KR200495907Y1 - Ultrasonic Generator For Ultrasonic Cleaner - Google Patents

Abstract

The present invention relates to an ultrasonic generator for an ultrasonic cleaner, and more particularly, an ultrasonic generator that can be used in an ultrasonic cleaner that can be washed without damaging the surface of fruits or dishes by generating ultrasonic waves. It relates to an ultrasonic generator for an ultrasonic cleaner that can be easily repaired and detached from the ultrasonic generator while preventing it from flowing into the washing tank of the ultrasonic cleaner, and the ultrasonic generator is attached to the ultrasonic cleaner with strong and high durability to perform ultrasonic cleaning stably .

Description

Ultrasonic Generator For Ultrasonic Cleaner

The present invention relates to an ultrasonic generator for an ultrasonic cleaner, and more particularly, an ultrasonic generator that can be used in an ultrasonic cleaner that can be washed without damaging the surface of fruits or dishes by generating ultrasonic waves. It relates to an ultrasonic generator for an ultrasonic cleaner that can be easily repaired and detached from the ultrasonic generator while preventing it from flowing into the washing tank of the ultrasonic cleaner, and the ultrasonic generator is attached to the ultrasonic cleaner with strong and high durability to perform ultrasonic cleaning stably .

In general, washing of fruits or tableware is done manually by housewives, but recently, a dishwasher that automatically washes fruits or tableware has been developed and used.

The washing method of such a dishwasher can be roughly classified into two.

The first is a nozzle-jet washing method in which washing water is sprayed at high pressure through a nozzle, and second, as in “Korea Patent Publication No. 10-2006-0024752 (Mar. 17, 2006)”, it has a washing unit that soaks the dishes in water inside the washing machine, and the washing unit It can be divided into an ultrasonic cleaning method in which an ultrasonic generator that generates ultrasonic waves is attached to the surface of dishes or fruits to remove debris attached to the surface.

The cleaning method using the ultrasonic wave minimizes damage such as breakage or damage to the surface when washing materials such as vegetables or fruits with thin or not hard skins, and in the case of materials such as tableware, fine grooves or handle connections and It has the advantage of being able to wash in the same place.

However, in the conventional cleaning method using ultrasonic waves, it is common that an ultrasonic generator that generates ultrasonic waves and vibrates the ultrasonic waves is fixed to the cleaning unit through welding or the like. For this reason, when the ultrasonic generator is broken or damaged, the entire ultrasonic cleaner must be replaced, or the ultrasonic generator must be replaced or repaired in a state in which the ultrasonic generator is installed, so maintenance is not easy.

Korean Patent Registration No. 10-1761344 (hereinafter referred to as Prior Patent 1), which is the same design of the present invention and which corresponds to the patent of the same applicant, discloses an ultrasonic cleaner in a form in which an ultrasonic generator can be attached and detached.

However, this prior patent 1 has a structure in which an oscillator to which an oscillator (which may be implemented as a piezoelectric element, etc.) that generates vibration is attached is coupled to a diaphragm, and an insulating plate is disposed between the oscillator and the diaphragm, so that the oscillator When power is supplied, the power applied to the diaphragm can be reduced.

However, in Prior Patent 1, the first bolt is fastened between the oscillator and the diaphragm in order to apply the vibration from the oscillator to the diaphragm as much as possible, and since the oscillator and the diaphragm are not completely insulated, the ultrasonic cleaner operates with high output. In this case, the current introduced into the oscillator may flow into the washing tub through the diaphragm, and therefore, when a person operates the ultrasonic washing machine with high output, electric shock due to electrical leakage or at least electricity flowing when a hand is put into the washing tub is prevented. It may feel uncomfortable while using it.

[Prior Patent 1] Korean Patent No. 10-1761344, “Ultrasonic Cleaner”

The present invention is an ultrasonic generator that can be used in an ultrasonic cleaner that can be washed without damaging the surface of fruits or tableware by generating ultrasonic waves. An object of the present invention is to provide an ultrasonic cleaner for an ultrasonic cleaner that can be easily repaired and detached, and the ultrasonic generator is attached to the ultrasonic cleaner with strong and high durability to perform ultrasonic cleaning stably.

In order to solve the above problems, the present invention provides an ultrasonic generator for an ultrasonic cleaner, comprising: an oscillator electrically connected to an external power source to generate vibration according to an external power supply; an oscillator holder disposed above the oscillator; an insulator network disposed in a space formed between an upper side of the oscillator and a lower side of the oscillator holder, the insulating network being formed of an insulating material and including a plurality of empty spaces therein; an adhesive layer disposed in a space between the oscillator and the oscillator holder, a part of which is embedded in the empty space of the insulator network; and a diaphragm coupled to an upper side of the oscillator holder, wherein a part of the oscillator is in contact with the adhesive layer and a part of the insulator network, and a part of the oscillator holder is in contact with the adhesive layer and a part of the insulator network. By contacting with, the oscillator is coupled to each other while the oscillator holder is insulated, to provide an ultrasonic cleaner for ultrasonic cleaner.

According to some embodiments of the present invention, the oscillator includes a vibration transmitting unit for transmitting vibrations generated in the vibrator, the vibration transmitting unit is disposed above the vibrator, the first vibration transmitting unit; and a second vibration transmission unit disposed on an upper side of the first vibration transmission unit, wherein the surface of the first vibration transmission unit and the surface of the second vibration transmission unit form a first junction slope of a certain size at a portion in contact with each other, The oscillator holder may have a second junction slope corresponding to the first junction slope.

According to some embodiments of the present invention, the oscillator may have a coupling pattern including at least one of a plurality of convex elements and a plurality of concave elements on a portion of a side surface in contact with the adhesive layer.

According to some embodiments of the present invention, the oscillator holder, the holder bottom portion; a first holder side wall extending downward from the edge of the holder bottom; and a second holder sidewall having a second junction slope with the first holder sidewall at the first holder sidewall.

According to some embodiments of the present invention, the minimum inner diameter of the second holder side wall is greater than or equal to 0.03 mm to 5 mm larger than the maximum outer diameter of the upper surface of the oscillator, and the minimum inner diameter of the second holder side wall and the maximum of the upper surface of the oscillator A portion of the adhesive layer may be disposed in a space between the outer diameters.

According to some embodiments of the present invention, the adhesive layer may include a bottom adhesive layer disposed in a space between the lower surface of the oscillator holder and the upper surface of the oscillator; and a side adhesive layer extending downward from the edge of the bottom adhesive layer, wherein the side adhesive layer is disposed in a space between a part of the inner peripheral surface of the oscillator holder and a part of the outer peripheral surface of the oscillator holder, the inner peripheral surface of the oscillator holder A part and a part of the outer peripheral surface of the oscillator may be interconnected.

According to some embodiments of the present invention, the insulator network may include a plurality of first insulating wires spaced apart from each other; and a plurality of second insulated wires joined at an angle with respect to the plurality of first insulated wires and spaced apart from each other.

According to some embodiments of the present invention, the adhesive layer injects an adhesive solution into a gap between the oscillator and the oscillator holder in a state in which the insulator network is disposed between the oscillator and the oscillator holder, It can be formed by curing.

According to some embodiments of the present invention, in a state in which a convex part is formed on a part of the oscillator holder located on the diaphragm side, the oscillator holder is brought into contact with the diaphragm side and spot welding is performed, whereby the diaphragm and the oscillator are The holder may be coupled.

In order to solve the above problems, in one embodiment of the present invention, there is provided an ultrasonic cleaner including an ultrasonic cleaner for ultrasonic cleaner according to claim 1 .

According to some embodiments of the present invention, it is possible to exhibit the effect of reliably preventing the current flowing into the ultrasonic generator from flowing into the washing tank of the ultrasonic cleaner.

According to some embodiments of the present invention, the vibration energy generated by the ultrasonic generator is transmitted to the inside of the washing tub of the ultrasonic cleaner while minimizing the loss, and the effect of preventing the current from flowing in the washing tub at all even when the ultrasonic washing machine is operated with high output can perform

According to some embodiments of the present invention, it is easy to repair and detach the ultrasonic generator, and the ultrasonic generator is attached to the ultrasonic cleaner with strong and high durability, thereby providing an ultrasonic cleaner capable of stably performing ultrasonic cleaning. can

According to some embodiments of the present invention, current leakage from the ultrasonic generator does not occur even after long-term use, and it is possible to exhibit the effect that the ultrasonic generators are firmly fixed to the wall of the washing tank of the ultrasonic cleaner.

1 is a diagram schematically illustrating an ultrasonic cleaner according to an embodiment of the present invention.
2 is a view schematically showing a side of the ultrasonic generator according to an embodiment of the present invention attached to a part of the wall surface of the ultrasonic cleaner.
3 is a diagram schematically illustrating an exploded perspective view of a partial wall of an ultrasonic cleaner and internal components of an ultrasonic generator according to an embodiment of the present invention.
4 is a diagram schematically illustrating an oscillator according to an embodiment of the present invention.
5 is a diagram schematically illustrating embodiments of an insulator network according to an embodiment of the present invention.
6 is a view schematically showing the assembly steps of the components of the ultrasonic generator according to an embodiment of the present invention.
7 is a diagram schematically illustrating an oscillator holder according to an embodiment of the present invention.

In the following, various embodiments and/or aspects are now disclosed with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth to provide a thorough understanding of one or more aspects. However, it will also be recognized by one of ordinary skill in the art of the present invention that such aspect(s) may be practiced without these specific details. The following description and accompanying drawings set forth in detail certain illustrative aspects of one or more aspects. These aspects are illustrative, however, and some of the various methods in principles of various aspects may be employed, and the descriptions set forth are intended to include all such aspects and their equivalents.

As used herein, “embodiment”, “example”, “aspect”, “exemplary”, etc. may not be construed as an advantage or advantage in any aspect or design described herein over other aspects or designs. .

In addition, the term “or” is intended to mean an inclusive “or” rather than an exclusive “or.” That is, unless otherwise specified or clear from context, “X employs A or B” is intended to mean one of the natural implicit substitutions. That is, X employs A; X employs B; Or, when X employs both A and B, "X employs A or B" can be applied to either of these cases. Also, as used herein, the term “and/or” should be understood to refer to and include all possible combinations of one or more of the listed related items.

Also, the terms “comprises” and/or “comprising” mean that the feature and/or element is present, but excludes the presence or addition of one or more other features, elements and/or groups thereof. should be understood as not

Also, terms including an ordinal number such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are generally understood by those of ordinary skill in the art to which the present invention belongs. have the same meaning as Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with the meanings in the context of the related art, and unless explicitly defined in the embodiments of the present invention, ideal or excessively formal meanings is not interpreted as

1 is a diagram schematically illustrating an ultrasonic cleaner according to an embodiment of the present invention.

As shown in FIG. 1 , the ultrasonic cleaner 10 according to an embodiment of the present invention may include an ultrasonic generator 100 , a body 200 , a wheel 300 , a support 400 , and a controller 500 . can

A washing space 20 in which a cleaning agent and materials such as vegetables, fruits, or tableware are accommodated may be formed in the upper portion of the main body 200 . The washing space 20 is provided in a form in which all surfaces except the upper part are surrounded by the wall surface 21, and materials, cleaning agents, and water can be accommodated through the open upper part.

In addition, although not shown in the drawings, various facilities and devices for ultrasonic cleaning may be provided inside the main body 200 . In addition, although it was shown that the main body 200 has a rectangular shape in this embodiment, the main body 200 may be provided in various shapes depending on the cleaning purpose or installation location.

On the other hand, the wheel 300 and the support 400 may be provided at the lower portion of the main body 200 . Since the wheel 300 is provided in the main body 200, it can be easily moved when the position of the ultrasonic cleaner 10 is changed. The support 400 may serve to support the main body 200 while preventing the ultrasonic cleaner 10 from moving when the position of the ultrasonic cleaner 10 is fixed and fixed.

And, although not shown in the drawings, the support 400 is adjustable in length, so that the ultrasonic cleaner 10 does not move and the body 200 is not moved by adjusting the length of the support 400 so that the wheel 300 is separated from the ground. ) can be easily supported.

On the other hand, the controller 500 is provided on the upper portion of the body 200 may serve to control the cleaning method according to the material. For example, when you want to wash materials with thin or hard skins such as vegetables or fruits, or when you want to clean tableware materials such as kitchen utensils that are stuck with grease or burnt, the cleaning method including the cleaning strength is relatively different. It is different from each other, so it is necessary to control the cleaning method suitable for the material to be cleaned.

Therefore, by providing the controller 500 to control the cleaning method according to the material, it is possible to prevent damage to the material and increase the cleaning accuracy.

On the other hand, a plurality of the ultrasonic generator 100 may be provided on the wall surface 21 while maintaining a constant interval. As mentioned above, since all surfaces of the washing space 20 except for the upper part are provided in a form surrounded by the wall surface 21, the ultrasonic generator 100 is also provided on all surfaces except the upper part to provide the washing space 20 ), it is possible to allow the ultrasonic waves to reach the material accommodated in the

The ultrasonic cleaner shown in FIG. 1 shows an example of an ultrasonic cleaner that performs only basic functions, and the ultrasonic generator 100 according to embodiments of the present invention may be used in the ultrasonic cleaner shown in FIG. For example, an ultrasonic cleaner with a cover, an ultrasonic cleaner with heating heating, an ultrasonic cleaner that can perform washing and drying functions, an ultrasonic cleaner with a plurality of spaces, or an ultrasonic cleaner with an IoT function, etc. It can be applied to various ultrasonic cleaners that perform cleaning by applying ultrasonic vibration having a configuration or a substituted configuration.

Hereinafter, the ultrasonic generator 100 will be described in more detail. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

2 is a view schematically showing a side of the ultrasonic generator according to an embodiment of the present invention attached to a part of the wall surface of the ultrasonic cleaner.

3 is a diagram schematically illustrating an exploded perspective view of a partial wall of an ultrasonic cleaner and internal components of an ultrasonic generator according to an embodiment of the present invention.

The ultrasonic generator 100 according to an embodiment of the present invention includes an oscillator 110 electrically connected to an external power supply to generate vibration according to an external power supply; an oscillator holder 130 disposed on the upper side of the oscillator 110; an insulator network 140 disposed in a space formed between an upper side of the oscillator 110 and a lower side of the oscillator holder 130 and formed of an insulating material and including a plurality of empty spaces therein; an adhesive layer 145 disposed in the space between the oscillator 110 and the oscillator holder 130 and partially embedded in the empty space of the insulator network 140; and a diaphragm 120 coupled to the upper side of the oscillator holder 130 .

In this configuration, a portion of the surface of the oscillator 110 is in contact with a portion of the adhesive layer 145 and the insulator network 140 , and a portion of the surface of the oscillator holder 130 includes the adhesive layer 145 and the By contacting a portion of the insulator network 140 , the oscillator 110 may be coupled to each other while the oscillator holder 130 is insulated.

Typically, the diaphragm 120 side configuration of the oscillator 110 is preferably formed of a metal material for long-term use durability. In such a structure, the diaphragm 120 and the oscillator 110 are coupled to each other by the insulator network 140 and the adhesive layer 145, so that they can be coupled to each other in a rigid structure, thus minimizing the loss. The vibration of the oscillator 110 may be transmitted to the diaphragm 120 , and a cleaning function of the ultrasonic cleaner may be implemented according to the vibration of the diaphragm 120 .

On the other hand, the diaphragm 120 is coupled to the oscillator holder 130 , and an adhesive layer 145 and the insulator network 140 are formed between the oscillator holder 130 and the oscillator 110 to insulate each other from each other. can be effective.

The insulator network 140 has the effect of forming the thickness of the adhesive layer 145 at a certain level or reliably separating the oscillator 110 and the oscillator holder 130, while at the same time the adhesive layer 145 ), the strength of the adhesive layer 145 is further improved as it serves as a frame, and thus the coupling between the oscillator 110 and the oscillator holder 130 can be made more robust.

As described above, the ultrasonic cleaner 10 according to an embodiment of the present invention includes the main body 200 having the washing space 20 formed thereon, and the ultrasonic wave provided on the wall 21 forming the washing space 20 . The generator 100, the wheel 300 provided at the lower part of the main body 200 to allow the main body 200 to move, the support 400 and the main body provided at the lower part of the main body 200 to support the main body 200 It is provided on the upper portion of the 200 may be provided with a controller 500 to control the cleaning method according to the material.

The ultrasonic generator 100 includes an oscillator 110, a diaphragm 120, an oscillator holder 130, an insulator network 140, an adhesive layer 145, a first bolt 140, an airtight ring 150, and a cap ( 160) may be provided.

The oscillator 110 may serve to generate ultrasonic waves using an externally supplied current. In addition, the oscillator 110 is provided on the outside 20b of the cleaning space 20, and the (+) pole and the (-) pole are directed in different directions to prevent cross-talk.

Meanwhile, a diaphragm 120 may be provided on one side of the oscillator 110 . The diaphragm 120 is vibrated by the ultrasonic wave generated by the oscillator 110 and serves to transmit the ultrasonic wave to the interior 20a of the cleaning space 20 through the vibration, and a coupling groove formed in the wall surface 21 . The exposed portion 121 exposed to the interior 20a of the cleaning space 20 through 21a, and the exposed portion 121 extending from one end of the exposed portion 121 to the outside 20b of the cleaning space 20 The protrusion 122 to be exposed to the inside 20a, extending from one end of the protrusion 122 and coupled with the second bolt 22 provided on the wall 21 of the outer 20b of the washing space 20 At one end of the part 123 and the coupling part 123, it is bent in the direction of the wall surface 21 to

It may include a bent portion 125 forming a seating portion 124 on which the airtight ring 150 is seated.

Here, a plurality of the second bolts 22 may be provided on the outer 20b wall surface 21 of the washing space 20 with the coupling groove 21a as the center. And, the cap 160 is fastened to one end of the second bolt 22 so that the diaphragm 120 and the airtight ring 150 are fixed and closely adhered to the wall surface 21 of the outer 20b of the washing space 20 . can do.

The exposed part 121 positioned in the interior 20a of the washing space 20 by the protrusion 122 is closer to the material accommodated in the washing space 20, so that the ultrasonic wave reaches the material. By narrowing it, the cleaning effect can be relatively increased.

In addition, the diaphragm 120 is provided with a coupling portion 123 having a through hole (unsigned) formed therein, so that coupling with the second bolt 22 is easy, and the cap 160 is attached to one end of the second bolt 22 . By being fastened, the diaphragm 120 can maintain the coupled state with the second bolt 22 .

have. Here, since the second bolt 22 and the cap 160 can be coupled through a screw coupling method, coupling or separation can be easily performed.

Therefore, the diaphragm 120 can be easily detached by the coupling of the second bolt 22 and the cap 160 , so that maintenance such as replacement of the diaphragm 120 can be conveniently performed in the future. In addition, since the second bolt 22 and the cap 160 are coupled through a screw coupling method, installation or disassembly can be performed quickly, so that the effect of improving the workability can also be exhibited.

Meanwhile, the diaphragm 120 may include a space portion 126 formed by the exposed portion 121 and the protruding portion 122 .

The oscillator holder 130 and some of the components coupled to the oscillator holder 130 may be embedded in the space portion 126 . An upper portion of the insulating plate 130 and the oscillator 110 may be embedded.

2 and 3, it is disposed in a space formed between the upper side of the oscillator 110 and the lower side of the oscillator holder 130, is formed of an insulating material, and includes a plurality of empty spaces therein An insulator network 140 is provided, the adhesive layer 145 is disposed in the space between the oscillator 110 and the oscillator holder 130, and a part of the adhesive layer 145 is embedded in the empty space of the insulator network 140. provided In this configuration, the diaphragm 120 is coupled to the upper side of the oscillator holder 130 .

In embodiments of the present invention, a partial surface of the oscillator 110 is in contact with a portion of the adhesive layer 145 and the insulator network 140 , and a partial surface of the oscillator holder 130 is formed with the adhesive layer 145 . ) and a part of the insulator network 140 , the oscillator 110 is coupled to each other while the oscillator holder 130 is insulated, and thus the oscillator 110 is indirectly connected to the diaphragm 120 . It is possible to maintain high insulation performance while firmly bonding.

On the other hand, the oscillator holder 130, the holder bottom 131; a first holder side wall 132 extending downward from the edge of the holder bottom 131; and a second holder sidewall 133 forming a second joining slope with the first holder sidewall 132 at the first holder sidewall 132 .

As such, in the oscillator holder 130 , the second holder sidewall 133 is inclined with the first holder sidewall 132 , so that in the state in which the adhesive layer 145 is formed, the oscillator has a similarly inclined shape. It is possible to exhibit the effect of more firmly fixing the upper side of (110). Also, as shown in FIG. 2 , the maximum outer diameter in the state in which the adhesive layer 145 is coupled to the oscillator 110 is greater than the minimum inner diameter of the second holder sidewall 133 , so that the upper side of the oscillator 110 is more It can exert the effect of being firmly fixed.

Preferably, the minimum inner diameter of the second holder side wall 133 is 0.03 mm to 5 mm larger than the maximum outer diameter of the upper surface of the oscillator 110, and the minimum inner diameter of the second holder side wall 133 and the oscillator A portion of the adhesive layer 145 is disposed in a space between the maximum outer diameter of the upper surface of 110 .

That is, the minimum inner diameter of the second holder side wall 133, that is, the inner diameter of the lowermost second holder side wall 133 in FIG. 2 is the maximum outer diameter of the upper surface of the oscillator 110, that is, the uppermost outer diameter in FIG. should be approximately the same size as In such a range, the oscillator 110 can be assembled inside the oscillator holder 130 without additional processing, and when the adhesive layer 145 is formed in such a state, the oscillator 110 and the oscillator holder 130 . can be tightly coupled to each other without direct contact with each other.

Meanwhile, the adhesive layer 145 may include a bottom adhesive layer 146 disposed in a space between the lower surface of the oscillator holder 130 and the upper surface of the oscillator 110 ; and a side adhesive layer 147 extending downward from the edge of the bottom adhesive layer 146 .

In this configuration, the side adhesive layer 147 is disposed in a space between a part of the inner peripheral surface of the oscillator holder 130 and a part of the outer peripheral surface of the oscillator 110, and a part of the inner peripheral surface of the oscillator holder 130 and A portion of the outer peripheral surface of the oscillator 110 is coupled to each other.

That is, the oscillator holder 130 and the oscillator 110 may be coupled to each other on the upper and lower surfaces, as well as on the side surface by the side adhesive layer 147 .

In the embodiment shown in FIGS. 2 and 3 , in a state in which the insulator network 140 is bonded to the holder bottom 131 and the upper surface of the oscillator 110 , the adhesive layer 145 is formed in the insulator network 140 . ) in a form surrounding (or enclosing), the oscillator 110 and the oscillator holder 130 are coupled while being spaced apart from each other. As a result, the insulator network 140 can not only maintain the form of the adhesive layer 145 stably, but also exhibit the effect of more reliably insulating the oscillator 110 and the oscillator holder 130 from each other. have.

In a preferred embodiment, the left and right lengths of the insulator network 140 correspond to the inner diameter of the first holder sidewall 132 or are greater than the left and right lengths of the upper surface of the oscillator 110 . With such a configuration, the insulator network 140 can more reliably insulate between the side surface of the oscillator 110 and the sidewall 132 of the first holder of the oscillator holder 130 .

With this configuration, heat or current generated when the oscillator 110 generates ultrasonic waves is transmitted to the diaphragm 120 and affects the cleaning space 20 or the material accommodated in the interior 20a of the cleaning space 20 . It can have the effect of preventing

On the other hand, the airtight ring 150 may be made of a material having elasticity and water-repellent performance, and a diaphragm ( 120) can be combined.

As a detailed configuration of the airtight ring 150, the first surface 151 seated on the seating portion 124 of the diaphragm 120 and coupled with the second bolt 22, the protrusion 122 of the first surface 151 A second surface 152 extending from one end of the side in the direction of the wall surface 21 and a third surface 153 extending from one end of the second surface 152 in the direction of the protrusion 122 may be provided.

The first surface 151 is provided with a through groove (unsigned) through which the second bolt 22 passes, similarly to the coupling portion 123 of the diaphragm 120 , so that the second bolt 22 and the cap 160 are provided. It can be fixed through the combination of The first surface 151 seated on the seating portion 124 has a shape surrounded on three sides by the protrusion 122 , the coupling portion 123 and the bent portion 125 , and the coupling portion 123 and the bent portion 125 are It is possible to prevent direct contact with the wall surface 21 of the exterior 20b of the washing space 20 .

The second surface 152 and the third surface 153 are cleaned while preventing the protrusion 122 of the diaphragm 120 from directly contacting the wall surface 21 of the outer 20b of the cleaning space 20 . It is possible to prevent the cleaning agent or water accommodated in the space 20 from leaking out to the outside 20b of the washing space 20 through the coupling groove 21a of the wall surface 21 . Therefore, it is possible to exert an effect of blocking in advance that the cleaning agent or water accommodated in the washing space 20 leaks out and causes a malfunction in the oscillator 110 .

4 is a diagram schematically illustrating an oscillator 110 according to an embodiment of the present invention.

4, the oscillator 110 includes an oscillator fastening screw 111, an oscillator lower cap 112 disposed above the oscillator fastening screw 111, and the oscillator lower cap 112 disposed above the oscillator lower cap 112. 1 oscillator 113 , a first electrode plate 114 disposed above the first vibrator 113 , a second vibrator 115 disposed above the first electrode plate 114 , and the second vibrator 115 . ) a second electrode plate 116 disposed on the upper side, a first vibration transmitting unit 116.1 disposed on an upper side of the second electrode plate 116 , and a second vibration disposed above the first vibration transmitting unit 116.1 ) a transfer unit 116.2. In this configuration, the oscillator is fastened to a part of the oscillator lower cap 112 , the first vibrator 113 , the first electrode plate 114 , the second vibration element, the second electrode plate 116 , and the vibration transmission unit. A hollow or separate hole configuration to which the screw 111 can be fastened may be formed.

On the other hand, the vibration transmitting unit 116 includes a vibration transmitting unit for transmitting the vibration generated in the vibrator including the first vibrator 113 or the second vibrator 115, the vibration transmitting unit is disposed above the vibrator and a first vibration transmission unit 116.1; and a second vibration transmission unit 116.2 disposed above the first vibration transmission unit 116.1.

The first vibration transmitting unit 116.1 and the second vibration transmitting unit 116.2 may correspond to one member.

Preferably, the surface of the first vibration transmission unit 116.1 and the surface of the second vibration transmission unit 116.2 form a first junction slope of a certain size in a portion in contact with each other, and the oscillator holder 130 A second junction slope corresponding to the first junction slope is formed. As such, by the inclination of the vibration transmission part, the outer diameter of the upper side of the vibration transmission part is large, the outer diameter decreases as it goes down to the upper side of the vibration transmission part, and the inner diameter of the lower side of the oscillator holder 130 is small, and the oscillator holder 130. By having a configuration in which the inner diameter increases from the lower side of the to the upper side, when the adhesive layer is formed, the oscillator holder 130 and the vibration transmitting unit can be more firmly coupled.

Preferably, the second vibration transmitting part 116.2 of the oscillator 110 has a coupling pattern including at least one of a plurality of convex elements and a plurality of concave elements on a part of a side surface in contact with the adhesive layer 145 . is formed In such a structure, the second vibration transmitting unit 116.2 can be firmly coupled to the adhesive layer 145 , more specifically, the side adhesive layer 147 , and thus the oscillator 110 is attached to the oscillator holder 130 . can be more firmly coupled to

5 is a diagram schematically illustrating embodiments of an insulator network 140 according to an embodiment of the present invention.

The insulator network 140 according to embodiments of the present invention is formed of an insulating material and corresponds to a structure including a plurality of empty spaces therein.

In some embodiments of the present invention, the insulating material may be made of a wire. Since many empty spaces can be formed inside the wire rod, the adhesive force of the adhesive layer 145 can be maximized. The insulator network 140 in the present invention is not limited to a closed loop, but refers to a structure formed of an insulating material having various types of internal empty spaces.

The insulator network 140 shown in FIG. 5A includes a plurality of first insulated wires 141 spaced apart from each other; and a plurality of second insulated wires 142 joined at an angle with respect to the plurality of first insulated wires 141 and spaced apart from each other.

The first insulated wire 141 and the second insulated wire 142 are connected to each other by a wire joint 143 .

The insulator network 140 shown in FIG. 5B corresponds to a form in which wire rods capable of forming an atypical space such as a circle are combined therein.

The insulator network 140 shown in FIG. 5C corresponds to a plurality of insulator networks 140 shown in FIG. 5A stacked. Embodiments of the present invention include a multi-structure as well as such a double structure.

The insulator network 140 shown in FIG. 5 corresponds to a part of the insulator network 140 according to preferred embodiments of the present invention, and the insulator network 140 of the present invention may be implemented in various forms.

6 is a diagram schematically illustrating assembling steps of the components of the ultrasonic generator 100 according to an embodiment of the present invention.

The oscillator holder 130 and the diaphragm 120 should be firmly bonded to each other. For such strong bonding, in the embodiment of the present invention, as shown in FIGS. 6 (A) and (B), a convex portion is formed on a portion of the oscillator holder 130 located on the diaphragm 120 side. In the formed state, the oscillator holder 130 is brought into contact with the diaphragm 120 side and spot welding is performed so that the diaphragm 120 and the oscillator holder 130 are coupled.

In FIG. 6A , a concave portion is formed on an upper surface (based on FIG. 6 ) of the holder bottom 131 of the oscillator holder 130 , and a convex portion is formed on a lower surface in contact with the diaphragm 120 . In this state, the oscillator holder 130 is attached to the diaphragm 120 without deforming the shape of the oscillator holder 130 by contacting the convex portion with the diaphragm 120 and performing spot welding on the concave portion. can be firmly coupled. This may affect the coupling between the oscillator 110 and the oscillator holder 130 and the insulation state when there is a change in the dimensions of the oscillator holder 130. Considering this, the oscillator 110 and the diaphragm (120) is to be combined by a special process as in (A), (B) of FIG.

Thereafter, as shown in (C) of FIG. 6, an insulator network 140 is disposed on the upper surface (based on FIG. 6) of the holder bottom 131 of the oscillator holder 130, and thereafter, in FIG. 6(D) ), the oscillator 110 is disposed on the upper surface of the insulator network 140 .

Thereafter, the adhesive layer 145 is formed with a gap between the oscillator 110 and the oscillator holder 130 in a state in which the insulator network 140 is disposed between the oscillator 110 and the oscillator holder 130 . It is formed by injecting an adhesive solution into a furnace and curing the adhesive solution.

By forming the adhesive layer 145 in this way, the composite structure layer of the adhesive layer 145 and the insulator network 140 disposed between the oscillator holder 130 and the oscillator 110 is formed more firmly and stably, Insulation between the oscillator 110 and the oscillator holder 130 can be made more reliable.

Preferably, the upper end of the insulator network 140 is in contact with the lower surface of the oscillator 110, and the lower end of the insulator network 140 is in contact with the upper surface of the oscillator holder 130, More stably, the composite structure of the adhesive layer 145 and the insulator network 140 may indirectly and firmly fix the oscillator 110 and the oscillator holder 130 .

7 is a diagram schematically illustrating an oscillator holder 130 according to an embodiment of the present invention.

The oscillator holder 130, the holder bottom 131; a first holder side wall 132 extending downward from the edge of the holder bottom 131; and a second holder sidewall 133 formed at a second joint inclination with the first holder sidewall 132 at the first holder sidewall 132 .

Preferably, the minimum inner diameter of the second holder side wall 133 is 0.03 mm to 5 mm larger than the maximum outer diameter of the upper surface of the oscillator 110, and the minimum inner diameter of the second holder side wall 133 and the oscillator A portion of the adhesive layer 145 is disposed in a space between the maximum outer diameter of the upper surface of 110 .

According to some embodiments of the present invention, it is possible to exhibit the effect of reliably preventing the current flowing into the ultrasonic generator from flowing into the washing tank of the ultrasonic cleaner.

According to some embodiments of the present invention, the vibration energy generated by the ultrasonic generator is transmitted to the inside of the washing tub of the ultrasonic cleaner while minimizing the loss, and the effect of preventing the current from flowing in the washing tub at all even when the ultrasonic washing machine is operated with high output can perform

According to some embodiments of the present invention, it is easy to repair and detach the ultrasonic generator, and the ultrasonic generator is attached to the ultrasonic cleaner with strong and high durability, thereby providing an ultrasonic cleaner capable of stably performing ultrasonic cleaning. can

According to some embodiments of the present invention, current leakage from the ultrasonic generator does not occur even after long-term use, and it is possible to exhibit the effect that the ultrasonic generators are firmly fixed to the wall of the washing tank of the ultrasonic cleaner.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible by those skilled in the art from the above description. For example, the described techniques are performed in a different order than the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result. Therefore, other implementations, other embodiments, and equivalents to the utility model claims also fall within the scope of the utility model claims described below.

10: ultrasonic cleaner 20: washing space
100: ultrasonic generator 110: oscillator
120: diaphragm 130: oscillator holder
145: adhesive layer 140: first bolt
150: airtight ring 160: cap

Claims (10)

As an ultrasonic generator for ultrasonic cleaner,
an oscillator electrically connected to an external power supply source to generate vibration according to an external power supply;
an oscillator holder disposed above the oscillator;
an insulator network disposed in a space formed between an upper side of the oscillator and a lower side of the oscillator holder, the insulating network being formed of an insulating material and including a plurality of empty spaces therein;
an adhesive layer disposed in a space between the oscillator and the oscillator holder, a part of which is embedded in the empty space of the insulator network; and
and a diaphragm coupled to the upper side of the oscillator holder;
A part of the oscillator is in contact with the adhesive layer and a part of the insulator network, and a part of the oscillator holder is in contact with the adhesive layer and a part of the insulator network, so that the oscillator is coupled to each other while the oscillator holder is insulated there is,
The oscillator includes a vibration transfer unit that transmits vibration generated in the vibrator,
The vibration transmitting unit is disposed on the upper side of the vibrator, the first vibration transmitting unit; and a second vibration transmission unit disposed above the first vibration transmission unit,
The surface of the first vibration transmission unit and the surface of the second vibration transmission unit form a first junction slope of a certain size at a portion in contact with each other, and the oscillator holder is formed with a second junction slope corresponding to the first junction slope there is,
The oscillator holder,
holder bottom;
a first holder side wall extending downward from the edge of the holder bottom; and
and a second holder sidewall forming a second joining inclination with the first holder sidewall at the first holder sidewall;
The minimum inner diameter of the side wall of the second holder is greater than or equal to 0.03 mm to 5 mm than the maximum outer diameter of the upper surface of the oscillator,
A part of the adhesive layer is disposed in a space between the minimum inner diameter of the second holder side wall and the maximum outer diameter of the upper surface of the oscillator,
A concave portion is formed on one surface of the holder bottom portion and a convex portion is formed on the other surface in contact with the diaphragm. After the holder bottom of the oscillator holder is coupled, an adhesive solution is injected into the gap between the oscillator and the oscillator holder in a state where the insulator network is disposed between the oscillator and the oscillator holder, and the adhesive solution By curing to form the adhesive layer, the oscillator holder, the oscillator, and the oscillator holder and the oscillator to form a composite structure layer of the adhesive layer and the insulator network disposed between the oscillator holder, an ultrasonic generator for an ultrasonic cleaner.
delete The method according to claim 1,
The oscillator is an ultrasonic cleaner for an ultrasonic cleaner, wherein a coupling pattern including at least one of a plurality of convex elements and a plurality of concave elements is formed on a portion of a side surface in contact with the adhesive layer.
delete delete The method according to claim 1,
The adhesive layer may include a bottom adhesive layer disposed in a space between a lower surface of the oscillator holder and an upper surface of the oscillator; and
and a side adhesive layer formed extending downward from the edge of the bottom adhesive layer,
The side adhesive layer is disposed in a space between a portion of the inner circumferential surface of the oscillator holder and a portion of the outer circumferential surface of the oscillator, and interconnects a portion of the inner circumferential surface of the oscillator holder and a portion of the outer circumferential surface of the oscillator.
The method according to claim 1,
The insulator network is
a plurality of first insulated wires spaced apart from each other; and
An ultrasonic generator for an ultrasonic cleaner comprising a plurality of second insulated wires spaced apart from each other and joined at an angle with respect to the plurality of first insulated wires. delete delete An ultrasonic cleaner comprising an ultrasonic generator for an ultrasonic cleaner according to claim 1.

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