CN201373241Y - Valve device for pressure reducer - Google Patents

Valve device for pressure reducer Download PDF

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Publication number
CN201373241Y
CN201373241Y CN200920115116U CN200920115116U CN201373241Y CN 201373241 Y CN201373241 Y CN 201373241Y CN 200920115116 U CN200920115116 U CN 200920115116U CN 200920115116 U CN200920115116 U CN 200920115116U CN 201373241 Y CN201373241 Y CN 201373241Y
Authority
CN
China
Prior art keywords
valve
pressure
decompressor
spring
valve bar
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN200920115116U
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Chinese (zh)
Inventor
葛明华
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ningbo Huayuan Gas Control Equipments Manufacture Co Ltd
Original Assignee
Ningbo Huayuan Gas Control Equipments Manufacture Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ningbo Huayuan Gas Control Equipments Manufacture Co Ltd filed Critical Ningbo Huayuan Gas Control Equipments Manufacture Co Ltd
Priority to CN200920115116U priority Critical patent/CN201373241Y/en
Application granted granted Critical
Publication of CN201373241Y publication Critical patent/CN201373241Y/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

The utility model discloses a valve device for a pressure reducer, which comprises a pressure reducer body (1), a valve rod (12) and a spring (11), wherein both the valve rod (12) and the spring (11) are positioned in the pressure reducer body (1), the valve rod (12) is matched with a spring seat (14) in a sliding manner, one end of the spring (11) is propped against a shaft shoulder surface (10) of the valve rod (12), the other end of the spring (11) is propped against the upper end surface of the spring seat (14), the spring seat (14) is connected with a big screw plug (15) through an external thread, and the big screw plug (15) is matched with the lower end of the valve rod (12) in a sliding manner, provided with a sealing ring (13) and connected with the pressure reducer body (1) through a thread. Due to the adoption of the structure, the original stress balance of the valve device is not damaged due to reduction of intake pressure, the position of the valve is always kept unchanged, and the output pressure of the low-pressure chamber is further kept constant.

Description

The valve arrangement of decompressor
Technical field
The utility model relates to a kind of gas pressure reducer core component, specifically is a kind of valve arrangement of decompressor.
Background technique
Gas is widely used in fields such as welding, cutting, usually gas all needs to be stored in the gas cylinder after overcompression, therefore the gas pressure in the gas cylinder is far longer than the required operating air pressure of operation, so need by after the work of gas pressure reducer, the air pressure of gas cylinder reduced to the required operating air pressure of operation.Present normally used gas pressure reducer is the diaphragm type pressure reduction structure, and its air input joint, out splice going splice, high pressure gauge, low-pressure meter, safety valve and decompressor body be by being threaded, and loam cake and decompressor body be also by being threaded, and compresses diaphragm unit.Be depressurized after the work of pressurized gas by valve arrangement, the size of its air outlet pressure is then regulated by adjusting screw rod compression pressure adjusting spring.Therefore valve arrangement is the core component that whole decompressor is implemented decompression.The valve arrangement of existing decompressor exists following shortcoming: under normal conditions, along with the continuous quilt of gas cylinder gas consumes, suction pressure will descend, valve arrangement at decompressor is obtained new balance through after a series of adjustment, like this when delivery pressure is set up to a certain pressure definite value, progressively decline along with suction pressure, delivery pressure can continue to rise on the contrary, be said in the common industry " pressure subtracts synergy and answers ", thereby can not keep delivery pressure is a constant value, is a steady state value as keeping delivery pressure, then needs manually artificially to regulate at any time, and can reduce manufacturing efficiency so greatly, be unfavorable for realizing automation.
The model utility content
Technical problem to be solved in the utility model is, provides a kind of and can keep constant output pressure, thereby can enhance productivity greatly, helps to realize the valve arrangement of the decompressor of automation.
For solving the problems of the technologies described above, the valve arrangement of a kind of decompressor that the utility model provides, it comprises decompressor body, valve bar and spring, described valve bar and spring all are positioned at the decompressor body, described valve bar is sliding combined with spring seat, described spring one end is against on the shaft shoulder face of valve bar, the other end pushes against on the upper-end surface of spring seat, described spring seat outside thread is connected with big plug screw, described big plug screw and valve bar lower end are slidingly matched and are provided with seal ring, and big plug screw is threaded with the decompressor body.
The valve arrangement of this decompressor has restriction, and the diameter of described restriction is not more than the diameter of valve bar lower end.
Described seal ring is an O type circle.
After adopting above structure, the utility model compared with prior art, have the following advantages: because the valve bar extends, and installed the O RunddichtringO thereon additional, under the effect of O RunddichtringO, make suction pressure can't be transmitted on the end face of valve bar lower end, the variation of suction pressure, can't change the active force that the valve bar makes progress, the decline that is suction pressure can not destroy the original stress balance of valve arrangement, the position of valve can remain constant, thereby makes the delivery pressure of low pressure chamber keep invariable.
Description of drawings
Shown in Figure 1 is the structural representation of the valve arrangement of prior art decompressor;
That shown in Figure 2 is the valve arrangement force analysis figure of prior art decompressor;
That shown in Figure 3 is the valve arrangement valve bar assembly force analysis figure of prior art decompressor;
Shown in Figure 4 is the structural representation of the valve arrangement of the utility model decompressor.
Wherein:
Prior art: 1 ', decompressor body; 2 ', diaphragm unit; 3 ', valve plug screw; 4 ', restriction; 5 ', thimble; 6 ', sealing gasket; 7 ', low pressure chamber; 8 ', low pressure outlet passageway; 9 ', sliding sleeve; 11 ', spring; 12 ', valve bar; 16 ', high pressure admission passage; D1, valve bar lower end diameter; D2, restriction diameter; F1, suction pressure; F2 low pressure chamber pressure; Fm, diaphragm unit active force; Ft, shutter spring power.
The utility model: 1, decompressor body; 2, diaphragm unit; 3, valve plug screw; 4, restriction; 5, thimble; 6, sealing gasket; 7, low pressure chamber; 8, low pressure outlet passageway; 9, sliding sleeve; 10, shaft shoulder face; 11, spring; 12, valve bar; 13, seal ring; 14, spring seat; 15, big plug screw; 16, high pressure admission passage.
Embodiment
Below in conjunction with the drawings and specific embodiments the utility model is done explanation in further detail.
By the structural representation of the valve arrangement of prior art decompressor shown in Figure 1 as can be known, it comprises the valve plug screw 3 ' that is threaded on the decompressor body 1 ', the sliding sleeve 9 ' that is positioned at valve plug screw 3 ' and is slidingly matched with it, spring 11 ', fixedly connected thimble 5 ' and valve bar 12 ', described valve bar 12 ' is threaded in the sliding sleeve 9 ', be provided with sealing gasket 6 ' between valve bar 12 ' end face and sliding sleeve 9 ' the endoporus bottom surface, be provided with restriction 4 ' between described sealing gasket 6 ' and the valve plug screw 3 ', described decompressor body 1 ' comprises high pressure admission passage 16 ' and low pressure outlet passageway 8 ', and between the diaphragm unit 2 ' of decompressor body 1 ' and decompressor low pressure chamber 7 ', described spring 11 ' one end is against on the shaft shoulder face 10 ' of valve bar 12 ', the other end pushes against on the endoporus bottom surface of decompressor body, and described thimble 5 ' pushes against on diaphragm unit 2 '.Like this, when gas entered the hyperbaric chamber by high pressure admission passage 16 ', gas stream was depressurized behind valve arrangement, and the size of its outlet pressure is then regulated by adjusting screw rod compression pressure adjusting spring.
By the valve arrangement force analysis figure of prior art decompressor shown in Figure 2 as can be known, when the gas in the gas cylinder fed decompressor and set up atmospheric pressure, valve arrangement was in state of equilibrium, the constant pressure of giving vent to anger this moment, and its stressing conditions is:
F1+Ft=F2+Fm
Yet, under normal conditions, along with the continuous quilt of gas cylinder gas consumes, suction pressure will descend, the stressed of valve arrangement will disequilibrium, and the active force that gas makes progress to valve bar 12 ' can be less than the downward active force of diaphragm unit 2 ', and promptly above-mentioned equation will become F1+Ft<F2+Fm.Like this, valve arrangement will move down, force the valve that connects the high and low pressure chamber to be opened, be that gap between restriction 4 ' and the sealing gasket 6 ' will increase, when pressurized gas flowed into low pressure chamber 7 ' through restriction 4 ', the pressure in the low pressure chamber 7 ' will increase, and promotes to move on the diaphragm unit 2 ', this moment, valve was just closed again, and the stressed of valve arrangement averages out again.Therefore, this performance characteristic of decompressor, make decompressor have birth defect, promptly when delivery pressure is set up to a certain force value, progressively decline along with suction pressure, delivery pressure can continue to rise, and can not keep delivery pressure is a steady state value, and then has limited to the use field of decompressor widely.
Why original structure can exist above-mentioned this inborn defective, be because the existence of restriction 4 in the valve arrangement, the valve arrangement valve bar assembly force analysis figure of prior art decompressor as shown in Figure 3 as can be known, decline along with suction pressure, the stressed minimizing that must cause valve bar 12 ' to make progress, thereby lose the position of set pressure value, valve is forced to open, make low pressure chamber 7 ' pressure raise, have only when restriction 4 ' diameter d 2 and be contracted to when infinitely small, suction pressure to the active force of valve bar 12 ' could be up and down balance everywhere, the original equilibrium position of valve arrangement just can not change because of the decline of suction pressure, and it is invariable that the pressure of low pressure chamber 7 ' could keep.
According to this basic principle, designed the structure shown in the utility model, the structural representation of the valve arrangement of the utility model decompressor as shown in Figure 4, it comprises the valve plug screw 3 that is threaded on the decompressor body 1, the sliding sleeve 9 that is positioned at valve plug screw 3 and is slidingly matched with it, spring 11, fixedly connected thimble 5 and valve bar 12, described valve bar 12 is threaded in the sliding sleeve 9, be provided with sealing gasket 6 between valve bar 12 end faces and the sliding sleeve 9 endoporus bottom surfaces, be provided with restriction 4 between described sealing gasket 6 and the valve plug screw 3, the diameter d 2 of described restriction 4 is not more than the diameter d 1 of valve bar 12 lower ends.Described decompressor body 1 comprises high pressure admission passage 16 and low pressure outlet passageway 8, and be low pressure chamber 7 between the diaphragm unit 2 of decompressor body 1 and decompressor, described thimble 5 pushes against on diaphragm unit 2, described valve bar 12 is sliding combined with spring seat 14, described spring 11 1 ends are against on the shaft shoulder face 10 of valve bar 12, the other end pushes against on the upper-end surface of spring seat 14, the described spring seat 14 big plug screw 15 that has been threaded, described big plug screw 15 is slidingly matched with valve bar 12 lower ends and is provided with seal ring 13, and described seal ring 13 is an O type circle.Big plug screw 15 is threaded with decompressor body 1.
Because pressurized gas act on shaft shoulder face, lower end surface and the sliding sleeve upper-end surface of valve bar 12 respectively, wherein the active force on shaft shoulder face and the sliding sleeve upper-end surface can be cancelled out each other, and directed force F 1 on so only remaining valve bar 12 lower end surfaces and the shutter spring power Ft sum on the shaft shoulder face could average out with pressure F2 and the diaphragm unit directed force F m in the low pressure chamber 7.And the valve bar 12 that extended, and after having installed O RunddichtringO 13 in the above additional, because the effect of O RunddichtringO 13 makes suction pressure can't be transmitted to valve bar 12 lower bottom parts, promptly valve bar lower end diameter d1 place is not stressed.(be under the situation of d1 〉=d2), the stressed of valve arrangement just averaged out by shutter spring power Ft and low pressure chamber pressure F2 and diaphragm unit pressure Fm sum guaranteeing to be not less than restriction diameter d 2 by valve bar lower end diameter d1.And shutter spring power Ft and diaphragm unit directed force F m can not change, and the decline of suction pressure just can not destroy the stress balance of valve arrangement like this, and the position of valve can remain constant, thereby make the delivery pressure F2 of low pressure chamber keep invariable.

Claims (3)

1, a kind of valve arrangement of decompressor, comprise decompressor body (1), valve bar (12) and spring (11), described valve bar (12) and spring (11) all are positioned at decompressor body (1), it is characterized in that: described valve bar (12) is sliding combined with spring seat (14), described spring (11) one ends are against on the shaft shoulder face (10) of valve bar (12), the other end pushes against on the upper-end surface of spring seat (14), described spring seat (14) outside thread is connected with big plug screw (15), described big plug screw (15) is slidingly matched with valve bar (12) lower end and is provided with seal ring (13), and big plug screw (15) is threaded with decompressor body (1).
2, the valve arrangement of decompressor according to claim 1 is characterized in that: the valve arrangement of this decompressor has restriction (4), and the diameter (d2) of described restriction (4) is not more than the diameter (d1) of valve bar (12) lower end.
3, the valve arrangement of decompressor according to claim 1 is characterized in that: described seal ring (13) is an O type circle.
CN200920115116U 2009-03-08 2009-03-08 Valve device for pressure reducer Expired - Lifetime CN201373241Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN200920115116U CN201373241Y (en) 2009-03-08 2009-03-08 Valve device for pressure reducer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN200920115116U CN201373241Y (en) 2009-03-08 2009-03-08 Valve device for pressure reducer

Publications (1)

Publication Number Publication Date
CN201373241Y true CN201373241Y (en) 2009-12-30

Family

ID=41499325

Family Applications (1)

Application Number Title Priority Date Filing Date
CN200920115116U Expired - Lifetime CN201373241Y (en) 2009-03-08 2009-03-08 Valve device for pressure reducer

Country Status (1)

Country Link
CN (1) CN201373241Y (en)

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20091230

Effective date of abandoning: 20090308