CN202795173U - Bridging backplane - Google Patents

Abstract

The utility model discloses a bridging backplate for connect in an article. The bridge backboard comprises a main body, a clamping part and a narrow hole structure. The main body has an opening, at least one first through hole structure and at least one second through hole structure. The opening is formed in a middle area of the main body, the first through hole structure is formed on one side of the opening, and the second through hole structure is formed at one end of the first through hole structure. The clamping part is arranged at one end edge of the main body, and the first through hole structure is formed between the opening and the clamping part. The narrow hole structure is formed on the main body and is positioned between the first through hole structure and the clamping part. A length of the slot structure is substantially greater than or equal to a length of the first via structure. The utility model discloses a bridging backplate is applicable in the article of various specifications, obviously improves the backplate of prior art and has the easy bending distortion and cause the skew shortcoming in both ends.

Description

The bridge joint backboard

Technical field

The utility model relates to a kind of bridge joint backboard, relates in particular to a kind ofly can not produce because locking object the bridge joint backboard of malformation.

Background technology

In general electronic installation, often can use the casing that lower iron piece carries internal electronic element and is fixed in board.That traditional lower iron piece includes is little, in and large-scale three kinds of specifications, and all can be by the external stability element, such as screw, mode be locked on the metal backing.Form an opening in the middle of the main body of metal backing, run through for connecting cable.The opening two ends have holding section and snapping section, are used for being engaged in the draw-in groove of casing.The main body of metal backing arranges the first perforation structure and the second perforation structure in addition in the both sides of opening.The length of the first perforation structure is longer, is arranged on a side of opening; The length of the second perforation structure is less than the length of the first perforation structure, is arranged on a side of opening and is positioned at the end limit of the first perforation structure.

Small-sized lower iron piece and medium-sized lower iron piece latch in the first perforation structure by the external stability element; Large-scale lower iron piece then latches in the second perforation structure by the external stability element.Has one section difference between lower iron piece and the metal backing, therefore after locking the external stability element, metal backing just can produce to be pullled and causes its main body torsional deformation, the position of holding section and snapping section is then along with the former default initial position of main body twist away from its, so traditional metal backing just is difficult to be snapped on the draw-in groove of casing after locking lower iron piece.Therefore, how to improve the design of traditional metal backboard, make it also can keep the characteristic that its structure does not deform except still keeping function of applicable three kinds of specification ironwares, be the target of giving priority to of associated mechanisms industry.

Summary of the invention

The purpose of this utility model provides and a kind ofly can not produce because locking object the bridge joint backboard of malformation, to solve the above problems.

For achieving the above object, a kind of bridge joint backboard of exposure of the present utility model is used for being connected in an object.This bridge joint backboard includes a main body, a holding section and a slot structure.This main body has an opening, and this opening is formed at a zone line of this main body.This main body includes one first perforation structure and one second perforation structure, and this first perforation structure is arranged at a side of contiguous this opening, and this second perforation structure is arranged at this side of contiguous this opening and is positioned at an end of this first perforation structure.This holding section is arranged at an end limit of this main body, and this first perforation structure is arranged between this opening and this holding section.This slot structure is formed on this main body, and between this first perforation structure and this holding section.One length of this slot structure is more than or equal to a length of this first perforation structure.

The utility model discloses in addition this opening and is a rectangle structure, and this rectangle structure has two relative minor face and two relatively short sides, and this slot structure is arranged on this main body, and the position of this minor face of contiguous this rectangle structure.

The utility model discloses in addition this object and utilizes a retaining element to be locked in this first perforation structure or this second perforation structure.

The utility model discloses in addition this bridge joint backboard and includes in addition a snapping section, be arranged at the relatively other end limit of this holding section of this main body, the quantity of this first perforation structure is two, and these two first perforation structures are arranged at respectively between this opening and this holding section, and between this opening and this snapping section.

The quantity that the utility model discloses this slot structure in addition is two, and these two slot structures lay respectively between corresponding the first perforation structure with this in this holding section and this snapping section.

The utility model discloses in addition this bridge joint backboard and includes in addition a folded edges, is formed on a side of this main body, and the position on this long limit of contiguous this rectangle structure.One of this folded edges points to one of vertical in fact this slot structure and points to.

The end that the utility model discloses this folded edges does not in addition exceed this first perforation structure.

This end that the utility model discloses this folded edges does not in addition exceed this second perforation structure.

The utility model discloses in addition this bridge joint backboard and includes in addition a strip sunk structure, is formed on a side of this main body, and the position on this long limit of contiguous this rectangle structure.One of this strip sunk structure points to one of vertical in fact this slot structure and points to.

The quantity that the utility model discloses this first perforation structure in addition is two, is arranged at respectively the relative both sides of this opening, and the two ends of this strip sunk structure do not exceed in fact this two the first perforation structures.

The quantity that the utility model discloses this second perforation structure in addition is two, is arranged at respectively the relative both sides of this opening and is positioned at this end of this corresponding the first perforation structure, and the two ends of this strip sunk structure do not exceed in fact this two the second perforation structures.

The utility model discloses a length of this strip sunk structure in addition more than or equal to a length on this length limit of this opening.

The width that the utility model discloses this first perforation structure in addition is same as in fact a width of this second perforation structure.

The utility model discloses the two ends that these two second perforation structures are arranged at respectively this first perforation structure in addition, and this sensing of these two second perforation structures and parallel in fact this slot structure of orientation of this first perforation structure.

The utility model discloses in addition this bridge joint backboard and includes in addition a folded edges and a strip sunk structure, is formed at respectively two relative sides of this main body, and the position on this long limit of contiguous this rectangle structure.

The utility model discloses the bridge joint backboard that this bridge joint backboard is comprised of metal material in addition.

The utility model is design slot structure and folded edges (or strip sunk structure) on the main body of bridge joint backboard, bridge joint backboard of the present utility model is applicable to the object of all size, and the backboard that obviously improves prior art has easy bending distortion and the shortcoming that causes two ends to depart from.Bridge joint backboard of the present utility model can be controlled at the holding section at its two ends and the bending amplitude of snapping section in 0.1 ~ 0.2 thickness of slab, wherein thickness of slab refers to the structural thickness of bridge joint backboard, so the user can connect object with bridge joint backboard of the present utility model expediently, and smoothness is installed in it on casing simply.

Description of drawings

Fig. 1 is the synoptic diagram of the bridge joint backboard of the first embodiment of the present utility model.

Fig. 2 is the bridge joint backboard of the first embodiment of the present utility model and the element decomposing schematic representation of small article.

Fig. 3 is the bridge joint backboard of the first embodiment of the present utility model and the element decomposing schematic representation of medium-sized object.

Fig. 4 is the bridge joint backboard of the first embodiment of the present utility model and the element decomposing schematic representation of large-sized object.

Fig. 5 is the synoptic diagram of the bridge joint backboard of the second embodiment of the present utility model.

Fig. 6 is the synoptic diagram of the bridge joint backboard of the 3rd embodiment of the present utility model.

Fig. 7 to Fig. 9 is respectively the cut-open view of the combination of the bridge joint backboard of the 3rd embodiment of the present utility model and different size object.

Wherein, description of reference numerals is as follows:

10 bridge joint backboards, 12 objects

The medium-sized object of 12A small article 12B

12C large-sized object 121A fastening end

121C fastening end, 121B fastening end

14 main bodys, 16 openings

18 first perforation structures, 20 second perforation structures

22 retaining elements, 24 holding sections

26 snapping sections, 28 slot structures

30 bridge joint backboards, 32 strip sunk structures

40 bridge joint backboards, 42 folded edges

L1 slot structure length L2 the first perforation structure length

L3 strip sunk structure length L 4 folded edges length

L5 distance B 1 strip sunk structure points to

The long edge lengths W2 of W1 the first perforation structure width

W3 the second perforation structure width D 3 folded edges point to

D2 slot structure is pointed to

Embodiment

See also Fig. 1, Fig. 1 is the synoptic diagram of the bridge joint backboard 10 of the first embodiment of the present utility model.Bridge joint backboard 10 generally can be comprised of metal material, and it is used for being connected in an object 12 (such as the metal ironware), and is enclosed on the casing to protect its inner electronic component.Object 12 is used for holding electronic element or cable, it can roughly divide into big or middle and small-sized three kinds of specifications, bridge joint backboard 10 of the present utility model is applicable to the object 12 of any specification, and can be not poor because of the section between bridge joint backboard 10 and the object 12, cause bridge joint backboard 10 can't be installed on smoothly shortcoming on the casing because of generation bending and warpage.

See also Fig. 1 to Fig. 4, Fig. 2 is the bridge joint backboard 10 of the first embodiment of the present utility model and the element decomposing schematic representation of small article 12A, Fig. 3 is the bridge joint backboard 10 of the first embodiment of the present utility model and the element decomposing schematic representation of medium-sized object 12B, and Fig. 4 is the bridge joint backboard 10 of the first embodiment of the present utility model and the element decomposing schematic representation of large-sized object 12C.Bridge joint backboard 10 includes a main body 14.The surface of main body 14 preferably can be formed with an opening 16, two the first perforation structures 18 and four the second perforation structures 20.Opening 16 is formed on the zone line of main body 14, and the first perforation structure 18 is respectively formed at the both sides of adjacent openings 16, and the second perforation structure 20 is arranged at respectively the both sides of adjacent openings 16 and is positioned at the two ends (up and down two ends) of corresponding the first perforation structure 18.In other words, the first perforation structure 18 and the second perforation structure 20 adjacent being arranged at side by side on the main body 14.

For object 12 is installed on bridge joint backboard 10, as shown in Figure 2, the two fastening end 121A of small article 12A utilize respectively a retaining element 22 to secure on the first perforation structure 18 of bridge joint backboard 10; As shown in Figure 3, the two fastening end 121B of medium-sized object 12B utilize respectively retaining element 22 to secure on the first perforation structure 18 of bridge joint backboard 10; As shown in Figure 4, the four fastening end 121C of large-sized object 12C utilize respectively retaining element 22 to secure on the second perforation structure 20 of bridge joint backboard 10, with a displacement of restriction object 12 relative bridge joint backboards 10.Wherein, because the second perforation structure 20 only is used for cooperating the installation of large-sized object 12C, and the size of the first perforation structure 18 need design to cooperate the installation of small article 12A and medium-sized object 12B, so a length of the first perforation structure 18 in fact can be greater than a length of the second perforation structure 20.

Such as Fig. 1 and shown in Figure 2, bridge joint backboard 10 includes a holding section 24, a snapping section 26 and two slot structures 28 in addition.Holding section 24 is arranged on an end limit of main body 14, and snapping section 26 is arranged on the other end limit of main body 14 relative holding sections 24.Snapping section 26 can be a bent type swash plate, be used for inserting in the draw-in groove of casing in oblique mode, then holding section 24 snap in again casing in buckle, to reach the effect of support.In addition, one of them first perforation structure 18 is formed between opening 16 and the holding section 24, and another one the first perforation structure 18 is formed between opening 16 and the snapping section 26.Slot structure 28 is formed on the main body 14, and lay respectively between the first perforation structure 18 and the holding section 24, and the first perforation structure 18 and snapping section 26 between.

When object 12 locks to bridge joint backboard 10 by retaining element 22, the external carbuncle that retaining element 22 applies will be completely cut off by slot structure 28, can not be passed to holding section 24 or snapping section 26, therefore a length L 1 of slot structure 28 is not less than a length L 2 of (meaning namely greater than or equal in fact) first perforation structure 18, with the function of guaranteeing that effectively its isolated stress transmits.Because holding section 24 and snapping section 26 are not subject to the impact from the external carbuncle of retaining element 22, holding section 24 or snapping section 26 can maintain initial predeterminated position (not producing torsional deformation), be easy to the user bridge joint backboard 10 is installed on the casing.

See also Fig. 5, Fig. 5 is the synoptic diagram of the bridge joint backboard 30 of the second embodiment of the present utility model.The bridge joint backboard 30 of the second embodiment connects section 26 and the two slot structures 28 except including main body 14, opening 16, the first perforation structure 18, the second perforation structure 20, holding section 24,, also can include a strip sunk structure 32 in addition.Strip sunk structure 32 is formed on the main body 14 and a side of contiguous main body 14, and a sensing D1 of strip sunk structure 32 can intersect in fact (vertically) in a sensing D2 of slot structure 28.As shown in Figure 5, opening 16 is a rectangle structure, and rectangle structure has two relative minor face and two relatively short sides.Slot structure 28 is arranged at the position of the minor face of adjacent openings 16, and strip sunk structure 32 is arranged at the position on the long limit of adjacent openings 16.One length L 3 of strip sunk structure 32 can greater than or equal in fact a long edge lengths W1 of opening 16, but the two ends of strip sunk structure 32 do not exceed two the first perforation structures 18 (or second perforation structure 20).

The bridge joint backboard 10 of the first embodiment is when connecting medium-sized and large-sized object 12, the external carbuncle that its slot structure 28 can effectively completely cut off from retaining element 22 is delivered to holding section 24 and snapping section 26, therefore when object 12 is buckled bridge joint backboard 10, the two ends snap fit of bridge joint backboard 10 (holding section 24 and snapping section 26) can not depart from default initial position, can effectively solve the shortcoming that the easy generation of prior art can't be clipped to casing.Yet, the bridge joint backboard 10 of the first embodiment is when being connected to small article 12, twist with the part that snapping section 26 still has slightly its holding section 24, though do not affect engaging of bridge joint backboard 10 and casing, but the second embodiment arranges two groups of strip sunk structures 32 in addition on bridge joint backboard 30, it lays respectively at the side of main body 14.The strip sunk structure 32 of the second embodiment can further be strengthened the structural rigidity of main body 14, and therefore the bridge joint backboard 30 of the second embodiment all has splendid binding performance on small-sized, medium-sized or large-sized object 12.

See also Fig. 6, Fig. 6 is the synoptic diagram of the bridge joint backboard 40 of the 3rd embodiment of the present utility model.The bridge joint backboard 40 of the 3rd embodiment connects section 26 and the two slot structures 28 except including main body 14, opening 16, the first perforation structure 18, the second perforation structure 20, holding section 24,, also can include at least one folded edges 42 in addition, two folded edges 42 for example are arranged at the position on the long limit of adjacent openings 16.Two folded edges 42 are respectively formed at the dual side-edge of main body 14, and such as two relatively short sides of main body 14, and a sensing D3 of folded edges 42 intersects in fact (vertically) in a sensing of slot structure 28.As shown in Figure 6, one width W 2 of the first perforation structure 18 can be same as in fact a width W 3 of the second perforation structure 20, therefore a length L 4 of folded edges 42 is not more than in fact (meaning namely is less than or equal to) opening 16 (W1), first perforation structure 18 (W2), an and size summation of opening 16 and the part main body 14 of 18 of the first perforation structures, and meaning is the outer rim that a end that folded edges 42 is close to holding sections 24 does not protrude from corresponding the first perforation structure 18.In other words, distance between the outer end of first perforation structure 18 (or second perforation structure 20) of contiguous holding section 24 and the side that main body 14 arranges snapping section 26 is L5, because length L 4 can not be greater than distance L 5, so this end of folded edges 42 (side of contiguous holding section 24) does not exceed the outer rim of corresponding the first perforation structure 18 (or second perforation structure 20).

When using the bridge joint backboard 40 of the 3rd embodiment, two groups of slot structures 28 can effectively block the external carbuncle transmission from retaining element 22, avoid the distortion that is distorted of holding section 24 and snapping section 26, and two groups of folded edges 42 can effectively be strengthened the structural strength of main body 14 in addition, prevent main body 14 pressurizeds and the flexion torsion camber, thus, the utility model just can completely overcome the shortcoming of prior art, no matter bridge joint backboard 40 is arranged in pairs or groups small-sized, in the situation of medium-sized or large-sized object 12, not excessive distortion of main body 14 can both be kept, initial predeterminated position can be do not departed to guarantee holding section 24 and snapping section 26.In general, the folded edges 42 of the 3rd embodiment can be equivalent in fact the strip sunk structure 32 of the second embodiment, be that a selectivity is disposed on bridge joint backboard 30 or 40, meaning is configurable two the strip sunk structures of bridge joint backboard or two folded edges or a strip sunk structure and a folded edges, its configuration structure selected looked closely design requirement and decided, and no longer describes in detail in this.

See also Fig. 2 and Fig. 7 to Fig. 9, Fig. 7 to Fig. 9 is respectively the bridge joint backboard 40 of the 3rd embodiment of the present utility model and the cut-open view of the combination of different size object 12.As shown in Figure 7, when small article 12A locks bridge joint backboard 40, the border of small article 12A in fact around be squeezed in opening 16 around, retaining element 22 is installed on the first perforation structure 18 (section of having is poor) herein and pulls and presses down main body 14, and the zone line of main body 14 affords the strength that distortion is upwards heaved in contrary flexure.Yet the slot structure 28 of bridge joint backboard 40 can be used to the two ends (holding section 24 and snapping section 26) that isolated external carbuncle is delivered to main body 14, and its folded edges 42 can be in order to improve the structural strength of main body 14.Therefore bridge joint backboard 40 distortion that when being connected to small article 12A, can not be distorted.

As shown in Figure 8, when medium-sized object 14B locked bridge joint backboard 40, the two ends, border of medium-sized object 14B were in fact around opening 16, and extension contacts to the outer rim of slot structure 28.Retaining element 22 be installed on the first perforation structure 18 (section of having is poor herein) and with external carbuncle concentrate on the first perforation structure 18 around, the two ends of main body 14 (holding section 24 with snapping section 26) bears the opposition of upwards lifting.Yet as previously mentioned, slot structure 28 and the folded edges 42 of bridge joint backboard 40 can effectively completely cut off the stress transmission and improve the structural strength of main body 14, the distortion so bridge joint backboard 40 also can not be distorted when being connected to medium-sized object 12B.

As shown in Figure 9, when large-sized object 14C locks bridge joint backboard 40, the two ends, border of large-sized object 14C are in fact around opening 16, and extend and to contact to the outer rim of slot structure 28, retaining element 22 be installed on the second perforation structure 20 (section of having is poor herein) and with external carbuncle concentrate on the second perforation structure 20 around.The zone line of main body 14 bears the strength of downward extruding at this moment, and the upwards strength of bending distortion of contrary flexure is born with snapping section 26 in the holding section 24 at main body 14 two ends.Yet, slot structure 28 and the folded edges 42 of bridge joint backboard 40 of the present utility model still can be kept its isolated stress transmission and improve the function of the structural strength of main body 14, bridge joint backboard 40 can torsional deformation, and meaning is that the holding section 24 of bridge joint backboard 40 can maintain initial predeterminated position and unlikely disengaging casing with snapping section 26.

Compared to prior art, the utility model is design slot structure and folded edges (or strip sunk structure) on the main body of bridge joint backboard, bridge joint backboard of the present utility model is applicable to the object of all size, and the backboard that obviously improves prior art has easy bending distortion and the shortcoming that causes two ends to depart from.Bridge joint backboard of the present utility model can be controlled at the holding section at its two ends and the bending amplitude of snapping section in 0.1 ~ 0.2 thickness of slab, wherein thickness of slab refers to the structural thickness of bridge joint backboard, so the user can connect object with bridge joint backboard of the present utility model expediently, and smoothness is installed in it on casing simply.

The above only is preferred embodiment of the present utility model, and all equalizations of doing according to the utility model claim change and modify, and all should belong to covering scope of the present utility model.

Claims (16)

1. a bridge joint backboard is used for being connected in an object, it is characterized in that, this bridge joint backboard includes:

One main body, this main body has an opening, and this opening is formed at a zone line of this main body;

One first perforation structure, this first perforation structure are arranged at a side of contiguous this opening;

One second perforation structure, this second perforation structure are arranged at this side of contiguous this opening, and this first perforation structure is adjacent with this second perforation structure side by side;

One holding section is arranged at an end limit of this main body, and this first perforation structure is arranged between this opening and this holding section; And

One slot structure is formed on this main body, and between this first perforation structure and this holding section, a length of this slot structure is more than or equal to a length of this first perforation structure.

2. bridge joint backboard as claimed in claim 1, it is characterized in that this opening is a rectangle structure, this rectangle structure has two relative short edges and two relatively short sides, this slot structure is arranged on this main body, and the position of this minor face of contiguous this rectangle structure.

3. bridge joint backboard as claimed in claim 1 is characterized in that, this object utilizes a retaining element to be locked in this first perforation structure or this second perforation structure.

4. bridge joint backboard as claimed in claim 1, it is characterized in that, this bridge joint backboard also includes a snapping section, be arranged at the relatively other end limit of this holding section of this main body, the quantity of this first perforation structure is two, described two the first perforation structures are arranged at respectively between this opening and this holding section, and between this opening and this snapping section.

5. bridge joint backboard as claimed in claim 4 is characterized in that, the quantity of this slot structure is two, and described two slot structures lay respectively between corresponding the first perforation structure with this in this holding section and this snapping section.

6. bridge joint backboard as claimed in claim 2 is characterized in that, also includes:

One folded edges is formed on a side of this main body, and is close to the position on this long limit of this rectangle structure, and one of this slot structure of a directed in orthogonal of this folded edges is pointed to.

7. bridge joint backboard as claimed in claim 6 is characterized in that, an end of this folded edges does not exceed this first perforation structure.

8. bridge joint backboard as claimed in claim 7 is characterized in that, this end of this folded edges does not exceed this second perforation structure.

9. bridge joint backboard as claimed in claim 2 is characterized in that, also includes:

One strip sunk structure is formed on this main body and a side of contiguous this main body, and the position on this long limit of contiguous this rectangle structure, and one of this slot structure of a directed in orthogonal of this strip sunk structure is pointed to.

10. bridge joint backboard as claimed in claim 9 is characterized in that, the quantity of this first perforation structure is two, is arranged at respectively the relative both sides of this opening, and the two ends of this strip sunk structure do not exceed described two the first perforation structures.

11. such as claim 9 or 10 described bridge joint backboards, it is characterized in that, the quantity of this second perforation structure is two, is arranged at respectively the relative both sides of this opening and is positioned at this end of this corresponding the first perforation structure, and the two ends of this strip sunk structure do not exceed described two the second perforation structures.

12. bridge joint backboard as claimed in claim 9 is characterized in that, a length of this strip sunk structure is more than or equal to a length on this long limit of this opening.

13. bridge joint backboard as claimed in claim 1 is characterized in that, a width of this first perforation structure is same as a width of this second perforation structure.

14. bridge joint backboard as claimed in claim 11, it is characterized in that, described two the second perforation structures are arranged at respectively the two ends of this first perforation structure, and this sensing of described two the second perforation structures and parallel this slot structure of the orientation of this first perforation structure.

15. bridge joint backboard as claimed in claim 2 is characterized in that, this bridge joint backboard also includes a folded edges and a strip sunk structure, is formed at respectively two relative sides of this main body, and the position on this long limit of contiguous this rectangle structure.

16. bridge joint backboard as claimed in claim 1 is characterized in that, the bridge joint backboard of described bridge joint backboard for being comprised of metal material.

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