KR101604551B1 - A water flow detecting device for fire extinguishing facilities - Google Patents

Abstract

The present invention relates to a water flow detecting device for a fire extinguishing system, which is suitable for a sprinkler system, and the purpose of the present invention is to provide the water flow detecting device for a fire extinguishing system, which can accurately turn on or off a switching element and improves restoring force for restoring a switching rod. In order to achieve this purpose, the water flow detecting device for a fire extinguishing system comprises: a check valve case including an aperture part; a check valve installed in the check valve case, including a disk which divides the inside of the check valve case into a first side chamber and a second side chamber or connects the first side chamber and the second side chamber, an extended part extended from the disk, and a coupling part which protrudes from the extended part and through which an elongated hole is bored so as to change a rotary shaft of the disk; an installation member including a body part which closes the aperture part of the check valve case and on which an elastic member mounting groove is formed, and a pair of bosses extended from the body part, wherein coupling rod insertion holes are bored on the extended ends; a coupling rod which is inserted into the coupling rod insertion hole formed on one side of the boss of the check valve installation member from the coupling rod insertion hole formed on another side of the boss of the check valve installation member via the elongation hole formed on the coupling part of the check valve so as to couple the check valve and the installation member; an elastic member which is mounted on the elastic member mounting groove and into which a switching rod is inserted, wherein a groove having a semicircle-shaped cross section is formed around a spot into which the switching rod is inserted; and a switching element which is turned on or off by the switching rod, wherein one end of the switching rod comes in with an extended part of the check valve, and another end passes the check valve installation member to be exposed to the outside so as to turn on or off the switching element, and is inserted into the elastic member such that a fixed part is constructed to be always able to pivot on the same central point.

Description

TECHNICAL FIELD [0001] The present invention relates to a water flow detecting device for fire extinguishing facilities,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water sensing device for a fire extinguishing system suitable for a sprinkler installation or the like.

The water sensing device is installed in fire extinguishing facility piping such as sprinkler facility or foam fire extinguishing facility, and it is a device that detects the water in the piping and outputs a signal.

The inner part of the flow sensing device has a check valve structure. The check valve divides the inside into a primary side chamber filled with water and a secondary side chamber. The primary chamber is connected to the water source via piping, and the secondary chamber is connected to the sprinkler head via piping. If the sprinkler does not work, there is no water flow, so that the primary and secondary chambers are at the same pressure and the check valve remains closed. When the sprinkler is operated with the check valve closed, the water in the secondary chamber flows to the sprinkler side, so that the pressure in the secondary chamber becomes lower than the pressure in the primary chamber, and the check valve is opened. As the check valve is opened, the water continuously flows from the primary chamber to the secondary chamber and is supplied to the sprinkler head.

In apartment buildings, buildings and buildings, sprinklers are installed for each room on each floor, and sprinklers are connected to the digestive water piping through sprinkler piping. Therefore, when a fire occurs, the nozzle of the sprinkler head automatically operates by heat, so that the digested water filled in the pipe is discharged from the head to evolve the fire. The flow sensor detects changes in the pressure of the water in the pipe and generates a fire alarm. Therefore, there is a need for a flow sensing device that operates reliably in a fire alarm.

Patent registration no. 10-0747617 shows a flow sensing device. The flow-through sensing device disclosed in Patent Registration No. 10-0747617 includes a check valve case, a switch operation pivoting arm having an operating portion at both ends thereof is inserted into a case through an opening, and both end operating portions are disposed inside and outside the case, And the pivot arm is rotatably pivoted by a horizontal rotation shaft orthogonal to the pivot arm.

In the above structure, the operating portion inside the case of the switch operation pivoting arm pivotally urges the pivoting arm by the urging means so as to come into contact with the check valve, and is turned on by the rotation of the pivoting arm in the vicinity of the end of the operating portion outside the case of the pivoting arm Are provided in the housing. In this structure, when the check valve is opened by the flow of water, the pivoting arm is rotated against the urging force of the urging means, and as the pivoting arm is rotated, the operating portion outside the case turns on the switch means.

However, the structure shown in the above-mentioned Patent Registration No. 10-0747617 has a structure in which a check valve is installed in a check valve case and a switch operation pivoting arm having a switching operation portion is inserted into a case through an opening of a check valve case. A spacer is provided between the operating portion of the pivot arm and the check valve so that the operating portion is in contact with the check valve and a tension is applied to the outside by a spring to press the pivot arm.

This patent applicant invented a water sensing device for a fire extinguishing system that solved the problem of being structurally complicated and was registered as a patent 10-1419099. The invention disclosed in the registered patent 10-1419099 includes a check valve case having a passage through which fire water flows, a disk for opening and closing the passage in the check valve case, and a disk, which protrudes obliquely outwardly from one side end of the disk, A check valve disc fixed to the check valve case so that the disc and the connecting portion are rotatable around the hinge pin at the lower portion of the connecting portion adjacent to the disc, And a switch rod assembly disposed so as to extend over an end portion of the connection portion of the disk and configured to be pierced through the check valve case at the other end so as to be contactable with the micro switch.

In the registered patent 10-1419099, since the check valve is closed or opened, the switching rod is configured to turn on and off the reed switch so that the contact position of the switching rod and the check valve becomes a major factor.

When the check valve is opened from the closed state, the check valve is shaken by the incoming water, so that the position of the switching rod in contact with the check valve may fluctuate. As the position of the switching rod in contact with the check valve is changed, the switching element can not accurately turn ON / OFF the reed switch according to the opening and closing of the check valve, thereby failing to accurately notify the state of the check valve to the outside. When the check valve is closed from the opening, the check valve is rotated in the opposite direction to the flow of the water flowing from the first chamber to close the passage of the water from the first chamber to the secondary chamber. There arises a problem that the switching rod deviates from the contact position with the micro switch and the switching rod can not correctly turn on and off the reed switch of the switching element.

In the registered patent 10-1419099, when the check valve is opened from the closed state, the switching rod is restored by the restoring force of the elastic member. When the closed state is continued, the problem that the restoring force of the elastic member is lowered and the switching rod can not be restored quickly .

In order to solve such a problem, the present invention provides a check valve comprising: a check valve case having an opening; A check valve located in the check valve case, separating the check valve case into a first and second chambers, a disk connecting the first and second chambers to each other, an extension extending from the disk, A check valve formed of a coupling portion protruding from the disc portion and having a long hole so that the pivot axis of the disc can be changed; A check valve mounting member composed of a body portion having an opening of the check valve case and having an elastic member mounting groove formed therein and a pair of bosses extending from the body portion and having through holes at the ends thereof; The check valve is fitted into the through hole formed in one boss of the check valve mounting member and the through hole formed in the other boss of the check valve mounting member through the long hole formed in the connecting portion of the check valve to connect the check valve and the check valve mounting member A coupling rod; An elastic member fitted to the elastic member seating groove with a switching rod interposed therebetween and formed with a groove having a semicircular cross section around the periphery of the switching rod;
And a switching element which is turned on and off by the switching load,
Wherein one end of the switching rod contacts the extension of the check valve and the other end of the switching rod is exposed to the outside through the check valve fitting member so as to contact the switching element ON and OFF, Is made to be able to pivot at the same center point position at all times.

In the above configuration, the elastic member mounted on the elastic member mounting groove is resiliently deformed when the sleeve in the check valve case is closed by the check valve disc, and is restored to the original state when the sleeve in the check valve case is opened. When the disc of the check valve closes the sleeve in the check valve case, the extension of the check valve tilts the switching rod to deform the elastic member. When the disk of the check valve is pivoted to open the sleeve in the check valve case, the extension portion of the check valve abuts against the switching rod, and the elastic member is restored to its original state, and the switching rod is vertically erected.

In the above construction, the coupling rod moves along the slot to change the pivot axis of the check valve disk. The hole of the coupling portion protruding from the extension of the check valve becomes a long hole, And the pivot shaft of the check valve disc is changed so that the switching rod contacts the end of the extended portion of the check valve and tilts so that the other end is accurately brought into contact with the lead terminal of the switching element, And moves from the end of the extension of the check valve to the center so that the other end is correctly removed from the lead terminal of the switching element when it is erected vertically.

In the above configuration, the elastic member mounted on the elastic member mounting groove is formed with a groove having a semicircular cross section, and the groove increases the elastic restoring force for restoring the switching rod.

Since the coupling rod is coupled to the elongated hole of the coupling portion protruding from the extension of the check valve, the coupling is easy and the coupling rod moves along the slot to change the pivot axis of the check valve disc, There is an effect that the switching element can be accurately turned on or off in contact with or away from the lead terminal of the switch. In addition, even if the check valve is not uniform, the coupling rod moves along the slot and the pivot axis of the check valve disc changes, so that the switching rod contacts the lead terminal of the switch precisely at the end of the extension of the check valve, ON, and OFF.

1 is a flow sensing apparatus for a fire extinguishing system according to the present invention.
FIG. 2 is a partial perspective view of the water flow sensing apparatus for a fire extinguishing system cut along the cutting line AA of FIG. 1 when the sprinkler is not in operation, and FIG. 3 is a side sectional view of FIG.
FIG. 4 is a partial perspective view of the water flow sensing device for a fire extinguishing system cut along the cutting line AA of FIG. 1 when the sprinkler is operated, and FIG. 5 is a side sectional view of FIG. 4
FIG. 6 is a view showing a state of engagement of a check valve mounting member, a check valve, and a switching element (switching mechanism), and FIG. 7 is an exploded perspective view thereof.
8 is a view showing a state of engagement of the switching rod and the elastic member.
FIGS. 9 and 10 are side sectional views showing an operating state, FIG. 9 shows a state in which the sprinkler does not operate, and FIG. 10 shows a state in which water is discharged into the sprinkler head by operating the sprinkler.
11, 12, and 13, when the sprinkler does not operate, the check valve disk pushes the upper end of the switching rod to the right side, and the lower end of the switching rod is pivoted to the left to contact the lead terminal of the switch to turn on the switching element Fig.
Figs. 14 and 15 are diagrams showing that, when the sprinkler is operated, the engagement rod is relatively moved along the slot formed in the engaging portion protruding on both sides of the check valve extension portion.

1 is a flow sensing apparatus for a fire extinguishing system according to the present invention. 1, reference numeral 100 denotes the present invention, reference numeral 130 denotes a check valve mounting member, and reference numeral 150 denotes a switching element or a switching mechanism.

FIG. 2 is a partial perspective view of the water flow sensing device for a fire extinguishing system cut along line A-A in FIG. 1 when the sprinkler is not in operation, and FIG. 3 is a side sectional view of FIG.

FIG. 4 is a partial perspective view of the water flow sensing device for a fire extinguishing facility cut along the line A-A in FIG. 1 when the sprinkler is operated, and FIG. 5 is a side sectional view of FIG. 4

2 to 5, the interior of the check valve case 101 is separated into a first chamber 103 and a second chamber 105 by the disc 121 of the check valve 120 in the present invention. When the sprinkler is not in operation, the disk of the check valve 120 closes the sleeve 109 in the check valve case 101 so that water can not enter the left inlet IN, thereby preventing water from being supplied. Therefore, since water does not enter the left inlet (IN), there is no water flowing out to the right outlet (OUT), and only the water pressure in the second chamber (105) and the piping acts on the head of the sprinkler.

When the sprinkler is operated, the water in the second chamber 105 escapes to the sprinkler, and the check valve 120 rotates to the right to contact the rotation restricting portion 102 formed inside the check valve case 101 , The sleeve 109 is opened. When the sleeve 109 is opened, the first chamber 103 and the second chamber 105 inside the check valve case 101 are communicated with each other and the water flowing into the first chamber 103 through the left inlet IN Passes through the sleeve 109 and passes through the second chamber 105 to the right outlet OUT and is supplied to the sprinkler.

The check valve case 101 is formed with an opening 107 for engaging the check valve mounting member 130.

Fig. 6 is a view showing the engagement state of the check valve installation member, the check valve, and the switching mechanism, and Fig. 7 is an exploded perspective view thereof.

8 and 9, the check valve 120 is comprised of a disk 121, an extension 123 extending from the disk 121, and a coupling part 125 formed on the extension 123. The check valve engagement portion 125 is formed with a coupling rod passage hole 127 through which the check valve coupling rod 136 passes, And is long enough to move along the coupling rod 136.

The check valve mounting member 130 has a pair of support bosses 133 protruding from the body portion 131. A coupling rod insertion hole 135 is formed in the upper portion of the support boss 133. [ The opening 107 of the check valve case 101 is closed by the check valve mounting member 130.

When the check valve mounting member 130 is engaged with the check valve case 101 while closing the opening portion 103 of the check valve case 100, the support boss 133 of the check valve mounting member 130 is inserted into the opening portion 103 And is located inside the check valve case 101. The center of the body portion 131 of the check valve mounting member 130 is pierced by the through groove 138 and can be further extended downwardly of the through groove 138 to seat the elastic member returning the switching rod An elastic member receiving groove 139 is formed.

The switching rod 141 is connected to the check valve 120 through one of the through holes of the check valve mounting member 130 and the other through the through hole of the check valve mounting member 130 To the check valve mounting member (130). The E-shaped washer prevents the coupling rod 136 from being disengaged when the check valve 120 is coupled to the check valve mounting member 130. The opening 109 of the check valve case 101 is closed by the check valve mounting member 130. [ When the opening 107 of the check valve case 101 is closed by the check valve mounting member 130, the check valve 120 coupled to the check valve mounting member 130 is positioned inside the check valve case 101 do. The check valve 120 coupled by the coupling rod 136 pivots inside the check valve case 101 with the coupling rod 136 as a pivot shaft to close or open the sleeve 109.

One end of the switching rod 141 is in contact with the extension portion 123 of the check valve 120 and the other end of the switching rod 141 is in contact with the elastic member 143 of the switch 153 And is located near the lead terminal 155. When the check valve 120 closes the flow path, the switching rod 141 is tilted while elastically deforming the elastic member 143 seated in the elastic member seating groove 139 so that the end near the lead terminal is connected to the lead terminal 155, So that the switch 153 is turned ON. The switching rod 141 which is tilted when the check valve disk 121 opens the sleeve 109 is set in the original state by the elastic restoring force of the elastic member 143 seated in the elastic member seating groove 139 The end of the switching rod 141 near the lead terminal 155 of the switch is disconnected from the lead terminal 155 of the switch to turn the switch 153 off. The switching rod passes through an elastic member that is seated in the elastic member seat groove 139, one end of which contacts the extension 123, and the other end of which is located near the lead terminal of the switch. When the check valve 120 closes the sleeve 109, the switching rod 141 is tilted while elastically deforming the elastic member 143 seated in the elastic member seat groove 139, The end of the switching rod 141 of the switch 153 is brought into contact with the lead terminal 155 of the switch and the switch 153 is turned ON. As the switch 153 is turned ON or OFF, the closed and open state of the sleeve can be known.

Numeral 151 is a printed circuit board to which the switch 153 is attached, and numeral 161 is a protective cover.

8 is a view showing a state of engagement of the switching rod and the elastic member.

The elastic member 143 fitted to the switching rod 141 is formed as a groove 143C having a semicircular cross section between the outer ring 143A and the inner ring 143B so that the elastic restoring force is increased. The elastic member 143 includes rubber and the portion where the elastic member 143 and the switching rod 141 are fixed when the switching rod 141 is fitted is always at the same center point position even when the elastic restoring force of the elastic member 143 is applied As shown in Fig.

9 and 10 are side sectional views showing an operating state, FIG. 9 shows a state in which the sprinkler does not operate, and FIG. 10 shows a state in which the sprinkler is operated and water is discharged to the sprinkler head.

When the sprinkler does not operate, the water does not escape to the sprinkler head, so the flow of water is stopped and the pressure difference between the first and second chambers in the check valve case is eliminated. As the pressure difference between the first and second chambers is eliminated, the check valve disc 121 closes the sleeve 109 of the first chamber so that the pressure of the water supply pump does not reach the sprinkler head directly do.

The lower end of the extended portion 123 of the check valve 120 contacts the upper end of the switching rod 141 with respect to the elastic member 143 seated in the elastic member receiving groove 139 of the check valve mounting member 130 I'm pushing to the right. When the upper end of the switching rod 141 is pushed to the right by the extended portion 123 of the check valve 120, the switching rod 141 is moved in the direction of the axis of the elastic member 143, Is turned to the left side to contact the lead terminal of the switch near the lower end of the switching rod 141 to turn the switch ON.

When the sprinkler is activated, the water in the second chamber in the check valve case escapes to the sprinkler head, the pressure in the second chamber lowers and the check valve opens as shown in FIG. At this time, the disc 121 of the check valve is laid on its side due to the flow of water, and the lower end portion of the extension portion 123 of the check valve 120 is pivotally moved upward. When the lower end portion of the extension portion 123 of the check valve 120 is moved upwardly by the resilient restoring force of the elastic member 143 seated in the elastic member seat groove 139 of the check valve seat member 130, The force that pushes the upper end portion of the upper end portion 141 to the right side is lost. When the upper end of the switching rod 141 is pushed to the right by the extended portion 123 of the check valve 120, the switching rod 141 is moved in the direction of the axis of the elastic member 143, The lower end of the switching rod 141 is turned to the left to be separated from the lead terminal of the switch near the lower end of the switching rod 141 to turn off the switching element.

11, 12 and 13 show that when the sprinkler is not operated, the check valve disk 121 pushes the upper end of the switching rod 141 to the right, the lower end of the switching rod 141 turns to the left, 11 is a view showing a state in which the check valve coupling rod 136 is inserted into the check valve engagement portion 125 formed in the engagement portion 125 protruded on both sides of the check valve extension portion 123, 12 shows a state in which the check valve coupling rod 136 is located at the center of the rod passing hole 127. The check valve coupling rod 136 is provided at the center of the check passage 13 shows a state in which the check valve coupling rod 136 is located in the right end portion of the rod passage hole 127 and in a state in which the check valve engagement rod 136 is inserted into the slot 125 formed in the engagement portion 125 protruded on both sides of the check valve extension portion 123 The left end of the valve connecting rod passing hole 127 Quot; part "

As shown in FIGS. 10 to 13, the check valve coupling rod 136 can relatively move along the slot formed in the coupling portion 125 protruding from both sides of the check valve extension 123. The check valve coupling rod 136 is relatively movable along the elongated hole formed in the engaging portion 125 protruding from both sides of the check valve extension portion 123 because the check valve disc 121 is inserted into the sleeve And the check valve engagement rod passage hole 127 formed in the engagement portion 125 projected on both sides of the check valve extension portion 123 in which the check valve engagement rod 136 is fitted, So as to facilitate the check valve 120 and the check valve mounting member 130 when they are combined. Also in this case, the lower end portion of the extended portion 123 of the check valve 120 must be able to turn on the switching element by the lower end of the switching rod 141 contacting the switch lead terminal.

14 and 15, the check valve disc 121 indicated by a dotted line is formed by a check valve coupling rod 136 formed in a coupling portion 125 protruded on both sides of the check valve extension portion 123 The check valve disk in the state of being located at the center of the rod passing hole 127 and the check valve disk indicated by the solid line are in a state of being moved.

Figs. 14 and 15 are diagrams showing that when the sprinkler is operated, the coupling rod 136 moves relative to the elongated hole formed in the coupling portion 125 protruding to both sides of the check valve extension 123. Fig. 14 shows a state in which the check valve coupling rod 136 is located at the center of the check valve coupling hole 127 formed in the engagement portion 125 protruding from both sides of the check valve extension 123, 15 shows a state in which the check valve coupling rod 136 is located at the left end portion of the check valve engagement rod passage hole 127 formed in the engagement portion 125 protruded on both sides of the check valve extension portion 123 . In this case as well, the returned switching rod 141 must be able to turn off the switching element away from the lead terminal of the switch.

The coupling rod protruding from the extension of the check valve is drilled with a long hole so that the insertion of the coupling rod is easy and the coupling rod moves along the slot to change the pivot axis of the check valve disc, So that the switching element can be accurately turned on and off. In addition, even if the check valve is not uniform, the coupling rod moves along the slot and the pivot axis of the check valve disc changes, so that the switching rod contacts the lead terminal of the switch precisely at the end of the extension of the check valve, ON, and OFF.

101 Check valve case
120 check valve
123 extension part
125 coupling portion
127 Coupling rod through hole
130 check valve mounting member
135 Connecting rod insertion hole
136 Check valve coupling rod
138 through groove
139 Elastic member seating groove
141 switching load
143 Elastic member
150 switching element
153 switch

Claims (4)

A check valve case having an opening;
A check valve located in the check valve case, separating the check valve case into a first and second chambers, a disk connecting the first and second chambers to each other, an extension extending from the disk, A check valve formed of a coupling portion protruding from the disc portion and having a long hole so that the pivot axis of the disc can be changed;
A check valve mounting member composed of a body portion having an opening of the check valve case closed and formed with an elastic member receiving groove and a pair of bosses extending from the body portion and having a coupling rod insertion hole at an end thereof;
The check valve is inserted into a coupling rod insertion hole formed in one boss of the check valve installation member and into a coupling rod insertion hole formed in the other boss of the check valve installation member through a slot formed in a coupling portion of the check valve, A coupling rod coupling the coupling rod;
An elastic member fitted to the elastic member seating groove with a switching rod interposed therebetween and formed with a groove having a semicircular cross section around the periphery of the switching rod;
And a switching element which is turned on and off by the switching load,
Wherein one end of the switching rod contacts the extension of the check valve and the other end of the switching rod is exposed to the outside through the check valve fitting member so as to contact the switching element ON and OFF, Wherein the resilient member mounted on the resilient member seating groove is resiliently deformed when the check valve case is separated into the first and second chambers, Wherein when the first and second chambers are connected to each other, the switching rod and the elastic member are elastically restored to each other so that the switching rod and the elastic member maintain a right angle . delete The method according to claim 1,
Wherein the check valve pivots the coupling rod as a pivot shaft to separate the check valve case into a first chamber and a second chamber or connects the first chamber and the second chamber with each other, Device.
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