JP2017115911A - Valve gear - Google Patents

Abstract

A valve body (31) and a cylinder in which the valve body (31) moves and accommodates the valve body (31) are provided. A housing (33) in which a moving path (34) and a flow path (35) are formed is provided. One end of the moving path (34) is opened to the outside of the housing (33) and is engaged with the valve body (31) with a screw. A cap member (50) that is accommodated in the fully closed state and held on the inner peripheral surface of the movement path (34) is provided in a position inside the movement path (34) and outside the valve body (31). [Selection] Figure 2

Description

  The present invention relates to a valve device that switches a communication state of flow paths.

  In an air conditioner, in order to connect an outdoor unit and an indoor unit with refrigerant piping, for example, a so-called closing valve is used for the outdoor unit (see, for example, Patent Document 1). This shut-off valve is fully opened at the time of installation work of the air conditioner, and is normally used in a fully opened state unless there is a situation such as maintenance of equipment. That is, the air conditioner exhibits its original performance when the shut-off valve is fully open.

JP 2014-129855 A

  By the way, when the air conditioner is installed, there are cases where the original performance cannot be obtained (hereinafter, referred to as operation failure for convenience of explanation). There are various causes of such malfunctions. For example, the malfunction may be caused by the fact that the closing valve is not fully opened, or the refrigerant piping may be partially blocked to cause malfunction. There is also.

  However, it is not easy to visually check the open / closed state of such a closing valve. In particular, the outdoor unit of the air conditioner may be installed in a narrow place where access to the closing valve is difficult or in a dim place. In such a case, the open / close state of the closing valve should be checked visually. Becomes even more difficult. That is, the closing valve may make it difficult to isolate the cause of the malfunction.

  The present invention has been made paying attention to the above-described problem, and an object thereof is to make it possible to easily confirm the open state or the closed state of the valve device.

In order to solve the above problems, the first invention is
A valve body (31) that switches the communication state of the flow path (35), a cylindrical movement path (34) that accommodates the valve body (31) and moves inside the valve body (31), and the flow path ( 35) and a housing (33) formed therein, one end of the moving path (34) is open to the outside of the housing (33), and the valve body (31) is engaged with a screw inside, When the valve body (31) is screwed into the rear side of the moving path (34) by a predetermined amount, the valve body (31) is fully closed. In the valve device in the state,
A cap member (50) that is accommodated in the fully closed state and held on the inner peripheral surface of the moving path (34) at a position inside the moving path (34) and outside the valve body (31). It is characterized by having.

  In this configuration, when the valve device is fully closed, the valve body (31) is covered with the cap member (50).

The second invention is the first invention, wherein
The cap member (50) includes a base end (51) that fits in the movement path (34) with play, and an outer side of the base end (51) in the movement path (34). And a fixed portion (52) held in contact with the inner peripheral surface of the moving path (34).

  In this configuration, a part of the cap member (50) is held by the housing (33).

The third invention is the second invention, wherein
The total length (L1) of the base end portion (51) in the moving direction of the valve body (31) is the distance from the outer end of the valve body (31) to the outer end of the moving path (34) in the fully opened state. It is larger than (Ho).

  In this configuration, when the valve device is fully closed, the cap member (50) is detached from the housing (33).

In addition, a fourth invention is any one of the first to third inventions,
The cap member (50) is formed with a through hole (53) through which a tool for turning the valve body (31) is passed.

  In this configuration, the valve element (31) is operated with a tool inserted from the through hole (53).

In addition, a fifth invention is any one of the first to fourth inventions,
The cap member (50) contains a fluorescent material that emits visible light, or is coated with a fluorescent agent.

  In this configuration, the cap member (50) emits visible light.

  According to the first invention, it is possible to easily check the open state or the closed state of the valve device.

  Moreover, according to 2nd invention, a cap member remove | deviates in the process of making it a full open state.

  Moreover, according to 3rd invention, it turns out reliably that it is a full open state.

  In addition, according to the fourth invention, it is possible to easily perform an opening / closing operation.

  Moreover, according to 5th invention, the visibility of a cap member improves.

FIG. 1 is a piping system diagram of an air conditioner using a valve device according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of the liquid side valve device according to the first embodiment. FIG. 3 is a sectional view of the housing. FIG. 4 is a cross-sectional view of the valve body. FIG. 5 shows a cross section of the liquid side valve device in the fully opened state. FIG. 6 is a cross-sectional view of the inner cap member. FIG. 7 is a perspective view of the inner cap member. FIG. 8 shows the positional relationship between the valve body and the inner cap member when the valve is fully opened. FIG. 9 shows a state in which the outer cap is attached to the liquid side valve device in the fully opened state. FIG. 10 shows a state in which the inner cap member is tried to be fitted in the reverse direction. FIG. 11 shows a mounted state of the inner cap member according to the second embodiment of the present invention. FIG. 12 shows the positional relationship between the valve body and the inner cap member when the valve is fully opened.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The following embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its use.

Embodiment 1 of the Invention
FIG. 1 is a piping system diagram of an air conditioner (10) using a valve device (30, 40) according to an embodiment of the present invention.

<Overall configuration of air conditioner (10)>
As shown in FIG. 1, the air conditioner (10) includes an outdoor unit (11) and an indoor unit (12). In the air conditioner (10), the outdoor unit (11) and the indoor unit (12) are connected to each other via the liquid side connecting pipe (13) and the gas side connecting pipe (14). ), The refrigerant circuit (20) is formed by the indoor unit (12), the liquid side connecting pipe (13), and the gas side connecting pipe (14).

-Refrigerant circuit (20)-
The refrigerant circuit (20) is a closed circuit filled with refrigerant, and includes a compressor (21), a four-way switching valve (22), an outdoor heat exchanger (23), an expansion valve (24), and an indoor heat exchanger ( 25) is provided.

  Various compressors can be adopted as the compressor (21). Examples of the compressor (21) include a scroll compressor and a rotary compressor. The outdoor heat exchanger (23) and the indoor heat exchanger (25) are so-called cross fin type heat exchangers. The outdoor heat exchanger (23) exchanges heat between the outdoor air and the refrigerant, and the indoor heat exchanger (25) exchanges heat between the indoor air and the refrigerant. The expansion valve (24) is a so-called electronic expansion valve.

  The four-way selector valve (22) has first to fourth ports. The four-way switching valve (22) includes a first state (state indicated by a solid line in FIG. 1) in which the first port communicates with the third port and the second port communicates with the fourth port; It is possible to switch to a second state (state indicated by a broken line in FIG. 1) in which the port communicates with the fourth port and the second port communicates with the third port.

  In the refrigerant circuit (20), the discharge port of the compressor (21) is connected to the first port of the four-way switching valve (22), and the suction port is connected to the second port of the four-way switching valve (22). . In the refrigerant circuit (20), the outdoor heat exchanger (23), the expansion valve (24), and the indoor heat exchanger are sequentially arranged from the third port to the fourth port of the four-way switching valve (22). (25) and are arranged. In the air conditioner (10), the cooling operation and the heating operation are switched by switching the four-way switching valve (22).

  A liquid side valve device (30) is provided at one end of the liquid side communication pipe (13), and the outdoor unit (11) and the liquid side communication pipe (13) are connected via the liquid side valve device (30). It is connected. In addition, a gas side valve device (40) is provided at one end of the gas side communication pipe (14), and the outdoor unit (11) and the gas side communication pipe (14) are connected via the gas side valve device (40). Is connected.

-Indoor unit (12)-
The indoor unit (12) is installed in a room that performs air conditioning. The indoor unit (12) accommodates an indoor fan (16) and an indoor heat exchanger (25).

-Outdoor unit (11)-
The outdoor unit (11) contains a compressor (21), a four-way switching valve (22), an outdoor heat exchanger (23), and an expansion valve (24). The outdoor unit (11) includes an outdoor fan (15) for supplying outdoor air to the outdoor heat exchanger (23). And the liquid side valve apparatus (30) and the gas side valve apparatus (40) are attached to the casing (illustration omitted) of the outdoor unit (11).

<Valve device>
In this air conditioner (10), as described above, the liquid side valve device (30) is used to connect the liquid side communication pipe (13) and the outdoor unit (11), and the gas side valve device (40) Used to connect the gas side communication pipe (14) and the outdoor unit (11). The liquid-side valve device (30) and the gas-side valve device (40) are fully closed when the air conditioner (10) is shipped from the factory, and the installation operator installs the air conditioner (10). Fully opened. After installation of the air conditioner (10), the air conditioner (10) is normally used in a fully opened state unless there is a situation such as maintenance of equipment. That is, the air conditioner (10) exhibits its original performance when the liquid side valve device (30) and the gas side valve device (40) are fully opened. In addition, the liquid side valve device (30) and the gas side valve device (40) have substantially the same configuration of the main parts. Therefore, the configuration of the liquid side valve device (30) will be described below as a representative.

  FIG. 2 is a cross-sectional view of the liquid side valve device (30) according to the first embodiment. FIG. 2 shows a state in which the liquid side valve device (30) is fully closed. In this example, the liquid side valve device (30) includes a valve body (31), an O-ring (32), a housing (33), and an inner cap member (50).

-Housing (33)-
FIG. 3 is a sectional view of the housing (33). The housing (33) is made of metal such as brass. The housing (33) includes a first port (35a) to which a refrigerant pipe (in this example, a pipe from the expansion valve (24)) in the outdoor unit (11) is connected, and a liquid side connecting pipe (13). A second port (35b) to be connected is formed. For example, a refrigerant pipe is connected to the first port (35a) by brazing, and the liquid side connection pipe (13) is connected to the second port (35b) by, for example, a so-called flare joint.

  A flow path (35) that connects the first port (35a) and the second port (35b) is formed in the housing (33). In this example, the flow path (35) extends in a straight line from the first port (35a) into the housing (33), then bends at a substantially right angle in the middle, and further extends in a straight line to the second port (35b). It is connected. That is, the flow path (35) is L-shaped. In the following description, the straight portion extending from the first port (35a) in the flow path (35) is referred to as a straight portion (35c).

  Further, as shown in FIG. 3, a cylindrical movement path (34) is formed in the housing (33). The valve element (31) is accommodated in the moving path (34). Specifically, the movement path (34) is a through-hole penetrating from the outer surface of the housing (33) toward the flow path (35), and extends straight in the housing (33) toward the straight portion (35c). It is open. An internal thread (34b) is formed in a predetermined range of the inner peripheral surface of the moving path (34). Hereinafter, in order to distinguish the openings at both ends of the moving path (34), the opening on the outer surface side of the housing (33) is referred to as an outer opening, and the opening on the straight portion (35c) side is referred to as an inner opening. To do.

  The straight portion (35c) has a tapered surface coaxial with the straight portion (35c) as a valve seat (36). The valve seat (36) faces the inner opening, and the center line and the straight portion (35c) of the moving path (34) so that a tapered surface (31a) of the valve body (31) described later can be seated. Is on the same straight line as the center line (see the dashed line in FIG. 3).

  The housing (33) is formed with a male screw (34c) for fixing an outer cap (60) (described later) that closes the outer opening of the moving path (34) (see FIG. 3).

−Valve (31) −
FIG. 4 is a cross-sectional view of the valve body (31). The valve body (31) is a cylindrical member having a tapered surface (31a) at one end, and switches the communication state of the flow path (35). The valve body (31) is formed of a metal such as brass, for example. The valve body (31) has an O-ring groove (31b) into which the O-ring (32) is fitted. Further, a male screw (31c) is provided in a predetermined range of the outer peripheral surface of the valve body (31), and the male screw (31c) meshes with the female screw (34b) of the moving path (34).

  The valve body (31) has a hexagon hole (31d) into which a hexagon wrench is inserted. By rotating the hexagon wrench inserted into the hexagonal hole (31d), the valve body (31) is rotated, so that the valve body (31) is moved along the internal thread (34b) of the movement path (34). ) Move in. More specifically, as shown in FIG. 2, the valve element (31) is placed on the moving path (34) so that the tapered surface (31 a) side is the back side (inner opening side) of the moving path (34). When the valve body (31) is screwed into the back side by a predetermined amount, the tapered surface (31a) of the valve body (31) is seated on the valve seat (36). Thereby, in the liquid side valve device (30), the straight portion (35c) of the flow path (35) is closed, and the first port (35a) and the second port (35b) are not communicated. This state is a fully closed state in the liquid side valve device (30). At this time, in the present embodiment, the outer end (31e) of the valve body (31) is on the back side with respect to the outer end (34a) of the moving path (34). That is, the outer end (31e) is in the moving path (34).

  On the other hand, when the valve element (31) is screwed back by a predetermined amount toward the outside of the movement path (34) (that is, toward the outer opening so as to be away from the valve seat (36)) from the fully closed state, the valve element (31 ) Is entirely accommodated in the movement path (34). Thereby, the first port (35a) and the second port (35b) communicate with each other. This state is a fully opened state in the liquid side valve device (30). FIG. 5 shows a cross section of the liquid side valve device (30) in the fully opened state. At this time, in the present embodiment, the outer end (31e) of the valve body (31) is inside the outer end (34a) of the movement path (34) (that is, the outer end (31e) is the movement path (34). )

<Inner cap member (50)>
FIG. 6 is a cross-sectional view of the inner cap member (50). This inner cap member (50) is an example of the cap member of the present invention. In the air conditioner (10) of the present embodiment, at the time of shipment from the factory, the liquid side valve device (30) is in a fully closed state (see FIG. 2), and the inner cap member (50) is in the moving path (34). It is in a state of being fitted inside (hereinafter referred to as a mounted state). Similarly, the gas side valve device (40) is also fully closed at the time of shipment from the factory, and the inner cap member (50) is also attached to the gas side valve device (40) at the time of shipment from the factory. The configuration of the inner cap member (50) attached to the liquid side valve device (30) and the inner cap member (50) attached to the gas side valve device (40) is the same. The inner cap member (50) will be described using the valve device (30).

  FIG. 7 is a perspective view of the inner cap member (50). The inner cap member (50) is made of resin in this example, and includes a base end portion (51) and a fixing portion (52) formed integrally as shown in FIG.

  The base end portion (51) is shaped so as to fit with play in the movement path (34). Specifically, the base end portion (51) has a cylindrical shape, and its outer diameter is set smaller than the inner diameter (D0) of the moving path (34).

  On the other hand, the fixed part (52) is shaped so as to be held in contact with the inner peripheral surface of the moving path (34) in the moving path (34) and outside the base end part (51). . Specifically, the fixed portion (52) has a cylindrical shape, and the outer diameter (D1) of the fixed portion (52) is set slightly larger than the inner diameter (D0) of the moving path (34). In the present embodiment, the inner cap member (50) is placed in the moving path (34) with the base end (51) side facing the valve body (31), and the fixed part (52) is moved in the moving path (34). It is fixed in the press-fitted state to the inner peripheral surface of the. In this example, the inner cap member (50) is pushed in until the end surface of the base end portion (51) contacts the outer end (31e) of the valve body (31).

  In addition, the inner cap member (50) is dimensioned (height) so that the inner cap member (50) can be entirely accommodated at a position outside the valve element (31) in the moving path (34) in the fully closed state. is there. Specifically, as shown in FIG. 2, the distance (Hc) from the outer end (31e) of the valve body (31) to the outer end (34a) of the moving path (34) in the fully closed state, and the inner cap member The shape of the inner cap member (50) is determined so that the relationship between the total height (L) of (50) and Hc ≧ L.

  Further, the inner cap member (50) is formed with a through hole (53) that penetrates the base end portion (51) and the fixing portion (52) (see FIGS. 6 and 7). The through hole (53) is a hole for passing a tool (here, a hexagon wrench) that rotates the valve body (31) to the hexagon hole (31d). In the present embodiment, the inner diameter of the through hole (53) is set larger than the outer diameter of the hexagon wrench so that the hexagon wrench can be easily inserted into and removed from the through hole (53).

  When the valve body (31) is rotated with a tool inserted into the hexagonal hole (31d) through the through hole (53) to fully open the liquid side valve device (30), the valve body (31) causes the inner cap member to (50) is pushed out of the moving path (34), and the holding of the fixed portion (52) by the moving path (34) is released. In order to realize this, in the present embodiment, the total length (L1) of the base end portion (51) (see FIG. 6), the outer end (31e) of the valve body (31) in the fully open state, The inner cap member (50) was formed so that the relationship with the distance (Ho) to the outer end (34a) was Ho ≦ L1. FIG. 8 shows the positional relationship between the valve element (31) and the inner cap member (50) when fully opened.

  Ideally, the fixing portion (52) should be detached from the housing (33) at the same time as the liquid side valve device (30) is fully opened. For this purpose, L1 = Ho may be set, but in actuality, L1 is made larger than Ho in consideration of manufacturing variations and the like. Specifically, taking into account variations in the amount of movement of the valve element (31) from the fully closed state to the fully open state, dimensional variations in the inner cap member (50), etc., how much larger L1 is than Ho You can decide what to do.

<Installation of air conditioner, operation of valve device>
When installing the air conditioner (10), the outdoor unit (11) and the indoor unit (12) are connected by the liquid side connecting pipe (13) and the gas side connecting pipe (14). Specifically, the liquid side communication pipe (13) connects the liquid side valve device (30) by, for example, a flare joint. Similarly, the gas side connecting pipe (14) is connected to the gas side valve device (40) by, for example, a flare joint. At this stage, the liquid side valve device (30) and the gas side valve device (40) are fully closed.

  Then, after completing predetermined work such as pipe connection, the liquid side valve device (30) and the gas side valve device (40) are fully opened. In this example, the valve element (31) is screwed back by a predetermined amount by the hexagonal wrench inserted into the hexagonal hole (31d) through the through hole (53) of the inner cap member (50) to be fully opened. In the process of fully opening the valve device (30, 40), when the valve body (31) moves outward in the movement path (34) (the direction in which the valve body (31) moves away from the valve seat (36)), The cap member (50) is pushed outward of the moving path (34) by the valve body (31), and when the liquid side valve device (30) is fully opened, the fixed portion (52 ) Is released. When the inner cap member (50) is thus removed from the movement path (34), the outer cap (60) is fixed to the male screw (34c) of the housing (33). FIG. 9 shows a state in which the outer cap (60) is attached to the liquid side valve device (30) in the fully opened state.

  It is also conceivable that an operator who does not know the regular work procedure tries to attach the outer cap (60) after returning the detached inner cap member (50). However, even if, for example, the base end (51) is directed to the moving path (34) and the inner cap member (50) is returned, in the present embodiment, the outer diameter of the base end (51) is the moving path ( Since the inner diameter (D0) of 34) is smaller, the fixed part (52) is not held by the moving path (34), and the inner cap member (50) can be easily removed (for example, dropped) from the moving path (34). (See FIG. 8). For this reason, it is considered that the operator easily notices that he / she is not working in the normal procedure of attaching the outer cap (60) after removing the inner cap member (50).

  FIG. 10 shows a state in which the inner cap member (50) is tried to be fitted in the reverse direction. In the present embodiment, since the total length (L1) of the base end portion (51) is set so that Ho ≦ L1, for example, the inner cap is directed with the fixed portion (52) side facing the moving path (34). Even if the member (50) is forcibly fitted in the movement path (34), the inner cap member (50) protrudes from the movement path (34) and the outer cap (60) cannot be attached to the housing (33). . For this reason, it is considered that the operator easily notices that the work is not performed according to the regular procedure.

<Effect in this embodiment>
As described above, in the present embodiment, when the liquid side valve device (30) and the gas side valve device (40) are fully opened, the inner cap member (50) is detached from the moving path (34). Therefore, for example, in the air conditioner (10), when malfunction occurs during installation work, etc., the liquid side valve device (30) and gas side can be checked by checking the presence of the inner cap member (50). It is possible to visually check whether the valve device (40) is fully opened. Confirmation of the presence or absence of the inner cap member (50) is much easier than visually confirming the state (position) of the valve body (31). That is, according to this embodiment, the open state or the closed state of the valve device (30, 40) can be easily visually confirmed. In particular, the inner cap member (50) is used when the outdoor unit (11) is installed in a narrow or dim place where it is difficult to access the liquid side valve device (30) and the gas side valve device (40). This is useful when determining the cause of malfunction.

<< Embodiment 2 of the Invention >>
Another example of the inner cap member (50) will be described as Embodiment 2 of the present invention. FIG. 11 shows a mounted state of the inner cap member (50) according to the second embodiment of the present invention. The inner cap member (50) of the present embodiment is also made of resin and has an umbrella-like structure as shown in FIG. Also in this example, the inner cap member (50) includes a base end portion (51) and a fixing portion (52) which are integrally formed.

  The base end portion (51) is shaped so as to fit with play in the moving path (34). Also in this example, the base end portion (51) is cylindrical, and the outer diameter of the base end portion (51) is set smaller than the inner diameter (D0) of the moving path (34).

  Also in this embodiment, the fixed portion (52) is shaped so as to be held in contact with the inner peripheral surface of the moving path (34) inside the moving path (34) and outside the base end (51). Is defined. Specifically, the fixed portion (52) has a disk shape, and its outer diameter (D1) can be reduced by elastic deformation. However, the outer diameter (D1) of the fixed portion (52) is set to be slightly larger than the inner diameter (D0) of the moving path (34) when the diameter is not reduced. With this dimension setting, when the fixed portion (52) is inserted into the moving path (34) while being elastically deformed, the inner cap member (50) is held on the inner peripheral surface of the moving path (34). In the present embodiment, when the inner cap member (50) is inserted into the moving path (34), the base end (51) side is directed to the valve body (31), and the fixed part (52) is moved to the moving path. It is bent to the back side (downward in FIG. 11) of (34). Also in this example, the inner cap member (50) is pushed in until the end surface of the base end portion (51) contacts the outer end (31e) of the valve body (31).

  The inner cap member (50) of the present embodiment is also dimensioned (height) so that the inner cap member (50) in the fully closed state fits in the movement path (34) at a position outside the valve body (31). Is set. Specifically, as shown in FIG. 11, when the total height (size in the insertion direction) of the inner cap member (50) is L, the total height (L) of the inner cap member (50) is set so that Hc ≧ L. It is set. Here, Hc is the distance from the outer end (31e) of the valve body (31) to the outer end (34a) of the moving path (34) in the fully closed state (see FIG. 11).

  In the liquid side valve device (30) of the present embodiment, when the valve body (31) is rotated to open the liquid side valve device (30), the inner cap is moved along with the movement of the valve body (31). The member (50) is pushed out from the moving path (34). In order to realize this, in this embodiment, assuming that the total length from the bottom surface of the base end portion (51) (the surface that contacts the valve body (31)) to the outer peripheral portion of the fixed portion (52) is L1, Ho ≦ L1 The total length (L1) is set so that Here, Ho is the distance from the outer end (31e) of the valve body (31) to the outer end (34a) of the moving path (34) in the fully opened state. However, L1 is the height evaluated in a state where the inner cap member (50) is fitted in the movement path (34) (that is, in a mounted state) as shown in FIG. In the mounted state, the fixed portion (52) is bent to the back side of the moving path (34), but when the inner cap member (50) is viewed alone, the fixed portion (52) is seen from the bottom surface of the base end portion (51). The total height (L2) up to the outer periphery of is greater than L1. FIG. 12 shows the positional relationship between the valve body (31) and the inner cap member (50) when the liquid side valve device (30) of the present embodiment is fully opened.

  Also in this embodiment, the inner cap member (50) is formed with a through hole (53) that penetrates the base end portion (51) and the fixing portion (52) (see FIG. 11). This through hole (53) is also a hole through which a tool (here, a hexagon wrench) that rotates the valve body (31) is passed. Also in this embodiment, the inner diameter of the through hole (53) is set larger than the outer diameter of the hexagon wrench so that the hexagon wrench can be easily inserted into and removed from the through hole (53).

<Effect in this embodiment>
With the above configuration, also in the present embodiment, when the liquid side valve device (30) and the gas side valve device (40) are fully opened, the inner cap member (50) is detached from the moving path (34). Therefore, similarly to the example of the first embodiment, it can be easily visually confirmed whether or not the valve device (30, 40) is fully opened. Of course, this embodiment also determines the cause of malfunction when the outdoor unit (11) is installed in a narrow or dim place where it is difficult to access the liquid side valve device (30) and the gas side valve device (40). Useful when doing.

  Further, when the fixed portion (52) is pushed out of the moving path (34) in the process of fully opening the valve device (30, 40), the fixed portion (52) expands and its outer diameter (D1) becomes the moving path (34 ) Is larger than the inner diameter (D0). Therefore, the possibility that the operator mistakenly fits the inner cap member (50) into the moving path (34) again is reduced.

<< Other Embodiments >>
In addition, if the inner cap member (50) is colored in a color different from that of the valve body (31), for example, the visibility of the inner cap member (50) is increased, and it is easier to confirm the presence or absence of the inner cap member (50). become.

  In addition, the inner cap member (50) includes a fluorescent material that emits visible light in the material constituting the inner cap member (50), or fluorescent light that emits visible light in a portion visible from the opening of the movement path (34). By applying the material, the visibility in a dim place or the like is further increased, and the presence / absence of the inner cap member (50) is more easily confirmed.

  Moreover, resin employ | adopted as a material of an inner side cap member (50) is an illustration, You may employ | adopt another material.

  The shape of the inner cap member (50) is an example, and is not limited to the shape of the above embodiment.

  The present invention is useful as a valve device that switches the communication state of a flow path.

30 Liquid valve device (valve device)
31 Valve body 33 Housing 34 Movement path 35 Flow path 40 Gas side valve device (valve device)
50 Inner cap member (cap member)
51 Base end portion 52 Fixing portion 53 Through hole

Claims (5)

A valve body (31) that switches the communication state of the flow path (35), a cylindrical movement path (34) that accommodates the valve body (31) and moves inside the valve body (31), and the flow path ( 35) and a housing (33) formed therein, one end of the moving path (34) is open to the outside of the housing (33), and the valve body (31) is engaged with a screw inside, When the valve body (31) is screwed into the rear side of the moving path (34) by a predetermined amount, the valve body (31) is fully closed. In the valve device in the state,
A cap member (50) that is accommodated in the fully closed state and held on the inner peripheral surface of the moving path (34) at a position inside the moving path (34) and outside the valve body (31). A valve device characterized by comprising. In claim 1,
The cap member (50) includes a base end (51) that fits in the movement path (34) with play, and an outer side of the base end (51) in the movement path (34). And a fixed portion (52) held in contact with the inner peripheral surface of the moving path (34). In claim 2,
The total length (L1) of the base end portion (51) in the moving direction of the valve body (31) is from the outer end (31e) of the valve body (31) in the fully opened state to the outer end of the moving path (34). (34a) The valve apparatus characterized by being larger than the distance (Ho). In any one of Claims 1-3,
The cap device (50) is formed with a through hole (53) through which a tool for rotating the valve body (31) is passed. In any one of Claims 1-4,
The valve member characterized in that the cap member (50) contains a fluorescent material that emits visible light or is coated with a fluorescent agent.

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