CN109874263B - Trigger type flexible circuit board packaging structure - Google Patents

Abstract

The invention provides a trigger type flexible circuit board packaging structure which is used for accommodating a plurality of trigger type flexible circuit boards, wherein each trigger type flexible circuit board comprises a part to be triggered, and the trigger type flexible circuit board packaging structure comprises a box body and two notches. The box contains four curb plates, and four curb plate connection enclose into a accommodation space, and two notch set up respectively in two of them curb plates that are relative. When the triggering type flexible circuit boards are sequentially arranged in the accommodating space, the to-be-triggered parts of the triggering type flexible circuit boards are positioned on a connecting line of the two notches. Therefore, by the arrangement that the to-be-triggered parts are positioned on the connecting line of the two notches, the triggering tool can start from one notch and contact each to-be-triggered part along the direction of the connecting line.

Description

Trigger type flexible circuit board packaging structure

Technical Field

The present disclosure relates to packaging, and particularly to a packaging structure for a triggered flexible circuit board.

Background

The triggering type flexible circuit board comprises a to-be-triggered part, the to-be-triggered part is provided with a metal wire body structure which can be cut off, and when the to-be-triggered part is cut off, the voltage of the triggering type flexible circuit board can be changed, so that the triggering type flexible circuit board is triggered for subsequent use.

The existing trigger type flexible circuit board is packaged in a box for conveying, and then the trigger type flexible circuit board is taken out from the box by a user, and the to-be-triggered parts are cut off one by one for triggering, so that time consumption is low.

In view of this, how to effectively improve the packaging structure of the triggered flexible circuit board, so that the triggered flexible circuit board is conveniently triggered, is the goal of related operators' efforts.

Disclosure of Invention

The invention provides a trigger type flexible circuit board packaging structure which can be beneficial to triggering all trigger type flexible circuit boards at one time through the configuration of two notches.

According to an embodiment of the present invention, a triggered flexible circuit board package structure is provided, which is used for accommodating a plurality of triggered flexible circuit boards, wherein each triggered flexible circuit board includes a portion to be triggered, and the triggered flexible circuit board package structure includes a case and two notches. The box contains four curb plates, and four curb plate connection enclose into a accommodation space, and two notch set up respectively in two of them curb plates that are relative. When the triggering type flexible circuit boards are sequentially arranged in the accommodating space, the to-be-triggered parts of the triggering type flexible circuit boards are positioned on a connecting line of the two notches.

Therefore, through the configuration that the to-be-triggered parts are positioned on the connecting line of the two notches, the triggering tool can be enabled to contact each to-be-triggered part along the connecting line direction from one notch, so that each triggering type flexible circuit board is triggered, and finally the triggering tool is separated from the other notch, thereby achieving the beneficial technical effects of convenient use and time saving.

According to the foregoing embodiments of the trigger type flexible circuit board packaging structure, the trigger type flexible circuit board packaging structure may further comprise a positioning guide plate detachably disposed on the case and including an elongated slot, wherein when the positioning guide plate is disposed on the case, the elongated slot is located between and communicated with the two slots, and a trigger tool is displaced from one slot along the elongated slot to trigger each portion to be triggered sequentially.

According to another embodiment of the present invention, a triggered flexible circuit board package structure is provided for accommodating a plurality of triggered flexible circuit boards, wherein each triggered flexible circuit board includes a portion to be triggered, and the triggered flexible circuit board package structure includes a case, a spacing unit, and two slots. The box contains four curb plates, and four curb plate connection enclose into a accommodation space, and the interval unit contains two baffles and sets up in the accommodation space, and one baffle is adjacent a curb plate, and another baffle is adjacent another curb plate opposite with aforementioned one side board, and two notch set up respectively in two baffles. When the triggering type flexible circuit boards are sequentially arranged between the two baffles, the to-be-triggered parts of the triggering type flexible circuit boards are positioned on a connecting line of the two notches.

According to the foregoing embodiments of the trigger type flexible circuit board packaging structure, the trigger type flexible circuit board packaging structure may further comprise a positioning guide plate detachably disposed on the case and including an elongated slot, wherein when the positioning guide plate is disposed on the case, the elongated slot is located between and communicated with the two slots, and a trigger tool is displaced from one slot along the elongated slot to trigger each portion to be triggered sequentially. Or, the positioning guide plate may further comprise a body and two inserting sheets, the long slot is located on the body, the two inserting sheets are respectively connected to two opposite sides of the body, wherein when the positioning guide plate is arranged on the box body, one inserting sheet is inserted between the baffle and the one side plate, and the other inserting sheet is inserted between the other baffle and the other side plate.

According to the embodiments of the triggered flexible circuit board packaging structure, the spacer unit may further include at least one slot, the at least one spacer is disposed in the accommodating space and between two baffles, the slot is disposed in the at least one spacer and is located on a line connecting the two slots, when the triggered flexible circuit boards are accommodated in the accommodating space, a portion of the triggered flexible circuit boards are sequentially arranged between the at least one baffle and the at least one spacer, another portion of the triggered flexible circuit boards are sequentially arranged between the at least one baffle and the another baffle, and a thickness of any baffle is greater than a thickness of the at least one spacer. In addition, a thickness of any baffle is between 15 mm and 25 mm.

The invention has the beneficial effects that: the trigger type flexible circuit board packaging structure is used for accommodating a plurality of trigger type flexible circuit boards. Through the configuration that the part to be triggered is located on the connecting line of two notches, the triggering tool can be enabled to start from one notch and contact each part to be triggered along the direction of the connecting line, so that each triggering type flexible circuit board is triggered, and finally the triggering tool is separated from the other notch, and the beneficial technical effects of convenient use and operation time saving can be achieved.

Drawings

Fig. 1 is a schematic perspective exploded view of a triggered flexible circuit board package structure and a plurality of triggered flexible circuit boards according to an embodiment of the invention;

FIG. 2 illustrates a cross-sectional schematic view of the triggered flexible circuit board packaging structure of FIG. 1 and a plurality of triggered flexible circuit boards;

FIG. 3 is a schematic diagram showing the triggered flexible circuit board package structure of FIG. 1, a plurality of triggered flexible circuit boards and a triggering tool; and

fig. 4 is a schematic perspective exploded view of a triggered flexible circuit board package structure and a plurality of triggered flexible circuit boards according to another embodiment of the present invention.

Reference numerals illustrate:

100 trigger type flexible circuit board packaging structure

200 box body

210. 220, 230, 240 side plates

250 accommodation space

310. 320 notch

400 positioning guide plate

410 body

420 long groove

430. 440 inserting piece

200a box body

210a, 220a side plate

310a, 320a notches

400a positioning guide plate

100a triggering type flexible circuit board packaging structure

420a long groove

430a, 440a insert

500a spacer unit

510a, 520a baffle

530a, 540a, 550a spacer

560a connecting plate

610a, 620a, 630a are slotted

I1 wire

N1 triggering tool

P1 triggering type flexible circuit board

P11 standby triggering part

Detailed Description

Embodiments of the present invention will be described below with reference to the accompanying drawings. For purposes of clarity, many practical details will be set forth in the following description. However, the reader should appreciate that these practical details should not be used to limit the invention. That is, in some embodiments of the invention, these practical details are unnecessary. Furthermore, for the sake of simplicity of the drawing, some of the existing conventional structures and elements are shown in the drawing in a simplified schematic manner; and repeated elements will likely be indicated by identical or analogous numerals.

In addition, herein, when an element (or a mechanism or module, etc.) is "connected," "disposed" or "coupled" to another element, it may be referred to as being directly connected, directly disposed or directly coupled to the other element, or as being indirectly connected, indirectly disposed or indirectly coupled to the other element, i.e., with other elements interposed therebetween. When an element is referred to as being "directly connected," "directly disposed" or "directly coupled" to another element, it can be directly connected or directly coupled to the other element or intervening elements may be present. The terms first, second, third, etc. are used to describe various elements or components only, and there is no limitation on the elements/components themselves, so that the first element/component may be referred to as a second element/component. And the combination of elements/components/mechanisms/modules herein is not a commonly known, conventional or existing combination in the art, and it cannot be determined whether the combination relationship thereof is easily accomplished by one of ordinary skill in the art by whether the elements/components/mechanisms/modules themselves are existing.

Referring to fig. 1, 2 and 3, fig. 1 is a schematic perspective exploded view of a triggered flexible circuit board package structure 100 and a plurality of triggered flexible circuit boards P1 according to an embodiment of the invention, fig. 2 is a schematic cross-sectional view of the triggered flexible circuit board package structure 100 and the plurality of triggered flexible circuit boards P1 of fig. 1, and fig. 3 is a schematic view of the triggered flexible circuit board package structure 100 and the plurality of triggered flexible circuit boards P1 of fig. 1 and a trigger tool N1. The triggered flexible circuit board package structure 100 is used for accommodating a plurality of triggered flexible circuit boards P1, each triggered flexible circuit board P1 comprises a portion to be triggered P11, and the triggered flexible circuit board package structure 100 comprises a case 200 and two notches 310 and 320.

The case 200 includes four side plates 210, 220, 230, 240, the four side plates 210, 220, 230, 240 are connected to enclose a containing space 250, and two slots 310, 320 are respectively disposed on two opposite side plates 210, 220. When the plurality of trigger flexible circuit boards P1 are sequentially arranged in the accommodating space 250, the portion to be triggered P11 of each trigger flexible circuit board P1 is located on the connecting line I1 of the two notches 310 and 320.

Therefore, by the configuration that the to-be-triggered parts P11 are located on the connecting line I1 of the two slots 310 and 320, as shown in fig. 3, a triggering tool N1 is enabled to contact each to-be-triggered part P11 along the direction of the connecting line I1 from the slot 310, thereby triggering each triggered flexible circuit board P1, and finally the triggering tool N1 is separated from the slot 320, so that the beneficial technical effects of convenient use and time saving can be achieved. The detailed structure of the trigger type flexible wiring board packaging structure 100 will be described in more detail later.

The case 200 is square, which may be made of paper or plastic, and the side plate 210 is opposite to the side plate 220, and the side plate 230 is opposite to the side plate 240. The case 200 may further include a bottom plate (not shown) connected to the four side plates 210, 220, 230, 240.

The notch 310 is located on the side plate 210, the notch 320 is located on the side plate 220, and the positions of the notch 310 and the notch 320 are symmetrical to each other, so that the connecting line I1 is parallel to a length direction of the side plate 230. In the present embodiment, the notch 310 may have a rectangular structure, which has the advantage of convenient manufacturing, but in other embodiments, it may also have an arc structure or other shape structure, and the depth of the notch may be matched with the portion to be triggered P11 of the triggered flexible circuit board P1, which is not limited by the drawings or the disclosure above.

The triggering flexible circuit board packaging structure 100 may further comprise a positioning guide 400 detachably disposed on the case 200 and comprising an elongated slot 420, wherein, when the positioning guide 400 is disposed on the case 200, the elongated slot 420 is located between the two slots 310 and 320 and is communicated with the two slots 310 and 320, and the triggering tool N1 is displaced from the slot 310 along the elongated slot 420 to trigger each to-be-triggered portion P11 sequentially.

More specifically, the positioning guide 400 may comprise a body 410 and two insertion pieces 430, 440, the long slot 420 is located on the body 410, and the two insertion pieces 430, 440 are respectively connected to two opposite sides of the body 410. In other words, the body 410 and the two inserting pieces 430 and 440 are connected to form an n-shaped structure, and the elongated slot 420 may include two extending portions (not shown) extending to the inserting pieces 430 and 440, respectively, so that when the positioning guide 400 is placed in the case 200, one extending portion of the elongated slot 420 may correspond to the notch 310, and the other extending portion of the elongated slot 420 may correspond to the notch 320, so that the elongated slot 420 is in communication with the two notches 310 and 320. Preferably, the positioning guide 400 may further comprise a label (not shown) attached to the body 410, wherein the label may depict the triggering mode.

Therefore, a user can put a plurality of trigger flexible circuit boards P1 into the accommodating space 250 of the trigger flexible circuit board packaging structure 100 manually or automatically in sequence for packaging and conveying, and after receiving the trigger flexible circuit board packaging structure 100, another user can start the trigger tool N1 from the notch 310 and disconnect the to-be-triggered parts P11 one by one along the long groove 420 of the positioning guide 400 as shown in fig. 3, and finally leave the trigger tool N1 from the notch 320, so that all the trigger flexible circuit boards P1 can be triggered at one time. Preferably, the triggered flexible circuit board package structure 100 may further include a cover (not shown) disposed on the case 200 to increase protection and dust-proof effects.

Referring to fig. 4, fig. 4 is a schematic perspective exploded view of a triggered flexible circuit board package structure 100a and a plurality of triggered flexible circuit boards P1 according to another embodiment of the invention. The triggered flexible circuit board package structure 100a comprises a case 200a, a spacing unit 500a, and two notches 310a, 320a. The case 200a includes four side plates (only two side plates 210a and 220a are indicated in fig. 4) connected and surrounded into a containing space (not indicated), the spacing unit 500a includes two baffles 510a and 520a disposed in the containing space, the baffle 510a is adjacent to the side plate 210a, the other baffle 520a is adjacent to the other side plate 220a opposite to the side plate 210a, and two notches 310a and 320a are respectively disposed in the two baffles 510a and 520a. When the plurality of trigger flexible circuit boards P1 are sequentially arranged between the two baffles 510a, 520a, the portion to be triggered P11 of each trigger flexible circuit board P1 is located on a connection line (not shown) of the two notches 310a, 320a.

The structure of the case 200a is similar to the case 200 of fig. 1, except that the case 200a is not provided with the notches 310a, 320a. Instead, by providing the spacing unit 500a, the notch 310a and the notch 320a are located on the baffle 510a and the baffle 520a of the spacing unit 500a, so that the trigger tool can be extended.

The triggered flexible circuit board packaging structure 100a may further include three slots 610a, 620a, 630a, the spacing unit 500a further includes three spacing plates 530a, 540a, 550a, the three spacing plates 530a, 540a, 550a are disposed in the accommodating space and between the two baffles 510a, 520a, and the slots 610a, 620a, 630a are disposed on the three spacing plates 530a, 540a, 550a and on the connecting line of the two slots 310a, 320a, respectively. When the plurality of flexible circuit boards P1 are accommodated in the accommodating space, a part of the plurality of flexible circuit boards P1 is sequentially arranged between the baffle 510a and the partition 530a, another part of the plurality of flexible circuit boards P1 is sequentially arranged between the partition 550a and the other baffle 520a, another part of the plurality of flexible circuit boards P1 is sequentially arranged between the partition 530a and the partition 540a, and the rest of the plurality of flexible circuit boards P1 is sequentially arranged between the partition 540a and the partition 550 a.

In detail, the barrier 510a, the three spacers 530a, 540a, 550a and the barrier 520a are sequentially arranged, and preferably, the spacer 500a further includes a connection plate 560a connected between the barrier 510a, the three spacers 530a, 540a, 550a and the barrier 520a, so that the barrier 510a, the three spacers 530a, 540a, 550a and the barrier 520a are integrally connected to be more conveniently placed in the accommodating space. Thus, the triggering tool may enter through the slot 310a, start triggering the portion to be triggered P11 along the connecting line direction, pass through the slots 610a, 620a, 630a on the partition 530a, 540a, 550a, and finally exit through the slot 320a. Therefore, the three partition plates 530a, 540a, 550a can provide stability for the plurality of triggered flexible circuit boards P1 disposed in the accommodating space, and the configuration of the slots 610a, 620a, 630a does not block the portion to be triggered P11 from being triggered.

In other embodiments, at least one spacer may be provided, and the triggered flexible circuit board packaging structure includes at least one slot, which is located on the at least one spacer, and the number of spacers is not limited to the disclosure above. In addition, the triggering type flexible circuit board packaging structure can also not comprise a slot, but the height of the spacing plate is lower than the height of the to-be-triggered part P11, and the to-be-triggered part P11 can not be blocked.

In the embodiment of fig. 4, a thickness of either baffle 510a, 520a is greater than a thickness of either spacer 530a, 540a, 550 a. In addition, a thickness of either baffle 510a, 520a is between 15 mm and 25 mm. With this configuration, the slots 310a, 320a on the baffles 510a, 520a, respectively, can be made wide enough for the trigger tool to enter and exit.

Preferably, the trigger flexible circuit board packaging structure 100a of fig. 4 may also include a positioning guide 400a, and the positioning guide 400a has a long slot 420a and has the same structure as the positioning guide 400 of fig. 1, and details thereof will not be repeated. When the positioning guide 400a is disposed in the case 200a, the insert 430a is inserted between the baffle 510a and the side plate 210a, and the other insert 440a is inserted between the other baffle 520a and the other side plate 220a, so as to facilitate the stability of the positioning guide 400a when disposed in the case 200a, but not limited to the disclosure above.

Although the present invention has been described with reference to the above embodiments, it should be understood that the present invention is not limited thereto, and that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (6)

1. The utility model provides a trigger formula flexible line way board packaging structure for hold a plurality of trigger formula flexible line way boards, each trigger formula flexible line way board contains a portion of waiting to trigger, its characterized in that, this trigger formula flexible line way board packaging structure contains:

the box body comprises four side plates which are connected and enclosed into a containing space;

two notches which are respectively arranged on two opposite side plates; and

a positioning guide plate detachably arranged on the box body, wherein the positioning guide plate comprises a long groove;

when the positioning guide plate is arranged on the box body, the long groove is positioned between the two notches and communicated with the two notches, and a triggering tool is displaced from one notch along the long groove so as to trigger the plurality of to-be-triggered parts sequentially.

2. The utility model provides a trigger formula flexible line way board packaging structure for hold a plurality of trigger formula flexible line way boards, each trigger formula flexible line way board contains a portion of waiting to trigger, its characterized in that, this trigger formula flexible line way board packaging structure contains:

the box body comprises four side plates which are connected and enclosed into a containing space;

a spacing unit, which comprises two baffles arranged in the accommodating space, wherein one baffle is adjacent to one side plate, and the other baffle is adjacent to the other side plate opposite to the one side plate;

the two notches are respectively arranged on the two baffles; and

a positioning guide plate detachably arranged on the box body, wherein the positioning guide plate comprises a long groove;

when the positioning guide plate is arranged on the box body, the long groove is positioned between the two notches and communicated with the two notches, and a triggering tool moves from the notch along the long groove to trigger the plurality of to-be-triggered parts sequentially.

3. The triggered flexible circuit board package structure of claim 2, wherein the positioning guide further comprises:

a body, the long slot is located in the body; and

Two inserting sheets respectively connected to two opposite sides of the body;

when the positioning guide plate is arranged on the box body, one inserting sheet is inserted between the baffle plate and the side plate, and the other inserting sheet is inserted between the other baffle plate and the other side plate.

4. The triggered flexible circuit board package structure of claim 2, further comprising at least one slot, wherein the spacing unit further comprises at least one spacing board, the at least one spacing board is disposed in the accommodating space and located between the two baffles, the slot is disposed in the at least one spacing board and located on the connecting line of the two slots, when the plurality of triggered flexible circuit boards are accommodated in the accommodating space, a part of the plurality of triggered flexible circuit boards are sequentially arranged between the one baffle and the at least one spacing board, and another part of the plurality of triggered flexible circuit boards are sequentially arranged between the at least one spacing board and the another baffle.

5. The triggered flexible circuit board packaging structure of claim 4, wherein a thickness of any one of the baffles is greater than a thickness of the at least one spacer.

6. The triggered flexible circuit board package structure of claim 2, wherein a thickness of any of the baffles is between 15 mm and 25 mm.