KR20060020088A - Dry pipe valve for sprinkler extingushing system - Google Patents

Abstract

The present invention relates to a sprinkler fire extinguishing device, and a main object thereof is to provide a dry pipe valve for a sprinkler fire extinguishing device in which auxiliary devices such as an accelerator are unnecessary.

The construction of the present invention for achieving the above object in the conventional dry pipe valve for sprinkler fire extinguishing device, to form a primary inlet on one side and a secondary outlet on the other side and inclined at a predetermined angle with respect to the primary inlet A body having an opening and closing hole formed therein; and a disk installed to be in close contact with the opening and closing opening and closing port; A partition for partitioning and a rapid exhaust portion installed in the upper chamber to rapidly discharge the air in the body to the outside; and one side is vertically installed on the disk and the other side is installed on the rapid exhaust portion to operate the disk. A rod operating up and down accordingly; And air inducing means formed in at least one predetermined position of the rod to guide the air of the lower chamber to the upper chamber.

Sprinkler, Fire Extinguishing, Fire, Dry Valve, Dry Pipe Valve

Description

Dry pipe valve for sprinkler extingushing system

1 is a cross-sectional view showing a conventional dry pipe valve,

2 is a cross-sectional view showing a dry pipe valve for a sprinkler fire extinguishing device according to an embodiment of the present invention,

Figure 3a is an operating state diagram showing a state before operation of the dry pipe valve for sprinkler fire extinguishing device according to an embodiment of the present invention,

Figure 3b is an operating state diagram showing the operating state of the dry pipe valve for sprinkler fire extinguishing device according to a preferred embodiment of the present invention,

Figure 4 is an installation state showing the installation state of the dry pipe valve for sprinkler fire extinguishing device according to a preferred embodiment of the present invention.

5 is a cross-sectional view showing a dry pipe valve for a sprinkler fire extinguishing device according to another embodiment of the present invention;

Figure 6a is an operating state diagram showing the pre-operational state of the dry pipe valve for sprinkler fire extinguishing device according to another embodiment of the present invention,

Figure 6b is an operating state diagram showing the operating state of the dry pipe valve for sprinkler fire extinguishing device according to another embodiment of the present invention,

Figure 7 is an installation state showing the installation state of a dry pipe valve for a sprinkler fire extinguishing device according to another preferred embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

11; Body 12; Primary inlet

13; Secondary outlet 14; Opening and closing

20; Disk 30; septum

40; Rapid exhaust portion 50; road

60; Air induction means

The present invention relates to a sprinkler fire extinguishing device that automatically extinguish fire when a fire occurs in a building, and more particularly, to a dry pipe valve for a sprinkler fire extinguishing device.

Generally, the sprinkler extingushing system arranges the sprinkler head on a fixed pipe such as a ceiling, and when the flame rises and the temperature rises, the available part of the sprinkler head detects it and dissolves or ruptures it. It refers to a device that automatically extinguish water by waterproofing water that is constantly pressurized in the pipe.

This type of sprinkler fire extinguishing system is largely classified into a closed head using facility and an open head using facility. Closed head units are further divided into wet systems, dry systems and preparatory operations, while open head units are divided into deluge systems. Among these, dry sprinklers have been used most recently because they can be installed in places where there is a risk of freezing. The dry sprinkler facility is provided with a dry pipe valve in the middle of the pipeline to fill compressed air using an automatic air compressor on the secondary side and pressurized water on the primary side. When the head is opened by heat, the compressed air on the secondary side is released to reduce the pressure. At this time, the pressurized water on the primary side flows into the secondary side to start spraying.

However, such a dry sprinkler has a problem that the time for water to reach the sprinkler head after opening the valve is somewhat delayed than the wet sprinkler. This time delay expands the fire and also promotes more head openings as the fire spreads to the oxygen supply during air discharge. In order to solve this problem, an auxiliary device such as an accelerator is used so that the dry valve can be quickly opened by using the secondary air.

FIG. 1 shows an example of a dry valve 1 for a conventional dry sprinkler, in which a main body 2 connected to a primary side pipe and a secondary side pipe is formed, and inclined at a predetermined angle in the main body 2, The diaphragm 3 is installed and divided into the upper compartment 4 and the lower compartment 4 ', and the disk 6 is installed in the primary inlet 5. Meanwhile, the accelerator 9 is installed through a pipe 8 connected to the through hole 7 formed at one side of the lower compartment 4 '.

As shown in FIG. 1, when the sprinkler head (not shown) bursts in a fire as illustrated in FIG. 1, the pressure on the secondary side decreases, and the secondary pressure causes the diaphragm to momentarily operate the accelerator 9. 3) is lifted upwards and at the same time the disk 6 is lifted and the primary inlet 5 is opened and pressurized water is ejected through the sprinkler head through the secondary pipe to extinguish the fire.

However, such a device requires an additional installation of an accelerator 9 or a pipe 8 for connecting the accelerator 9 and the lower compartment 4 'to the dry valve 1, thereby increasing the manufacturing cost. Of course, the construction is inconvenient, and takes up unnecessary space due to the auxiliary device. Above all, if such an accelerator 9 fails, there is a serious problem in that it becomes inoperable regardless of the performance of the dry valve 1 and the reliability is deteriorated in a dangerous situation.

Accordingly, the present invention has been made to solve the above problems, for reducing the production cost by simply reducing the separate auxiliary devices including accelerators, etc. for sprinkler fire extinguishing apparatus that can increase the operating reliability by eliminating unnecessary failures, etc. Its main purpose is to provide a dry pipe valve.

The configuration of the dry pipe valve for sprinkler fire extinguishing device according to the present invention for achieving the above object, in the conventional dry pipe valve for sprinkler fire extinguishing device, to form a primary inlet on one side and a secondary outlet on the other side A body having an opening and closing opening formed inclined at a predetermined angle with respect to the primary inlet; and a disk installed in close contact with the opening and closing opening and closing the opening and closing port; and installed in parallel with a predetermined distance from the primary inlet. A partition wall partitioning the inside of the body into an upper chamber and a lower chamber; and a rapid exhaust part installed in the upper chamber to rapidly discharge air in the body to the outside; and one side is installed perpendicular to the disk, and the other side is the rapid A rod installed in the exhaust part and operating up and down in accordance with the operation of the disk; And air inducing means formed in at least one predetermined position of the rod to guide the air of the lower chamber to the upper chamber.

On the other hand, it is preferable that the check device is installed at a predetermined position of the partition wall to further control the air flowing into the diaphragm chamber from the lower chamber.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration of a dry pipe valve for a sprinkler fire extinguishing device according to an embodiment of the present invention.

2 is a cross-sectional view showing a dry pipe valve for a sprinkler fire extinguishing device according to a preferred embodiment of the present invention.

As shown in FIG. 2, the dry pipe valve 10 for the sprinkler fire extinguishing device forms a primary inlet 12 on one side and a secondary outlet 13 on the other side, and is defined with respect to the primary inlet 12. A body 11 having an opening and closing hole 14 formed at an angle is formed. In addition, the disk 20 is installed to open and close the opening and closing 14 while being in close contact with the opening and closing 14, and the body 11 is inside the body 11 while being parallel to the primary inlet 12 at a predetermined distance. The partition wall 30 which divides into the upper chamber R1 and the lower chamber R2 is installed. On the other hand, the upper chamber (R1) is provided with a rapid exhaust portion 40 for quickly discharging the air in the body 11 to the outside, while one side is installed perpendicular to the disk 20, the other side of the rapid exhaust portion 40 The rod 50 is installed in the upper chamber (R1) and the lower chamber (R2) to be operated in accordance with the operation of the disk 20, up and down is provided.

Then, at least one or more air inducing means 60 is provided to guide the air in the lower chamber R2 to the upper chamber R1 at a predetermined position of the rod 50 as described above.

Herein, the configuration of the air inducing means 60 will be described in detail. An air induction furnace for inducing air from the lower chamber R2 to the inner center along the rod 50 from the lower chamber R2 to be described later ( The air inlet hole 61 is formed long and is formed perpendicular to the rod 50 on the lower chamber R2, and the air of the lower chamber R2 is introduced into at least one of the air induction passages 61 so as to communicate with the lower portion of the air induction path 61. An air drawn from the at least one air induction furnace 61, which is formed at right angles to the rod 50 on the rapid exhaust chamber r ″ and in communication with the top of the air induction furnace 61. The air outlet hole 63 is formed to flow out, and the rod 50 forms at least one or more long holes 64 of a predetermined length in the longitudinal direction.

In addition, the configuration of the rapid exhaust section 40 in more detail, while the rod 50 is fixed to penetrate the upper chamber (R1) partitioned into the rapid exhaust chamber (r ') and the diaphragm chamber (r'). At the same time, the diaphragm 41 which causes the rod 50 to operate as it moves up and down is installed in parallel with the partition wall 30, and the diaphragm 41 is fastened to the body 10 with the upper side of the rapid exhaust chamber r ''. The fast exhaust valve body 43 into which one end of the rod 50 is inserted while the casing 42 holding the airtight of the exhaust chamber r ″ is coupled with the bolt B and penetrated through the center of the casing 42. To the outer surface of the quick exhaust valve body 43, the upper end of the rod 50 is penetrated, so that the rod 50 moves up and down, Screw the disk 44 to control the airtight. Then, the end of the rod 50 is screwed to the disk fixing cap 45 for fixing the disk 44.

On the other hand, it is very preferable that the air supply hole 70 is added to be formed so as to penetrate through the diaphragm chamber r 'side body so that the compressed air is supplied to the diaphragm chamber r'. That is, the pipe 100 for supplying the compressed air from the external compressor (C) is connected and the pipe 100 is branched in two directions, one of the air supply hole 70 is in communication with the diaphragm chamber (r ') ) Is connected to the diaphragm chamber (r ') through the pipe 110, and the other side is provided with a swing check valve 121 in the secondary air injection hole communicating with the lower chamber (R2) to the lower chamber (R2) Connection through the pipe 120 for. Reference numeral 90 denotes a drainage valve device after the test.

Dry pipe valve 10 for sprinkler fire extinguishing device composed of the above configuration has the following operation.

That is, as shown in FIG. 3A, the dry pipe valve 10 for the sprinkler fire extinguishing device is supplied with compressed air through a pipe 100 connected from an external compressor C. In other words, compressed air is injected into the diaphragm chamber r 'and the lower chamber R2, and the compressed air of the lower chamber R2 is introduced into the air induction path 61 through the air inlet 62 formed in the rod 50. ), And the induced compressed air reaches the end of the rod 50 and is discharged or supplied to the rapid exhaust chamber (r '') through the air outlet hole (63). As such, each chamber is placed under the same pressure through the supplied compressed air with a constant pressure.

In this state, when the flame is generated as shown in Figs. 3b and 4, the available portion of the sprinkler head is detected and dissolved or ruptured so that the water pressurized in the pipe is sprayed into the flame portion. At this time, the dry pipe valve 10 for the sprinkler fire extinguishing device is to perform the following operation at the same time. That is, when the sprinkler head is rapidly damaged by the flame, the compressed air supplied in the lower chamber R2 of the body 11 is rapidly discharged through the secondary side outlet 13 and at the same time, the pressure of the lower chamber R2 Is rapidly lowered and the disk 20 which is in close contact with the opening and closing hole 14 is lifted by the pressure difference between the primary side and the secondary side, and the rod 50 moves upwards, and the pressurized water is supplied to the lower chamber R2, The swing check valve 121 of the pipe 120 supplying the compressed air to the chamber R2 is blocked by the pressurized water, and the compressed air is supplied only to the diaphragm chamber r 'so that the diaphragm 41 is the diaphragm chamber ( r ') is rapidly moved upward by the compressed air flowing in continuously. In this case, the rod 50 is in close contact with the end thereof, and the disk 44, which has been kept airtight, is opened at the same time while the long hole 64 formed at the end of the rod 50 is exposed to the outside, so that the rapid exhaust chamber r ″ The compressed air in the yarn is forced out of the air (atmosphere) rapidly. As such, the rapid discharge of compressed air through the long hole 64 rapidly lowers the pressure of the rapid exhaust chamber (r '') chamber to the atmospheric pressure, which in turn serves to accelerate the operation of the diaphragm (41). . According to the action of the quick exhaust 40, there is a better effect that the dry pipe valve 10 can be opened quickly without the need for installing an accelerator 9 (see FIG. 1) or the like separately. .

On the other hand, with reference to the accompanying drawings will be described another embodiment of the present invention in more detail. Here, the same reference numerals as in FIGS. 1 to 4 denote the same members having the same function.

5 is a cross-sectional view showing a dry pipe valve for a sprinkler fire extinguishing device according to another embodiment of the present invention.

The checker 80 which uses the same members as those of the above-described embodiment and is installed at a predetermined position of the partition wall 30 to control the air flowing into the diaphragm chamber r 'from the lower chamber R2. It is further added to form a through.

That is, the check device 80 includes a check body 81 inserted into the coupling hole 31 formed at a predetermined position of the partition wall 30 from the diaphragm chamber r 'and installed inside the check body 81. And a disk 82 for intermitting inflow air, and is coupled to a threaded portion 83 formed at the lower chamber side end of the check body 81 to form a bolt 84 for fixing the check body 81.

Dry pipe valve 10 'for the sprinkler fire extinguishing device having the above configuration has the following operation.

That is, another type of sprinkler fire extinguishing device dry pipe valve 10 ′ as shown in FIG. 6A is supplied with compressed air through a pipe 100 connected from an external compressor C. In other words, compressed air is injected into the lower chamber R2, and compressed air of the lower chamber R2 is guided along the air induction path 61 through the air inlet hole 62 formed in the rod 50. The induced compressed air reaches the end of the rod 50 and is discharged or supplied to the rapid exhaust chamber r '' through the air outlet hole 63. In the check device 80 provided in the diaphragm chamber r 'side partition wall 30, since each chamber is placed at the same pressure, the compressed air of the lower chamber R2 is freely communicated to the diaphragm chamber r'. That is, the lower chamber R2, the diaphragm chamber r ', and the rapid exhaust chamber r "are all in the same pressure state.

On the other hand, when the flame occurs as shown in Figure 6b and 7 in the above state, the available portion (可溶 部) of the sprinkler head is detected and dissolved or ruptured water is constantly pressurized in the pipe is sprayed into the flame portion. . At this time, the dry pipe valve 10 'for the sprinkler fire extinguishing device simultaneously performs the following operation. That is, when the sprinkler head is rapidly damaged by the flame, the compressed air supplied in the lower chamber R2 of the body 11 is rapidly discharged through the secondary side outlet 13 and at the same time, the pressure of the lower chamber R2 Is rapidly lowered, and the rod 50 moves upward while the disk 20 which is in close contact with the opening and closing port 14 is lifted by the pressure difference between the primary side and the secondary side. At this time, the check device 80 is operated to block the diaphragm chamber r 'and the lower chamber R2. That is, when the differential pressure is generated between the diaphragm chamber r 'and the lower chamber R2 while the lower chamber R2 is decompressed, the cross-sectional area of the check body 81 installed in the diaphragm chamber r' is in the direction of the screw portion 83. Since the pressure is greater because the cross-sectional area is larger, the check body 81 is eventually pushed toward the lower chamber R2 to block traffic between the diaphragm chamber r 'and the lower chamber R2. In this case, the compressed air flowing into the diaphragm chamber r 'is applied to the diaphragm 41 to rapidly move the rod 50 or the diaphragm 41. At this time, the rod 50 is in close contact with the end thereof, while the disk 44, which has been kept airtight, is opened at the same time, while the long hole 64 formed at the end of the rod 50 is exposed to the outside, and the rapid exhaust chamber r '' The compressed air in the seal is forced out quickly. As such, the rapid discharge of the compressed air through the long hole 64 rapidly lowers the pressure of the rapid exhaust chamber (r '') to the atmospheric pressure, and eventually serves to accelerate the operation of the diaphragm (41). According to the action of the rapid exhaust portion 40, there is a better effect that the dry pipe valve 10 'can be quickly opened without the need to install an accelerator 9 (see FIG. 1) or the like separately. .

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples to aid understanding and are not intended to limit the scope of the present invention. In addition to the embodiments disclosed herein, it is apparent to those skilled in the art that other modifications based on the technical idea of the present invention may be implemented.

Therefore, the dry pipe valve 10, 10 'for the sprinkler fire extinguishing device of the present invention according to the configuration and the operation state as described above reduces the configuration of the device by reducing all without installing additional auxiliary devices including accelerators, etc. By simplifying it, the manufacturing cost can be reduced, and unnecessary breakdowns can be eliminated, thereby increasing the operation reliability.

Claims (6)

In a dry pipe valve for a sprinkler fire extinguishing device, A body 11 having an opening 14 formed on one side of the primary inlet 12 and forming a secondary side outlet 13 on the other side and inclined at a predetermined angle with respect to the primary inlet 12; and A disk 20 installed in close contact with the opening and closing hole 14 to open and close the opening and closing hole 14; and A partition wall 30 disposed parallel to the primary inlet 12 at a predetermined distance in the body 11 to partition the inside of the body 11 into an upper chamber R1 and a lower chamber R2; and Is installed in the upper chamber (R1) Rapid exhaust portion 40 for rapidly discharging the air in the body 11 to the outside; And A rod 50 having one side installed perpendicular to the disk 20 and the other side mounted at the rapid exhaust portion 40 to be operated up and down according to the operation of the disk 20; And Sprinkler fire extinguishing device, characterized in that it comprises at least one or more air inducing means 60 is formed at a predetermined position of the rod 50 to guide the air of the lower chamber (R2) to the upper chamber (R1). Dry pipe valve for The method of claim 1, wherein the rapid exhaust portion 40, The rod 50 is installed in parallel with the partition wall 30 and is fixedly installed to penetrate the partition 30 so as to partition the upper chamber R1 into a rapid exhaust chamber r ″ and a diaphragm chamber r ′ and simultaneously load the rod. A diaphragm 41 that operates as the 50 moves up and down; and A casing 42 which is coupled to the body 10 with a bolt B to be above the rapid exhaust chamber r ″ to maintain the airtightness of the rapid exhaust chamber r ″; and Fast exhaust valve body screwed through the center of the casing 42 is inserted one end of the rod 50; 43 and It is installed in close contact with the outer surface of the quick exhaust valve body 43, the upper end of the rod 50 is installed through the rod 50 of the rapid exhaust chamber (r '') as the rod 50 moves up and down A disk for controlling airtightness; 44 and Dry pipe valve for sprinkler fire extinguishing device, characterized in that it comprises a disk fixing cap 45 for screwing to the end of the rod (50) to fix the disk (44). The method of claim 2, wherein the air inducing means, An air induction path 61 formed along the rod 50 to an inner center to guide air from the lower chamber R2 to the rapid exhaust chamber r ″; and Air inlet hole 62 is formed on the lower chamber (R2) perpendicular to the rod 50, at least one formed in communication with the lower portion of the air induction path 61, the air in the lower chamber (R2) is introduced );and The air is formed perpendicular to the rod 50 on the rapid exhaust chamber (r ″) and formed at least one in communication with the upper portion of the air induction path (61) to guide the air from the air induction path (61). Outflow air outlet 63; And Dry pipe valve for a sprinkler fire extinguishing device, characterized in that it comprises at least one long hole (64) formed in the longitudinal direction at the distal end of the rod (50). The air supply hole (70) according to any one of claims 1 to 3, wherein air is formed through the diaphragm chamber (r ') side and compressed air is supplied from the outside to the diaphragm chamber (r'). Dry pipe valve for sprinkler fire extinguishing device, characterized in that it is formed by the addition of). The check device according to any one of claims 1 to 3, wherein the check device is installed at a predetermined position of the partition wall 30 to intercept air flowing into the diaphragm chamber r 'from the lower chamber R2. Dry pipe valve for a sprinkler fire extinguishing device, characterized in that the further 80. The method of claim 5, wherein the check device 80 A check body 81 inserted into the coupling hole 31 formed at a predetermined position of the partition wall 30 from the diaphragm chamber r '; A disk 82 installed inside the check body 81 to control inflow air; and Dry pipe valve for sprinkler fire extinguishing device, characterized in that it comprises a bolt (84) fixed to the screw portion (83) formed at the lower chamber side end of the check body (81) to fix the check body (81).

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