CN106286894B - Three-way magnetic valve - Google Patents

Abstract

A kind of three-way magnetic valve, including valve body (2) and it is set in the coil (1) of the valve body (2) periphery, the valve body (2) includes valve body (21), valve chamber (22) are formed inside the valve body (21), it is characterized in that, being provided with the first valve seat (41) and the second valve seat (42) being arranged oppositely in the circumferential side wall of the valve body (21)；First valve seat (41) has primary sealing area (413), and offer the first recirculation hole (412), second valve seat (42) has secondary sealing area (423), and the second recirculation hole (422) are offered, the primary sealing area (413) is parallel to each other with the secondary sealing area (423)；It further include sliding block (6), the sliding block (6) has third sealing surface (63) and the 4th sealing surface (64), and the distance between the third sealing surface (63) and the 4th sealing surface (64) are less than the distance between the primary sealing area (413) and the secondary sealing area (423).

Description

Three-way magnetic valve

Technical field

The present invention relates to heat-exchange system solenoid valves, and in particular to one kind is cut for air-conditioning in conditioner Change the three-way magnetic valve of refrigerant flow path.

Background technique

It is well known that usually requiring to switch over the runner of refrigerant in cold and heat air regulating device, pass through slide-valve Body is slided on valve seat and is realized with opening or closing corresponding valve port.Three-way magnetic valve is mostly used to meet greatly in the prior art Above-mentioned function needs, and by controlling switching of its coil control system of switching on or off electricity refrigerant between two runners.Specifically refer to Fig. 1, Fig. 2 respectively illustrate a kind of three-way magnetic valve in the overall structure diagram of two kinds of working conditions.

As shown in Figure 1, the one side of the valve body 6' of the first adapter tube 2' and solenoid valve connects, it is embedded in the other side of valve body 6' Install and fix the valve seat 12' for being formed with two valve ports 14a', 14b' being made of circular through hole, and the second adapter tube 3', third adapter tube 4' are communicatively connect with above-mentioned valve port 14a', 14b' respectively, become the adapter tube of the first adapter tube 2' and second as a result, The state that 3', third adapter tube 4' are connected to by means of valve body 6'.

Sliding block 10' is configured on the valve seat 12a' of valve seat 12', sliding block 10' is with sealing surface 10a' and valve seat The state of 12a' contact configures on valve seat 12a', the sealing surface 10a' for keeping this smooth and valve seat 12a' sliding contact.? The connecting rod 16' that axis direction extends is connect with sliding block 10', also, is abutted in the face of the opposite side of the sealing surface 10a' of sliding block 10' The leaf spring 24' of the side oriented sealing surface 10a' reinforcing.

When electromagnetic coil is not powered on, plunger 18' under the action of the elastic force of helical spring 20' because moving downward, such as Fig. 1 institute Show, so that the sliding block 10' being connect by means of connecting rod 16' with plunger 18' be made also to decline, sealing surface 10a' seals lower side Valve port 14a'.At this moment, since slide valve 10' is because of the elastic force of above-mentioned leaf spring 24' and the refrigerant flowed into from the first adapter tube 2' Strongly pushed to valve seat 12a', therefore valve port 14a' becomes the state being reliably sealed.Therefore, it is flowed from the first adapter tube 2' The refrigerant entered in valve body 6' is flowed out by valve port 14b' to third adapter tube 4'.

On the other hand, when electromagnetic coil is powered, attractor 22' magnetic suck plunger 18' makes plunger 18' overcome spiral bullet The elastic force of spring 20' and rise, as shown in Fig. 2, the sliding block 10' being connect by means of connecting rod 16' with plunger 18' is also risen, by it The valve port 14b' of sealing surface 10a' sealing upper side.At this moment, since sliding block 10' is because of the elastic force of above-mentioned leaf spring 24' and from first The refrigerant that adapter tube 2' is flowed into strongly is pushed to valve seat 12a', therefore valve port 14b' becomes the state being reliably sealed. Therefore, the refrigerant flowed into valve body 6' from the first adapter tube 2' is flowed out by valve port 14a' to the second adapter tube 3'.

However, the solenoid valve of this structure, is by connecting rod band movable slider 10' two valve port arranged up and down to the same side 14a', 14b' are opened and closed operation, therefore two valve ports 14a', 14b' must have a certain distance in processing, and in order to Guarantee that sliding block 10 can block one of valve port completely in the process of running, then the stroke of sliding block 10' has to be larger than valve port The diameter of 14a' or 14b', i.e. L > (L1+L2)/2, wherein L is the stroke of sliding block 10', and L1 is the diameter of valve port 14a', and L2 is The diameter of valve port 14b'.And since sliding block 10' is driven by plunger 18', then the stroke of sliding block 10' is plunger 18' and inhales Operating range between introduction 22', the operating range are bigger, it is necessary to need bigger electromagnetic force to drive, in this way, in order to meet The action performance requirement of solenoid valve, it is necessary to increase the power of coil to improve electromagnetic force.

Therefore, how to design one kind and do not need high-power coil, so that it may improve electromagnetic force, and reduce the movement of plunger The solenoid valve of stroke, realizes the reliable switching to air-conditioning system pipeline, just becomes those skilled in the art's technology urgently to be resolved Problem.

Summary of the invention

In view of the foregoing drawbacks, present invention solves the technical problem that being to provide a kind of using lesser electromagnetic force, Ji Keshi Now to the three-way magnetic valve of air-conditioning system pipeline reliably switched, for this purpose, the invention adopts the following technical scheme:

Three-way magnetic valve including valve body and is set in the coil of the valve body periphery, and the valve body includes valve body, institute It states valve body and forms valve chamber, which is characterized in that be provided with the first valve being arranged oppositely in the circumferential side wall of the valve body Seat and the second valve seat；

First valve seat has primary sealing area, and offers the first recirculation hole, and second valve seat is close with second Cover, and the second recirculation hole is offered, the primary sealing area is parallel to each other with the secondary sealing area；

It further include sliding block, the sliding block has third sealing surface and the 4th sealing surface, the third sealing surface and described the The distance between four sealing surfaces are less than the distance between the primary sealing area and the secondary sealing area.

It is provided with the first sealing on the third sealing surface, is provided with the second sealing on the 4th sealing surface, institute The first sealing is stated for blocking to first recirculation hole, second sealing be used for second recirculation hole into Row blocks.

The movement travel of the sliding block is equal to or slightly less than larger among both first recirculation hole and second recirculation hole Diameter.

The central axis S1 of first recirculation hole and the central axis S2 of second recirculation hole are located along the same line.

First sealing and second sealing are staggered a certain distance in the direction of motion along the sliding block.

The central axis S1 of first recirculation hole and the central axis S2 of second recirculation hole are parallel to each other, and on edge Be staggered a certain distance in the direction of motion of the sliding block.

First sealing and second sealing are symmetrical arranged in the two sides of the sliding block.

The valve body further includes the casing being fixedly connected with the valve body, and described sleeve pipe is blocked by end socket, described sleeve pipe It is internally provided with core iron, the core iron is connected with the slide block, so that the sliding block is moved with the movement of the core iron.

In can mutually slide in the radial direction along the core iron between the core iron and the sliding block.

It can mutually be rotated on the circumferential direction along the core iron between the core iron and the sliding block.

Three-way magnetic valve provided by the invention, the first valve seat and the second valve seat are arranged oppositely, and have the to be parallel to each other One sealing surface and secondary sealing area, and the third sealing surface of sliding block and the 4th sealing surface are also parallel to each other, and between the two Distance is less than primary sealing area at a distance from secondary sealing area, in this way, sliding block can be in primary sealing area and secondary sealing area Between move back and forth, thus when blocking the first recirculation hole, the second recirculation hole is connected；When blocking the second recirculation hole, The conducting of first recirculation hole.The three-way magnetic valve of this structure can greatly reduce the movement row of sliding block compared with prior art Journey, since core iron is moved simultaneously with sliding block, the stroke of core iron also accordingly reduces, in this way, the electricity of driving core iron movement Magnetic force also can reduce, so as to can be realized as using low power coil.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of working condition of three-way magnetic valve in the prior art；

Fig. 2 is the schematic diagram of three-way magnetic valve another kind working condition in the prior art；

Fig. 3 is first embodiment of the invention surface structure schematic diagram；

Fig. 4 is the first cross-sectional operational views of first embodiment of the invention；

Fig. 5 is the partial enlarged view of Fig. 4；

Fig. 6 is the second cross-sectional operational views of first embodiment of the invention；

Fig. 7 is the sliding block appearance diagram of first embodiment of the invention；

Fig. 8 is the core iron structural schematic diagram of first embodiment of the invention；

Fig. 9 is that the core iron of first embodiment of the invention and sliding block cooperate schematic diagram；

Figure 10 is the sliding block appearance diagram of second embodiment of the invention；

Figure 11 is the core iron structural schematic diagram of second embodiment of the invention；

Figure 12 is that the core iron of second embodiment of the invention and sliding block cooperate schematic diagram；

Figure 13 is the working state schematic representation of second embodiment of the invention；

Figure 14 is the appearance diagram of third embodiment of the invention；

Figure 15 is the appearance diagram of four embodiment of the invention；

Figure 16 is the appearance diagram of fifth embodiment of the invention；

Figure 17 is the appearance diagram of sixth embodiment of the invention.

Specific embodiment

In order to enable those skilled in the art to better understand the present invention, with reference to the accompanying drawings of the specification, to implementation of the invention Mode is described in detail.

First embodiment:

Referring to figure 3., Fig. 3 is first embodiment of the invention structural schematic diagram.

As shown in Figure 3, Figure 4, three-way magnetic valve provided by the invention is mainly assembled by valve body 2 and coil 1, valve body 2 Valve body 21 including being in general cylindrical shape structure, it is internal to form valve chamber 22, first is connected in the outer peripheral surface of valve body 21 Discharge connection 4 and second outlet adapter tube 5 and entrance sleeve 3, in the present embodiment, the central axis of first outlet adapter tube 4 The central axis S2 of S1 and second outlet adapter tube 5 are located along the same line.In order to which first outlet adapter tube 4 and second outlet are taken over 5 are connected on valve body 21, first can process two holes being oppositely arranged in the periphery of valve body 21, then pass through welding First valve seat 41 and the second valve seat 42 are separately fixed on two holes, and first outlet adapter tube 4 and second outlet are connect by mode Pipe 5 is separately fixed on the first valve seat 41 and the second valve seat 42.The extending direction of entrance sleeve 3 is set as taking over first outlet 4 extending direction is vertical.

First valve seat 41 and the second valve seat 42 can take identical structure, thus it is following only by taking the first valve seat 41 as an example into Row description, those skilled in the art will be seen that, be equally applicable to the second valve seat 42 to the description of the first valve seat 41 below.

First valve seat 41 is substantially cylindrical, as shown in figure 5, successively offering the first pilot hole 411 of major diameter inside it And the first recirculation hole 412 of path.Wherein, the first pilot hole 411 is used to fix with first outlet adapter tube 4 with sealing is merged； First recirculation hole 412 is then used for the circulation of fluid, and is blocked or be connected by sliding block 6.

The end face (i.e. the end of the first recirculation hole 412) of first valve seat 41 is set as plane, to form primary sealing area 413, since the second valve seat 42 equally has the second pilot hole 421 and the second recirculation hole 422, and the end face of the second valve seat 42 It is set as plane, i.e. secondary sealing area 423, in this way, primary sealing area 413 and secondary sealing area 423 just constitute a pair mutually Parallel plane, and the opening of the first recirculation hole 412 and the second recirculation hole 422 is then located at primary sealing area 413 and second On sealing surface 423.

As shown in fig. 6, valve body 2 further includes casing 23, casing 23 is set on valve body 21, usually passes through the modes such as welding It is fixed.The other end of casing 23 then seals and is fixed with end socket 25, in this way, between valve body 21 and casing 23, end socket 25 just A closed cavity is constituted, in the cavity, is provided with core iron 24, core iron 24 is cylindrical, can be in casing 23 up and down It slides (on the basis of attached drawing 6), meanwhile, core iron 24 offers cavity, and spring 26 is provided in cavity, and spring 26 is resisted against core iron Between 24 and end socket 25, when electromagnetic coil is cold, since the elastic force of spring 26 acts on, between core iron 24 and end socket 25 There are gaps, when the solenoid is activated, generate magnetic field, and the elastic force for making core iron 24 overcome spring 26 moves up, and are attracted with end socket 25, As shown in Figure 6.

As shown in figure 8, the lower end of core iron 24 is provided with connection sheet 242, it is big extremely plate-like, and it is provided with mounting hole 241, For installing sliding block 6.

Fig. 7 is please referred to, Fig. 7 is the sliding block appearance diagram of first embodiment of the invention.Sliding block 6 is substantially cylindrical, With outer edge surface 65, the shape of the mounting hole 241 in the connection sheet 242 of the shape of outer edge surface 65 and above-mentioned core iron is adapted, this Sample, so that it may sliding block 6 be connected with core iron 24, in the present embodiment, outer edge surface 65 and the mounting hole 241 of sliding block 6 are non- Close-fitting connection, i.e. core iron 24 and sliding block 6 along mounting hole 241 axis direction, i.e. core iron 24 in the radial direction can be mutual It is free to slide.

Two end faces of sliding block 6 are respectively arranged with the first sealing 61 and the second sealing 62, wherein the first sealing 61 For blocking to the first recirculation hole 412 on primary sealing area 413, the second sealing 62 is used for secondary sealing area 423 On the second recirculation hole 422 blocked.In the longitudinal section direction along sliding block 6, the first sealing 61 and the second sealing 62 It is in the same plane, and is staggered a certain distance along the direction of motion of sliding block 6.In this way, due to 412 He of the first recirculation hole Second recirculation hole 422 is coaxial arrangement, therefore, when the first sealing 61 blocks the first recirculation hole 412, the second sealing 62 and second recirculation hole 422 be staggered a certain distance, i.e. the second recirculation hole 422 is in the conductive state.

Side where the first sealing 61 of sliding block, is additionally provided with support rim 611, and the number of support rim can be with It is set as needed, is in the present embodiment 4, the height of the height of support rim 611 and the first sealing 61 is substantially It is equal, in this way, support rim 611 and the first sealing 61 just constitute the third sealing surface 63 of sliding block, support rim 611 and The lower groove 612 in relative position is formed between one sealing 61, when the first sealing 61 is affixed with primary sealing area 413 It closes, and when blocking the first recirculation hole 412, support rim 611 equally fits with primary sealing area 413, and the then structure of groove 612 At the circulation passage of fluid.

Similarly, since sliding block is symmetrical structure, therefore in the side where the second sealing of sliding block 62, it is again provided with Support rim 621 and groove 622, the support rim 621 and the second sealing 62 then constitute the 64 (figure of the 4th sealing surface of sliding block In be not shown), this is no longer going to repeat them.

Third sealing surface 63 and the 4th sealing surface 64 are also in parastate, and distance between the two is less than primary sealing area The distance between 413 and secondary sealing area 423, in this way, sliding block 6 can primary sealing area 413 and secondary sealing area 423 it Between have certain slide displacement, thus alternatively to the recirculation hole being arranged on primary sealing area 413 or secondary sealing area 423 into Row blocks.

When electromagnetic coil 1 is powered, core iron 24 is attracted by electromagnetic force with end socket 25, core iron 24 with movable slider 6 to Upper movement, the second sealing 62 of sliding block 6 is aligned with the second recirculation hole 412 of the second valve seat 42, simultaneously because the outer rim of sliding block 6 It is non-close-fitting structure between face 65 and the connecting hole 241 of core iron 24, it therefore, can be by sliding block 6 to the right under the action of Fluid pressure Side squeezes, and is fitted in sliding block 6 firmly on secondary sealing area 423, so that the second recirculation hole 422 be blocked.At this point, fluid from Entrance sleeve 3 enters, and flows out along the left groove 612 of sliding block 6 from first outlet adapter tube 4.

In the present embodiment, when sliding block 6 rises to extreme position, the first sealing 61 is by 412 envelope of the first recirculation hole Stifled, when sliding block 6 drops to extreme position, the second envelope portion 62 blocks the second recirculation hole 422, therefore, positioned at 6 two sides of sliding block The distance of first sealing 61 and the second sealing 62 on longitudinal cross-section, as movement of the sliding block 6 in whole work process Stroke.

In order to guarantee the validity of the closure of sliding block 6, there are same apertures in the first recirculation hole 412 and the second recirculation hole 422 In the case where, only need to the movement travel of sliding block 6 be equal to or is slightly less than the first recirculation hole 412 or the second circulation 422 Diameter.When the movement travel of sliding block 6 is slightly less than the diameter of the first recirculation hole 412 or the second recirculation hole 422, although when first When sealing 62 blocks the second recirculation hole 422, the first sealing 61 can block a part of first recirculation hole 412 simultaneously, however, Due to the presence of groove 612, fluid still can be flowed out along groove 612 from first outlet adapter tube 4.

And in the case that the first recirculation hole 412 is different with the aperture of the second recirculation hole 422, then it need to only guarantee sliding block 6 Movement travel is equal to or slightly less than biggish circulation bore dia in two recirculation holes.The diameter of even the first recirculation hole 412 is greater than The movement travel of sliding block 6 is then equal to or is slightly less than the diameter of the first recirculation hole 412 by the diameter of the second recirculation hole 422； Conversely, setting the movement travel of sliding block 6 to if the diameter of the second recirculation hole 422 is greater than the diameter of the first recirculation hole 412 In or be slightly less than the diameter of the second recirculation hole 422.

It should be noted that " being slightly less than " of the present invention, which refers to, can make suitable subtract to the movement travel of sliding block It is small, it will be understood by those skilled in the art that above-mentioned can be in right amount because of the mistake within the allowed band caused by being machined Difference is also possible to the setting made intentionally to be further reduced electromagnetic force.

It in actual processing, can according to need, design the first sealing 61 and the second sealing 62 in the longitudinal direction Then the distance being staggered is formed by modes such as injection moldings.Obviously, this structure in terms of existing technologies, sliding block 6 Movement travel can greatly reduce, since core iron 24 is moved simultaneously with sliding block 6, the stroke of core iron also accordingly subtracts It is small, in this way, the electromagnetic force that driving core iron 24 moves also can reduce, therefore can be can be realized as using low power coil.

Second embodiment:

Figure 10, Figure 11, Figure 12 are please referred to, Figure 10 is the sliding block appearance diagram of second embodiment of the invention；Figure 11 is The core iron structural schematic diagram of second embodiment of the invention；Figure 12 is that the core iron of second embodiment of the invention and sliding block cooperation are shown It is intended to.

Technical solution in order to facilitate understanding, in the present embodiment, for phase same-action is played in first embodiment Component use same number.

As shown in Figure 10, sliding block 6 substantially has the cube structure of lack part in middle part, has upper surface 671 and lower end Face 672, a side is provided with the first sealing 61 wherein, correspondingly, in symmetrical another side, is provided with the second sealing Portion 62, and it is similar to first embodiment, and the first sealing 61 and the second sealing 62 are generally located at together in longitudinal section direction One plane, and a certain distance that is staggered in the longitudinal direction.The surrounding of the side of sliding block 6 is arranged in support rim 611, and height is set It is set to roughly the same with the height of the first sealing 61, is formed between the first sealing 61 and support rim 611 in this way Groove 612, so that fluid passes through.In this second embodiment, valve seat, the structure of valve body are identical with first embodiment, It will be understood by those skilled in the art that when the sliding block 6 of present embodiment is applied to valve body structure used by the first implementation formula, Identical technical effect can be generated.

Centre bore 66 is provided between upper surface 671 and lower end surface 672, centre bore 66 runs through 6 entirety of sliding block, to be used for Cooperated with core iron part.As shown in figure 11, the lower end of core iron 24 is provided with miner diameter end 243 and auxiliary section 244, wherein small The outer diameter at diameter end 243 is slightly less than the internal diameter of the centre bore 66 of sliding block, in this way, when miner diameter end 243 is assembled in centre bore 66, two Person is non-close-fitting structure, and sliding block 6 can have certain rotational freedom relative to core iron 24.Sliding block 6 is being assembled to core iron After on 24, retaining ring 245 is fixed with auxiliary section 244 by modes such as welding or close-fitting.

The cross sectional shape of centre bore 66 can be round or ellipse, when section is ellipse, by elliptical long axis Extending direction is arranged along the extending direction of discharge connection, elliptical short-axis direction may be sized to and miner diameter end 243 diameter is roughly equal.In this way, after the assembly is completed, sliding block 6 can be in the central axial direction along two discharge connections It moves freely.Compared with first embodiment, left and right can be achieved certainly in the sliding block 6 of present embodiment as first embodiment By moving, moreover it is possible to realize that sliding block 6 is freely rotated with core iron 24 in circumferential, can move up and down and rotate to avoid core iron in this way When, sliding block 6 is not influenced by the circumferential movement of core iron 24.

Figure 13 is please referred to, Figure 13 is the working state schematic representation of second embodiment of the invention.Electromagnetic coil is powered, core iron 24 move up and are attracted with end socket 25, and core iron 24 moves up with movable slider 6, and the second sealing 62 and the second recirculation hole 422 of sliding block 6 are right Standard, under the action of Fluid pressure, the second sealing 62 blocks the second recirculation hole 422.At this point, fluid from entrance sleeve 3 into Enter, is flowed out along the left groove 612 of sliding block 6 from first outlet adapter tube 4.

Third embodiment:

With reference to the accompanying drawing 14, third embodiment of the present invention is described.

In the present embodiment, the first sealing 61 of sliding block 6 and the second sealing 62 are symmetrical set, and the first valve seat 41 and second valve seat 42 be staggered a certain distance in the axis direction along valve body 21.That is, the center of first outlet adapter tube Axis S1 and the central axis S2 of second outlet adapter tube 5 are parallel to each other, and be staggered in the direction of motion of sliding block it is certain away from From D.For sliding block 6 other than the setting of the first sealing 61 and the second sealing 62, remaining structure can be real using above-mentioned first The structure for applying mode or second embodiment, no longer repeats one by one.Obviously, present embodiment can equally obtain reduction core iron The effect of movement travel.

4th embodiment:

In the above-described embodiment, the extending direction of entrance sleeve 3 and first outlet adapter tube 4, second outlet adapter tube 5 prolong It is substantially rectangular to stretch direction.Changing first outlet adapter tube 4 and second outlet adapter tube 5 can also in the case where same direction In the present embodiment valve body can be arranged in entrance sleeve 3 by the setting position and setting direction for becoming entrance sleeve 3 Bottom, as shown in figure 15.

5th embodiment

For present embodiment compared with the 4th embodiment, difference is entrance sleeve 3 and the ipsilateral setting of first outlet adapter tube 4 And be parallel to each other, as shown in figure 16.It will be appreciated by those skilled in the art that under the technology of the present invention design, it can also be to import The setting position of adapter tube 3 and setting direction make various equivalent replacements, these equivalent replacements should also be as belonging to of the invention Within protection scope.

Sixth embodiment

Present embodiment is the another kind setting to 6 structure of sliding block, and as shown in figure 17, sliding block 6 is substantially in middle part with deficient The cube structure in the portion of lacking, unlike second embodiment, support rim and the first sealing combine together, are collectively formed The first planar sealing 61, directly forms groove 612 on the first sealing 61 in this way, so that fluid passes through.

Centre bore 66 is provided between the upper surface and lower end surface of sliding block, centre bore 66 runs through 6 entirety of sliding block, to be used for Cooperated with core iron part.Remaining can refer to second embodiment and is understood, this is no longer going to repeat them.

It should be noted that the term positions such as upper and lower, left and right that specification occurs, are shown with Figure of description Basis should not be interpreted as the limitation to technical solution.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (10)

1. three-way magnetic valve, including valve body (2) and it is set in the coil (1) of the valve body (2) periphery, valve body (2) packet It includes valve body (21), forms valve chamber (22) inside the valve body (21), which is characterized in that the peripheral side of the valve body (21) The first valve seat (41) and the second valve seat (42) being arranged oppositely, first valve seat and second valve seat difference are provided on wall It is fixed on the valve body；

First valve seat (41) has primary sealing area (413), and offers the first recirculation hole (412), second valve seat (42) there are secondary sealing area (423), and offers the second recirculation hole (422), the primary sealing area (413) and described second Sealing surface (423) is parallel to each other；

It further include sliding block (6), the sliding block (6) has third sealing surface (63) and the 4th sealing surface (64), the third sealing The distance between face (63) and the 4th sealing surface (64) are less than the primary sealing area (413) and the secondary sealing area The distance between (423).

2. three-way magnetic valve as described in claim 1, which is characterized in that it is close to be provided with first on the third sealing surface (63) Envelope portion (61) is provided with the second sealing (62) on the 4th sealing surface (64), and first sealing (61) is used for institute It states the first recirculation hole (412) to be blocked, second sealing (62) is for sealing second recirculation hole (422) It is stifled.

3. three-way magnetic valve as described in claim 1, which is characterized in that the movement travel of the sliding block (6) is equal to or smaller The biggish diameter among first recirculation hole (412) and the second recirculation hole (422) the two.

4. three-way magnetic valve as claimed in claim 2, which is characterized in that the central axis S1 of first recirculation hole (412) It is located along the same line with the central axis S2 of second recirculation hole (422).

5. three-way magnetic valve as claimed in claim 4, which is characterized in that first sealing (61) and second sealing Portion (62) is staggered a certain distance in the direction of motion along the sliding block (6).

6. three-way magnetic valve as claimed in claim 2, which is characterized in that the central axis S1 of first recirculation hole (412) It is parallel to each other with the central axis S2 of second recirculation hole (422), and is staggered centainly in the direction of motion along the sliding block Distance.

7. three-way magnetic valve as claimed in claim 6, which is characterized in that first sealing (61) and second sealing Portion (62) is symmetrical arranged in the two sides of the sliding block (6).

8. three-way magnetic valve as described in claim 1, which is characterized in that the valve body (2) further includes and the valve body (21) casing (23) being fixedly connected, described sleeve pipe (23) are blocked by end socket (25), and described sleeve pipe (23) is internally provided with core iron (24), the core iron (24) connect with the sliding block (6), so that the sliding block (6) is moved with the movement of the core iron (24).

9. three-way magnetic valve as claimed in claim 8, which is characterized in that between the core iron (24) and the sliding block (6) Along capable of mutually sliding in the radial direction for the core iron (24).

10. three-way magnetic valve as claimed in claim 8, which is characterized in that between the core iron (24) and the sliding block (6) Along can mutually be rotated in the circumferential direction of the core iron (24).