KR100595931B1 - Valve for Opening and Shutting Liquid Passage - Google Patents

Abstract

The present invention relates to an on / off valve, comprising: an on / off valve for automatically opening / closing a flow path according to a temperature of a passing fluid, comprising: a flow path pipe part; A fixing ring fixed to the inside of the flow pipe; A moving ring installed inside the flow path tube to face the fixing ring; A sensitized spring of a unidirectional shape memory alloy material provided between the support ring and the movable ring in the flow path; a side surface of the directional spring is formed to be a sealing surface, and an elastic modulus is elastic on martensite of the sensitized spring. An opening / closing spring formed to have a value greater than a coefficient and installed inside the flow path tube to face the moving ring; It has a frame formed along the radial direction, characterized in that it comprises a stopper pipe portion coupled to the passage pipe portion such that the frame is in contact with the vertex of the opening and closing spring. Accordingly, the spring of the general material can be used as a structure for opening and closing the flow path as well as the opening and closing power source of the flow path can simplify the valve structure.

Valve, spring, shape memory alloy, hot water

Description

Valve for Opening and Shutting Liquid Passage

1 is an exploded perspective view of an on / off valve according to an embodiment of the present invention;

Figure 2 is an exploded perspective view of an application valve coupled to the on-off valve according to an embodiment of the present invention,

Figure 3 is a partial cutaway perspective view showing a coupling state of the on-off valve and the application valve according to an embodiment of the present invention,

4 is an operation state diagram of the on-off valve and the application valve of FIG.

  4A is a cross-sectional view showing an open state of an on / off valve;

  Figure 4b is a sectional view showing an automatic closing state of the on-off valve;

  Figure 4c is a sectional view showing a manual closing state of the application valve;

5 is a cross-sectional view of an on-off valve using a conventional shape memory alloy.

Explanation of symbols on the main parts of the drawings

10: on-off valve 11: flow path

12: retaining ring 13: inductive spring

14: moving ring 15: opening and closing spring

16: stopper pipe portion 30: application valve

40: cylinder 41: flow path opening

42: knob 50: aberration

53: aberration rotation shaft 60: valve body

61: mounting portion 62, 63: coupling pipe portion

70: rotation indicator 80: cylinder cap

The present invention relates to an on-off valve, and more particularly to an on-off valve for closing the flow path when the temperature of the fluid outside the set temperature range using the temperature characteristics of the shape memory alloy.

Shape Memory Alloy (SMA) is an alloy that has the property of being restored to its original shape when it is heated to the shape recovery temperature even if the shape stored at a certain temperature is deformed at a lower temperature. (Name of invention: on-off valve using shape memory alloy spring), Utility Model Registration Application No. 27890 (name of invention: valve using shape memory alloy) in 2000 are also used in the field of valve technology.

5 is a cross-sectional view of an on-off valve using a conventional shape memory alloy.

The conventional on-off valve is disclosed in the Utility Model Application No. 27890 of 2000, the valve body 110 and the support rod 111 is formed in the horizontally inlet hole (110a) in the longitudinal direction therein An operating rod inserted into the support rod 111 so that the handle 113 coupled to the body 110 and the disk 114 for opening and closing the inlet hole 110a can be lifted along the longitudinal direction of the support rod 111 ( 115 and an upward corresponding spring 116 mounted between the operating rod 115 and the bottom surface of the valve body 110 and a downward corresponding spring 117 mounted between the operating rod 115 and the support rod 111. Have

Here, the upward response spring 116 is made of a general spring material (stainless steel, etc.), and the downward response spring 117 is made of a shape memory alloy.

Referring to the operation of the conventional on-off valve having such a configuration as follows.

Using the handle 113, the support rod 111 is raised so that no gap occurs between the support rod 111 and the inner surface of the valve body 110. At this time, since the upward response spring 116 has a larger modulus of elasticity than the downward response spring 117, the downward response spring 117 is compressed and the operating rod 115 is raised.

When the operating rod 115 is raised, the disk 114 is separated from the inlet hole (110a), and thus the inlet hole (110a) is opened to flow through the valve body 110, the hot water flows.

Heat is transferred to the downward response spring 117 through the operating rod 115 while the hot water flows.

When the temperature of the hot water rises and the downward response spring 117 rises to the formation recovery temperature, the downward response spring 117 returns to its original shape.

When the downward corresponding spring 117 returns to the original shape, the operating rod 115 is lowered and the upward corresponding spring 116 is compressed.

When the operating rod 115 is lowered, the disk 114 closes the inlet hole 110a. Accordingly, the hot water does not pass through the valve body 110 and the flow is stopped.

However, according to the conventional on-off valve, while maintaining the existing valve structure for opening and closing the inlet hole (110a) using the disk 114 to form the inlet hole (110a) inside the valve body 110, the shape memory Since the elastic force of the downward response spring 117 made of alloy material and the upward response spring 116 made of general spring material (stainless steel etc.) is used as a power source for driving the operating rods 115 to the disk 114, the valve structure There was a problem that is complicated.

Therefore, an object of the present invention is to provide an on-off valve that can be used as a structure for opening and closing the flow path in addition to the spring of the general spring material in addition to the opening and closing power source.

The above object, according to the present invention, in the on-off valve that automatically opens and closes the flow path in accordance with the temperature of the passage fluid, the flow path tube portion; A fixing ring fixed to the inside of the flow pipe; A moving ring installed inside the flow path tube to face the fixing ring; A sensitized spring of a unidirectional shape memory alloy material installed in an area between the support ring and the movable ring of the flow path tube; An opening / closing spring formed to have a side surface to be a sealing surface during compression, and having an elastic modulus greater than an elastic modulus on the martensite of the sensitized spring, the opening / closing spring installed inside the flow path tube to face the moving ring; It has a frame formed along the radial direction, it is achieved by an on-off valve, characterized in that the frame includes a stopper pipe portion coupled to the flow path tube portion in contact with the vertex of the opening and closing spring.

Here, the opening and closing spring is preferably fixed to the moving ring to prevent the opening and closing spring from being separated from the closed position of the flow path in accordance with the movement of the moving ring.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of an on-off valve according to an embodiment of the present invention.

As shown in FIG. 1, the opening / closing valve 10 according to an exemplary embodiment of the present invention includes a flow path pipe part 11, a fixing ring 12 integrally formed inside the flow path pipe part 11, and a flow path pipe part ( 11, the moving ring 14 is installed to face the fixed ring 12 in the interior, and the sensitive spring 13 is installed in the region between the internal fixed ring 12 and the moving ring 14 of the flow path pipe portion (11) And a triangular pyramid-shaped opening / closing spring 15 provided on the right side of the movable ring 14, and a stopper pipe portion 16 screwed to the right end of the flow path tube portion 11.

The movable ring 14 is provided to be movable along the longitudinal direction of the flow path tube part 11.

The sensitive spring 13 is made of a unidirectional shape memory alloy material. Accordingly, the sensitized spring 13 is restored to the stored shape when the sensitized spring 13 becomes higher than the specific shape recovery temperature even if it is deformed by an external force at or below the specific shape recovery temperature. Here, the sensitive spring 13 determines the shape recovery temperature in consideration of the upper limit temperature of the hot water to be blocked. For example, when the upper limit temperature of the hot water to be blocked is 50 degrees Celsius, the sensitive spring 13 may be manufactured by adjusting the component ratio to have a shape recovery temperature of 50 degrees Celsius.

The opening and closing spring 15 is formed so that the side surface becomes a sealing surface during compression, and the elastic modulus is formed to have a value larger than the elastic modulus on the martensite of the sensitive spring 13. Accordingly, the sensitive spring 13 maintains the compressed state by the elastic force of the opening and closing spring 15 below the shape recovery temperature.

And the opening and closing spring 15 is fixed to the moving ring (14).

As for the stopper pipe part 16, the cross-shaped frame 16a is formed along radial direction, and the thread part 16b, 16c is formed in the inner surface and the outer surface of both ends, respectively. The stopper tube portion 16 is screwed to the flow passage tube portion 11 so that the frame 16a contacts the vertex of the opening / closing spring 15 through the screw portion 16b, and is connected to the other tube through the screw portion 16c.

Referring to the operation of the on-off valve 10 according to the embodiment of the present invention described above are as follows.

First, when the temperature of the hot water passing through the flow path 11 is less than or equal to the shape recovery temperature of the sensitive spring 13, the sensitive spring 13 is kept compressed by the elastic force of the open / close spring 15, while the open / close spring 15 Maintains tension. In the state in which the opening / closing spring 15 is tensioned, the hot water may pass through the flow path pipe part 11 through the opening formed in the side surface of the opening / closing spring 15.

Next, when the temperature of the hot water passing through the flow path 11 is equal to or greater than the shape recovery temperature of the sensitive spring 13, the sensitive spring 13 is restored to a memorized shape, that is, a tension form, and the open / close spring 15 is a sensitive spring ( It is compressed by the shape recovery force of 13).

When the opening and closing spring 15 is compressed, the side surface of the opening and closing spring 15 forms a sealed surface, and thus the hot water cannot pass through the flow path pipe part 11.

The on-off valve 10 according to the embodiment of the present invention described above can be used in combination with other valves or pipes.

Hereinafter, a method of using in combination with another valve (hereinafter referred to as an "application valve") will be described.

Figure 2 is an exploded perspective view of the application valve coupled to the on-off valve according to an embodiment of the present invention, Figure 3 is a partial cutaway perspective view showing a combined state of the on-off valve and the application valve according to an embodiment of the present invention.

The application valve 30 is connected to a predetermined hot water supply system, and as shown in these figures, the valve body 60 is coupled to the valve body 60 via a sealing ring 93 to the valve body 60. The cylindrical cylinder 40 and the transparent cylinder cap 80 joined to the upper end of the cylinder 40 are provided.

The valve body 60 has a mounting portion 61 in which a mounting chamber having a circular cross section is formed, and coupling pipe portions 62 and 63 extending in opposite directions from the mounting portion 61. Threaded portions 62a, one of which is not shown, are formed on the inner surfaces of the coupling pipe portions 62 and 63, respectively.

The protrusion guide groove 24 is cut out and formed in the upper part of the inner surface of the mounting part 61, and the locking step 42 is formed in the upper part of the outer surface of the mounting part 61. As shown in FIG.

A semicircular arc opening 41 is formed along the circumferential direction in the lower region of the cylinder 40, and an annular flange 43 is formed on the outer surface. The lower side of the flange 43, the engaging projection 44 is formed to fit the projection guide groove 24 formed in the valve body 60 is formed. A threaded portion 48 is formed above the inner surface of the cylinder 40.

In addition, aberration shaft receiving grooves (not shown) are formed in the center of the bottom surface of the cylinder 40, and a pair of knobs 42 are provided in the upper region of the flange 43 of the cylinder 40. It is formed along the longitudinal direction of. On one side of the knob 42, the engaging pin 46 is coupled along the height direction.

The cylinder 40 having such a configuration inserts the coupling protrusion 44 from the upper portion of the mounting portion 61 through the protrusion guide groove 24, and then the circumference of the coupling protrusion 44 is accommodated in the protrusion accommodation groove 25. It is coupled to the valve body 60 by rotating along the direction. In the state coupled to the valve body 60, the flange 43 is seated on the upper end of the mounting portion (61).

In the cylinder cap 80, an exhaust hole 83 is formed in the center region, and a screw portion 81 corresponding to the screw portion 48 formed in the cylinder 40 is formed below the outer surface. The cylinder cap 80 is screwed to the cylinder 40 so as to press the separator 92 to be described later, the exhaust hole 83 is opened and closed by the exhaust pin (85).

In addition, the application valve 30 is aberration 50 is installed in the interior of the cylinder 40, the support plate 54, the separator plate 92 and the rotation sequentially coupled to the aberration rotation shaft 53 of the aberration 50 It has an indicator 70.

The aberration 50 has the rotary blade 51 arrange | positioned radially. And the lower end of the aberration rotation shaft 53 is inserted into the aberration shaft receiving groove 23 formed in the mounting portion 61, the upper end is supported by the separator 92 (the isolation plate is supported by the cylinder cap coupled to the cylinder Because it is pressurized, it can stably support the top of the aberration shaft).

The support plate 54 is coupled to the aberration rotation shaft 53 so as to be supported by the support frame 52, and is coupled to the aberration rotation shaft 53 through a vent hole 92a formed in the central region of the separator 92.

Aeration aid 70a is formed in the center of the rotation indicator 70.

Referring to the operation of the application valve 30 having such a configuration as follows.

First, by operating the knob 42 to rotate the cylinder 40 by 180 degrees counterclockwise (where the cylinder is rotated 180 degrees by the interaction of the locking pin coupled to the cylinder and the locking jaw formed in the valve body of the cylinder Rotation is prevented) The flow path opening 41 formed in the cylinder 40 communicates with the coupling pipe portions 62 and 63 of the valve body 60, and thus the internal flow path of the valve body 60 is opened. Here, the flow path opening 41 and the coupling pipe parts 62 and 63 are gradually communicated as the rotation angle of the cylinder 40 approaches 180 degrees, so that the rotation angle of the cylinder 40 is selected to select the rotation of the valve body 60. The flow rate of hot water flowing through the internal flow path can be adjusted. When some or all of the internal flow path of the valve body 60 is opened, the aberration 50 and the rotation indicator 70 rotate, so that the user can estimate the flow rate of the hot water by looking at the rotation speed of the rotation indicator 70. It becomes possible.

Next, by operating the knob 42, the cylinder 40 is rotated 90 degrees clockwise (blocking between the mounting portion 61 and the right coupling pipe portion 62) or rotated clockwise by 180 degrees (mounting portion ( 61) and both coupling pipe parts 61 and 62 are blocked) The internal flow path of the valve body 60 is closed.

Referring to the method of using the combined application valve 30 and the on-off valve 10 according to an embodiment of the present invention (hereinafter referred to as the on-off valve for convenience of description) to perform such an operation as follows. For convenience of explanation, the left coupling pipe part 63 of the application valve 30 is screwed to a hot water supply pipe (not shown) of a predetermined hot water supply system, and the opening and closing valve 10 is a screw part 62a or 11a. It is assumed that the screw is coupled to the right coupling pipe portion 63 through the stopper pipe portion 16 is coupled to the other pipe via the screw portion 16c.

First, the internal passage of the valve body 60 is opened by operating the knob 42 so that the cylinder 40 rotates 180 degrees counterclockwise.

Hot water supplied from the hot water supply pipe in the open state of the valve body 60 passes through the valve body 60 and reaches the sensitive spring 13 via the flow passage 11 of the on-off valve 10. .

Herein, when the temperature of the hot water reaching the sensitizing spring 13 is less than or equal to the shape recovery temperature of the sensitizing spring 13, the opening / closing spring 15 maintains the tensioned state and the sensitizing spring 13 maintains the compressed state. Thus, since the opening is formed in the side surface of the opening / closing spring 15 in the state in which the opening / closing spring 15 is tensioned, the hot water reaching the sensitive spring 13 can pass through the flow passage 11 (see FIG. 4A). .

On the other hand, when the temperature of the hot water reaching the sensitized spring 13 is greater than or equal to the shape recovery temperature of the sensitized spring 13, the sensitized spring 13 is stretched and the opening and closing spring 15 is compressed. As described above, the side surface of the opening / closing spring 15 is closed while the opening / closing spring 15 is compressed, and thus the hot water reaching the sensitive spring 13 cannot pass through the flow passage 11 (see FIG. 4B).

On the other hand, if the cylinder 40 is rotated 90 degrees clockwise or 180 degrees clockwise by operating the knob 42, the internal flow path of the valve body 60 is closed, so that hot water supply can be manually blocked. (See FIG. 4C).

According to the embodiment of the present invention as described above, in coordination with the sensitive spring 13 of the shape memory alloy material so as to seal the side surface of the opening and closing spring 15 of the general spring material to provide the opening and closing power source of the flow path to the sealing surface By forming, the opening and closing spring 15 can be used as a structure for opening and closing the flow path. This simplifies the valve structure because there is no need to provide separate means (traditional disk and operating rod) for opening and closing the flow path.

And by fixing the opening and closing spring 15 to the moving ring 14, it is possible to prevent the opening and closing spring 15 from being separated from the closed position of the flow path in accordance with the movement of the moving ring (14).

Meanwhile, in the above-described embodiment, the fixing ring 12 is integrally formed in the flow path tube part 11, but the mounting groove is formed in the inner surface of the flow path pipe part 11 along the circumferential direction, and the fixing ring 12 is separately formed. The present invention can be implemented by manufacturing and installing in a mounting groove.

In the above-described embodiment, the opening and closing spring 15 is formed in a conical shape, but the present invention may be implemented by modifying the opening and closing spring in another form within a range that satisfies the condition that the side is closed during compression.

Therefore, according to the present invention, by cooperating with the spring of the shape memory alloy material to form a side surface of the spring of the general spring material to provide a closing power source of the flow path to the compression surface to use the spring of the general material as a structure for opening and closing the flow path By making it possible, the valve structure can be simplified.

Claims (2)

In the on-off valve that automatically opens and closes the flow path in accordance with the temperature of the passage fluid, A flow pipe section; A fixing ring fixed to the inside of the flow pipe; A moving ring installed inside the flow path tube to face the fixing ring; A sensitized spring of a unidirectional shape memory alloy material installed in an area between the support ring and the movable ring of the flow path tube; An opening / closing spring formed to have a side surface to be a sealing surface during compression, and having an elastic modulus greater than an elastic modulus on the martensite of the sensitized spring, the opening / closing spring installed inside the flow path tube to face the moving ring; And a stopper pipe portion having a frame formed along a radial direction, the stopper pipe portion being coupled to the flow passage tube portion so that the frame contacts a vertex of the open / close spring. The method of claim 1, The opening and closing spring is open and close valve, characterized in that fixed to the moving ring.

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