KR20100061639A - Automatic a extinguish fire - Google Patents

Abstract

PURPOSE: An automatic blending fire extinguisher is provided, which is equipped with an apparatus for preventing powder agent from being hardened because the machine mixes the powder regularly, repetitively and evenly without regular management. CONSTITUTION: An automatic blending fire extinguisher includes: a micro motor(40) in which a blending member is installed to the inner part of the fire extinguisher; and a controller formed integrally, and controls the micro motor. The controller conducts regularly the current to the motor according to setting by a user, and mixes the powder by controlling the blending member mounted on the micro motor.

Description

Automatic a extinguish fire

The present invention relates to fire extinguishers and in particular to powder fire extinguishers. Powder extinguisher is a pressurized powder fire extinguisher, which fills a certain amount of powdered medicine in the main body container, fills gas at high pressure, and presses the lever to turn off the powdered chemical at any time by pressing the lever and pressurized powder extinguisher. Filling a certain amount of powdered medicine in the inside, and filling the high pressure gas into a separate pressurized gas container, and also provided in the main body container, when the lever is pressed, the lever breaks the pressurized gas container, and the high pressure gas presses the powdered medicine inside the main body container. The powdered chemical is then sprayed into the hose and nozzle to extinguish the fire. The compressed powder fire extinguisher is filled with high-pressure gas in the main body container, which prevents moisture from entering the outside, so the powder does not harden due to moisture, but when pressed for a long time under the weight of the powder, it hardens. The fire extinguisher may not be extinguished due to the deterioration of the fire extinguisher due to the emergency situation. The pressurized powder fire extinguisher has no pressure in the main body container, so moisture can easily penetrate from outside and solidify the powdered medicine. Powder extinguishers are largely compressed by weight, so most of them are compressed powder extinguishers.

In the media, fire extinguishers do not work during a fire, and a small fire spreads to a big fire, causing loss of valuable property and life. At such times, it may be possible to change the old firefighting facilities, such as checking the firefighting facilities. Even if the fire extinguisher is managed well, the first fire can be prevented and a big fire can be prevented. People shake the fire extinguisher once a month.

In order to construct a fire extinguisher that does not solidify the powdered medicine, a problem to be solved is that a device capable of mixing the powdered medicine of the fire extinguisher on a regular basis should be simply installed inside the fire extinguisher, and the device should be simply configured without being cumbersome. Its composition must not lead to large reductions in powdered medicine and large economic losses, and all its constructions should not interfere with the use of fire extinguishers.

The present invention has a small motor means equipped with a mixing means inside the fire extinguisher, so that the configuration can be made very easily, and the electric facility for driving the small motor means is provided with battery means, electric cord means, electric induction means and the like. The mixing means mounted on the motor means by electrically conducting current to the motor periodically by means of a control device that is inputted by integrally providing the control means for controlling the small motor means or by providing them separately to the outside. It is to mix medicines.

As described above, the small motor with the mixing means mounted inside the fire extinguisher regularly operates itself to mix the powdered medicine and keep the fine powder at all times so that it can function as a 100% fire extinguisher when an urgent fire occurs. It is a safe automatic mixing fire extinguisher that can save property and life.

1 is a view showing the parts of the present invention in the order of assembling in order to cut the motor fixing means portion 20, the motor rotating shaft pipe means 50 and partially cut the plug means (10).
2 is an enlarged view of the motor fixing means 20, the electric lead terminal means 30 in a perspective view in FIG.
3 is an enlarged perspective view of the motor fixing means 20 having a taper angle and an enlarged perspective view of the electric drawing terminal means 30.
4 is a perspective view of FIG. 1;
5 is a view showing the injection module means 90 by assembling the configuration of FIG.
Figure 6 is a view showing a plurality of mixing blade means 55 in Figure 4 composed.
FIG. 7 shows the mixing wing means 56 instead of the mixing wing means 55 in FIG.
8 is a view showing the incision digestion container 60.
9 is a view showing the assembly of the injection module means 90 to the fire extinguishing vessel 60 in FIG.
10 is a view showing the assembly of the injection module means 90 to the fire extinguishing container 60 and the assembly of the battery means and the control configuration means 70 and the input plug means 73.
FIG. 11 is a view showing the electrical cord line 76 in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration and embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1, 2, 3, and 4 in the motor fixing means portion 20 is a circular plate in the center of the plug assembly hole 21 is opened up and down and the assembly spiral 22 is provided on the outer wall of the plug means The plug screw (11) of the (10) is to be assembled and the plug assembly hole 21 is provided with a tapered hole means that the assembling spiral 22 can be formed by the taper angle The outer circumference of the motor fixing means 20 is the assembly spiral 25 is provided to be assembled to the container inlet means 63 in FIG. 7 and the assembly spiral 25 may be a tapered spiral. It is revealed that the upper end is made of a locking jaw (23) having a larger outside and the outer circumference can be configured in a circular shape, but is provided with a polygon, spanner, monkey, pipe French, etc. when the tool is easily caught and turned to work more comfortably You can do it. The lower end of the motor fixing means 20 is provided with a plurality of motor fixing bolt holes 24 is a hole means for assembling the motor fixing bolt 49 when fixing the motor means 40 and the motor fixing bolt holes 24 May be provided through, but the best method is to prevent penetration through the motor fixing bolt hole 24 so that the pressure in the container inner space 62 is not leaked. Therefore, the present application is shown by a method that does not penetrate the motor fixing bolt hole 24. The assembly spiral 25 is provided with a packing means 29 in the lower end of the locking jaw 23 so as not to leak pressure. The upper part and the lower part of the upper part of the edge of the motor fixing means part 20 are basically provided. The through-hole plug configuration space portion 26 is provided through it, and its shape can be made in any configuration, whether circular or polygonal, and has a plurality of concave-convex means 27 to withstand pressure and have a structure that does not leak pressure. As shown in FIG. 3, the electric drawing plug configuration space 26 and the concave-convex means 27 may be constituted by a tapered spiral, and in this case, the taper screw must be circular to lock. The electric drawing terminal means 30, which is assembled to the electric drawing plug forming space 26, is provided with at least two or more current terminals therein so that the terminals come out at the upper and lower ends, respectively. The current terminal 32 is configured to conduct with the current terminal 33 at the lower end, and the current terminal 34 at the upper end is configured to conduct with the current terminal 35. As shown in FIGS. 2 and 3, the configuration of the current terminal 32 and the current terminal 33 is molded in the electric lead terminal means 30 with the concave-convex portion 36 inside the electric lead terminal means 30. It is to be taken out at the time of disconnection or the pressure is not leaked therebetween, and the configuration of the current terminal 34 and the current terminal 35 is also molded in the electric drawing-in terminal means 30 with the uneven portion 36 so as to be removed or The pressure is not leaked between the current terminal 32, the current terminal 33 is maintained at a constant distance is not electrically connected to each other is configured to be configured. As shown in FIG. 2, the outer concave-convex means 31 is provided on the outer shape of the electric conduit terminal means 30, and it is fitted with the concave-convex means 27. It can be configured in the unit 26, and as shown in FIG. 3, the concave-convex means 27 of the outer shape of the electric drawing-in terminal means 30 can be configured as a tapered spiral. The material of the electric lead terminal means 30 and the material of the motor fixing means portion 20 may be made of a material that does not conduct electricity, but the motor fixing means portion 20 may be made of any metal that is well communicated with electricity. Although shown and described in the drawings for assembling the motor fixing means portion 20 and the plug means 10 in the illustrated figure of the present invention, the plug means 10 in the plug assembly hole 21 of the motor fixing means portion 20. It turns out that the plug screw 11 can be manufactured by integrating it from the beginning as an integrated type. The rotating shaft of the motor means 40 is provided as a motor rotating shaft pipe means 50 and used as a substitute for the discharge pipe of the conventional fire extinguisher. The inner space 51 is provided inside the motor rotating shaft pipe means 50 and is a typical pipe. The lower end is provided with a mixing wing means 55 that can mix the powdered medicine and the lower end of the powdered drug inlet 52 is provided to open the powdered medicine in accordance with the user's purpose is to be transported to the outside. The motor means 40 may use a DC motor means, an AC motor means, etc., and may be provided with a reducer to obtain a desired rotational force as needed, and may use a reduction motor means with a built-in reducer. It should be noted that the motor means may be provided with the gear means or the belt pulley means in the motor rotary shaft pipe means 50 to transfer power to the belt means. In the fire extinguisher, it is important to provide a siphon tube as a motor rotating shaft pipe means 50, and the structure of the motor rotating shaft pipe means 50 protrudes a little from the upper portion of the motor means 40 to form a powder medicine outlet 53. It may be provided in close proximity to the plug discharge hole 12 of the plug means 10 or inserted therein, and when inserted and provided, the motor rotating shaft pipe means rather than the plug discharge hole 12 so as not to interfere with the rotational force. The outer diameter of the powder drug outlet 53 of (50) is set to be a little small so that friction does not occur. Plug screw 11 and motor fixing means portion 20 of plug means 10 provided with hose 16, nozzle 17, lower handle 13, upper handle 14, pressure gauge 15, and the like. The assembling spiral 25 by screwing the packing means 18 into the assembling spiral 22 of the assembling hole 21, and assembling between the lower end of the motor fixing means 20 and the upper end of the motor means 40. When the packing means 19 is inserted and fitted together, the motor fixing bolt 49 is inserted into the motor fixing hole 42 to lock the motor fixing bolt hole 24 so as to lock the current terminal 46 and the current terminal 33 to ground. The current terminal 35 is grounded at the terminal 47 and constitutes the injection module means 90 as shown in FIG. 5. In Figure 5 there is an effect of mixing the powdered drug in the high speed rotation of the mixing wing means 55 in the injection module means (90). In other words, powder blends in a high speed rotation like a blender. Therefore, in the injection module means 90 of FIG. 5, the motor rotation shaft pipe means 50, which is the rotation shaft of the motor means 40, is to rotate at high speed, and the motor means 40 is also to rotate at high speed. 6, the mixing blade means 55 is provided in the motor rotating shaft pipe means 50 up and down, so that the powdered medicine can be easily mixed. In this case, the rotational force of the motor rotating shaft pipe means 50 It is correct to apply the rotational force of the medium speed between the low speed and the high speed, and at this time, the motor means 40 uses a means having a medium speed reduction device. The mixing wing means 55 is distributed evenly up and down the motor shaft pipe means 50, and the blade of the mixing wing means 55 lifts the powdered medicine upwards in the rotational direction so that the powdered medicine is lifted up and down as a whole. In addition to the mixing, the air layer is formed and the powder remains as fine particles. As shown in FIG. 7, a mixing blade means 57 having a screw configuration is provided outside the motor rotating shaft pipe means 50, and the mixing blade outer fixing pipe 84 is provided on the outside of the mixing wing means 57. In (85), the mixing blade means (57) and the mixing blade outer fixing pipe (84) are fixed to the fixing means so that the motor rotating shaft pipe means (50) is rotated, mixing blade means (57), mixing blade outer fixing pipe (84). ) Is also rotated together, and during the rotation of the powdered drug inlet at the lower end of the configuration, the powdered drug rises up the screw-type mixing wing means (57) and comes out of the upper part of the extinguishing powder outlet (88). In addition to the circulation and mixing of the powdered medicine, the compressed gas is evenly distributed in the powdered medicine, so that the powdered medicine is excited into the fine particles, thereby improving fluidity. In the above configuration, the mixing blade outer fixing pipe 84 may be provided by fixing the fixing means to the motor means 40 or the fire extinguishing vessel 60 without fixing the mixing wing means 57. In this case, the mixing wing outer fixing pipe 84 does not rotate. As shown in FIG. 8, the mixing wing means may be provided in a rod shape or a wire means to provide the mixing wing means 56. In FIG. 9, the container inlet means 63 of the fire extinguishing container 60 is to be provided wide and the inlet edge portion 64 has a thickness and a length thereof so as to have a plurality of spiral means 65 in a more durable structure. The container inlet means 63 is the assembly spiral 25 of the locking jaw 23 is locked and assembled into the hole, which is larger than the mixing wing means 55 and the motor means 40, and the container inlet means ( 63) It is noted that the spiral means 65 can be constituted by tapered screw means. 10 is inserted into the injection module means 90 to the container inlet means 63 in the container inner space 62 of the fire extinguishing container 60, and the assembly screw 25 is locked to the spiral means 65 to assemble the fire extinguisher. Although not shown in the present application drawings, the powder is filled in advance in the drug and the assembly is made in the subsequent order. In FIG. 11, the battery unit and the control unit 70 are provided at one place on the outer circumference of the fire extinguishing container 60, and are fixed by the fixing band unit 79, and are integrated into the wiring unit 71 from the wiring unit connection unit 72. The plug means 73 is inserted into the electric lead terminal means 30 so that the regularly controlled current of the battery means and the control construction means 70 drives the motor means 40 to drive the motor shaft pipe means 50. Rotating the mixing blade means 55, the mixing blade means 56, the mixing blade means 57 to stir the powdered medicine. The battery means and the control construction means 70 have a voltage reducing indicator 80 in one place so that the light emitting LEDs emit light when the electricity of the battery means falls to a dangerously low level at which the motor means 40 cannot be driven. The timing of the replacement or charging of the battery means can be informed. As shown in FIG. 12, an electric cord line 76 having an electric cord 77 is provided at an electric cord line connecting portion 75, which is a lower end of the battery means and the control configuration means 70. Reveal.

Plug means (10) Plug screws (11)
Handle under plug discharge hole (12) (13)
Handle (14) Pressure Gauge (15)
Hose (16) Nozzle (17)
Packing Means (18) Packing Means (19)
Motor fixing means 20 Plug assembly hole 21
Assembly spiral (22) Hanging jaw (23)
Motor fixing bolt hole (24) Assembly screw (25)
Electric drawing plug component space part (26) Uneven means (27)
Packing means 29 Electrical lead terminal means 30
Uneven means (31) Current terminal (32)
Current terminal (33) Current terminal (34)
Current terminal 35 Motor means 40
Motor fixing hole 42 Motor electric terminal means part 45
Current terminal (46) Current terminal (47)
Motor fixing bolt 49 Motor shaft pipe means 50
Inner space (51) Powder pharmaceutical inlet (52)
Powder pharmaceutical outlet (53) Mixing wing means (55)
Mixing Wing Means (56) Mixing Wing Means (57)
Fire Extinguishing Container (60)
Container lower part 61 Container inner space part 62
Container inlet means (63) Inlet edge portion (64)
Spiral Means (65) Fire Extinguisher Support (69)
Battery means and control construction means 70 Wiring means 71
Wiring means connector 72 Input plug means 73
Electrical Cord Wire Connector (75) Electrical Cord Wire (76)
Electrical cords 77 Fixed band means 79
Stirring wing fixing pipe (84) fixing part (85)
Internal space part (86) Fire extinguishing powder inlet (87)
Fire extinguishing powder discharge unit 88 injection module means (90)
Voltage Reduction Indicator (95)

Claims (24)

The motor fixing means portion 20 has a circular plate and a plug assembling hole 21 is opened up and down at the center thereof, and an assembling spiral 22 is provided at its outer wall, and its configuration is a straight configuration or a plug assembling hole 21. A fire extinguisher which is automatically mixed as long as the assembly spiral 22 can be configured to have a taper angle. The outer circumference of the motor fixing means 20 is provided with an assembling spiral 25 and the assembling spiral 25 may be a straight spiral or a tapered spiral, and the upper end is a locking jaw 23 having a larger outside. And an outer circumference of which can be provided as a polygon including a circle. The lower end of the motor fixing means 20 is provided with a plurality of motor fixing bolt holes 24 and the motor fixing bolt holes 24 may be provided through, or may be provided in a configuration that does not penetrate. Automatic mixing fire extinguisher. At one side of the edge of the motor fixing means 20, the electrical inlet plug configuration space 26 is provided through the upper end and the lower end, and the shape of the outer shape may be provided in a polygon including a circle, and a plurality of unevennesses An automixing fire extinguisher having a means (27).  5. The fire extinguisher according to claim 4, wherein the concave-convex means (27) can be constituted by a tapered spiral when the electric retracting plug forming space (26) is provided in a circular shape. The electric drawing-in terminal means 30 is provided with at least two or more current terminals therein so that the terminals can come out of the upper and lower ends, respectively, and the upper end of the current terminal 32 is in communication with the current terminal 33 of the lower end. The current terminal 34 at the upper end is configured to conduct with the current terminal 35, and the electric terminal 32 has a current terminal 32 and a current terminal 33 in the concave-convex portion 36. It is molded in the electric lead terminal means (30) so that it does not fall out or when the pressure does not leak between them, and also the configuration of the current terminal 34, the current terminal 35 has the uneven portion 36 It is molded in the means 30 so that it does not fall off or leaks pressure between them and is kept at a constant distance from the current terminal 32 and the current terminal 33 to be electrically separated from each other without being electrically connected. Initiative means ( 30 is provided with an uneven means 31, which is fitted with the uneven means 27 can be configured in the electric drawing plug configuration space 26 by the electric drawing terminal means 30 by the molding or molding method The material of the electric drawing terminal means 30 is an automatic fire extinguisher, which is provided as a non-conductive non-conducting material. 7. The fire extinguisher according to claim 6, wherein the uneven means (27) of the outer shape of the electric drawing-in terminal means (30) are constituted by tapered spirals. The fire extinguisher which is automatically mixed as long as the motor fixing means portion 20 and the plug means 10 can be configured as an integrated type. Fire extinguisher that is automatically mixed with the motor means 40 in the container inner space 62 of the fire extinguishing container (60). 10. The fire extinguisher according to claim 9, wherein the motor means (40) has a high speed rotational force without deceleration means. 10. The motor means 40 is provided with a reducer means so that the motor rotating shaft pipe means 50 is an output shaft of the reducer means or is automatically mixed by transmitting power from the reducer output shaft to a gear means, a belt means, or the like. Fire extinguisher. Motor rotary shaft pipe means (50) is a siphon tube of the fire extinguisher, the lower portion is provided with a powder pharmaceutical inlet 52, the inner space 51 is provided therein, the upper portion is opened by a powder medicine outlet 53 and the plug An automatic fire extinguisher, which is provided in close proximity without being interrupted by the discharge hole (12). An automatic fire extinguisher having one or more mixing blade means (55) and mixing blade means (56) outside the motor rotary shaft pipe means (50). A fire extinguisher which is automatically agitated by having a mixing blade means (57) of a screw type on the outside of the motor rotating shaft pipe means (50). The outside of the mixing wing means 57 is provided with a mixing blade outer fixing pipe 84 as a fixing means at the fixing portion 85, and has a fire extinguishing powder inlet 87 at the lower end and a fire extinguishing powder outlet 88 at the upper end. Auto-mixed fire extinguisher made with one. 16. The mixing blade outer fixing pipe (84) according to claim 15 is a fixing part (85).
The fire extinguisher, which is not fixed in the mixing wing means (57) slightly apart from the interference of the mixing wing means (57) is fixed to the motor means (40) or the fire extinguishing vessel (60). The container inlet means 63 of the fire extinguishing vessel 60 is to be provided wide and the inlet edge portion 64 has a thickness and length so as to be provided with a plurality of spiral means 65 in a more robust structure, the container The inlet means 63 is assembled by locking the assembly screw 25 of the locking step 23, the hole is larger than the mixing blade means 55, the motor means 40 and the container inlet means 63, An automatic fire extinguisher wherein the spiral means (65) can consist of straight screw means and tapered screw means. Fill the appropriate amount of powdered medicine into the container inner space 62 of the fire extinguishing container 60, insert the injection module means 90 into the container inlet means 63, and lock the assembly spiral 25 to the spiral means 65. The auto-mixing fire extinguisher, which has made up the fire extinguisher. An automatic fire extinguisher having a battery means and a control construction means (70) in one place on the outer circumference of the fire extinguishing container (60). The fire extinguisher which is automatically mixed with the input plug means (73) integrated into the wiring means (71) in the wiring means connecting portion (72). One side of the fire extinguisher (60) and the battery means and the control configuration means (70) is a fire extinguisher that is automatically mixed by configuring the voltage reduction indicator (80) in one place. And an electric cord line (76) having an electric cord (77) provided at an electric cord line connection portion (75) which is a lower end of the battery means and the control construction means (70). The motor means 40 is installed outside the fire extinguisher to allow the motor rotary shaft pipe means 50 to penetrate the container inlet means 63 into the fire extinguisher, thereby extinguishing the air by using a sealant means such as packing or taper screw means. Automatic fire extinguisher, characterized in that the pressure inside the vessel is not released to the outside and the mixing blade means (55, 57) on the motor rotation shaft (50) inside the fire extinguisher. The motor means 40 is installed on the outside of the fire extinguisher including the container inlet means 63 and the lower end of the container 61, and has a motor power shaft which constitutes a motor power shaft or a gear connecting portion and penetrates the inside of the fire extinguisher. By using the same means of lid or the like that require airtightness, the pressure inside the fire extinguishing vessel is not released to the outside and the mixing rotor means (55, 57) is provided on the internal power shaft or the gear connecting portion is provided on the power shaft to rotate the motor rotating pipe. Automatic fire extinguisher, characterized in that the power is connected to the means (50)

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