CN214912986U

CN214912986U - Multi-fire-point simulated ignition combustion device

Info

Publication number: CN214912986U
Application number: CN202121356045.4U
Authority: CN
Inventors: 胡晓刚; 王帅涛; 张恩奇
Original assignee: Henan Fulem Technology Co ltd
Current assignee: Henan Fulem Technology Co ltd
Priority date: 2021-06-17
Filing date: 2021-06-17
Publication date: 2021-11-30
Anticipated expiration: 2031-06-17

Abstract

The utility model relates to a multi-ignition point simulation ignition combustion device, which comprises a box body, a plurality of ignition points arranged on the top surface of the box body, an ignition device arranged in the center of the top surface, an air supply port arranged on the box body and an oil supply pipeline arranged in the box body and connected with the ignition points and the ignition device; the ignition device comprises a fork pipe arranged in the center of the top plate, a middle pipe arranged in the fork pipe, an atomizing nozzle arranged in the middle pipe jacking pipe and an ignition rod arranged in the fork pipe; the utility model discloses can be effective real imitate out the effect of fire incident, for the firefighter provides more real scene of practising and operating, solved that fuel is extravagant, uncontrollable, polluted environment, flame effect are not good, fuel burning is not abundant, life short scheduling problem, training is with low costs, but and repeatedly usable, and the device installation is simple and convenient simultaneously, and the appearance is pleasing to the eye.

Description

Multi-fire-point simulated ignition combustion device

Technical Field

The utility model belongs to the technical field of the rehearsal facility is caught fire in the fire control simulation, concretely relates to many fire spots simulation burner that catches fire.

Background

In order to train firefighters to deal with the accident solving capability of explosion combustion and improve the capability of the firefighters to deal with disasters in real accidents, training is usually strengthened, reasons for accidents are analyzed, and accident handling methods are explored. At present, accidents for simulating the scenes are generally simulated by igniting diesel oil or wood, and the simulation method is high in cost, uncontrollable and incapable of being used repeatedly, so that the training scenes cannot be trained in a centralized and normalized mode.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art and providing a multi-fire-point simulated firing combustion device which has low training cost, controllable combustion and reusability.

The technical scheme of the utility model as follows:

the multi-ignition-point simulated ignition combustion device comprises a box body, a plurality of ignition points arranged on the top surface of the box body, an ignition device arranged in the center of the top surface, an air supply opening arranged on the box body and an oil supply pipeline arranged in the box body and connected with the ignition points and the ignition device;

the ignition device comprises a fork pipe arranged in the center of the top plate, a middle pipe arranged in the fork pipe, an atomizing nozzle arranged on the middle pipe top pipe and an ignition rod arranged in the fork pipe, an ignition controller electrically connected with the ignition rod is arranged in the box body, and the ignition controller is used for controlling the device to ignite; the top pipe and the middle pipe are respectively communicated with an oil supply pipeline; the fire point and the fork pipe are communicated with the inside of the box body and used for enabling the incoming air of the air supply port to surround the atomizing nozzle and increasing the oxygen in the combustion area to enable the fuel to be more fully combusted.

Furthermore, the outer periphery of the fire point is provided with a protective cylinder, the lower end of the protective cylinder is communicated with the interior of the box body, the fire point is lower than the upper edge of the protective cylinder, the fire point is prevented from being deformed by collision, and the upper cover of the protective cylinder is conveniently covered by a covering to cover the fire point when the protective cylinder is not used.

Furthermore, the top of the top pipe is also provided with a fire stabilizing disc, a plurality of ventilation openings are radially formed in the fire stabilizing disc, and the fire stabilizing disc supplies air uniformly at the periphery of the atomizing nozzle and can upwards stabilize burning flames.

Furthermore, the multi-fire-point simulated ignition combustion device further comprises a flame detector arranged on one of the fire stabilizing discs, and a flame detector electrically connected with the flame detector is arranged in the box body.

Furthermore, the oil supply pipeline comprises a main oil pipe transversely penetrating through the box body, an oil distribution pipe horizontally vertical to the main oil pipe and a plurality of sub oil pipes for connecting the oil distribution pipe with the top pipe and the oil distribution pipe with the middle pipe, the sub oil pipes are uniformly arranged on the oil distribution pipe, the unique oil circuit supply structure can increase the control precision and can be instantly completed in the ignition and flameout stages;

furthermore, the fork tube comprises a middle straight tube and an inclined tube communicated with the top of the middle straight tube, the inclined tube is higher than the fire point, the free end of the inclined tube is arranged downwards in an inclined mode towards the fire point, and fuel sprayed out of the atomizing nozzle is ignited by the ignition rod and then sprayed out downwards to ignite the fire point.

Furthermore, the bottom of the box body is provided with support legs and an air supply pipe communicated with the air supply port, and the air supply pipe is positioned in the center of the bottom of the box body.

Furthermore, the top surface of the box body is circular or rectangular, and fire points are uniformly distributed on the top surface.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses can be effective real imitate out the effect of fire incident, for the firefighter provides more real scene of practising and operating, solved that fuel is extravagant, uncontrollable, polluted environment, flame effect are not good, fuel burning is not abundant, life short scheduling problem, training is with low costs, but and repeatedly usable, and the device installation is simple and convenient simultaneously, and the appearance is pleasing to the eye.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of another embodiment of the present invention.

Fig. 4 is a schematic structural diagram of another embodiment of the present invention.

Fig. 5 is a schematic diagram of an internal structure of an embodiment of the present invention.

In the figure, a box body 1, a top surface 2, a fire stabilizing disc 3, an atomizing nozzle 4, a protective cylinder 5, an inclined cylinder 6, a main oil pipe 7, an oil distribution pipe 8, a sub oil pipe 9, an installation sheet 10, a top pipe 11, a supporting leg 12, an air supply pipe 13, a conduit pipe 14, an ignition controller 15, a flame detector 16, a flange 17, an ignition rod 18 and a flame detecting head 19.

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 work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the multi-ignition-point simulated ignition combustion device comprises a box body 1, a plurality of ignition points arranged on a top surface 2 of the box body 1, an ignition device arranged in the center of the top surface 2, an air supply opening arranged on the box body 1, and an oil supply pipeline arranged in the box body 1 and connected with the ignition points and the ignition device; the box body 1 is made of stainless steel, so that the box body is more high-temperature resistant and more attractive than the same type of devices;

the ignition point comprises a top pipe 11 arranged on the top surface 2 and an atomizing spray head 4 arranged at the top end of the top pipe 11, the ignition device comprises a fork pipe arranged in the center of the top plate, a middle pipe arranged in the fork pipe, the atomizing spray head 4 arranged on the middle pipe top pipe 11 and an ignition rod 18 arranged in the fork pipe, an ignition controller 15 electrically connected with the ignition rod 18 is arranged in the box body 1, the ignition controller 15 is used for controlling the ignition of the device, and the unique ignition device structure can increase the ignition success rate; the top pipe 11 and the middle pipe are respectively communicated with an oil supply pipeline; the fire point and the fork pipe are communicated with the inside of the box body 1 and used for enabling the incoming air of the air supply port to surround the atomizing nozzle 4 and increasing the oxygen in the combustion area to enable the fuel to be more fully combusted.

Specifically, as shown in fig. 4, when the fire point is installed, an installation piece 10 is arranged at the bottom of the top pipe 11, and the installation piece 10 is welded or fixed on the lower surface of the top surface 2 through bolts to fix the fire point; the tank 1 may include an upper tank portion and a lower tank portion that are fastened up and down by flanges 17.

Further, as shown in fig. 1 to 5, a protective tube 5 is arranged around the fire, the lower end of the protective tube 5 is communicated with the inside of the box body 1, the fire is lower than the upper edge of the protective tube 5, so that the fire is prevented from being collided and deformed, and a covering is conveniently covered on the protective tube 5 to cover the fire when the fire is not used; the top of the top pipe 11 is also provided with a fire stabilizing disc 3, a plurality of ventilation openings are radially formed in the fire stabilizing disc 3, and the fire stabilizing disc 3 supplies air uniformly on the periphery of the atomizing nozzle 4 and can stably burn flame upwards; the atomization structure with unique fire points has larger atomization effect and atomization space than devices of the same type, and the flame burnt by the atomization structure is more uniform and smooth by matching with the use of the fire stabilizing disc 3;

further, as shown in fig. 5, the multi-fire-point simulated ignition combustion device further comprises a flame detector 19 disposed on one of the fire stabilizing discs 3, and a flame detector 16 electrically connected to the flame detector 19 is disposed in the box body 1; one side of the box body 1 is provided with a conduit 14 penetrating through the side wall of the box body 1, wires of the flame detector 16 and the ignition controller 15 penetrate out of the box body 1 through the conduit 14, and meanwhile, the conduit 14 plays a role in protecting the wires.

Further, as shown in fig. 1 to 5, the oil supply pipeline includes a main oil pipe 7 transversely penetrating through the box body 1, an oil distribution pipe 8 horizontally perpendicular to the main oil pipe 7, and a plurality of oil distribution pipes 9 for connecting the oil distribution pipe 8 with the top pipe 11, the oil distribution pipe 8 and the middle pipe, the oil distribution pipes 9 are uniformly arranged on the oil distribution pipe 8, the unique oil path supply structure can increase the control precision, and the ignition and flameout stages can be instantly completed;

further, as shown in fig. 1 to 5, the fork tube includes a middle straight cylinder and an inclined cylinder 6 communicated with the top of the middle straight cylinder, the inclined cylinder 6 is higher than the fire point, the free end of the inclined cylinder 6 is arranged obliquely downwards towards the fire point, and the fuel sprayed out through the atomizer 4 is ignited by the ignition rod 18 and then sprayed out downwards to ignite the fire point.

Further, as shown in fig. 5, the bottom of the box body 1 is provided with support legs 12 and an air supply pipe 13 communicated with an air supply port, and the air supply pipe 13 is located in the center of the bottom of the box body 1; when the oxygen-enriched air-supplying box is used, oxygen is supplied into the box body 1 through the fan and the pipeline connected with the air supply pipe 13, so that the oxygen in a combustion area can be increased, the fuel can be more sufficiently combusted, and the low training efficiency and the environmental pollution caused by the insufficient combustion of the fuel are prevented; the atomizer 4 is surrounded by a protecting tube 5 and a middle tube, and after the multi-ignition-point simulated ignition combustion device is extinguished, the blown air can also play a role in cooling the ignition point and the ignition device, so that the service life of the equipment is prolonged.

Further, as shown in fig. 1 to 4, the top surface 2 of the box body 1 is circular or rectangular, and fire points are uniformly distributed on the top surface 2; as shown in fig. 1 and 2, when the top surface 2 is circular, the fire points are arranged into two circles, the inner circle is provided with 5 fire points, the outer circle is provided with 10 fire points, and the inclined cylinder 6 is aligned with the position between the two circles of fire points, so that the inner and outer circles of fire points can be ignited simultaneously; as shown in fig. 3 and 4, when the top surface 2 is rectangular, the fire points are arranged in a matrix form, and the inclined cylinders 6 face four corners of the top surface 2, so that the fire points on four sides can be ignited simultaneously.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. Many ignition points simulation burner that ignites, its characterized in that: the ignition device is arranged on the top surface of the box body, the air supply opening is arranged on the box body, and the oil supply pipeline is arranged in the box body and connected with the ignition device and the ignition device;

the ignition device comprises a fork pipe arranged in the center of the top plate, a middle pipe arranged in the fork pipe, an atomization nozzle arranged in the middle pipe push pipe and an ignition rod arranged in the fork pipe, an ignition controller electrically connected with the ignition rod is arranged in the box body, and the push pipe and the middle pipe are respectively communicated with an oil supply pipeline; the fire point and the fork tube are communicated with the interior of the box body.

2. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the outer periphery of the fire point is provided with a protective cylinder, the lower end of the protective cylinder is communicated with the interior of the box body, and the fire point is lower than the upper edge of the protective cylinder.

3. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the top of the top pipe is also provided with a fire stabilizing disc, and the fire stabilizing disc is radially provided with a plurality of ventilation openings.

4. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 3, wherein: the flame stabilizing device is characterized by further comprising a flame detecting head arranged on one of the flame stabilizing discs, and a flame detector electrically connected with the flame detecting head is arranged in the box body.

5. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the oil supply pipeline comprises a main oil pipe transversely penetrating through the box body, an oil distribution pipe horizontally perpendicular to the main oil pipe and a plurality of sub oil pipes used for connecting the oil distribution pipe with the top pipe and the oil distribution pipe with the middle pipe, and the sub oil pipes are uniformly arranged on the oil distribution pipe.

6. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the fork tube comprises a middle straight tube and an inclined tube communicated with the top of the middle straight tube, the inclined tube is higher than a fire point, and the free end of the inclined tube is inclined downwards to face the fire point.

7. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the bottom of the box body is provided with support legs and an air supply pipe communicated with the air supply port, and the air supply pipe is positioned in the center of the bottom of the box body.

8. The multi-fire-point simulated-ignition combustion apparatus as claimed in claim 1, wherein: the top surface of the box body is round or rectangular, and fire points are uniformly distributed on the top surface.