CN114534141B - Electromechanical device's electrical apparatus conflagration supervisory equipment - Google Patents

Abstract

The invention discloses an electrical appliance fire monitoring device of electromechanical equipment, which comprises: the guide rail frames are arranged in two groups in a bilateral symmetry mode, and the guide rail frames are fixed on the ground in parallel; the fixed columns can be vertically arranged on each guide rail frame in a relatively sliding mode, and an outer beam frame is transversely arranged between the fixed columns in an overhead mode; the transmission screw rod is transversely arranged in the outer beam frame in a relatively rotating way; the water storage jet assembly is arranged on the transmission screw in a sliding manner through a thread meshing effect, and fire-fighting water is stored in the water storage jet assembly in a fixed amount; the water supply fire-fighting assembly is vertically communicated below the water storage jet assembly, and one side of the lower end surface of the water supply fire-fighting assembly is provided with a thermal sensing monitoring device; and a plurality of smoke alarms are uniformly distributed, and each smoke alarm is arranged between adjacent electromechanical equipment at intervals.

Description

Electromechanical device's electrical apparatus conflagration supervisory equipment

Technical Field

The invention belongs to the technical field of fire fighting equipment, and particularly relates to electrical appliance fire monitoring equipment of electromechanical equipment.

Background

With the continuous improvement of the living standard of people, people have more and more demands on electromechanical equipment in production and manufacturing; the electromechanical equipment has the phenomenon of local high temperature and high heat in daily use, and part of high temperature and high heat easily causes fire; at present, the proportion of electrical fire accidents is increased year by year, and the fire monitoring of electromechanical equipment is particularly important; in the prior art, when fire disaster occurs to electrical equipment, as a fire hose is in an empty pipe state, remote water receiving of the fire hose is difficult to meet the requirement of fire fighting of electromechanical equipment, so that fire fighting emergency treatment is not timely, and huge economic loss is caused; and the common fire-fighting water is difficult to aim at achieving the effect of quickly extinguishing fire to partial electric equipment. Accordingly, those skilled in the art have provided an electrical fire monitoring apparatus for an electromechanical apparatus to solve the problems set forth in the background art described above.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: an electrical fire monitoring apparatus for an electromechanical device, comprising:

the guide rail frames are symmetrically arranged in two groups, and the guide rail frames are fixed on the ground in parallel;

the fixed columns can be vertically arranged on each guide rail frame in a relatively sliding mode, and an outer beam frame is transversely arranged between the fixed columns in an overhead mode;

the transmission screw rod is transversely arranged in the outer beam frame in a relatively rotating way;

the water storage jet assembly is arranged on the transmission screw in a sliding manner through a thread meshing effect, and fire-fighting water is stored in the water storage jet assembly in a fixed quantity manner;

the water supply fire-fighting assembly is vertically communicated below the water storage jet assembly, and one side of the lower end surface of the water supply fire-fighting assembly is provided with a thermal sensing monitoring device; and

the smoke alarm is uniformly distributed, and the smoke alarms are arranged between adjacent electromechanical equipment at intervals.

Further, preferably, the water storage jet assembly comprises:

the mounting seat is arranged on the transmission screw rod in a sliding manner under the action of thread meshing transmission;

the rotating disc is arranged on the mounting seat in a relatively rotating manner, the mounting seat is further provided with a driving shaft in a rotating manner, and the driving shaft is connected with the rotating disc through a connecting belt for transmission;

the outer shell is vertically fixed on the rotating disc, one side of the upper end face of the outer shell is connected with a drain pipe, and one end of the drain pipe is communicated with an external pump body;

the jet flow water supply device is arranged in the outer shell and is communicated with the other end of the drain pipe; and

and the control valve body is communicated with the lower end of the jet flow water supply device, and the other end of the control valve body is communicated with the water supply fire-fighting assembly.

Further, preferably, the jet water supply device includes:

the sealing cavity is fixed in the outer shell, and two discharging cavities are symmetrically arranged in the sealing cavity in the left and right direction;

the shaft plug disc is arranged in each discharge cavity in a relatively sliding manner;

the main rotating wheel is rotatably arranged on the upper side inside the outer shell and is rotatably connected with an inner transmission rod;

the hinge shaft frame can be arranged on the middle side of the upper part in the outer shell in a relatively deflecting mode, linkage rods are hinged to the two sides of the lower end face of the hinge shaft frame, and the other end of the inner transmission rod is hinged to the hinge shaft frame;

the adjusting shaft rod is vertically and relatively slidably connected in each row of conveying cavities in the sealed cavity in a sealing mode, the upper end of the adjusting shaft rod is connected with the linkage rod, and the lower end of the adjusting shaft rod is fixed on the shaft plug disc; and

and the one-way drainage valve is communicated below each discharge cavity, and the discharge cavities are communicated with the control valve body through the one-way drainage valve.

Further, preferably, the adjusting shaft rod is constructed into a two-section telescopic structure, and an air pressure discharge pipe is communicated with the upper end of each discharge cavity on the sealed cavity piece; a plurality of supporting springs are symmetrically arranged on the circumference of the adjusting shaft rod, and one ends of the supporting springs are connected with the shaft plug disc.

Further, preferably, the water supply fire fighting module comprises:

the shaft connecting sleeve is coaxially fixed below the water storage jet assembly;

the main water supply pipe is communicated with one side of the shaft connecting sleeve piece, and the other end of the main water supply pipe is communicated with an external water pump through a telescopic conduit;

the flow promoting adjusting device is vertically arranged in the shaft connecting sleeve and communicated with the main water supply pipe, and the flow promoting adjusting device guides main conveying water in a fire-fighting water auxiliary main water supply pipe in the water storage jet assembly to perform flow injection in water supply and fire fighting; and

and the flow dispersing spray head is embedded and fixed in the shaft connecting sleeve.

Further, preferably, the flow promoting adjustment device includes:

the guide pipe sleeve is vertically fixed in the shaft connecting sleeve, a side exhaust pipe is coaxially fixed inside the upper end of the guide pipe sleeve, and a plurality of inner holes are formed in the circumference of the side exhaust pipe;

the inline pipe is coaxially fixed in the side discharge pipe, and one end of the inline pipe is communicated with the water storage jet flow assembly;

an inner sliding tube coaxially and relatively slidably sleeved outside the inner connecting tube, a plurality of drainage holes corresponding to the inner holes are formed on the inner sliding tube,

the fine adjustment telescopic rods are vertically and symmetrically arranged on the side discharge pipes, the output ends of the fine adjustment telescopic rods are connected and fixed with the inner sliding pipe, and the inner sliding pipe is driven to vertically slide outside the inner connecting pipe; and

the collecting pipe is coaxially fixed in the flow guide pipe sleeve, the main water supply pipe is communicated with the collecting pipe, and one end of the inner sliding pipe is sleeved outside the collecting pipe.

Further, preferably, the method further comprises:

the inner plug body is fixed at one end of the inner connecting pipe, which is far away from the water storage jet assembly, a ring seat is arranged in the inner sliding pipe, and the ring seat is sealed and blocked by the inner plug body in the vertical displacement along with the inner sliding pipe;

the flow cavity is arranged in the flow guide pipe sleeve and is hermetically sleeved on the side discharge pipe;

the flow dividing pipes are arranged in a circumferential symmetrical mode, one end of each flow dividing pipe is communicated with the flow cavity, and the other end of each flow dividing pipe is communicated with the collecting pipe.

Preferably, an isolation guide piece is embedded into the manifold at each port of the shunt tubes, and the isolation guide piece is in a Y-shaped structure.

Further, as preferred, still be fixed with the liquid storage cylinder on the shell body, the one end of liquid storage cylinder through the connecting tube with the drain pipe is linked together, the volume stores the aquatic additive in the liquid storage cylinder.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the water storage jet flow assembly stores fire-fighting water, when the electromechanical equipment has a fire, the water storage jet flow assembly can directly provide fire-fighting water to the water supply fire-fighting assembly, the water supply fire-fighting assembly is aligned to a fire source point to carry out initial rapid fire-fighting work, a main water supply pipe in the water supply fire-fighting assembly can provide main conveying water immediately after the main water supply pipe, and the flow promoting adjusting device can adjust the conveying track of the water storage jet flow assembly after the main water supply pipe reaches stable water supply so as to assist the main conveying water in the main water supply pipe to carry out flowing injection, and the water storage jet flow assembly is also communicated with the liquid storage barrel to inject additives in the fire-fighting water, so that the fire-fighting effect is improved.

Drawings

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

FIG. 2 is a schematic view of the structure of the water storing jet assembly of the present invention;

FIG. 3 is a schematic structural view of a jet water supply apparatus according to the present invention;

FIG. 4 is a schematic view of the structure of the water supply fire fighting module of the present invention;

FIG. 5 is a schematic view of the structure of a flow promoting regulator of the present invention;

in the figure: the device comprises a guide rail frame 1, a fixed column 2, a transmission screw rod 21, a fire-fighting water supply assembly 3, a shaft connection kit 31, a main water supply pipe 32, a telescopic guide pipe 33, a flow dispersing spray head 34, a water storage jet assembly 4, a mounting seat 41, a rotating disk 42, a driving shaft 43, an outer shell 44, a control valve body 45, a jet water supply device 5, a sealed cavity 51, a plug disk 52, a main rotating wheel 53, a hinged shaft frame 54, an adjusting shaft rod 55, a pneumatic pressure discharge pipe 56, a supporting spring 57, a flow promoting adjusting device 6, a flow guide pipe sleeve 61, a side discharge pipe 62, an inline pipe 63, an inline pipe 64, an inline plug body 65, a confluence pipe 66, a flow cavity 67, a shunt pipe 68 and a liquid storage cylinder 7.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, an electrical fire monitoring apparatus for an electromechanical apparatus includes:

the guide rail brackets 1 are arranged in two groups in a bilateral symmetry mode, and the guide rail brackets 1 are fixed on the ground in parallel;

the fixed columns 2 are vertically arranged on the guide rail frames 1 in a relatively sliding mode, and an outer beam frame is transversely erected between the fixed columns 2;

a transmission screw 21 which is transversely arranged in the outer beam frame in a relatively rotatable manner;

the water storage jet flow component 4 is arranged on the transmission screw rod 21 in a sliding mode through a thread meshing effect, and fire-fighting water is stored in the water storage jet flow component 4 in a fixed quantity mode;

the water supply fire-fighting assembly 3 is vertically communicated below the water storage jet assembly 4, and one side of the lower end surface of the water supply fire-fighting assembly 3 is provided with a thermal sensing monitoring device (not shown in the figure); and

smoke alarm (not shown in the figure), for evenly laying a plurality ofly, each smoke alarm interval arrangement sets up between adjacent electromechanical device, preferentially through smoke alarm to electromechanical device smog respond to the warning, store water fluidic component can be through fixed column displacement to corresponding position, and hot sensing monitoring device can scan the control to the ignition source point, if when the conflagration breaing out, store water fluidic component can put out a fire the fire control work to electromechanical device the very first time.

In this embodiment, the water storage fluidic assembly 4 comprises:

the mounting seat 41 is arranged on the transmission screw rod 21 in a sliding manner through a thread meshing transmission function;

the rotating disc 42 is relatively rotatably arranged on the mounting seat 41, a driving shaft 43 is further rotatably arranged on the mounting seat 41, and the driving shaft 43 is connected with the rotating disc 42 through a connecting belt for transmission;

an outer housing 44 vertically fixed on the rotating disc 42, wherein a drain pipe 46 is connected to one side of the upper end surface of the outer housing 44, and one end of the drain pipe 46 is communicated with an external pump body (not shown in the figure);

the jet flow water supply device 5 is arranged in the outer shell 44, and the jet flow water supply device 5 is communicated with the other end of the drain pipe 46; and

the control valve body 45 is communicated with the lower end of the jet flow water supply device 5, the other end of the control valve body 45 is communicated with the water supply fire-fighting assembly 3, wherein the jet flow water supply device can store a certain amount of fire-fighting water in an initial state so as to carry out fire extinguishing work in the first time when a fire disaster happens, and attention needs to be paid to that before the fire-fighting water in the jet flow water supply device is rapidly sprayed to be completely used, the water discharge pipe can timely supply water to the interior through an external pump body.

As a preferred embodiment, the jet water supply device 5 comprises:

the sealed cavity part 51 is fixed in the outer shell 44, and two discharge cavities are symmetrically arranged in the sealed cavity part 51 from left to right;

a plunger disc 52 which is slidably disposed in each of the discharge cavities 51;

the main rotating wheel 53 is rotatably arranged on the upper side inside the outer shell 44, and an inner transfer rod is rotatably connected to the main rotating wheel 53;

the hinge shaft bracket 54 is arranged on the middle side of the upper part inside the outer shell 44 in a relatively deflecting manner, linkage rods are hinged to the two sides of the lower end face of the hinge shaft bracket 54, and the other end of the inner transmission rod is hinged to the hinge shaft bracket 54;

the adjusting shaft rod 55 is vertically and relatively slidably and hermetically connected in each row of conveying cavities in the sealed cavity piece 51 in a penetrating way, the upper end of the adjusting shaft rod 55 is connected with the linkage rod, and the lower end of the adjusting shaft rod is fixed on the shaft plug disc 52; and

and the one-way drainage valves are communicated below the discharge cavities, the discharge cavities are communicated with the control valve body 45 through the one-way drainage valves, the hinge shaft frame is subjected to reciprocating deflection under the continuous rotation action of the main rotating wheel, and the shaft plug discs in the discharge cavities can respectively perform water storage and drainage work so as to realize continuous water supply in the later stage of fire fighting.

In this embodiment, the adjusting shaft 55 is configured as a two-stage telescopic structure, and an air pressure discharge pipe 56 is further connected to the upper end of each discharge cavity on the sealed cavity 51; the circumference symmetry is provided with a plurality of supporting spring 57 on the adjusting shaft pole 55, supporting spring 57's one end with the axle plug dish 52 is connected, especially before not using, preferentially supplies water to each row and sends the cavity and store, and after it reached the saturation capacity, the adjusting shaft pole all was the contraction state with supporting spring this moment, and the atmospheric pressure calandria can carry out the air feed through the peripheral hardware air pump, carries out the pressure boost to storing water to flow fast to supplying water fire control subassembly before the fire control is used, and reach high-speed efflux effect.

In this embodiment, the water supply fire fighting module 3 includes:

a shaft coupling sleeve 31 coaxially fixed below the water storage jet assembly 4;

a main water supply pipe 32 communicated with one side of the shaft connecting sleeve member 31, and the other end of the main water supply pipe 32 is communicated with an external water pump through a telescopic conduit 33;

a flow promoting adjusting device 6 vertically arranged in the shaft connecting sleeve 31, wherein the flow promoting adjusting device 6 is communicated with the main water supply pipe 32, and the flow promoting adjusting device 6 guides the main conveying water in the fire fighting water auxiliary main water supply pipe 32 in the water storage jet assembly 4 to carry out flow injection in water supply fire fighting; that is, in the initial stage of fire fighting, the main water supply pipe is in an empty state, the water storage jet assembly can provide the water source preferentially for fire fighting, and when the main water supply pipe supplies water normally at high pressure, the flow promoting adjusting device can change the flow track of the water storage jet assembly to assist the main water supply pipe in flow injection, and

and a diffuser 34 embedded and fixed in the coupling sleeve 31.

In this embodiment, the flow promoting adjustment device 6 includes:

the guide pipe sleeve 61 is vertically fixed in the shaft connecting sleeve piece 31, a side discharge pipe 62 is coaxially fixed in the upper end of the guide pipe sleeve 61, and a plurality of inner holes are formed in the circumference of the side discharge pipe 62;

an inline pipe 63 coaxially fixed in the side discharge pipe 62, one end of the inline pipe 63 communicating with the water storage jet assembly 4;

an inner sliding tube 64 coaxially and relatively slidably sleeved outside the inner connecting tube 63, wherein a plurality of drainage holes corresponding to the inner holes are formed on the inner sliding tube 64,

the fine adjustment telescopic rods are vertically and symmetrically arranged on the side discharge pipes 62, the output ends of the fine adjustment telescopic rods are connected and fixed with the inner sliding pipes 64, and the inner sliding pipes 64 are driven to vertically slide outside the inner connecting pipes 63; and

and the collecting pipe 66 is coaxially fixed in the guide pipe sleeve 61, the main water supply pipe 32 is communicated with the collecting pipe 61, and one end of the inner sliding pipe 64 is sleeved outside the collecting pipe 66.

As a preferred embodiment, the method further comprises the following steps:

the inner plug body 65 is fixed at one end of the inner connecting pipe 63, which is far away from the water storage jet flow assembly 4, a ring seat is arranged in the inner sliding pipe 64, and the ring seat is sealed and blocked by the inner plug body 65 in the vertical displacement along with the inner sliding pipe 64;

a flow cavity 67 arranged in the guide sleeve 61, wherein the flow cavity 67 is sealed and sleeved on the side discharge pipe 62;

the water storage jet assembly comprises a plurality of flow dividing pipes 68 which are circumferentially and symmetrically arranged, one end of each flow dividing pipe 68 is communicated with the flow cavity 67, and the other end of each flow dividing pipe is communicated with the collecting pipe 66, wherein in the initial stage of fire fighting, the water storage jet assembly can convey fire fighting water into the collecting pipe through an inline pipe, the collecting pipe correspondingly sprays the fire fighting water through a flow dispersing nozzle, when a main water supply pipe can supply water at high pressure normally, the inner sliding pipe can enable an inner hole to be correspondingly communicated with a drainage hole through a vertical displacement effect, and the inner plug body can locally plug the ring seat, so that the fire fighting water in the water storage jet assembly is branched and conveyed through the flow dividing pipes, the main conveying water in the main water supply pipe is improved in an auxiliary mode, and the fire fighting effect is improved;

in this embodiment, an isolation guide member is embedded in the manifold 66 at each port of the shunt tubes 68, and the isolation guide member is configured in a Y-shaped structure.

In this embodiment, still be fixed with liquid storage cylinder 7 on the shell body 44, the one end of liquid storage cylinder 7 through the connecting pipe with drain pipe 46 is linked together, the fixed volume stores the aquatic additive in the liquid storage cylinder 7, can effectively improve the fire control work effect when producing the conflagration to electromechanical device different materials.

Specifically, in electromechanical device fire control, smoke alarm can real time monitoring, and respond to the warning to electromechanical device smog, store water efflux subassembly can be through fixed column displacement to corresponding position, hot sense monitoring device can scan the control to the ignition source point, detect out the ignition source point after, store water efflux subassembly can in time provide fire control water to supply water fire control subassembly in, aim at to the ignition source point by supply water fire control subassembly and carry out the quick fire control work of initial stage, main delivery pipe among the water supply fire control subassembly can provide main delivery water immediately thereafter, and reach stable water supply at main delivery pipe after, through promoting the flow path of class regulation device adjustment store water efflux subassembly, main delivery water in the supplementary main delivery pipe carries out flow jet, provide the fire control effect.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (4)

1. An electrical apparatus fire monitoring equipment of electromechanical equipment, its characterized in that: it includes:

the guide rail brackets (1) are arranged in two groups which are arranged in a bilateral symmetry mode, and the guide rail brackets (1) are fixed on the ground in parallel;

the fixed columns (2) can be vertically arranged on each guide rail frame (1) in a relatively sliding mode, and an outer beam frame is transversely arranged between the fixed columns (2) in an overhead mode;

the transmission screw rod (21) is transversely arranged in the outer beam frame in a relatively rotatable manner;

the water storage jet assembly (4) is arranged on the transmission screw rod (21) in a sliding mode through a thread meshing effect, and fire-fighting water is stored in the water storage jet assembly (4) in a fixed quantity mode;

the water supply fire-fighting assembly (3) is vertically communicated below the water storage jet assembly (4), and one side of the lower end surface of the water supply fire-fighting assembly (3) is provided with a thermal sensing monitoring device; and

the smoke alarm is uniformly distributed, and each smoke alarm is arranged between adjacent electromechanical equipment at intervals;

the water supply fire fighting module (3) comprises:

a shaft coupling sleeve (31) coaxially fixed below the water storage jet assembly (4);

the main water supply pipe (32) is communicated with one side of the shaft connecting sleeve piece (31), and the other end of the main water supply pipe (32) is communicated with an external water pump through a telescopic conduit (33);

the flow promoting adjusting device (6) is vertically arranged in the shaft connecting sleeve piece (31), the flow promoting adjusting device (6) is communicated with the main water supply pipe (32), and the flow promoting adjusting device (6) guides main conveying water in a fire-fighting water auxiliary main water supply pipe (32) in the water storage jet assembly (4) to perform flow injection in water supply and fire fighting; and

the flow dispersing nozzle (34) is embedded and fixed in the shaft sleeve piece (31);

the flow-promoting regulating device (6) comprises:

the guide pipe sleeve (61) is vertically fixed in the shaft connecting sleeve piece (31), a side discharge pipe (62) is coaxially fixed inside the upper end of the guide pipe sleeve (61), and a plurality of inner holes are formed in the circumference of the side discharge pipe (62);

the inline pipe (63) is coaxially fixed in the side discharge pipe (62), and one end of the inline pipe (63) is communicated with the water storage jet assembly (4);

an inner sliding tube (64) which is coaxially and relatively slidably sleeved outside the inner connecting tube (63), a plurality of drainage holes corresponding to the inner holes are formed on the inner sliding tube (64),

the fine adjustment telescopic rods are vertically and symmetrically arranged on the side discharge pipes (62), the output ends of the fine adjustment telescopic rods are connected and fixed with the inner sliding pipe (64), and the inner sliding pipe (64) is driven to vertically slide outside the inner connecting pipe (63); and

the collecting pipe (66) is coaxially fixed in the flow guide pipe sleeve (61), the main water supply pipe (32) is communicated with the collecting pipe (66), and one end of the inner sliding pipe (64) is sleeved outside the collecting pipe (66);

the water storage jet assembly (4) comprises:

the mounting seat (41) is arranged on the transmission screw rod (21) in a sliding manner through a thread meshing transmission function;

the rotating disc (42) is arranged on the mounting seat (41) in a relatively rotating mode, a driving shaft (43) is further arranged on the mounting seat (41) in a rotating mode, and the driving shaft (43) is connected with the rotating disc (42) through a connecting belt for transmission;

the outer shell (44) is vertically fixed on the rotating disc (42), one side of the upper end face of the outer shell (44) is connected with a drain pipe (46), and one end of the drain pipe (46) is communicated with an external pump body;

the jet flow water supply device (5) is arranged in the outer shell (44), and the jet flow water supply device (5) is communicated with the other end of the drain pipe (46); and

the control valve body (45) is communicated with the lower end of the jet flow water supply device (5), and the other end of the control valve body (45) is communicated with the water supply fire-fighting assembly (3);

the jet water supply device (5) comprises:

the sealed cavity piece (51) is fixed in the outer shell (44), and two discharge cavities are symmetrically arranged in the sealed cavity piece (51) from left to right;

a plug disc (52) which is arranged in each discharge cavity in a relatively sliding manner;

the main rotating wheel (53) is rotatably arranged on the upper side inside the outer shell (44), and an inner transmission rod is rotatably connected to the main rotating wheel (53);

the hinge shaft frame (54) is arranged on the upper middle side in the outer shell (44) in a relatively deflecting mode, linkage rods are hinged to the two side positions of the lower end face of the hinge shaft frame (54), and the other end of the inner transmission rod is hinged to the hinge shaft frame (54);

the adjusting shaft rod (55) is vertically and relatively slidably connected in each row of conveying cavities in the sealed cavity piece (51) in a sealing mode, the upper end of the adjusting shaft rod (55) is connected with the linkage rod, and the lower end of the adjusting shaft rod is fixed on the shaft plug disc (52); and

the one-way drainage valve is communicated below each discharge cavity, and the discharge cavities are communicated with the control valve body (45) through the one-way drainage valve;

further comprising:

the inner plug body (65) is fixed at one end, far away from the water storage jet assembly (4), of the inner connecting pipe (63), a ring seat is arranged in the inner sliding pipe (64), and the ring seat is sealed and blocked by the inner plug body (65) along with the vertical displacement of the inner sliding pipe (64);

the flow cavity (67) is arranged in the guide pipe sleeve (61), and the flow cavity (67) is hermetically sleeved on the side discharge pipe (62);

the flow dividing pipes (68) are arranged in a circumferential symmetrical mode, one end of each flow dividing pipe (68) is communicated with the flow cavity (67), and the other end of each flow dividing pipe is communicated with the collecting pipe (66).

2. An electrical fire monitoring apparatus of an electromechanical apparatus according to claim 1, wherein: the adjusting shaft rod (55) is constructed into a two-section telescopic structure, and an air pressure discharge pipe (56) is communicated with the upper end of each discharge cavity on the sealed cavity piece (51); a plurality of supporting springs (57) are symmetrically arranged on the circumference of the adjusting shaft lever (55), and one ends of the supporting springs (57) are connected with the shaft plug disc (52).

3. An electrical fire monitoring apparatus of an electromechanical apparatus according to claim 1, wherein: and isolation guide pieces are embedded into the collecting pipe (66) at the ports of the shunt pipes (68), and the isolation guide pieces are constructed into a Y-shaped structure.

4. An electrical fire monitoring apparatus of an electromechanical apparatus according to claim 3, wherein: the water storage device is characterized in that a liquid storage cylinder (7) is further fixed on the outer shell (44), one end of the liquid storage cylinder (7) is communicated with the water discharge pipe (46) through a connecting pipe, and additives in water are stored in the liquid storage cylinder (7) in a fixed amount.

Images