CN210721881U

CN210721881U - Fire extinguishing simulation experience system

Info

Publication number: CN210721881U
Application number: CN201921725459.2U
Authority: CN
Inventors: 许曙青
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-06-09
Anticipated expiration: 2029-10-15

Abstract

The utility model is suitable for a simulation field of putting out a fire provides a simulation experience system of putting out a fire, including base plate, socket, display screen and holographic projector, all inlay on both ends surface about the base plate and install the thermovent, the front end surface mounting of base plate has the display screen, the lower surface of roof rotates and is connected with holographic projector, clean cotton lower surface is connected with the support plate, the bottom of base plate is connected with the base, the extension board has all been welded at both ends about the lower surface of base, and the inner fixed surface of extension board is connected with the box, the internally mounted of box has the second to adjust the pole, and the surface that the second adjusted the pole is connected with the second connecting plate, the inner of second connecting plate is connected with the limiting plate, the equidistant standing groove that is provided with in the inside bottom. This simulation of putting out a fire experiences system is convenient for detach the dust on the projection instrument surface, avoids the projection effect to receive the influence, can carry out stable fixed to the fire extinguisher simultaneously.

Description

Fire extinguishing simulation experience system

Technical Field

The utility model relates to a simulation technical field that puts out a fire specifically is a simulation of putting out a fire experiences system.

Background

The fire disaster is one of common disasters, but people can not perform reasonable and effective operation when the fire disaster occurs, so in order to improve the capability of people in handling the fire disaster, fire-extinguishing simulation experience equipment is used for simulating fire-extinguishing operation during the fire disaster;

however, when existing fire-extinguishing simulation experience equipment in the market is stored for a long time, the projection effect of the existing fire-extinguishing simulation experience equipment can be affected by dust accumulated on the surface of a projection instrument, and a fire extinguisher is not well fixed during storage and is easy to shake due to collision, so that a fire-extinguishing simulation experience system is developed at present to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simulation of putting out a fire experiences system to current simulation of putting out a fire that puts forward on the market in solving above-mentioned background art experiences the equipment when long-time depositing, its projection effect can receive the influence that the dust was gathered to the projection instrument face, and the fire extinguisher does not have fine fixing when depositing, the problem of rocking because of the collision easily.

In order to achieve the above object, the utility model provides a following technical scheme: a fire extinguishing simulation experience system comprises a substrate, a display screen and a holographic projector, wherein a heat dissipation port is formed in the side face of the substrate, the display screen is mounted on the surface of the front end of the substrate, a top plate welded with the substrate is arranged above the display screen, the holographic projector is rotatably connected to the lower surface of the top plate, and cleaning cotton is arranged below the holographic projector;

the lower surface of the cleaning cotton is connected with a support plate, two ends of the upper surface of the support plate are connected with first connecting plates, and a first adjusting rod penetrates through the first connecting plates;

the bottom of base plate is connected with the base, and the upper surface mounting of base has the projection cloth, the extension board has all been welded at both ends about the lower surface of base, and the inner fixed surface of extension board is connected with the box, the internally mounted of box has the second to adjust the pole, and the surface connection that aforementioned second was adjusted the pole has the second connecting plate, the inner of second connecting plate is connected with the limiting plate, and the upper surface of limiting plate leaves in advance the through-hole, the equidistant standing groove that is used for placing the fire extinguisher that is provided with in inside bottom of box.

Furthermore, the holographic projector of the cleaning cotton comprises a host, an adjusting telescopic rod and a fixing plate, wherein the adjusting telescopic rod is hinged to the right side above the host, and the fixing plate fixedly mounted above the top plate is hinged to the top end of the adjusting telescopic rod;

furthermore, the upper surface of the cleaning cotton is attached to the lower surface of the holographic projector, and the cleaning cotton is adhered to the support plate.

Furthermore, the outer surface of the first adjusting rod is of a thread structure, the first connecting plate is of a sliding structure on the first adjusting rod, and an integrated structure is formed between the first connecting plate and the carrier plate.

Furthermore, the upper surface of the base is in a rectangular groove-shaped structure, the projection cloth is sunken in the groove-shaped structure, and the base is fixed with the substrate in a welding mode.

Furthermore, the outer surface of the second adjusting rod is of a thread structure, the second adjusting rod, the second connecting plate and the limiting plate are combined to form a linkage structure, and the limiting plate is of a lifting structure in the box body.

Furthermore, the through holes are distributed on the upper surface of the limiting plate at equal intervals, and the positions of the through holes correspond to the positions of the placing grooves one to one.

Furthermore, an expansion clamping groove formed in the outer surface of the substrate is formed in the rear side of the heat dissipation opening, and a socket is formed below the expansion clamping groove.

Compared with the prior art, the beneficial effects of the utility model are that: the fire-extinguishing simulation experience system is convenient for removing dust on the surface of the projector, avoids the influence on the projection effect and can stably fix a fire extinguisher;

1. the upper surface of the cleaning cotton is attached to the lower surface of the holographic projector, and meanwhile, the cleaning cotton is attached to the support plate, so that the first connecting plate drives the support plate to slide by rotating the first adjusting rod, the cleaning cotton slides to clean the surface of the holographic projector, and dust is removed;

2. the limiting plate is of a lifting structure in the box body, and the positions of the through hole single bodies distributed on the upper surface of the limiting plate at equal intervals correspond to the positions of the placing grooves one by one, so that when the limiting plate is lifted, the fire extinguisher can be clamped into the through hole and is limited and fixed by the inner wall of the through hole;

3. the upper surface of base is the slot-like structure, and the projection cloth is sunken in the inside of this slot-like structure, just so can use or when depositing, protects the projection cloth to avoid appearing damaging.

Drawings

Fig. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic view of a downward structure of the limiting plate provided by the present invention;

fig. 4 is the utility model provides a holographic projector operating condition schematic diagram.

In the figure: 1. a substrate; 2. a heat dissipation port; 3. an expansion card slot; 4. a socket; 5. a display screen; 6. a top plate; 7. a holographic projector; 701. a host; 702. adjusting the telescopic rod; 703. a fixing plate; 8. cleaning cotton; 9. a carrier plate; 10. a first connecting plate; 11. a first adjusting lever; 12. a base; 13. a projection cloth; 14. a support plate; 15. a box body; 16. a second adjusting lever; 17. a second connecting plate; 18. a limiting plate; 19. a through hole; 20. and (6) placing the groove.

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.

Referring to fig. 1-4, the present invention provides a technical solution: the fire extinguishing simulation experience system comprises a base plate 1, a heat dissipation port 2, an expansion clamping groove 3, a socket 4, a display screen 5, a top plate 6, a holographic projector 7, cleaning cotton 8, a support plate 9, a first connecting plate 10, a first adjusting rod 11, a base 12, projection cloth 13, a support plate 14, a box body 15, a second adjusting rod 16, a second connecting plate 17, a limiting plate 18, a through hole 19 and a placing groove 20, wherein the heat dissipation port 2 is mounted on the surfaces of the left end and the right end of the base plate 1 in an embedded mode, the expansion clamping groove 3 formed in the outer surface of the base plate 1 is arranged on the rear side of the heat dissipation port 2, the socket 4 is arranged below the expansion clamping groove 3, the display screen 5 is mounted on the surface of the front end of the base plate 1, the top plate 6 welded with the base plate 1 is arranged above the display screen 5, the holographic projector 7 is rotatably connected to the lower surface of the top plate 6, the cleaning cotton 8, The cleaning cotton cleaning machine comprises an adjusting telescopic rod 702 and a fixing plate 703, wherein the adjusting telescopic rod 702 is hinged and connected to the right side above a main machine 701, the fixing plate 703 fixedly mounted above a top plate 6 is hinged and connected to the top end of the adjusting telescopic rod 702, a carrier plate 9 is connected to the lower surface of a cleaning cotton 8, first connecting plates 10 are connected to the left end and the right end of the upper surface of the carrier plate 9, and first adjusting rods 11 penetrate through the first connecting plates 10;

the bottom end of the base plate 1 is connected with a base 12, the upper surface of the base 12 is provided with a projection cloth 13, the upper surface of the base 12 is in a rectangular groove-shaped structure, the projection cloth 13 is sunken in the groove-shaped structure, the base 12 is fixed with the base plate 1 in a welding mode, so that the projection cloth 13 is protected and prevented from being damaged, the support plates 14 are welded at the left end and the right end of the lower surface of the base 12, the inner end surfaces of the support plates 14 are fixedly connected with a box body 15, a second adjusting rod 16 is installed in the box body 15, the outer surface of the second adjusting rod 16 is connected with a second connecting plate 17, the outer surface of the second adjusting rod 16 is in a thread-shaped structure, the second adjusting rod 16, the second connecting plate 17 and the limiting plate 18 are combined to form an interlocking structure, the limiting plate 18 is in the box body 15 and is in a lifting structure, the fire extinguisher is fixed, the inner end of the second connecting plate 17 is connected with the limiting plate 18, the upper surface of the limiting plate 18 is reserved with through holes 19, the through holes 19 are distributed on the upper surface of the limiting plate 18 at equal intervals, and the positions of the through holes 19 correspond to the positions of the placing grooves 20 one by one, so that the fire extinguisher is conveniently clamped by the through holes 19 on the limiting plate 18, and the placing grooves 20 are arranged at equal intervals at the bottom end in the box body 15;

as in figure 1 the upper surface of the cleaning cotton 8 is attached to the lower surface of the holographic projector 7, and the cleaning cotton 8 and the carrier plate 9 are connected in a sticking manner, so that the holographic projector 7 can be cleaned conveniently by the cleaning cotton 8, and the projection effect is prevented from being influenced by dust.

As shown in fig. 2, the outer surface of the first adjusting rod 11 is in a thread structure, the first connecting plate 10 is in a sliding structure on the first adjusting rod 11, and an integrated structure is formed between the first connecting plate 10 and the carrier plate 9, so that the carrier plate 9 can be controlled to slide conveniently by the rotation of the first adjusting rod 11, and the cleaning cotton 8 can slide to clean the holographic projector 7.

The working principle is as follows: when the fire-extinguishing simulation experience system is used, firstly, a user can play videos through the display screen 5 on the base plate 1 to know the cautions during fire extinguishing and the using method of the fire extinguisher, then the user takes out the fire extinguisher from the interior of the box body 15 shown in fig. 1, then the telescopic rod 702 is adjusted to be telescopic by adjusting the starting of the telescopic rod 702, so that the telescopic rod 702 is hinged with the fixed plate 703 and the host machine 701 to push the host machine 701 to rotate below the top plate 6, the angle of the host machine 701 can be matched with the projection cloth 13 to project holographic projection, and at the moment, the user can utilize a sensor on the fire extinguisher to be combined with a computer system to perform simulated fire extinguishing;

when the fire extinguisher is not needed to be used, the fire extinguisher is placed in the placing groove 20, at this time, a worker controls the second adjusting rod 16 shown in fig. 1 to rotate by using the driving motor installed on the upper surface of the box body 15 so as to drive the limiting plate 18 to go up and down through the second connecting plate 17, at this time, the fire extinguisher is clamped into the through hole 19 shown in fig. 3 so as to be fixed;

when dust accumulates on the surface of the holographic projector 7, by adjusting the retraction of the telescopic rod 702, so that the main body 701 rotates to a horizontal state, a user can control the first adjusting rod 11 to rotate by starting the driving motor installed inside the base plate 1, at this time, the carrier plate 9 slides under the driving of the first connecting plate 10, thereby driving the cleaning cotton 8 to slide, so that the cleaning cotton 8 shown in figure 1 cleans the holographic projector 7, and after the cleaning is finished, the cleaning cotton 8 is adjusted to slide to the back of the holographic projector 7, so as to avoid the influence on the projection operation, as shown in fig. 2, the heat dissipating ports 2 on the front and rear end surfaces of the substrate 1 ensure stable heat dissipation, while the socket 4 is used to connect various circuits, the expansion card slot 3 can be used to insert a memory card, this is the overall process of use of the fire suppression simulation experience system and is not described in detail in this specification as being within the skill of those in the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

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. A fire-extinguishing simulation experience system is characterized in that: the system comprises a substrate (1), a display screen (5) and a holographic projector (7), wherein a heat dissipation port (2) is formed in the side face of the substrate (1), the display screen (5) is installed on the surface of the front end of the substrate (1), a top plate (6) welded with the substrate (1) is arranged above the display screen (5), the holographic projector (7) is rotatably connected to the lower surface of the top plate (6), and cleaning cotton (8) is arranged below the holographic projector (7);

the lower surface of the cleaning cotton (8) is connected with a support plate (9), two ends of the upper surface of the support plate (9) are connected with first connecting plates (10), and first adjusting rods (11) penetrate through the first connecting plates (10);

the bottom of base plate (1) is connected with base (12), and the upper surface mounting of base (12) has projection cloth (13), both ends all have welded extension board (14) about the lower surface of base (12), and the inner fixed surface of extension board (14) is connected with box (15), the internally mounted of box (15) has the second to adjust pole (16), and the surface that aforementioned second was adjusted pole (16) is connected with second connecting plate (17), the inner of second connecting plate (17) is connected with limiting plate (18), and the upper surface of limiting plate (18) is reserved has through-hole (19), the equidistant standing groove (20) that are used for placing the fire extinguisher that are provided with in inside bottom of box (15).

2. A fire suppression simulated experience system according to claim 1 wherein: clean cotton (8) holographic projector (7) include host computer (701), adjust telescopic link (702) and fixed plate (703), and host computer (701) top right side is articulated to be connected with adjusts telescopic link (702), and the articulated fixed plate (703) that are connected with fixed mounting in the top of roof (6) in the top of adjusting telescopic link (702).

3. A fire suppression simulated experience system according to claim 1 wherein: the upper surface of the cleaning cotton (8) is attached to the lower surface of the holographic projector (7), and the cleaning cotton (8) is adhered to the support plate (9).

4. A fire suppression simulated experience system according to claim 1 wherein: the outer surface of the first adjusting rod (11) is of a thread-shaped structure, the first connecting plate (10) is of a sliding structure on the first adjusting rod (11), and an integrated structure is formed between the first connecting plate (10) and the carrier plate (9).

5. A fire suppression simulated experience system according to claim 1 wherein: the upper surface of the base (12) is in a rectangular groove-shaped structure, the projection cloth (13) is sunken in the groove-shaped structure, and the base (12) is fixed with the substrate (1) in a welding mode.

6. A fire suppression simulated experience system according to claim 1 wherein: the outer surface of the second adjusting rod (16) is in a thread structure, the second adjusting rod (16), the second connecting plate (17) and the limiting plate (18) are combined to form a linkage structure, and the limiting plate (18) is in a lifting structure in the box body (15).

7. A fire suppression simulated experience system according to claim 1 wherein: the through holes (19) are distributed on the upper surface of the limiting plate (18) at equal intervals, and the positions of the through holes (19) correspond to the positions of the placing grooves (20) one by one.

8. A fire suppression simulated experience system according to claim 1 wherein: the rear side of the heat dissipation opening (2) is provided with an expansion clamping groove (3) formed in the outer surface of the substrate (1), and a socket (4) is arranged below the expansion clamping groove (3).