CN112630485A - Be used for building ammeter automatic fire extinguishing installation device - Google Patents

Abstract

The invention discloses an automatic fire extinguishing installation device for a building ammeter, which comprises a machine body and is characterized in that: the induction space is arranged in the machine body, the induction mechanism is arranged in the induction space and used for sensing the temperature of the electric meter and the temperature around the electric meter, the upper side and the lower side of the induction space are respectively arranged in smoking spaces by taking the center line of the induction space as a symmetric center, and the smoking mechanisms are respectively arranged in each smoking space and used for absorbing and storing smoke gas to provide compression force for subsequent fire extinguishing after the electric meter is ignited.

Description

Be used for building ammeter automatic fire extinguishing installation device

Technical Field

The invention belongs to the related field of electric meters, and particularly relates to an automatic fire extinguishing installation device for a building electric meter.

Background

With the continuous development of science and technology, electric energy meters are manufactured in a certain level and scale, and the electric energy meters are meters for measuring electric energy, also called kilowatt-hour meters, fire meters, electric energy meters and kilowatt-hour meters, and refer to meters for measuring various electric quantities, and each household is provided with the electric energy meters;

in addition to short circuit caused by wiring from an electric meter box in power load, humid environment, incorrect installation or private, fire disasters may be caused by seasons with much rainwater and hot weather power consumption loads, and nowadays, many residential buildings catch fire due to fire of the electric meter box, so that people are greatly threatened.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an automatic fire extinguishing installation device for a building ammeter.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a be used for building ammeter automatic fire extinguishing installation device, includes the organism, its characterized in that: the induction space is arranged in the machine body, the induction mechanism is arranged in the induction space and used for sensing the temperature of the ammeter and the temperature around the ammeter, the upper side and the lower side of the induction space respectively use the central line of the induction space as a symmetric center to arrange smoking spaces, each smoking mechanism is arranged in each smoking space and used for absorbing smoke and storing energy to provide compression force for subsequent fire extinguishment after the ammeter is on fire, each smoking space is far away from one side of the direction of the induction space and is respectively provided with a fire extinguishing space, each fire extinguishing mechanism is arranged in each fire extinguishing space and used for extinguishing fire after the ammeter is on fire.

Preferably, the induction mechanism comprises an expansion space arranged on the left side of the induction space, a telescopic body is fixedly connected to the left side wall of the expansion space, the telescopic body is made of a material capable of expanding with heat and contracting with cold, an induction sliding column is fixedly connected to the right end face of the telescopic body, the induction sliding column extends rightwards to penetrate through the right side wall of the expansion space to enter the induction space, the induction sliding column is in sliding connection with the right side wall of the expansion space, a trigger spring is sleeved on the induction sliding column, one end of the trigger spring is fixedly connected with the right end face of the telescopic body, the other end of the trigger spring is fixedly connected with the right side wall of the expansion space, a U-shaped sliding block is sleeved on the induction sliding column in a sliding manner, an induction sleeve ring is fixedly sleeved on the induction sliding column, the left end face of the induction sleeve ring is abutted against a left groove of the U-shaped sliding block, the other end of the sensing device is fixedly connected with the right side of the groove surface of the U-shaped sliding block, the right end surface of the U-shaped sliding block is fixedly connected with a sensing sleeve, the right end surface of the sensing sleeve is fixedly connected with a hinge block, the hinge block is hinged with two driving telescopic arms, the driving telescopic arms have flexibility, the two driving telescopic arms are symmetrically distributed up and down about the central line of the hinge block, each driving telescopic arm respectively extends towards the direction away from the sensing space and penetrates through the upper side wall and the lower side wall of the sensing space to respectively enter a rotating shaft space, the rear side wall of each rotating shaft space is respectively and rotatably connected with a sensing rotating shaft, each sensing rotating shaft is respectively and fixedly connected with the corresponding driving telescopic arm, the lower side wall of the sensing space is communicated with a first sliding groove, a butting sliding column is slidably connected in the first sliding groove, and a first spring is connected between the lower, the abutting sliding column abuts against the lower end face of the U-shaped sliding block.

In an initial state, the driving telescopic arm is in a compressed state, the induction spring is in a normal state, when an ammeter arranged on the right end face of the telescopic body is on fire, the temperature rises, so that the telescopic body expands, the induction sliding column is pushed to slide rightwards, the trigger spring is compressed, the induction sleeve ring is driven to slide rightwards, the induction spring is compressed, the elastic force generated by the compression of the induction spring is larger than the elastic force generated by the first spring due to the fact that the temperature reaches the firing temperature, the U-shaped sliding block slides through the abutting sliding column, the abutting sliding column slides downwards, the U-shaped sliding block slides rightwards, the hinged block is driven to slide rightwards, the driving telescopic arm is driven to move rightwards, and the upper end of the driving telescopic arm moves leftwards, thereby driving the fire extinguishing mechanism to extinguish the fire of the ammeter.

Preferably, the smoking mechanism comprises an energy storage air bag fixedly arranged between the upper side wall and the lower side wall of the smoking space, the right side wall of the smoking space is rotatably connected with a smoking rotating shaft which penetrates through the energy storage air bag, the smoking rotating shaft is fixedly sleeved with a smoking belt wheel, the left end face of the smoking rotating shaft is fixedly connected with a smoking fan, the upper side wall and the lower side wall of the smoking space are fixedly connected with an abutting filter screen, a compression spring is sleeved on the smoking rotating shaft, one end of the compression spring is fixedly connected with the left end face of the energy storage air bag, the other end of the compression spring is fixedly connected with the right end face of the abutting filter screen, a separation filter screen is fixedly connected at the left opening of the smoking space, an air inlet on the left end face of the energy storage air bag is communicated with the smoking space, the upper side wall of the smoking space is communicated with a pressure air channel, and the lower side wall of the pressure air channel is communicated with an air outlet of the energy storage air bag.

Under the initial condition, the energy storage gasbag is in compression state, compression spring is in normal condition, after the ammeter started a fire, the smoking pivot rotated, thereby drove the smoking fan rotates, thereby inhales the flue gas in the smoking space, thereby enters into the energy storage gasbag, thereby makes the energy storage gasbag aerifys, thereby promotes energy storage gasbag left end slides to the left, thereby compresses compression spring absorbs the flue gas that the fire produced and stores energy, provides the oppression power for the mechanism of putting out a fire, thereby has avoided the harm that the flue gas diffusion caused to human health.

Preferably, the fire extinguishing mechanism comprises a power motor arranged on the right side of the fire extinguishing space, the right side wall of the power motor is fixedly connected with the power motor, the output end of the power motor is fixedly connected with a power rotating shaft, the power rotating shaft extends leftwards to penetrate through the left side wall of the power motor to enter the fire extinguishing space, a power belt wheel is fixedly sleeved on the power rotating shaft, a power belt is connected between the power belt wheel and the smoke absorbing belt wheel, a fire extinguishing box body is sleeved on the power rotating shaft in a sliding manner, the fire extinguishing box body is connected with the fire extinguishing space in a sliding manner, the lower end and the surface of the fire extinguishing box body are hinged with the corresponding driving telescopic arm, a stirring space with a right opening is arranged in the fire extinguishing box body, a fire extinguishing filter screen is fixedly connected with the middle part, the power rotating shaft penetrates through the fire extinguishing filter screen to enter, the device is characterized in that a compression sliding plate is sleeved on the power rotating shaft in a sliding manner, a stirring drum is sleeved on the power rotating shaft and connected with the power rotating shaft through splines, a door plate sliding groove is arranged on the left side of the stirring space, a door plate rotating shaft is rotatably connected to the lower side wall of the door plate sliding groove, a door plate gear is fixedly sleeved on the door plate rotating shaft, a baffle door plate is sleeved on the door plate rotating shaft and in threaded connection with the door plate rotating shaft, the baffle door plate is slidably connected with the door plate sliding groove, a door plate opening penetrating left and right is arranged in the baffle door plate, the door plate opening is communicated with the stirring space when the baffle door plate slides upwards, the left and right side walls of the door plate sliding groove are communicated with a meshing sliding groove opening left, a butt L-shaped arm is slidably connected to the upper side wall of the meshing sliding groove, and the butt, the butt L-shaped arm is connected with the butt opening in a sliding manner, the left side wall of the fire extinguishing space is communicated with a door opening sliding groove, a door opening rack is connected in the door opening sliding groove in a sliding manner, when the door opening rack slides into the meshing sliding groove, the door opening rack is meshed with the door plate gear, a door opening spring is connected between the left end face of the door opening rack and the left side wall of the door opening sliding groove, the lower end face of the door opening rack is fixedly connected with a connecting arm, the connecting arm extends downwards to penetrate through the lower side wall of the door opening sliding groove to enter a control sliding groove, a control sliding plate is connected in the control sliding groove in a sliding manner, the left end face of the control sliding plate is fixedly connected with the connecting arm, an air inlet opening penetrating up and down is arranged in the control sliding plate, when the control sliding plate slides leftwards, the air inlet opening, the utility model discloses a fire extinguishing space, including fire extinguishing space, lateral wall fixedly connected with fire extinguishing nozzle, fire extinguishing space left side wall intercommunication has the runner of putting out a fire, lateral wall fixedly connected with fire extinguishing nozzle under the runner of putting out a fire, fire extinguishing nozzle is used for spraying dry powder, lateral wall intercommunication has the second spout under the runner of putting out a fire, sliding connection has the traveller of putting out a fire in the second spout, terminal surface under the traveller of putting out a fire with be connected with the second spring under the second spout.

In an initial state, the door opening spring is in a normal state, the control spring is in a normal state, when a fire breaks out, the upper end of the telescopic arm is driven to move leftwards, meanwhile, the power motor is started to drive the power rotating shaft to rotate, so that the power belt wheel is driven to rotate, the smoke suction belt wheel is driven to rotate, so that the smoke suction rotating shaft is driven to rotate, so that the stirring drum is driven to rotate, dry powder is stirred and scattered in the stirring space due to the fact that the dry powder does not move for a long time, at the moment, the fire extinguishing box body slides leftwards, so that the butt L-shaped arm is driven to move leftwards, when the door opening rack slides into the meshing chute, the butt L-shaped arm is abutted, so that the door opening spring is compressed, so that the door opening rack slides leftwards, and the connecting arm is driven to slide leftwards, thereby driving the control slide plate to slide leftwards, thereby driving the air inlet opening to slide leftwards, thereby communicating the air inlet opening with the pressure air channel, thereby communicating the air outlet of the energy storage air bag with the fire extinguishing space, thereby resetting the pressure spring, thereby causing the smoke absorbed in the energy storage air bag to burst into the fire extinguishing space, thereby pressing the compression slide plate to slide leftwards, thereby compressing the volume of the mixing space, when the bulge at the left side of the fire extinguishing box body slides into the fire extinguishing channel, thereby causing the lower end surface of the bulge of the fire extinguishing box body to abut against the fire extinguishing slide column, thereby causing the fire extinguishing slide column to slide downwards, thereby pressing the second spring, when the abutting L-shaped arm moves to abut against the fire extinguishing slide column, thereby causing the second spring to reset, thereby pushing the fire extinguishing slide column to slide upwards, thereby promote butt L shape arm up slides, thereby makes butt L shape arm with the rack that opens the door breaks away from the butt, thereby makes the spring resets opens the door, thereby promotes the rack that opens the door and right slides, thereby drives door plant gear revolve, thereby the door plant pivot rotates, thereby drives separate and keep off the door plant, up slides, thereby makes the door plant opening with the stirred space is linked together, thereby makes dry powder in the stirred space follow spout in the shower nozzle of putting out a fire and send out the ammeter and put out a fire.

In conclusion, the beneficial effects of the invention are as follows: the invention can effectively extinguish fire in time when the electric meter is on fire, and can absorb the dense smoke generated by the electric meter on fire, thereby avoiding the harm to the health of residents caused by the dense smoke sucked by the residents, effectively preventing the fire caused by the electric meter on fire, protecting the property and the health of the residents, and simultaneously increasing the safety of the resident buildings.

Drawings

FIG. 1 is a cross-sectional view of the whole structure of the automatic fire extinguishing installation device for the building ammeter.

Fig. 2 is a partially enlarged schematic view of the invention at a in fig. 1.

Fig. 3 is a partially enlarged schematic view of the invention at B in fig. 1.

Fig. 4 is an enlarged partial schematic view of the invention at C in fig. 1.

Fig. 5 is an enlarged partial schematic view of the invention at D in fig. 3.

In the figure, a machine body 10; a power motor 11; a power shaft 12; a power pulley 13; a power belt 14; a compressed air flow passage 15; a power motor 16; a fire extinguishing space 17; a fire extinguishing screen 18; the compression slide plate 19; a mixing drum 20; a fire extinguishing case 21; the stirring space 22; a fire extinguishing flow passage 23; fire suppression spray heads 24; a barrier screen 25; a smoking fan 26; a smoking space 27; against the screen 28; a compression spring 29; an energy storage bladder 30; a smoking pulley 31; an expansion space 32; a stretchable body 33; a trigger spring 34; an induction strut 35; a U-shaped slider 36; an induction collar 37; an induction spring 38; driving the telescopic arm 39; an induction sleeve 40; a hinge block 41; an abutment slide post 42; a first chute 43; a first spring 44; a fire extinguishing traveller 45; a second chute 46; a second spring 47; a door opening chute 48; a door opening rack 49; a door opening spring 50; a control chute 51; a connecting arm 52; the control slide 53; an engagement slide groove 54; a door panel opening 55; a barrier door panel 56; an abutment opening 57; abutting the L-shaped arm 58; a control spring 59; an air inlet opening 60; a door panel chute 61; a door panel rotation shaft 62; a door panel gear 63; a sensing space 64; an induction rotating shaft 65; a spindle space 66; a smoking spindle 67.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in figure 1, the automatic fire extinguishing installation device for the building ammeter comprises a machine body 10, and is characterized in that: be provided with induction space 64 in the organism 10, be provided with induction mechanism in the induction space 64, induction mechanism is used for perception ammeter and temperature on every side, induction space 64 upper and lower both sides respectively with induction space 64 central line is established as the symmetric center and is had smoking space 27, every be provided with smoking mechanism in the smoking space 27 respectively, smoking mechanism is used for after the ammeter is fired absorbing the energy storage with the flue gas and provides the oppression for follow-up putting out a fire, every smoking space 27 is kept away from induction space 64 direction one side is provided with extinguishing space 17 respectively, every be provided with extinguishing mechanism in the extinguishing space 17 respectively, extinguishing mechanism is used for the ammeter to put out a fire after firing.

As shown in fig. 1, the sensing mechanism includes an expansion space 32 disposed on the left side of the sensing space 64, a telescopic body 33 is fixedly connected to the left side wall of the expansion space 32, the telescopic body 33 is made of a material with thermal expansion and cold contraction, a sensing sliding column 35 is fixedly connected to the right end surface of the telescopic body 33, the sensing sliding column 35 extends right to penetrate through the right side wall of the expansion space 32 to enter the sensing space 64, the sensing sliding column 35 is slidably connected to the right side wall of the expansion space 32, a trigger spring 34 is sleeved on the sensing sliding column 35, one end of the trigger spring 34 is fixedly connected to the right end surface of the telescopic body 33, the other end of the trigger spring is fixedly connected to the right side wall of the expansion space 32, a U-shaped slider 36 is slidably sleeved on the sensing sliding column 35, a sensing sleeve ring 37 is fixedly disposed on the sensing sliding column 35, the left end surface of the sensing sleeve ring 37 is abutted, the induction sliding column 35 is sleeved with an induction spring 38, one end of the induction spring 38 is fixedly connected with the induction sleeve ring 37, the other end of the induction spring 38 is fixedly connected with the right side of the groove surface of the U-shaped slider 36, the right end surface of the U-shaped slider 36 is fixedly connected with an induction sleeve 40, the right end surface of the induction sleeve 40 is fixedly connected with a hinged block 41, the hinged block 41 is hinged with two driving telescopic arms 39, the driving telescopic arms 39 have flexibility, the two driving telescopic arms 39 are vertically and symmetrically distributed about the central line of the hinged block 41, each driving telescopic arm 39 respectively extends towards the direction far away from the induction space 64 and penetrates through the upper side wall and the lower side wall of the induction space 64 to respectively enter a rotating shaft space 66, the rear side wall of each rotating shaft space 66 is respectively and rotatably connected with an induction rotating shaft 65, and each induction rotating shaft 65 is respectively and fixedly, the lower side wall of the sensing space 64 is communicated with a first sliding groove 43, a butting sliding column 42 is connected in the first sliding groove 43 in a sliding mode, a first spring 44 is connected between the lower end face of the butting sliding column 42 and the lower side wall of the first sliding groove 43, and the butting sliding column 42 is butted with the lower end face of the U-shaped sliding block 36.

In an initial state, the driving telescopic arm 39 is in a compressed state, the sensing spring 38 is in a normal state, when an electric meter mounted on the right end face of the telescopic body 33 is on fire, the temperature rises, so that the telescopic body 33 expands, the sensing sliding column 35 is pushed to slide to the right, the trigger spring 34 is compressed, the sensing lantern ring 37 is driven to slide to the right, the sensing spring 38 is compressed, the temperature of the fire is reached, the elastic force generated by the compression of the sensing spring 38 is greater than the elastic force generated by the first spring 44, so that the U-shaped slider 36 slides over the abutting sliding column 42, the abutting sliding column 42 slides downwards, the U-shaped slider 36 slides to the right, the hinge block 41 is driven to slide to the right, and the driving telescopic arm 39 is driven to move to the right, so that the upper end of the driving telescopic arm 39 moves to the left, and the fire extinguishing mechanism is driven to extinguish the fire of the electric meter.

As shown in fig. 1, the smoking mechanism includes an energy storage air bag 30 fixedly installed between the upper and lower side walls of the smoking space 27, the right side wall of the smoking space 27 is rotatably connected with a smoking rotating shaft 67, the smoking rotating shaft 67 penetrates through the energy storage air bag 30, a smoking belt pulley 31 is fixedly sleeved on the smoking rotating shaft 67, the left end surface of the smoking rotating shaft 67 is fixedly connected with a smoking fan 26, a butt filter screen 28 is fixedly connected between the upper and lower side walls of the smoking space 27, a compression spring 29 is sleeved on the smoking rotating shaft 67, one end of the compression spring 29 is fixedly connected with the left end surface of the energy storage air bag 30, the other end of the compression spring is fixedly connected with the right end surface of the butt filter screen 28, a separation filter screen 25 is fixedly connected with the left opening of the smoking space 27, the left end surface air inlet of the energy storage air bag 30 is communicated with, the lower side wall of the pressure gas flow channel 15 is communicated with the gas outlet of the energy storage air bag 30.

Under the initial condition, energy storage gasbag 30 is in compression state, compression spring 29 is in normal condition, after the ammeter is fired on fire, smoking pivot 67 rotates, thereby drives smoking fan 26 rotates, thereby inhales the flue gas the smoking space 27 in, thereby enters into energy storage gasbag 30, thereby makes energy storage gasbag 30 aerifys, thereby promotes energy storage gasbag 30 left end slides to left, thereby compresses compression spring 29 absorbs and the energy storage with the flue gas that produces of firing on fire, provides the oppression power for the mechanism of putting out a fire, thereby has avoided the harm that the flue gas diffusion caused to human health.

Combine fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 to show, the mechanism of putting out a fire is including setting up power motor 16 on the space 17 right side of putting out a fire, power motor 16 right side wall fixedly connected with power motor 11, power motor 11 output end fixedly connected with power pivot 12, power pivot 12 extends to run through to the left power motor 16 left side wall enters into in the space 17 of putting out a fire, the fixed cover is equipped with power pulley 13 in the power pivot 12, power pulley 13 with be connected with power belt 14 between the smoking band pulley 31, the sliding sleeve is equipped with the box 21 of putting out a fire on power pivot 12, the box 21 of putting out a fire with put out a fire space 17 sliding connection, put out a fire box 21 lower extreme and face and correspond the flexible arm 39 of drive is articulated, be provided with opening right stirring space 22 in the box 21 of putting out a fire, well fixedly connected with filter, the fire extinguishing device is characterized in that the power rotating shaft 12 penetrates through the fire extinguishing filter screen 18 and enters the stirring space 22, the stirring space 22 is used for storing dry powder for fire extinguishing, a compression sliding plate 19 is sleeved on the power rotating shaft 12 in a sliding manner, a stirring barrel 20 is sleeved on the power rotating shaft 12, the stirring barrel 20 is in splined connection with the power rotating shaft 12, a door plate sliding groove 61 is arranged on the left side of the stirring space 22, a door plate rotating shaft 62 is rotatably connected to the side wall of the door plate sliding groove 61, a door plate gear 63 is fixedly sleeved on the door plate rotating shaft 62, a door baffle plate 56 is sleeved on the door plate rotating shaft 62, the door baffle plate 56 is in threaded connection with the door plate rotating shaft 62, the door baffle plate 56 is in sliding connection with the door plate sliding groove 61, door plate openings 55 which penetrate through from left to right are arranged in the baffle plate 56, and when the baffle plate 56 slides upwards, the left side wall and the right side wall of the door plate sliding groove 61 are communicated with a meshing sliding groove 54 with a leftward opening, the upper side wall of the meshing sliding groove 54 is connected with a butt L-shaped arm 58 in a sliding mode, the butt L-shaped arm 58 extends upwards to penetrate through the upper side wall of the meshing sliding groove 54 to enter a butt opening 57, the butt L-shaped arm 58 is connected with the butt opening 57 in a sliding mode, the left side wall of the fire extinguishing space 17 is communicated with a door opening sliding groove 48, a door opening rack 49 is connected in the door opening sliding groove 48 in a sliding mode, when the door opening rack 49 slides to enter the meshing sliding groove 54, the door opening rack 49 is meshed with the door plate gear 63, a door opening spring 50 is connected between the left end face of the door opening rack 49 and the left side wall of the door opening sliding groove 48, a connecting arm 52 is fixedly connected to the, a control sliding plate 53 is connected to the control sliding groove 51 in a sliding manner, the left end face of the control sliding plate 53 is fixedly connected to the connecting arm 52, an air inlet 60 penetrating through the control sliding plate 53 from top to bottom is arranged in the control sliding plate 53, when the control sliding plate 53 slides to the left, the air inlet 60 is communicated with the pressure flow channel 15, a control spring 59 is connected between the right end face of the control sliding plate 53 and the right side wall of the control sliding groove 51, a fire extinguishing flow channel 23 is communicated with the left side wall of the fire extinguishing space 17, a fire extinguishing nozzle 24 is fixedly connected to the lower side wall of the fire extinguishing flow channel 23, the fire extinguishing nozzle 24 is used for spraying dry powder, a second sliding groove 46 is communicated with the lower side wall of the fire extinguishing flow channel 23, a fire extinguishing sliding pillar 45 is connected to the second sliding groove 46 in a sliding manner, and a second spring 47.

In an initial state, the door opening spring 50 is in a normal state, the control spring 59 is in a normal state, when a fire is started, the upper end of the driving telescopic arm 39 moves leftwards, meanwhile, the power motor 11 is started, so that the power rotating shaft 12 is driven to rotate, the power belt wheel 13 is driven to rotate, the smoking belt wheel 31 is driven to rotate, the smoking rotating shaft 67 is driven to rotate, the mixing drum 20 is driven to rotate, dry powder is blocked due to long-time motionless, so that the dry powder in the mixing space 22 is mixed and scattered, at the moment, the fire extinguishing box body 21 slides leftwards, so that the butt L-shaped arm 58 is driven to move leftwards, when the door opening rack 49 slides into the meshing chute 54, the butt L-shaped arm 58 is abutted, so that the door opening spring 50 is compressed, so that the door opening rack 49 slides leftwards, thereby driving the connecting arm 52 to slide to the left, thereby driving the control slide plate 53 to slide to the left, thereby driving the air inlet opening 60 to slide to the left, thereby communicating the air inlet opening 60 with the compressed air flow passage 15, thereby communicating the air outlet of the energy storage air bag 30 with the fire extinguishing space 17, thereby resetting the compressed spring 29, thereby causing the smoke absorbed in the energy storage air bag 30 to burst into the fire extinguishing space 17, thereby pressing the pressing slide plate 19 to slide to the left, thereby compressing the volume of the stirring space 22, when the left bulge of the fire extinguishing box 21 slides into the fire extinguishing flow passage 23, thereby causing the lower end surface of the bulge of the fire extinguishing box 21 to abut against the fire extinguishing slide post 45, thereby causing the fire extinguishing slide post 45 to slide downward, thereby pressing the second spring 47, when the abutting L-shaped arm 58 moves to abut against the fire extinguishing slide post 45, thereby make the second spring 47 resets, promotes the traveller 45 that puts out a fire upwards slides, thereby promotes butt L shape arm 58 upwards slides, thereby makes butt L shape arm 58 with the rack 49 that opens the door breaks away from the butt, thereby makes the spring 50 that opens the door resets, thereby promotes the rack 49 that opens the door and slides to the right, thereby drives door plant gear 63 rotates, thereby door plant pivot 62 rotates, thereby drives separate and keep off door plant 56, upwards slides, thereby makes door plant opening 55 with stirring space 22 is linked together, thereby makes the dry powder in the stirring space 22 spout out from the shower nozzle 24 that puts out a fire to the ammeter.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a be used for building ammeter automatic fire extinguishing installation device, includes organism (10), its characterized in that: be provided with induction space (64) in organism (10), be provided with induction mechanism in induction space (64), induction mechanism is used for perception ammeter and temperature on every side, both sides respectively about induction space (64) with induction space (64) central line is established for the symmetric center has smoking space (27), every be provided with smoking mechanism in smoking space (27) respectively, smoking mechanism is used for the ammeter to catch fire the back and absorbs the energy storage with the flue gas and provides the oppression for follow-up putting out a fire, every smoking space (27) are kept away from induction space (64) direction one side is provided with respectively and puts out a fire space (17), every be provided with respectively in putting out a fire space (17) and put out a fire the mechanism, put out a fire after being used for the ammeter to catch fire and put out a fire.

2. The automatic fire extinguishing installation device for the building electric meters, according to claim 1, is characterized in that: the induction mechanism comprises an expansion space (32) arranged on the left side of the induction space (64), an expansion body (33) fixedly connected with the left side wall of the expansion space (32), the expansion body (33) is made of materials with expansion and contraction, an induction sliding column (35) is fixedly connected with the right end face of the expansion body (33), the induction sliding column (35) extends rightwards and penetrates through the right side wall of the expansion space (32) to enter the induction space (64), the induction sliding column (35) is in sliding connection with the right side wall of the expansion space (32), a trigger spring (34) is sleeved on the induction sliding column (35), one end of the trigger spring (34) is fixedly connected with the right end face of the expansion body (33), the other end of the trigger spring is fixedly connected with the right side wall of the expansion space (32), a U-shaped sliding block (36) is sleeved on the induction sliding column (35), and an induction sleeve ring (37) is fixedly arranged on the induction sliding column (35), the induction sleeve ring (37) left end face is abutted against a groove in the left side of the U-shaped sliding block (36), an induction spring (38) is sleeved on the induction sliding column (35), one end of the induction spring (38) is fixedly connected with the induction sleeve ring (37), the other end of the induction spring is fixedly connected with the groove face right side of the U-shaped sliding block (36), an induction sleeve (40) is fixedly connected with the right end face of the U-shaped sliding block (36), a hinging block (41) is fixedly connected with the right end face of the induction sleeve (40), two driving telescopic arms (39) are hinged on the hinging block (41), the two driving telescopic arms (39) have flexibility, the two driving telescopic arms (39) are symmetrically distributed up and down about the central line of the hinging block (41), each driving telescopic arm (39) is respectively far away from the induction space (64) direction extends and runs through the upper side wall and the lower side wall of the induction space (64) respectively enter a rotating shaft, every pivot space (66) rear side wall rotates respectively and is connected with response pivot (65), every response pivot (65) respectively with correspond drive telescopic boom (39) fixed connection, lateral wall intercommunication has first spout (43) under response space (64), sliding connection has butt traveller (42) in first spout (43), under butt traveller (42) terminal surface with be connected with first spring (44) between lateral wall under first spout (43), butt traveller (42) with terminal surface butt under U-shaped slider (36).

3. The automatic fire extinguishing installation device for the building electric meters, according to claim 1, is characterized in that: the smoking mechanism comprises an energy storage air bag (30) fixedly installed between the upper side wall and the lower side wall of the smoking space (27), the right side wall of the smoking space (27) is rotatably connected with a smoking rotating shaft (67), the smoking rotating shaft (67) penetrates through the energy storage air bag (30), a smoking belt wheel (31) is fixedly sleeved on the smoking rotating shaft (67), the left end face of the smoking rotating shaft (67) is fixedly connected with a smoking fan (26), the upper side wall and the lower side wall of the smoking space (27) are fixedly connected with a butt filter screen (28), a compression spring (29) is sleeved on the smoking rotating shaft (67), one end of the compression spring (29) is fixedly connected with the left end face of the energy storage air bag (30), the other end of the compression spring is fixedly connected with the right end face of the butt filter screen (28), and a separation filter screen (25, the air inlet of the left end face of the energy storage air bag (30) is communicated with the smoking space (27), the upper side wall of the smoking space (27) is communicated with the pressure air channel (15), and the lower side wall of the pressure air channel (15) is communicated with the air outlet of the energy storage air bag (30).

4. The automatic fire extinguishing installation device for the building electric meters, according to claim 1, is characterized in that: the fire extinguishing mechanism comprises a power motor (16) arranged on the right side of a fire extinguishing space (17), the right side wall of the power motor (16) is fixedly connected with the power motor (11), the output end of the power motor (11) is fixedly connected with a power rotating shaft (12), the power rotating shaft (12) extends leftwards to penetrate through the left side wall of the power motor (16) to enter the fire extinguishing space (17), a power belt wheel (13) is fixedly sleeved on the power rotating shaft (12), a power belt (14) is connected between the power belt wheel (13) and a smoke belt wheel (31), a fire extinguishing box body (21) is sleeved on the power rotating shaft (12) in a sliding manner, the fire extinguishing box body (21) is in sliding connection with the fire extinguishing space (17), the lower end and the face of the fire extinguishing box body (21) are hinged with a driving telescopic arm (39), and a stirring space (22) with an opening rightwards is arranged in the fire, well fixedly connected with puts out a fire filter screen (18), power pivot (12) run through put out a fire filter screen (18) enter into in stirring space (22), stirring space (22) are used for depositing the dry powder of usefulness of putting out a fire, sliding sleeve is equipped with oppression slide (19) on power pivot (12), the cover is equipped with churn (20) on power pivot (12), churn (20) with power pivot (12) splined connection, stirring space (22) left side is provided with door plant spout (61), the lateral wall rotation is connected with door plant pivot (62) under door plant spout (61), fixed cover is equipped with door plant gear (63) on door plant pivot (62), the cover is equipped with on door plant pivot (62) separates and keeps off door plant (56), separate keep off door plant (56) with door plant pivot (62) threaded connection, separate keep off door plant (56) with door plant spout (61) sliding connection, the fire extinguishing device is characterized in that a door plate opening (55) penetrating through the door plate from left to right is arranged in the door separating and blocking plate (56), when the door separating and blocking plate (56) slides upwards, the door plate opening (55) is communicated with the stirring space (22), the left side wall and the right side wall of the door plate sliding groove (61) are communicated with a meshing sliding groove (54) with a left opening, the upper side wall of the meshing sliding groove (54) is connected with a butt L-shaped arm (58) in a sliding manner, the butt L-shaped arm (58) extends upwards to penetrate through the upper side wall of the meshing sliding groove (54) to enter a butt opening (57), the butt L-shaped arm (58) is connected with the butt opening (57) in a sliding manner, the left side wall of the fire extinguishing space (17) is communicated with a door opening sliding groove (48), the door opening sliding groove (48) is connected with a door opening rack (49) in a sliding manner, and when the door opening rack, a door opening spring (50) is connected between the left end face of the door opening rack (49) and the left side wall of the door opening sliding groove (48), a connecting arm (52) is fixedly connected to the lower end face of the door opening rack (49), the connecting arm (52) extends downwards to penetrate through the lower side wall of the door opening sliding groove (48) to enter a control sliding groove (51), a control sliding plate (53) is connected in the control sliding groove (51) in a sliding manner, the left end face of the control sliding plate (53) is fixedly connected with the connecting arm (52), an air inlet opening (60) penetrating up and down is arranged in the control sliding plate (53), the air inlet opening (60) is communicated with the compressed air flow channel (15) when the control sliding plate (53) slides leftwards, a control spring (59) is connected between the right end face of the control sliding plate (53) and the right side wall of the control sliding groove (51), and a fire extinguishing flow channel, the utility model discloses a fire extinguishing runner, including fire extinguishing runner (23) lower lateral wall fixedly connected with shower nozzle (24) of putting out a fire, shower nozzle (24) of putting out a fire are used for spraying the dry powder, it has second spout (46) to put out a fire runner (23) lower lateral wall intercommunication, sliding connection has in second spout (46) the traveller (45) of putting out a fire, put out a fire traveller (45) down the terminal surface with be connected with second spring (47) between second spout (46) the lower lateral wall.

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