KR200495283Y1 - Angle valve with rotatable spindle - Google Patents

Abstract

The auxiliary device allows the valve to be rotatably provided at the end of the spindle, so that even when an error occurs in the connection state of the pipe and the angle valve or the end of the pipe is not processed uniformly, the valve installed at the tip of the spindle is accurately positioned at the end of the pipe when the spindle moves. It relates to an angle valve equipped with a rotatable spindle that can be closely adhered so that the flow of a fluid flowing in the pipe can be effectively controlled, as well as the pressure inside the pipe can be stably maintained.
A reducing tee having a rotatable spindle according to a preferred embodiment of the present invention includes a tee-shaped reducing tee with both ends and one extended side open, a pipe inserted and connected to one end of the reducing tee, and the reducing tee is fixed to the other end It is provided with a sleeve through which the center is formed, and is coupled through the sleeve so as to linearly move in and out of the reducing tee according to the rotational direction. A spindle coupled rotatably and provided with a spanner at the rear end, and a cap detachably coupled to the end of the sleeve, the rear end of the spindle is accommodated therein, and a cap that is selectively removed from the sleeve when the spindle is linearly moved characterized in that it is included.

Description

Angle valve with rotatable spindle

The present invention relates to an angle valve provided with a spindle that is installed in an absorption chiller, etc. and opens and closes the inside depending on whether or not it operates to control the flow of a fluid or gas flowing therein.

In general, various types of connection pipes such as angle valves are provided at the connection point of the pipe through which a fluid such as fluid or gas flows, such as an absorption refrigerator, and a spindle for controlling the flow of the fluid is operated in this connection pipe as needed provided possible.

Various types of these connecting pipes are selected depending on the number of pipes to be connected. At the connection point of the connecting pipe, the end of the pipe through which the fluid flows is inserted and connected, and on one side of the connecting pipe, the end of the pipe is opened or closed depending on whether it is linearly moved. this is installed

As shown in FIG. 1, the spindle is provided with a valve (b) selectively attached to the end of the pipe according to the linear movement of the spindle (a) at the end thereof. A coupling bundle (c) is provided at an end of the spindle (a), and a coupling space (d) to which the coupling bundle (c) is closely coupled is formed in the valve (b). That is, by linearly moving the spindle (a) to open and close the end of the pipe through the valve (b) to control the flow of the fluid.

However, since the conventional coupling structure of the spindle (a) and the valve (b) has a structure in which the coupling bundle (c) is closely coupled in the coupling space (d), rotation of the valve (b) with respect to the spindle (a) is impossible Do. In this structure, when there is no error in the connection state of the pipe and the connecting pipe and the end of the pipe is processed uniformly, the central axis of the pipe and the central axis of the valve (b) and the spindle (a) are precisely located on the same line. Accordingly, the valve (b) can be in close contact with the end of the pipe, so that the flow of the fluid can be effectively controlled, and at the same time, the pressure inside the pipe can also be stably maintained.

However, if an error occurs in the connection state of the pipe and the connecting pipe or the end of the pipe is not processed uniformly, the central axis of the pipe and the central axis of the valve (b) and the spindle (a) cannot be located on the same line, As a result, the valve (b) cannot be accurately adhered to the pipe end. Therefore, there was a problem that the flow of the fluid could not be effectively controlled, and at the same time, the pressure inside the pipe could not be maintained stably. Moreover, when such a problem occurs, there is a problem in that it is inconvenient to dismantle and reinstall the pipe welded to the connecting pipe, extending the construction period and increasing the construction cost.

1. Korea Utility Model Registration Publication No. 20-0097133 (June 5, 1996) 2. Korea Utility Model Registration Publication No. 20-0427940 (September 26, 2006)

Therefore, the present invention allows the valve to be rotatably provided at the end of the spindle, so that even when an error occurs in the connection state of the pipe and the connecting pipe or the end of the pipe is not processed uniformly, the valve installed at the end of the spindle is installed at the end of the pipe when the spindle moves. An object of the present invention is to provide an angle valve equipped with a rotatable spindle so that the pressure inside the pipe can be stably maintained as well as the flow of the fluid flowing in the pipe can be effectively controlled because it can be accurately adhered.

In order to achieve the above object, the present invention has a tee-shaped reducing tee with both ends and one extended side open, a pipe inserted and connected to one end of the reducing tee, and a sleeve fixed to the other end of the reducing tee and formed through the center And, a valve that is rotatably coupled to the sleeve so as to move linearly in and out of the reducing tee according to the rotational direction is rotatably coupled to the front end side of the valve that allows the pipe end inserted into one end of the reducing tee to be opened and closed according to the degree of movement, and a spanner is provided at the rear end Rotatable, characterized in that it includes a spindle with an additional portion and a cap detachably coupled to the end of the sleeve, the rear end of the spindle is accommodated therein, and a cap selectively removed from the sleeve when the spindle is linearly moved. An angle valve equipped with a spindle is provided.

In the present invention, a rotating bundle is formed at the tip of the spindle, and a space portion is formed inside one side of the valve to enable rotatable coupling of the valve to the spindle.

In the present invention, a spherical protrusion is formed protruding from the end of the rotating bundle, and a spherical groove corresponding to the spherical protrusion is formed on one surface of the space portion and capable of rotation of the spherical protrusion.

In the present invention, the space portion is to be formed to be larger than the rotation bundle so that a space that can be rotated in a state in which the valve is coupled to the rotation assembly can be secured.

In the present invention, a first thread is formed on the inner periphery of the sleeve, and a second thread is formed on the outer periphery of the spindle to be engaged with the first thread to move linearly along the sleeve according to the rotational direction.

The angle valve equipped with a rotatable spindle as described above allows the valve to be rotatably provided at the end of the spindle, so that even when an error occurs in the connection state of the pipe and the connecting pipe or the end of the pipe is not processed uniformly, when the spindle moves Since the valve installed at the front end can be accurately adhered to the end of the pipe, the flow of the fluid flowing inside the pipe can be effectively controlled, and the pressure inside the pipe can also be stably maintained.

1 is a cross-sectional view of a spindle according to the prior art;
Figure 2 is an exploded view of an angle valve provided with a rotatable spindle according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the spindle and the valve of the angle valve provided with a rotatable spindle according to an embodiment of the present invention.
Figure 4 is an operation view of the angle valve provided with a rotatable spindle according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is for the purpose of describing in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily implement the design, and this does not mean that the technical spirit and scope of the present invention are limited thereto.

2 is an exploded view of an angle valve equipped with a rotatable spindle according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view of the spindle and valve of an angle valve equipped with a rotatable spindle according to an embodiment of the present invention , Figure 4 is an operation diagram of an angle valve provided with a rotatable spindle according to an embodiment of the present invention.

An angle valve with a rotatable spindle according to an embodiment of the present invention includes a reducing tee having both ends and one extended side open, a pipe inserted and connected to one end of the reducing tee, and fixed to the other end of the reducing tee It is provided with a sleeve through which the center is formed, and is coupled through the sleeve so as to linearly move in and out of the reducing tee according to the rotational direction. A spindle coupled rotatably with a spanner portion at the rear end, and a cap detachably coupled to an end of the sleeve, the rear end of the spindle is accommodated therein, and a cap selectively removed from the sleeve when the spindle is linearly moved. Included.

Hereinafter, the components of the angle valve 1 provided with a rotatable spindle according to an embodiment of the present invention and the connection relationship between the components will be described in detail with reference to FIGS. 2 to 4 .

First, referring to FIG. 2 , a reducing tee 10 is provided. The reducing tee 10 is mounted so that components to be described later can be used, and serves to branch a fluid, such as a fluid or gas, introduced therein. This reducing tee 10 is formed in a tee (T) shape with both ends and one extended side open, one end of which is connected to a pipe 20 to be described later and the other end is a sleeve 30 and spindle 40 to be described later. ) is installed. In addition, another pipe may be connected to the extended side, or a member such as a discharge port may be connected.

Such a reducing tee 10 can be changed to any structure as long as the pipe 20 and the spindle 40 for opening and closing the end of the pipe 20 can be positioned on the same line.

A pipe 20 is connected to one end of the reducing tee 10 described above. The pipe 20 serves to cause the fluid to flow into the reducing tee 10 and is inserted so that the end thereof is positioned in the reducing tee 10, and is welded and fixed to one edge of the inserted reducing tee 10. The pipe 20 should be installed so that the central axis of the spindle 40 and its central axis, which will be described later, are located on the same line, and the end of the pipe 20 should be uniformly machined so as to be perpendicular to the central axis. However, in the welding process, if the pipe 20 may be installed away from the central axis of the spindle 40 and the end is also not processed uniformly, this can be corrected by the valve 41 rotatably installed in the spindle 40 to be described later. Do.

A sleeve 30 is fixed to the other open end of the reducing tee 10 . The sleeve 30 serves to install the spindle 40 to be described later so as to be movable in a linear manner. A first screw thread (not shown) is formed to enable linear movement according to the rotational direction of the spindle 40 through the coupling. Such a sleeve 30 is welded to the other end edge of the reducing tee 10 and should be installed so that the central axis of the pipe 20 and its central axis are located on the same line.

The aforementioned sleeve 30 is provided with a spindle 40 that is linearly moved in and out of the reducing tee 10 according to the rotational direction thereof. The spindle 40 serves to control the flow of the fluid flowing into the reducing tee 10 from the pipe 20. For this, the front end of the reducing tee 10 according to the degree of movement is inserted into one end of the pipe. (20) A valve 41 that opens and closes an end is rotatably coupled, and a spanner 45 for controlling the linear movement of the spindle 40 is provided at the rear end.

To this end, the front end of the spindle 40 is located in the reducing tee 10 with the valve 41 installed, and the rear end is located outside the sleeve 30 with the spanner part 45 provided. In addition, a second screw thread 44 is formed on the outer periphery of the spindle 40 to be engaged with the first screw thread and to move linearly along the sleeve 30 according to the rotational direction.

And on the side of the valve 41 in close contact with the end of the pipe 20, a packing 411 that can be inserted into the pipe 20 is provided with a size corresponding to the inner diameter of the pipe 20, but between the packing 411 and the valve 41 A plate 412 is interposed so that airtightness and watertightness can be maintained. In addition, although not shown, an O-ring and a plate are inserted into the spindle 40 to maintain airtightness and watertightness in the sleeve 30 during the linear movement process.

The above-described spanner part 45 can cause the spindle 40 to linearly move in the front-rear direction by rotating the spindle using a general tool or the like in a state in which the cap 50, which will be described later, is removed.

The cap 50 is detachably screwed to the end of the sleeve 30 described above. The cap 50 protects the spindle 40 by accommodating the rear end side of the spindle 40 provided with the spanner part 45 therein, and at the same time linear movement of the spindle 40 using the spanner part 45 . It serves to be selectively removed from the sleeve 30 side when controlling the.

In one embodiment of the present invention, after the cap 50 is removed, the linear movement of the spindle 40 is controlled using the spanner part 45 provided at the rear end of the spindle 40, but the spindle 40 is the other end of the cap ( It is of course also possible to directly control the linear movement of the spindle 40 through the rotation of the cap 50 by being directly connected to the inside of the cap 50 and rotatably coupled in both directions to the sleeve 30 side of the cap 50 . At this time, the cap 50 may be provided with a component corresponding to the spanner portion 45, and may be provided with a handle so that the operator can control it while holding it by hand.

On the other hand, referring to FIG. 3 , a rotating bundle 42 is formed at the front end of the aforementioned spindle 40 , and a rotatable coupling of the valve 41 to the spindle 40 is possible inside one side of the valve 41 . A space portion 43 is formed.

And a spherical protrusion 421 is formed protruding from the end of the above-mentioned rotating bundle 42, and corresponds to the spherical protrusion 421 on one surface of the space 43, and a spherical groove 431 in which the spherical protrusion 421 can be rotated. this is formed In addition, the space portion 43 is formed to be larger than the rotation bundle 42 so that a space that can be rotated in the state in which the valve 41 is coupled to the rotation bundle 42 can be secured.

This configuration is for correcting this when the pipe 20 is installed to be deviated from the central axis of the spindle 40 during the welding process with the reducing tee 10 , or the end face to the valve 41 is not processed uniformly.

That is, referring to FIG. 4 in which an error occurs when the central axis of the pipe 20 deviates from the central axis with the spindle 40 , the spindle 40 is in a state in which the cap 50 is removed from the sleeve 30 . The spanner part 45 provided at the rear end is rotated using a general tool so that the valve 41 provided at the front end of the spindle 40 is linearly moved toward the pipe 20 . When the valve 41 starts to come into contact with the end of the pipe 20 , the spherical projection 421 of the rotating bundle 42 flows in the spherical groove 431 of the space 43 , and the central axis of the valve 41 . It rotates in accordance with the central axis direction of this pipe (20).

At this time, the space 43 is formed to be larger than the rotating bundle 42, so that a space in which the rotating bundle 42 can be sufficiently rotated is provided. When the valve 41 is completely in close contact with the end of the pipe 20 and the spindle 40 is rotated until the spindle 40 is no longer linearly moved, the end of the pipe 20 is completely closed and the fluid You have full control over the flow.

The angle valve with a rotatable spindle as described above allows the valve to be rotatably provided at the end of the spindle. Since the valve installed at the front end can be precisely in close contact with the pipe end, the flow of the fluid flowing inside the pipe can be effectively controlled, and the pressure inside the pipe can also be stably maintained.

Although the above embodiment has been described by way of example, it is apparent to those skilled in the art that the present invention can be embodied in various other forms without departing from the spirit and scope thereof. Accordingly, the above-described embodiments should be regarded as illustrative rather than restrictive, and all implementations within the scope of the appended claims and their equivalents will be included within the scope of the present invention.

1: Angle valve with rotatable spindle
10: reducing tea
20: pipe
30: sleeve
40: spindle
41: valve
411: packing
412: plate
42: rotating bundle
421: spherical projection
43: space part
431: spherical groove
44: second thread
45: spanner part
50 : cap

Claims (5)

The reducing tee 10 in the form of a tee with both ends and one extended side open;
a pipe 20 inserted and connected to one end of the reducing tee 10;
a sleeve 30 fixed to the other end of the reducing tee 10 and having a center formed therethrough;
The end of the pipe 20 inserted into one end of the reducing tee 10 according to the degree of movement at the front end is coupled through the sleeve 30 so as to move linearly in and out of the reducing tee 10 according to the rotational direction. a spindle 40 to which the valve 41 is rotatably coupled and provided with a spanner part 45 at the rear end thereof; and
A cap 50 that is detachably coupled to the end of the sleeve 30, the rear end of the spindle 40 is accommodated therein, and is selectively removed from the sleeve 30 when the spindle 40 is linearly moved. is included,
A rotating bundle 42 is formed at the front end of the spindle 40, and a space 43 is provided inside one side of the valve 41 so that the valve 41 can be rotatably coupled to the spindle 40. is formed,
A spherical protrusion 421 is protruded from the end of the rotating bundle 42, and a spherical groove 431 corresponding to the spherical protrusion 421 on one surface of the space 43 and capable of rotation of the spherical protrusion 421 is provided. formed,
The space part 43 is a rotatable spindle, characterized in that the valve 41 is formed larger than the rotation bundle 42 so that a rotational space can be secured in a state in which the valve 41 is coupled to the rotation bundle 42 . Angle valve provided.
delete delete delete The method according to claim 1,
A first thread is formed on the inner periphery of the sleeve 30, and a second thread 44 meshes with the first thread on the outer periphery of the spindle 40 to linearly move along the sleeve 30 according to the rotational direction. ) angle valve with a rotatable spindle, characterized in that it is formed.

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