CN111878604B

CN111878604B - Butterfly valve

Info

Publication number: CN111878604B
Application number: CN202010710369.7A
Authority: CN
Inventors: 陈远来; 刘大潭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2022-11-18
Anticipated expiration: 2040-07-22
Also published as: CN111878604A

Abstract

The invention relates to a disc valve, which comprises a body and a disc. The body at least comprises a first flow passage, a second flow passage and a third flow passage, and the first flow passage, the second flow passage and the third flow passage are communicated. The disc is in an elliptic sheet shape and comprises a long shaft and a short shaft, and the disc is pivoted in the body and can swing between a first position and a second position. The butterfly valve of the invention can effectively control the communication relation of a plurality of pipelines, can replace the conventional method of installing a plurality of valves to control the communication degree among a plurality of pipelines, and has simple structure and difficult failure.

Description

Butterfly valve

Technical Field

The invention relates to a butterfly valve.

Background

Generally, when the communication of pipelines is controlled, valves are used to control the communication of the pipelines, and the valves are conventionally slid along the cross-sections of parallel pipelines to close the pipelines. However, such an arrangement greatly increases the cost for installing a plurality of valves, and installing a plurality of valves also easily increases the failure rate of a single valve, and often requires maintenance and replacement, which has the disadvantage of requiring urgent improvement.

Therefore, there is a need for a new and improved butterfly valve to solve the above problems.

Disclosure of Invention

The present invention is directed to a butterfly valve, which can effectively control the communication relationship between a plurality of pipes, can replace the conventional method of installing a plurality of valves to control the communication degree between a plurality of pipes, and has a simple structure and is not prone to malfunction.

To achieve the above objective, the present invention provides a disc valve, which includes a body and a disc. The body at least comprises a first flow passage, a second flow passage and a third flow passage, and the first flow passage, the second flow passage and the third flow passage are communicated. The disc is in an elliptic sheet shape and comprises a long shaft and a short shaft, and the disc is pivoted in the body and can swing between a first position and a second position. When the disc is located at the first position, the disc shields the communication between the first flow channel and the third flow channel and does not shield the communication between the first flow channel and the second flow channel; when the disc is located at the second position, the disc blocks the communication between the first flow channel and the second flow channel and does not block the communication between the first flow channel and the third flow channel. The disc valve also includes an L-shaped plate, the disc is an integrally formed single piece, the L-shaped plate extends along the short axis and is disposed on a side of the disc, when the disc swings to the first position, the turning angle of the L-shaped plate points to the first flow channel, and when the disc swings to the second position, the turning angle of the L-shaped plate points to the second flow channel.

Preferably, the disc is pivoted in the body in the axial direction with the short shaft as the rotation axis, the body is provided with two opposite through holes, and two rotation shafts are respectively pivoted in the two through holes along the axial direction and are assembled with the disc.

Preferably, the first flow channel, the second flow channel and the third flow channel are distributed along the rotation circumference of the disk.

Preferably, the second flow channel and the third flow channel are located at opposite radial ends of the minor axis as viewed along the axial direction.

Preferably, the body includes a first pipe, the disc is pivoted in the first pipe, and the first flow channel is disposed at one end of the first pipe.

Preferably, the body further includes a second pipeline and a third pipeline, the second pipeline and the third pipeline are transversely communicated with two opposite sides of the middle section of the first pipeline, the second flow channel is disposed on the second pipeline, and the third flow channel is disposed on the third pipeline.

Preferably, the length of the disc along the minor axis is the same as the pipe diameter of the first pipe.

Preferably, the disc does not extend into the second and third pipelines when the disc swings between the first and second positions, and the length of the disc along the long axis is greater than the pipe diameters of the second and third pipelines.

Preferably, the optical disc drive further comprises a fourth flow channel, the fourth flow channel is arranged at one end of the first pipeline opposite to the first flow channel, when the optical disc is located at the first position, the optical disc is pressed against the upper half part of the first flow channel and the lower half part of the fourth flow channel, and the third flow channel is communicated with the fourth flow channel; when the disc is at the second position, the disc is pressed against the lower half part of the first flow passage and the upper half part of the fourth flow passage, and the second flow passage is communicated with the fourth flow passage.

Preferably, the first flow channel, the second flow channel and the third flow channel are distributed along the rotation circumference of the disk; wherein, viewed along the axial direction, the second flow channel and the third flow channel are positioned at two opposite radial ends of the short shaft; the body comprises a first pipeline, the disc is pivoted in the first pipeline, and the first flow channel is arranged at one end of the first pipeline; the body also comprises a second pipeline and a third pipeline, the second pipeline and the third pipeline are transversely communicated with two opposite sides of the middle section of the first pipeline, the second flow channel is arranged on the second pipeline, and the third flow channel is arranged on the third pipeline; the length of the disc along the short shaft is the same as the pipe diameter of the first pipeline; the length of the disc along the long axis is greater than the pipe diameters of the second pipeline and the third pipeline; the disc is pressed against the upper half part of the first flow channel and the lower half part of the fourth flow channel when the disc is positioned at the first position, and the third flow channel is communicated with the fourth flow channel; when the disc is at the second position, the disc is pressed against the lower half part of the first flow passage and the upper half part of the fourth flow passage, and the second flow passage is communicated with the fourth flow passage; the body is a four-way pipe; the first flow channel is communicated with the fourth flow channel in a straight line, and the second flow channel is communicated with the third flow channel in a straight line and is transverse to the first flow channel and the fourth flow channel; a rotating member coupled to the rotating shaft and located outside the body to drive the disc to rotate; the inner pipe wall of the first pipeline is a round pipe.

The invention has the advantages that:

the butterfly valve provided by the invention can effectively control the communication relation of a plurality of pipelines, can replace the conventional method of installing a plurality of valves to control the communication degree among a plurality of pipelines, and has simple structure and difficult failure.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is an exploded view of a preferred embodiment of the present invention.

FIG. 3 is a partial perspective view of a preferred embodiment of the present invention.

FIG. 4 is a partial top view of a preferred embodiment of the present invention.

Fig. 5 to 7 are schematic views illustrating the operation of a preferred embodiment of the present invention.

FIG. 8 is a schematic view of another preferred embodiment of the present invention.

Detailed Description

The following description is given by way of example only, and is not intended to limit the scope of the invention.

Referring to fig. 1 to 7, which show a preferred embodiment of the present invention, the butterfly valve of the present invention includes a body 1 and a disc 2.

The main body 1 at least includes a first flow channel 11, a second flow channel 12 and a third flow channel 13, wherein the first flow channel 11, the second flow channel 12 and the third flow channel 13 are communicated.

The disc 2 is in an elliptical sheet shape and comprises a long axis 21 and a short axis 22, and the disc 2 is pivoted in the body 1 and can swing between a first position and a second position.

When the disc 2 is located at the first position (as shown in fig. 5), the disc 2 blocks the communication between the first flow channel 11 and the third flow channel 13 and does not block the communication between the first flow channel 11 and the second flow channel 12; when the disc 2 is located at the second position (as shown in fig. 7), the disc 2 blocks the communication between the first flow channel 11 and the second flow channel 12 and does not block the communication between the first flow channel 11 and the third flow channel 13; in addition, when the disc 2 swings to the middle position between the first position and the second position (as shown in fig. 6), the disc 2 does not block the first flow channel 11, the second flow channel 12 and the third flow channel 13 from communicating with each other, so as to connect the fluids in the three flow channels. Wherein, the disc valve further comprises an L-shaped plate, the disc 2 is an integrally formed single piece, the L-shaped plate is extended along the short axis 22 and arranged on one side surface of the disc 2, when the disc 2 swings to the first position, the turning angle of the L-shaped plate points to the first flow channel 11, and when the disc 2 swings to the second position, the turning angle of the L-shaped plate points to the second flow channel 12. Therefore, the present invention only needs to provide a single disc 2 to effectively control the communication relationship of plural pipelines, which can replace the conventional method that requires installing plural valves to control the communication degree among plural pipelines, and the structure of the disc valve is simple and not easy to fail.

Specifically, the disc 2 is pivoted in the body 1 in the axial direction of the rotation of the short shaft 22, the body 1 is provided with two opposite through holes 18, two rotation shafts 4 are respectively pivoted in the two through holes 18 along the axial direction and are assembled with the disc 2, so that the disc 2 can rotate smoothly, and the two rotation shafts 4 can prevent fluid from leaking from the two through holes 18 to the outside. Preferably, a rotating member 5 is coupled to the rotating shaft 4 and located outside the main body 1 to rotate the disc 2, and the rotating member 5 can be coupled to a motor or other rotating tool.

Furthermore, the first flow channel 11, the second flow channel 12 and the third flow channel 13 are distributed along the rotation circumference of the disc 2, so that the communication between the first flow channel 11 and the second flow channel 12 or the communication between the first flow channel 11 and the third flow channel 13 can be controlled by the rotation of the disc 2. Wherein the second flow channel 12 and the third flow channel 13 are located at two opposite radial ends of the short shaft 22 viewed along the axial direction. The two rotating shafts 4 are located at two sides of the L-shaped plate and are axially opposite to the L-shaped plate, a sidewall of the L-shaped plate vertically extends from a side surface of the disc 2 and is higher than the two rotating shafts 4, and center lines of the first flow channel 11, the second flow channel 12 and the third flow channel 13 extend through the L-shaped plate.

In addition, the main body 1 includes a first pipeline 15, the disc 2 is pivoted in the first pipeline 15, and the first flow channel 11 is disposed at one end of the first pipeline 15. In the embodiment, the length of the disc 2 along the short axis 22 is the same as the diameter of the first pipeline 15, and the inner wall of the first pipeline 15 is a circular pipe.

Preferably, the body 1 further includes a second pipeline 16 and a third pipeline 17, the second pipeline 16 and the third pipeline 17 are transversely communicated with two opposite sides of the middle section of the first pipeline 15, the second flow channel 12 is disposed on the second pipeline 16, and the third flow channel 13 is disposed on the third pipeline 17. In detail, the disc 2 does not extend into the second and

third pipes

16 and 17 when swinging between the first and second positions, and the length of the disc 2 along the long axis 21 is greater than the pipe diameters of the second and

third pipes

16 and 17, so as to reliably block the communication between the first and

third flow channels

11 and 12 or the communication between the first and

third flow channels

11 and 13.

It should be noted that the butterfly valve further includes a fourth flow channel 14, the fourth flow channel 14 is disposed at an end of the first pipeline 15 opposite to the first flow channel 11, wherein when the disc 2 is located at the first position, the disc 2 abuts against an upper half portion of the first flow channel 11 and a lower half portion of the fourth flow channel 14, and the third flow channel 13 is communicated with the fourth flow channel 14, as viewed along the axial direction (as shown in fig. 5 to 7); when the disc 2 is located at the second position, the disc 2 is pressed against the lower half of the first flow channel 11 and the upper half of the fourth flow channel 14, and the second flow channel 12 is communicated with the fourth flow channel 14, so that a more diversified communication effect can be achieved.

It should be noted that the main body 1 is a four-way pipe, the first flow channel 11 is in a straight line communication with the fourth flow channel 14, the second flow channel 12 is in a straight line communication with the third flow channel 13 and is transverse to the first flow channel 11 and the fourth flow channel 14, and the distribution and arrangement relationship among the first flow channel, the second flow channel, the third flow channel and the fourth flow channel may be in other forms in other embodiments. In other embodiments, the first pipeline 15A of the main body 1A may not have the fourth flow channel, and the main body 1A is a tee (as shown in fig. 8), which is not limited thereto.

In summary, the disc valve of the present invention only needs to be provided with a single disc to effectively control the communication relationship between a plurality of pipelines, which can replace the conventional method of installing a plurality of valves to control the communication degree between a plurality of pipelines, and the structure of the disc valve is simple and is not easy to fail.

The above description is of the preferred embodiment of the present invention and the technical principles applied thereto, and it will be apparent to those skilled in the art that any changes and modifications based on the equivalent changes and simple substitutions of the technical solution of the present invention are within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims

1. A butterfly valve, comprising:

the body at least comprises a first flow passage, a second flow passage and a third flow passage, and the first flow passage, the second flow passage and the third flow passage are communicated;

a disc, which is in an elliptic sheet shape and comprises a long shaft and a short shaft, wherein the disc is pivoted in the body and can swing between a first position and a second position;

when the disc is located at the first position, the disc shields the communication between the first flow channel and the third flow channel and does not shield the communication between the first flow channel and the second flow channel; when the disc is located at the second position, the disc shields the communication between the first flow channel and the second flow channel and does not shield the communication between the first flow channel and the third flow channel;

wherein, the disc valve also includes a L-shaped plate, the disc is a single piece of component formed integrally, the L-shaped plate extends along the short axis and is disposed on a side of the disc, when the disc swings to the first position, the turning angle of the L-shaped plate points to the first flow channel, when the disc swings to the second position, the turning angle of the L-shaped plate points to the second flow channel;

wherein, the disc is pivoted in the body in the axial direction taking the short shaft as the rotation, the body is provided with two opposite through holes, and two rotating shafts are respectively pivoted in the two through holes along the axial direction and are assembled with the disc;

the two rotating shafts are positioned at two sides of the L-shaped plate and are axially opposite to the L-shaped plate;

wherein, a side wall of the L-shaped plate extends vertically to the side of the disc and is higher than the two rotating shafts;

the center lines of the first flow channel, the second flow channel and the third flow channel extend through the L-shaped plate.

2. The butterfly valve of claim 1, wherein the first flow passage, the second flow passage, and the third flow passage are distributed along a circumferential direction of rotation of the disk.

3. The butterfly valve of claim 1 wherein, viewed axially, the second flow passage and the third flow passage are located at opposite radial ends of the minor axis.

4. The butterfly valve of claim 1 wherein the body includes a first conduit, the disc being pivotally disposed in the first conduit, the first flow passage being disposed at an end of the first conduit.

5. The butterfly valve of claim 4 wherein the body further includes a second conduit and a third conduit, the second conduit and the third conduit being in transverse communication with opposite sides of the middle section of the first conduit, the second flow passage being defined in the second conduit and the third flow passage being defined in the third conduit.

6. The butterfly valve of claim 4 wherein the length of the disk along the minor axis is the same as the diameter of the first conduit.

7. The butterfly valve of claim 5 wherein the disc does not extend into the second and third conduits when the disc oscillates between the first and second positions, the length of the disc along the major axis being greater than the diameters of the second and third conduits.

8. The butterfly valve according to any of the claims 4 to 7, further comprising a fourth flow channel disposed at an end of the first pipe opposite to the first flow channel, wherein when the disk is located at the first position, the disk abuts against an upper half of the first flow channel and a lower half of the fourth flow channel, and the third flow channel is communicated with the fourth flow channel; when the disc is at the second position, the disc is pressed against the lower half part of the first flow channel and the upper half part of the fourth flow channel, and the second flow channel is communicated with the fourth flow channel.

9. The butterfly valve of claim 1, wherein the first flow channel, the second flow channel, and the third flow channel are distributed along a circumferential direction of rotation of the disk; wherein, viewed along the axial direction, the second flow channel and the third flow channel are positioned at two opposite radial ends of the short shaft; the body comprises a first pipeline, the disc is pivoted in the first pipeline, and the first flow channel is arranged at one end of the first pipeline; the body also comprises a second pipeline and a third pipeline, the second pipeline and the third pipeline are transversely communicated with two opposite sides of the middle section of the first pipeline, the second flow channel is arranged on the second pipeline, and the third flow channel is arranged on the third pipeline; the length of the disc along the short shaft is the same as the pipe diameter of the first pipeline; the length of the disc along the long axis is greater than the pipe diameters of the second pipeline and the third pipeline; the disc is pressed against the upper half part of the first flow channel and the lower half part of the fourth flow channel when the disc is positioned at the first position, and the third flow channel is communicated with the fourth flow channel; when the disc is at the second position, the disc is pressed against the lower half part of the first flow channel and the upper half part of the fourth flow channel, and the second flow channel is communicated with the fourth flow channel; the body is a four-way pipe; the first flow channel is communicated with the fourth flow channel in a straight line, and the second flow channel is communicated with the third flow channel in a straight line and is transverse to the first flow channel and the fourth flow channel; a rotating member coupled to the rotating shaft and located outside the body to drive the disc to rotate; the inner pipe wall of the first pipeline is a round pipe.