CN214312001U - Fire scene flue gas monitoring fire engine - Google Patents

Abstract

The utility model discloses a fire scene flue gas monitoring fire engine, including locomotive and the shelter that is in the ordinary pressure state, the inside position of leaning on in the front of shelter is equipped with the studio, and the studio has built-in workstation and control screen group, and the support device is installed to the anterior outer wall of shelter, supports on the support device, installs flue gas remote monitoring device. Owing to set up flue gas remote monitoring device for this fire engine can carry out remote monitoring to the region that the flue gas was located, makes the security of monitoring process can obtain the guarantee.

Description

Fire scene flue gas monitoring fire engine

Technical Field

The utility model relates to a fire control technical field particularly, is a monitoring fire engine.

Background

At present, a detection fire truck is arranged on the market, a shelter with micro-positive pressure inside is arranged, and the detection fire truck can go deep into a dangerous and complex and changeable chemical pollution area for detection. In order to further ensure the comprehensiveness of the detection, it is necessary to provide a fire fighting truck capable of remotely monitoring the smoke.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fire scene flue gas monitoring fire engine can carry out remote monitoring to the region that the flue gas is located.

The purpose of the utility model is realized like this: a fire scene smoke monitoring fire engine comprises a locomotive and a square cabin in a normal pressure state, wherein a working chamber is arranged in the front position inside the square cabin, a working table and a control screen group are arranged in the working chamber, a support device is arranged on the outer wall of the front part of the square cabin, and a smoke remote monitoring device is supported and arranged on the support device;

the stand device includes:

the square cabin comprises a pair of side frames which are arranged at equal height, wherein the two side frames are horizontally arranged at intervals and are fixedly arranged on the outer wall of the front part of the square cabin through bolt assemblies, the upper side and the lower side of each side frame are respectively provided with a horizontal adjusting hole for accommodating the bolt assemblies to be penetrated and matched, and the length direction of each horizontal adjusting hole is parallel to the horizontal arrangement direction of the two side frames;

the two transverse supporting frames are respectively arranged on the two side frames in a lifting and adjusting manner;

two supporting bottom plates which are arranged at the same height are respectively and fixedly connected to the two side frames;

the two lifting adjusting components are arranged in a lifting adjusting mode and are fixedly arranged on the two supporting bottom plates respectively;

the bottom assembly supports and is fixedly connected with the flue gas remote monitoring device, and the pair of transverse support frames simultaneously support and are fixedly connected with the bottom assembly;

the lifting adjusting assembly supports and is fixedly connected with the transverse supporting frame, and the adjusting direction of the lifting adjusting assembly is parallel to the adjusting direction of the transverse supporting frame.

Further, every lift adjustment subassembly includes vertical stay bolt to and support nut, the lock nut of suit on the screw portion of stay bolt, stay bolt's screw portion upwards and upwards pass supporting baseplate, cross bracing frame, the spiral shell head of stay bolt supports and leans on face under the supporting baseplate, the stay nut is equipped with a pair ofly, and one of them stay nut pastes and leans on face on the supporting baseplate, and another stay nut supports cross bracing frame, the lock nut pastes the upside of cross bracing frame.

Further, the bottom subassembly is including supporting and the base of fixed connection flue gas remote monitoring device to and a pair of crossbearer, and two crossbearer support and fixed connection base, two crossbearer support respectively and the both ends of fixed connection crossbearer.

Furthermore, the side frames are vertically extending angle steels, one plate part of each side frame is attached to the square cabin and provided with a horizontal adjusting hole, the other plate part of each side frame is provided with a vertically extending vertical adjusting hole and attached to the side surface of the transverse supporting frame, a vertical locking fastener penetrates through the vertical adjusting hole, and the transverse supporting frame is fixedly connected with the side frames through the vertical locking fastener.

Furthermore, a tail bin is arranged at the tail part of the square cabin; an unmanned aerial vehicle room is arranged at the upper part of the tail bin, and a detection unmanned aerial vehicle is arranged in the unmanned aerial vehicle room; a detection robot chamber is arranged at the lower part of the tail bin, a detection robot is arranged in the detection robot chamber, and the tail bin is provided with a rear door capable of opening and closing the detection robot chamber; an interlayer is arranged in the tail bin and separates the unmanned aerial vehicle room from the detection robot room.

Further, the top of the unmanned aerial vehicle room is provided with an electric skylight capable of being automatically opened and closed, an automatic lifting platform is arranged in the unmanned aerial vehicle room, and a stopping platform used for stopping the detection unmanned aerial vehicle is arranged on the lifting platform.

Furthermore, a side door capable of opening and closing is arranged on one side of the square cabin.

The beneficial effects of the utility model reside in that:

1. due to the arrangement of the smoke remote monitoring device, the fire fighting truck can remotely monitor the area where smoke exists, so that the safety of the monitoring process can be guaranteed;

2. the support device can be finely adjusted in the horizontal direction and the vertical direction, so that the installation position of the remote flue gas monitoring device can be adjusted in the horizontal direction and the vertical direction, and the installation position of the remote flue gas monitoring device is more accurate.

Drawings

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

Fig. 2 is a schematic layout of the unmanned aerial vehicle room and the detective robot room.

Figure 3 is a top view of the interior of the shelter.

Fig. 4 is a schematic rear view of the present invention.

Fig. 5 is a front view of the remote smoke monitoring device.

Fig. 6 is a top view of a smoke remote monitoring device.

Fig. 7 is a left side view of the smoke remote monitoring device.

Detailed Description

The invention will be further described with reference to the accompanying figures 1-7 and the specific embodiments.

As shown in fig. 1-4, a fire scene smoke monitoring fire engine comprises a locomotive 1 and a shelter 2 in a normal pressure state, because the vehicle is in a relatively safe area, the shelter 2 does not need to have a slight positive pressure like the prior art, a working chamber 201 is arranged in the front position inside the shelter 2, and a workbench 201b and a control screen group 201a are arranged in the working chamber 201.

The tail part of the square cabin 2 is provided with a tail cabin 202, and one side of the square cabin 2 is provided with a side door 203 which can be opened and closed.

Tail storehouse 202 upper portion is equipped with unmanned aerial vehicle room 202a, and unmanned aerial vehicle room 202a embeds there is reconnaissance unmanned aerial vehicle 202e, and unmanned aerial vehicle room 202a top is equipped with electric skylight 202d that can open and close automatically, is equipped with the lift platform 202b that can rise automatically in unmanned aerial vehicle room 202a, is equipped with the shut down platform 202c that is used for parking reconnaissance unmanned aerial vehicle 202e on the lift platform 202 b.

A detection robot chamber 202g is arranged at the lower part of the tail bin 202, a detection robot 202h is arranged in the detection robot chamber 202g, and the tail bin 202 is provided with a rear door 202j which can open and close the detection robot chamber 202 g; a partition 202f is provided in the tail cabin 202, and the partition 202f separates the unmanned room 202a from the detective robot room 202 g. In application, the detection robot 202h may not be configured if necessary to consider this problem. Therefore, the configuration of the detection robot room 202g and the detection robot 202h is an option.

As shown in fig. 1, 5, 6 and 7, the outer wall of the front part of the square cabin 2 is provided with a bracket device, and the bracket device is supported and provided with a smoke remote monitoring device 3.

The above-mentioned support device includes:

the side frames 12 are arranged at equal height, the two side frames 12 are horizontally arranged at intervals and fixedly installed on the outer wall of the front part of the square cabin 2 through bolt assemblies, the upper side and the lower side of each side frame 12 are respectively provided with a horizontal adjusting hole 12a for accommodating the bolt assemblies to be penetrated and matched, and the length direction of each horizontal adjusting hole 12a is parallel to the horizontal arrangement direction of the two side frames 12;

a pair of horizontal support frames 6 arranged at equal height, the horizontal support frames 6 horizontally extend forwards along the driving direction, and the two horizontal support frames 6 are respectively arranged on the two side frames 12 in a lifting and adjusting way;

two supporting bottom plates 11 which are arranged at the same height are respectively and fixedly connected to the two side frames 12;

the two lifting adjusting components are arranged in a lifting adjusting mode and are fixedly installed on the two supporting bottom plates 11 respectively;

the bottom assembly supports and is fixedly connected with the flue gas remote monitoring device 3, and the pair of transverse supporting frames 6 simultaneously support and are fixedly connected with the bottom assembly.

Wherein, the lifting adjusting component supports and is fixedly connected with the horizontal supporting frame 6, and the adjusting direction of the lifting adjusting component is parallel to the adjusting direction of the horizontal supporting frame 6.

Every lift adjustment subassembly includes vertical stay bolt 8 to and the support nut 9 of suit on the screw portion of stay bolt 8, lock nut 10, the screw portion of stay bolt 8 upwards and upwards pass supporting baseplate 11, cross-brace frame 6, the spiral shell head of stay bolt 8 supports face under the supporting baseplate 11, support nut 9 is equipped with a pair ofly, one of them support nut 9 pastes and leans on 11 faces on the supporting baseplate, another support nut 9 supports cross-brace frame 6, lock nut 10 pastes and leans on the upside of cross-brace frame 6.

The bottom assembly comprises a base 4 supporting and fixedly connected with the flue gas remote monitoring device 3 and a pair of cross beams 5, the two cross beams 5 support and fixedly connected with the base 4, and the two cross support frames 6 support and fixedly connected with the two ends of the cross beam 5 respectively.

The side frames 12 are vertically extending angle steels, one plate part of each side frame 12 is attached to the square cabin 2 and provided with a horizontal adjusting hole 12a, the other plate part of each side frame 12 is provided with a vertically extending vertical adjusting hole 12b and is attached to the side surface of the transverse supporting frame 6, a vertical locking fastener 7 penetrates through the vertical adjusting hole 12b, and the transverse supporting frame 6 is fixedly connected with the side frame 12 through the vertical locking fastener 7.

The flue gas remote monitoring device 3 mentioned in the embodiment can be an existing special flue gas remote monitor in the fire fighting field, and can be selected and configured according to the field requirements.

In this embodiment, the vertical locking fastener 7 is a bolt assembly.

When the horizontal position of the flue gas remote monitoring device 3 needs to be adjusted, the horizontal position of the two side frames 12 can be finely adjusted along the length direction of the horizontal adjusting holes 12a, so that the horizontal position of the flue gas remote monitoring device 3 can be adjusted, and after the flue gas remote monitoring device is adjusted in place, the bolt assemblies penetrate through the horizontal adjusting holes 12a, so that the side frames 12 are fixed on the outer wall of the square cabin 2.

When needs carry out height control to flue gas remote monitoring device 3, can unscrew vertical locking fastener 7 simultaneously, support nut 9, locking nut 10, when the high position of flue gas remote monitoring device 3 is suitable, screw earlier support nut 9, make one of them support nut 9 prop up horizontal support frame 6, then screw up locking nut 10, make one support nut 9 and one locking nut 10 clip horizontal support frame 6, screw up vertical locking fastener 7 at last, carry out the double-locking to horizontal support frame 6, thereby the high position of locking flue gas remote monitoring device 3.

The above are preferred embodiments of the present invention, and those skilled in the art can make various changes or improvements on the above embodiments without departing from the general concept of the present invention, and such changes or improvements should fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a fire scene flue gas monitoring fire engine, includes locomotive (1) and shelter (2) that are in the ordinary pressure state, the inside position of leaning on in front of shelter (2) is equipped with studio (201), studio (201) embeds there are workstation (201b) and control screen group (201a), its characterized in that: the outer wall of the front part of the shelter (2) is provided with a bracket device, and a smoke remote monitoring device (3) is supported and installed on the bracket device;

the stand device includes:

the square cabin comprises a pair of side frames (12) which are arranged at the same height, wherein the two side frames (12) are horizontally arranged at intervals and are fixedly installed on the outer wall of the front part of the square cabin (2) through bolt assemblies, the upper side and the lower side of each side frame (12) are respectively provided with a horizontal adjusting hole (12a) for accommodating the bolt assemblies to be in penetrating fit, and the length direction of each horizontal adjusting hole (12a) is parallel to the horizontal arrangement direction of the two side frames (12);

the two transverse supporting frames (6) are respectively arranged on the two side frames (12) in a lifting and adjusting manner;

two supporting bottom plates (11) which are arranged at the same height are respectively and fixedly connected to the two side frames (12);

the two lifting adjusting components are arranged in a lifting adjusting mode and are fixedly arranged on the two supporting bottom plates (11) respectively;

the bottom assembly supports and is fixedly connected with the flue gas remote monitoring device (3), and the pair of transverse support frames (6) simultaneously support and are fixedly connected with the bottom assembly;

the lifting adjusting assembly supports and is fixedly connected with the transverse supporting frame (6), and the adjusting direction of the lifting adjusting assembly is parallel to the adjusting direction of the transverse supporting frame (6).

2. The fire scene smoke monitoring fire engine of claim 1, wherein: every lift adjustment subassembly includes vertical stay bolt (8) to and support nut (9), lock nut (10) of suit on the screw thread portion of stay bolt (8), the screw thread portion of stay bolt (8) upwards and upwards pass supporting baseplate (11), cross bracing frame (6), the spiral shell head of stay bolt (8) supports and leans on face under supporting baseplate (11), support nut (9) are equipped with a pair ofly, and one of them support nut (9) is pasted and is leaned on face on supporting baseplate (11), and another support nut (9) supports cross bracing frame (6), lock nut (10) are pasted and are leaned on the upside of cross bracing frame (6).

3. The fire scene smoke monitoring fire engine of claim 1, wherein: the bottom assembly comprises a base (4) for supporting and fixedly connecting the flue gas remote monitoring device (3) and a pair of cross beams (5), the two cross beams (5) support and fixedly connect the base (4), and the two cross support frames (6) respectively support and fixedly connect the two ends of the cross beams (5).

4. The fire scene smoke monitoring fire engine of claim 2, wherein: the side frame (12) is angle steel extending vertically, one plate part of the side frame (12) is attached to the square cabin (2) and provided with a horizontal adjusting hole (12a), the other plate part of the side frame (12) is provided with a vertical adjusting hole (12b) extending vertically and attached to the side surface of the transverse supporting frame (6), a vertical locking fastener (7) is connected in the vertical adjusting hole (12b) in a penetrating mode, and the transverse supporting frame (6) is fixedly connected with the side frame (12) through the vertical locking fastener (7).

5. The fire scene smoke monitoring fire engine of claim 1, wherein: a tail bin (202) is arranged at the tail part of the square cabin (2); an unmanned aerial vehicle room (202a) is arranged at the upper part of the tail bin (202), and a detection unmanned aerial vehicle (202e) is arranged in the unmanned aerial vehicle room (202 a); a detection robot chamber (202g) is arranged at the lower part of the tail bin (202), a detection robot (202h) is arranged in the detection robot chamber (202g), and a rear door (202j) capable of opening and closing the detection robot chamber (202g) is arranged on the tail bin (202); an interlayer (202f) is arranged in the tail bin (202), and the interlayer (202f) separates an unmanned machine room (202a) and a detection robot room (202 g).

6. The fire scene smoke monitoring fire engine of claim 5, wherein: the unmanned aerial vehicle detection system is characterized in that an electric skylight (202d) capable of being automatically opened and closed is arranged at the top of the unmanned aerial vehicle room (202a), a lifting platform (202b) capable of being automatically lifted is arranged in the unmanned aerial vehicle room (202a), and a stopping platform (202c) used for stopping the detection unmanned aerial vehicle (202e) is arranged on the lifting platform (202 b).

7. A fire scene smoke monitoring fire engine as defined in any one of claims 1 to 6, wherein: and a side door (203) capable of being opened and closed is arranged on one side of the shelter (2).

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