KR20230134218A - Bobbin and transformer with the same - Google Patents

Abstract

A bobbin and a transformer device including the same are disclosed. The bobbin according to the disclosed embodiment includes a coil winding portion on which a first coil is wound and a core insertion hole provided on the inside, a first connection pin support portion provided on one side of the coil winding portion, and a second connection pin support portion provided on the other side of the coil winding portion. A first body portion including two connection pin supports, and a second body portion coupled to the first body portion in a vertical direction, the second body portion having a receiving hole in which the second coil is wound and the coil winding portion is inserted and accommodated, The receiving hole is provided larger than the coil winding part so that a space between the first body and the second body is formed in the receiving hole.

Description

Bobbin and transformer device comprising the same {BOBBIN AND TRANSFORMER WITH THE SAME}

Embodiments of the present invention relate to bobbins and transformers.

A transformer is a device that converts electrical voltage into the voltage required by the relevant electrical product. Recently, as electronic devices including displays are becoming smaller and thinner, transformer devices mounted on such electronic devices are also becoming smaller and thinner.

Korean Patent Publication No. 10-2008-0031481 (2008.04.08)

Embodiments of the present invention are intended to provide a bobbin that can be miniaturized and a transformer device including the same.

An embodiment of the present invention is intended to provide a bobbin that can secure an insulation distance and a transformer device including the same.

The bobbin according to the disclosed embodiment includes a coil winding portion on which a first coil is wound and a core insertion hole provided on the inside, a first connection pin support portion provided on one side of the coil winding portion, and a first connection pin support portion provided on the other side of the coil winding portion. a first body portion including a second connection pin support portion; and a second body part coupled to the first body part in a vertical direction, having a receiving hole in which a second coil is wound and the coil winding part is inserted and accommodated, and the receiving hole is larger than the coil winding part. It is provided large enough to form a space between the first body and the second body in the receiving hole.

The second body part may further include one or more spaced space protrusions protruding toward the receiving hole from the inner surface of the winding body part where the second coil is wound on the outside.

The spacing space protrusion may be provided such that a length protruding toward the receiving hole corresponds to a spacing distance between the first body portion and the second body portion.

The bobbin includes one or more coupling protrusions protruding upward from the upper surface of the second body portion; And it may further include a coupling hole provided in at least one of the first connection pin support part and the second connection pin support part and into which the coupling protrusion is inserted and coupled.

The bobbin includes fine seating protrusions protruding outward from both sides of the upper end of the coupling protrusion; And it may further include a fine seating groove provided on the edge of the coupling hole so that the fine seating protrusion is seated when the first body portion and the second body portion are vertically coupled.

The second body part is made of a material that is softer than the first body part, and the coupling protrusion and the coupling hole can be coupled to each other through a fitting coupling.

The coupling hole is provided on the first connection pin support part, and the first coil wound on the coil winding part is exposed to the outside through the coupling hole and is connected to the first connection pin member formed on the first connection pin support part. You can.

The coupling hole may be provided along the longitudinal direction of the first connection pin support portion and may be longer than the length of the coupling protrusion, so that a space exposed to the outside is formed even when the coupling protrusion is coupled.

The second body portion may be provided so that a width of one side corresponding to the first connection pin support portion on the upper surface of the second body portion is longer than a width of the other side corresponding to the second connection pin support portion.

The bobbin may further include a spacing block that protrudes downward from one end of the upper surface of the second body part to secure an insulating distance between the second coil and the first coil connected to the first connection pin support.

The spacing block may be disposed between the first connection pin member to which the first coil is connected in the first connection pin support portion and the second coil, and may be provided to include one or more bent sections.

The second body portion is provided with a width of one side corresponding to the first connection pin support portion on the upper surface of the second body portion longer than a width of the other side corresponding to the second connection pin support portion, and the bobbin is provided with the second connection pin support portion. It may further include a spacing block that protrudes downward from one end of the upper surface of the body part to secure an insulating distance between the second coil and the first coil connected to the first connection pin support part.

The bobbin includes a first substrate seating portion that protrudes downward from both sides of the first connection pin support portion and is seated on a substrate; And it may further include a second substrate seating portion that protrudes downward from both sides of the second connection pin support portion and is seated on the substrate.

The bobbin includes: a first insulating member provided to cover the second coil at one side of the first body portion and the second body portion; And it may further include a second insulating member provided to cover the second coil on the other side of the first body portion and the second body portion.

The first insulating member and the second insulating member may be provided on upper and lower sides of the first body and the second body, respectively, to cover a boundary between the first and second body parts.

When the coil winding part is inserted into the receiving hole and received, the lower surfaces of the first connection pin support part and the second connecting pin support part may be respectively seated on the upper surface of the second body part.

A transformer device according to an embodiment disclosed includes a coil winding part on which a first coil is wound and a core insertion hole provided on the inside, a first connection pin support part provided on one side of the coil winding part, and a first connection pin support part on the other side of the coil winding part. A first body portion including a second connection pin support portion provided; a second body part coupled to the first body part in a vertical direction, having a second coil wound therein and a receiving hole into which the coil winding part is inserted and received; And a first core member seated on the upper side of the first body portion and the second body portion and a second core member seated on a lower side of the first body portion and the second body portion, the first core member and At least one of the second core members includes a core member partially inserted into the core insertion hole, and the receiving hole is provided larger than the coil winding portion, so that the first body portion and the second body portion are formed in the receiving hole. It is provided so that a space between them is formed.

According to the disclosed embodiment, the heat generated from the first coil and the second coil is formed by forming a space between the first body and the second body while the first body and the second body are vertically coupled to each other. By allowing the heat to be emitted through this space, the heat dissipation effect of the transformer can be increased.

In addition, by forming a separation space protrusion in the separation space between the first body and the second body, the separation space between the first body and the second body is maintained and the fixing force between the first body and the second body is maintained. It is possible to prevent shaking by providing .

In addition, the width of one side of the second base portion is provided to be longer than the width of the other side of the second base portion, and a spacing block is provided at one end of the second base portion, so that the second coil wound on the second body portion and the first connection pin are connected to each other. It is possible to secure an insulating distance between the first coils connected to the support unit.

In addition, the coil winding part of the first body part is inserted into and received in the receiving hole of the second body part, and the height of the coil winding part and the second body part is the same, thereby making it possible to minimize the thickness of the transformer device.

In addition, first coupling protrusions and second coupling protrusions are provided on one side and the other upper surface of the second base portion, respectively, and the first coupling protrusions and second coupling protrusions are coupled to the first connecting pin support portion and the second connecting pin support portion, respectively. By providing the first coupling hole and the second coupling hole, the coupling between the first body part and the second body part can be made more stable and robust.

1 is an exploded perspective view of a transformer device according to an embodiment of the present invention.
Figure 2 is a perspective view of a bobbin combined in a transformer according to an embodiment of the present invention.
3 is a bottom perspective view of a bobbin in a transformer device according to an embodiment of the present invention.
Figure 4 is a view showing a state before the first body portion and the second body portion are combined in one embodiment of the present invention.
5 is an exploded side view of a bobbin in a transformer device according to an embodiment of the present invention.
Figure 6 is a cross-sectional view showing a bobbin in a transformer device according to an embodiment of the present invention.
Figure 7 is a view showing a state before an insulating member is attached in a transformer device according to an embodiment of the present invention.
Figure 8 is a view showing a state in which an insulating member is attached in a transformer device according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The detailed description below is provided to provide a comprehensive understanding of the methods, devices and/or systems described herein. However, this is only an example and the present invention is not limited thereto.

In describing the embodiments of the present invention, if it is determined that a detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification. The terminology used in the detailed description is merely for describing embodiments of the present invention and should in no way be limiting. Unless explicitly stated otherwise, singular forms include plural meanings. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, operations, elements, parts or combinations thereof, and one or more than those described. It should not be construed to exclude the existence or possibility of any other characteristic, number, step, operation, element, or part or combination thereof.

Meanwhile, directional terms such as upper side, lower side, one side, other side, etc. are used in relation to the orientation of the disclosed drawings. Since the components of embodiments of the present invention can be positioned in various orientations, the term directional is used for illustrative purposes and is not limiting.

Additionally, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The above terms may be used for the purpose of distinguishing one component from another component. For example, a first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component without departing from the scope of the present invention.

Figure 1 is an exploded perspective view of a transformer according to an embodiment of the present invention, Figure 2 is a perspective view of a bobbin combined in a transformer according to an embodiment of the present invention, and Figure 3 is a transformer according to an embodiment of the present invention. Figure 4 is a bottom perspective view of the bobbin in the device, Figure 4 is a diagram showing the state before the first body part and the second body part are combined in an embodiment of the present invention, and Figure 5 is a transformer device according to an embodiment of the present invention. This is an exploded side view of the bobbin, and Figure 6 is a cross-sectional view showing the bobbin in the transformer device according to an embodiment of the present invention.

Referring to FIGS. 1 to 6 , the transformer device 100 may include a first body portion 102, a second body portion 104, and a core member 106. The core member 106 may include a first core member 106-1 and a second core member 106-2.

Additionally, the bobbin 101 may include a first body 102 and a second body 104. That is, the first body portion 102 and the second body portion 104 are parts where a coil is wound and may constitute a bobbin of a transformer device.

A first coil 50 is wound around the first body portion 102. The first body portion 102 may include a coil winding portion 111, a first connection pin support portion 113, and a second connection pin support portion 115.

The coil winding unit 111 may be configured to wind the first coil 50 around the first body unit 102. The coil winding part 111 may include a first base part 121, a first winding body part 123, and a first cover part 125.

The first base portion 121 is provided between the first connection pin support portion 113 and the second connection pin support portion 115 to connect the first connection pin support portion 113 and the second connection pin support portion 115. The first base portion 121 may be provided in a flat shape. The lower surface of the first base portion 121 may be provided lower than the lower surfaces of the first connection pin support portion 113 and the second connection pin support portion 115. Accordingly, the lower surface of the first connection pin support portion 113 and the second connecting pin support portion 115 is seated on the upper surface of the second body portion 104, and the upper surface of the first body portion 102 and the second body portion ( 104) can achieve the same height.

In addition, as the lower surface of the first base portion 121 is provided with a level difference from the lower surfaces of the first connection pin support portion 113 and the second connection pin support portion 115, the area where the first coil 50 is wound ( The lower surface area of the first base portion 121) can be identified with the naked eye. As a result, the first coil 50 can be easily wound in the coil winding unit 111 up to the lower surface area of the first base unit 121.

The first winding body portion 123 is provided to protrude downward from the lower surface of the first base portion 121. A first coil 50 is wound on the outer peripheral surface of the first winding body 123. In an exemplary embodiment, the first winding body portion 123 may be provided in the shape of a square tube or circular pillar protruding downward from the lower surface of the first base portion 121, but the shape is not limited thereto and the outer peripheral surface thereof is not limited thereto. The first coil 50 may be wound in various shapes.

A core insertion hole 129 may be provided inside the first winding body 123. A portion of at least one of the first core member 106-1 and the second core member 106-2 is inserted into the core insertion hole 129. The core insertion hole 129 may be provided in the height direction (i.e., vertical direction) of the first body portion 102. Here, the height direction may mean the Z-axis direction in FIG. 1. The core insertion hole 129 may be provided through the first base portion 121. The core insertion hole 129 may be provided along the longitudinal direction of the first body portion 102. Here, the longitudinal direction may mean the X-axis direction in FIG. 1.

The first cover portion 125 may be provided at the bottom of the first winding body portion 123 to the outside of the first winding body portion 123 . In an exemplary embodiment, the first cover part 125 may be provided parallel to the first base part 121. That is, the first cover portion 125 may be formed in a plate shape extending horizontally from the bottom of the first winding body portion 123 to the outside of the first winding body portion 123.

As the first cover portion 125 is provided outside the first winding body portion 123 at the bottom of the first winding body portion 123, the first coil wound on the outer peripheral surface of the first winding body portion 123 (50) is restricted from moving downward by the first cover part 125, and can be wound between the lower surface of the first cover part 125 and the first base part 121.

The first connection pin support portion 113 is provided on one side of the first base portion 121. The first connection pin support portion 113 may be vertically connected to the first base portion 121. That is, the first connection pin support portion 113 may be provided to extend from one side of the first base portion 121 in the width direction of the first base portion 121. Here, the width direction may mean the Y-axis direction in FIG. 1.

One or more first connection pin members 131 to which the first coil 50 is connected may be provided at the outer end (end facing outward) of the first connection pin support portion 113. The first connection pin member 131 may be connected to a first connection pin support protrusion 113a provided to protrude from the upper surface of the first connection pin support portion 113.

The first connection pin member 131 may be bent downward. That is, the first connection pin member 131 may be provided by bending vertically downward while the end of the first connection pin member 131 is connected to the first connection pin support protrusion 113a. In this case, when a winding device (not shown) winds the coil of the transformer device 100, interference does not occur between neighboring transformer devices 100.

First substrate seating portions 133 may be provided at both ends of the first connection pin support portion 113 to protrude downward. An end of the first substrate seating portion 133 may be seated on a substrate (not shown). By changing the length of the first substrate mounting portion 133, the height of the transformer device 100 mounted on the substrate (not shown) can be adjusted.

Additionally, an edge partition 119 may be provided on the first body 102. The edge partition 119 may be provided to protrude upward along the edge of the first connection pin support portion 113.

The second connection pin support portion 115 is provided on the other side of the first base portion 121. That is, the second connection pin support portion 115 may be provided in a direction opposite to the first connection pin support portion 113. The second connection pin support portion 115 may be provided to protrude upward from the other side of the first base portion 121. The second connection pin support portion 115 may be provided at a height higher than the upper surface of the first base portion 121.

One or more second connection pin members 139 to which the second coil 60 is connected may be provided at an end of the second connection pin support portion 115. The second connection pin member 139 may be bent downward. That is, the second connection pin member 139 may be provided by bending vertically downward while the end of the second connection pin member 139 is connected to the second connection pin support portion 115. In this case, when a winding device (not shown) winds the coil of the transformer device 100, interference does not occur between neighboring transformer devices 100.

Second substrate seating portions 135 may be provided at both ends of the second connection pin support portion 115 to protrude downward. The end of the second substrate seating portion 135 may be seated on a substrate (not shown). By changing the length of the second substrate mounting portion 135, the height of the transformer device 100 mounted on the substrate (not shown) can be adjusted.

In the disclosed embodiment, the first substrate seating portion 133 and the second substrate seating portion 135 are formed at both ends of the first connecting pin support portion 113 and the second connecting pin support portion 115, respectively, thereby transforming the pressure. When the device 100 is seated on a substrate (not shown), the load received by the first connection pin member 131 and the second connection pin member 139 can be distributed.

Meanwhile, each corner of the first body 102 may be provided in a round shape with a certain curvature. The widths of the first base portion 121 and the first cover portion 125 of the first body portion 102 may be provided to be the same throughout the entire area. The width of the first base portion 121 and the first cover portion 125 may be provided to be the same as the height of the first body portion 102, but is not limited thereto.

A second coil 60 is wound around the second body portion 104. A receiving hole 149 may be provided inside the second body portion 104 into which the coil winding portion 111 of the first body portion 102 is inserted and accommodated. The receiving hole 149 may be provided to penetrate the second body 104 in the height direction of the second body 104. The receiving hole 149 may be provided along the longitudinal direction of the second body portion 104.

When the first body part 102 is lowered while the first body part 102 is located on the upper part of the second body part 104, the coil winding part 111 is inserted into the receiving hole 149 and is received. . That is, the first body 102 and the second body 104 are coupled in the vertical direction. In this case, the coil winding portion 111 is surrounded on all sides by the second body portion 104. As a result, the first coil 50 can be protected from the external environment by the second body portion 104.

Here, the size (or area) of the receiving hole 149 may be provided larger than the size of the coil winding unit 111. Accordingly, when the coil winding portion 111 is inserted into the receiving hole 149, a separation space S is created between the first body portion 102 and the second body portion 104. The separation space S may be provided consistently over the entire area between the first body 102 and the second body 104.

By forming a separation space (S) between the first body portion (102) and the second body portion (104), the heat generated from the first coil (50) and the second coil (60) passes through the separation space (S). Since it can be released through the heat dissipation effect of the transformer 100, it is possible to improve the heat dissipation effect.

The second body portion 104 may include a second base portion 141, a second winding body portion 143, a second cover portion 145, and an extension portion 147.

When the coil winding portion 111 is inserted into the receiving hole 149, the second base portion 141 may be seated on the lower surfaces of the first connecting pin support portion 113 and the second connecting pin support portion 115. The second base portion 141 may be provided at a height corresponding to the first base portion 121 on the outside of the first base portion 121 .

In an exemplary embodiment, the first base portion 121 is provided lower than the lower surfaces of the first connection pin support portion 113 and the second connection pin support portion 115 by a height corresponding to the thickness of the second base portion 141. It can be. In this case, when the second base portion 141 is seated on the lower surfaces of the first connection pin support portion 113 and the second connection pin support portion 115 from the outside of the first base portion 121, the second base portion 141 ) can be located at a height corresponding to the first base portion 121. That is, the top surface of the second base portion 141 may be located on the same plane as the top surface of the first base portion 121. And, the lower surface of the second base portion 141 may be located on the same plane as the lower surface of the first base portion 121.

The width W1 of one side of the second base portion 141 (the side corresponding to the first connection pin support portion 113) is the width W1 of the other side of the second base portion 141 (the side corresponding to the second connection pin support portion 115). side) can be provided longer than the width (W2). In this case, it is possible to primarily secure the insulation distance between the second coil 60 wound on the second body portion 104 and the first coil 50 connected to the first connecting pin support portion 113. The width W1 of one side of the second base portion 141 may refer to the length from one side of the receiving hole 149 to one end of the second base portion 141. The width W2 of the other side of the second base portion 141 may refer to the length from the other side of the receiving hole 149 to the other end of the second base portion 141.

On the upper surface of the second base portion 141, one or more coupling protrusions for coupling with the first body portion 102 may be provided to protrude upward. In an exemplary embodiment, a first coupling protrusion 151 and a second coupling protrusion 155 may be provided on one side and the other upper surface of the second base portion 141 to protrude upward, respectively.

In addition, the first body portion 102 may be provided with a first coupling hole 153 and a second coupling hole 157 into which the first coupling protrusion 151 and the second coupling protrusion 155 are respectively inserted and coupled. there is. In an exemplary embodiment, the first coupling hole 153 and the second coupling hole 157 may be provided in the first connection pin support part 113 and the second connection pin support part 115, respectively. The first coupling hole 153 and the second coupling hole 157 may be provided along the longitudinal direction of the first connection pin support part 113 and the second connection pin support part 115, respectively. The first coupling hole 153 and the second coupling hole 157 may be provided with a width corresponding to the width of the first coupling protrusion 151 and the second coupling protrusion 155, respectively.

Here, a first fine seating protrusion 151a and a second micro seating protrusion 155a may be provided on both upper sides of the first coupling protrusion 151 and the second coupling protrusion 155, respectively. The first micro seating protrusion 151a and the second micro seating protrusion 155a may be provided to slightly protrude outward from both upper sides of the first coupling protrusion 151 and the second coupling protrusion 155, respectively.

Additionally, a first fine seating groove 153a in which the first fine seating protrusion 151a is seated may be provided on the edge of the first coupling hole 153 of the first connection pin support portion 113. In addition, a second fine seating groove 157a in which the second fine seating protrusion 155a is seated may be provided on the edge of the second coupling hole 157 of the second connecting pin support portion 115. In this case, when the first body portion 102 and the second body portion 104 are pressed in the vertical direction, the first coupling protrusion 151 and the second coupling protrusion 155 are formed into the first coupling hole 153 and the second coupling protrusion, respectively. As they are inserted into the second coupling hole 157, the first micro seating protrusion 151a and the second micro seating protrusion 155a are seated and coupled to the first micro seating groove 153a and the second micro seating groove 157a, respectively. It will happen.

Here, by providing first coupling protrusions 151 and second coupling protrusions 155 on one side and the other upper surface of the second base portion 141, respectively, the first body portion 102 and the second body portion 104 The joint between the joints can be made more stable and strong.

The first body portion 102 and the second body portion 104 are each made of an insulating material, but may be made of different materials. The second body portion 104 may be made of a material that is softer than the first body portion 102. That is, the first body portion 102 may be made of a material that is more rigid than the second body portion 104. In this case, when the first body portion 102 and the second body portion 104 are pressed in the vertical direction, the first micro seating protrusion 151a and the second micro seating protrusion 155a are combined by the elasticity of the first body portion 102 and the second body portion 104 in the vertical direction. It can be easily seated in the first fine seating groove 153a and the second fine seating groove 157a while passing through the hole 153 and the second coupling hole 157, respectively. At this time, the first coupling protrusion 151 and the second coupling protrusion 155 and the first coupling hole 153 and the second coupling hole 157 may be coupled as if fitted.

Meanwhile, in the disclosed embodiment, both the first connection pin support portion 113 and the second connection pin support portion 115 are formed in the first body portion 102, and the first connection pin support portion 113 and the second connection pin support portion 115 are formed in the first body portion 102. A soldering process is performed when connecting the first coil 50 and the second coil 60 to the support portion 115. At this time, since the first body portion 102 is made of a material that is more rigid than the second body portion 104, it can have more robust characteristics against heat generated in the soldering process.

Meanwhile, when the first coupling hole 153 is formed in the first connection pin support part 113, the first coupling hole 153 is connected to the first coil 50 wound on the coil winding part 111. It may serve to directly connect to the pin member 131. That is, the first coil 50 wound on the coil winding unit 111 may exit to the outside through the first coupling hole 153 and be connected to the first connection pin member 131.

The length of the first coupling hole 153 may be longer than the length of the first coupling protrusion 151 (the widths of the first coupling hole 153 and the first coupling protrusion 151 correspond to each other). At this time, the first coupling protrusion 151 may be coupled to one end of the first coupling hole 153 (an end close to the first connection pin member 131). In this case, even though the first coupling protrusion 151 is coupled to the first coupling hole 153, a space exposed to the outside remains at the other end of the first coupling hole 153, and the winding in the coil winding unit 111 The first coil 50 can exit to the outside through the exposed space of the first coupling hole 153 and be connected to the first connection pin member 131.

Here, since a separation space (S) is formed between the first body portion 102 and the second body portion 104, the first coil 50 wound on the coil winding portion 111 is connected to the first coupling hole ( When pulled out through the exposed space of 153), the first coil 50 is easily removed while preventing the first coil 50 from being pinched and pressed between the first body 102 and the second body 104. It can be easily taken out.

Additionally, a spacing block 159 may be provided at one end of the second base portion 141. The spacing block 159 is for secondary securing the insulation distance between the second coil 60 wound on the second body portion 104 and the first coil 50 connected to the first connecting pin support portion 113. You can. The spacing block 159 may be provided to be disposed between the first connection pin member 131 and the second coil 60.

The spacing block 159 may be provided to protrude downward from one end of the second base portion 141. The spacing block 159 protrudes downward from one end of the second base portion 141 and may include one or more bent sections. For example, the spacing block 159 may include a first spacing block 159-1, a second spacing block 159-2, and a third spacing block 159-3.

The first spacing block 159-1 may be provided below one end of the second base portion 141. The second spacing block 159-2 may be provided outward from the end of the first spacing block 159-1. The third spacing block 159-3 may be provided below the end of the second spacing block 159-2.

In this way, the width W1 of one side of the second base portion 141 is provided to be longer than the width W2 of the other side of the second base portion 141, and a spaced block is provided at one end of the second base portion 141. By providing (159), it is possible to secure an insulating distance between the second coil 60 wound on the second body portion 104 and the first coil 50 connected to the first connection pin support portion 113. .

The second winding body portion 143 may be provided to protrude downward from the lower surface of the second base portion 141. A second coil 60 may be wound on the outer peripheral surface of the second winding body 143. In an exemplary embodiment, the second winding body portion 143 may be provided in the shape of a square tube or circular pillar protruding downward from the lower surface of the second base portion 141, but the shape is not limited thereto and the outer peripheral surface thereof is not limited thereto. The second coil 60 can be wound in various shapes. A receiving hole 149 into which the coil winding portion 111 is inserted and received may be provided inside the second winding body portion 143.

Additionally, one or more spaced space protrusions 161 may be provided on the inner surface of the second winding body 143. The separation space protrusion 161 may be provided to protrude from the inner surface of the second winding body 143 toward the receiving hole 149. The separation space protrusion 161 may serve to maintain the separation space S between the first body 102 and the second body 104.

The length of the spacing space protrusion 161 protruding toward the receiving hole 149 (i.e., the thickness of the spacing space protrusion 161) corresponds to the spacing distance between the first body 102 and the second body 104. It can be arranged. In this case, the separation space protrusion 161 secures additional coupling force when coupling the first body 102 and the second body 104, and the first body 102 and the second body 104 It provides liver stabilization and prevents shaking. A plurality of spaced space protrusions 161 may be provided along the inner surface of the second winding body 143 to be spaced apart from each other.

The second cover portion 145 may be provided at the bottom of the second winding body portion 143 to the outside of the second winding body portion 143 . In an exemplary embodiment, the second cover part 145 may be provided parallel to the second base part 141. That is, the second cover portion 145 may be formed in a plate shape extending horizontally from the bottom of the second winding body portion 143 to the outside of the second winding body portion 143.

As the second cover portion 145 is provided outside the second winding body portion 143 at the bottom of the second winding body portion 143, the second coil is wound on the outer peripheral surface of the second winding body portion 143. (60) is restricted from moving downward by the second cover part 145, and can be wound between the lower surface of the second cover part 145 and the second base part 141.

When the first coil winding portion 111 is inserted into the receiving hole 149 and the first connecting pin support portion 113 and the second connecting pin support portion 115 are seated on the upper surface of the second body portion 104, The second cover part 145 may be provided to correspond to the first cover part 125 on both sides of the first cover part 125 in the width direction. That is, the upper surface of the second cover part 145 may be located on the same plane (located at the same height) as the upper surface of the first cover part 125. The lower surface of the second cover part 145 may be located on the same plane (located at the same height) as the lower surface of the first cover part 125.

The extension portion 147 may be provided to extend from both sides of the second cover portion 145. The extension portion 147 may extend downward from both sides of the second cover portion 145. The extension portion 147 may extend obliquely downward from both sides of the second cover portion 145 . Here, the extension part 147 has been described as extending from both sides of the second cover part 145, but the present invention is not limited thereto and the extension part 147 may extend from one side of the second cover part 145.

In this way, the coil winding portion 111 of the first body portion 102 is inserted into and received in the receiving hole 149 of the second body portion 104, and the coil winding portion 111 and the second body portion 104 ) is the same (that is, the upper and lower surfaces of the coil winding unit 111 are located on the same plane as the upper and lower surfaces of the second body unit 104, respectively), thereby minimizing the thickness of the transformer 100. You can do it.

The core member 106 is used as a magnetic core of the transformer device 100. The core member 106 may include a first core member 106-1 and a second core member 106-2. The first core member 106-1 is seated on the upper side of the first body 102 and the second body 104, and the second core member 106-2 is attached to the first body 102 and the second body 104. 2 It can be seated on the lower side of the body portion 104.

The first core member 106-1 may include a first core body 106-1a, a first core protrusion 106-1b, and a first side protrusion 106-1c. The first core body 106-1a may be provided in a flat shape. The first core body 106-1a may be seated on the upper side of the first body 102 and the second body 104.

The first core protrusion 106-1b may be provided to protrude downward from the lower surface of the first core body 106-1a. The first core protrusion 106-1b may be provided to correspond to the core insertion hole 129. The first core protrusion 106-1b may be inserted into the core insertion hole 129.

The first side protrusions 106-1c may protrude downward from both sides of the first core body 106-1a. When the first core body 106-1a is seated on the upper side of the first body 102 and the second body 104, the first side protrusion 106-1c is attached to the second body 104. It can be arranged to cover both sides.

The second core member 106-2 may include a second core body 106-2a, a second core protrusion 106-2b, and a second side protrusion 106-2c. The second core body 106-2a may be provided in a flat shape. The second core body 106-2a may be seated on the lower side of the first body 102 and the second body 104.

The second core protrusion 106-2b may be provided to protrude upward from the upper surface of the second core body 106-2a. The second core protrusion 106-2b may be provided to correspond to the core insertion hole 129. The second core protrusion 106-2b may be inserted into the core insertion hole 129.

The second side protrusions 106-2c may protrude upward from both sides of the second core body 106-2a. When the second core body 106-2a is seated on the lower side of the first body 102 and the second body 104, the second side protrusion 106-2c is attached to the second body 104. It can be arranged to cover both sides.

Here, it has been described that the first core member 106-1 and the second core member 106-2 are formed in an EE shape and a portion thereof is inserted into the core insertion hole 129, but the first core member 106-1 and the second core member 106-2 are not limited thereto. In addition to the core member 106-1 and the second core member 106-2, various types of core members such as EI type, EVD type, EED type, EP type, and EEH type may be used. Depending on the shape of the core member 106, at least a portion of the first core member 106-1 and the second core member 106-2 may be inserted into the core insertion hole 129.

Meanwhile, the transformer 100 has an insulation distance between the first coil 50 and the core member 106, an insulation distance between the second coil 60 and the core member 106, and an insulation distance between the first coil 50 and the second coil 50. It may further include an insulating member to secure an insulating distance between the coils 60. FIG. 7 is a view showing a state before an insulating member is attached in a transformer device according to an embodiment of the present invention, and FIG. 8 is a view showing a state in which an insulating member is attached in a transformer device according to an embodiment of the present invention. .

Referring to FIGS. 7 and 8 , the insulating member 110 may include a first insulating member 110-1 and a second insulating member 110-2. In an exemplary embodiment, the insulating member 110 may be attached to the bobbin 101 in a shape corresponding to the shape of the bobbin 101. For example, the insulating member 110 may be an insulating tape, but is not limited thereto.

The first insulating member 110-1 and the second insulating member 110-2 may be attached to both sides of the bobbin 101 in the longitudinal direction, respectively. The first insulating member 110-1 and the second insulating member 110-2 may be provided on both sides of the bobbin 101 to cover the second coil 60, respectively. The first insulating member 110-1 and the second insulating member 110-2 may be provided to surround the top, side, and bottom surfaces of both sides of the bobbin 101.

At this time, the first insulating member 110-1 and the second insulating member 110-2 are provided to cover the boundary between the first base portion 121 and the second base portion 141 on the upper side of the bobbin 101. It can be provided to cover the boundary between the first cover part 125 and the second cover part 145 on the lower side of the bobbin 101. The first insulating member 110-1 and the second insulating member 110-2 may be provided longer than the length of the core insertion hole 129.

With the first insulating member 110-1 and the second insulating member 110-2 attached to both sides of the bobbin 101, the first core member 106-1 and the second core member 106-2 ) can be installed while being inserted into each core insertion hole 129. At this time, the first core member 106-1 and the second core member 106-2 are located outside the first insulating member 110-1 and the second insulating member 110-2.

In this way, the first insulating member 110-1 and the second insulating member 110-2 are provided on both sides of the bobbin 101, so that the transformer 100 includes the first coil 50 and the core member ( 106), the insulation distance between the second coil 60 and the core member 106, and the insulation distance between the first coil 50 and the second coil 60 can be secured.

Although representative embodiments of the present invention have been described in detail above, those skilled in the art will understand that various modifications can be made to the above-described embodiments without departing from the scope of the present invention. . Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims described later but also by equivalents to the claims.

100: Transformer device
101: Bobbin
102: first body portion
104: second body portion
106: core member
106-1: first core member
106-1a: first core body
106-1b: first core protrusion
106-1c: first side protrusion
106-2: Second core member
106-2a: second core body
106-2b: second core protrusion
106-2c: second side protrusion
110: insulation member
110-1: First insulating member
110-2: Second insulating member
111: Coil winding section
113: first connection pin support portion
113a: First connection pin support projection
115: second connection pin support part
119: border bulkhead
121: first base portion
123: first winding body part
125: first cover part
129: Core insertion hole
131: first connection pin member
133: first substrate seating portion
135: Second substrate seating portion
139: Second connection pin member
141: second base part
143: second winding body part
145: second cover part
147: extension part
149: Receiving hall
151: first coupling protrusion
151a: first fine seating protrusion
153: first coupling hole
153a: first fine seating groove
155: second coupling protrusion
155a: second fine seating protrusion
157: second coupling hole
157a: second fine seating groove
159: separation block
159-1: first spacing block
159-2: Second spacing block
159-3: Third spacing block
161: Separated space protrusion

Claims (17)

A coil winding unit including a coil winding unit on which a first coil is wound and a core insertion hole provided on the inside, a first connection pin support unit provided on one side of the coil winding unit, and a second connection pin support unit provided on the other side of the coil winding unit. 1 body part; and
A second body portion coupled to the first body portion in a vertical direction, the second body portion having a second coil wound therein, and having a receiving hole into which the coil winding portion is inserted and accommodated,
The receiving hole is provided larger than the coil winding part so that a space between the first body part and the second body part is formed in the receiving hole.
In claim 1,
The second body part,
The bobbin further includes one or more spaced space protrusions protruding toward the receiving hole from the inner surface of the winding body on which the second coil is wound on the outside.
In claim 2,
The separation space protrusion is,
A bobbin provided such that a length protruding toward the receiving hole corresponds to a space distance between the first body portion and the second body portion.
In claim 1,
The bobbin is,
One or more coupling protrusions protruding upward from the upper surface of the second body portion; and
The bobbin is provided in at least one of the first connection pin support part and the second connection pin support part and further includes a coupling hole into which the coupling protrusion is inserted and coupled.
In claim 4,
The bobbin is,
Fine seating protrusions protruding outward from both sides of the top of the coupling protrusion; and
The bobbin further includes a fine seating groove provided on the edge of the coupling hole so that the fine seating protrusion is seated when the first body portion and the second body portion are vertically coupled.
In claim 4,
The second body part,
A bobbin made of a material that is softer than the first body portion and in which the coupling protrusion and the coupling hole are coupled by a fitting coupling.
In claim 4,
The coupling hole is provided in the first connection pin support portion,
A bobbin wherein the first coil wound on the coil winding unit is exposed to the outside through the coupling hole and connected to a first connection pin member formed on the first connection pin support unit.
In claim 7,
The coupling hole is,
A bobbin provided along the longitudinal direction of the first connection pin support portion and longer than the length of the coupling protrusion, so that a space exposed to the outside is formed even when the coupling protrusion is coupled.
In claim 1,
The second body part,
A bobbin wherein the width of one side corresponding to the first connecting pin support portion is provided on the upper surface of the second body portion to be longer than the width of the other side corresponding to the second connecting pin support portion.
In claim 1,
The bobbin is,
The bobbin further includes a spacing block that protrudes downward from one end of the upper surface of the second body portion and secures an insulating distance between the second coil and the first coil connected to the first connection pin support portion.
In claim 10,
The separation block is,
A bobbin is disposed between the first connection pin member to which the first coil is connected in the first connection pin support portion and the second coil, and is provided to include one or more bent sections.
In claim 1,
The second body portion is provided such that the width of one side corresponding to the first connection pin support portion is longer than the width of the other side corresponding to the second connection pin support portion on the upper surface of the second body portion,
The bobbin is,
The bobbin further includes a spacing block that protrudes downward from one end of the upper surface of the second body portion and secures an insulating distance between the second coil and the first coil connected to the first connection pin support portion.
In claim 1,
The bobbin is,
a first substrate seating portion protruding downward from both sides of the first connection pin support portion and seated on the substrate; and
The bobbin further includes a second substrate seating portion that protrudes downward from both sides of the second connection pin support portion and is seated on the substrate.
In claim 1,
The bobbin is,
a first insulating member provided on one side of the first body and the second body to cover the second coil; and
The bobbin further includes a second insulating member provided to cover the second coil on the other side of the first body portion and the second body portion.
In claim 14,
The first insulating member and the second insulating member are each,
A bobbin provided to cover the boundary between the first body and the second body at the upper and lower sides of the first body and the second body.
In claim 1,
When the coil winding part is inserted into the receiving hole and received, the lower surfaces of the first connection pin support part and the second connecting pin support part are each seated on the upper surface of the second body part.
A coil winding unit including a coil winding unit on which a first coil is wound and a core insertion hole provided on the inside, a first connection pin support unit provided on one side of the coil winding unit, and a second connection pin support unit provided on the other side of the coil winding unit. 1 body part;
a second body part coupled to the first body part in a vertical direction, having a second coil wound therein and a receiving hole into which the coil winding part is inserted and received; and
It includes a first core member seated on an upper side of the first body portion and the second body portion and a second core member seated on a lower side of the first body portion and the second body portion, and the first core member and the At least one of the second core members includes a core member partially inserted into the core insertion hole,
The receiving hole is provided to be larger than the coil winding part so that a space between the first body part and the second body part is formed in the receiving hole.