JP3780348B2 - Electromagnetic coil in motorized valve - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electromagnetic coil in a motor-operated valve that can reliably perform electrical connection between an electromagnetic coil and a valve body, particularly in a motor-operated valve used in a refrigerator.
[0002]
[Prior art]
As shown in FIGS. 11 and 12, for example, the motor-operated valve 41 includes a valve portion 42 and a motor portion 43, and the motor portion 43 incorporates a coil 44 and has a through hole 45 in the center and a rotor 46. (Not shown) is provided, and a rotor case 49 having a flange 47 below and a recess 48 above is provided.
[0003]
The entire outer periphery of the stator 46 is covered with a metal coil case 50, and the coil case 50 is molded by synthetic resin injection molding, and the stator case 51 is integrally formed. On the upper surface of the stator case 51, a protruding piece 53 having a slit 52 and a stopper 54 are provided.
[0004]
The bracket 55 placed on the upper surface of the stator case 51 is provided with an opening 56 at the center, cut and raised pieces 57, 58, 58 are provided at the opening edge, and a stopper 54 is engaged with one side edge. An engaging groove 59 is provided.
[0005]
When assembling the motor-operated valve 41, the bracket 55 is first moved from the side along the upper surface of the stator case 51 while being inserted into the slit 52 of the protruding piece 53 on the upper surface, and finally the engagement groove 59 of the bracket 55 is obtained. Is slid until it engages with and comes into contact with the stopper 54.
[0006]
Next, the through hole 45 formed in the center of the stator case 51 and the opening 56 of the bracket 55 assembled as described above contact the outer periphery of the through hole 45 of the stator case 51 from below the flange 47 below the rotor case 49. Until the projection piece 57 of the bracket 55 is engaged with the recess 48 of the rotor case 49.
[0007]
[Problems to be solved by the invention]
When the motor-operated valve having the above-described configuration is used as a refrigerant control valve in a refrigerant circuit of a refrigeration apparatus, condensation occurs in a slight gap between the rotor case 49 and the stator case 51 due to the cold refrigerant. The rotor case 49 and the stator case 51 that are sometimes electrically conductive may become non-conductive due to thin rust, dirt, or molding material adhering to the stator surface. In the motor-operated valve having the above-described configuration that is electrically non-conductive, the rotor case 49 and the stator case 51 may generate high-frequency electromagnetic waves due to sparks or the like, and a control device is installed near the motor-operated valve. This adversely affects the microcomputer or electronic circuit provided inside the control device, causing malfunction of the control device. In addition, there are exactly the same examples of a molded metal coil case and a fixed iron core in a solenoid valve, and a solution has been urged.
[0008]
Therefore, the present invention provides a motor-operated valve that can electrically connect the metal portion of the stator and the metal case of the rotor electrically and reliably without generating a high frequency by simple means. For the purpose.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a stator integrally formed with synthetic resin and provided with an electromagnetic coil, a synthetic resin stator case formed on the outer periphery of the stator, a bracket attached to the stator, A motor-operated valve including a rotor case in which a rotor, a needle valve, and the like are incorporated, and a projection for mounting the bracket on the stator case, a conductive portion of the stator, and a notch portion exposing the conductive portion The bracket is a conductive bracket, and the bracket is engaged with an engagement protrusion for engaging with the rotor case, and is connected to the conductive portion exposed in the cutout portion. An electromagnetic coil in a motor-operated valve provided with a conduction portion, a stator integrally formed with synthetic resin and provided with an electromagnetic coil, and formed on the outer periphery of the stator In a motor-operated valve comprising a synthetic resin stator case, a bracket attached to the stator, and a rotor case containing a rotor, a needle valve, etc. therein, a protrusion for attaching the bracket to the stator case and a conductive portion, wherein the bracket is electrically conductive bracket provided with a engaging portion in the bracket, contact with the stator contacts the conductive portion of the clamping part and the stator for clamping the engagement portion of the bracket And an electromagnetic coil in a motor operated valve provided with a conductive member provided with a portion.
[0010]
Specifically, the present invention is to design a molding die for the stator case so that the metal part of the stator case is surely brought into contact with the rotor case later when the stator case is molded by synthetic resin by injection molding. Furthermore, the bracket is improved so that the rotor case and the stator case are brought into contact with each other via the bracket, a conductive metal part is provided on the bracket, and a conductive substance is applied to the through hole of the stator case. The
[0011]
Since the present invention is configured as described above, a conductive means is formed between the conductive portion of the stator that houses the electromagnetic coil and the conductive case that covers the actuator that is operated by the electromagnetic coil. Since the electrical connection is ensured, no high frequency is generated between the two, and no malfunction signal is generated for the control device provided in the vicinity.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. 1 to 5 show an embodiment in which the present invention is used for a motor-operated valve. In the motor-operated valve 1, a conductive portion 3 of a stator S having a coil 2 therein is integrally formed with a mold resin. A stator case 4 made of synthetic resin is formed on the outer periphery. The stator case 4 is formed in a portion excluding the inner peripheral surface 5 of the stator S, and the connecting portion 7 of the lead wire 6 is also integrally formed. Three protrusions 9 in the figure are provided on the upper surface 8 of the stator case 4, and two protrusions 91 and 92 facing each other are formed with slits 11 for inserting brackets 10 to be described later along the upper surface 8. ing. Further, a notch portion 12 is formed in a part of the upper surface 8 of the stator case 4, and a part of the upper surface of the conductive portion 3 of the stator is exposed to the outside by the notch portion 12.
[0013]
A bracket 10 as shown in FIGS. 3 and 4 is mounted on the upper surface 8 of the stator case 4. The bracket 10 has side edge portions 13 parallel to both sides, and is provided with other opposing substantially circular shapes. One of the arc-shaped side edge portions has an engaging groove 14, and the other arc-shaped side edge portion has a conduction portion 15 protruding downward in an L shape. A through hole 19 is formed in the center of the bracket, and three protrusions 16 are formed on the periphery of the through hole 19 , two of which are rotor cases that pass through the through hole 19 when the motor-operated valve is assembled. The other one is larger than the protrusion 16 and the other one is formed with an engaging protrusion 18 that engages with a recess on the outer periphery of the rotor case 17 at the inside of the tip.
[0014]
The rotor case 17 is made of conductive metal, and incorporates a rotor, a needle valve and the like inside, and a valve body 20 is fixed and integrated at the lower part. Below the rotor case 17, a flange 21 is provided at a connecting portion with the valve main body 20, and a concave groove 22 that engages with the engaging protrusion 18 of the bracket 10 is provided on the upper outer periphery.
[0015]
When assembling the motor-operated valve composed of each member as described above, the bracket 10 is moved from the side along the upper surface 8 of the stator case 4 while being inserted into the slits 11 of the projections 91 and 92 on the upper surface, Finally, the bracket 10 is moved until the engaging groove 14 of the bracket 10 is engaged with the protrusion 9 and comes into contact therewith. At this time, the conductive portion 15 formed on one side of the bracket 10 penetrates into the notch 12 formed in a part of the upper surface 8 of the stator case 4 and contacts the conductive portion 3 of the stator S exposed at this portion. And electrically connected.
[0016]
Next, the lower flange 21 of the rotor case 17 is formed on the outer periphery of the through hole 23 of the stator case 4 from below the through hole 23 opened in the center of the stator case 4 and the through hole 19 of the bracket 10 assembled as described above. Insert from the head of the rotor case 17 until it abuts. As a result, the engaging protrusion 18 of the bracket 10 is engaged with the concave groove 22 on the outer periphery of the upper part of the rotor case, and the rotor case 17 is sandwiched together with the protrusion 16 formed on the inner periphery of the through hole 19. 4 and as well as integrated, electrically conductive bracket 10 and the conductive made of a rotor casing 17 are electrically connected. As a result, the bracket 10 that has previously been in electrical communication with the conductive portion 3 of the stator S is also conductively connected to the rotor case 17. By assembling the motor-operated valve as described above, the conductive portion 3 of the stator and the conductive rotor case 17 are electrically and reliably coupled by the conductive bracket 10.
[0017]
Another embodiment of the present invention will be described with reference to FIGS. In this embodiment, unlike the previous embodiment, the conductive member shown in FIGS. 7 and 8 with respect to the engaging portion 14 of the bracket 10 without providing the notch 12 on the upper surface 8 of the stator case in the above embodiment. 25 is used. The conductive member 25 includes a stator contact portion 27 that is bent downward from the flat plate portion 26, and includes a sandwiching portion 28 that is bent upward from the flat plate portion 26.
[0018]
When the bracket 10 is attached to the upper surface 8 of the stator case 4 during assembly of the motor-operated valve, the conductive member 25 is placed on the front surface of the protrusion 9 before the engaging portion 14 of the bracket 10 contacts the protrusion 9. The engaging portion 14 of the bracket 10 is inserted into the clamping portion 28, and the engaging portion of the bracket 10 is brought into contact with the protrusion 9. At this time, the stator contact portion 27 of the conductive member 25 abuts on the inner peripheral upper surface portion of the stator conductive portion 3, whereby the stator conductive portion 3 is interposed between the bracket 10 and the conductive member 25 and the bracket 10. electrically coupled to the conductive rotor case 17 by the engaging projection. As a result, similarly to the above-described embodiment, the conductive portion of the stator and the conductive rotor case are securely connected electrically.
[0019]
Still another embodiment of the present invention is shown in FIG. In this embodiment, a bent portion 30 projecting downward is formed on a part of the inner periphery of the lower end of the conductive portion 3 of the stator S, and the bent portion 30 places the rotor case 17 in the stator case 4 as described above. When it penetrates, it is made to contact with the flange 21 below the rotor case 17. As a result, the conductive portion of the stator S and the conductive rotor case 17 are electrically and reliably coupled to each other in the same manner as in the above embodiment.
[0020]
Still another embodiment of the present invention is shown in FIG. In this embodiment, a conductive elastic member 31 such as a conductive rubber or a conductive sponge is in contact with the exposed portion of the inner periphery of the lower end of the conductive portion 3 of the stator S and is also in contact with the flange 21 below the stator case 4. Is interposed. In addition, conductive grease 32 is applied to the facing gap between the inner peripheral surface of the conductive portion 3 of the stator S and the outer peripheral surface of the rotor case 17 . In the above-described embodiment, the embodiment using both the conductive elastic member 31 and the conductive grease 32 has been shown, but only one of them may be used. Thereby, similarly to the above-described embodiment, the conductive portion of the stator S and the conductive rotor case are electrically and reliably coupled.
[0021]
【The invention's effect】
Since the present invention is configured as described above, a conductive means is formed between the conductive portion of the stator that houses the electromagnetic coil and the conductive case that covers the actuator that is operated by the electromagnetic coil. Since the electrical connection is ensured, no high frequency is generated between the two, and no malfunction signal is generated for the control device provided in the vicinity thereof. In the electromagnetic valve, the molded metal case and the fixed iron core or the plunger tube can be electrically connected by the same means.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view of an embodiment of the present invention.
FIG. 2 is a plan view of the same.
FIG. 3 is a plan view of a bracket used in the embodiment.
FIG. 4 is a sectional view of the same.
FIG. 5 is a plan view of a stator case portion used in the embodiment.
FIG. 6 is a cross-sectional view of another embodiment of the present invention.
FIG. 7 is a cross-sectional view of a conductive member used in the example.
FIG. 8 is a plan view of the same.
FIG. 9 is a partial sectional view of still another embodiment of the present invention.
FIG. 10 is a partial cross-sectional view of still another embodiment of the present invention.
FIG. 11 is a cross-sectional view of a conventional example.
FIG. 12 is a plan view of a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Electric valve 2 Coil 3 Stator conductive part 4 Stator case 5 Inner peripheral surface 6 Lead wire 7 Connection part 8 Upper surface 9 Protrusion 10 Bracket 11 Slit 12 Notch part 13 Side edge part 14 Engaging groove 15 Conductive part 16 Through-hole 17 Rotor case 18 Engagement protrusion 19 Through hole 20 Valve body 21 Flange 22 Concave groove 30 Bending portion 31 Conductive elastic member 32 Conductive grease

Claims (2)

A stator integrally molded with synthetic resin and provided with an electromagnetic coil, a stator case made of synthetic resin formed on the outer periphery of the stator, a bracket attached to the stator, and a rotor, a needle valve, and the like incorporated therein In the motor operated valve including the rotor case, the stator case includes a protrusion for mounting the bracket, a conductive portion of the stator, and a notch portion exposing the conductive portion, and the bracket is a conductive bracket. The bracket includes an engaging protrusion for engaging with the rotor case, and a conductive portion that fits into the notch and is connected to the conductive portion exposed at the notch. Electromagnetic coil in a motorized valve. A stator integrally molded with synthetic resin and provided with an electromagnetic coil, a stator case made of synthetic resin formed on the outer periphery of the stator, a bracket attached to the stator, and a rotor, a needle valve, and the like incorporated therein the electric valve having a rotor casing, the said stator casing includes a protrusion and a conductive portion for mounting the bracket, the bracket is electrically conductive bracket provided with a engaging portion in the bracket, An electromagnetic coil in a motor-operated valve, comprising: a holding member that holds the engaging portion of the bracket; and a conductive member that includes a stator contact portion that contacts the conductive portion of the stator.

Images