The invention relates to a piston device and a pressure regulator using the same.
In a pressure regulator, a piston device is used for controlling and regulating pressure of an outlet by a manner that one end of the piston device is connected with and driven by a valve rod. A valve port 300 is arranged between an inlet 100 and the outlet 200, one end of the valve rod 110 is connected with the piston device 120, and the valve rod 110 drives the piston device 120 to move up and down to control the opening and closing of the valve port 300 so as to adjust the pressure of the outlet 200.
Usually, an engineer arranges a perforated baffle plate 130 at the top of the piston device, a medium coming from the inlet 100 can flows into the piston device via the baffle plate 130, thus the pressure on the baffle plate 130 is equal to the pressure of the lower surface of the baffle plate, but such design is only based on the hypothesis of a static medium. Once the medium flows, the medium enters a lower part area B of the baffle plate 130 via an upper part area A of the baffle plate 130, and the flow speed of the medium at the upper part area A of the baffle plate 130 is obviously larger than that of the medium at the lower part area B of the baffle plate 130. Therefore, the fluid flow state of the area A is very unstable, which results in that the baffle plate 130 is subjected to an unstable force, and the supplying stability of the medium at a downstream outlet 200 is influenced. Furthermore, as a lower cavity of the baffle plate is closed, the flow speed of the medium inside is very low, and as the speed is in inverse proportion to the pressure, namely, the pressure is small if the speed is high and the pressure is large if the speed is low, the pressure under the baffle plate 130 is larger than the pressure on the baffle plate 130, the stresses of the upper and lower parts of the piston device are unbalanced and the downstream supplying stability is influenced as well.
The invention provides a piston device, which can improve the stress conditions on and under a baffle plate of the piston device and improve the stability of the whole system when a fluid medium flows via the piston device.
Specific technology embodiments of the invention provide a piston device, comprising a piston body and a baffle plate of which the surface is provided with openings, wherein the baffle plate is arranged in the piston body, and divides the piston body into an upper first area and a lower second area.
The distance between the baffle plate and the upper end part of the piston body is larger than or equal to 3 mm.
The distance between the baffle plate and the upper end part of the piston body is 4-35 mm.
The distance between the baffle plate and the upper end part of the piston body is 5, 10, 15, 20, 25 or 30 mm.
The piston body is also provided with a closing element, and the distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the closing element.
The closing element is a cutting edge, rubber part or metal end surface.
A positioning sleeve is arranged outside the piston body, and seal rings are arranged between the positioning sleeve and the piston body. The seal rings are O-shaped, Y-shaped or starlike.
A guide belt is further arranged between the positioning sleeve and the piston body, and the piston body and the baffle plate are in integral or split design.
The piston body and the baffle plate are installed via thread.
According to the piston device provided by the specific technology embodiments of the invention, the baffle plate is arranged in the piston body and divides the piston body into the first area and the second area at upper and lower positions respectively, so the fluid medium flowing via the piston device can enter the first area of the piston and enter the second area via the perforated baffle plate, and the fluid medium is buffered in the first area, so that the fluid medium is balanced between the first area and the second area. Similarly, the piston device provided by the embodiments of the invention is also suitable for gas mediums.
Furthermore, the inventor finds that when the distance between the baffle plate and the upper end part of the piston body is larger than or equal to 3 mm, the system performance of the whole piston device tends to be stable. Particularly, when the distance between the baffle plate and the upper end part of the piston body is equal to 4, 5, 10, 15, 20, 25 and 30 mm, the system performance is the best. The piston body is also provided with a closing element to help to realize a better sealing effect between the piston device and a valve port.
The distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the closing element.
When the closing element is a cutting edge, the distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the cutting edge. When the closing element is a rubber part, the distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the rubber part. When the closing element is a metal end surface, the distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the metal end surface.
Furthermore, the positioning sleeve is arranged outside the piston body, so the piston device can be tightly wrapped, and does not generate radial displacement during movement up and down.
Furthermore, the seal rings are arranged between the positioning sleeve and the piston body, when the piston device contacts with the valve port, a pressure regulator using the piston device is closed, and at the moment, the seal rings between the positioning sleeve and the piston body achieve a sealing effect, and prevent the medium from the inlet from entering the outlet side.
Furthermore, the guide belt is arranged between the positioning sleeve and the piston body. The piston device is further wrapped in the positioning sleeve, and the guide belt further achieves the effect of guiding and lubricating the piston body.
The piston body and the baffle plate can be in split connection and are convenient to detach and the piston body and the baffle plate can be installed via thread. The piston body and the baffle plate can be in integral design.
In another aspect, the specific technology embodiments of the invention also provide a pressure regulator, comprising any abovementioned piston device as well as an inlet, an outlet, a valve port and a valve rod; the valve port is arranged between the inlet and the outlet, one end of the valve rod is connected with the piston device, and the valve rod drives the piston device to move up and down to control the opening and closing of the valve port, and control the pressure of the medium, which enters from the inlet, flowing out of the outlet.
Sealing rubber, a cutting edge or metal end surface is arranged at one surface of the valve port opposite to the piston device.
One end of the valve rod is in threaded connection with the baffle plate.
Besides advantages of the piston device, the pressure regulator provided by the invention also has the advantage of stable performance. In order to achieve a better sealing effect, when the closing element of the piston device is the cutting edge or metal end surface, one surface of the valve port opposite to the piston device is provided with the sealing rubber. When the closing element of the piston device is the sealing rubber, one surface of the valve port opposite to the piston device is provided with the cutting edge or metal end surface. When the closing element of the piston device is the metal end surface, the valve port is provided with the metal end surface or sealing rubber corresponding to the metal end surface. In sum, due to the matching design of the cutting edge or metal end surface and the sealing rubber, the cutting edge or metal end surface can be cut into the sealing rubber, thus further achieving a better sealing effect.
The technical scheme of the invention will be further described in detail in combination with the drawings and specific embodiments.
The invention provides an embodiment of a piston device, as shown in
The inventor furthers finds that when the distance between the baffle plate and the upper end part of the piston body is larger than or equal to 3 mm, namely, the height of the first area C is larger than or equal to 3 mm, and the relation between the input and output pressure of the fluid medium flowing through the piston device tends to be stable. When we select 4-35 mm as the distance between the baffle plate and the upper end part of the piston body, the relation between the input and output pressure of the fluid medium flowing through the piston device is more stable. When the distance between the baffle plate and the upper end part of the piston body is 5, 10, 15, 20 or 25 mm, the whole system is the most stable. A closing element is arranged at the upper part of the piston body, and is matched with a valve port outside the piston device for use. The closing element can be a cutting edge 280 or metal end surface, such that the valve port is provided with sealing rubber matched with the cutting edge or metal end surface. The cutting edge 280 or metal end surface can be directly cut into the sealing rubber to further enhance the sealing effect. The closing element can also be a rubber part, and the valve port is provided with a cutting edge or metal end surface matched with the rubber part. When the closing element is a metal end surface, the valve port is also provided with a metal end surface corresponding to and matched with the metal end surface for use. The distance between the baffle plate and the upper end part of the piston body refers to the distance between the baffle plate and the closing element.
In addition, in order to further fix the piston device and improve the stability of the piston device, a positioning sleeve 270 can be arranged outside the piston body 220. The positioning sleeve 270 can tightly wrap the piston device, so that the piston device does not generate radial displacement when moving up and down. The piston body and the baffle plate can be in split connection for being convenient to detach, and can also be in integral design, so as to ensure the stability of the system.
Seal rings 240 and 250 are respectively arranged between the positioning sleeve 270 and the piston body 220, when the piston device contacts with the outer valve port, the seal rings 240 and 250 can prevent inlet pressure from entering the outlet side, and the seal rings are O-shaped, Y-shaped or starlike.
In addition, a guide belt 260 is arranged between the positioning sleeve and the piston body. The piston device is further wrapped in the positioning sleeve, thus guiding and lubricating effects are achieved.
Embodiment II
The invention provides an embodiment of a pressure regulator, comprising the embodiment of the piston device provided by the Embodiment I, which is not repeated herein.
When the piston device is away from the valve port 600, the fluid medium flows via the third area A from the inlet 400, flows out from the outlet 500, and simultaneously enters the first area C and the second area B of the piston device, and through buffering of the first area C and the second area B, pressures of the upper and lower parts of the piston device tend to be consistent, and the unbalanced pressure of the upper and lower parts of the piston device is reduced. The pressure of the fluid medium flowing out the outlet 500 tends to be stable.
When the height of the first area C or the distance between the baffle plate and the upper end part of the piston body comes up to a certain value, the pressure in the whole pressure regulator tends to be stable. The supplying pressure of the medium at the downstream outlet 500 tends to be stable.
The embodiment of the pressure regulator provided by the invention further comprises sealing rubber 390 arranged on the valve port 600, the piston device is provided with a cutting edge 380, when the piston device gets close to the valve port, the cutting edge 380 is cut into the sealing rubber 390 to enhance airtightness of the piston and the valve port. As replacement of specific structures of the valve port and the closing element, when the closing element is sealing rubber, the valve port is provided with a cutting edge or metal end surface.
In order to further describe technical effects of the invention, system pressure detection data of the embodiment of the pressure regulator are listed as follows:
When the piston device gets close to the valve port 600, the fluid medium can enter the first area C and the second area B of the piston device from the inlet 400, and pressures of the inlet 400, the piston device and the sleeve can be relieved as well and the system burden of the whole pressure regulator is reduced.
The pressure regulator provided by the invention also has the advantages of the embodiment of the piston device provided by the Embodiment I. Wherein, no matter the piston device is close to or away from the valve port, the seal rings 340 and 350 can seal the medium in the first area C and the second area B, and the medium cannot flow to the downstream outlet 500. The seal rings are O-shaped, Y-shaped or starlike.
The pressure regulator provided by the invention can regulate both liquid mediums and gas mediums.
It is to be noted that in this article, terms “comprising” “containing” or any other variants mean to cover non-exclusive containing, so that the process, method, object or equipment including a series of elements not only comprises said elements, but also comprises other elements having not been expressly listed herein, or comprises those inherent to such process, method, object or equipment. Under the condition of no more limitations, the element defined by a phrase “comprising one . . . ” does not exclude that there are other same elements are existed in the process, method, object or equipment including said elements.
Those described above are only preferable embodiments of the invention and are not intended to define the protection scope of the invention. Any modification, equivalent substitution, improvement and the like made in the spirit and principle of the invention are contained in the protection scope of the invention.
Number | Date | Country | Kind |
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201310051398.7 | Jan 2013 | CN | national |
201320076547.0 | Jan 2013 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2014/071302 | 1/24/2014 | WO | 00 |