KR101145892B1 - Cable connecter of terminal box for solar cell module - Google Patents

Abstract

PURPOSE: A cable connector of a terminal box for a solar cell module is provided to prevent moisture or rain from a connector part. CONSTITUTION: A connection unit(79) is formed on a cable connection unit of a case(1). A seal connector(71) includes a seal ring(76). A pinch ring(72) is installed on the external circumference of the seal connector. A nut(80) presses the pinch ring. A female thread is formed on the inner circumference of the nut. The pinch ring includes an uneven protrusion. The uneven protrusion is coupled with an uneven portion(74) of the connection unit.

Description

CABLE CONNECTER OF TERMINAL BOX FOR SOLAR CELL MODULE}

The present invention relates to a photovoltaic module distribution box, ie a photovoltaic module terminal box, and more particularly, to a structure of a cable connector that is a portion connected to a terminal box and an external cable.

[Document 1] PCT International Application No. PCT / JP2006 / 319779, FIG. 2

International Publication No. WO 2005/117141 A1, Abstract

[Patent 3] Korean Patent Publication No. 10-2010-0024611, Figure 2

The connection structure of the cable connected to the solar module terminal box of the conventional structure is composed of one connector structure, and if the connection part is damaged, the entire connector connection part must be replaced.

In addition, the connection part can be easily twisted or twisted, so that the connection part is easily damaged, and there is also a weak point that rainwater or moisture can penetrate.

The present invention has been invented in view of the above-mentioned point, and the connector part, which is a connection part of the terminal box and the cable, prevents penetration of moisture or rain water, prevents the connection part from twisting, and damages the connection part. An object of the present invention is to provide a structure that can easily replace parts to reduce the cost of replacement

Further objects and configurations of the present invention will be described below.

The main configuration of the present invention for achieving the object of the present invention comprises a case and a cover, a terminal box cable of the solar module of the structure in which the terminal and the diode is configured to be inserted into the ribbon is fixed inside the case In the connector, a male thread is formed on the outer periphery of the case 1 and a male thread is formed on the outer circumference, and a male thread end portion is a connecting portion 79 formed of an uneven portion 74 and a portion inserted into the connecting portion 79. It is installed on the outer periphery of the seal connector 71 and the seal connector 71, and the pinch ring 72 having a fastening piece 77, and the female screw is formed on the inner circumference so as to tighten the pinch ring 72 and penetrates the cable. It characterized in that it comprises a nut 80, the pinch ring 72 is characterized in that it has a concave-convex protrusion 73 is coupled to the concave-convex portion 74 of the connecting portion 79, the pinch ring ( 72, the tightening piece 77 in the rotation direction Plane becomes inclined fastening piece (77) in contact with said nut (80) is characterized by having the legs (78) placed at an obtuse angle formed

According to the present invention, the connector portion, which is the connection portion between the terminal box and the cable of the solar module, prevents penetration of moisture or rainwater, and the connection portion can be prevented from being twisted.

It also reduces the cost of replacement by providing an easily replaceable structure in case of damage to the cable connection.

In addition, the pinch ring 72 used in the present invention has an advantage that can be applied universally even if the operation is smooth and there is some difference in the thickness of the cable.

In addition, the pinch ring 72 is configured to bite with the concave-convex portion 74, so that the tightening by the nut is more firm, so that the pinch ring 72 is not easily released, the connection is relaxed, or moisture does not penetrate into the connector.

In addition, the front end portion of the seal connector 71 is formed with a seal 76, which completely blocks the hole of the connection portion 79 so that the watertightness can be made perfectly. This seal connector is also made of a flexible material such as rubber or silicone. To prevent damage to the cable connection by accommodating movement or torsion

1 is an exploded view illustrating main parts for explaining a cover and a case structure and the main components of the present invention to which the present invention is applied;
2 is a front view of the case;
3 is a view of the case from above;
4 is a view of the cover 2 turned over;
5 is a view for explaining the back structure of the case
6 is a view showing a case inside the case and the diode installation structure
7 is a view for explaining a terminal and the components coupled thereto;
8 is a view for explaining that the terminal and the clip is installed in the case (1)
9 is an exploded view of the connector portion according to the present invention;
10 is a diagram for explaining a detailed configuration of the pinch ring;

EMBODIMENT OF THE INVENTION Hereinafter, this invention is explained in full detail based on an accompanying drawing.

For reference, Figures 1 to 8 are reference drawings for explaining the configuration and main structure of the solar module terminal box, the present invention will be described in detail from FIG.

 For reference, Figure 1 is an exploded view of the main part of the case of the solar module terminal box according to the present invention.

As shown, the photovoltaic module terminal box (distribution box) according to the present invention is largely formed into a case 1 and a cover 2, and main components are mounted therein. In the drawings, only some of the main parts are shown for reference.

First, the fitting hole 3 is formed at four corners to protrude from the case 1 formed at the bottom. A protruding rim 5 is formed on the upper part of the case 1 to protrude further horizontally, and the protruding rim 5 forms a through hole 4, and the fitting hole 3 penetrates through the through hole 4. It is constructed to bulge. The fitting hole 3 is sufficiently large so that the through hole 4 can flow left and right elastically to some extent within the through hole 4. The fitting port 3 is configured to be opened slightly further left and right, as shown in Figure 3 and the upper end is configured in the shape of the arrow end

The reason for this configuration is that when the fitting hole 3 is opened and fitted in the fitting hole 7 of the cover 2, the fitting hole 3 is retracted inward so that the elastic opening is made to the left and right sides. After fastening to the cover (2) is to prevent the easy separation

In addition, the fitting hole 7 of the cover 2 is formed with a stepped portion 18 protruding from the inside in a slightly inclined form as shown in Figure 3 is configured to bite the arrow-shaped portion of the tip of the fitting hole (3). This configuration is not easy after disassembly once combined, but if you want to dismantle if you need to pull up the cover (2) while pushing the fitting (3) in easy disassembly. In other words, the stepped part 18 is formed, but the inclined stepped part 18 is formed so that the fitting hole 3 is bitten too tightly.

In addition, the front surface is formed in a structure in which the protruding "c" shaped frame 8 is erected and the filter hole 10 is formed in the center thereof, and the air filter 9 can be built in the filter hole 10. I make it

3, the space 17 is formed inside the filter hole 10, as shown in FIG. Thus, moisture or moisture is prevented from penetrating through the filter hole 10 from the outside and entering the main accessories such as the terminal inside.

In FIG. 2, grooves 11 are formed on the left and right sides of the upper part of the frame 8 so that the front cover 12 of the cover 2 can be slid from above through the grooves 11. In this configuration, after the cover 2 is coupled with the case 1, the exhaust through the filter hole 10 can be lowered to the lower part of the frame 8, but water or moisture can be prevented from entering the inside.

Inside the case 1, as shown in FIG. 1, the terminal mounting wall 15 is provided, but the terminal mounting wall 15 is formed with a concave v-shaped support groove 13, and the support groove 13 is shown in FIG. The diode 30 shown in FIG.

The terminal 20 of the "c" shape is fitted to the mounting wall 15. At this time, the protruding jaw 14 is formed at the side of the installation wall 15 so as to be coupled to the side hole 21 of the terminal 20. Protruding jaw 14 is composed of a protruding structure in an inverted triangular shape is easily inserted when the terminal 20 is entered, but disassembly is not easy.

4 is a view of the cover 2 turned over.

As shown, a seal groove 24 into which the seal member 23 is fitted is formed on the inner surface of the cover 2. The seal groove 24 forms a fitting groove 26 that enters at regular intervals to allow the protrusion 27 of the seal member 23 to fit therein. This configuration prevents the seal member 23 from being detached from the seal groove 24 and facilitates assembly of the seal member 23 with respect to the case 1 (by fitting the protrusions 27 into the seal groove 24). It is easy to assemble because the sealing member 23 can be easily assembled by putting it), and also complete sealing is possible.

In addition, since the change in the expansion and contraction of the sealing member 23 according to the temperature change inside the terminal box can be accommodated in the protrusions 27, it is also possible to prevent the sealing member 23 from swelling or leaving the groove according to the temperature change.

Moreover, the sealing member 23 forms the rim groove 33 in itself. The rim groove 33 formed in the seal member 23 itself fits into the protruding wall 31 projecting vertically from the inside of the protruding rim 5 shown in FIG. The protruding wall 31 is formed to protrude so as to surround the entire inner side. Thus, when the cover 2 is combined, a perfect waterproof coupling structure is possible.

That is, according to the above structure, the external water and the like does not penetrate, but first, as shown in Figure 4, the primary waterproof by the rim wall 34 of the silicon material on the outside, and the protrusion to be fitted into the rim groove 34. Secondary waterproofing by the wall 31 and the third waterproofing by the inner rim wall 34 is possible, and further strengthens the bonding and adhesion to the case (1).

The inner side forms a radial wall 25, that is, a spider web shape.

When the radial wall is formed, the pressure supporting force in the horizontal and vertical directions is improved against the load pressurized from the upper side, and the uniform distribution structure of the pressing force against partial concentrated load is provided, thereby improving the support strength against external impact. have. And the left and right sides of the edges are formed with projections 28 to be coupled to the through hole 29 formed in the protruding rim 5 of the case (1). This configuration allows easy and accurate matching of the cover 2 to the case 1, which facilitates assembly and improves assembly.

In the present invention, as shown in Figure 5, the outer groove 44 and the inner groove 45 was formed. That is, the silicon surface is formed in the rim surface 46 formed between the two grooves. The reason for forming the silicon surface is to fix the solar module after a predetermined time. Two grooves are formed before and after the rim surface 46 so that the silicon leaving the rim surface 46 is filled in these two grooves, the outer groove 44 and the inner groove 45, thereby preventing the silicon from spreading beyond the range.

In addition, by forming a low concave groove surface 47 in the middle portion of the outline, the double-sided tape can be attached thereto so that the terminal box can be easily attached temporarily to a desired position of the solar module. After temporarily attaching to the desired place by the double-sided tape, the terminal box is completely fixed when the rim surface 46 hardens and hardens with time by the scanned silicon. In addition, a large rectangular check window 48 is formed in the rear portion to confirm that the ribbon has entered, and a plurality of heat radiating holes 49 are formed thereunder. The heat dissipation hole 49 is formed in all four sides of the terminal 20 shown in FIG. 1 to be fitted to the installation wall 15 to increase the heat dissipation effect.

6 shows a mounting structure of the diode 30 according to the present invention.

As shown, three diodes 30 according to the present invention are arranged in a triangular shape. The reason for this arrangement is to evenly dissipate heat generated in the diode 30 as evenly as possible. That is, the heat generated from the diode 30 is to increase the heat dissipation effect by not interfering with each other. In addition, since the diode 30 is installed between the two terminals 20, the heat dissipation effect is also high by the terminal 20 having a sufficiently wide plate shape. The terminal 20 is formed to have a long cross-sectional shape in a "c" shape and is mounted to the mounting wall 15, as shown in FIG. Then, the diode 30 is inserted on the terminal 20 and welded by soldering.

As shown in FIG. 7, the terminal 20 is formed by bending a portion of the terminal 20 member itself and pressing down to form a bending piece 41. Then, since the bent hole is formed, the left and right legs 42 of the diode 30 are inserted into the hole. Then, the bent piece 41 is partially deformed into it, and the leg 42 is forcibly inserted into the bent piece 41 in press contact with the bent piece 41. Lose. Then the contact portion of the fitted leg 42 is welded safely. Although it is firmly fixed without welding, it is desirable to weld for safety.

Since the bending piece 41 itself has elasticity, such as a leaf spring, and is flexible to a forced fitting, the bending piece 41 can firmly hold the diode 30. In addition, since the bent piece 41 is made of a piece that is very small as the size of a space into which the leg 42 of the diode 30 is inserted, the contact resistance with the diode 30 is minimized to minimize heat generation at this contact part.

In addition, in FIG. 7 and FIG. 1, the reason why the two formation positions of the bent pieces 41 are formed in the left and right columns in the terminal 20 is to change the mounting structure of the diode 30 when necessary. That is, for the purpose of preparing a new installation, for example, the installation position of the diode 30 is changed according to the structure of the terminal box or the arrangement of the terminals 20, or, for example, a replacement due to a failure of the diode 30.

The terminal 20 is preferably used as a tin plating material. Tin is good for welding, has good corrosion resistance and good conductivity. The clip 20 is inserted into the insertion hole 52 of the terminal 20 in the terminal 20. The clip 50 is made of a phosphor bronze material having a strong restoring force, and the outer surface is preferably nickel plated. Thus, the clip is more elastic than conventional tin or brass clips. The overall structure is made of a rough "C" shape and forms a protrusion 51 on the top. At the rear of the "c" shape, a vertical portion 56 is formed, and the curved portion 54 and the bent portion 53 are formed at the front side. The curved portion 54 improves elasticity. Further, by forming the bent portion 53 once more, when the end portion 55 formed at the upper end is pressed downward, the elastic restoring force is further improved. According to the above structure, the structure of the clip can be simplified and the material required can be minimized.

8 shows that the clip 50 is installed on the mounting wall 15 of the case 1.

The jaw portion 62 of the mounting wall 15 is formed as a recess in which the inner side is concave, and the curved portion 54 of the clip 50 is inserted and seated in the groove. It is formed below the concave groove through the through-hole penetrating downward so that the clip 50 is easily seated when the clip 50 is seated in the mounting groove 57 of the installation wall 15.

When the clip 50 is inserted into the seating groove 57, the curved portion 54 is inserted into the lower portion of the jaw portion 62, so that the clip 50 is easily slipped. On the contrary, in the case of removal, the end 55 is easily removed by pulling the end 55 to the right. After the clip 50 is seated, the terminal 20 is fitted onto the mounting wall 15, at which time the end 55 of the clip 50 is pulled out through the insertion hole 52. The end 55 of the clip must of course be smaller than the size of the insertion hole 52. When the clip 50 and the terminal 20 are installed as described above, the ribbon enters through the wide confirmation window 48, and the front end of the ribbon enters under the swelling portion 60 of the terminal 20.

The confirmation window 48 is formed with a sufficiently wide hole, which is advantageous in workability.

The filling unit 60 is further cut off than the upper surface of the terminal 20 to facilitate the entry of the ribbon. And the entered ribbon tip is cut down the upper surface of the terminal 20 passes through the lower incision piece 61 which is slightly lowered. The ribbon is bitten by the ribbon. And secondly, the clip 50 is inserted into the position where the terminal 20 is installed. At this time, the ribbon end is pushed in while holding the end 55 of the clip 50 by hand. When the end 55 is released, the ribbon end is firmly fixed elastically. Thus, according to this invention, a ribbon can be fixed easily by one touch. On the other hand, the conventional structure of the terminal has a disadvantage that the ribbon is fixed by more than 2-3 operations.

In addition, according to the terminal and the clip according to the present invention of the above structure, when mounting the ribbon coupled to the terminal, the first bite by the lower cutting piece 61, the second bite by the clip elasticity and formed in the third clip By three bites by one protrusion 51, there is an effect that the end of the ribbon can be fixed very firmly.

9 illustrates the connection structure of a cable according to the invention.

As shown, the seal connector 71 surrounding the outer circumference of the cable 70, the pinch ring 72 surrounding the outer circumference of the seal connector 71, and the nut 80 tightening the final pinch ring 72 are combined.

The pinch ring 72 has a concave-convex protrusion 73 which protrudes in a concave-convex shape on the outer periphery of the tip, and the concave-convex portion 74 that can be bitten with the concave-convex protrusion 73 in the connection screw portion 75 coupled to the case 1. ). Thus, the uneven protrusion 73 of the pinch ring 72 is coupled to the uneven portion 74 as if it is biting.

That is, when the cable 70 is inserted and connected to the connecting portion 79 of the case 1, the seal connector 71 installed on the outer periphery of the cable 70 is inserted to protrude into the connecting portion 79, the ring-shaped (76) The portion of the pinch ring 72 to block the moisture and rain water, and surround the outer circumference is composed of a plurality of tightening pieces (77), turn the nut 80, the seal connector 71 and the pinch ring ( 72 is tightened and the pinch ring 72 is advanced with the nut 80 to reach the concave-convex portion 74 of the connection portion 79 to be bitten. Another function of the shim 76 also serves to hold the cable 70 to prevent it from being twisted and shaken.

This configuration ensures a robust connection without rain or water ingress at the cable connection. In addition, the pinch ring 72 is composed of a fastening piece 77, so that even if there is a difference in the thickness of the cable to some extent, it can be applied with flexibility and flexibility.

9 and 10, the outer surface of the fastening piece 77 of the pinch ring 72, that is, the contact portion fastened by the nut 80 is formed with an obtuse angle 78 formed at an obtuse angle to form the nut 80. When turning to easily turn without resistance and the tightening pieces 77 are formed to be inclined in the direction of rotation to be tightened so that the tightening operation of the nut 80 is easily made without jamming.

Conventionally, since the connection nut part is integrally formed as a single part without the same structure as the pinch ring 72 and the seal connector 71, if there is an error in this connection part of the cable 70, it has to be replaced completely. According to the present invention, partial replacement of parts is possible.

In addition, according to the above configuration, the pinch ring 72 is configured to bite with the concave-convex portion 74, so that the tightening by the nut is more firm, so that the pinch ring 72 is easily loosened, the connecting portion is loosened, or water is hardly penetrated into the connector portion. none

In addition, the front end portion of the seal connector 71 is formed with a seal 76, which completely blocks the hole of the connection portion 79 so that the watertightness can be made perfectly. This seal connector is also made of a flexible material such as rubber or silicone. To prevent damage to the cable connection by accommodating movement or torsion

1 case 2 covers
3 Insertion 4 Hole
5 Protruding rim 7 Fitting
8 frame 10 filter ball
11 Groove 12 Front Cover
13 Groove 14 Protruding Jaw
15 Mounting Wall 18 Step
20 terminal 21 side hole
23 Seal member 24 Seal groove
25 Radiation wall 26 Fitting groove
27 Protrusion 28 Protrusion
31 Overhanging wall 41 Bending piece
42 leg 48 confirmation window
50 Clips 52 Insertion Holes
53 bends 55 ends
56 Vertical Section 60
61 Lower incision 62 Jaw part
70 Cable 71 Seal Connector
72 Pinch Ring 73 Unevenness
74 Uneven thread 75 Connecting thread
76 Shim 77 Fasteners
78 obtuse 79
80 nuts

Claims (3)

In the terminal box cable connector of the solar module including a case and a cover, the terminal and the diode is configured inside the ribbon is inserted into the case and fixed to the inside,
It is formed in the cable connecting portion of the case (1) and the outer periphery of the male thread is formed and the male threaded end portion of the connecting portion 79 consisting of the uneven portion 74,
A seal connector 71 having a seal 76 which is a portion to be inserted into the connection portion 79;
A pinch ring 72 installed on an outer circumference of the seal connector 71 and having a tightening piece 77;
A nut (80) penetrating the cable and forming a female thread on the inner circumference to tighten the pinch ring (72),
The pinch ring 72 has a convex and convex protrusion 73 coupled to the concave and convex portion 74 of the connecting portion 79, wherein the terminal box cable connector of the solar module delete The method of claim 1,
The tightening piece 77 of the pinch ring 72 is inclined in the rotational direction and the surface of the tightening piece 77 in contact with the nut 80 has an obtuse portion 78 having an obtuse angle. Terminal box cable connector

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