KR20240037582A - Power supply with improved enerzization performance - Google Patents

Abstract

An invention for a power supply device with improved conduction performance is disclosed. The disclosed power supply with improved conduction performance has an external terminal coupled to an installation hole formed in a junction block, a first coupling part mounted in the installation hole and protruding to the outside of the junction block, and a second coupling part protruding inward. A stud bolt to which an internal terminal is coupled to the stud bolt is provided at the center of the stud bolt, and an external terminal coupled to the first coupling part is used to improve the electric current carrying performance of the current transmitted to the internal terminal coupled to the second coupling part. It is characterized in that it includes an improvement unit.

Description

Power supply with improved conduction performance {POWER SUPPLY WITH IMPROVED ENERZIZATION PERFORMANCE}

The present invention relates to a power supply device with improved conduction performance, and more specifically, to improving the conduction performance at the contact area between the external terminal coupled to one side of the stud bolt installed in the junction block and the internal terminal coupled to the other side of the stud bolt. It relates to a power supply with improved current conduction performance that can improve current flow and prevent overheating while increasing current conduction efficiency by providing a power supply unit.

In general, the electric devices of a car, hybrid car, or electric vehicle can be compared to the nervous system, and only when the electric device operates normally can the car perform properly.

All of these car's electric devices are connected to the electronic control unit (ECU) inside the car's engine room by wires. At this time, a junction block is used as an intermediary to connect these wires and the ECU. , also called a junction box) is used.

In this way, the junction block includes a block body that forms a basic skeleton and various components are mounted, an upper cover installed on the top of the block body, and a fastening member that couples the block body and the upper cover to each other.

In order to receive power from the battery, the junction block has an external high-current terminal (hereinafter referred to as the external terminal) connected from the battery side, which is inserted into the stud bolt of the junction block and fastened with a nut member to connect the internal high-current terminal (hereinafter referred to as the internal terminal). It is configured to supply power to each unit such as motor, lamp, and module.

However, the existing stud bolts have a problem in that when used for a long time near the contact point connecting the external terminal and the internal terminal, high heat is generated and power supply efficiency is reduced, thereby reducing overall vehicle performance.

Therefore, there is a need to improve this.

Related background technology includes Korean Patent Publication No. 10-0700053 (2007.03.20, title of invention: Structure of modular junction box for vehicles).

The present invention was created in response to the above-mentioned need, and by providing a current conduction performance improvement part at the contact area between the external terminal coupled to one side of the stud bolt installed in the junction block and the internal terminal coupled to the other side of the stud bolt, The purpose is to provide a power supply device with improved current conduction performance that can improve current conduction efficiency while preventing overheating by improving flow.

In order to achieve the above object, a power supply device with improved current conduction performance according to the present invention includes an installation hole formed in a junction block; A stud bolt is mounted in the installation hole and has an external terminal coupled to a first coupling part protruding outward of the junction block and an internal terminal coupled to a second coupling part protruding inward; And a current conduction performance improvement unit provided at the center of the stud bolt and improving the conduction performance of the current transmitted to the internal terminal coupled to the second coupling portion through the external terminal coupled to the first coupling portion. It is characterized by including.

The current carrying performance improvement unit includes: a mounting unit provided at the center of the stud bolt; and a clip member provided on the upper and lower sides of the mounting portion and made of a material different from the stud bolt to contact the external terminal and the internal terminal to improve current conduction performance.

The mounting part is formed in the form of a square flange, and the clip member is made of pure copper material.

The clip member includes: an upper energizing portion disposed on the upper side of the mounting portion and having a first mounting hole elastically installed around the first coupling portion through a first entry portion to contact the external terminal; a lower energizing part disposed on the lower side of the mounting part and having a second mounting hole elastically installed around the second coupling part through the second entry part to contact the internal terminal; And a current-conducting connection part that connects the upper-side current-conducting part and the lower-side current-conducting part to each other.

The clip member is characterized in that it is fastened to the first and second coupling parts by a binding part.

The binding portion includes an upper engaging portion provided at a connection portion between the first entry portion of the upper energizing portion and the first mounting hole and hooked and mounted on the circumferential surface of the first coupling portion; and a lower engaging portion provided at a connection portion between the second entry portion of the lower energizing portion and the second mounting hole and hooked and mounted on the peripheral surface of the second coupling portion.

The coupling portion includes an upper guide surface portion provided plainly around the first coupling portion to guide entry into the upper locking portion; and a lower guide surface portion provided plainly around the second coupling portion to guide entry into the lower locking portion.

The stud bolt is characterized by being seated and installed on the junction block by a seating portion.

The power supply device with improved conduction performance according to the present invention is provided with a conduction performance improvement unit at the contact area between the external terminal coupled to one side of the stud bolt installed in the junction block and the internal terminal coupled to the other side of the stud bolt, thereby improving the current. By improving flow, you can prevent overheating and increase energization efficiency.

Figure 1 is an exploded perspective view of a power supply device with improved current conduction performance according to an embodiment of the present invention.
Figure 2 is an assembled perspective view of a power supply with improved conduction performance according to an embodiment of the present invention.
Figure 3 is an exploded perspective view of the bottom of a power supply device with improved current conduction performance according to an embodiment of the present invention.
Figure 4 is a perspective view of the main parts of the power supply with improved conduction performance according to an embodiment of the present invention.
Figure 5 is a perspective view of the main part showing the current carrying performance improvement unit and stud bolts in the power supply device with improved current carrying performance according to an embodiment of the present invention.
Figure 6 is a cross-sectional view in a unidirectional assembled state of a power supply device with improved conduction performance according to an embodiment of the present invention, showing the seating portion.
Figure 7 is a cross-sectional view of the power supply with improved conduction performance according to an embodiment of the present invention in an assembled state in the other direction, showing the binding portion.

Hereinafter, a power supply device with improved current conduction performance according to an embodiment of the present invention will be described with reference to the attached drawings.

In this process, the thickness of lines or sizes of components shown in the drawing may be exaggerated for clarity and convenience of explanation. 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, definitions of these terms should be made based on the content throughout this specification.

Figure 1 is an exploded perspective view of a power supply device with improved current carrying performance according to an embodiment of the present invention, Figure 2 is an assembled perspective view of a power supply device with improved current carrying performance according to an embodiment of the present invention, and Figure 3 is the present invention. Figure 4 is an exploded perspective view of the bottom of a power supply device with improved current carrying performance according to an embodiment of the present invention, Figure 4 is an assembled perspective view of the main parts of a power supply device with improved current carrying performance according to an embodiment of the present invention, and Figure 5 is a perspective view of the main parts of the power supply device with improved current carrying performance according to an embodiment of the present invention. In a power supply device with improved current carrying performance according to an embodiment, a perspective view of the main part showing the current carrying performance improving part and stud bolts, and Figure 6 is a cross-sectional view of the power supply device with improved current carrying performance according to an embodiment of the present invention in a one-way assembled state. , which shows the seating portion, and Figure 7 is a cross-sectional view of the power supply with improved conduction performance according to an embodiment of the present invention in an assembled state in the other direction, showing the binding portion.

Referring to Figures 1 to 7, the power supply device with improved current carrying performance according to an embodiment of the present invention includes an installation hole 100, a stud bolt 200, and a current carrying performance improvement unit 300.

The power supply device with improved current conduction performance according to an embodiment of the present invention is provided in the junction block 10 and connects the junction block (10) from an external terminal such as a battery to an external terminal 20 (external high current terminal) through a stud bolt 200. 10) is configured to transmit current to the internal terminal (30, internal high current terminal) provided inside the device to disassemble it into motors, lamps, modules, etc.

The installation hole 100 is a hole formed in the junction block 10, into which the stud bolt 200 is inserted and installed.

The stud bolt 200 is mounted in the installation hole 100, and the external terminal 20 is coupled to the first coupling part 210 protruding to the outside of the junction block 10, and the second coupling part (200) protrudes inward. It is a configuration in which the internal terminal 30 is coupled to 220).

The stud bolt 200 has a thread formed in at least a portion of the first coupling portion 210 and the first nut 40 is fastened thereto, so that the external terminal 20 can be coupled, and the second coupling portion 220 A thread is formed in at least a portion of the second nut 50, thereby allowing the internal terminal 30 to be coupled.

The stud bolt 200 is made of SCM435 steel and can be configured not to be easily damaged.

The current performance improvement unit 300 is provided at the center of the stud bolt 200, and has an internal terminal 30 coupled to the second coupling part 220 through an external terminal 20 coupled to the first coupling part 210. ) is a configuration that improves the conduction performance of the current delivered to the

The current conduction performance improvement unit 300 can improve the current conduction performance by applying a different material from the stud bolt 200 to prevent temperature rise and improve overheating.

The current conduction performance improvement unit 300 is provided on a mounting portion 310 provided at the center of the stud bolt 200, the upper and lower sides of the mounting portion 310, and an external terminal 20 and an internal terminal 30. It includes a clip member 320 formed of a material different from the stud bolt 200 to improve current conduction performance by contacting the stud bolt 200.

The mounting portion 310 may be formed in the form of a square flange.

The clip member 320 is made of pure copper material and can increase conductivity, thereby improving current conduction performance. Of course, the clip member 320 is not limited to pure copper materials, and materials with high conductivity such as gold and silver can be selected and applied.

The clip member 320 is disposed on the upper side of the mounting part 310 and has a first mounting hole ( 334) is disposed on the lower side of the upper energizing part 320 and the mounting part 320, which are elastically installed, and is connected to the second coupling part 220 through the second entry part 342 so as to contact the internal terminal 30. It may include a lower energizing part 340 on the periphery of which the second mounting hole 334 is elastically installed, and an energizing connection part 350 connecting the upper energizing part 330 and the lower energizing part 340.

The first entry portion 332 and the second entry portion 342 are arranged side by side at a set interval, and the first mounting hole 334 and second mounting hole 344 connected thereto are connected to the first and second connection holes 334 and 342. It is formed as a circular hole to completely surround the parts 210 and 220.

The clip member 320 is provided side by side with the upper energizing part 330 and the lower energizing part 340 having a set interval, and one edge of the upper energizing part 330 and one edge of the lower energizing part 340. By connecting them at right angles to each other, they are connected in a U-shape.

The clip member 320 may be coupled to the first and second coupling portions 210 and 220 by the coupling portion 400.

The binding portion 400 is provided at the connection portion between the first entry portion 332 of the upper energizing portion 330 and the first mounting hole 334 and is mounted on the peripheral surface of the first coupling portion 210. The lower side is provided at the connection between the catching portion 410, the second entry portion 342 of the lower energizing portion 340, and the second mounting hole 344, and is hooked and mounted on the circumferential surface of the second coupling portion 220. It may include a catching portion 420.

At this time, the upper locking portion 410 may be configured to be caught on the threaded portion of the first coupling portion 210. Additionally, the lower locking portion 420 may be configured to be caught on the threaded portion of the second coupling portion 220.

The binding portion 400 is provided flatly around the first coupling portion 210 to guide entry into the upper locking portion 410, and an upper guide surface portion 430, and around the second coupling portion 220. It may include a lower guide surface portion 440 that is provided plainly to guide entry into the lower locking portion 420.

The upper and lower locking parts 410 and 420 have round protrusions so as to be caught while roundly surrounding the upper and lower guide surface parts 430 and 440 provided around the first and second coupling parts 210 and 220. It can be formed into a curved shape.

The state in which the clip member 320 is coupled to the mounting portion 310 of the stud bolt 200 is examined.

When the clip member 320 is held and inserted into the mounting part 310 of the stud bolt 200, the first entry part 332 of the upper energizing part 330 and the second entering part 342 of the lower energizing part 340 It slowly enters along the upper guide surface portion 430 and the lower guide surface portion 440 provided on the stud bolt 200 and spreads to both sides.

At this time, as it reaches the upper and lower locking parts 410 and 420 of the clip member 320, the clip member 320 opens further, and the moment it reaches the first and second mounting holes 334 and 344, , As the clip member 320, which was opened while restoring the elastic force, retracts, the upper and lower locking parts 410 and 420 of the clip member 320 are connected to the upper and lower guide surface parts 430 and 440 of the stud bolt 200. The clip member 320 may be coupled to the stud bolt 200 in a state in which separation is prevented while being hung to surround a portion of the .

In this way, the clip member 320 is made of pure copper material, unlike the steel material of the stud bolt 200, and improves the current flow between the external terminal 20 and the internal terminal 30 to improve conduction performance and prevent overheating. It can be prevented.

The stud bolt 200 can be installed on the junction block 10 by the seating portion 500.

The seating portion 500 includes a seating groove 510 recessed on the circumferential surface of the installation hole 100, and a seating protrusion 520 protruding from the peripheral surface of the mounting portion 310 so as to be caught in the seating groove 510. ) may include.

A plurality of seating grooves 510 and seating protrusions 520 may be formed for stability.

When installing the stud bolt 200 in the installation hole 100, the seating protrusion 520 is seated in the seating groove 510 of the junction block 10, thereby forming the first coupling portion 210 of the stud bolt 100. The second coupling portion 220 can be positioned to protrude externally and internally, respectively.

Therefore, the power supply device with improved conduction performance according to an embodiment of the present invention improves conduction performance at the contact area between the external terminal coupled to one side of the stud bolt installed in the junction block and the internal terminal coupled to the other side of the stud bolt. By providing a section, the flow of current can be improved to prevent overheating and increase current conduction efficiency.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will recognize that various modifications and other equivalent embodiments are possible therefrom. You will understand.

Therefore, the true technical protection scope of the present invention should be determined by the scope of the patent claims below.

10: Wiring block 20: External terminal
30: Internal terminal 40: First nut
50: 2nd nut 100: Installation hole
200: stud bolt 210: first coupling part
220: second coupling part 300: current performance improvement part
310: Mounting portion 320: Clip member
330: upper energizing part 332: first entry part
334: first mounting hole 340: lower energizing part
342: first entrance 344: second mounting hole
350: electricity connection part 400: binding part
410: upper locking part 420: lower locking part
430: Upper guide surface portion 440: Lower guide surface portion
500: Seating part 510: Seating groove
520: Seating protrusion

Claims (8)

Installation hole formed in the junction block;
A stud bolt is mounted in the installation hole and has an external terminal coupled to a first coupling part protruding outward of the junction block and an internal terminal coupled to a second coupling part protruding inward; and
A current conduction performance improvement unit provided at the center of the stud bolt and improving the conduction performance of the current transmitted to the internal terminal coupled to the second coupling portion through the external terminal coupled to the first coupling portion;
A power supply device with improved conduction performance, characterized in that it includes.
According to clause 1,
The current performance improvement unit,
A mounting portion provided at the center of the stud bolt; and
A clip member provided on the upper and lower sides of the mounting portion and made of a material different from the stud bolt to contact the external terminal and the internal terminal to improve current conduction performance.
A power supply device with improved conduction performance, characterized in that it includes.
According to clause 2,
The mounting portion is formed in the form of a square flange,
A power supply device with improved current conduction performance, characterized in that the clip member is made of pure copper material.
According to clause 2,
The clip member is,
an upper energizing part disposed on the upper side of the mounting part and having a first mounting hole elastically installed around the first coupling part through a first entry part to contact the external terminal;
a lower energizing part disposed on the lower side of the mounting part and having a second mounting hole elastically installed around the second coupling part through the second entry part to contact the internal terminal; and
A current-conducting connection unit connecting the upper current-conducting part and the lower-side current-conducting part to each other;
A power supply device with improved conduction performance, characterized in that it includes.
According to clause 4,
The clip member is a power supply device with improved current conduction performance, characterized in that the clip member is coupled to the first and second coupling portions by a binding portion.
According to clause 5,
The binding part,
An upper locking portion provided at a connection portion between the first entry portion of the upper energizing portion and the first mounting hole and hooked and mounted on the circumferential surface of the first coupling portion; and
A lower engaging portion provided at a connection portion between the second entry portion of the lower energizing portion and the second mounting hole and hooked and mounted on the circumferential surface of the second coupling portion;
A power supply device with improved conduction performance, characterized in that it includes.
According to clause 6,
The binding part,
An upper guide surface portion provided plainly around the first coupling portion to guide entry into the upper locking portion; and
A lower guide surface portion provided plainly around the second coupling portion to guide entry into the lower locking portion;
A power supply device with improved conduction performance, characterized in that it includes.
According to clause 1,
The stud bolt is a power supply device with improved current conduction performance, characterized in that the stud bolt is installed and seated on the junction block by a seating portion.

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