CN108397554B - Motor-driven valve - Google Patents

Abstract

The present invention provides a kind of motor-driven valve, high-precision it can carry out centering of the interior threaded part relative to valve shell without using a jig, and can be realized the efficient activity of assembly operation, and the pressure loss will not be generated when the streaming flow in flow path, so as to inhibit manufacturing cost.Motor-driven valve at least has: valve shell；Interior threaded part；Externally threaded item；Spool；And press-in portion, it is pressed into valve shell by the portion of will be pressed into, to carry out the centering of spool relative to valve shell, interior threaded part has the flange part circumferentially formed on the top of press-in portion, when interior threaded part is pressed into valve shell, flange part abuts the upper end for being supported on valve shell, and, in interior threaded part, diameter first stepped part smaller than the diameter of press-in portion is circumferentially formed between press-in portion and flange part, when flange part abutting is supported on the upper end of valve shell, gap is formed between the upper end and press-in portion of valve shell.

Description

Motor-driven valve

The application is divisional application；Its female case application No. is " 2015103821813 ", it is entitled " motor-driven valve ".

Technical field

The present invention relates to the motor-driven valves in the refrigerating cycle that air conditioner etc. is arranged in be controlled the flow of refrigerant.

Background technique

In the past, as the motor-driven valve connected in refrigerating cycle, such as 100 (patent document of motor-driven valve shown in fig. 5 is used 1)。

Such motor-driven valve 100 has valve shell 110, is formed with columned valve chamber 112 in valve shell 110.Also, In Valve shell 110 is equipped with a junction block 114 being connected to from side with valve chamber 112, and in the lower end of valve chamber 112 Secondary joint pipe 116 is installed.

In addition, being equipped with valve base part 118 in valve shell 110, and in 112 side of the valve chamber of secondary joint pipe 116.Moreover, In valve base part 118, it is formed with the rounded valve port 120 of the section shape of connection valve chamber 112 and secondary joint pipe 116.

In the opening portion 122 of the upper end of valve shell 110, interior threaded part 130 is installed.

What interior threaded part 130 was fitted into generally cylindrical main part 132, in the opening portion of valve shell 110 122 Fitting portion 134 and cricoid flange part 136.

It is formed in main part 132 along the longer pilot hole 137 in the direction axis L, and is formed on the top of pilot hole 137 There is internal thread part 140.

In pilot hole 137, can slidably be fitted into along the direction axis L has cylindric vavle shelf 133.Vavle shelf 133 and valve chamber 112 are co-axially mounted, and are fixed with spool 138 in the lower end of the vavle shelf 133, which has needle-valve 141 in end.

Also, in vavle shelf 133, spring base 139 is equipped in a manner of it can move along the direction axis L, in spring base 139 Compression helical spring 142 is installed to give the defined state loaded between spool 138.

Outer peripheral edge portion in the opening portion of valve shell 110 122 is airtightly fixed with the shell of stepper motor by welding 144, columned rotor chamber 146 is formd using the shell 144.

In rotor chamber 146, it can be rotatably equipped with the magnet rotor 148 that peripheral part is geomagnetic into multipole, in the magnetism Rotor 148 is fixed with armature spindle 160.

Also, in the periphery of shell 144, it is equipped with stator coil (not shown), by the stator coil (not shown) Apply pulse signal, rotate magnet rotor 148 accordingly with the umber of pulse.

Then, it because of the rotation of the magnet rotor 148, is rotated with the armature spindle 160 of 148 one of magnet rotor.

In addition, being equipped with the rotary position-limit mechanism 150 of the rotation of limitation magnet rotor 148 at the top of shell 144.

The upper end of vavle shelf 133 engages with the lower end of armature spindle 160, and vavle shelf 133 is with the state of suspension by armature spindle 160 Bearing is that can rotate.Also, it is formed with external thread part 152 in armature spindle 160, the external thread part 152 and is formed in internal screw thread The internal thread part 140 of component 130 is screwed.The external thread part 152 of the armature spindle 160 and the internal screw thread of interior threaded part 130 Portion 140 constitutes feed screw mechanism.

By the feed screw mechanism, armature spindle 160 is moved with the rotation of magnet rotor 148 along the direction axis L.Cause Armature spindle 160 is moved with the rotation and along what the direction axis L carried out, and spool 138 and vavle shelf 133 are moved along the direction axis L together It is dynamic.

Moreover, spool 138 increases and decreases the opening area of valve port 120 using the part of needle-valve 141, thus in a connector The flow of the fluid flowed between pipe 114 and secondary joint pipe 116 is controlled.

However, in such motor-driven valve 100, when installing interior threaded part 130 relative to valve shell 110, by interior spiral shell The flange part 136 of line component 130 is placed in the outer peripheral edge portion of opening portion 122 of valve shell 110, and (not using special fixture Diagram) etc., it is aligned in manufacturing process, and carry out the outer peripheral edge portion of the opening portion 122 of flange part 136 and valve shell 110 Between welding.

Then, it after having carried out the fixation between valve shell 110 and interior threaded part 130, is this time covered on valve shell 110 Lid housing 144, and the lower end of the opening edge and shell 144 to valve shell 110 is welded, and motor-driven valve 100 is thus completed.

On the other hand, motor-driven valve 200 shown in fig. 6 is substantially construction identical with above-mentioned motor-driven valve 100, but makes valve Construction when shell 210 and interior threaded part 230 are fitted into is different from motor-driven valve 100 (patent document 2).

Specifically, being inserted into the flange part 236 of interior threaded part 230 into the opening portion of valve shell 210 222, and at this The outer peripheral edge portion and interior threaded part of the opening portion 222 of the fixed valve shell 210 of installation metal parts 270 are further utilized under state 230, thus fixed valve shell 210 and interior threaded part 230.

Also, the lower end of interior threaded part 230 is directly embedded in the valve base part 218 with valve port 220.In addition, Fig. 6 In, symbol 214 is a junction block, and 216 be secondary joint pipe, and 238 be spool, and 240 be internal thread part, and 241 be needle-valve, 244 It is shell, 248 be magnet rotor, and 252 be external thread part, and 260 be armature spindle.

In any one motor-driven valve of such previous motor-driven valve 100,200, pass through the valve in valve shell 110,210 Mouthfuls 120,220 and interior threaded part 130,230 in keep with one heart, come reliably using needle-valve 141,241 be opened and closed valve port 120, 220, so that the process relative to the fixed interior threaded part 130,230 of valve shell 110,210 is accurately to keep motor-driven valve 100, the extremely important process of aspect of the precision of 200 flow adjustment.

Existing technical literature

Patent document 1: Japanese Unexamined Patent Publication 2012-77879 bulletin

Patent document 2: Japanese Unexamined Patent Publication 2013-204613 bulletin

Summary of the invention

Problems to be solved by the invention

However, using the special fixture (not shown) of high dimensional accuracy in motor-driven valve 100 disclosed in patent document 1 Centering etc. of the interior threaded part 130 relative to valve shell 110 is carried out, high assembly precision is required for manufacturing process, such as Shown in Fig. 7, interior threaded part 130 also has a possibility that side (left side in Fig. 7) for being biased to valve shell 110, in this case, can not It is reliably opened and closed valve port 120 using needle-valve 141, is very troublesome construction.In figure, symbol G is the bias of off-axis line L.

In addition, as shown in figure 8, then being welded after by the welding of 136 one end of flange part of valve shell 110 and interior threaded part 130 Valve shell 110 and shell 144 are connect, so that welding sequence, operating efficiency are poor twice for needs.Symbol 181,183 is weld part in Fig. 8 Position.

In addition, for motor-driven valve 200 disclosed Patent Document 2, as shown in figure 9, due to interior threaded part 230 The position that lower end is surrounded in the flow path being formed between a junction block 214 and secondary joint pipe 216, i.e. in figure by "○" In the presence of so there is a possibility that generating the pressure loss after streaming flow.Therefore, particularly with the valve port of big flow 220, flow It reduces, to need to limit the flow of the fluid used.

In addition, the motor-driven valve 200 is compared with motor-driven valve 100 disclosed in patent document 1, it is interior when being installed in valve shell 210 When screwed part 230, need that installation metal parts 270 is in addition arranged, become get higher manufacturing cost will be because.Practical feelings as a result, Condition is the exploitation of the further motor-driven valve of demand.

In view of such status, the purpose of the present invention is to provide following motor-driven valves: can without using a jig in high precision Centering of the interior threaded part relative to valve shell is carried out, and can be realized the efficient activity of assembly operation, and in flow path The pressure loss will not be generated when streaming flow, be able to suppress manufacturing cost.

The present invention is the project and purpose in order to realize conventional art as described above and the invention proposed,

Motor-driven valve of the invention at least has:

Valve shell has the seat portion for being formed with valve port；

Interior threaded part, fixed configurations have internal thread part in above-mentioned valve shell；

Externally threaded item has the external thread part being screwed with above-mentioned interior threaded part；

Spool is set to above-mentioned externally threaded item, and the above-mentioned external thread part acted with the driving by electric motor Part linkage carries out variable control come the opening area to above-mentioned valve port；And

Press-in portion, is set to the periphery side of above-mentioned interior threaded part, and is pressed into the inner periphery side portion of above-mentioned valve shell,

By the way that above-mentioned press-in portion to be pressed into above-mentioned valve shell, to carry out determining for above-mentioned spool relative to above-mentioned valve shell The heart,

Said electric valve is characterized in that,

Above-mentioned interior threaded part has the flange part circumferentially formed on the top of above-mentioned press-in portion,

When above-mentioned interior threaded part is pressed into above-mentioned valve shell, above-mentioned flange part abutting is supported on above-mentioned valve shell Upper end, also,

In above-mentioned interior threaded part,

Circumferentially be formed between above-mentioned press-in portion and flange part diameter it is smaller than the diameter of above-mentioned press-in portion first Stepped part,

When above-mentioned flange part abutting is supported on the upper end of above-mentioned valve shell, in the upper end of above-mentioned valve shell Gap is formed between above-mentioned press-in portion.

It, can be simple and in being accurately proceed if being equipped with press-in portion in the periphery side of interior threaded part like this Centering of the screwed part relative to valve shell.Also, it is also simple due to constructing, so who can reliably carry out assembling behaviour Make.Moreover, can be felt relieved using existing component parts, do not need using fixture, so that compared with the past more can yet Inhibit the manufacturing cost of motor-driven valve.

If being configured to, when interior threaded part is pressed into valve shell, flange part abuts the upper end for being supported on valve shell Portion then can reliably carry out positioning along the vertical direction of the interior threaded part relative to valve shell.

If being formed with the first stepped part like this, at least when welding valve shell and interior threaded part, can make to weld Heat caused by position is difficult to transmit to interior threaded part.

Assuming that heat when welding is transferred to interior threaded part, then in the resin portion of interior threaded part that is, press-in portion etc. In, there is the worry being deformed, thus there is a possibility that centering that cannot carry out valve shell and interior threaded part well.Cause This, ensures that gap is very important by the formation of the first stepped part.

Also, motor-driven valve of the invention is characterized in that,

It is equipped with to above-mentioned press-in portion being circumferentially separated along the periphery side of above-mentioned interior threaded part multiple.

Multiple press-in portion are equipped with if being circumferentially separated like this, in indentation, the deformation of interior threaded part can be made Position is made a concession into the space of not formed press-in portion, thus it is preferred that.

Also, motor-driven valve of the invention is characterized in that,

Shell is arranged to, and the upper end for being supported on above-mentioned valve shell is abutted in the flange part for making above-mentioned interior threaded part Under state, covered above above-mentioned valve shell,

Above-mentioned interior threaded part is circumferentially formed with second step ladder in the top of flange part, and in above-mentioned shell Gap is formed between all sides and above-mentioned interior threaded part.

It, can when welding valve shell, interior threaded part and shell together if being formed with second step ladder like this It is difficult to heat caused by welding position to the top and the bottom transmitting with the interior threaded part in flange part boundary line.

Also, motor-driven valve of the invention is characterized in that,

Above-mentioned valve shell, above-mentioned flange part, above-mentioned shell are made of metal,

Quilt between at least metal above-mentioned valve shell and above-mentioned flange part and between above-mentioned flange part and above-mentioned shell Solder joints.

In this way, in primary welding, three components can be made indirect if valve shell, flange part, shell are made of metal It closes, it is compared with the past, it can more inhibit manufacturing cost, and can be improved operating efficiency.

The effect of invention is as follows.

In accordance with the invention it is possible to provide following motor-driven valve: the interior threaded part of motor-driven valve has in outer peripheral portion to be pressed into The press-in portion of the inner periphery side portion of valve shell is pressed into valve shell by the portion of will be pressed into, to carry out determining for spool relative to valve shell The heart carries out centering of the interior threaded part relative to valve shell so as to high-precision without using a jig, and can be realized group The efficient activity of operation is filled, and the pressure loss will not be generated when the streaming flow in flow path, so as to inhibit manufacturing cost.

Detailed description of the invention

Fig. 1 is the longitudinal section view of motor-driven valve of the invention.

Fig. 2 is the perspective view of the interior threaded part of motor-driven valve of the invention.

Fig. 3 is the enlarged drawing near the opening portion of amplification expression motor-driven valve shown in FIG. 1.

Fig. 4 is the shape in the press-in portion of the opening portion of valve shell indentation interior threaded part for indicating motor-driven valve of the invention The main portion sectional view of state, Fig. 4 (a) and Fig. 4 (b) indicate the example of embodiment.

Fig. 5 is the longitudinal section view of previous motor-driven valve.

Fig. 6 is the longitudinal section view of previous other motor-driven valves.

Fig. 7 is the explanatory diagram for illustrating centering conducted in previous motor-driven valve shown in fig. 5.

Fig. 8 is the explanatory diagram for illustrating to weld twice conducted in previous motor-driven valve shown in fig. 5.

Fig. 9 is the explanation for illustrating the construction of the generation pressure loss in previous other motor-driven valves shown in fig. 6 Figure.

In figure:

1,100,200-motor-driven valve, 10,110,210-valve shells, 12,112-valve chambers, 14,114,214-once connect Head tube, 16,116,216-secondary joint pipes, 18,118,218-valve base parts, 20,120,220-valve ports, 22,122, 222-opening portions, 30,130,230-interior threaded parts, 32,132-main parts, 33,133-vavle shelves, 34-press-in portion, 36, 136,236-flange part, 37,137-pilot holes, 38,138-spools, 40,140-internal thread parts, 41,141,241-needles Valve, 42,142-compression helical springs, 44,144,244-shells, 46,146-rotor chambers, 48,148-magnet rotors, 52, 152-external thread parts, 60,160-armature spindles, the 70-the first stepped part, 72-second step ladders, 80,181,183-weld parts Position, 90,92-gaps, 134-fitting portions, 150-rotary position-limit mechanisms, 270-installation metal parts, G-bias, L- Axis.

Specific embodiment

Hereinafter, based on attached drawing, embodiments of the present invention will be described in further detail.

Motor-driven valve of the invention is for example arranged in the refrigerating cycle of air conditioner etc., is used to carry out the flow of refrigerant Control.

For motor-driven valve of the invention substantially compared with previous motor-driven valve 100,200 described above, local structure is different, But basic construction is identical, to simply be illustrated first to basic construction.

As shown in Figure 1, motor-driven valve 1 of the invention has valve shell 10, columned valve chamber 12 is formed in valve shell 10. Also, a junction block 14 being connected to from side with valve chamber 12 is installed in valve shell 10, and in the lower end of valve chamber 12 Portion is equipped with secondary joint pipe 16.

In addition, being equipped with valve base part 18 in valve shell 10, and in 12 side of the valve chamber of secondary joint pipe 16.Moreover, in valve Base member 18 is formed with the rounded valve port 20 of section shape, which is connected to valve chamber 12 and secondary joint pipe 16.

Interior threaded part 30 is installed in the opening portion 22 of the upper end of valve shell 10.

Interior threaded part 30 has generally cylindrical main part 32, the indentation being pressed into the opening portion 22 of valve shell 10 Portion 34 and cricoid flange part 36.

It is formed with pilot hole 37 in main part 32 and along the direction axis L, and is formed with interior spiral shell on the top of pilot hole 37 Line portion 40.

In pilot hole 37, being fitted into a manner of it can slide along the direction axis L has cylindric vavle shelf 33.Vavle shelf 33 and valve Room 12 is co-axially mounted, and is fixed with spool 38 in the lower end of the vavle shelf 33, which has needle-valve 41 in end.

Also, in vavle shelf 33, in a manner of it can be moved along the direction axis L be equipped with spring base 39, spring base 39 with Compression helical spring 42 is installed to give the defined state loaded between spool 38.

Outer peripheral edge portion in the opening portion of valve shell 10 22 is equipped with the shell 44 of stepper motor, is formd using the shell 44 Columned rotor chamber 46.Outer peripheral edge portion in the opening portion of valve shell 10 22 places the flange part 36 of interior threaded part 30, and Shell 44 is covered on it, will be welded as between valve shell 10 and flange part 36 and between flange part 36 and shell 44 later It one piece, is thus engaged between three components.

In addition, the magnet rotor 48 that peripheral part is geomagnetic into multipole is equipped in a manner of it can rotate in rotor chamber 46, Armature spindle 60 is fixed in the magnet rotor 48.

Also, it is equipped with stator coil (not shown) in the periphery of shell 44, by giving to the stator coil (not shown) Pulse signal is given, thus magnet rotor 48 is accordingly rotated with the umber of pulse.

Then, it because of the rotation of the magnet rotor 48, is rotated with the armature spindle 60 of 48 one of magnet rotor.

The upper end of vavle shelf 33 engages with the lower end of armature spindle 60, and vavle shelf 33 is supported with the state of suspension by armature spindle 60 For that can rotate.Also, it is formed with external thread part 52 in armature spindle 60, the external thread part 52 and is formed in interior threaded part 30 Internal thread part 40 is screwed.The external thread part 52 of the armature spindle 60 and the internal thread part 40 of interior threaded part 30 constitute screw thread Feed mechanism.

By the feed screw mechanism, armature spindle 60 is moved with the rotation of magnet rotor 48 along the direction axis L.Because turning Sub- axis 60 is moved with the rotation and along what the direction axis L carried out, and spool 38 is moved along the direction axis L together with vavle shelf 33.

Moreover, spool 38 increases and decreases the opening area of valve port 20 using the part of needle-valve 41, thus in a junction block The flow of the fluid flowed between 14 and secondary joint pipe 16 is controlled.

In the motor-driven valve 1 made of constituting like this, the major part of interior threaded part 30 is by resin system, and flange part 36 is Made of metal.When shaping interior threaded part 30, the metal plate as flange part 36 is placed in metal mold and is embedded in into Shape, thus, it is possible to obtain interior threaded part 30 made of metal part and resin portion integration.Positioned at the upper of the flange part 36 Under shell 44 and valve shell 10 also be made of metal.

In the present invention, in such motor-driven valve 1, make valve shell 10 and interior threaded part 30 to become concentric mode In construction when fixed, especially there is latent structure, this point is illustrated below.

As shown in Figure 1 and Figure 2, the interior threaded part 30 of motor-driven valve 1 of the invention is in the peripheral side of interior threaded part 30 Portion is formed with press-in portion 34.In addition, the upper end of interior threaded part 30 is simple rectilinear form in Fig. 2, it is equipped with spiral originally Slot, simplified illustration.

In the fixed interior threaded part 30 of valve shell 10, which is pressed fit into the opening portion 22 of valve shell 10 The position of inner periphery side portion.

Also, as shown in Fig. 2, the press-in portion 34 being circumferentially separated along the periphery side of interior threaded part 30 be equipped with it is more It is a.In the present embodiment, it is circumferentially separated and is equipped with press-in portion 34 at four positions, but number is not particularly limited, such as It is also possible to two positions being arranged every 180 ° of angle.But when being equipped with pressure every two positions of 180 ° of angle In the case where entering portion 34, when being pressed into interior threaded part 30 to valve shell 10, there are the offset of interior threaded part 30 relative to valve The oblique inclined worry of shell 10.As a result, in order to further reliably fix interior threaded part 30 in valve shell 10, preferably three A position arrangement above press-in portion 34.

If like this in three position arrangement above press-in portion 34, when relative to the indentation interior threaded part 30 of valve shell 10 When, without the worry of the left and right offset forwards, backwards of interior threaded part 30, so as to reliably feel relieved.In addition, along interior spiral shell In the case that circumferential four positions every 90 degree of the periphery side of line component 30 are equipped with press-in portion 34, it is easy to be embedded in into Metal mold when shape interior threaded part 30 divides mould, thus it is preferred that.

In addition, the reasons why as press-in portion 34 that multiple interior threaded parts 30 are arranged, when the inner periphery side portion to valve shell 10 After indentation, the yielding of the deformation of the press-in portion for interior threaded part 30 is needed.

Even if the whole face in the periphery side of interior threaded part 30 is configured to the feelings contacted with the inner periphery side portion of valve shell 10 Under condition, also have a possibility that interior threaded part 30 generates rupture in indentation.Thus it is preferred to which multiple press-in portion 34 are arranged.

As shown in figure 3, such press-in portion 34 is configured to, circumferentially it is formed between press-in portion 34 and flange part 36 Interior threaded part 30 with first stepped part 70 is pressed into valve shell 10, and makes interior threaded part 30 by the first stepped part 70 Flange part 36 abut and be supported on the upper end of valve shell 10, at this time in the pressure of the upper end of valve shell 10 and interior threaded part 30 Enter and is formed with gap 90 as shown in "○" between portion 34.In addition, symbol 80 is welding position in figure.

In this way, the first stepped part 70 is at least when welding valve shell 10 and interior threaded part 30 for making welding position 80 Generated heat is difficult to the part transmitted to interior threaded part 30.

If the construction that heat when welding is transmitted to interior threaded part 30, i.e., until flange part 36 is and valve shell 10 Closely mode as face contact has inner periphery side portion then in the resin portion of interior threaded part 30 that is, press-in portion 34 etc. Thus the worry being deformed has a possibility that centering that cannot carry out valve shell 10 and interior threaded part 30 well.As a result, Ensure that gap 90 is very important by the formation of the first stepped part 70.

In addition, interior threaded part 30 is preferably configured as, second step ladder is circumferentially formed in the top of flange part 36 72, gap 92 is formed between the inner circumferential side and interior threaded part 30 of shell 44.

In this way, welding valve shell 10, interior threaded part 30 and shell together if being also formed with second step ladder 72 When 44, heat caused by welding position can be made to be difficult to the top and the bottom biography with the interior threaded part 30 in 36 boundary line of flange part It passs.

As a result, in addition to the formation of the first stepped part 70, ensure that gap 92 is also extremely important by second step ladder 72 's.

As shown in Fig. 2 and Fig. 4 (a), such press-in portion 34 be reliably be pressed into valve shell 10 inner periphery side portion that The corner section of the mode of sample, i.e. rectangular shape mode as circular arc chamfering, but it is not particularly limited to which, example As that can also be that there is mode made of circular arc in the front end of chevron as shown in Fig. 4 (b), various sides in addition can also be mixed Formula etc., is able to carry out and suitably changes.

In this way, the interior threaded part 30 of especially motor-driven valve 1 has in outer peripheral portion is pressed in motor-driven valve 1 of the invention The press-in portion 34 for entering the inner periphery side portion of valve shell 10, by the way that the press-in portion 34 to be pressed into valve shell 10, relative to valve shell 10 carry out the centering of spool 38, carry out interior threaded part 30 relative to valve shell 10 so as to high-precision without using a jig Centering, and can be realized the efficient activity of assembly operation, and the pressure loss, energy will not be generated when the streaming flow in flow path Enough inhibit manufacturing cost, motor-driven valve 1 of the invention is invented based on completely new technical idea.

More than, the preferred mode of motor-driven valve 1 of the invention is illustrated, but the present invention is not limited to above-mentioned sides Formula is able to carry out various changes in the range of not departing from the purpose of the present invention.

Claims (4)

1. a kind of motor-driven valve, at least has:

Valve shell has the seat portion for being formed with valve port；

Interior threaded part, fixed configurations have internal thread part in above-mentioned valve shell；

Externally threaded item has the external thread part being screwed with above-mentioned interior threaded part；

Spool is set to above-mentioned externally threaded item, and the above-mentioned externally threaded item acted with the driving by electric motor joins It moves and carries out variable control come the opening area to above-mentioned valve port；And

Press-in portion, is set to the periphery side of above-mentioned interior threaded part, and is pressed into the inner periphery side portion of above-mentioned valve shell,

By the way that above-mentioned press-in portion is pressed into above-mentioned valve shell, to carry out the centering of above-mentioned spool relative to above-mentioned valve shell,

Said electric valve is characterized in that,

Above-mentioned interior threaded part has the flange part circumferentially formed on the top of above-mentioned press-in portion,

When above-mentioned interior threaded part is pressed into above-mentioned valve shell, above-mentioned flange part abuts the top for being supported on above-mentioned valve shell End, also,

In above-mentioned interior threaded part,

Diameter first ladder smaller than the diameter of above-mentioned press-in portion is circumferentially formed between above-mentioned press-in portion and flange part Portion,

By above-mentioned flange part abutting be supported on the upper end of above-mentioned valve shell when, above-mentioned valve shell upper end with it is upper It states and is formed with gap between press-in portion.

2. motor-driven valve according to claim 1, which is characterized in that

It is equipped with to above-mentioned press-in portion being circumferentially separated along the periphery side of above-mentioned interior threaded part multiple.

3. motor-driven valve according to claim 1 or 2, which is characterized in that

Shell is arranged to, in the state of making above-mentioned flange part abutting be supported on the upper end of above-mentioned valve shell, from above-mentioned valve It is covered above shell,

Above-mentioned interior threaded part is circumferentially formed with second smaller than the diameter of above-mentioned press-in portion of diameter in the top of flange part Stepped part, and gap is formed between the inner circumferential side and above-mentioned interior threaded part of above-mentioned shell.

4. motor-driven valve according to claim 3, which is characterized in that

Above-mentioned valve shell, above-mentioned flange part, above-mentioned shell are made of metal,

It is soldered between at least metal above-mentioned valve shell and above-mentioned flange part and between above-mentioned flange part and above-mentioned shell Engagement.