CN201818879U

CN201818879U - Magnetic control multi-way valve

Info

Publication number: CN201818879U
Application number: CN 201020212763
Authority: CN
Inventors: 彭海松; 陈健民; 陈斌; 周华松
Original assignee: Xiamen Solex High Tech Industries Co Ltd
Current assignee: Xiamen Solex High Tech Industries Co Ltd
Priority date: 2010-06-02
Filing date: 2010-06-02
Publication date: 2011-05-04
Anticipated expiration: 2020-06-02

Abstract

The utility model discloses a magnetic control multi-way valve, comprising a fixing unit, at least two control valves and a second magnet, wherein the fixing unit is provided with a water inlet and at least two connecting cavities, and lower ports of the connecting cavities form a water outlet. The two control valves are respectively arranged in the two connecting cavities. Each control valve comprises a valve core component, a first magnet, a sealing pad, a first spring and a second spring. The valve core components are fixedly arranged in the connecting cavities and are provided with pressure relieving channels. The first magnets can be connected in the connecting cavities in an up-down sliding manner and are positioned above the valve core components. The sealing pads can be connected in the connecting cavities in an up-down sliding manner and are positioned below the valve core components. The second magnets are connected outside the fixing unit in a horizontal sliding manner. The magnetic control multi-way valve has the following advantages that the up-down sliding of the first magnets is controlled by horizontal sliding of the second magnets, the smoothness and blocking of the pressure relieving channels are controlled by the up-down sliding of the first magnets, the up-down sliding of the sealing pads is controlled by the smoothness and blocking of the pressure relieving channels, and the smoothness and blocking between the water inlet and a water inlet cavity are controlled by the up-down sliding of the sealing pads, therefore, the switching of water channels is realized.

Description

A kind of magnetic control multi-ported valve

Technical field

The utility model relates to a kind of multiple-way valve, especially relates to a kind of magnetic control multi-ported valve.

Background technique

Prior art is the solenoid valve technology, but it uses and be electric power control, need to introduce a kind of electric energy, and structure is bigger more, and not only manufacture cost is bigger based on the solenoid valve of this technology, and user cost is also bigger, needs to consume electric power.

The model utility content

The utility model provides a kind of magnetic control multi-ported valve, and it has overcome the deficiency that the existing cost of solenoid valve technology is big in the background technique, need consume electric power.

The technological scheme that is adopted that the utility model solves its technical problem is:

A kind of magnetic control multi-ported valve, it comprises:

One fixed unit, it has independently attaching cavity of a water intake and at least two, and described attaching cavity lower end mouth forms the mouth of a river;

At least two control valves, they are installed in respectively within each attaching cavity; Described each control valve all comprises:

One is installed in the mangetic core assembly within the attaching cavity, and it offers a pressure releasing passages;

One relatively attaching cavity slide up and down and by sliding up and down the logical first stifled magnet of control pressure releasing passages, it can slide up and down and be connected within the attaching cavity and be positioned on the mangetic core assembly;

One be subjected to the logical stifled control of pressure releasing passages relatively attaching cavity slide up and down and by sliding up and down the sealing gasket of controlling the break-make between water outlet and the water-inlet cavity, it can slide up and down and be connected within the attaching cavity and be positioned under the mangetic core assembly;

One is located at first spring between sealing gasket and the mangetic core assembly; And

One is located at second spring between first magnet and the mangetic core assembly; And

One horizontal slip and control second magnet that first magnet slides up and down by horizontal slip relatively relatively, its horizontal slip is connected and fixed outside the unit.

Among one preferred embodiment: the plug that is installed with an adaptive pressure releasing passages under described first magnet.

Among one preferred embodiment:

Described fixed unit comprises a body and a loam cake, and described body and loam cake sealing are fixed together;

Form first chamber between described mangetic core assembly and the sealing gasket, form second chamber between described mangetic core assembly and the loam cake;

Offer one first water passage hole on the described sealing gasket, described first water passage hole is connected the water intake and first chamber;

Offer the pressure releasing passages under always putting on the described mangetic core assembly and always put under second water passage hole, described second water passage hole is connected first chamber and second chamber, described pressure releasing passages is connected second chamber and water outlet.

Among one preferred embodiment: the described second magnet horizontal slip is connected on the loam cake, and the corresponding magnetic pole of the corresponding magnetic pole in the second magnet lower end surface and the first magnet upper-end surface is opposite.

Among one preferred embodiment: be provided with guide sleeve under the described mangetic core assembly, pressure releasing passages is connected in described guide sleeve upper end, and described sealing gasket sealing is slided and is socketed in outside the guide sleeve.

Among one preferred embodiment: be provided with the fixed groove of adaptive first spring on the described sealing gasket, the adaptive fixed groove that is connected of described first spring, and, having an insertion end on described first spring, described insertion end is inserted first water passage hole.

Among one preferred embodiment: horizontal slip is connected with push button on the described loam cake, affixed second magnet of described push button.

Among one preferred embodiment: be provided with up a ladder surface within the described attaching cavity, the corresponding ladder surface of described sealing gasket.

Among one preferred embodiment: convex with a protruding figure on the described ladder surface.

The technical program is compared with background technique, and it has following advantage:

1. controlling first magnet by the second magnet horizontal slip slides up and down, sliding up and down the control pressure releasing passages by first magnet leads to stifled, slide up and down by the logical stifled control sealing gasket of pressure releasing passages, slide up and down the break-make of controlling between water outlet and the water-inlet cavity by sealing gasket, thereby realize the water route switching, it overcomes the existing deficiency of background technique, and electric power control applicable situation is more extensive than before to produce following beneficial effect: a., unrestricted, the Safety performance height; 2. save solenoid valve and can save manufacturing greatly, save electric energy and can reduce user cost greatly, this effect is in the environmental protection society of existing promotion carbon reduction, and this effect is especially outstanding; C. switch light, accurate; D. have the magnetized water effect, magnetized water has all magical usefulness, is widely used in fields such as industry, agricultural and medical science;

2. be provided with the fixed groove of adaptive first spring on the sealing gasket, the adaptive fixed groove that is connected of first spring has an insertion end on first spring, and insertion end is inserted first water passage hole, can accurately locate first spring, is convenient to assembling;

3. convex with a protruding figure on the ladder surface, cooperate by sealing gasket and protruding figure and realize sealing, good seal performance.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is in the preferred embodiment of the present utility model, the schematic perspective view of magnetic control two-way valve.

Fig. 2 is in the preferred embodiment of the present utility model, the three-dimensional explosive view of magnetic control two-way valve.

Fig. 3 is in the preferred embodiment of the present utility model, the three-dimensional explosive view of the mangetic core assembly in the magnetic control two-way valve.

Fig. 4 a is in the preferred embodiment of the present utility model, the schematic perspective view of the spool body in the magnetic control two-way valve.

Fig. 4 b is in the preferred embodiment of the present utility model, the generalized section of the spool body in the magnetic control two-way valve.

Fig. 4 c is in the preferred embodiment of the present utility model, the schematic perspective view of the sealing gasket in the magnetic control two-way valve.

Fig. 4 d is in the preferred embodiment of the present utility model, the generalized section of the sealing gasket in the magnetic control two-way valve.

Fig. 5 a is in the preferred embodiment of the present utility model, when push button be in water outlet B directly over the time the midship section figure of magnetic control two-way valve.

Fig. 5 b is the A-A generalized section of Fig. 5 a.

Fig. 6 a is in the preferred embodiment of the present utility model, the sectional drawing of the magnetic control two-way valve when push button mediates.

Fig. 6 b is the B-B generalized section of Fig. 6 a.

Fig. 7 a is in the preferred embodiment of the present utility model, when push button be in water outlet A directly over the time the sectional drawing of magnetic control two-way valve.

Fig. 7 b is the C-C generalized section of Fig. 7 a.

Embodiment

Please refer to Fig. 1 to Fig. 7, a kind of magnetic control multi-ported valve, it comprises a fixed unit, two control valves 100, one second magnet 200.

Described fixed unit comprises a body 300 and a loam cake 400.Described body 300 and loam cake 400 sealings are fixed together, and make that having one within the described fixed unit can connect the water intake 310 at extraneous water source and the separate attaching cavity 320 of two interval horizontal Tiles, described attaching cavity 320 lower end mouth form the mouth of a river 330, and described attaching cavity 320 and water outlet 330 are preferably coaxial.Among the present embodiment, be provided with up a ladder surface within the described attaching cavity 320, convex with a protruding Figure 34 0 on the described ladder surface.Among the present embodiment, described two attaching cavities 320 are defined as attaching cavity 320A and attaching cavity 320B respectively, and described two water outlets 330 are defined as water outlet 330A and water outlet 330B respectively.

Described two control valves 100 are installed in respectively within two attaching cavities 320.Described control valve 100 comprises a mangetic core assembly 110, one first magnet 120, a sealing gasket 130, one first spring 140 and one second spring 150.Described mangetic core assembly 110 is installed within the attaching cavity 320, described first magnet 120 can slide up and down and be connected within the attaching cavity 320 and be positioned on the mangetic core assembly 110, described sealing gasket 130 can slide up and down and be connected within the attaching cavity 320 and be positioned under the mangetic core assembly 110, and described first spring 140 is located between sealing gasket 130 and the mangetic core assembly 110; Described second spring 150 is located between first magnet 120 and the mangetic core assembly 110.Described sealing gasket 130 is positioned on the ladder surface of attaching cavity 320, on protruding Figure 34 0 of corresponding attaching cavity 320.Form first chamber 160 between described mangetic core assembly 110 and the sealing gasket 130, form second chamber 170 between described mangetic core assembly 110 and the loam cake 400.

Offer the pressure releasing passages 111 under always putting on the described mangetic core assembly 110 and always put under second water passage hole 112, described second water passage hole 112 is connected first chamber 160 and second chambeies 170, described pressure releasing passages 111 is connected second chamber 170 and water outlets 330.Best, set a water flowing screw 180 into pressure releasing passages 111 lower end mouth of mangetic core assembly 110 that are spirally connected again, then described water flowing screw 180 can be switched to water outlet 330 with pressure releasing passages 111, then can play leading role (center hole 132 sealings of described sealing gasket 130 are slided and are socketed in outside the water flowing screw 180) for sealing gasket 130.Offer first water passage hole 131 under always putting on the described sealing gasket 130, described first water passage hole 131 is used to connect the water intake 310 and first chamber 160.

In order to guarantee sealability, be preferably in the plug 121 that is installed with an adaptive pressure releasing passages under described first magnet 120.

In order to guarantee the accurate location of first spring 140, for the ease of assembling, be provided with the fixed groove of adaptive first spring 140 on the best described sealing gasket 130, described first spring, the 140 adaptive fixed grooves that are connected, and, have an insertion end 141 on described first spring 140, described insertion end 141 is inserted first water passage hole 131.In order to guarantee the accurate location of second spring 150, for the ease of assembling, the upper-end surface of best described mangetic core assembly 110 is arranged with positioning groove, described second spring, the 150 adaptive positioning grooves that are connected.

For the ease of understanding, two above-mentioned control valves 100 are defined as control valve 100A and control valve 100B respectively, the composition of corresponding two control valves 100 is definition respectively also, for example two mangetic core assemblies 110 are defined as mangetic core assembly 110A and mangetic core assembly 110B respectively, and 2 first chambeies 160 are defined as the first chamber 160A and the first chamber 160B etc. respectively.In order to make the following operating principle of the clear understanding of auditor, in Fig. 1, Fig. 2, Fig. 5, Fig. 6 and Fig. 7, adopt A and B to distinguish two control valves and corresponding structure thereof respectively, their structure is identical in fact, so does not just directly distinguish A and B when introducing single control valve among Fig. 3 and Fig. 4.

Described second magnet 200 can connect on the loam cake 400 in horizontal slip, in order to guarantee the fairness of second magnet, 200 horizontal slips, preferably cooperates a push button 210,2 the 3rd springs 220 and two positioning beads 230 again.Described second magnet is fixed under the push button 210, and two sides are respectively arranged with chute about described loam cake 400, and two sides extend into slide block respectively downwards about described push button 210, and described two slide blocks are slidingly connected at chute respectively, to realize annexation, with guiding.Described positioning bead and the 3rd spring cooperate to be used to make and change sliding friction into rolling friction, are used to reduce friction factor.Skid off outside the loam cake for fear of push button, position-limit mechanism 240 preferably is set again.

Among the present embodiment, described second magnet 200 is identical with first magnet, 120 shapes, and the corresponding magnetic pole of the corresponding magnetic pole in the second magnet lower end surface and the first magnet upper-end surface is opposite.

As shown in Figure 5, this moment push button 210 be in water outlet 330B directly over, after current are full of into the water cavity by water intake 310, by about the first

water passage hole

131A, 131B enter the

first chamber

160A, 160B, and enter the

second chamber

170A, 170B along the second

water passage hole

112A, 112B after filling up its space;

Owing to having a magnetic pole opposite (being that N is extremely to second magnet 200 of the N utmost point), first magnet 120B top produces repulsion, make the magnet 120B that wins drive plug 121B and move downward the pressure relief opening of blocking pressure releasing passages 111B, make that the B pressure relief opening can not water outlet and the first chamber 160B to occur identical with the interior hydraulic pressure of water-inlet cavity with hydraulic pressure in the second chamber 170B; Sealing gasket 130B is owing to there is the effect of the first spring 140B, can be during original state to linking to each other with water outlet 330B to below, water outlet 330B place, water outlet 330B pressure is identical with atmosphere, thereby makes sealing gasket 130B that downward pressure difference be arranged, block water outlet 330B, make water outlet 330B sealing;

Because first magnet 120A top does not have second magnet, be not subjected to repulsive force, under the second spring 150B effect, move up, described pressure releasing passages 111A conducting, make the pressure of the chamber 160A and the second chamber 170A of winning identical with the pressure of water outlet 330A (being the pressure of atmosphere), go up end pressure less than following end pressure thereby sealing gasket 130A occurs, make sealing gasket 130A move upward and open, thereby water outlet 330A begins water outlet towards water outlet 330A.Wherein: sealing gasket 130A is stressed to be: F1 '-F2=(P1 (hydraulic action is at active force-P2 of sealing gasket 130A (barometric pressure acts on the active force of sealing gasket 130A)) * S-F2 (elastic force of first spring)＞0.

As shown in Figure 6, promote push button left to the neutral position, then second magnet 200 leaves the first magnet 120B and does not reach the first magnet 120A, and the pressure relief opening of

pressure releasing passages

111A, 111B is all opened at this moment, in like manner can get all outwards water outlets of water outlet 330A this moment, 330B.

As shown in Figure 7, continue to promote push button left to Far Left, this moment, the first magnet 120A was subjected to repulsion, and the first magnet 120B is not subjected to, and in like manner can get water outlet 330B water outlet, not water outlet of water outlet 330A.

Promote knob, above process is capable of circulation.

Among the present embodiment, be to be example with the two-way valve, but not as limit.Other also can be suitable for as three-way valve, for example is provided with three control valves, first magnet by three control valves of the second magnet Sliding Control slide up and down the break-make that realizes water outlet.

The above, it only is the utility model preferred embodiment, so can not limit the scope that the utility model is implemented according to this, i.e. the equivalence of doing according to the utility model claim and description changes and modifies, and all should still belong in the scope that the utility model contains.

Claims

1. magnetic control multi-ported valve, it is characterized in that: it comprises:

2. a kind of magnetic control multi-ported valve according to claim 1 is characterized in that: the plug that is installed with an adaptive pressure releasing passages under described first magnet.

3. a kind of magnetic control multi-ported valve according to claim 2 is characterized in that:

4. a kind of magnetic control multi-ported valve according to claim 3 is characterized in that: the described second magnet horizontal slip is connected on the loam cake, and the corresponding magnetic pole of the corresponding magnetic pole in the second magnet lower end surface and the first magnet upper-end surface is opposite.

5. a kind of magnetic control multi-ported valve according to claim 4 is characterized in that: be provided with guide sleeve under the described mangetic core assembly, pressure releasing passages is connected in described guide sleeve upper end, and described sealing gasket sealing is slided and is socketed in outside the guide sleeve.

6. a kind of magnetic control multi-ported valve according to claim 3, it is characterized in that: the fixed groove that is provided with adaptive first spring on the described sealing gasket, the adaptive fixed groove that is connected of described first spring, and, have an insertion end on described first spring, described insertion end is inserted first water passage hole.

7. a kind of magnetic control multi-ported valve according to claim 3 is characterized in that: horizontal slip is connected with push button on the described loam cake, affixed second magnet of described push button.

8. according to claim 3 or 4 or 5 or 6 or 7 described a kind of magnetic control multi-ported valves, it is characterized in that: be provided with up a ladder surface within the described attaching cavity, the corresponding ladder surface of described sealing gasket.

9. a kind of magnetic control multi-ported valve according to claim 8 is characterized in that: convex with a protruding circle on the described ladder surface.