CN102384307B - Water level control valve with flow rate continuous control function - Google Patents
Water level control valve with flow rate continuous control function Download PDFInfo
- Publication number
- CN102384307B CN102384307B CN2011103411702A CN201110341170A CN102384307B CN 102384307 B CN102384307 B CN 102384307B CN 2011103411702 A CN2011103411702 A CN 2011103411702A CN 201110341170 A CN201110341170 A CN 201110341170A CN 102384307 B CN102384307 B CN 102384307B
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- water
- valve
- spool
- floating ball
- ball float
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Abstract
The invention discloses a water control valve with a flow rate continuous control function. The water level control valve comprises a valve body, a valve core, a valve body cover, a floating ball connecting device and a floating ball, wherein the water body is provided with a water inlet cavity and a water outlet cavity; a water outlet hole is formed in the side wall of the water outlet cavity; a returning spring is arranged in one end, connected with the water inlet cavity, of the water outlet cavity; the valve core is arranged in the water inlet cavity; a step hole matched with the retuning spring is arranged at the water inlet end of the valve core; a balance hole is formed in a water outlet end surface; the valve body cover is provided with a centre hole and a floating ball rod seat; the floating ball connecting device comprises a valve core mandrill and a floating ball rod; one end of the valve core mandrill passes through the centre hole to contact the valve core; and the other end of the valve core is connected with the floating ball rod. The water level control valve with the flow rate continuous control function has the advantages that: the flow rate at a valve port can change continuously according to the water level in a water pool; the water inlet cavity and the water outlet cavity form a 45-degree structure, so that the dead weight of the floating ball and the floating ball rod overcomes the frictional force of the valve core; therefore, the action of the valve is more flexible and reliable.
Description
Technical field
The present invention relates to a kind of altitude valve with flow continuous control function, belong to the electromechanical equipment field.
Background technique
At present, no matter the altitude valve that provides on market is mechanical type or electronic type, is all the switch control mode basically, and valve is in the "on" and "off" two states, can only control water level " height ", " low " two kinds of situations.And control at some water levels the water-outlet quantity that demanding special occasions needs control valve, adapt to the continuous variation of water level.Therefore, developing the altitude valve with flow continuous control function is an important research topic.
Summary of the invention
The present invention is directed to the accurately problem of control valve water-outlet quantity of current water level control valve, proposed a kind of altitude valve with flow continuous control function.
Altitude valve with flow continuous control function of the present invention, comprise valve body, spool, body cap, ball float connection set, ball float, described valve body is provided with water-inlet cavity, water chamber, it is characterized in that: described water chamber sidewall is provided with osculum, and the inner Returnning spring of installing of an end that is connected with described water-inlet cavity, it is inner that described spool is placed in described water-inlet cavity, and the end of described Returnning spring inserts the feed-water end of described spool; Described spool feed-water end is provided with the step hole that coordinates with described Returnning spring, and the water outlet end face is provided with equalizing orifice; Described body cap is provided with center hole and ball float pole socket; Described ball float connection set comprises spool push rod, ball lever, described spool push rod one end passes described center hole and contacts with described spool, the other end is connected with described ball lever by bearing pin, and described ball lever one end connects hinge joint on described ball float pole socket, and the other end connects ball float.
Described water-inlet cavity and described water chamber axis are and are miter angle.
Be circumferentially with trapezoidal water-flowing trough along described osculum.
Described spool is circumferentially with the bar shaped effluent trough, and place, effluent trough both sides is provided with seal groove.
Described ball lever is provided with bar hole, and described bearing pin is loaded in described bar hole.
Described spool push rod and described center hole contact position are circumferentially offered enclosed slot, and seal ring is housed.
Described body cap is circumferentially with seal groove with the end face that described valve body contacts.
During use, the valve inleting water mouth is connected with supply channel, osculum is at the water chamber side-lower; Spool in water chamber along wall sliding; Spool causes space between spool and body cap by equalizing orifice with inlet water, makes the spool both ends of the surface be subjected to hydraulic balance, avoids spool to be subjected to the additional water pressure-acting; Water in the pond is in low water level, ball float also is in low level, under the effect of the weight of ball float and ball lever, the spool push rod moves in valve body, spool is depressed into valve body water chamber lowermost end, spool sidewall upper water-out groove is alignd with valve body upper water-out hole, and the osculum orifice size is maximum, and water output is also maximum; After water level in water pool rose, ball float rose, and drove ball lever and upwards swung, and spool moves upward under action of reset spring, staggered in effluent trough and osculum position, and orifice size reduces, and water supply flow reduces; When ball float rose to the extreme higher position, spool effluent trough and valve body osculum staggered fully, valve closing.Water level in water pool decline process and aforementioned process are just the opposite.
Beneficial effect of the present invention:
(1) the present invention adopts the through-flow mode of spool axle center hole to control water (flow) direction, and the spool both ends of the surface are communicated with, and has greatly reduced the unstability of the valve core movement that instantaneous hydraulic dynamics and steady-state fluid force cause, valve is obtained better dynamically and static stability.
(2) the present invention's mode of adopting the spool sidewall to leave tank coordinates with the valve body osculum and carries out orifice size and control, and has improved the controllability of valve port, and the valve port flow can be changed continuously according to water level in water pool.
(3) the present invention adopts water-inlet cavity to become the valve body structure of 45 degree with water chamber, makes the ball lever hunting range between 45 degree are spent to 90, and the deadweight of ball float and ball lever can effectively overcome the effect of spool frictional force, makes valve event sensitiveer, reliable.
Description of drawings
Fig. 1 is the structural representation of altitude valve low water level.
Fig. 2 is the schematic diagram of altitude valve high water level.
Fig. 3 is the valve core structure schematic diagram.
Embodiment
Further illustrate the present invention below in conjunction with accompanying drawing
With reference to accompanying drawing:
Altitude valve with flow continuous control function of the present invention, comprise valve body 1, spool 2, body cap 3, ball float connection set 4, ball float 5, described valve body 1 is provided with water-inlet cavity 11, water chamber 12, described water chamber 12 sidewalls are provided with osculum 121, and the inner Returnning spring 122 of installing of an end that is connected with described water-inlet cavity 11, described spool 2 is placed in described water-inlet cavity 11 inside, and the end of described Returnning spring 122 inserts the feed-water end of described spool 2; Described spool 2 feed-water ends are provided with the step hole 21 that coordinates with described Returnning spring, and the water outlet end face is provided with equalizing orifice; Described body cap 3 is provided with center hole 31 and ball float pole socket 32; Described ball float connection set 4 comprises spool push rod 41, ball lever 42, described spool push rod 41 1 ends pass described center hole 31 and contact with described spool 2, the other end is connected with described ball lever 42 by bearing pin 43, described ball lever 42 1 ends connect hinge joint on described ball float pole socket 32, and the other end connects ball float 5.
Described water-inlet cavity 11 is with described water chamber 12 axis and is miter angle.
Be circumferentially with trapezoidal water-flowing trough 1211 along described osculum 121.
Described spool 2 is circumferentially with bar shaped effluent trough 22, and effluent trough 22 both sides are provided with seal groove 23.
Described ball lever 42 is provided with bar hole 421, and described bearing pin 43 is loaded in described bar hole 421.
Described spool push rod 41 is circumferentially offered enclosed slot 411 with described center hole 31 contact positions, and seal ring is housed.
Described body cap 3 is circumferentially with seal groove 33 with the end face that described valve body 1 contacts.
During use, the valve inleting water mouth is connected with supply channel, osculum 121 is at water chamber 12 side-lowers; Spool 2 in water chamber 12 along wall sliding; Spool 2 causes space between spool 2 and body cap 3 by equalizing orifice with inlet water, makes spool 2 both ends of the surface be subjected to hydraulic balance, avoids spool 2 to be subjected to the additional water pressure-acting; Water in the pond is in low water level, ball float 5 also is in low level, under the effect of ball float 5 and the weight of ball lever 42, spool push rod 41 is to the interior motion of valve body 1, spool 2 is depressed into valve body water chamber 12 lowermost ends, spool 2 sidewall upper water-out grooves 22 are alignd with valve body upper water-out hole 121, and osculum 121 orifice sizes are maximum, and water output is also maximum; After water level in water pool rose, ball float 5 rose, and drove ball lever 42 and upwards swung, and spool 2 moves upward under Returnning spring 122 effects, and effluent trough 22 staggers with osculum 121 positions, and orifice size reduces, and water supply flow reduces; When ball float rose to the extreme higher position, spool effluent trough 22 staggered fully with valve body osculum 121, valve closing.Water level in water pool decline process and aforementioned process are just the opposite.
The described content of this specification embodiment is only enumerating the way of realization of inventive concept; protection scope of the present invention should not be regarded as only limiting to the concrete form that embodiment states, protection scope of the present invention also reaches conceives the equivalent technologies means that can expect according to the present invention in those skilled in the art.
Claims (4)
1. the altitude valve that has flow continuous control function, comprise valve body, spool, body cap, ball float connection set, ball float, described valve body is provided with water-inlet cavity, water chamber, it is characterized in that: described water chamber sidewall is provided with osculum, and the inner Returnning spring of installing of an end that is connected with described water-inlet cavity, it is inner that described spool is placed in described water chamber, and the end of described Returnning spring inserts the feed-water end of described spool; Described spool feed-water end is provided with the step hole that coordinates with described Returnning spring, and the water outlet end face is provided with equalizing orifice; Described body cap is provided with center hole and ball float pole socket; Described ball float connection set comprises spool push rod, ball lever, described spool push rod one end passes described center hole and contacts with described spool, the other end is connected with described ball lever by bearing pin, and described ball lever one end hinge joint is on described ball float pole socket, and the other end connects ball float; Described water-inlet cavity and described water chamber axis are and are miter angle; Be circumferentially with water-flowing trough along described osculum; Described spool is circumferentially with the bar shaped effluent trough, and place, effluent trough both sides is provided with seal groove.
2. the altitude valve with flow continuous control function as claimed in claim 1, it is characterized in that: described ball lever is provided with bar hole, and described bearing pin is loaded in described bar hole.
3. the altitude valve with flow continuous control function as claimed in claim 2, it is characterized in that: described spool push rod and described center hole contact position are circumferentially offered enclosed slot, and seal ring is housed.
4. the altitude valve with flow continuous control function as claimed in claim 3, it is characterized in that: described body cap is circumferentially with seal groove with the end face that described valve body contacts.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011103411702A CN102384307B (en) | 2011-11-02 | 2011-11-02 | Water level control valve with flow rate continuous control function |
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CN2011103411702A CN102384307B (en) | 2011-11-02 | 2011-11-02 | Water level control valve with flow rate continuous control function |
Publications (2)
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CN102384307A CN102384307A (en) | 2012-03-21 |
CN102384307B true CN102384307B (en) | 2013-06-12 |
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CN2011103411702A Expired - Fee Related CN102384307B (en) | 2011-11-02 | 2011-11-02 | Water level control valve with flow rate continuous control function |
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Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105090558B (en) * | 2015-09-01 | 2017-11-17 | 中国恩菲工程技术有限公司 | Ball-cock assembly |
CN105114689B (en) * | 2015-09-01 | 2017-12-19 | 中国恩菲工程技术有限公司 | Break pressure cistern |
CN106610673A (en) * | 2015-10-22 | 2017-05-03 | 无锡小天鹅股份有限公司 | Water level balancing module and steam generator provided with same |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2260934Y (en) * | 1996-03-27 | 1997-08-27 | 吴耀民 | Diaphrgm type liquid-level automatic control valve |
FR2776680B1 (en) * | 1998-03-27 | 2001-09-28 | Moulinex Sa | STEAM IRON |
CN201190831Y (en) * | 2008-05-09 | 2009-02-04 | 北京工业大学 | Magnetic altitude control valve |
CN201297438Y (en) * | 2008-11-13 | 2009-08-26 | 缪明镜 | A self-closing water level lever float valve |
CN201764076U (en) * | 2010-08-27 | 2011-03-16 | 浙江艾迪西流体控制股份有限公司 | Float ball valve for water tank |
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