KR102492002B1 - A Temperature sensitive quick closing gate valve assembly - Google Patents

Abstract

The temperature sensitive quick closing gate valve assembly of the present invention includes a valve body provided to allow fluid to flow, a disk disposed in the valve body and selectively opening and closing a flow path of the fluid, the gate valve assembly comprising: A stem connected to the disk, receiving an external force, and provided to change the position of the disk, and is provided to be expandable or contractible, and one end is fastened to the stem to drive the stem to change the position of the disk. And a cylinder unit provided to guide, wherein the cylinder unit is provided inside the cylinder unit, is provided to expand or contract according to the external temperature, and includes an elastic member provided to induce shape deformation of the cylinder unit characterized by

Description

A temperature sensitive quick closing gate valve assembly}

The present invention relates to a gate valve assembly, and more particularly, when an emergency such as a fire occurs in an area where the gate valve is installed, in order to prevent leakage of flammable and toxic fluids, a forced valve is installed according to the ambient temperature of the installation area. It relates to a temperature sensitive quick closing gate valve assembly provided to be shut off with.

In general, the quick closing valve used in fuel pipelines is configured to quickly close the valve using an air cylinder operated by compressed air, so that the pipeline through which oil or fuel flows can be quickly closed in case of an emergency. It promotes the safety of the ship by preventing the spread of fire and additional ignition due to leakage of oil or fuel.

In the case of the above-described emergency shut-off valve, it is operated by using air or by using a metal rope. However, if the tubing pipe transporting air is damaged or the fire has progressed to the place where the emergency shut-off valve is operated, it can be dangerous because the isolation of the oil tank is impossible.

At this time, since a person has manually cut off the fuel, it is difficult to cut off the fuel manually for the reasons described above.

In order to solve this problem, a safety valve device has been proposed that blocks the fluid valve in an emergency by adding a sensor device such as an external temperature sensor to the installation part of the valve. There is a problem that the shutoff function of the valve cannot be performed smoothly

In addition, the valve device has a complicated configuration, so manufacturing costs are high and installation is difficult, and installation costs are high.

Republic of Korea Patent Publication KR 10-2011-0076081 A (blocking valve)

Accordingly, an object of the present invention is a temperature sensitive quick closing gate valve assembly that solves the problems of the prior art.

Specifically, an object of the present invention is a temperature sensitive type capable of quickly blocking the outflow of fluid in order to prevent the expansion of damage due to fluid in a fire area in an emergency situation where the ambient temperature rapidly increases, such as a fire. It is an object to provide a quick closing gate valve assembly.

The temperature sensitive quick closing gate valve assembly of the present invention includes a valve body provided to allow fluid to flow, a disk disposed in the valve body and selectively opening and closing a flow path of the fluid, the gate valve assembly comprising: A stem connected to the disk, receiving an external force, and provided to change the position of the disk, and is provided to be expandable or contractible, and one end is fastened to the stem to drive the stem to change the position of the disk. And a cylinder unit provided to guide, wherein the cylinder unit is provided inside the cylinder unit, is provided to expand or contract according to the external temperature, and includes an elastic member provided to induce shape deformation of the cylinder unit characterized by

More specifically, the cylinder unit includes a first cylinder barrel provided so that hydraulic pressure is supplied and discharged through a downward direction and has an open top shape, and a state inserted into the first cylinder body. A second cylinder barrel provided to be able to go up and down by the hydraulic pressure, a piston unit provided to be able to go up and down while being inserted inside the second cylinder barrel, and coupled to the stem, and the second cylinder barrel and the It is provided between the pistons and includes an elastic member provided to limit the positional movement of the pistons.

More specifically, the piston unit is disposed inside the second cylinder barrel, a piston block having a lower end supported by the elastic member, and a stem coupled to the piston block and shifting the position of the disk; And a piston rod provided to be connected, and the cylinder unit is provided inside the second cylinder barrel to limit the movable range of the piston rod, and physical properties are changed by external temperature, and when the physical properties change, the Characterized in that it further comprises a lifting restraint member for inducing shape deformation of the cylinder unit.

More specifically, the second cylinder barrel, while retaining an open top shape, further comprises a separation barrier formed at an upper end to a predetermined thickness in order to prevent the separation of the upward restraining member, The member is disposed between the piston block and the release barrier, and is provided to be seated on the upper surface of the piston block in a state in which the piston rod is inserted.

More specifically, the elastic member has one end coupled to support the bottom surface of the piston block and the other end coupled to the inner bottom surface of the second cylinder barrel so as to maintain the bottom surface of the piston block and the inside of the second cylinder barrel. It is characterized in that it is provided to space the bottom surfaces apart from each other.

More specifically, in the quick closing gate valve assembly, the piston block separation distance representing the distance between the bottom surface of the piston block and the inner bottom surface of the second cylinder barrel is variable according to the physical properties of the rising restraining member characterized by

More specifically, in the quick closing gate valve assembly, the piston block separation distance before the phase change of the rise restraining member is smaller than the piston block separation distance after the phase change of the rise restraint member.

More specifically, the piston block is characterized in that it further comprises at least one cutout formed so that the rising restraining member in a state in which the physical properties are changed is moved toward the lower side of the piston block.

More specifically, the cutout is characterized in that at least one or more radially arranged around the point where the piston rod and the piston block are coupled to each other.

More specifically, the incision is centered at a point where the piston rod and the piston block are coupled to each other, and is provided to have a shape in which the incised area increases as it proceeds from the center to the outer periphery. to be

More specifically, the piston block may further include a wedge-shaped wedge portion protruding upward from an upper surface on which the rising restraining member is seated.

More specifically, the rise suppression member is any one selected from plastic, water plastic, polymorph, and thermoplastic polymorph, in which physical properties change over a temperature range of 30 ° C to 70 ° C. It is characterized in that it is made of a low-temperature thermoplastic resin containing the above.

The temperature sensitive quick closing gate valve assembly according to the present invention induces a change in shape of the cylinder unit through an elastic member provided to change shape according to external temperature, and based on the change in shape of the cylinder unit, the disk By changing the direction of the flow path, it is possible to provide an effect of opening and closing the flow path of the fluid by detecting a change in ambient temperature without the user directly opening and closing the valve.

In addition, by having a pair of cylinder barrels inserted and coupled, operating the cylinder unit through hydraulic pressure, opening and closing the valve assembly through hydraulic pressure, by providing the elastic member, emergency situations such as fire occur In this case, even when the supply of the hydraulic pressure is not smooth, it is possible to provide an effect of proceeding to close the valve assembly through the elastic force of the elastic member.

And, through the rise restraining member provided to change physical properties based on the external temperature, while preventing forced blocking in normal times, when the ambient temperature, such as a fire, rises rapidly, through the change in physical properties of the rise restraining member, the cylinder By inducing shape deformation of the unit, it is possible to provide an effect of rapidly shutting off the valve assembly when an emergency occurs.

In addition, through the formation of the breakaway bump, it is possible to more firmly fix the position of the lifting restraint member, thereby preventing the gate valve from forcibly blocking, and providing an effect of stably opening and closing in normal times.

In addition, an elastic restoring force can be applied upward to the piston block while separating the piston block from the bottom surface of the second cylinder barrel through an elastic member, so that a separate control means is not required and elasticity It is possible to forcibly block the gate valve only with the member, thereby providing an effect of reducing manufacturing cost.

In addition, by allowing the piston block separation distance to be varied according to the physical properties of the rise restraining member, it is possible to forcibly block the gate valve only with the elastic member without requiring a separate control means, thereby reducing manufacturing costs. possible effects can be provided.

In addition, by allowing the piston block separation distance to be varied according to the physical properties of the rise restraining member, it is possible to forcibly block the gate valve only with the elastic member without requiring a separate control means, thereby reducing manufacturing costs. possible effects can be provided.

In addition, the piston block can be moved up and down more quickly by allowing the rise-restraining member with changed physical properties to flow out through the formation of the incision, thereby providing an effect of improving the emergency closing speed of the gate valve. can

In addition, by proceeding with the radial arrangement of the incision, preventing the rotation of the rise restraining member in the second cylinder barrel and stably fixing the position, the effect of further improving the operation reliability of the gate valve is provided. can do.

In addition, through a cutout having a specific shape, when the phase of the rise restraining member changes, it is possible to pass through the cutout more quickly, thereby providing an effect of further improving the emergency closing speed of the gate valve.

And, through the formation of the wedge portion, it is possible to provide an effect that can further improve the emergency closing speed by improving the shape deformation speed of the lifting restraining member.

In addition, by using a low-temperature thermoplastic resin as a material for the rise restraint member, which undergoes a phase change by external temperature, it is possible to induce deformation with respect to external heat more quickly, so that the gate valve can be quickly and urgently closed. can provide.

1 is a side view showing a side of a temperature sensitive quick closing gate valve according to an embodiment of the present invention in an open state.
2 is a side view showing a side of a temperature sensitive quick closing gate valve according to an embodiment of the present invention in a closed state.
3 is a cross-sectional view showing a cross section of a cylinder unit of a temperature sensitive quick closing gate valve in an open state according to an embodiment of the present invention.
4 is a cross-sectional view of a cylinder unit of a temperature sensitive quick closing gate valve in a closed state according to an embodiment of the present invention.
5 is a cross-sectional view of a cylinder unit of a temperature sensitive quick closing gate valve in an emergency closed state according to an embodiment of the present invention.
Figure 6 is a perspective view showing a rise restraint member constituting the cylinder unit according to an embodiment of the present invention.
7 is a plan view showing a plane of a piston block in which a cutout of a piston unit according to a further embodiment of the present invention is formed.
8 is a plan view showing a plane in a state in which a lifting restraint member is seated in a piston block in which a cutout of a piston unit according to a further embodiment of the present invention is formed.
9 is a plan view showing a plane of a piston block in which a wedge portion is formed according to another additional embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and can be implemented in various different forms, only these embodiments are intended to complete the disclosure of the present invention, and are common in the art to which the present invention belongs. It is provided to fully inform the knowledgeable person of the scope of the invention, and the invention is only defined by the scope of the claims.

Also, terms used in this specification are for describing the embodiments and are not intended to limit the present invention.

In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of other components than the recited components.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

Hereinafter, an apparatus for manufacturing a thermal spreader according to the present invention will be described with reference to the accompanying drawings.

1 is a side view showing a side of a temperature sensitive quick closing gate valve in an open state according to an embodiment of the present invention, and FIG. 2 is a side view of a temperature sensitive quick closing gate valve according to an embodiment of the present invention being closed. It is a side view showing the side of the condition.

1 and 2, the temperature sensitive quick closing gate valve 1000 of the present invention includes a valve body 100, a disk 200, a stem 300 and a cylinder unit 400 to be characterized

First, the valve body 100 is provided to allow fluid to flow, and is provided to mount the aforementioned disk 200, stem 300, and cylinder unit 400, and a passage through which the flow of the fluid proceeds. is prepared to form.

And, while the disk 200 is disposed in the valve body 100, the seating position within the valve body 100 is varied to selectively open and close the flow path of the fluid.

Next, the stem 300 is connected to the disk 200 and is provided to receive an external force and change the position of the disk 200 .

Here, the stem 300 has one end connected to the disk 200 and the other end connected to the cylinder unit, and is driven up and down, inducing a change in position of the disk 200, and the valve body. It is provided to selectively open and close the flow path of the fluid formed in (100).

In particular, the stem 300 is rotatably fastened to the valve body 100 so that the stem 300 can be moved up and down by receiving an external force, and at the same time the stem 300 and the cylinder unit 400 ) It may include a lever member 310 interconnecting.

In addition, while the cylinder unit 400 is provided to be expanded by receiving hydraulic pressure or contractible by discharging hydraulic pressure, one end of the lever member of the stem 300 is fastened to the outside of the valve body 100. It is fastened to 310 to drive the stem 300 and to induce a change in position of the disk 200 .

And, looking at the open/closed state in more detail, as shown in FIG. 1, when the hydraulic pressure in the cylinder unit 400 is discharged to the outside and maintains a reduced state, the cylinder through the lever member 310 The stem 300 connected to the unit 400 maintains an elevated state.

And, the disk 200 connected to the stem 300 opens a flow path of the fluid formed in the valve body 100 .

Next, as shown in FIG. 2, when hydraulic pressure is supplied into the cylinder unit 400 to maintain an extended state, the stem connected to the cylinder unit 400 through the lever member 310 It stays in a lowered state.

And, the disk 200 connected to the stem 300 closes the flow path of the fluid formed in the valve body 100 .

In addition, although not particularly shown in the drawing, the lever member 310 of the stem 300 is attached to the lever member 310 of the stem 300 so that the stem 300 can move up and down without expanding and contracting the cylinder unit 400 described above. By fastening a wire member, an external force is transmitted through the wire member, and the lever member 310 is operated to induce a change in the position of the disk through the stem 300 to selectively open and close the flow path. there is.

Next, with reference to FIGS. 3 to 5 , the cylinder unit of the temperature sensitive quick closing gate valve in an open state according to an embodiment of the present invention will be described in more detail.

3 is a cross-sectional view showing a cross section of a cylinder unit of a temperature sensitive quick closing gate valve in an open state according to an embodiment of the present invention. 4 is a cross-sectional view of a cylinder unit of a temperature sensitive quick closing gate valve in a closed state according to an embodiment of the present invention. 5 is a cross-sectional view showing a cylinder unit of the temperature sensitive quick closing gate valve in an emergency closed state according to an embodiment of the present invention.

As shown in FIG. 3, the cylinder unit 400 constituting the temperature sensitive quick closing gate valve of the present invention includes an elastic member 410, a first cylinder barrel 420, a second cylinder barrel 430, a piston It is characterized in that it comprises a portion 440 and the rising restraining member 450.

First, the elastic member 410 is provided inside the cylinder unit 400, is provided to expand or contract by changing its shape according to the external temperature, and is provided to induce shape deformation of the cylinder unit.

And, the elastic member 410 is provided between the second cylinder barrel 430 and the piston part 440, provided to support the bottom surface of the piston part 440, and the piston part 440 Characterized in that it is provided to limit the positional movement.

Next, the first cylinder barrel 420 is provided so that hydraulic pressure is supplied and discharged through the lower side, and is provided to have an open top shape, and when hydraulic pressure is supplied to the first cylinder barrel 420, When the cylinder unit 400 expands and the hydraulic pressure is discharged, the cylinder unit 400 is provided to contract.

And, the second cylinder barrel 430 is characterized in that it is provided to be able to move up and down by the supply and discharge of the hydraulic pressure in a state inserted inside the first cylinder body.

In addition, the piston unit 440 is provided to be able to move up and down while being inserted into the second cylinder barrel 430, and is mutually connected through the end of the stem (not shown) and a lever member (not shown). provided for fastening.

Here, the piston part 440 may include a piston block 441 and a piston rod 442 .

The piston block 441 is disposed inside the second cylinder barrel 430 and has a lower end supported by the elastic member 410 .

And, while the piston rod 442 is coupled to the piston block 441, it is provided to be connected to the stem for performing the position change of the above-described disk.

At this time, one end of the elastic member 510 is coupled to support the bottom surface of the piston block 441, and the other end is coupled to the inner bottom surface of the second cylinder barrel 430 to support the bottom surface of the piston block 441. and the inner bottom surface of the second cylinder barrel 430 may be provided to be spaced apart from each other.

And, while the rise restraining member 450 is provided inside the second cylinder barrel 430 to limit the movable range of the piston rod 442, the physical properties are changed by the external temperature, and when the physical properties change, It is provided to induce shape deformation of the cylinder unit 400, that is, expansion or contraction.

At this time, the second cylinder barrel 430 has a shape in which the upper side is open, and in order to prevent the upward separation of the upward restraining member 450, the separation prevention bump 431 formed to a predetermined thickness at the upper end is further provided. can include

In addition, through the formation of the breakaway bump, it is possible to more firmly fix the position of the lifting restraint member, thereby preventing the gate valve from forcibly blocking, and providing an effect of stably opening and closing in normal times.

In particular, the rise restraining member 450 may be made of a low-temperature thermoplastic resin including a plastic material, but is not limited thereto.

At this time, according to the physical properties of the rise restraining member 450, the piston block separation distance representing the distance between the bottom surface of the piston block 441 and the inner bottom surface of the second cylinder barrel 430 is provided to be variable. can

More specifically, the piston block separation distance before the phase change of the rise restraining member 450 is smaller than the piston block separation distance after the phase change of the rise restraint member 450.

Next, with reference to FIG. 6, the rise restraining member constituting the quick closing gate valve of the present invention will be described in more detail.

Figure 6 is a perspective view showing a rise restraint member constituting the cylinder unit according to an embodiment of the present invention.

As shown in FIG. 6, the rise restraining member 450 is provided to have a cylindrical shape through which the center is passed, and the above-described piston rod is provided to pass through a through hole formed in the center.

In particular, the rise restraining member 450 may be made of a thermoplastic resin containing at least one polymer selected from polycaprolactone, polyester, polyethylene, polyethylene terephthalate, polyvinyl chloride, polyvinylidene chloride, polystyrene, and polypropylene. may, but is not limited thereto.

More specifically, the rise restraining member 450 may be made of a low-temperature thermoplastic resin including at least one selected from among plastic, water plastic, polymorph, and thermoplastic polymorph. .

Here, the low-temperature thermoplastic is a non-toxic and reusable lightweight plastic that can be processed into a desired shape after heating with water at 30 ° C to 70 ° C, and is non-toxic bio-grade polyester plastic or polycaprolactone (PCL). It may contain as a main component, these components may be composed of not only the main component, but also a single component.

In addition, when the polycaprolactone is used as the low-temperature thermoplastic resin, the melting point at which the change in physical properties proceeds may vary depending on the molecular weight, and is in the range of 30 ° C to 70 ° C, such as 35 ° C to 65 ° C, particularly It may range from 40°C to 60°C.

In addition, the rise restraining member 450 made of the low-temperature thermoplastic resin may be manufactured so that physical properties change from a solid phase to a liquid phase at a temperature range of 30 ° C to 70 ° C or higher.

In addition, when the physical property change of the rise restraining member 450 proceeds at a temperature of less than 30 ° C, the rise restraining member 450 cannot maintain a solid state in an actual use environment, resulting in the quick closing gate of the present invention. There may be a problem that the valve does not operate.

In addition, when the change in physical properties of the rise restraining member 450 proceeds at a temperature exceeding 70 ° C., the quick closing gate valve of the present invention may have a problem in that it cannot proceed with emergency closing. It will be desirable to be provided so that the change in physical properties of the rise restraining member 450 can proceed over the temperature range.

As such, by using a low-temperature thermoplastic resin as the material of the rise restraining member 450, which undergoes a phase change by external temperature, it is possible to induce deformation with respect to external heat more quickly, thereby promptly closing the gate valve quickly and urgently. can provide an effect that can proceed.

Next, the operation process of the quick closing gate valve assembly of the present invention will be described with reference to FIGS. 3 to 5 described above.

First, when the valve assembly operates in a normal environment, as shown in FIGS. 3 and 4, the lift restraint member 450 maintains a seated state on the top of the cylinder block 441, The cylinder unit is driven in a state in which the rise of the piston rod 442 by the elastic force of the elastic member 410 is suppressed.

At this time, the expansion and contraction of the cylinder unit 400 is determined by the hydraulic pressure introduced toward the inside of the first cylinder barrel 420 or discharged from the inside.

Here, when hydraulic pressure flows out from the inside of the first cylinder barrel 420, as shown in FIG. 3, the cylinder unit 400 maintains a reduced state, and as a result, the aforementioned stem (not shown) ) rises, leading to the rise of the disc, which opens the fluid flow path in the valve body.

And, when the hydraulic pressure is introduced toward the inside of the second cylinder barrel 420, as shown in FIG. 4, the cylinder unit 400 maintains an expanded state, and as a result, the above-described stem ( (not shown) is lowered to induce the lowering of the disk, thereby closing the fluid flow path in the valve body.

As such, when the operation of the valve assembly proceeds in a normal environment, the cylinder unit 400 is based on external hydraulic pressure while suppressing the rise of the piston rod 442 through the rise restraining member 450. ) will be driven.

On the other hand, as shown in FIG. 5, when the temperature of the installation area of the valve assembly rises rapidly due to an emergency situation such as a fire, and fluid supply is impossible due to the emergency situation, the piston rod 441 By proceeding with an independent rise of , the stem is actuated to close the fluid flow path within the valve body through the disk, inducing a lowering of the stem.

More specifically, the rise restraining member 450, which suppresses the rise of the above-described piston rod 441 in a normal environment, is phase-transformed into a liquid phase by the temperature of the installation area to suppress the rise of the piston rod 441. It works so it doesn't progress.

In this way, by providing a pair of cylinder barrels that are inserted and coupled, operating the cylinder unit through hydraulic pressure and opening and closing the valve assembly through hydraulic pressure, by providing the elastic member, an emergency situation such as fire occurs In this case, even when the supply of the hydraulic pressure is not smooth, it is possible to provide an effect of proceeding to close the valve assembly through the elastic force of the elastic member.

And, through the rise restraining member provided to change physical properties based on the external temperature, while preventing forced blocking in normal times, when the ambient temperature, such as a fire, rises rapidly, through the change in physical properties of the rise restraining member, the cylinder By inducing shape deformation of the unit, it is possible to provide an effect of rapidly shutting off the valve assembly when an emergency occurs.

Next, a quick closing gate valve according to an additional embodiment of the present invention will be described in more detail with reference to FIGS. 7 and 8 .

Figure 7 is a plan view showing a plane of the piston block in which the cut-out portion of the piston portion according to a further embodiment of the present invention is formed, Figure 8 is a rising restraining member seated in the piston block in which the cut-out portion of the piston portion according to a further embodiment of the present invention is formed It is a plan view showing a plane in a state of being.

As shown in Figures 7 and 8, a temperature sensitive quick closing gate valve assembly according to a further embodiment of the present invention is characterized in that it includes a piston block having a specific shape.

First, the piston block 441 is characterized in that a cutout 441a is formed.

Here, the cutout 441a is provided so that at least one rise restraining member in a state in which physical properties are changed can be formed so as to move downward of the piston block 441 .

At this time, at least one cutout 441a is disposed radially around a point where the piston rod and the piston block are coupled to each other.

More specifically, the point where the piston rod and the piston block are coupled to each other is centered, and as it progresses from the center to the outer periphery, it is provided to retain a shape in which the cut area increases.

In addition, through the formation of the cutout 441a, the rise restraint member in a state in which the physical properties have been changed can flow out toward the lower side of the piston block, so that the piston block can be moved up and down more quickly, thereby preventing the emergency of the gate valve. It is possible to provide an effect capable of improving the closing speed.

In addition, by proceeding with the radial arrangement of the incision, preventing the rotation of the rise restraining member in the second cylinder barrel and stably fixing the position, the effect of further improving the operation reliability of the gate valve is provided. can do.

In addition, through a cutout having a specific shape, when the phase of the rise restraining member changes, it is possible to pass through the cutout more quickly, thereby providing an effect of further improving the emergency closing speed of the gate valve.

Next, referring to FIG. 9 , a quick closing gate valve according to another additional embodiment of the present invention will be described in more detail.

9 is a plan view showing a plane of a piston block in which a wedge portion is formed according to another additional embodiment of the present invention.

As shown in FIG. 9 , the piston block 441 is characterized in that it includes a wedge portion 441b.

The wedge portion 441b is formed to accelerate the deformation rate of the rise restraining member 450 .

More specifically, the wedge portion 441b is formed to protrude upward from an upper surface on which the rising restraining member is seated.

At this time, at least one wedge portion 441b protrudes from the upper surface of the piston block 441, and by the elastic force of the above-described elastic member, a portion of the area is inserted into the upward restraining member 450 arranged so that

In this way, through the formation of the wedge portion 441b, it is possible to provide an effect of further improving the emergency closing speed by improving the shape deformation speed of the lifting restraining member.

In summary, the temperature sensitive quick closing gate valve assembly according to the present invention induces the shape change of the cylinder unit through an elastic member provided to change the shape according to the external temperature, and based on the shape change of the cylinder unit By changing the direction of the disk, it is possible to provide an effect of opening and closing the flow path of the fluid by detecting a change in ambient temperature without the user directly opening and closing the valve.

In addition, by having a pair of cylinder barrels inserted and coupled, operating the cylinder unit through hydraulic pressure, opening and closing the valve assembly through hydraulic pressure, by providing the elastic member, emergency situations such as fire occur In this case, even when the supply of the hydraulic pressure is not smooth, it is possible to provide an effect of proceeding to close the valve assembly through the elastic force of the elastic member.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for explaining the present invention, and those skilled in the art to which the present invention belongs may make various modifications or equivalents from the detailed description of the present invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

1000: quick closing gate valve assembly
100: valve body
200: disk
300: stem
310: lever member
400: cylinder unit
410: elastic member
420: first cylinder barrel
430: second cylinder barrel
431: breakaway bump
440: piston part
441: piston block
441a: incision
442b: wedge portion
442: piston rod
450: rise suppression member

Claims (12)

In the gate valve assembly,
A valve body 100 provided to allow fluid to flow;
a disk 200 disposed in the valve body and selectively opening and closing the flow path of the fluid;
a stem 300 connected to the disk and configured to receive an external force and change the position of the disk; and
A cylinder unit 400 provided to be expandable or contractible, one end fastened to the stem to drive the stem to induce positional change of the disk;
The cylinder unit 400,
An elastic member 410 provided inside the cylinder unit, expanded or contracted according to external temperature, and provided to induce shape deformation of the cylinder unit; includes,
The cylinder unit,
A first cylinder barrel 420 provided to supply and discharge hydraulic pressure through the lower side and to have an open top shape;
a second cylinder barrel 430 provided to move up and down by the hydraulic pressure while being inserted into the first cylinder body;
a piston unit 440 provided to ascend and descend while being inserted into the second cylinder barrel, and coupled to the stem; and
An elastic member 410 provided between the second cylinder barrel and the piston part and provided to limit the positional movement of the piston part; includes,
The piston part 440,
a piston block 441 disposed inside the second cylinder barrel and having a lower end supported by the elastic member;
A piston rod 442 provided to be coupled with the piston block and connected to a stem that changes the position of the disk; includes,
The cylinder unit 400,
In order to limit the movable range of the piston rod, while being provided inside the second cylinder barrel, physical properties are changed by external temperature, and when the physical properties change, the rise restraining member 450 induces shape deformation of the cylinder unit; Temperature sensitive quick closing gate valve assembly, characterized in that it further comprises. delete delete According to claim 1,
The second cylinder barrel 430,
In order to prevent the separation of the upward restraining member while maintaining an open top shape, a separation prevention bump 431 formed at the upper end to a predetermined thickness; further comprising,
The rise restraining member 450,
A temperature sensitive quick closing gate valve assembly, characterized in that it is disposed between the piston block and the release prevention bump, and is provided to be seated on the upper surface of the piston block in a state in which the piston rod is inserted. According to claim 1,
The elastic member 410,
While one end is coupled to support the bottom surface of the piston block, the other end is coupled to the inner bottom surface of the second cylinder barrel so as to space the bottom surface of the piston block and the inner bottom surface of the second cylinder barrel apart from each other. Features a temperature sensitive quick closing gate valve assembly. According to claim 1,
The quick closing gate valve assembly 1000,
Temperature sensitive quick closing gate valve assembly, characterized in that the piston block separation distance representing the distance between the bottom surface of the piston block and the inner bottom surface of the second cylinder barrel varies according to the physical properties of the rise restraining member. According to claim 6,
The quick closing gate valve assembly 1000,
The temperature sensitive quick closing gate valve assembly, characterized in that the separation distance of the piston block before the phase change of the rise restraining member is smaller than the separation distance of the piston block after the phase change of the rise restraint member. According to claim 1,
The piston block 441,
The temperature sensitive quick closing gate valve assembly, characterized in that it further comprises; at least one cutout (441a) formed so that the rise restraining member in a state in which physical properties are changed moves downward of the piston block. According to claim 8,
The cutout 441a,
Temperature sensitive quick closing gate valve assembly, characterized in that at least one radially disposed around the point where the piston rod and the piston block are coupled to each other. According to claim 8,
The cutout 441a,
A temperature sensitive quick closing gate valve, characterized in that it is provided to have a shape centered at a point where the piston rod and the piston block are coupled to each other, and the cut area increases as it moves from the center to the outer circumference side. assembly. According to claim 4,
The piston block 441,
The temperature sensitive quick closing gate valve assembly further comprising a wedge-shaped wedge portion 441b protruding upward from an upper surface on which the rising restraining member is seated. The method of any one of claims 1 and 4 to 8,
The rise restraining member 450,
It is made of a low-temperature thermoplastic resin containing at least one selected from plastic, water plastic, polymorph, and thermoplastic polymorph, in which physical properties change at a temperature range of 30 ° C to 70 ° C or higher. Temperature sensitive quick closing gate valve assembly, characterized in that.

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