KR102326539B1 - Electric Control Valve with prefabricated housing assembly and assembling method thereof - Google Patents

Abstract

An electronic control valve having a prefabricated housing assembly of the present invention moves a plunger and a push rod in one direction by a magnetic field generated as a current is applied to a solenoid assembly and forms a flow path by selectively connecting a crankcase pressure port, a discharge pressure port, and a suction pressure port formed in a valve body by the movement of the push rod. The electronic control valve is provided with a housing assembly that surrounds and protects the exterior of the solenoid assembly. The housing assembly comprises: a single housing unit in which an annular body part and a cylindrical skirt part on one side of the body part are integrally formed; a housing cap fitted and coupled to a hollow of the body part of the housing unit; and a sealing member provided in a coupling part between the body part of the housing unit and the housing cap. An annular locking jaw is formed at one end of the housing cap, and a step is further formed in the middle end of the housing cap adjacent to the locking jaw. When the housing cap is fitted toward the skirt part through the hollow of the body part of the housing unit, the sealing member is positioned between a sealing groove and the locking jaw while the step is caught in the hollow of the body part of the housing unit and the locking jaw is inserted into the sealing groove formed to a predetermined depth in the hollow of the body part of the housing unit. Accordingly, the production cost can be greatly reduced.

Description

Electronic Control Valve with prefabricated housing assembly and assembling method thereof

The present invention relates to an electronic control valve (ECV) used in a compressor of an air conditioner for a vehicle. More particularly, the housing and the housing body of the electronic control valve are integrally formed, and an inner seal is provided between the housing body and the housing cap. The structure is so that the housing assembly can be easily assembled without going through a complicated process in which the conventional housing body and the housing cap are first brazed and joined by inserting an inner seal, and then the housing body is press-fitted into the housing again. It relates to an electronic control valve having a remarkably improved prefabricated housing assembly and a method for assembling the same.

In general, an air conditioner of an automobile includes a variable capacity compressor that is driven by an engine to compress a refrigerant and a discharge amount is changed according to a cooling demand, a condenser which condenses the refrigerant discharged from the compressor, and a refrigerant liquefied through the condenser. Adiabatic expansion makes gas and liquid mixed, and an electromagnetic expansion valve whose opening degree changes according to the refrigerant discharge amount of the compressor, and the latent heat of evaporation when the refrigerant is vaporized to cool the surrounding air It consists of an evaporator and a control unit that controls the refrigerant discharge amount of the compressor according to the air conditioning environment such as indoor temperature and outdoor temperature input from various sensors installed inside and outside the vehicle and the air conditioning conditions input by the user.

When the air conditioner configured as described above is operated, the control unit controls the compressor according to the air conditioning environment such as the indoor temperature and the outdoor temperature transmitted from various sensors and the air conditioning conditions such as the vehicle indoor set temperature set by the user, and function selection such as heating or cooling. The refrigerant discharge amount is changed.

As for the compressor of the air conditioner as described above, recently, an electronic control valve (hereinafter referred to as 'ECV') whose operation is controlled by electrical control has been widely used in order to adjust the refrigerant discharge amount.

One example of a conventional electronic control valve (ECV) used in the compressor of such an automobile air conditioner is disclosed in detail in FIGS. 1 and 2 attached thereto.

Referring to FIG. 1, the conventional electronic control valve shown in the prior art is made of a hollow body, and a crankcase pressure port so that crankcase pressure (Pc), discharge pressure (Pd), and suction pressure (Ps) act respectively. 110 , the discharge pressure port 120 , and the suction pressure port 130 are formed, and the valve body 100 is provided with one side closed by the tension adjusting unit 710 in the longitudinal direction.

In addition, a solenoid assembly 200 that closes the other side of the valve body 100 and transfers the plunger 220 and the push rod 230 in the longitudinal direction by the magnetic field formed in the coil 210 to which current is applied; A first passage 310 fixed to one end of the push rod 230 to communicate with the crankcase pressure port 110 and the inside thereof, and connected from the discharge pressure port 120 to the crankcase pressure port 110 . ) and a hollow guide 300 for opening only one of the second passages 320 connected from the crankcase pressure port 110 to the suction pressure port 130 is provided.

In addition, one side extending in the longitudinal direction and formed in the form of a column is inserted and coupled to the through hole 510 of the support part 500 having an edge in contact with the inner circumferential surface of the valve body 100 and fixed to the other side in the longitudinal direction. a valve rod 400 coupled to an inner circumferential surface of the control unit 410 inner space with one outer circumferential surface in contact with the guide 300 in the longitudinal direction; a bellows 600 elastically supporting the guide 300 toward the solenoid assembly 200 and having the valve rod 400 disposed therein; and an adjustment nut 720 coupled to one end of the valve rod 400 located in the space between the support portion 500 and the tension adjustment portion 710 .

On the other hand, the solenoid assembly 200 is connected to the push rod 230 and moves integrally and includes a plunger 220 made of a magnetic material; a fixed core 240 which is another magnetic body fixed to one side of the plunger 220; a coil 210 provided around the plunger 220 and the fixed core 240 to form a magnetic field according to the amount of current controlled by a separate control unit (not shown); a plate 250 for accommodating the coil 210; and a housing assembly 260 that surrounds and protects the components.

At this time, the housing assembly 260 is a component that plays an important role in protecting and sealing the main components of the solenoid assembly 200 so as not to be exposed to shock or moisture from the outside.

In addition, referring to FIG. 2 , the detailed configuration of the housing assembly 260 includes a ring-shaped housing body 262 ; a housing cap 263 integrally joined to the central through hole 262a of the housing body 262 by a brazing process; The housing body 262 is composed of a cylindrical housing 261 that is fitted and coupled by forcible press-fitting.

Meanwhile, the conventional housing assembly having the above configuration was manufactured according to the following process sequence.

First, the housing cap 263 is inserted into the central through hole 262a of the housing body 262 and then the housing cap 263 is integrally bonded to the housing body 262 through a separate brazing process.

At this time, the brazing process is also referred to as brazing because it solders metal at a high temperature, and after melting a filler metal at 450° C. or more, a joint gap (intermetallic It is a method of joining metals to each other by introducing a molten solution into the gap).

In principle, the brazing process does not melt the base material, but microscopically, the base material and the metal melt react to cause interfacial reactions such as dissolution of the base material and generation of an alloy layer.

In the following process, by forcibly pressing the housing body 262 bonded to the housing cap 263 through the brazing process into the inner surface of the cylindrical housing 261 that is separately manufactured and provided, the housing body 262 is inserted into the housing ( 261), so that the conventional housing assembly 260 was finally manufactured.

However, in the conventional housing assembly as described above, a separate brazing process and press-fitting process must be performed to assemble the above-described housing, housing body, and housing cap, and also in the process of plating the housing assembly after the brazing and press-fitting process, the housing A separate masking process had to be added to avoid plating on parts that do not need plating, such as the inner surface of the cap or the brazing joint surface.

Accordingly, in the conventional manufacturing process of the housing assembly, brazing, press-fitting, and masking processes are added during plating, resulting in an increase in man-hours resulting in very low production efficiency and, in particular, a significant increase in production cost.

In addition, as the conventional housing body and the housing are press-fitted and coupled, a finely excited air gap may be generated on the press-fitted surface. At this time, the magnetism generated in the solenoid through the generated air gap. ), there is a possibility that there is a possibility of leakage, resulting in another problem that leads to a decrease in the electromagnetic force of the solenoid.

Korean Patent Publication No. 2017-0093349 (registered on August 16, 2017)

Accordingly, the present invention was devised to solve the above problems, and the present invention integrally forms a housing and a housing body of an electronic control valve (ECV) and, at the same time, forms an inner seal between the housing body and the housing cap. A prefabricated structure with a remarkably improved structure so that the housing assembly can be simply assembled without going through a complicated process in which the conventional housing body and the housing cap are first brazed and joined, and then the housing body is press-fitted into the housing again. An object of the present invention is to provide an electronic control valve having a housing assembly and an assembly method.

According to an embodiment of the present invention for achieving the above object, the plunger and the push rod are moved in one direction by a magnetic field generated as a current is applied to the solenoid assembly, and the valve body is moved by the movement of the push rod. An electronic control valve for forming a flow path by selectively connecting the formed crankcase pressure port, the discharge pressure port, and the suction pressure port, the electronic control valve comprising: a housing assembly that surrounds and protects an exterior of the solenoid assembly, the housing assembly comprising: a single housing unit in which a body portion and a cylindrical skirt portion are integrally formed on one side of the body portion; a housing cap fitted and coupled to the hollow body of the housing unit; and a sealing member provided at a coupling portion between the body portion of the housing unit and the housing cap, wherein an annular locking jaw is formed at one end of the housing cap, and a stepped step is provided at the middle of the housing cap adjacent to the locking jaw. Further, when the housing cap is fitted toward the skirt portion through the body portion hollow of the housing unit, the stepped jaw is caught in the body portion hollow of the housing unit, and the locking jaw is formed to a predetermined depth in the body portion hollow of the housing unit. While being inserted into the sealing groove, the sealing member is positioned between the sealing groove and the locking jaw.

Also, according to an exemplary embodiment, the outer diameter D2 of the stepped step is larger than the outer diameter D1 of the housing cap and smaller than the outer diameter D3 of the locking step.

In addition, according to an embodiment, the outer diameter (D3) of the locking protrusion is formed to be equal to or smaller than the inner diameter (D4) of the sealing groove.

Also, according to an embodiment, the sealing member is an O-ring made of rubber or silicone.

Also, according to an embodiment, the housing cap is formed of a stainless steel or an aluminum alloy material.

On the other hand, the assembly method of the electronic control valve according to the present invention,

a) preparing a single housing unit in which an annular body part and a cylindrical skirt part are integrally formed on one side of the body part; b) inserting a sealing member into the hollow body of the housing unit; and c) coupling a housing cap having one end closed and the other end open, with a locking jaw formed, and a stepped protrusion formed at the middle adjacent to the locking jaw toward the skirt portion through the hollow of the body of the housing unit. includes ;

Also, according to an embodiment, in step b), a sealing groove of a predetermined depth is first formed in the hollow of the body portion of the housing unit, and then a sealing member is inserted into the sealing groove.

Also, according to an embodiment, in step c), when the housing cap is fitted toward the skirt portion through the hollow body of the housing unit, the stepped jaw is caught in the hollow of the body portion of the housing unit and the locking jaw is the housing unit. A sealing member is positioned between the sealing groove and the locking jaw while being inserted into the sealing groove formed to a predetermined depth in the hollow of the body part.

In addition, according to an embodiment, before the step c), the step of plating the housing unit as a whole is further added.

The present invention as described above has the following effects.

First, the housing and the housing body of the electronic control valve are integrally formed and at the same time, an inner seal is built between the housing body and the housing cap, so that the conventional housing body and the housing cap are first brazed and joined. Then, there is an effect that the production efficiency of the electronic control valve is improved as well as the production cost is greatly reduced by eliminating the complicated process in which the housing body has to be press-fitted into the housing again.

Second, by integrally forming the housing body and the housing, which have been previously manufactured separately, when the conventional housing body and the housing are press-fitted, the air gap is closed by fundamentally blocking the occurrence of an air gap that may be generated on the press-fitting surface. There is an effect of preventing the decrease in electromagnetic force of the electronic control valve due to the leakage of the magnetism of the solenoid through the source.

Third, in the prior art, there was a problem in that a separate masking process was added and the plating cost increased when plating was performed after the brazing process. However, the present invention does not require a masking process before assembling the housing unit. Therefore, there is an effect of significantly reducing the production cost compared to the prior art.

1 is a cross-sectional view showing a general configuration of a conventional electronic control valve according to an embodiment;
FIG. 2 is a cross-sectional view showing a main part of the housing assembly in FIG. 1 ; FIG.
3 is a cross-sectional view illustrating a configuration of a housing assembly according to an embodiment of the present invention;
4 is an enlarged view of the main part of FIG. 3

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as "comprise" or "have" to "include" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the present specification exist, but one It should be understood that it does not preclude the existence or addition of other features or numbers, steps, operations, components, parts, or combinations thereof, or other features or more.

Unless defined otherwise herein, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. shouldn't

First, in the configuration of the electronic control valve of the present invention, the plunger 220 and the push rod 230 are moved in one direction by a magnetic field generated as a current is applied to the solenoid assembly 200 as shown in FIG. 1 , and the push The configuration of forming a flow path by selectively connecting the crankcase pressure port 110 , the discharge pressure port 120 , and the suction pressure port 130 formed on the valve body 100 by the movement of the rod 230 is a conventional electronic control method. The general configuration of the valve is the same.

Hereinafter, the accompanying FIG. 3 is a cross-sectional view showing the configuration of a housing assembly according to an embodiment according to the present invention, and FIG. 4 is an enlarged view of the main part of FIG. 3, and with reference to FIGS. 3 and 4, the electronic control valve of the present invention The configuration of the prefabricated housing assembly will be described in detail as follows.

In the prefabricated housing assembly 270 according to the present invention, an annular body portion 271b and a cylindrical skirt portion 271a on one side of the body portion are integrally formed to surround and protect the exterior of the solenoid assembly 200 . and a single housing unit 271 that is

a housing cap 273 fitted and coupled to the body portion 271b of the housing unit 271 and the hollow 271c; and a sealing member 274 provided between the body portion 271b of the housing unit 271 and the coupling portion of the housing cap 273 .

In this case, the sealing member 274 may be an O-ring made of rubber or silicone, and a sealing groove 271d of a certain depth is formed in the hollow 271c of the body portion 271b of the housing unit 271 . ) is formed, and an O-ring is inserted into the sealing groove 271d.

In addition, the shape of the housing cap 273 has a right end blocked with reference to FIG. 3 , and an annular locking jaw 273a is formed at the other end of the opposite left end, and the housing cap adjacent to the locking jaw 273a is formed. At the middle of (273), a stepped step (273b) has a further formed structure.

The step step 273b is a portion in which the middle portion adjacent to the locking step is bent stepwise in a step shape, and has a smaller outer diameter than the locking step 273a when the sheet metal of the housing cap 273 is generally formed, and the outer diameter of the housing cap 273 . It can be stepped to have a larger outer diameter than that.

According to the above configuration, when the housing cap 273 is fitted toward the skirt portion 271a through the body portion hollow 271c of the housing unit 271 , the stepped jaw 273b is the body of the housing unit 271 . While being caught in the sub-hollow 271c, the locking jaw 273a is inserted into the sealing groove 271d formed to a predetermined depth in the body part hollow 271c of the housing unit 271 while the sealing groove 271d and the locking jaw are inserted. The sealing member 274 interposed between the 273a is pressed and pressed.

At this time, the outer diameter D2 of the stepped step 273b is larger than the outer diameter D1 of the housing cap 273 and smaller than the outer diameter D3 of the locking jaw 273a, and the outer diameter of the locking jaw 273a. (D3) is formed equal to or smaller than the inner diameter (D4) of the sealing groove (271d). Accordingly, by pressing and pressing the sealing member 274 that was previously fitted between the stopping jaw 273a and the sealing groove 271d while the engaging projection 273a is completely inserted into the sealing groove 271d, the pressed sealing member ( 274 , the airtightness between the housing unit 271 and the housing cap 273 can be sufficiently maintained.

In addition, according to an embodiment of the present invention, the material of the housing cap 273 is made of stainless steel or aluminum alloy in order to provide adequate strength and corrosion resistance to sufficiently withstand the pressure inside the valve. etc. may be selected.

On the other hand, the method of assembling the electronic control valve of the present invention configured as described above will be described step-by-step according to an embodiment as follows.

First, a) a single housing unit 271 in which an annular body portion 271b and a cylindrical skirt portion 271a are integrally formed on one side of the body portion is provided.

Next, b) the sealing member 274 is inserted into the hollow 271c of the body portion 271b of the housing unit 271 . At this time, the sealing member 274 may be an O-ring made of rubber or silicone material, and first, inside the body portion 271b of the housing unit 271 and the hollow 271c of a predetermined depth. After the sealing groove 271d is formed, the sealing member 274 is inserted into the sealing groove 271d.

Subsequently, c) a housing cap having a stopping protrusion 273a formed at the other end of the other end in a state in which one end is closed and the other end open, and a stepped protrusion 273b formed at the middle end adjacent to the stopping protrusion 273a, the housing, The assembly is completed by fitting and coupling the body portion 271b of the unit 271 toward the skirt portion 271a through the hollow 271c.

At this time, when the housing cap 273 is fitted toward the skirt portion 271a through the body portion hollow 271c of the housing unit 271 , the stepped jaw 273b is formed in the body portion hollow ( 271c) of the housing unit 271 . 271c), the locking jaw 273a is inserted into the sealing groove 271d formed to a predetermined depth in the body part hollow 271c of the housing unit 271 while being inserted between the sealing groove 271d and the locking jaw 273a. As the sealing member 274 positioned on the , is pressed, the airtightness between the housing cap 273 and the housing unit 271 is eventually maintained.

Meanwhile, before step c), a step of plating the entire housing unit 271 may be further added. Therefore, in the plating step of the present invention, a separate masking process is not required as in the prior art, and plating can be performed as a whole.

That is, in the prior art, since plating had to be performed after bonding the housing cap 273 through a brazing process, a separate masking process must be performed to avoid plating unnecessary parts such as the inner surface of the housing cap 273 and the brazing bonding surface during plating. had to be added.

However, since the housing assembly of the present invention is completed only by 100% assembly using a sealing member such as an O-ring, eliminating the brazing process and press-fitting process, as in the prior art, a brazing process, a press-fitting process, and a masking process during plating, etc. It is possible to eliminate all the complicated and costly process of the housing assembly, thereby improving the production efficiency of the housing assembly and has the advantage of significantly lowering the production cost.

In addition, the present invention is not limited only by the above-described embodiment, and since it is possible to create the same effect even when changing the detailed configuration or number and arrangement of the device, those of ordinary skill in the art will present the present invention It is specified that various additions, deletions, and modifications are possible within the scope of the technical idea of

100: valve body 200: solenoid assembly
220: plunger 230: push rod
270: housing unit 271a: skirt portion
271b: body portion 271c: hollow
271d: sealing groove 273: housing cap
273a: jamming jaw 273b: stepped jaw
274: sealing member

Claims (9)

The plunger and the push rod are moved in one direction by the magnetic field generated as current is applied to the solenoid assembly, and the crankcase pressure port, the discharge pressure port and the suction pressure port formed in the valve body by the movement of the push rod are selectively connected In the electronic control valve forming a flow path by
and a housing assembly that surrounds and protects the exterior of the solenoid assembly,
the housing assembly,
a single housing unit in which the annular body part and the cylindrical skirt part are integrally formed on one side of the body part;
a housing cap fitted and coupled to the hollow body of the housing unit; and
A sealing member provided in a coupling portion between the body portion of the housing unit and the housing cap;
An annular locking protrusion is formed at one end of the housing cap, and a stepped protrusion is further formed at the middle of the housing cap adjacent to the locking protrusion,
When the housing cap is inserted into the skirt portion through the body portion hollow of the housing unit, the stepped jaw is caught in the body portion hollow of the housing unit, and the locking jaw is inserted into a sealing groove formed to a predetermined depth in the body portion hollow of the housing unit. As the sealing member is positioned between the sealing groove and the locking jaw,
Electronically controlled valve with prefabricated housing assembly. The method of claim 1,
The outer diameter (D2) of the stepped jaw is formed to be larger than the outer diameter (D1) of the housing cap and smaller than the outer diameter (D3) of the engaging jaw,
Electronically controlled valve with prefabricated housing assembly. The method of claim 1,
The outer diameter (D3) of the locking jaw is formed equal to or smaller than the inner diameter (D4) of the sealing groove,
Electronically controlled valve with prefabricated housing assembly. The method of claim 1,
The sealing member is an O-ring made of rubber or silicone,
Electronically controlled valve with prefabricated housing assembly. The method of claim 1,
The housing cap is formed of a stainless steel or aluminum alloy material,
Electronically controlled valve with prefabricated housing assembly. a) preparing a single housing unit in which an annular body part and a cylindrical skirt part are integrally formed on one side of the body part;
b) inserting a sealing member into the hollow body of the housing unit; and
c) coupling a housing cap having one end closed and the other end open with a locking protrusion formed and a stepped protrusion formed at the middle adjacent to the locking protrusion toward the skirt portion through the hollow body of the housing unit; containing,
How to assemble an electronic control valve. 7. The method of claim 6,
In step b), a sealing groove of a predetermined depth is first formed in the hollow of the body portion of the housing unit, and then a sealing member is inserted into the sealing groove,
How to assemble an electronic control valve. 8. The method of claim 7,
In step c), when the housing cap is fitted toward the skirt portion through the body portion hollow of the housing unit, the stepped jaw is caught in the body portion hollow of the housing unit and the locking jaw is a certain depth into the body portion hollow of the housing unit. A sealing member is positioned between the sealing groove and the locking jaw while being inserted into the sealing groove formed by
How to assemble an electronic control valve. 7. The method of claim 6,
Before step c), the step of plating the housing unit as a whole is further added,
How to assemble an electronic control valve.

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