KR102677599B1 - Double type fire extinguisher trigger device - Google Patents

Abstract

The present invention relates to a double-type fire extinguisher percussion device, and has the effect of improving fire extinguishing ability through a double-type structure in which when a fire occurs, two percussion rods move forward simultaneously and the gas seal cap can be ruptured.
The present invention for realizing this includes two couplers (20) connected to the sealing cap at the front end of the device housing (10); A first percussion rod 30 and a second percussion rod 40 each provided to be able to slide forward and backward inside the device housing 10; Link bars (32, 42) extending from the rear ends of the first and second percussion rods (30, 40), respectively; A guide bushing (50) coupled to the rear end of the device housing (10) to guide the forward and backward movement of the link bars (32, 42); Pin cutters (31, 41) provided at the ends of each of the first percussion rod (30) and the second percussion rod (40) to rupture the sealing cap when driven forward; an elastic spring 80 that supports the first percussion rod 30 and the second percussion rod 40 with elastic force, respectively, inside the device housing; A tension wire (60) connected to the rear end of the link bar (32) of the first percussion rod (30) to regulate percussion; A lever formed in a “L” shape and symmetrically formed at the middle portion of the device housing 10 to guide the safety levers 33 and 43 provided on the first percussion rod 30 and the second percussion rod 40, respectively. Home (11) and; It is characterized by forming a configuration including; interlocking means for interlocking the second percussion rod 40 to move forward together when the first percussion rod 30 moves forward.

Description

Double type fire extinguisher trigger device}

The present invention relates to a fire extinguisher percussion device, and more specifically, to a double-type fire extinguisher percussion device that can improve fire extinguishing ability by operating two percussion elements simultaneously when a fire occurs.

As is well known, a fire extinguisher is a device that extinguishes a fire in the early stages of a fire by using the cooling or air blocking effects of the fire extinguishing agent.

Figure 9 is a diagram schematically showing the prior art related to fire extinguishers. The automatic fire extinguisher includes a chemical tank (1) that discharges the fire extinguishing agent into the discharge pipe (1a), and high-pressure gas through the hose (2a) to the chemical tank (1). It includes a gas cylinder (2) that supplies gas, and a percussion device (3) that ruptures the sealing cap (not shown) provided in the gas cylinder (2) to supply gas to the chemical tank (1).

And, as a prior art related to a fire extinguisher triggering device, ‘Fire Fire Extinguishing Device’ is disclosed in Republic of Korea Patent No. 10-2094120 (registration date March 21, 2020).

However, in the above-described prior art, there was a problem in that the gas supply pressure for ejecting the fire extinguishing agent was limited because the trigger means for rupturing the gas cylinder sealing cap was composed of a single unit.

Republic of Korea Patent Registration No. 2418642 (registered on July 4, 2022) Republic of Korea Patent Registration No. 2056472 (registered on December 10, 2019)

The present invention was proposed to improve the problems in the prior art described above, and provides a double-type percussion device configuration in which a plurality of percussion means for rupturing the gas seal cap are provided, thereby improving the fire extinguishing ability due to simultaneous percussion with one operation. The purpose is to improve.

The double-type fire extinguisher percussion device of the present invention for achieving the above object includes a device housing connected to the sealing cap of a gas cylinder; Two couplers connected to the sealing cap at the front end of the device housing; a first percussion rod and a second percussion rod provided to slide forward and backward inside the device housing; Link bars extending from rear ends of the first and second percussion rods, respectively; a guide bushing coupled to the rear end of the device housing to guide the forward and backward movement of the link bar; a pin cutter provided at the tip of each of the first percussion rod and the second percussion rod to rupture the sealing cap when driven forward; an elastic spring supporting the first percussion rod and the second percussion rod with elastic force respectively inside the device housing; a tension wire connected to the rear end of the link bar of the first percussion rod to regulate percussion; a guide groove formed in an “L” shape and symmetrically formed at the middle portion of the device housing to guide the safety levers provided on the first percussion rod and the second percussion rod, respectively; It is characterized in that it comprises a; interlocking means for interlocking the second percussion rod to move forward together when the first percussion rod moves forward.

In addition, the interlocking means is connected to the first percussion rod and is characterized as a lever drive blade for releasing the safety lever of the second percussion rod from being locked in the lever groove when the first percussion rod is driven forward.

In addition, a spring seating groove in which an elastic spring is seated is formed in the guide bushing, and a link bar for sliding guidance along the guide bushing is integrally extended at the rear ends of the first and second percussion rods.

The fire extinguisher percussion device of the present invention has a double-type structure in which the two percussion rods move forward simultaneously in the event of a fire and the gas seal cap can be ruptured, thereby improving the fire extinguishing ability by increasing the gas supply pressure. .

In particular, the two percussion rods can be interlocked by means of mutual interlocking means, which has the advantage of enabling more efficient percussion action.

1 is a plan view of a fire extinguisher percussion device according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the interior of the fire extinguisher percussion device of the present invention.
Figure 3 is a state diagram of the safety lever interlocking of the fire extinguisher percussion device of the present invention.
Figure 4 is a diagram illustrating the top surface lever groove shape of the device housing in the present invention.
Figure 5 is a plan view of the safety device bracket in the present invention.
Figure 6 is a plan view of the lever drive blade structure in the present invention.
Figure 7 is a cross-sectional view of a percussion drive state in the present invention.
Figure 8 is an enlarged cross-sectional view of a guide bushing according to another embodiment of the present invention.
Figure 9 is a schematic structural diagram of a typical fire extinguisher percussion driving unit.

Hereinafter, specific embodiments of the present invention will be examined in detail with reference to the accompanying drawings.

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those with average knowledge in the art.

Accordingly, the shapes of components expressed in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration may be indicated by the same reference numeral in each drawing. Additionally, detailed descriptions of the functions and configurations of known technologies that are judged to unnecessarily obscure the gist of the present invention may be omitted.

First, the configuration of the double-type fire extinguisher percussion device according to an embodiment of the present invention is as follows through FIGS. 1 to 7.

The fire extinguisher percussion device in this embodiment includes a device housing 10 connected to the sealing cap of the gas cylinder 2, and two couplers 20 connected to the sealing cap at the distal end of the device housing 10. and a first percussion rod 30 and a second percussion rod 40 each provided to be able to slide forward and backward inside the device housing 10, and rear ends of the first and second percussion rods 30 and 40. Link bars (32, 42) each extended to the device, a guide bushing (50) coupled to the rear end of the device housing (10) to guide the forward and backward movement of the link bars (32, 42), and each of the Pin cutters (31, 41) provided at the ends of the first percussion rod (30) and the second percussion rod (40) to rupture the sealing cap when driven forward, and the first percussion rod (30) and the second percussion rod (40) ), respectively, an elastic spring 80 that supports the device housing with elastic force, a tension wire 60 connected to the rear end of the link bar 32 of the first percussion rod 30 to control the percussion, and A lever groove formed symmetrically in the middle part of the device housing 10 in an “L” shape to guide the safety levers 33 and 43 provided on the first percussion rod 30 and the second percussion rod 40, respectively. (11) and interlocking means are configured so that when the first percussion rod 30 moves forward, the second percussion rod 40 is interlocked and moves forward together.

At this time, the interlocking means is connected to the first percussion rod 30, so that when the first percussion rod 30 is driven forward, the safety lever 43 of the second percussion rod 40 is locked in the lever groove 11. It consists of a lever drive wing (70) for releasing the lever, and an inclined surface (71) at a certain angle is formed on one side of the lever drive wing (70) opposite the safety lever (43), so that the safety lever moves forward. It can perform the function of pushing (43) outward.

In addition, a spring seating groove 51 in which the elastic spring 80 is seated is formed in the guide bushing 50, and the rear ends of the first and second percussion rods 30 and 40 slide along the guide bushing 50. The link bars 32 and 42 through which guidance is provided are integrally extended.

In addition, a safety device bracket 15 is provided on the upper part of the device housing 10 to control the forward movement of the safety levers 33 and 43 during the installation process, and the safety device bracket 15 includes a lever guide groove 15a. ,15b) is formed.

Meanwhile, it can be seen that a joint rod 90 and a joint 91 are formed at the rear end of the link bar 32 of the first percussion rod 30.

In the drawing, an unexplained reference numeral 92 indicates an auxiliary lever.

Let us look at the effect of the operation of the double-type fire extinguisher percussion device of the present invention, which has such a configuration.

In the percussion device of the present invention, the first percussion rod 30 and the second percussion rod 40 are each in a backward state within the device housing 10 in normal times, and at this time, the respective safety levers 33 and 43 becomes caught in the lever groove (11).

Meanwhile, when a fire occurs, a sensor (not shown) detects the fire and acts to loosen the tension wire 60, allowing a sliding operation in the forward direction of the first percussion rod 30.

That is, at this time, as a pulling force acts on the auxiliary lever 92 connected to the joint rod 90 by a sensor detection signal, the first percussion rod 30 rotates and the safety lever 33 moves into the lever groove 11. The jammed state is released and the first percussion rod 30 slides in the forward direction due to the elastic force caused by the elastic spring 80. At this time, the lever drive wing 70 connected to one side moves together. A push force is applied to the safety lever 43 of the second percussion rod 40 by the inclined surface 71, so that the locked state is released from the lever groove 11 at the same time.

Accordingly, the first percussion rod 30 and the second percussion rod 40 are simultaneously driven forward by the elastic action of the elastic spring 80, and the two pin cutters 31 and 41 on both sides seal the gas cylinder. The cap will rupture.

Due to this firing action, high-pressure gas from the gas cylinder is supplied to the chemical tank, thereby carrying out a fire extinguishing action.

Therefore, the fire extinguisher percussion device of the present invention has a double-type structure in which the two percussion rods move forward simultaneously in the event of a fire and the gas seal cap can be ruptured, thereby improving the fire extinguishing ability by increasing the gas supply pressure. .

In particular, the two percussion rods can perform simultaneous interlocking operations using mutual interlocking means, which provides the advantage of enabling a more efficient fire extinguisher percussion operation.

Meanwhile, Figure 8 shows a configuration according to another embodiment of the present invention, and the spring seating groove 51 formed in the guide bushing 50 is provided with a protective layer ( 52) This coating is formed. At this time, the protective layer 52 contains 5 to 20% by weight of waste tire powder for elastic function, 10 to 30% by weight of polycarbonate resin, 10 to 20% by weight of glycidyl ester, 1 to 10% by weight of boron nitride, 5 to 20% by weight of phenylalanine tetrahydroxylase, 1 to 10% by weight of polyoxyethylene tocopheryl ether, 5 to 15% by weight of sodium hexanitrocobaltate, 5 to 10% by weight of calcium carbonate, 1 to 10% by weight of potash feldspar. It is desirable to form a mixed composition in proportion.

When this configuration is achieved, since the protective layer 52 is coated with a thin film on the spring seating groove 51, it can perform a buffering function for the elastic spring 80 and prevent oxidation due to direct contact. There will be.

In particular, since the protective layer 52 contains a mixture of glycidyl ester and boron nitride components, hardening of waste tire powder can be prevented and elasticity can be maintained stably, and phenylalanine functions as a catalyst for polycarbonate resin. This ensures that the coating layer has an overall uniform thickness, and phenylalanine sahydroxylase functions to suppress the generation of bubbles during the coating formation process of the protective layer 52. In addition, the additionally added polyoxyethylenetocopheryl ether prevents oxidation and discoloration on the contact surface of the elastic spring 80, and sodium hexanitrocobaltate and potassium feldspar each improve the density and durability of the protective layer 52, thereby improving the elastic spring 80. It has the effect of preventing cracks from occurring due to the impact of (80).

In addition, although specific embodiments of the present invention have been described and shown above, it is obvious that the fire extinguisher percussion device structure of the present invention can be implemented in various modifications by those skilled in the art.

For example, the safety device bracket 15 in the above embodiment is a part installed to prevent triggering operation during the initial installation and movement process, and is dismantled when the installation work of the triggering device of the present invention is completed.

Therefore, such modified embodiments should not be understood individually from the technical spirit or scope of the present invention, and such modified embodiments should be included within the scope of the appended claims of the present invention.

10: device housing 11: lever groove
15: Safety device bracket 15a, 15b: Lever guide groove
20: Coupler 30: First percussion rod
31,41: Pin cutter 32,42: Link bar
33,43: safety lever 40: second percussion rod
50: Guide bushing 51: Spring seating groove
60: Tension wire 70: Lever driving wing
80: elastic spring 90: joint rod

Claims (6)

A device housing (10) connected to the sealing cap of the gas cylinder;
Two couplers (20) connected to the sealing cap at the front end of the device housing (10);
A first percussion rod (30) and a second percussion rod (40) each provided to slide forward and backward inside the device housing (10);
Link bars (32, 42) extending from rear ends of the first and second percussion rods (30, 40), respectively;
A guide bushing (50) coupled to the rear end of the device housing (10) to guide the forward and backward movement of the link bars (32, 42);
Pin cutters (31, 41) provided at the ends of each of the first percussion rod (30) and the second percussion rod (40) to rupture the sealing cap when driven forward;
an elastic spring 80 that supports the first percussion rod 30 and the second percussion rod 40 with elastic force, respectively, inside the device housing;
A tension wire (60) connected to the rear end of the link bar (32) of the first percussion rod (30) to regulate percussion;
A lever formed in a “L” shape and symmetrically formed at the middle portion of the device housing 10 to guide the safety levers 33 and 43 provided on the first percussion rod 30 and the second percussion rod 40, respectively. Home (11) and;
Interlocking means for interlocking the second percussion rod 40 to move forward together when the first percussion rod 30 moves forward;
Includes,
The interlocking means is connected to the first percussion rod 30 so that when the first percussion rod 30 is driven forward, the safety lever 43 of the second percussion rod 40 is caught in the lever groove 11. It is a lever driving wing (70) to release the state,
A double-type fire extinguisher percussion device, characterized in that an inclined surface (71) at a certain angle is formed on one side of the lever driving blade (70) opposite the safety lever (43). delete delete In claim 1,
A spring seating groove 51 in which the elastic spring 80 is seated is formed in the guide bushing 50, and a sliding guide is provided at the rear ends of the first and second percussion rods 30 and 40 along the guide bushing 50. A double-type fire extinguisher percussion device, characterized in that the link bars (32, 42) are integrally extended. In claim 1,
A safety bracket 15 is formed on the upper part of the device housing 10 to control the forward movement of the safety levers 33 and 43, and lever guide grooves 15a and 15b are formed in the safety bracket 15. A double type fire extinguisher percussion device characterized in that. In claim 4,
The spring seating groove 51 is coated with a protective layer 52 to cushion the impact caused by direct contact with the elastic spring 80, and the protective layer 52 is made of waste tire powder, polycarbonate resin, and glycerin. A double-type fire extinguisher percussion device characterized by a mixed composition of dil ester, boron nitride, phenylalanine tetrahydroxylase, polyoxyethylene tocopheryl ether, sodium hexanitrocobaltate, calcium carbonate, and potash feldspar.

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