KR20220164219A - Fire Hydrant with Improved Spill Performance - Google Patents

Abstract

The present invention relates to a fire hydrant with improved discharge performance. According to the present invention, the ground fire hydrant comprises: a pipe (110) having an inlet (110a) introducing fire water and an outlet (110b) discharging fire water; an adjustment nut (120) rotatably installed on the upper side of the pipe (110) to be rotated in place; a valve shaft (130) provided on the pipe (110) to be screwed to the adjustment nut (120) to ascend in a vertical direction in accordance with a rotary motion of the adjustment nut (120) rotating in place; and a valve disk provided on the lower end of the valve shaft (130) to open and close the pipe (110). The fire hydrant further comprises a current guider (150) of a plate shape provided in the pipe (110) to allow fire water passing through the pipe (110) to form a helical flow path to discharge fire water entering from the inlet (110a) and passing through the inside of the pipe (110) to the outlet (110b) at a uniform flow velocity. Accordingly, the discharge performance of fire water is improved.

Description

Fire hydrant with improved discharge performance {Fire Hydrant with Improved Spill Performance}

The present invention relates to a ground-type fire hydrant, and more particularly, to a fire hydrant having improved discharge performance so as to be suitable for improving the discharge (outflow) performance of fire-fighting water.

In general, a ground-type fire hydrant is a disaster prevention facility that supplies firefighting water required for fire suppression on the roadside or around a large building. It is a disaster prevention facility that requires high reliability that must be operated in the event of a fire, although the frequency of use is low.

In the case of such a ground-type fire hydrant, fire-fighting water flows in through the lower inlet and is discharged through the upper discharge port. In this way, when firefighting water rises upward through the inside of the pipe body of the ground-type fire extinguishing cup, different flow velocities can be generated for each position (point) in the cross section.

When the flow of firefighting water is formed at different flow rates, a vortex is generated at the discharge port, and discharge resistance is generated by the vortex at the discharge port, and discharge performance is deteriorated due to the discharge resistance.

Document 1: Patent Registration No. 10-1167608 (Announcement Date: 2012.07.27) Document 2: Patent Publication No. 10-2013-0016486 (Public date: 2013.02.18)

The present invention was created to solve the problems of the prior art as described above, and the purpose of the fire hydrant with improved discharge performance according to the present invention is,

First, the flow of fire-fighting water going up along the pipe body of the ground-type fire hydrant is mixed so that the entire fire-fighting water flow path becomes one spiral flow path, so that the entire fire-fighting water flowing out to the discharge port forms a uniform flow rate,

Second, by making sure that the firefighting water flowing through the inside of the pipe body has a uniform flow rate as a whole, when the firefighting water passes through the upper body of the pipe body to the discharge port, the vortex phenomenon caused by the different outflow velocity according to the location of the cross section can be prevented. , so that the discharge (outflow) performance of firefighting water at the discharge port can be improved,

Third, providing a fire hydrant with improved discharge performance suitable for forming a spiral flow (flow path) of fire-fighting water in a simple shape and thus allowing a uniform flow of fire-fighting water to be formed smoothly as a whole is to do

A fire hydrant with improved discharge performance according to the present invention for achieving the above object is composed of a pipe body having an inlet through which fire-fighting water flows in, a discharge port through which fire-fighting water is discharged, and a valve disc for opening and closing the pipe body. In the common sense fire hydrant, in order for the firefighting water flowing in from the inlet and passing through the inside of the tube body to move at a uniform flow rate and be discharged without receiving resistance from the discharge port, a spiral flow path is provided for the firefighting water passing through the tube body. It is characterized in that it is configured to further include a plate-shaped water flow guider provided inside the tubular body to form.

In the fire hydrant with improved discharge performance according to the present invention, the water flow guider is disposed along the circumferential direction inside the tubular body, and is inclined at an inclination angle in the circumferential direction based on the vertical direction of the tubular body. .

In the fire hydrant with improved discharge performance according to the present invention, the water flow guider is disposed along the circumferential direction inside the tubular body, provided in the tubular body so as to be parallel to the vertical direction, which is the direction of the tubular body, and the lower side of the water flow guider is upward It is characterized in that the inclined guide surface is formed inclined to.

The fire hydrant having improved discharge performance according to the present invention having the above configuration has the following effects.

First, there is an effect that a uniform flow rate can be formed for the entire fire-fighting water flowing out to the discharge port by mixing the flow path of the fire-fighting water going up along the pipe body of the ground-type fire hydrant to form a single spiral flow path as a whole.

Second, by ensuring that the firefighting water flowing through the inside of the pipe body has a uniform flow rate as a whole, when the firefighting water passes through the upper body of the pipe body to the discharge port, the effect of preventing the vortex phenomenon caused by the different outflow velocity depending on the location of the cross section there is In addition, there is an effect that the outflow (discharge) performance of firefighting water from the discharge port can be improved.

Third, there is an effect that a spiral flow (flow path) of firefighting water can be well formed in a simple shape.

1 is a configuration diagram of a fire hydrant 100 having improved discharge performance according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram illustrating the configuration of main parts for explaining an embodiment in which a water flow guider 150 is provided inside the tubular body 110 in a fire hydrant 100 having improved discharge performance according to an embodiment of the present invention.
Figure 3 is a perspective view of an embodiment in which the water flow guider 150 is provided on the inner support ring 161 in the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, Figure 3 (a) is It is a top perspective view, and FIG. 3 (b) is a bottom perspective view.
4 is a perspective view of an embodiment in which the water flow guider 150 is provided on the outer support ring 162 in the fire hydrant 100 having improved discharge performance according to an embodiment of the present invention.
5 is a perspective view of an embodiment in which the water flow guider 150 is simultaneously provided on the outer support ring 162 and the inner support ring 161 in the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention .

Next, a preferred embodiment of a fire hydrant with improved discharge performance according to the present invention will be described in detail with reference to the accompanying drawings.

The fire hydrant 100 with improved discharge performance according to an embodiment of the present invention includes a pipe body 110 having an inlet 110a through which firefighting water flows in and an outlet 110b through which firefighting water is discharged, and the pipe body ( 110), in the ground-type fire hydrant including the valve disk 140 that opens and closes, the fire-fighting water flowing in from the inlet 110a and passing through the inside of the pipe body 110 moves at a uniform flow rate to the discharge port 110b In order to be discharged without receiving resistance, a plate-shaped water flow guider 150 provided inside the tube body 110 to form a spiral flow path for the firefighting water passing through the tube body 110 is further It is characterized in that it is included and configured.

According to the above configuration, the firefighting water going up along the inside of the pipe body 110 forms a spiral flow path [ie, rotates] and by this rotation, the oil of the firefighting water is mixed so that it becomes one spiral flow path as a whole, so that the overall uniformity make it fluid.

When the firefighting water flowing inside the tube body 110 forms a uniform flow rate as a whole, when the firefighting water flows through the upper body 113 of the tube body 110 to the discharge port 110b, each flow rate varies according to the position of the cross section. Since the vortex phenomenon does not occur, discharge resistance does not occur, and thus the discharge (discharge) performance of fire fighting water from the discharge port 110b is improved.

That is, the water flow of firefighting water before coming up from the bottom and passing through the water flow guider 150 has an uneven flow rate and flow, and the firefighting water having such an irregular flow rate and flow is uniform while passing through the water flow guider 150 It is formed at one speed and uniform flow.

As shown in FIGS. 1 to 5, in the fire hydrant 100 having improved discharge performance according to an embodiment of the present invention, the water flow guider 150 has a circumferential direction inside the tubular body 110 Therefore, it is disposed, characterized in that it is provided inclined at an inclination angle (θ) in the circumferential direction based on the vertical direction (z-axis), which is the direction of the tube body 110.

According to this, the flow of firefighting water (flow path) forms a spiral flow while going upward. That is, the fire-fighting water rises upward and rotates.

And, as shown in FIGS. 1 to 5, in the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the water flow guider 150 is disposed along the circumferential direction, the lower side It is characterized in that an inclined guide surface 151 inclined upward is formed.

According to this, the firefighting water going up allows the flow of the spiral shape to be better formed.

The water flow guider 150 is formed in a rectangular plate shape.

In the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the water flow guider 150 is disposed along the circumferential direction inside the tubular body 110, the direction of the tubular body 110 Parallel to, that is, upright in the horizontal direction parallel to the direction of the flow of firefighting water, provided in the pipe body 110, and the lower side of the water flow guider 150, the inclined guide surface 151 inclined upward is formed. to be characterized

According to this, even if the water flow guider 150 is not tilted at an inclination angle (θ) in the circumferential direction with respect to the vertical direction (z axis), even if it is provided upright, the inclined guide surface 151 is formed. will do

In the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the water flow guider 150 is characterized in that it is composed of at least one.

In the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the water flow guider 150 is characterized in that a plurality is provided at equal intervals.

In the illustrated example, a configuration in which four water flow guiders 150 are provided at intervals of 90 degrees is disclosed.

Next, in the fire hydrant 100 having improved discharge performance according to an embodiment of the present invention, a specific configuration for mounting the water flow guider 150 will be described as an example.

As shown in FIG. 3, in the fire hydrant 100 having improved discharge performance according to an embodiment of the present invention, a ring-shaped inner support ring 161 installed on the valve shaft 130 is further included, It is configured, and the water flow guider 150 is fastened to the inner support ring 161 and is characterized in that it is provided inside the tube body 110.

The inner support ring 161 and the plurality of water flow guiders 150 may be integrally formed and configured as one component.

As shown in FIG. 4, in the fire hydrant 100 having improved discharge performance according to an embodiment of the present invention, a ring-shaped outer support ring 162 mounted on the inner circumferential surface of the pipe body 110 is further included. It is configured, and the water flow guider 150 is fastened to the outer support ring 162 and is characterized in that it is provided inside the tube body 110.

The outer support ring 162 and the plurality of water flow guiders 150 may be integrally formed and configured as one component.

And, as shown in FIGS. 1 and 5, in the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, a ring-shaped outer support ring mounted on the inner circumferential surface of the pipe body 110 ( 162) and a ring-shaped inner support ring 161 installed on the valve shaft 130 are further included, and the water flow guider 150 has one side fastened to the outer support ring 162 and the other side It is fastened to the inner support ring 161 and characterized in that it is provided inside the tube body 110.

The inner support ring 161, the outer support ring 162, and the plurality of water flow guiders 150 may be integrally formed and configured as one part.

In the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the pipe body 110 includes a lower body 111 in which the inlet 110a is formed and the valve disc 140 is located, A middle body 112 that communicates with the lower body 111 and is fastened to the upper end of the lower body, communicates with the middle body 112 and is fastened to the top of the middle body 112, and has the outlet 110b formed therein, and an adjustment nut 120 ) Is composed of an upper body 113 equipped with, and at the upper end of the middle body 112, an upper middle body concave frame 112a concave outward in the radial direction is formed, and corresponds to the upper intermediate body concave frame 112a. An upper body concave frame 113a concave outward in the radial direction is formed at the lower end of the upper body 113 as much as possible, and the upper body concave frame 112a and the upper body concave frame 113a are molded to form an upper insertion groove ( 112a and 113a), and the outer support ring 162 is seated and inserted into the upper insertion grooves 112a and 113a formed between the middle body 112 and the upper body 113, and is provided with a concave frame at the top of the middle body. In a state where the outer support ring 162 is seated on (112a), the upper body 113 presses the outer support ring 162 downward so that the outer support ring 162 is between the upper body 113 and the middle body 112. It is characterized in that it is fixed in .

According to this, the outer support ring 162 can be seated and fixed by a simple configuration, and the replacement of the outer support ring 162 can be facilitated by separating only the upper body 113, so that maintenance and management of the product is convenient. There are benefits you can do.

On the other hand, according to another embodiment, the tube body 110 communicates with the lower body 111 in which the inlet 110a is formed and the valve disk 140 is located, the lower body 111, and is fastened to the upper end of the lower body. It is composed of a middle body 112 and an upper body 113 communicating with the middle body 112, fastened to the upper end of the middle body 112, having the outlet 110b formed therein, and having an adjusting nut 120, At the upper end of the lower body 111, a lower body concave frame 111b concave outward in the radial direction is formed, and the lower body concave frame 111b is concave outward in the radial direction at the lower end of the middle body 112 to correspond to the lower body concave frame 111b. The middle body lower concave frame 112b is formed, and the middle body lower concave frame 112b and the lower body concave frame 111b are molded to form lower insertion grooves 111b and 112b, and the outer support ring 162 ) Is seated and inserted into the lower insertion grooves 111b and 112b formed between the lower body 111 and the middle body 112, in a state where the outer support ring 162 is seated on the lower body concave frame 111b , The middle body 112 is characterized in that the outer support ring 162 is fixed between the lower body 111 and the middle body 112 by pressing the outer support ring 162 downward.

According to this, the outer support ring 162 can be seated and fixed by a simple configuration, and the replacement of the outer support ring 162 can be facilitated by separating only the middle body 112, so that maintenance and management of the product is convenient. There are benefits you can do.

In addition, the water flow guider 150 is preferably provided in the structure after the lower body 111, that is, the middle body 112 or the upper body 113.

On the other hand, in the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention, the configuration for mounting the water flow guider 150 may be implemented in various ways other than the above-described method.

For example, the water flow guider 150 may be directly fixed to the inner circumferential surface of the tube body 110 by welding.

According to another embodiment, the water flow guider 150 may be directly fixed to the outer circumferential surface of the valve shaft 130 by welding.

According to another embodiment, the water flow guider 150 may be fastened to the valve shaft 130 or the tube body 110 using a separate bolt (not shown) and provided inside the tube body 110.

According to another embodiment, the water flow guider 150 is characterized in that it is formed by one-time casting molding integrally with the pipe body 110 so as to be integrally provided on the inner circumferential surface of the pipe body 110.

Therefore, the method of providing the water flow guider 150 inside the tubular body 110 is not limited to the method described above, and any configuration having the water flow guider 150 inside the tubular body 110 is within the technical scope of the present invention. belongs to

On the other hand, the fire hydrant 100 with improved discharge performance according to an embodiment of the present invention is rotatably installed on the upper side of the pipe body 110 and turned in place by a separate mechanism (eg, a handle (not shown)). A valve shaft provided in the tube body 110 so as to move up and down in the vertical direction (up and down direction) according to the rotational motion of the adjusting nut 120 and the adjusting nut 120, which is screwed into the adjusting nut 120 and rotates in place 130 may be further included, and the valve disk 140 is provided at the lower end of the valve shaft 130 to open and close the pipe body 110.

Thus, preferred embodiments according to the present invention have been reviewed, and it is common knowledge in the art that the present invention can be implemented in other specific forms other than the above-described embodiments without changing its technical spirit or essential characteristics. It is self-evident to those who have Therefore, the foregoing embodiments should be understood as illustrative rather than restrictive.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof should be construed as being included in the scope of the present invention.

100: Fire hydrant with improved discharge performance according to an embodiment of the present invention
110: pipe body
110a: inlet 110b: outlet
111: lower body 111b: lower body yipte
112: Heavy
112a: Middle upper concave 112b: Middle lower concave
113: upper body 113a: upper body yipte
120: adjusting nut 130: valve shaft
140: valve disc
150: water flow guider 151: inclined guide surface
θ: angle of inclination
161: inner support ring 162: outer support ring

Claims (4)

In the fire hydrant comprising a tube body 110 having an inlet 110a through which firefighting water flows in and an outlet 110b through which firefighting water is discharged, and a valve disk 140 opening and closing the tube body 110,
In order for the firefighting water flowing in from the inlet port 110a and passing through the inside of the pipe body 110 to move at a uniform flow rate and be discharged without receiving resistance from the outlet port 110b, the firefighting water passing through the pipe body 110 A fire hydrant with improved discharge performance, characterized in that the plate-shaped water flow guider 150 provided inside the tube body 110 is further included to form a spiral flow path.
The method of claim 1,
The water flow guider 150,
Fire hydrant with improved discharge performance, characterized in that it is disposed along the circumferential direction inside the tube body 110 and is inclined at an inclination angle (θ) in the circumferential direction based on the vertical direction, which is the direction of the tube body 110 .
The method of claim 1,
The water flow guider 150,
It is disposed along the circumferential direction inside the tube body 110, and is provided in the tube body 110 so as to be parallel to the vertical direction, which is the direction of the tube body 110,
A fire hydrant with improved discharge performance, characterized in that an inclined guide surface 151 inclined upward is formed on the lower side of the water flow guider 150.
According to claim 2 or claim 3,
A ring-shaped outer support ring 162 mounted on the inner circumferential surface of the tube body 110 is further included,
Fire hydrant with improved discharge performance, characterized in that the water flow guider 150 is fastened to the outer support ring 162 and provided inside the tube body 110.

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