CN111255938B - Electric valve - Google Patents

Abstract

The utility model provides an electrically operated valve, the motorised valve includes mounting panel and mounting flange, the mounting panel includes main part and stabilizer blade, the stabilizer blade includes the installation face towards the mounting flange side, the installation face looks butt of mounting flange and stabilizer blade, the mounting panel still includes the first side towards the mounting flange side, the main part still includes a plurality of first fixed orificess, the casing includes a plurality of first bellyings, partly first fixed orifices of running through of first bellyings, first bellyings includes the fixed part, the diameter of fixed part is greater than the internal diameter of first fixed orificess, the fixed part is located between main part and the mounting flange, the difference in height between installation face and the first side is greater than the fixed part and for the proud height of first side, keep the certain distance between fixed part and the mounting flange, the damage risk of fixed part when fixed part and mounting flange looks butt when reducible installation.

Description

Electric valve

Technical Field

The invention relates to the technical field of flow regulation, in particular to an electric valve.

Background

The electric valve can be widely applied to a fluid medium pipeline system and used for adjusting the medium flow. Taking the application of the electric valve in the automotive field as an example, the electric valve can be used in an air conditioning system, an engine cooling system or a battery cooling system. As shown in fig. 22, the electric valve includes a coil assembly 221. When manufacturing the motor-operated valve, the coil assembly 221 needs to be fixed to the valve body of the motor-operated valve by the mounting plate 4.

When the valve assembly is mounted, a part of the fixing portion 226 of the coil assembly 221 is fixed to the mounting plate 4, and a part of the fixing portion 226 abuts against the valve body, so that the fixing portion fixed to the mounting plate 4 is prevented from abutting against the valve body and being damaged.

Disclosure of Invention

The technical scheme of the invention provides an electric valve which comprises a stator component, a sleeve and a rotor component, wherein the stator component is sleeved on the sleeve and comprises a shell and a coil component;

the mounting plate comprises a main body and support legs, the support legs comprise mounting surfaces facing to a mounting flange side, the mounting flange is abutted to the mounting surfaces of the support legs, and the mounting plate further comprises a first side surface facing to the mounting flange side;

the main part still includes a plurality of first fixed orificess, the casing includes a plurality of first bellying, some of first bellying runs through the first fixed orificess of a part, first bellying includes the fixed part, the diameter of fixed part is greater than the internal diameter of first fixed orificess, the fixed part is located between main part and the mounting flange, the difference in height between installation face and the first side is greater than the fixed part is for the proruption height of first side, keep the certain distance between fixed part and the mounting flange. In the electric valve provided by the scheme, the height difference between the mounting surface and the first side surface is larger than the protruding height of the fixing part relative to the first side surface, namely a certain distance is kept between the fixing part and the mounting flange, so that the damage risk of the fixing part when the fixing part is abutted to the mounting flange during mounting can be reduced.

Drawings

FIG. 1 shows a schematic front view of an embodiment of the present invention;

figure 2 shows a schematic cross-sectional view of the electrically operated valve of figure 1;

figure 3 shows a schematic perspective view of a closure of the electrically operated valve of figure 2;

figure 4 shows a schematic cross-sectional view of the closure of the electrically operated valve of figure 2 along line B-B;

figure 5 shows a schematic cross-sectional view of a rotor component of the electrically operated valve of figure 2;

figure 6 shows a schematic front view of a rod part of the electric valve shown in figure 2;

FIG. 7 illustrates a left side schematic view of the rod member of FIG. 6;

figure 8 shows a schematic perspective view of the valve cover of the electrically operated valve of figure 2;

FIG. 9 shows a side schematic view of a rod component of another embodiment of an electrically operated valve;

FIG. 10 is a schematic cross-sectional view of the rod unit of FIG. 9 taken along line C-C;

figure 11 shows a schematic cross-sectional view of another embodiment of a closure for an electrically operated valve along line B-B;

FIG. 12 shows a schematic left side view of the closure of FIG. 11;

figure 13 shows a schematic perspective view of a mounting flange of the electrically operated valve of figure 2;

figure 14 shows a schematic perspective view of a portion of the electrically operated valve of figure 2;

figure 15 shows a schematic perspective view of a mounting plate of the electrically operated valve of figure 2;

figure 16 shows a front view of a mounting plate of the electrically operated valve of figure 2;

figure 17 shows a schematic perspective view of a valve housing of the electrically operated valve of figure 2;

figure 18 shows a schematic view of the assembly of a portion of the electrically operated valve of figure 2;

figure 19 shows a schematic perspective view of a portion of yet another embodiment of an electrically operated valve;

figure 20 shows a schematic perspective view of a portion of the rotor components shown in figure 5;

figure 21 shows a schematic cross-sectional view of the rotor component of figure 5 taken along line D-D;

figure 22 shows a schematic perspective view of a portion of a typical electrically operated valve;

figure 23 shows an enlarged partial schematic view of the electrically operated valve of figure 2.

Detailed Description

As shown in fig. 1 and 2, the electrically operated valve comprises rotor part 4, rod assembly 10 and cover 3. As shown in fig. 6, the rotor member 4 includes a female screw portion 402, the lever assembly 10 includes the lever member 5, the lever member 5 includes a male screw portion 505, and the female screw portion 402 of the rotor member 4 is engaged with the male screw portion 505 of the lever member 5, so that the rotational motion of the rotor member 4 can be converted into the linear motion of the lever member 5. The male screw 505 is provided on the outer periphery of the rod member 5.

Specifically, as shown in fig. 5, 20 and 21, the rotor part 4 includes a magnet 401 and a nut 403. The nut 403 is fixed to or integrally formed with the magnet 401 located at the outer peripheral portion of the nut. Magnet 401 may be substantially cylindrical and nut 403 may be substantially cylindrical. The magnet 401 includes a convex portion 4011 protruding toward the nut 403, the nut 403 includes a concave portion 4031 depressed to the outside of the nut, and the convex portion 4011 is fitted into the concave portion 4031, so that the magnet 401 and the nut 403 are more firmly fixed. The female screw 402 is located on the inner peripheral side of the nut 403. This configuration may reduce the risk of relative slippage between magnet 401 and nut 403 when rotor component 4 is impacted, particularly being reinforced axially and circumferentially with respect to rod component 5.

The nut 403 may be made of plastic, the nut 403 may be fixed to the magnet 401 during injection molding, and the nut 403 and the magnet 401 may be formed as an integral structure. Since the eccentric force of the rotor member 4 with respect to the rod member 5 is mostly applied to the threaded portion, the nut 403 may be also made of metal powder, which may make the life of the internal threaded portion 402 longer.

As shown in fig. 2, the electric valve further comprises a valve cover 6 and a sleeve 11, wherein a first cavity 8 is formed in the sleeve 11, a part of the rotor part 4 is positioned in the first cavity 8, the first cavity 8 is substantially cylindrical, and one end of the sleeve 11 is fixed with or integrated with the cover 3. In one embodiment of the present invention, one end of the sleeve 11 is fixed to the cover 3 and the joint is sealed, and the other end of the sleeve 11 is fixed to the valve cover 6 and the joint is sealed.

As shown in fig. 2-8, a second chamber 306 is formed in cover 3, and one end of wand assembly 10 extends into second chamber 306. The valve cover 6 includes a shaft hole 62, and the other end of the lever assembly 10 passes through the shaft hole 62.

The inner wall corresponding to the sliding cavity 306 comprises a matching wall portion 302 and a limiting wall portion 303 which extend along the length direction of the rod assembly, one end of the rod assembly 10 comprises a first matching portion 701 and a special-shaped matching portion 702, and the first matching portion 701 is in sliding fit with the matching wall portion 302. At least a part of the irregularly shaped fitting portion 702 and the first fitting portion 701 are different in distance from the rod assembly center axis, and at least a part of the irregularly shaped fitting portion 702 is slidably fitted to the stopper wall portion 702. The center axis of the lever assembly means a rotation axis of the lever member 5.

One end of rod assembly 10 is radially restrained with respect to rod assembly 10 by engagement of first engagement portion 701 with engagement wall portion 302, and shaft hole 62 radially restrains the other end of rod member 5 with respect to rod assembly 10. The rotor part 4 is thus also radially restrained with respect to the rod assembly. The solution allows radial spacing of rotor member 4 and rod assembly 10 with a simple structure, saving ball bearings. Meanwhile, through the matching of the special-shaped matching part 702 and the limiting wall part 303, one end of the rod assembly 10 can be limited relative to the circumferential direction of the rod assembly 10, namely, the rotation prevention function is achieved.

In this embodiment, as shown in fig. 6 and 7, the rod assembly 10 further includes a stopper 7 having a maximum outer diameter larger than the external threaded portion 505 of the rod member 5, the stopper 7 is fixed to or integrated with one end of the rod member 5, and the stopper 7 extends into the second cavity 306 of the cap 3. Engaging wall portion 302 and limiting wall portion 303 are located at an inner peripheral portion of second chamber 306, and limiting block 7 is slidable within second chamber 306 along the length of wand assembly 10.

The stopper 7 may further include a mounting hole 704, and a portion of the rod member 5 near one end of the second chamber 306 is inserted into the mounting hole 704. The rod member 5 and the mounting hole 704 may have an interference fit therebetween. The limiting block 7 and the rod part 5 can also be fixed in other modes such as welding and the like.

As shown in fig. 4, the cover 3 further comprises a step surface 304, and the step surface 304 is located at the bottom of the second cavity 306. When the rod assembly 10 moves to the topmost limit position, the limit block 7 abuts against the step surface 304, and the step surface 304 can play a limiting role.

As shown in fig. 3, 4, 6 and 7, in one embodiment of the electric valve, the stopper 7 includes a first fitting portion 701 and a specially-shaped fitting portion 702 located at the outer periphery of the stopper, and the inner diameter of at least a portion of the stopper wall portion 303 is smaller than the minimum inner diameter of the fitting wall portion 302, so that the stopper 7 is circumferentially limited in the second cavity 306. That is, the cross section of the limiting block 7 is substantially D-shaped, which can play a role of limiting the rotation of the rod assembly 10. The profile matching parts 702 can also be symmetrically arranged relative to the rod part 5, so that the stress of the limiting blocks 7 is more uniform.

In another embodiment of the electrically operated valve, as shown in fig. 9 to 12, the stopper 7 includes a first engaging portion 701 and a specially shaped engaging portion 702 located at the outer periphery of the stopper 7, and at least a portion of the specially shaped engaging portion 702 extends into the stopper wall 303, so that the stopper 7 is circumferentially retained in the second cavity 306. Specifically, the stopper wall portion 303 is substantially in the shape of a groove, the stopper 7 may include a pin 705 penetrating the stopper 7 in the rod assembly radial direction, and the contour fitting portion 702 is a part of the pin 705.

As shown in fig. 2, 4, the cover 3 may further comprise a blocking piece 307, the blocking piece 307 closing an open end 308 of the cover 3 remote from the rod assembly. Furthermore, the closure 3 comprises a first pressure relief vent 305 communicating the second chamber 306 with the first chamber 8, the first pressure relief vent 305 being located between the lever assembly and the blocking member. First relief vent 305 may reduce the pressure differential across stopper 7, facilitating axial movement of wand assembly 10.

As shown in fig. 2, 3 and 8, the cover 3 includes a rotor upper stopper 301, and the valve cover 6 includes a rotor lower stopper 61.

The electric valve further includes a plurality of spacers 12, the spacers 12 are provided between the rotor upper restriction portion 301 and the rotor member 4, and the spacers 12 are also provided between the rotor lower restriction portion 61 and the rotor member 4. The rotor upper limit portion 301 and the rotor lower limit portion 61 can limit the rotor member 4 in the axial direction of the rod assembly. The spacer 12 reduces the friction between the rotor member 4 and the rotor upper stopper 301 and the friction between the rotor member 4 and the rotor lower stopper 61, thereby reducing the wear of the rotor member 4 and increasing the life of the rotor member. The gasket 12 may be made of graphite, or may be made of other lubricating materials such as polytetrafluoroethylene.

In this embodiment, the upper and lower rotor limiting portions may be both set to have a rotationally symmetric shape, so that the axial force applied to the rotor component 4 is relatively uniform. Further, in the axial direction of the rod member, the axial length of the nut 403 of the rotor member 4 is smaller than the axial length of the magnet 401, a part of the cap 3 protrudes into the magnet 401, one end portion of the cap 3 protruding into the magnet includes the rotor upper limit portion 301, a part of the valve cover 6 protrudes into the magnet 401, and one end portion of the valve cover 6 protruding into the magnet 401 includes the rotor lower limit portion 61. The length of wand assembly 10 or first chamber 8 can be reduced and the size of the electrically powered valve can be reduced.

Further, as shown in fig. 5, the spacer 12 is closer to the lever member 5 than the main body of the magnet 401 is to the lever member 5 in the radial direction of the lever member 5, and therefore the friction torque of the spacer 12 against the rotation of the rotor member 4 about the lever member 5 is relatively small, facilitating the rotation of the rotor member 4 against the friction torque. Preferably, the radial dimension of the spacer 12 may be further reduced so that the spacer 12 is in contact with only the nut 402, and the frictional torque of the spacer 12 against the rotation of the rotor member 4 about the rod member 5 may be further reduced.

The motorised valve still includes stator module, and stator module includes casing 2 and coil pack 1, and casing 2 parcel coil pack 1, coil pack and casing 2 are fixed or through the mode structure as an organic whole of moulding plastics. The coil assembly 1 is sleeved on the sleeve 11.

The electric valve also comprises a mounting plate 9 and a mounting flange 13, wherein the mounting plate 9 is fixed with the shell 2. As shown in fig. 13 to 16, the mounting plate 9 includes a main body 901 and a leg 903, the leg 903 includes a mounting surface 9031 facing the mounting flange side, and the mounting flange 13 abuts against the mounting surface 9031 of the leg 903 and can be fixed by a screw or the like. The mounting plate 9 further comprises a first side 906 facing the mounting flange side, the first side 906 being located at the main body 901 facing the mounting flange 13.

The main body 901 further includes a plurality of first fixing holes 902, the housing 2 includes a plurality of first protrusions 202 and a plurality of second protrusions 203, a portion of the first protrusions 202 extends through a portion of the first fixing holes 902, and a portion of the second protrusions 203 extends through another portion of the first fixing holes 902 and contacts or maintains a distance with the mounting flange 13. The first protruding portion 202 includes a fixing portion, the fixing portion is located between the main body 901 and the mounting flange 13, a diameter of the fixing portion is larger than an inner diameter of the first fixing hole 902, the first protruding portion and/or the second protruding portion may be made of a thermoplastic material, and the fixing portion may be implemented by welding or melting by heating. The height of the second protruding portion 203 protruding the first side 906 is greater than the height of the fixing portion protruding the first side 906. The first boss 202 and the second boss 203 are provided at intervals.

The height difference between the mounting surface 9031 and the first side surface of the support leg 903 is greater than the protrusion height of the fixing portion relative to the first side surface 906, that is, a certain distance is kept between the fixing portion and the mounting flange 13, and the second protruding portion 203 can further play a limiting role, so that damage to the fixing portion when the fixing portion abuts against the mounting flange 13 during mounting or use can be reduced.

The legs 903 may be two or more, and the legs 903 may be symmetrically arranged with respect to the main body 901, which may make the fixing of the legs 903 to the mounting flange 13 more stable. The feet 903 are located on the outer periphery of the body 901. As shown in fig. 13 and 15, the mounting flange 13 further includes a third fixing hole 134, and a fourth fixing hole 904 formed in the leg 903 is screwed into the third fixing hole 134. The mounting plate 9 further includes a bent portion 905, and the leg 903 is connected to the main body 901 through the bent portion 905, and can be manufactured by stamping when the mounting plate 9 is thin.

In yet another embodiment of the electrically operated valve, as shown in figure 19, the electrically operated valve further comprises a spacer 37, the spacer 37 being located between the body 901 and the mounting flange 13. The thickness of baffle 37 is greater than the protruding first side 906's of fixed part height, and main part 901 and baffle 37 butt, and mounting flange 13 and baffle 37 butt still are provided with accommodation hole 371, and the internal diameter of accommodation hole 371 is greater than the external diameter of fixed part, and fixed part and part of second bellying 203 are located accommodation hole 371. The partition plate 37 can play a limiting role, and damage to the fixing part when the fixing part is abutted to the mounting flange during mounting can be further reduced.

The mounting flange 13 includes a flange aperture 132, and the flange aperture 132 may be located in a central location of the mounting flange 13. A portion of the valve cover 6 is inserted into the flange hole 132, and the joint where the valve cover 6 is fixed to the mounting flange 13 is sealed. In addition, the side of the mounting flange 13 opposite the mounting plate 9 may be substantially flat.

As shown in fig. 13, 15, 17 and 18, the electric valve further includes a valve housing 31 and a screw 15, and the valve housing 31 includes a valve cavity 30. The valve housing 31 includes a second fixing hole 319, and the screw 15 passes through the fourth fixing hole 904, the third fixing hole 134 and the second fixing hole 319 in sequence to fix the mounting plate 9, the mounting flange 13 and the valve housing 31. The mounting flange 13 and the valve housing 31 may be of unitary construction.

As shown in fig. 18 and 19, the electric valve further includes a guide portion 14, the guide portion 14 includes second pressure release holes penetrating both ends of the guide portion, the bonnet 6 includes third pressure release holes 63 penetrating both ends of the bonnet 6, and the third pressure release holes 63 communicate with the second pressure release holes. First chamber 8 and valve chamber 30 are connected by third pressure relief hole 63 and second pressure relief hole, i.e. fluid in valve chamber 30 can directly enter first chamber 8. It is not necessary to provide a dynamic seal structure between the rod member 5 and the shaft hole 63. A portion of pilot 14 may be inserted into flange hole 132 of the flange, another portion of pilot 14 may be inserted into valve housing 31, the second relief hole communicates with valve chamber 30, and pilot 14 is fixed to mounting flange 13.

As shown in fig. 2 and 17, the electric valve further comprises an O-ring 19, the valve housing 31 further comprises a second groove 312 surrounding the valve cavity 30, the O-ring 19 is disposed in the second groove 312, and the O-ring is located between the mounting flange 13 and the valve housing 31. And the O-shaped ring is in a compressed state, so that the valve cavity 30 and the first cavity 8 are sealed, and fluid leaking from the valve cavity 30 and the first cavity 8 to the outside is reduced.

As shown in fig. 2, the electric valve further includes a valve core assembly 20, and the valve core assembly 20 includes a spring 23, a valve shaft 24, a piston assembly 25, and a spring pre-compression ring 26. The piston assembly 25 is slidable along the valve shaft 24. The valve core assembly 20 further includes a cylindrical body 21, at least a portion of the outer periphery of the cylindrical body 21 being in sliding engagement with the guide portion 14.

In this embodiment, as shown in fig. 2, the upper end of the valve core assembly 20 is drivingly connected to the rod assembly 10. Compared with a whole longer rod, the rod is divided into the rod part 5 and the valve shaft 24 for turning, and the length of each section is shorter, so that the machining precision of the rod is improved. The mounting flange 13, the valve cover 6 and the guide 14 may be made of metal.

In yet another embodiment of the electrically operated valve, the lever assembly 10 and the valve shaft 24 can be of a unitary construction, eliminating the need for a gearing arrangement. Simple structure and convenient installation.

The valve housing 31 includes a first passage 32 and a second passage 34, the first passage 32 communicating with one portion of the valve chamber 30, and the second passage 34 communicating with another portion of the valve chamber 30. The valve housing 31 may be made of plastic.

As shown in fig. 23, the valve housing 31 includes a first valve seat 317, the first valve seat 317 being located between the valve chamber 30 and the first passage 32. The piston assembly 25 may be in contact with the first valve seat 317. The valve housing 31 further includes a stop 318 and the valve core assembly 20 further includes a lower limit 27. The lower limit portion 27 may abut against the stopper portion 318. Before the seal layer 251 of the piston assembly 25 contacts the first valve seat 317, the distance between the lower end of the lower retainer 27 and the lower end of the seal layer 251 of the piston assembly 25 is greater than the distance between the upper end of the first valve seat 317 and the upper end of the stopper 318. As the seal layer 251 of the piston assembly 25 wears down, it may be possible to allow the piston assembly 25 to still contact the first valve seat 317 and seal the first passage 32. Further, the lower limit portion 27 is provided to the spool assembly 20 closer to the first valve seat 317 than to the rod member 5, so that the positioning of the spool assembly 20 is more accurate. It should be noted that "upper end" refers to the end away from the first valve seat 317, and "lower end" refers to the end close to the first valve seat 317.

The operation of the electrically operated valve is described with reference to figures 2 and 23. As the rotor member 4 is rotated forwardly, the rod assembly 10 pushes the valve core assembly 20 downwardly, and the piston assembly 25 descends with the lowering of the valve core assembly 20 until the piston assembly 25 contacts the first valve seat 317. At this point, the rotor member 4 can still continue to rotate in the forward direction and the valve core assembly 20 is further lowered with the rod assembly 10 until the lower retainer 27 of the valve core assembly 20 abuts the stop 318 of the valve housing and the lowering process of the valve shaft 24 stops. At this point, the piston assembly 25 is still in position against the first valve seat 317 and the spring 23 is compressed a further downward length than it was previously. Lower retainer 27 may limit the length of spring 23 that is compressed, may prevent piston assembly 25 from being over-pressurized by first valve seat 317, and may reduce the risk of damage to piston assembly 25. Additionally, the spring 23 may act as a buffer when the piston assembly 25 is in contact with the first valve seat 317.

Thereafter, when rotor member 4 is rotated in the opposite direction, rod assembly 10 pulls the valve core assembly 20 upward, and the piston assembly 25 attached to the valve shaft moves away from the first valve seat 317, so that the first passage communicates with the valve chamber 30. Further, when the upper end of the lever assembly 10 abuts against the step surface 304, the rising of the spool assembly 20 is stopped, and the electric valve is in the fully opened state. Flow control from the first passage 32 to the second passage 34 may be performed by controlling the position of the piston assembly 25 by the rotor component 4.

As shown in fig. 2, the electric valve further includes a second housing 35 and a circuit board 36, the second housing 35 is fixed to the housing 2, the second housing 35 includes an inner cavity 351, the circuit board 36 is disposed in the inner cavity 351, and the circuit board 36 is electrically connected to the coil assembly 1. Both the housing 2 and the second housing 35 may be of plastics material and may be manufactured by injection moulding.

It should be noted that: although the present invention has been described in detail with reference to the above embodiments, those skilled in the art will appreciate that various combinations, modifications and equivalents of the present invention can be made by those skilled in the art, and all technical solutions and modifications thereof without departing from the spirit and scope of the present invention are encompassed by the claims of the present invention.

Claims (10)

1. An electric valve comprising a stator component, a sleeve (11) and a rotor component (4), characterized in that the stator component is sleeved on the sleeve (11), the stator component comprises a housing (2) and a coil assembly (1), the electric valve further comprises a mounting plate (9) and a mounting flange (13);

the mounting plate (9) comprises a main body (901) and supporting legs (903), the supporting legs (903) comprise mounting surfaces (9031) facing to a mounting flange side, the mounting flange (13) is abutted to the mounting surfaces (9031) of the supporting legs (903), and the mounting plate (9) further comprises a first side surface (906) facing to the mounting flange side;

the main part (901) still includes a plurality of first fixed orificess (902), casing (2) include a plurality of first bellyings, a part of first bellyings runs through partly first fixed orificess (902), first bellyings includes the fixed part, the diameter of fixed part is greater than the internal diameter of first fixed orificess, the fixed part is located between main part (901) and mounting flange (13), the difference in height between installation face (9031) and first side (906) is greater than the fixed part is for the proud height of first side (906), keep the certain distance between fixed part and mounting flange (13).

2. The electric valve as claimed in claim 1, wherein the housing (2) further comprises a plurality of second protrusions (203), a portion of the second protrusions (203) penetrates another portion of the first fixing holes (902) and then contacts or keeps a certain distance with the mounting flange (13), the height of the second protrusions protruding from the first side surface (906) is greater than the height of the fixing portion protruding from the first side surface, and the first protrusions and the second protrusions are spaced apart.

3. The electric valve as claimed in claim 1, wherein the housing (2) further comprises a plurality of second protruding portions (203), a part of the second protruding portions penetrates another part of the first fixing holes and then contacts with or keeps a certain distance from the mounting flange (13), the height of the first protruding portions protruding from the first side surface (906) is larger than that of the first protruding portions, and the first protruding portions and the second protruding portions are arranged at intervals;

the motorised valve still includes baffle (37), the baffle is located the main part with between the mounting flange, the baffle thickness is greater than the height of the outstanding first side of fixed part (906), the main part with baffle looks butt, mounting flange with baffle looks butt, the baffle still is provided with holding hole (371), the internal diameter in holding hole is greater than the external diameter of fixed part, the fixed part with a part of second bellying is located the holding is downthehole.

4. The electric valve according to claim 1, wherein the housing (2) further comprises a plurality of second protrusions (203), a portion of the second protrusions (203) penetrates another portion of the first fixing holes (902) and then contacts or keeps a certain distance with the mounting flange (13), the coil assembly (1) and the housing (2) are fixed or integrated, the first protrusions (202) and/or the second protrusions (203) are made of thermoplastic materials, and the fixing portions are formed by welding or melting by heating; the number of the supporting feet is multiple, the supporting feet (903) are positioned on the periphery of the main body (901), the supporting feet (903) are symmetrically arranged relative to the main body (901), and the first fixing holes (902) are symmetrically arranged relative to the main body (901);

the mounting plate (9) further comprises a bending part (905), and the stand bar (903) is connected with the main body (901) through the bending part (905).

5. An electric valve according to any one of claims 1-4, wherein the electric valve comprises a rod assembly (10) and a cover (3), the coil assembly (1) is sleeved on the sleeve (11), a first cavity (8) is formed in the sleeve, a part of the rotor component (4) is positioned in the first cavity (8), one end of the sleeve (11) is fixed with the cover (3) or is in an integral structure, the rotor component (4) comprises an internal threaded part (402), the rod assembly (10) comprises an external threaded part (505), and the internal threaded part of the rotor component (4) is engaged with the external threaded part of the rod assembly (10);

the electric valve comprises a sealing cover (3) and a valve cover (6), a second cavity (306) is formed in the sealing cover (3), one end of the rod assembly (10) extends into the second cavity (306), the inner wall corresponding to the second cavity (306) comprises a matching wall part (302) and a limiting wall part (303) which extend along the length direction of the rod assembly, one end of the rod assembly (10) extending into the second cavity comprises a first matching part (701) and a special-shaped matching part (702), and the first matching part (701) is in sliding fit with the matching wall part (302); at least a part of the irregularly shaped fitting portion (702) and the first fitting portion (701) are different in distance from the rod assembly center axis, and the irregularly shaped fitting portion (702) is slidably fitted to the stopper wall portion (303).

6. The electrically operated valve according to claim 5, wherein the rod assembly (10) comprises a rod member (5) and a stopper (7), the male screw portion is provided at an outer periphery of the rod member (5), the stopper (7) is fixed to or integrally formed with one end portion of the rod member (5), and a maximum outer diameter of the stopper (7) is larger than an outer diameter of the male screw portion (505);

at least one part of the limiting wall part (303) is arranged in a protruding way relative to the matching wall part (302), and the limiting block (7) extends into the second cavity (306);

the limiting block (7) comprises a first matching portion (701) and a special-shaped matching portion (702) which are located on the periphery of the limiting block, and the limiting wall portion (303) is matched with the special-shaped matching portion (702), so that the limiting block (7) is limited in the second cavity (306) in the circumferential direction.

7. The electrically operated valve according to claim 5, wherein the rod assembly (10) comprises a rod member (5) and a stopper (7), the male screw portion is disposed at an outer periphery of the rod member (5), the stopper (7) is fixed to or integrally formed with one end of the rod member (5), and a maximum outer diameter of the stopper (7) is larger than an outer diameter of the male screw portion (505);

the limiting block (7) extends into the second cavity (306), and at least one part of the limiting wall part (303) is arranged in a concave mode relative to the matching wall part (302);

the limiting block (7) comprises a first matching portion (701) and a special-shaped matching portion (702) which are located on the periphery of the limiting block (7), at least one part of the special-shaped matching portion (702) extends into the limiting wall portion (303), and the special-shaped matching portion (702) is in sliding fit with the limiting wall portion (303) so that the limiting block (7) is limited in the second cavity (306) in the circumferential direction.

8. An electric valve according to any one of claims 6 or 7, wherein the rotor member (4) comprises a nut (403) and a magnet (401), the nut (403) is fixed to or is of an integral structure with the magnet (401) at the outer periphery of the nut, the internal thread is located at the inner periphery of the nut, the magnet (401) comprises a protrusion (4011) protruding towards the nut (403), the nut (403) comprises a recess (4031) recessed outside the nut, and the protrusion (4011) is embedded in the recess (4031).

9. The electric valve according to claim 8, further comprising a valve cover (6), wherein the other end of the sleeve (11) is fixed with the valve cover (6) and the connection is sealed, a part of the cover (3) extends into the magnet (401), one end of the cover (3) extending into the magnet comprises a rotor upper limit portion (301), one end of the valve cover extends into the magnet, and one end of the valve cover extending into the magnet comprises a rotor lower limit portion (61);

the electric valve further comprises a plurality of gaskets (12), the gasket (12) is arranged between the rotor upper limiting part (301) and the rotor part (4), the gasket (12) is arranged between the rotor lower limiting part (61) and the rotor part (4), and the gasket (12) is made of graphite.

10. The electric valve according to claim 9, characterised in that it further comprises a guiding portion (14), said guiding portion (14) being fixed to said mounting flange (13);

the electric valve further comprises a valve core assembly (20), at least one part of the valve core assembly (20) is in sliding fit with the guide part;

the guide part (14) comprises second pressure relief holes (143) penetrating through two ends of the guide part, the valve cover (6) comprises first pressure relief holes (63) penetrating through two ends of the valve cover, and the first pressure relief holes (63) are communicated with the second pressure relief holes (143).

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