CN110812749B - Indoor eminence fire extinguisher - Google Patents

Abstract

The invention relates to the field of fire fighting, in particular to an indoor high-altitude fire extinguisher, which is one of necessary equipment in fire engineering.

Description

Indoor eminence fire extinguisher

Technical Field

The invention relates to the field of fire fighting, in particular to an indoor high-altitude fire extinguisher.

Background

In the fire-fighting engineering, the fire extinguisher is one of necessary equipment, and the traditional fire extinguisher only has a single fire extinguishing agent and cannot spray a high ignition point.

Disclosure of Invention

The purpose of the invention is realized by the following technical scheme:

an indoor eminence fire extinguisher, includes stock solution assembly, height adjustment assembly and sprays the assembly, the stock solution assembly be connected with the height adjustment assembly, the height adjustment assembly is connected with the spraying assembly.

As a further optimization of the technical scheme, the invention relates to an indoor high fire extinguisher, wherein a liquid storage assembly comprises a transmission shell, a liquid storage chamber, a liquid storage upper cover, a back strap, an end cover, a liquid injection port, a motor I bracket, a motor I shaft, a chain wheel I, a chain wheel II, a chain wheel III shaft, a tensioning chain wheel shaft, a tensioning chain wheel chute, a spring I, a tensioning slide rail, a fan blade shaft, a friction block, a sleeve inner groove, a sleeve, a walking gear limiting groove, a rack, a fan blade, an air inlet upper plate, a baffle plate, an air blocking groove, a slip ring chute, a partition plate, a spring II, an air blocking plate and a liquid outlet hole I, the transmission shell is connected with the liquid storage upper cover, the liquid storage chamber is connected with the back strap, the liquid storage chamber, the two end covers are respectively, the motor I is connected with a motor I support, the motor I support is connected with a liquid storage upper cover, the motor I is connected with a motor I shaft, the motor I shaft is rotatably connected with the liquid storage upper cover, the motor I shaft is connected with a chain wheel I, the chain wheel I, a chain wheel II, a chain wheel III shaft and a tensioning chain wheel chain are connected, the chain wheel III shaft is connected with a chain wheel III shaft, the chain wheel III shaft is rotatably connected with the liquid storage upper cover, the tensioning chain wheel is rotatably connected with a tensioning chain wheel shaft, the tensioning chain wheel shaft is slidably connected with a tensioning chain wheel shaft chute, the tensioning chain wheel shaft chute is positioned in a tensioning slide rail, a spring I is positioned in the tensioning slide rail, two ends of the spring I are respectively connected with the tensioning slide rail and the tensioning chain wheel shaft, the spring I is in a stretching state, the chain wheel II is connected with a fan blade, the sleeve is connected with a walking gear, the walking gear is located in a walking gear limiting groove, the walking gear limiting groove is located in a liquid storage upper cover, the walking gear is meshed with a rack and connected, the rack is connected with the walking gear limiting groove, a fan blade shaft is connected with a fan blade, an air inlet upper plate is rotationally connected with the sleeve, the air inlet upper plate is connected with a baffle, two air blocking grooves are located between the baffles, a sliding ring is connected with the baffle and is slidably connected with a sliding ring sliding groove, the sliding ring sliding groove is located in the liquid storage upper cover, a partition plate is connected with a liquid storage chamber, a spring II is located in the partition plate, the spring II is in a compression state, the air blocking plate is slidably connected with the partition plate, and two liquid outlet holes I.

As a further optimization of the technical scheme, the invention relates to an indoor high fire extinguisher, which comprises a liquid outlet pipe, a driving lever, a sliding switch, a liquid outlet pipe I, a liquid outlet pipe II, a liquid outlet hole II, a connecting pipe I, a bracket, a sliding rod, a limiting inclined block, a limiting rod, a spring III, a limiting rod sliding rail, a limiting inclined block shell and a limiting inclined tooth, wherein two ends of the liquid outlet pipe are respectively connected with the two liquid outlet holes I, the driving lever is connected with the middle part of the liquid outlet pipe in a sliding way, the driving lever is connected with the sliding switch, the liquid outlet pipe I and the liquid outlet pipe II are both positioned in the sliding switch, the liquid outlet hole II is positioned on the liquid outlet pipe, the connecting pipe I is connected with the liquid outlet pipe, the bracket is connected with the sliding rod in a sliding way, the sliding rod is connected with the limiting inclined block, the limiting inclined block is connected with the bracket in a sliding way, the two ends of the spring III are respectively in contact with the support and the sliding rod, the spring III is in a compression state, the limiting rod is in sliding connection with the limiting rod sliding rail, the limiting rod sliding rail is connected with the liquid storage chamber, the limiting oblique block shell is connected with the liquid storage chamber, the limiting oblique teeth are connected with the limiting oblique block shell, and the limiting oblique blocks are in contact with the limiting oblique teeth.

As a further optimization of the technical scheme, the indoor high fire extinguisher comprises a spraying assembly, supporting legs, a lifting upper bracket, a motor II shaft bracket, a bracket bottom plate, a friction wheel, a connecting pipe II, a liquid outlet ball head, a friction liquid storage tank and a liquid scattering baffle plate, wherein the lower ends of the two supporting legs are connected with a sliding rod, the upper ends of the two supporting legs are connected with the lifting upper bracket, the motor II is connected with the supporting legs and the lifting upper bracket, the motor II is connected with the motor II shaft, the motor II shaft is rotationally connected with the motor II shaft bracket, the motor II shaft bracket is connected with the bracket bottom plate, the bracket bottom plate is connected with the supporting legs, the motor II shaft is connected with the friction wheel, the connecting pipe II is connected with the lifting upper bracket, the connecting pipe II is connected with the liquid outlet ball head, the friction wheel is contacted with the friction liquid, the friction liquid storage tank is rotatably connected with the connecting pipe II.

The indoor high-altitude fire extinguisher has the beneficial effects that: different fire extinguishing agents are added into the two liquid storage chambers through opening the liquid injection ports of the two differences, the two liquid storage chambers can be pressurized respectively through the adjusting fan, the sliding switch can be adjusted to selectively spray the fire extinguishing agents in any liquid storage chamber or selectively close the spraying, the spraying height of the bracket can be adjusted, the fire extinguishing agents are sprayed to the periphery through the liquid outlet ball heads, the falling fire extinguishing agents are thrown through the liquid spraying baffle plates to the periphery, the fire extinguishing agents cannot fall on the equipment, and the waste of the fire extinguishing agents cannot be caused.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic view of a first embodiment of the liquid storage assembly 1 of the present invention;

FIG. 4 is a partial cross-sectional view of the reservoir assembly 1 of the present invention;

FIG. 5 is a second partial cross-sectional view of the reservoir assembly 1 of the present invention;

FIG. 6 is a schematic structural diagram II of the liquid storage assembly 1 of the present invention;

FIG. 7 is a schematic view of a third embodiment of the liquid storage assembly 1 of the present invention;

FIG. 8 is a partial cross-sectional view III of the reservoir assembly 1 of the present invention;

FIG. 9 is a fourth schematic structural view of the liquid storage assembly 1 of the present invention;

FIG. 10 is a partial cross-sectional view of a fourth reservoir assembly 1 of the present invention;

FIG. 11 is a schematic structural diagram of a liquid storage assembly 1 of the present invention;

FIG. 12 is a sixth schematic view of the liquid storage assembly 1 of the present invention;

FIG. 13 is a partial cross-sectional view five of the reservoir assembly 1 of the present invention;

FIG. 14 is a first schematic view of the height adjustment assembly 2 of the present invention;

FIG. 15 is a partial cross-sectional view of the height adjustment assembly 2 of the present invention;

FIG. 16 is a second schematic structural view of the height adjustment assembly 2 of the present invention;

FIG. 17 is a third schematic structural view of the height adjustment assembly 2 of the present invention;

FIG. 18 is a second partial cross-sectional view of the height adjustment assembly 2 of the present invention;

FIG. 19 is a first schematic structural view of the spraying assembly 3 of the present invention;

fig. 20 is a second structural schematic view of the spraying assembly 3 of the present invention.

In the figure: a liquid storage assembly 1; a transmission housing 1-1; a liquid storage chamber 1-2; 1-3 of an upper liquid storage cover; 1-4 of braces; 1-5 parts of an end cover; 1-6 parts of a liquid injection port; 1-7 of a motor I; 1-8 of a bracket of a motor I; 1-9 of a shaft of a motor I; 1-10 sprockets; 1-11 parts of a chain; chain wheels II 1-12; chain wheels III 1-13; 1-14 of a sprocket III shaft; tensioning sprockets 1-15; tensioning sprocket shafts 1-16; tensioning sprocket shaft chutes 1-17; 1-18 parts of a spring; tensioning the slide rails 1-19; 1-20 parts of fan blade shaft; 1-21 parts of friction block; internal grooves 1-22 of the sleeve; 1-23 of a sleeve; 1-24 parts of a traveling gear; 1-25 parts of a walking gear limiting groove; racks 1-26; 1-27 of fan blades; an upper intake plate 1-28; baffles 1-29; 1-30 parts of a gas plugging groove; slip rings 1-31; slip ring chutes 1-32; partition plates 1 to 33; springs II 1-34; 1-35 parts of an air blocking plate; liquid outlet holes I1-36; the height adjusting assembly 2 comprises a liquid outlet pipe 2-1; a driving lever 2-2; a slide switch 2-3; a liquid outlet pipeline I2-4; a liquid outlet pipeline II 2-5; liquid outlet holes II 2-6; connecting pipes I2-7; 2-8 of a bracket; 2-9 of a slide bar; 2-10 parts of a limiting inclined block; 2-11 parts of a limiting rod; 2-12 parts of a spring III; 2-13 parts of a limiting rod slide rail; 2-14 parts of a limiting oblique block shell; 2-15 parts of limit helical teeth; a spraying assembly 3; 3-1 of supporting legs; lifting the upper bracket 3-2; a motor II 3-3; 3-4 of a motor II shaft; 3-5 shaft supports of a motor II; 3-6 parts of a bracket bottom plate; 3-7 parts of friction wheel; connecting pipes II 3-8; 3-9 of a liquid outlet ball head; 3-10 parts of a friction liquid storage tank; liquid spreading baffle 3-11

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment;

this embodiment of following combination figure 1-20, an indoor eminence fire extinguisher, including stock solution combination 1, height adjustment combination 2 and spraying combination 3, its characterized in that: stock solution assembly 1 be connected with height adjustment assembly 2, height adjustment assembly 2 is connected with spraying assembly 3.

The second embodiment is as follows:

referring to fig. 1-20, the present embodiment will be further described, wherein the liquid storage assembly 1 includes a transmission housing 1-1, a liquid storage chamber 1-2, a liquid storage upper cover 1-3, a shoulder strap 1-4, an end cover 1-5, a liquid injection port 1-6, a motor i 1-7, a motor i bracket 1-8, a motor i shaft 1-9, a sprocket i 1-10, a chain 1-11, a sprocket ii 1-12, a sprocket iii 1-13, a sprocket iii shaft 1-14, a tension sprocket 1-15, a tension sprocket shaft 1-16, a tension sprocket shaft chute 1-17, a spring i 1-18, a tension slide rail 1-19, a fan blade shaft 1-20, a friction block 1-21, a sleeve inner groove 1-22, a sleeve 1-23, a tension sprocket shaft 1-17, a tension sprocket shaft chute 1-17, a spring, 1-24 parts of a traveling gear, 1-25 parts of a limiting groove of the traveling gear, 1-26 parts of a rack, 1-27 parts of fan blades, 1-28 parts of an air inlet upper plate, 1-29 parts of a baffle plate, 1-30 parts of an air blocking groove, 1-31 parts of a sliding ring, 1-32 parts of a sliding ring sliding groove, 1-33 parts of a partition plate, 1-34 parts of a spring, 1-35 parts of an air blocking plate and 1-36 parts of a liquid outlet hole, 1-1 parts of a transmission shell and 1-3 parts of a liquid storage upper cover, 1-3 parts of the liquid storage upper cover and 1-2 parts of a liquid storage chamber, 1-4 parts of braces and 1-2 parts of the liquid storage chamber, 1-5 parts of two end covers are respectively in threaded connection with 1-6 parts of two liquid injection ports, 1-6 parts of two liquid injection ports, the support 1-8 of the motor I is connected with the upper liquid storage cover 1-3, the motor I1-7 is connected with the shaft 1-9 of the motor I, the shaft 1-9 of the motor I is rotationally connected with the upper liquid storage cover 1-3, the shaft 1-9 of the motor I is connected with the chain wheel I1-10, the chain 1-11, the chain wheel II 1-12, the chain wheel III 1-13, the shaft 1-14 of the chain wheel III and the chain wheel of the tensioning chain wheel 1-15, the chain wheel III 1-13 is connected with the shaft 1-14 of the chain wheel III, the shaft 1-14 of the chain wheel III is rotationally connected with the upper liquid storage cover 1-3, the tensioning chain wheel 1-15 is rotationally connected with the tensioning chain wheel shaft 1-16, the tensioning chain wheel shaft 1-16 is slidably connected with the chute 1-17 of the tensioning chain wheel shaft, the chute 1-, the spring I1-18 is positioned in the tensioning slide rail 1-19, two ends of the spring I1-18 are respectively connected with the tensioning slide rail 1-19 and the tensioning sprocket shaft 1-16, the spring I1-18 is in a stretching state, the sprocket II 1-12 is connected with the fan blade shaft 1-20, the fan blade shaft 1-20 is connected with the friction block 1-21, the friction block 1-21 is contacted with the sleeve inner groove 1-22, the sleeve inner groove 1-22 is positioned in the sleeve 1-23, the sleeve 1-23 is connected with the walking gear 1-24, the walking gear 1-24 is positioned in the walking gear limit groove 1-25, the walking gear limit groove 1-25 is positioned in the liquid storage upper cover 1-3, the walking gear 1-24 is meshed with the rack 1-26, the rack 1-26 is connected with the walking gear limit groove 1-25, the fan blade shaft 1-20 is connected with fan blades 1-27, the air inlet upper plate 1-28 is rotatably connected with a sleeve 1-23, the air inlet upper plate 1-28 is connected with a baffle 1-29, two air blocking grooves 1-30 are positioned between the baffles 1-29, a slip ring 1-31 is connected with the baffles 1-29, the slip ring 1-31 is slidably connected with a slip ring sliding groove 1-32, the slip ring sliding groove 1-32 is positioned in a liquid storage upper cover 1-3, a partition plate 1-33 is connected with a liquid storage chamber 1-2, a spring II 1-34 is positioned in the partition plate 1-33, the spring II 1-34 is in a compressed state, the air blocking plate 1-35 is slidably connected with the partition plate 1-33, two liquid outlet holes I1-36 are respectively positioned at the bottoms of two sides of the liquid storage chamber 1-2, different fire extinguishing agents are added into the two liquid storage chambers by opening two, the two liquid storage chambers can be pressurized respectively by adjusting the fan.

The third concrete implementation mode:

referring to fig. 1-20, the present embodiment will be further described, wherein the height adjustment assembly 2 includes a liquid outlet pipe 2-1, a shift lever 2-2, a sliding switch 2-3, a liquid outlet pipe i 2-4, a liquid outlet pipe ii 2-5, a liquid outlet hole ii 2-6, a connecting pipe i 2-7, a bracket 2-8, a sliding rod 2-9, a limiting wedge 2-10, a limiting rod 2-11, a spring iii 2-12, a limiting rod sliding rail 2-13, a limiting wedge housing 2-14 and a limiting wedge 2-15, two ends of the liquid outlet pipe 2-1 are respectively connected with the two liquid outlet holes i 1-36, the shift lever 2-2 is slidably connected with the middle portion of the liquid outlet pipe 2-1, the shift lever 2-2 is connected with the sliding switch 2-3, the liquid outlet pipeline I2-4 and the liquid outlet pipeline II 2-5 are both positioned in a sliding switch 2-3, a liquid outlet hole II 2-6 is positioned on the liquid outlet pipe 2-1, a connecting pipe I2-7 is connected with the liquid outlet pipe 2-1, a support 2-8 is connected with a sliding rod 2-9 in a sliding way, the sliding rod 2-9 is connected with a limit inclined block 2-10, the limit inclined block 2-10 is connected with the support 2-8 in a sliding way, the support 2-8 is connected with the support 2-8, the sliding rod 2-9 is connected with a limit rod 2-11 in a sliding way, a spring III 2-12 is sleeved on the limit rod 2-11, two ends of the spring III 2-12 are respectively contacted with the support 2-8 and the sliding rod 2-9, the spring III 2-12 is in a compressed state, the limit rod 2-11 is connected with a limit rod sliding, the limiting rod sliding rail 2-13 is connected with the liquid storage chamber 1-2, the limiting oblique block shell 2-14 is connected with the liquid storage chamber 1-2, the limiting oblique teeth 2-15 are connected with the limiting oblique block shell 2-14, the limiting oblique blocks 2-10 are in contact with the limiting oblique teeth 2-15, the position of a sliding switch is adjusted to selectively spray fire extinguishing agents in any liquid storage chamber or selectively close the spraying, and the spraying height can be adjusted by pushing the support.

The fourth concrete implementation mode:

referring to the embodiment shown in fig. 1-20, the first embodiment is further described, the spraying assembly 3 includes a support leg 3-1, a lifting upper support 3-2, a motor ii 3-3, a motor ii shaft 3-4, a motor ii shaft support 3-5, a support bottom plate 3-6, a friction wheel 3-7, a connecting pipe ii 3-8, a liquid outlet ball head 3-9, a friction liquid storage tank 3-10 and a liquid spreading baffle plate 3-11, the lower ends of the two support legs 3-1 are connected with a slide bar 2-9, the upper ends of the two support legs 3-1 are connected with the lifting upper support 3-2, the motor ii 3-3 is connected with the support leg 3-1 and the lifting upper support 3-2, the motor ii 3-3 is connected with the motor ii shaft 3-4, the motor II shaft 3-4 is rotatably connected with the motor II shaft bracket 3-5, the motor II shaft bracket 3-5 is connected with the bracket bottom plate 3-6, the bracket bottom plate 3-6 is connected with the supporting leg 3-1, the motor II shaft 3-4 is connected with the friction wheel 3-7, the connecting pipe II 3-8 is connected with the lifting upper bracket 3-2, the connecting pipe II is connected with the liquid outlet ball head 3-9, the friction wheel 3-7 is contacted with the friction liquid storage tank 3-10, the friction liquid storage tank 3-10 is connected with the liquid spreading baffle plate 3-11, the friction liquid storage tank 3-10 is rotatably connected with the connecting pipe II 3-8, the fire extinguishing agent is sprayed to the periphery through the liquid outlet ball head, and the falling fire extinguishing agent is thrown to the periphery through the liquid spreading baffle plate and cannot fall on the equipment, so that the waste of the fire extinguishing agent cannot.

The invention relates to an indoor high-altitude fire extinguisher, which has the working principle that: starting a motor I1-7, driving a motor I shaft 1-9 to rotate by the motor I1-7, driving a chain wheel I1-10 to rotate by the motor I shaft 1-9, driving a chain wheel II 1-12, a chain wheel III 1-13, a chain wheel III shaft 1-14 and a tension chain wheel 1-15 to rotate by the chain wheel I1-10 through a chain 1-11, driving the tension chain wheel 1-15 to rotate with a tension chain wheel shaft 1-16, driving the tension chain wheel shaft 1-16 not to rotate by the tension chain wheel 1-15, driving the tension chain wheel shaft 1-16 to slide in a tension chain wheel shaft chute 1-17 by a spring I1-18, driving the tension chain wheel 1-15 to move by the tension chain wheel shaft 1-16 to tension the chain 1-11, driving a fan blade shaft 1-20 to rotate by the chain wheel II 1-12, the fan blade shaft 1-20 drives the sleeve 1-23 to rotate through the friction block 1-21, the fan blade shaft 1-20 drives the fan blade 1-27 to rotate, the sleeve 1-23 drives the walking gear 1-24 to rotate, the walking gear 1-24 is limited by the walking gear limiting groove 1-25 and cannot fall off, the walking gear 1-24 is meshed with the rack 1-26, the walking gear 1-24 walks on the rack 1-26, the walking gear 1-24 drives the sleeve 1-23 to move, the sleeve 1-23 is rotationally connected with the air inlet upper plate 1-28, the sleeve 1-23 drives the air inlet upper plate 1-28 to move, the air inlet upper plate 1-28 drives the baffle plate 1-29 to move, the baffle plate 1-29 drives the slip ring 1-31 to slide in the slip ring sliding groove 1-32, the baffle plate 1-29 is contacted with the inclined plane of the air blocking plate 1-35 in one air blocking groove 1-30, the air blocking plate 1-35 slides towards the partition plate 1-33, the air blocking plate 1-35 can not interfere with the fan blade 1-27, when the sliding ring 1-31 slides to the end of the sliding ring chute 1-32, the sliding ring 1-31 can not slide continuously, the air inlet upper plate 1-28 and the baffle plate 1-29 can not slide continuously, the walking gear 1-24 can not rotate, the fan blade shaft 1-20 can not drive the sleeve 1-23 to rotate through the friction block 1-21, the fan blade shaft 1-20 can drive the fan blade 1-27 to rotate continuously, at the moment, the air blocking plate 1-35 is positioned below the other air blocking groove 1-30, under the action of the spring II 1-34, the air blocking plate 1-35 is contacted with the air inlet upper plate 1-28, the fan blades 1-27 are positioned above the liquid storage chamber 1-2 at one side, the fan blades 1-27 rotate to blow air to the liquid storage chamber 1-2 at the side, the pressure in the liquid storage chamber 1-2 at the side is increased, the air blown by the fan blades 1-27 is blocked by the partition plates 1-33 and cannot be blown into the liquid storage chamber 1-2 at the other side, the motor I1-7 is reversed, the transmission process from the shaft 1-9 of the motor I to the fan blades 1-27 is repeated, the fan blades 1-27 blow air to the liquid storage chamber 1-2 at the other side, the pressure in the liquid storage chamber 1-2 at the other side is increased, the pressure in any one liquid storage chamber 1-2 at one side is increased, the two ends of a long rubber pipe are respectively connected to the connecting pipe I2-7 and the connecting pipe II 3-8, and after the pressure in the liquid storage, fire extinguishing agent in the liquid storage chamber 1-2 flows into the liquid outlet pipe 2-1 through the liquid outlet hole I1-36, the fire extinguishing agent flows out to the liquid outlet hole II 2-6 through the liquid outlet pipe I2-4 or the liquid outlet pipe II 2-5, the fire extinguishing agent flows into the liquid outlet ball head 3-9 through the liquid outlet hole II 2-6, the connecting pipe I2-7, the hose and the connecting pipe II 3-8 to be sprayed out, the fire extinguishing agent can be scattered during fire extinguishing spraying, the scattered fire extinguishing agent is stored by the friction liquid storage tank 3-10, the motor II 3-3 is started, the motor II 3-3 drives the motor II shaft 3-4 to rotate, the motor II shaft 3-4 drives the friction wheel 3-7 to rotate, the friction liquid storage tank 3-10 drives the liquid baffle 3-11 to rotate to spray the fire extinguishing agent in the friction liquid storage tank 3-10, when a fire point is at a high position, pulling a sliding rod 2-9, enabling the sliding rod 2-9 to slide on the side edge of a support 2-8, enabling a limiting inclined block 2-10 to slide on the upper edge of the support 2-8 under the driving of the sliding rod 2-9, enabling the sliding rod 2-9 to slide on a liquid spreading baffle plate 3-11, enabling a spring III 2-12 to be compressed, enabling the limiting inclined block 2-10 not to be in contact with a limiting inclined tooth 2-15, pushing the support 2-8 upwards, enabling a limiting rod 2-11 to slide in a limiting rod sliding rail 2-13 under the driving of the support 2-8, enabling an adjusting spraying combination body 3 to move upwards under the driving of the sliding rod 2-9 through the driving of the sliding rod 2-9, after the spraying combination body 3 is adjusted to a proper position, loosening the sliding rod 2-9 under the pushing force of the spring III 2-12, the limiting inclined blocks 2-10 are reset, the planes of the limiting inclined blocks 2-10 are in plane contact with the planes of the limiting inclined teeth 2-15, the limiting inclined blocks 2-10 do not fall, the sliding rods 2-9 do not fall, and the spraying assembly 3 does not fall, so that the spraying height is adjusted.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides an indoor eminence fire extinguisher, includes stock solution combination body (1), height control combination body (2) and sprays combination body (3), its characterized in that: the liquid storage assembly (1) comprises a transmission shell (1-1), a liquid storage chamber (1-2), a liquid storage upper cover (1-3), a strap (1-4), an end cover (1-5), a liquid injection port (1-6), a motor I (1-7), a motor I support (1-8), a motor I shaft (1-9), a chain wheel I (1-10), a chain (1-11), a chain wheel II (1-12), a chain wheel III (1-13), a chain wheel III shaft (1-14), a tensioning chain wheel (1-15), a tensioning chain wheel shaft (1-16), a tensioning chain wheel shaft sliding groove (1-17), a spring I (1-18), a tensioning sliding rail (1-19), a fan blade shaft (1-20), a friction block (1-21), a sleeve inner groove (1-22), The device comprises a sleeve (1-23), a traveling gear (1-24), a traveling gear limiting groove (1-25), a rack (1-26), fan blades (1-27), an air inlet upper plate (1-28), a baffle (1-29), an air blocking groove (1-30), a sliding ring (1-31), a sliding ring sliding groove (1-32), a partition plate (1-33), a spring II (1-34), an air blocking plate (1-35) and a liquid outlet hole I (1-36), a transmission shell (1-1) is connected with a liquid storage upper cover (1-3), the liquid storage upper cover (1-3) is connected with a liquid storage chamber (1-2), a brace (1-4) is connected with the liquid storage chamber (1-2), two end covers (1-5) are respectively in threaded connection with two liquid injection ports (1-6), the two liquid injection ports (1-6) are connected with a liquid storage chamber (1-2), a motor I (1-7) is connected with a motor I support (1-8), the motor I support (1-8) is connected with a liquid storage upper cover (1-3), the motor I (1-7) is connected with a motor I shaft (1-9), the motor I shaft (1-9) is rotatably connected with the liquid storage upper cover (1-3), the motor I shaft (1-9) is connected with a chain wheel I (1-10), the chain wheel I (1-10), a chain (1-11), a chain wheel II (1-12), a chain wheel III (1-13), a chain wheel III shaft (1-14) and a tensioning chain wheel (1-15) are connected with a chain wheel chain, the chain wheel III (1-13) is connected with the chain wheel III shaft (1-14), a chain wheel III shaft (1-14) is rotatably connected with a liquid storage upper cover (1-3), a tensioning chain wheel (1-15) is rotatably connected with a tensioning chain wheel shaft (1-16), the tensioning chain wheel shaft (1-16) is slidably connected with a tensioning chain wheel shaft sliding chute (1-17), the tensioning chain wheel shaft sliding chute (1-17) is positioned in a tensioning sliding rail (1-19), a spring I (1-18) is positioned in the tensioning sliding rail (1-19), two ends of the spring I (1-18) are respectively connected with the tensioning sliding rail (1-19) and the tensioning chain wheel shaft (1-16), the spring I (1-18) is in a stretching state, a chain wheel II (1-12) is connected with a fan blade shaft (1-20), the fan blade shaft (1-20) is connected with a friction block (1-21), the friction block (1-21) is contacted with an inner groove (1-22) of a sleeve, the internal groove (1-22) of the sleeve is positioned in the sleeve (1-23), the sleeve (1-23) is connected with a walking gear (1-24), the walking gear (1-24) is positioned in a walking gear limiting groove (1-25), the walking gear limiting groove (1-25) is positioned in a liquid storage upper cover (1-3), the walking gear (1-24) is meshed with a rack (1-26), the rack (1-26) is connected with the walking gear limiting groove (1-25), a fan blade shaft (1-20) is connected with a fan blade (1-27), an air inlet upper plate (1-28) is rotatably connected with the sleeve (1-23), the air inlet upper plate (1-28) is connected with a baffle (1-29), and two air blocking grooves (1-30) are positioned between the baffles (1-29), the sliding ring (1-31) is connected with the baffle (1-29), the sliding ring (1-31) is connected with the sliding ring chute (1-32) in a sliding manner, the sliding ring chute (1-32) is positioned in the upper liquid storage cover (1-3), the partition plate (1-33) is connected with the liquid storage chamber (1-2), the spring II (1-34) is positioned in the partition plate (1-33), the spring II (1-34) is in a compressed state, the gas blocking plate (1-35) is connected with the partition plate (1-33) in a sliding manner, and the two liquid outlet holes I (1-36) are respectively positioned at the bottoms of two sides of the liquid storage chamber (1-2);

the height adjusting assembly (2) comprises liquid outlet pipes (2-1), a driving lever (2-2), a sliding switch (2-3), a liquid outlet pipeline I (2-4), a liquid outlet pipeline II (2-5), liquid outlet holes II (2-6), connecting pipes I (2-7), a support (2-8), a sliding rod (2-9), a limiting inclined block (2-10), a limiting rod (2-11), a spring III (2-12), a limiting rod sliding rail (2-13), a limiting inclined block shell (2-14) and a limiting inclined tooth (2-15), wherein two ends of the liquid outlet pipe (2-1) are respectively connected with the two liquid outlet holes I (1-36), the driving lever (2-2) is connected with the middle of the liquid outlet pipe (2-1) in a sliding manner, the driving lever (2-2) is connected with the sliding switch (2-3), the liquid outlet pipeline I (2-4) and the liquid outlet pipeline II (2-5) are located in the sliding switch (2-3), the liquid outlet hole II (2-6) is located on the liquid outlet pipe (2-1), the connecting pipe I (2-7) is connected with the liquid outlet pipe (2-1), the support (2-8) is connected with the sliding rod (2-9) in a sliding mode, the sliding rod (2-9) is connected with the limiting inclined block (2-10), the limiting inclined block (2-10) is connected with the support (2-8) in a sliding mode, the support (2-8) is connected with the support (2-8), the sliding rod (2-9) is connected with the limiting rod (2-11) in a sliding mode, the spring III (2-12) is sleeved on the limiting rod (2-11), and two ends of the spring III (2-12) are respectively connected with the support (2-8), The sliding rod (2-9) is contacted, the spring III (2-12) is in a compressed state, the limiting rod (2-11) is in sliding connection with the limiting rod sliding rail (2-13), the limiting rod sliding rail (2-13) is connected with the liquid storage chamber (1-2), the limiting inclined block shell (2-14) is connected with the liquid storage chamber (1-2), the limiting inclined teeth (2-15) are connected with the limiting inclined block shell (2-14), and the limiting inclined block (2-10) is contacted with the limiting inclined teeth (2-15);

the spraying assembly (3) comprises supporting legs (3-1), a lifting upper support (3-2), a motor II (3-3), a motor II shaft (3-4), a motor II shaft support (3-5), a support bottom plate (3-6), friction wheels (3-7), a connecting pipe II (3-8), a liquid outlet ball head (3-9), a friction liquid storage tank (3-10) and a liquid scattering baffle plate (3-11), the lower ends of the two supporting legs (3-1) are connected with a sliding rod (2-9), the upper ends of the two supporting legs (3-1) are connected with the lifting upper support (3-2), the motor II (3-3) is connected with the supporting legs (3-1) and the lifting upper support (3-2), the motor II (3-3) is connected with the motor II shaft (3-4), the motor II shaft (3-4) is rotatably connected with a motor II shaft bracket (3-5), the motor II shaft bracket (3-5) is connected with a bracket bottom plate (3-6), the bracket bottom plate (3-6) is connected with the supporting leg (3-1), the motor II shaft (3-4) is connected with a friction wheel (3-7), a connecting pipe II (3-8) is connected with the lifting upper bracket (3-2), the connecting pipe II is connected with a liquid outlet ball head (3-9), the friction wheel (3-7) is contacted with a friction liquid storage tank (3-10), the friction liquid storage tank (3-10) is connected with a liquid spraying baffle (3-11), and the friction liquid storage tank (3-10) is rotatably connected with the connecting pipe II (3-8);

stock solution assembly (1) be connected with height adjustment assembly (2), height adjustment assembly (2) are connected with spraying assembly (3).

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