• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A valve device includes a valve seat (2) attached to a cap (1) to form a first outlet port (21), a second outlet port (22), and an inlet port; a movable rod (4) in a chamber between the first and second ports (21,22); an electromagnetic valve (3) adjacent the first port (21); and a channel (23) between the rod (4) and the valve (3). In a first operation, the valve (3) opens the first port (21) and closes the second port (22) so that water flows from the inlet port (20) to the first port (21). ) via the chamber (24) and the channel (23). In a second operation the valve (3) closes the first port (21) and opens the second port (22) so that water flows from the inlet port (20) to the second port (22) via the chamber (24).
    公开号:FR3050790A3
    申请号:FR1656409
    申请日:2016-07-05
    公开日:2017-11-03
    发明作者:Xiaofa Lin;Xiaoshan Lin;Caibo Gu;Qiqiao Liu;Xiaoqing Deng
    申请人:Fujian Xihe Sanitary Ware Technology Co Ltd;
    IPC主号:
    专利说明:

    ELECTROMAGNETIC VALVE WITH PULSE WIDTH MODULATION FOR CONTROLLING FLUID FLOW DIRECTION AND SHOWER HEAD INCORPORATING SAID DEVICE The invention relates to shower heads and more particularly to an electromagnetic valve with width modulation. impulse for controlling the flow direction of a fluid and a showerhead containing a valve device incorporating the pulse width modulated electromagnetic valve.
    An electromagnetic valve with pulse width modulation is usually activated by pulses. The required power is therefore low. This makes it possible to use the pulse width modulated electromagnetic valve in many different fields. It can, for example, be used in sanitation facilities as switching means for a tap, a flush, etc. It can, however, only control the running or stopping of a single path of a fluid. The power of the pulse width modulated electromagnetic valve is further supplied with power by a transformer or a battery, both of which are the only ones capable of supplying enough current to operate the width modulated electromagnetic valve. pulse. These power processes, however, have several disadvantages including the difficulty of wiring, the large size of the transformer, the lack of safety, and the toxic materials contained in the battery that are harmful to the environment in the event of inappropriate disposal. The best means considered for supplying power to the pulse width modulated electromagnetic valve is therefore a hydroelectric generator.
    There is a conventional method of switching the flow direction of a fluid from a showerhead to a bath faucet or vice versa through a hydroelectric generator. However, it has several disadvantages. An electromagnetic pulse width modulation valve is, for example, necessary for each flow path. This means that in case of installation of several trajectories, it will require several electromagnetic valves pulse width modulation, thus consuming more electricity. Because of its limited power, the conventional hydroelectric generator can unfortunately not provide enough electricity to PWM solenoid valves. A possible modification would be to mount a hydroelectric generator producing electricity on the flow system. However, if the water supply is stopped or if the flow paths are closed due to insufficient electrical current, the hydroelectric generator will not operate properly due to the lack of fluid flow. The fluid flow system will be disabled. In addition, the space occupied by the electromagnetic valves with pulse width modulation is important. Costs can also increase significantly.
    In view of the above analyzes, it appears that the prior art does not make it possible to use a pulse width modulated electromagnetic valve to control the flow direction of a plurality of fluid trajectories. Improvements are therefore desired. One of the aims of the invention is therefore to provide a pulse width modulation electromagnetic valve and a shower head comprising a valve device incorporating the pulse width modulated electromagnetic valve to solve the problems associated with the prior art. The invention has advantages because it is practical, easy to assemble and the fluid trajectories are adequate. In addition, the invention can switch between two outputs or among at least three outputs by means of a single pulse width modulated electromagnetic valve. The invention can also prevent the closure of fluid paths, perform a smooth switching operation while consuming a minimum of electricity. As a result, the disadvantage of deactivating the fluid flow system due to insufficient power supply of the prior art is eliminated. The invention is characterized in that the pulse width modulated electromagnetic valve is mounted in one end of one of the fluid flow paths, the flow direction control of the fluid is implemented by opening or closing the pulse width modulated electromagnetic valve, it is compact in size, and has a simple switching operation by pressing one of the buttons.
    A first aspect of the invention relates to a valve device for controlling the flow direction of the fluid comprising a cap; a valve seat secured to the cap to form a first exit port, a second exit port, and an inlet port located between the first exit port and the second exit port; a rod movably disposed in a chamber adjacent to the second outlet; an electromagnetic valve with pulse width modulation adjacent to the first output port; and a channel disposed between the rod and the pulse width modulated electromagnetic valve; wherein, in a first operation, the PWM solenoid valve opens the first exit port and closes the second exit port so that the water is configured to flow from the inlet port to the first outlet through the chamber and the channel; and wherein, in a second operation, the PWM solenoid valve closes the first exit port and opens the second exit port so that the water is configured to flow from the port of inlet to the second outlet via the chamber.
    Preferably, the invention further comprises a ring-shaped sealing member placed on one end of the rod to separate the channel from the chamber, the sealing member comprising a flexible member facing the channel.
    Preferably, the shank comprises an intermediate expansion to block or open the second outlet, a circular flange near an end, and a groove between the flange and one end of the shank for receiving the sealing member; the flange having an outer perimeter greater than that of the widening.
    Preferably, the shank further comprises a plurality of projections spaced apart at one end and a plurality of depressions each located between two adjacent projections, the projections being configured to guide a reciprocating movement of the shank in the chamber.
    Preferably, the valve device further comprises a stopper disposed in the channel for pressing against the rod so as to cause the enlargement of the rod to seal the second outlet port.
    Preferably, the valve device further comprises a V-shaped sealing element between the second outlet orifice and the chamber, the sealing member being placed on the enlargement and pressing against the inner surface of the valve. bedroom.
    A second aspect of the invention relates to a showerhead comprising a valve device as defined above, a housing; a hydroelectric generator; a nozzle amount; and an actuator; the electromagnetic valve is mounted in the housing; the actuator is mounted on the housing; the electromagnetic valve is mounted between the housing and the nozzle post and electrically connected to the hydroelectric generator; the nozzle post comprises a plurality of inner nozzles and a plurality of outer nozzles connected to the first and second output ports respectively; and in response to activation of the actuator the solenoid valve is activated to (i) open the first exit port and close the second exit port or (ii) open the second exit port and close the first exit port .
    The following advantages are obtained by using the invention. The invention uses a pulse width modulated electromagnetic valve to switch the flow direction of the fluid between two fluid paths while occupying a minimum of space. It has an inlet port and two outlet using the principle of equilibrium of the water pressure. The invention has the advantages of saving money, reducing energy requirements by about half during switching operations, and being able to operate even when the current supplied is insufficient compared to the prior art. In addition, only a fluid flow path is open when switching between two fluid paths, thereby preventing fluid flow system deactivation due to insufficient power supply. The invention uses a ring-shaped sealing element placed on one end of the rod. The sealing member is flexibly deformed against the inner surface of the chamber. The flexibly deformed sealing member opens the path of the fluid passing through the chamber and, on the opposite side, the sealing member closes the path of the fluid passing through the chamber once it has returned to its shape. 'origin. That is, the opening or closing of the fluid path can be controlled by the deformation of the sealing member by changing the pressure in the channel. The invention does not suddenly change the direction of flow, is more reliable, and reduces costs.
    The stem includes an intermediate enlargement and a circular flange near an end. The rod can move according to the pressure change in the channel. The flange has an outer perimeter greater than that of the widening. This ensures that the rod can move to the first exit port when the channel communicates with the atmosphere, thus enabling the switching operation to succeed.
    The stem further includes a plurality of projections spaced apart at one end and a plurality of recesses each located between two adjacent projections to allow the passage of water. The projections may further guide movement of the rod toward the second exit port in a predetermined direction, thereby enabling successful switching operation. The invention includes a stopper disposed in the channel for abutment against the rod so that the rod can not move further forward toward the channel, thereby enabling a switching operation to succeed. The invention comprises a V-shaped sealing element between the second outlet orifice and the chamber, the sealing element being placed on the enlargement and pressing against the inner surface of the chamber, thus allowing a successful sealing.
    A showerhead comprising a valve device incorporating the pulse width modulated electromagnetic valve of the invention occupies minimal space, allows for smooth switching, great savings, and greatly increases efficiency.
    The foregoing and other objects, features, and advantages of this invention will become more apparent from the following detailed descriptions accompanied by the accompanying drawings, in which: FIG. 1 is an exploded view of a valve device incorporating a pulse width modulated electromagnetic valve for controlling the flow direction of the fluid according to the invention; FIG. 2 is a sectional view of the assembled valve device; FIG. 3 is a view identical to FIG. 2 illustrating the flow of water through the first outlet port by pressing a button; FIG. 4 is a view identical to FIG. 2 illustrating the flow of water through the second outlet port by pressing the other button; FIG. 5 is an exploded view of a showerhead including the valve device; and - FIG. 6 is a perspective view of the showerhead of FIG. 5.
    Referring to FIGS. 1 to 4, an electromagnetic pulse width modulation valve 3 for controlling the flow direction of the fluid and a shower head comprising a valve device incorporating the pulse width modulated electromagnetic valve 3 according to the invention. comprises the following components as previously presented. The invention comprises a cap 1, a valve seat 2 and a pulse width modulation electromagnetic valve 3. A first outlet port 21 is disposed on the cap 1 and an inlet port 20 and a second port outlet 22 are disposed on the valve seat 2. The inlet port 20 is located between the first outlet port 21 and the second outlet port 22.
    A rod 4 is disposed in a chamber 24 situated between the first outlet orifice 21 and the second outlet orifice 22 and communicates therewith. The pulse width modulating electromagnetic valve 3 is attached to the valve seat 2 near the first outlet port 21. A channel 23 is disposed between the pulse width modulation electromagnetic valve 3 and the rod 4. A stopper 230 is disposed in the channel 23 which bears against the rod 4 so that an enlargement 42 of the rod 4 can seal the second outlet orifice 22.
    A ring-shaped sealing member 5 is placed on one end of the rod 4 to separate the channel 23 from the chamber 24. The sealing member 5 has a flexible member 50 facing the channel 23.
    In addition to the intermediate widening 42, the rod 4 further comprises a circular flange 41 near one end, and a groove 410 between the flange 41 and one end of the rod 4. The sealing element 5 is placed on the groove 410. The flange 41 has an outer perimeter greater than that of the widening 42.
    The first outlet orifice 21 can be opened or closed by activating or not activating the pulse-width modulated electromagnetic valve 3. In turn, the water in the channel 23 can flow or not. As a result, the second outlet orifice 22 is closed or opened by the rod 4.
    Specifically, a plurality of equally spaced projections 43 are formed on one end of the shaft 4 and a plurality of depressions 430 each located between two adjacent projections 43. The projections 43 serve to guide a reciprocating movement of the rod 4 in the chamber 24.
    More specifically, a V-shaped sealing member 6 is placed on the enlargement 42 and pressed against an inner surface of the chamber 24 for sealing purposes.
    With reference to FIGS. 5 and 6 taken in conjunction with FIGS. I to 4, a showerhead comprising the valve device is illustrated. The shower head comprises a housing 71, a hydroelectric generator 72, a nozzle post 73, an actuator 74, a cap 1, a valve seat 2, a pulse width modulation electromagnetic valve 3, a rod 4, a sealing element 5 and a V-shaped sealing element 6.
    The mounting of the valve device is described in detail below. The pulse width modulation electromagnetic valve 3 comprises a passage 30 for the flow of water, and a sealed conductor connected to the hydroelectric generator 72. The passage 30 may be opened or closed by entering a positive pulse signal or negative. During assembly, the pulse width modulation electromagnetic valve 3 is attached to the valve seat 2. The passage 30 communicates with the first outlet port 21 so that the first outlet port 21 can be opened or closed by the pulse width modulation electromagnetic valve 3. The rod 4 is mounted in the chamber 24. A sealing member 5 is placed on the flange 41 and faces the first outlet orifice 21. The channel 23 is thus formed with the aid of the sealing element 5. The channel 23 is located between the sealing element 5 and the first outlet orifice 21. The V-shaped sealing element 6 is mounted in the 24. The other end of the rod 4 passes through the V-shaped sealing element 6 until the V-shaped sealing element 6 is placed on the widening 42 to block the second outlet port 22. The second outlet port 22 may be open when the enlargement 42 disengages from the V-shaped sealing element 6. This completes the mounting of the valve device.
    The mounting of the showerhead including the valve device is described in detail below. The showerhead includes the housing 71, a hydroelectric generator 72, a nozzle post 73 and an actuator 74 mounted on the housing 71. The actuator 74 is a touch actuator in this embodiment. Alternatively, the actuator 74 may serve as a remote control, infrared actuator or the like in other embodiments. The hydroelectric generator 72 can produce electricity to the actuator 74 and pulse width modulated electromagnetic valve 3. A signal is generated in response to a contact and is sent to the electromagnetic modulating valve. pulse width 3 so that the pulse-width modulated electromagnetic valve 3 can allow or block the flow of water. The first and second outlet ports 21, 22 are connected to the inner and outer nozzles 731, 732 of the nozzle post 73 respectively. Button A represents water flowing from inner nozzles 731 and button B represents water flowing from the outer nozzles 732. Hydroelectric generator 72 is mounted in the handle member of housing 71. Housing 71 and the nozzle amount 73 are finally assembled. This completes the mounting of a showerhead comprising the valve device having the pulse width modulation electromagnetic valve 3.
    As illustrated in FIGS. 1, 2, 3, 5 and 6, a person may in a first use press the button A to activate the actuator 74 which in turn sends a positive pulse signal to the electromagnetic width modulation valve. pulse 3. The passage 30 is opened by the pulse width modulation electromagnetic valve 3 and the first outlet port 21 is also open. In turn, the water flows from the open inlet 20 to the chamber 24. The channel 23 communicates with the atmosphere to become a low pressure state due to the opening of the first outlet port 21. The second outlet orifice 22 is closed due to the hermetic engagement of the V-shaped sealing element 6 on the enlargement 42. The flexible element 50 of the sealing element 5 is deformed. flexibly due to pressurized water. Accordingly, a gap is formed between the sealing member 5 and the inner surface of the chamber 24. As a result, water flows from the chamber 24 to the inner nozzles 731 via the channel 23, the passage 30 and the first outlet port 21 (see FIG 3).
    As illustrated in FIGS. I, 2, 4, 5 and 6, a person can in a second use press the button B to activate the actuator 74 which in turn sends a negative pulse signal to the electromagnetic valve width modulation of pulse 3. The passage 30 is closed by the pulse width modulation electromagnetic valve 3 and the first outlet port 21 is closed. In turn, the water flows from the open inlet 20 to the chamber 24. The channel 23 does not communicate with the atmosphere due to the closure of the first outlet port 21. The channel 23 is in high pressure state. The water in the channel 23 then pushes the rod 4 forwards and opens the second outlet orifice 22. Simultaneously, the enlargement 42 disengages from the V-shaped sealing element 6 to make the chamber communicate. 24 with the second outlet port 22. As a result, water flows from the chamber 24 to the outer nozzles 732 via the second outlet port 22 (see FIG 4).
    In addition to the showerhead, the valve device incorporating the pulse width modulated electromagnetic valve can be used in a sprinkler, faucet, toilet, etc., by connecting the valve device outlets to inlet ports of the device concerned. In addition, the switching of the water flow can be effected by activating an actuator which in turn activates the pulse width modulated electromagnetic valve. Although the invention has been described in terms of preferred embodiments, those skilled in the art will appreciate that the invention may be used with modifications in the spirit and scope of the invention.
    权利要求:
    Claims (7)
    [1" id="c-fr-0001]
    Valve device for controlling the flow direction of the fluid, characterized in that it comprises: a cap (1); a valve seat (2) attached to the cap (1) to form a first outlet port (21), a second outlet port (22), and an inlet port (20) between the first outlet port (21); ) and the second outlet (22); a rod (4) movably disposed in a chamber (24) adjacent to the second outlet (22); a pulse width modulation electromagnetic valve (3) being adjacent to the first output port (21); and a channel (23) disposed between the rod (4) and the pulse width modulated electromagnetic valve (3); wherein in a first operation the pulse width modulating electromagnetic valve (3) opens the first outlet (21) and closes the second outlet (22) so that the water is configured to flowing from the inlet (20) to the first outlet (21) via the chamber (24) and the channel (23); and wherein, in a second operation, the pulse width modulating electromagnetic valve (3) closes the first outlet port (21) and opens the second outlet port (22) so that the water is configured to flowing from the inlet (20) to the second outlet (22) via the chamber (24).
    [2" id="c-fr-0002]
    2 - valve device according to claim 1, characterized in that it further comprises a ring-shaped sealing element (5) placed on one end of the rod (4) to separate the channel (23) of the chamber (24), the sealing element (5) comprising a flexible element (50) facing the channel (23).
    [3" id="c-fr-0003]
    3 - valve device according to claim 2, characterized in that the rod (4) comprises an intermediate widening (42) for blocking or opening the second outlet orifice (22), a circular flange (41) close to an end, and a groove (410) between the flange (41) and an end of the rod (4) for receiving the sealing member (5); the flange (41) having an outer perimeter greater than that of the widening (42).
    [4" id="c-fr-0004]
    4 - valve device according to claim 3, characterized in that the rod (4) further comprises a plurality of spaced projections (43) on one end and a plurality of recesses (430) each located between two adjacent projections (43). ), the projections (43) being configured to guide a reciprocating movement of the rod (4) in the chamber (24).
    [5" id="c-fr-0005]
    5 - A valve device according to claim 3, characterized in that it further comprises a stopper (230) disposed in the channel (23) to bear against the rod (4) so as to bring the enlargement (42) for sealing the second outlet (22).
    [6" id="c-fr-0006]
    6 - valve device according to claim 3, characterized in that it further comprises a V-shaped sealing element (6) between the second outlet orifice (22) and the chamber (24), the sealing member (6) being placed on the widening (42) and pressing against the inner surface of the chamber (24).
    [7" id="c-fr-0007]
    7 - Shower head comprising a valve device according to one of claims 1 to 6, and further comprising: a housing (71); a hydroelectric generator (72); a nozzle amount (73); and an actuator (74); the electromagnetic valve (3) being mounted in the housing (71); The actuator (74) being mounted on the housing (71); the electromagnetic valve (3) being mounted between the housing (71) and the nozzle post (73) and electrically connected to the hydroelectric generator (72); the nozzle post (73) comprising a plurality of inner nozzles (731) and a plurality of outer nozzles (732) connected to the first and second outlet ports (21, 22) respectively; and in response to activation of the actuator (74) the electromagnetic valve (3) being activated to (i) open the first outlet (21) and close the second outlet (22) or (ii) open the second outlet (22) and closing the first outlet (21).
    类似技术:
    公开号 | 公开日 | 专利标题
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    同族专利:
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    CN105757293B|2018-01-19|
    FR3050790B3|2018-07-13|
    CN105757293A|2016-07-13|
    引用文献:
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    CN206130204U|2016-04-29|2017-04-26|福建西河卫浴科技有限公司|Take pulse solenoid valve water route switching mechanism and gondola water faucet|CN106238236A|2016-09-28|2016-12-21|福建西河卫浴科技有限公司|A kind of easy gondola water faucet touching switching and control method|
    USD935555S1|2021-03-29|2021-11-09|Xiamen Galenpoo Kitchen & Bathroom Technology Co., Ltd.|Shower head|
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    法律状态:
    2017-07-26| PLFP| Fee payment|Year of fee payment: 2 |
    2018-07-12| PLFP| Fee payment|Year of fee payment: 3 |
    2020-07-02| PLFP| Fee payment|Year of fee payment: 5 |
    2021-06-10| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    CN201610279221.6A|CN105757293B|2016-04-29|2016-04-29|A kind of tape pulse magnetic valve water route switching mechanism and gondola water faucet|
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