the position of LED optical lens (35) is through fix with screw has signal receiver (33), it has charging jack (32) and function button (34) to inlay on signal receiver (33) lateral wall, signal receiver (33) with LED optical lens (35) electricity is connected.

3. A fire rescue detecting device as defined in claim 1, wherein: the telescopic metal probe rod (11) is formed by sequentially nesting a plurality of sections of hollow metal pipes together, the length of a single metal pipe is not more than one meter, and the maximum length of the telescopic metal probe rod (11) is not less than two meters.

4. A fire rescue detecting device as defined in claim 1, wherein: the grip (15) is wrapped with an anti-slip sleeve.

5. A fire rescue detecting device as defined in claim 2, wherein: at least one wearable visual communication device (3) is provided, and the image processing device (2) can be simultaneously connected with no more than six wearable visual communication devices (3).

6. A fire rescue detecting device as defined in claim 1, wherein: the image processor (21) is internally provided with a power supply module and a control module.

7. A fire rescue detecting device as defined in claim 1, wherein: the main camera (13) with vice camera (14) all adopt the pinhole camera, main camera (13) with the contained angle of vice camera (14) is ninety degrees.

8. A fire rescue detecting device as defined in claim 2, wherein: the wearable visual communication device (3) is internally provided with a power supply module and a control module.

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