KR20100000309A - Assembled multi type switch board - Google Patents

Abstract

PURPOSE: A prefabricated power distributing device is provided to improve electric conductivity and reduce resistance by increasing joint force between terminals when coupling a terminal for a main circuit breaker, a terminal for a branch circuit breaker, and an additional terminal. CONSTITUTION: A case(100) protects the terminal for the main circuit breaker, and the terminal for the branch blocker and the power source dispersion line connected to the addition dragon terminal. Plural terminals(101) for a main circuit breaker are located on the upper side of the case and are connected to the main circuit breaker power source and the line. Plural terminals(102) for a branch blocker are positioned on the both sides of the case and are connected by the branch breaker power source and the line. Plural additional terminals(103) are positioned on the base side of the case and are connected to the other external load terminal. An auxiliary coupling bolt is inserted into the case to improve the contact surface of the coupling bolt.

Description

Assembled Multi Type Switch Board

The present invention relates to a prefabricated power distribution device, in particular, the coupling force between the terminals when the main circuit breaker terminal and branch circuit breaker terminal and the additional terminal constituting the prefabricated power distribution device combined with various terminals of the other prefabricated power distribution device. The present invention relates to a prefabricated power distribution apparatus characterized by increasing the electrical conductivity in the connection between the terminal and the terminal to reduce the resistance, reducing the loosening or heat generation, so that it can be used safely.

The distribution panel is a device that supplies external power to each branch circuit breaker through the main circuit breaker. The busbar distribution panel is the most used, and it is developed as a plug-in type distribution panel that increases workability and convenience. This is done.

The prefabricated power divider is a product that can supply power from the main breaker to the desired branch breaker by connecting the power divider divided into blocks unlike the existing eastern sub switchboard. Most of them consist of a terminal for main circuit breaker and branch circuit breaker, which are made of metal bars with high electrical conductivity such as copper, and these terminals and terminals are affected by the electrical conductivity and safety depending on the connection method. do.

In general, the prefabricated power distribution device is connected to the terminal using a screw fastening method for connecting the main circuit breaker terminal with bolts and screws by making a screw thread in the connecting terminal.

However, such a screw-coupled power distribution device is accompanied with the following problems.

(1) Increasing the thickness of the thread to increase the contact area can be a good connection to reduce the resistance and reduce the heat generation or loosening, but in reality, thickening the thickness of the terminal requires the use of as much material. As a result, it will act as a factor of cost increase.

(2) The material of the busbars used in most distribution panels is copper, and the interior of the prefabricated distribution panel, which is the object of the present invention, also contains a power distribution circuit made of copper. There is no choice but to climb. Therefore, efforts are being made to reduce costs by using copper substitute materials such as low cost aluminum or copper light aluminum (ELC), which are similar in electrical characteristics, instead of expensive copper.

However, the use of copper substitute materials, which have less workability and mechanical properties than copper, has been avoided due to potential risks such as heat deformation and loosening of screws.

(3) The prefabricated power distribution device has a main breaker terminal and a branch breaker terminal installed therein, and heat is generated inside the case because electricity is supplied through the terminals. Heat dissipation is difficult because it is made of a closed type.

(4) In addition, since the main breaker terminal and the additional terminal of the prefabricated power distribution unit exist at the same height, there is a problem of gradually increasing the height depending on the thickness of the terminal when a plurality of prefabricated power distribution units are connected.

That is, since the terminal for the main breaker is coupled to the upper part of the additional terminal, the second assembled power distribution device coupled to the first assembled power distribution device is assembled with the height of the additional terminal of the first assembled power distribution device. In addition, the third prefabricated power distribution device is assembled as high as the height of the additional terminal of the second prefabricated power distribution device. Accordingly, when a plurality of prefabricated power distribution devices are combined in a row, the prefabricated power distribution is continuously increased. When the device is fixed to the main body, the assembly power distribution device of the rear stage is lifted up from the main body and there is a problem in fixability.

The present invention is to solve the above problems,

The first object of the present invention is to increase the coupling force of the main circuit breaker terminal by increasing the screw connection by burring the thread of the additional terminal in connecting the additional terminal of the assembled power distribution device and the terminal for the main circuit breaker. .

The second object of the present invention is that the substitute material may be caused by heat generated when screw connection is made by using the power distribution circuit of the busbar or the assembled power distribution device of the distribution panel, the terminal of the main circuit breaker, the terminal of the branch circuit breaker, or the additional terminal. In order to reduce the risk of deformation or loosening of the screw, the nut is inserted into the case part where the additional terminal is located to have a double fastening structure by the nut when the terminal and the terminal are joined.

A third object of the present invention is to form a heat vent for the case constituting the assembled power distribution device.

A fourth object of the present invention is to form a terminal in a stepped manner so that the height is horizontal when combined with other terminals.

As a means for achieving the above object,

The present invention is a case for protecting the power distribution line is connected to the main circuit breaker terminal and the branch circuit breaker terminal and the additional terminal; Located on the upper surface of the case, a plurality of main circuit breaker terminals 101 connected by a main circuit breaker power supply and a line; A plurality of branch breaker terminals (102) positioned at both side surfaces of the case and connected by a branch breaker power source and a line; Located on the lower surface of the case, it is made of a plurality of additional terminals (103) recessed in the surface of the case and connected to other external load end or by adding a distribution line; The lower part of the additional terminal 103 is formed by integrally forming a burring type protrusion (103a) formed with a screw thread (103b) in the inner side to increase the contact surface of the coupling bolt.

In addition, the case 100 for protecting the power distribution line connected to the terminal for the main breaker, the terminal for the branch breaker and the additional terminal; A plurality of main breaker terminals 101 connected to a main breaker power source and a line, the main breaker being positioned on an upper surface of the case; A plurality of branch breaker terminals (102) positioned at both side surfaces of the case and connected by a branch breaker power source and a line; Located on the lower surface of the case, it is made of a plurality of additional terminals (103) recessed in the surface of the case and connected to other external load end or by adding a distribution line; The case in which the additional terminal 103 is located is characterized in that the coupling auxiliary nut 120 is inserted to increase the contact surface of the coupling bolt.

In addition, the main circuit breaker terminal 101 or the branch circuit breaker terminal 102 is characterized in that the ventilation opening 130 is further added to the outside of the case or the case with the additional terminal protruding to the outside. .

In addition, the main breaker terminal 101 and the additional terminal 103 is characterized in that the additional terminal is formed in a lower position than the main breaker terminal to form a stepped step.

The present invention provides the following effects.

(1) In the case of terminal connection by screw connection, the thread of the connection terminal is made into the burring type structure without additional cost increase to make the thickness of the terminal thick, so that the electrical conductivity is good, the resistance is reduced, It is effective in reducing loosening.

(2) By inserting a separate coupling aid nut into the case and providing a double fastening structure, there is an effect of reducing the risk of deformation due to heat or loosening of the screw, which may occur when screwing copper substitute materials having poor mechanical properties. .

(3) By providing heat vents in the case, it provides a smooth flow of fire and electrical operation of the case due to overheating.

(4) Since the terminal is molded stepwise, assembling is completed at the same height when one prefabricated power distribution device and the other prefabricated power distribution device are combined, there is an effect of being stably fixed without being lifted when fixed to the main body.

In addition, although the invention has been described in connection with the preferred embodiments mentioned, other various modifications and variations are possible without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a configuration diagram of a power distribution device applied to the present invention.

Figure 2 is a burring method fastening configuration of the connection terminal of the present invention.

3 is a plan view and a front view of a power distribution device assembled by applying a burring method of the connection terminal of the present invention.

Figure 4 is a plan view and a front view showing a state in which the coupling auxiliary nut is inserted into the power distribution device of the present invention.

5 is a configuration of the ventilation hole formed in the power distribution device of the present invention.

6 is a configuration diagram in which the additional terminal of the power distribution device of the present invention is formed stepwise.

1, 2 and 3 is a configuration diagram in which a burring type projection is applied to an assembled power distribution device applied to the present invention.

The prefabricated power distribution device of the present invention largely includes a plurality of additions having a case 100, a plurality of main breaker terminals 101, a plurality of branch breaker terminals 102, and a burring protrusion 103a. And a terminal 103 for use.

The case 100 serves to protect a power distribution line connected to the main breaker terminal 101 and the branch breaker terminal 102 and the additional terminal 103 constituting the assembled power distribution device.

The main breaker terminal 101 is located on the upper surface of the case 100, is connected by a main breaker power supply and a line, and serves to branch off the main power supply.

The branch circuit breaker terminal 102 is located at one side or both sides of the case 100 and is connected to the main circuit breaker terminal 101 to branch the power supplied to the terminal for the main circuit breaker.

The additional terminal 103 is located on the lower surface of the case 100, and is recessed on the surface of the case 100 to connect with other external load terminals or to add a distribution line.

In addition, the lower portion of the additional terminal 103 is integrally formed with a burring type protrusion (103a) having a screw thread formed inside to increase the contact surface of the coupling bolt 110.

The biggest feature of the present invention is to integrally form a burring type projection (103a) in the lower portion of the additional terminal 103.

The burring protrusion 103a is projected to push the structure downward when punched to form a bolt coupling hole in the additional terminal 103, and then threaded into the bolt coupling hole and the protrusion. 103b is formed.

As described above, when the burring method 103a is formed, the area of contact with the bolt 110 increases when the bolt 110 is coupled to the other main breaker terminal 101 and the additional terminal 103. When combined, it serves to double the coupling force, thereby preventing the main breaker terminal 101 and the additional terminal 103 from being easily separated when an external shock is applied.

As a result, a screw thread 103b thicker than the thickness of the terminal is formed in the additional terminal 103 of the power distribution device to connect the power distribution device and another power distribution device with the bolt 110 to contact the bolt 110 and the contact portion. Increasing it will also prevent disconnection of the terminals and at the same time reduce the electrical resistance.

4 is a loosening phenomenon of the connection part due to the deformation of the material due to heat when connecting the terminal for the main circuit breaker and the additional terminal when using a material having a low heat resistance, such as copper material aluminum is a new material It shows a structure in which the coupling aid nut is installed in the case that improves the problem of using the existing screw.

That is, FIG. 4 shows the additional terminal 103 in the assembled power distribution device including the case 100, the main breaker terminal 101, the branch breaker terminal 102, and the additional terminal 103. ) Is provided with a coupling auxiliary nut (120) in the case portion is installed, the bolt 110 is double when the additional terminal 103 and the main circuit breaker terminal 101 of the other prefabricated power distribution unit is combined. Since the main circuit breaker terminal 101 and the additional terminal 103 is firmly coupled to the fastening structure, the bolt loosening phenomenon of the connection part does not occur.

The coupling aid nut 120 is fixed to the bottom of the case with a molding injection molding for fixing the nut so that the nut is automatically coupled when the bolt is connected. The solution is to increase work efficiency.

FIG. 5 illustrates that the heating vent 130 is formed in the case of the present invention. In the exemplary embodiment of the present invention, the ventilation vent 130 is formed in the vertical direction on the main breaker terminal 101. have. External air penetrates into the case through the vent 130, thereby cooling heat generated due to electrical characteristics inside the case.

Accordingly, the overheating of the case can be prevented, thereby helping to smooth the electrical flow and preventing the case from being damaged due to overheating. Of course, the position of the vent can be installed in the terminal for the branch breaker in addition to the terminal for the main breaker.

6 is a step of forming the step of the additional terminal of the present invention in the form of a step, the additional terminal 103 to be formed by bending down compared to the main breaker terminal 101, and other assembled power distribution device The main breaker terminal 101 of the close contact with the upper part of the additional terminal 103, and then assembled.

Then, the height of the main breaker terminal 101 of the first prefabricated power distribution device and the main breaker terminal 101a of the second prefabricated power distribution device becomes the same, so that the entire prefabricated power distribution device can be installed even if a plurality of prefabricated power distribution devices are installed in succession. The height of the device is constant.

Therefore, when the prefabricated power distribution device is installed in the main body, it maintains a constant height so that the installation is easy and aesthetically neat arrangement is possible.

As a result, the prefabricated power distribution device of the present invention can prevent the heat generation problem due to the loosening or resistance increase that can occur in the connection of the terminal in advance, and can use the prefabricated power distribution device safely, and less material or economical material It can be used safely and can be expected to reduce costs.

1 is a configuration diagram of a power distribution device applied to the present invention.

Figure 2 is a burling method fastening configuration of the connection terminal of the present invention.

Figure 3 is a plan view and a front view of the power distribution device assembled by applying the burring method of the connection terminal of the present invention.

Figure 4 is a plan view and a front view showing a state in which the coupling auxiliary nut is inserted into the power distribution device of the present invention.

5 is a configuration of the ventilation hole formed in the power distribution device of the present invention.

6 is a configuration diagram in which the additional terminal of the power distribution device of the present invention is formed stepwise.

Explanation of symbols on the main parts of the drawings

100: case

101: terminal for main breaker

102: terminal for branch breaker

103: additional terminal

103a: projection of additional terminal

103b: Thread of additional terminals

110: fastening bolt

120: coupling aid nut

130: vent

Claims (4)

A case 100 for protecting a power distribution line connected to the terminal for the main circuit breaker, the terminal for the branch circuit breaker, and the additional terminal; A plurality of main breaker terminals 101 connected to a main breaker power source and a line, the main breaker being positioned on an upper surface of the case; A plurality of branch breaker terminals (102) positioned at both side surfaces of the case and connected by a branch breaker power source and a line; Located on the lower surface of the case, it is made of a plurality of additional terminals (103) recessed in the surface of the case and connected to other external load end or by adding a distribution line; Prefabricated power distribution device, characterized in that the lower portion of the additional terminal 103 is formed by integrally forming a burring type projection having a screw thread formed inside to increase the contact surface of the coupling bolt. A case 100 for protecting a power distribution line connected to the terminal for the main circuit breaker, the terminal for the branch circuit breaker, and the additional terminal; A plurality of main breaker terminals 101 connected to a main breaker power source and a line, the main breaker being positioned on an upper surface of the case; A plurality of branch breaker terminals (102) positioned at both sides of the case and connected by a branch breaker power source and a line; Located on the lower surface of the case, it is made of a plurality of additional terminals (103) recessed in the surface of the case and connected to other external load end or by adding a distribution line; Prefabricated power distribution device, characterized in that made in the case where the additional terminal 103 is located by inserting the coupling auxiliary nut 120 to increase the contact surface of the coupling bolt. The method according to claim 1 or 2, The main breaker terminal 101 or the branch circuit breaker terminal 102 is a prefabricated type, characterized in that the air vent 130 is further added to the case where there is a part or additional terminal protruding to the outside to penetrate the inside air Power distribution unit. The method according to claim 1 or 2, The main circuit breaker terminal 101 and the additional terminal 103 is a step-type stepped step of the assembled power distribution apparatus, characterized in that the additional terminal is formed in a lower position than the terminal for the main circuit breaker.

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