Summary of the invention
Embodiments provide a kind of bunching box and be provided with the electronic equipment of this bunching box, solve in prior art the wire be connected between casing and cabinet door easily damaged, the technical problem that fail safe is poor.
For achieving the above object, embodiments of the invention adopt following technical scheme:
This bunching box, comprises the first hinge, the second hinge, and described first hinge is provided with the first location structure and the first frame, and described second hinge is provided with the second location structure and the second frame, wherein:
Described first hinge is fixed on the first outer surface level by described first location structure;
Described second hinge is fixed on the second outer surface level by described second location structure;
Described first frame is connected with the edge of described first hinge and there is the first angle between described first frame and described first hinge;
Described second frame is connected with the edge of described second hinge and there is the second angle between described second frame and described second hinge;
Described first frame close to the bottom of the side of described second frame, described second frame close to the side of described first frame top all in spirogyrate and both intermesh;
The upper end of the part in spirogyrate on described first frame offers the first guide through hole;
The lower end of the part in spirogyrate on described second frame offers the second guide through hole;
Described first guide through hole overlaps mutually with the axial line of the second guide through hole;
Described first hinge and described second hinge can relatively rotate around described axial line.
Further, the angle value of described first angle and/or described second angle is between 80 ° ~ 100 °, and described first frame extends towards the direction close to described first outer surface level, and described second frame extends towards the direction close to described second outer surface level.
Further, described first location structure comprises at least one first securing member and at least one the first boss, wherein:
Described first boss to be fixedly arranged on described first hinge and to extend towards close on described first outer surface level direction, and described first boss offers the first positioning through hole;
Described first hinge is fixed on the first outer surface level by described first positioning through hole by described first securing member;
Described second location structure comprises at least one second securing member and at least one the second boss, wherein:
Described second boss to be fixedly arranged on described second hinge and to extend towards close on described second outer surface level direction, and described second boss offers the second positioning through hole;
Described second hinge is fixed on the second outer surface level by described second positioning through hole by described second securing member.
Further, described first hinge is fixed with the first limited wall, described second hinge is fixed with the second limited wall, wherein:
Described first limited wall comprises two parts, wherein the bearing of trend of a part parallels with the bottom of described first frame and there is gap between the bottom of this part and the first frame, and wherein the bearing of trend of another part parallels with the direction of described axial line and there is gap between part in spirogyrate on this part and described first frame;
Described second limited wall comprises two parts, wherein the bearing of trend of a part parallels with the top of described second frame and there is gap between the top of this part and the second frame, and wherein the bearing of trend of another part parallels with the direction of described axial line and there is gap between part in spirogyrate on this part and described second frame.
Further, the hole wall of described first guide through hole offers the first connected entrance, the hole wall of described second guide through hole offers the second connected entrance, wherein:
Described wire can be put into described first guide through hole by the radial direction of described first connected entrance along wire and make described wire be embedded between described first limited wall and described first frame;
Described wire can be put into described second guide through hole by the radial direction of described second connected entrance along wire and described wire is embedded between described second limited wall and described second frame.
Further, described first hinge is symmetrically arranged with two described first boss, the part that on described first limited wall, bearing of trend parallels with the bottom of described first frame is tangent with the lower edge close to described first boss of the bottom of described first frame in two described first boss;
Described second hinge is symmetrically arranged with two described second boss, the part that on described second limited wall, bearing of trend parallels with the top of described second frame is tangent with the upper edge close to described second boss on the top of described second frame in two described second boss.
Further, described first hinge also offers the first opening, described first opening is covered with the first lid, described first lid and described first frame removably connect;
Described second hinge also offers the second opening, described second opening is covered with the second lid, described second lid and described second frame removably connect.
Further, when described first lid is installed on described first frame, also can cover described first positioning through hole; When described second lid is installed on described second frame, also can cover described second positioning through hole.
Further, the arc surfaced of described second hinge all in indent between the part in spirogyrate on described first hinge between the part in spirogyrate on described first limited wall and described first frame and described second limited wall and described second frame.
This electronic equipment, comprises casing, cabinet door and is arranged at the bunching box that the invention described above between described casing and cabinet door provides, wherein:
Described cabinet door is flexibly connected by hinge or drive-connecting shaft with described casing, and described cabinet door can around the pivot center of described hinge or the relatively described body pivot of drive-connecting shaft;
Described first guide through hole on described bunching box and the axial line of described first guide through hole and the pivot center of described hinge or described drive-connecting shaft coincide;
Described first outer surface level is arranged on described cabinet door or described casing, and described first outer surface level offers the first line outlet;
Described second outer surface level is arranged on described casing or described cabinet door, and described second outer surface level offers the second line outlet;
The wire passing described first line outlet or described second line outlet penetrates described second line outlet or described first line outlet after described first guide through hole on described bunching box and described first guide through hole.
Further, described electronic equipment is refrigerator or refrigerator-freezer.
Compared with prior art, the arbitrary technical scheme tool in technique scheme provided by the present invention has the following advantages:
Because the first hinge in bunching box provided by the present invention is fixed on the first outer surface level by the first location structure, second hinge is fixed on the second outer surface level by the second location structure, when the first outer surface level is arranged on cabinet door or casing, when second outer surface level is arranged on casing or cabinet door, first hinge is just fixed on cabinet door or casing by the first location structure, and the second hinge is fixed on casing or cabinet door by the second location structure;
When cabinet door is flexibly connected by hinge or drive-connecting shaft with casing, cabinet door can rotate around the pivot center of hinge or drive-connecting shaft opposite case, and the first guide through hole on bunching box and the axial line of the first guide through hole and the pivot center of hinge or drive-connecting shaft are when coinciding, in the process that cabinet door opposite case rotates, the first hinge and the second hinge also can be driven to relatively rotate around the first guide through hole and the first guide through hole axial line;
If make wire between cabinet door and casing (such as: holding wire, the cables such as power line) the first guide through hole on bunching box and the first guide through hole, the first guide through hole then on bunching box and the wire of the first guide through hole necessarily pass the first guide through hole and the first guide through hole axial line, and during the rotation of cabinet door opposite case, the twisting resistance that wire is applied and cabinet door, the arris of casing applies clamping force to wire and cutting force is substantially all consistent with the radial direction of the wire through the first guide through hole and the first guide through hole, and this part wire passing the first guide through hole and the first guide through hole can be subject to the protection of the first guide through hole and the first guide through hole hole wall in radial directions, under the protection of the first guide through hole and the first guide through hole hole wall, wire can not suffer damage, simultaneously, because the first frame, the first hinge and the second frame and the second hinge can also avoid surrounding articles to damage wire, so improve useful life and the fail safe of the wire between casing and cabinet door, and then also solve in prior art the technical problem that wire is easily damaged, fail safe is poor be connected between casing and cabinet door.
Embodiment
Below in conjunction with accompanying drawing, the embodiment of the present invention is described in detail.
Embodiments provide that wire between a kind of casing and cabinet door is not easily damaged, fail safe better and the bunching box of the junction profile better appearance of cabinet door and wire and be provided with the electronic equipment of this bunching box.
As shown in Figure 5 and Figure 8, the bunching box that the embodiment of the present invention provides, comprises the first hinge 1, second hinge 2, first hinge 1 and is provided with the first location structure 11 and the first frame 12, second hinge 2 is provided with the second location structure 21 and the second frame 22, wherein:
First hinge 1 is fixed on as shown in Figure 10 and Figure 11 on the first outer surface level 13 by the first location structure 11;
Second hinge 2 is fixed on as shown in Figure 10 and Figure 11 on the second outer surface level 23 by the second location structure 21;
First frame 12 is connected with the edge of the first hinge 1 and there is the first angle 14 between the first frame 12 and the first hinge 1;
Second frame 22 is connected with the edge of the second hinge 2 and there is the second angle 24 between the second frame 22 and the second hinge 2;
First frame 12 close to the bottom of the side of the second frame 22, the second frame 22 close to the side of the first frame 12 top all in spirogyrate and both intermesh;
The upper end of the part in spirogyrate on the first frame 12 offers the first guide through hole 15;
The lower end of the part in spirogyrate on the second frame 22 offers the second guide through hole 25;
First guide through hole 15 overlaps mutually with the axial line of the second guide through hole 25;
First hinge 1 and the second hinge 2 can relatively rotate around axial line.
Because the first hinge 1 in bunching box provided by the present invention is fixed on the first outer surface level 13 by the first location structure 11, second hinge 2 is fixed on the second outer surface level 23 by the second location structure 21, when the first outer surface level 13 is arranged on cabinet door 8 or casing 9, when second outer surface level 23 is arranged on casing 9 or cabinet door 8, first hinge 1 is just fixed on cabinet door 8 or casing 9 by the first location structure 11, and the second hinge 2 is fixed on casing 9 or cabinet door 8 by the second location structure 21;
When cabinet door 8 is flexibly connected by hinge 7 or drive-connecting shaft with casing 9 as shown in Figure 9 and Figure 10, cabinet door 8 can rotate around the pivot center of hinge 7 or drive-connecting shaft opposite case 9, and the first guide through hole 15 on bunching box and the axial line of the first guide through hole 15 and the pivot center of hinge 7 or drive-connecting shaft are when coinciding, in the process that cabinet door 8 opposite case 9 rotates, the first hinge 1 and the second hinge 2 also can be driven to relatively rotate around the first guide through hole 15 and the first guide through hole 15 axial line;
If make wire 5 between cabinet door 8 and casing 9 (such as: holding wire, the cables such as power line) the first guide through hole 15 and the first guide through hole 15 on bunching box, the first guide through hole 15 then on bunching box and the wire 5 of the first guide through hole 15 necessarily pass the first guide through hole 15 and the first guide through hole 15 axial line, and during the rotation of cabinet door 8 opposite case, the twisting resistance that wire 5 is applied and cabinet door 8, the arris of casing 9 applies clamping force to wire 5 and cutting force is substantially all consistent with the radial direction of the wire 5 through the first guide through hole 15 and the first guide through hole 15, and this part wire 5 passing the first guide through hole 15 and the first guide through hole 15 can be subject to the protection of the first guide through hole 15 and the first guide through hole 15 hole wall in radial directions, under the protection of the first guide through hole 15 and the first guide through hole 15 hole wall, wire 5 can not suffer damage, simultaneously, because the first frame 12, first hinge 1 and the second frame 22 and the second hinge 2 can also avoid surrounding articles to damage wire 5, so improve useful life and the fail safe of the wire 5 between casing 9 and cabinet door 8, and then also solve in prior art the technical problem that wire 5 is easily damaged, fail safe is poor be connected between casing 9 and cabinet door 8
As shown in Figure 5 and Figure 6, in the present embodiment, the first frame 12 and the first hinge 1, second frame 22 and the second hinge 2 can be all integral type structure, such as: can form the first frame 12, by bend or the method at edge of punching press second hinge 2 forms the second frame 22 by the method at the edge of bending or punching press first hinge 1; First frame 12 and the first hinge 1, second frame 22 and the second hinge 2 can also be two independently split-type structurals, are fixed together by methods of attachment such as welding, riveted joint or bondings.
The angle value of the first angle 14 and/or the second angle 24 is as shown in Figure 6 between 80 ° ~ 100 ° as shown in Figure 2, and the first frame 12 extends towards the direction close to the first outer surface level 13, and the second frame 22 extends towards the direction close to the second outer surface level 23.
In this structure, when first guide through hole 15 of wire 5 on bunching box and the first guide through hole 15, first frame 12, first hinge 1 and the second frame 22, second hinge 2 are located at outside wire 5, compared with wire exposed in prior art, the setting of bunching box avoids wire 5 and is directly exposed to casing 9 and cabinet door 8 surface and produced problem, make casing 9, cabinet door 8 more attractive in appearance profile with the junction of wire 5, user can be given a kind of fine and smooth sensation of doing manual work.
In the present embodiment, the first angle 14 is preferably 90 ° with the angle value of the second angle 24 as shown in Figure 6 as shown in Figure 2.This design not only facilitates the manufacture of angle, and facilitates installation personnel to grab by bunching box provided by the present invention, meanwhile, can ensure that the first hinge 1 and the second hinge 2 exist sufficient space to hold wire 5.
As shown in Figure 8, the first location structure 11 comprises at least one the first securing member 16 and at least one first boss 17 as shown in figure 11, wherein:
First boss 17 to be fixedly arranged on the first hinge 1 and to extend towards close on the first outer surface level 13 direction, the first boss 17 offers the first positioning through hole 18;
First hinge 1 is fixed on the first outer surface level 13 by the first positioning through hole 18 by the first securing member 16;
Second location structure 21 comprises at least one the second securing member 26 and at least one second boss 27 as shown in figure 11, wherein:
Second boss 27 to be fixedly arranged on the second hinge 2 and to extend towards close on the second outer surface level 23 direction, the second boss 27 offers the second positioning through hole 28;
Second hinge 2 is fixed on the second outer surface level 23 by the second positioning through hole 28 by the second securing member 26.
In the present embodiment, the first securing member 16 and the second securing member 26 all can adopt screw, certainly, also can adopt other securing members such as bolt, rope or clip.First location structure 11, second location structure 21 can also be fastener matching structure.First location structure 11 both can be identical with both the second location structures 21, also can be different.
First hinge 1 is fixed with on the first limited wall 19, second hinge 2 and is fixed with the second limited wall 29, wherein:
First limited wall 19 comprises two parts, wherein the bearing of trend of a part parallels with the bottom of the first frame 12 and there is gap between the bottom of this part and the first frame 12, and wherein the bearing of trend of another part parallels with the direction of axial line and there is gap between part in spirogyrate on this part and the first frame 12;
Second limited wall 29 comprises two parts, wherein the bearing of trend of a part parallels with the top of the second frame 22 and there is gap between the top of this part and the second frame 22, and wherein the bearing of trend of another part parallels with the direction of axial line and there is gap between part in spirogyrate on this part and the second frame 22.
Between the part between the first limited wall 19 and the bottom of the first frame 12 and in spirogyrate on the first limited wall 19 and the first frame 12, all gap is there is between part between second limited wall 29 and the top of the second frame 22 and in spirogyrate on the second limited wall 29 and the second frame 22, through the first guide through hole 15, when the wire 5 of the second guide through hole 25 is positioned in above gap, wire 5 and the first guide through hole 15 can be ensured, the axial line of the second guide through hole 25 overlaps substantially, like this, first hinge 1 and the second hinge 2 are when axial line relatively rotates, at the first limited wall 19 and the first frame 12, under protective effect on second limited wall 29 and the second frame 22, greatly reduce the possibility that wire 5 is impaired.
The hole wall hole wall of the first guide through hole 15 offering the first connected entrance 101, second guide through hole 25 offers the second connected entrance 201, wherein:
Wire 5 can be put into the first guide through hole 15 by the radial direction of the first connected entrance 101 along wire 5 and make wire 5 be embedded between the first limited wall 19 and the first frame 12;
Wire 5 can be put into the second guide through hole 25 by the radial direction of the second connected entrance 201 along wire 5 and wire 5 is embedded between the second limited wall 29 and the second frame 22.
The setting of the first connected entrance 101 and the second connected entrance 201 not only facilitate wire 5 lead-in wire operation, facilitate wire 5 combing, and only wire 5 need be put into the first guide through hole 15 and make wire 5 be embedded between the first limited wall 19 and the first frame 12, then after the part in spirogyrate on part and the first frame 12 in spirogyrate on the second frame 22 being staggeredly placed, again by both grafting in opposite directions, just the part in spirogyrate on the first frame 12 can be assembled together with the engaging of part in spirogyrate on the second frame 22.
First hinge 1 is symmetrically arranged with the part that on two the first boss 17, first limited walls 19, bearing of trend parallels with the bottom of the first frame 12 tangent with the lower edge close to the first boss 17 of the bottom of the first frame 12 in two the first boss 17;
Second hinge 2 is symmetrically arranged with the part that on two the second boss 27, second limited walls 29, bearing of trend parallels with the top of the second frame 22 tangent with the upper edge close to second boss 27 on the top of the second frame 22 in two the second boss 27.
This structure can make the first limited wall 19 smoother with the first boss 17 junction close to the first frame 12 bottom, second limited wall 29 is smoother with the junction close to second boss 27 on the second frame 22 top, and then make the gap between the first limited wall 19 and the first frame 12 and between the second limited wall 29 and the second frame 22 more smooth and easy, insertion wire 5 of being more convenient for.
First hinge 1 also offers and the first opening 30, first opening 30 is covered with the first lid 3, first lid 3 and the first frame 12 removably connects;
Second hinge 2 also offers and the second opening 40, second opening 40 is covered with the second lid 4, second lid 4 and the second frame 22 removably connects.
By the first opening 30, operating personnel can observe the cabling situation of the first hinge 1 inside conductor 5, can also by the wire 5 in the first opening 30 manual combing first hinge 1, the position of adjustment wire 5, after using the first opening 30, install the first lid 3 first opening 30 is covered, better appearance in the profile that can ensure the first hinge 1, fine and smooth, in like manner, by the second opening 40, operating personnel can observe the cabling situation of the second hinge 2 inside conductor 5, can also by the wire 5 in the second opening 40 manual combing second hinge 2, the position of adjustment wire 5, after using the second opening 40, install the second lid 4 second opening 40 is covered, better appearance in the profile that can ensure the second hinge 2, fine and smooth.
The first lid 3 as shown in Figure 3 and Figure 4 and as shown in figure 5 and figure 7 the second lid 4 is provided with multiple buckle 10 in the present embodiment, first frame 12 and the second frame 22 are provided with the draw-in groove 101 as shown in Figure 5 matched with buckle 10 respectively, and buckle 10 is embedded in can be formed after in draw-in groove 101 and removably connects.What use buckle 10, draw-in groove 101 to coordinate removably connects, and can complete the installation and removal operation of the first lid 3 and the second lid 4 by instrument.Certainly, the first lid 3 and the second lid 4 can also adopt screw, bolted method is fixed on the first frame 12 or the second frame 22.
As further improvement of this embodiment, when the first lid 3 is installed on the first frame 12 in the present embodiment, also can cover the first positioning through hole 18; When second lid 4 is installed on the second frame 22, also can cover the second positioning through hole 28.
When first positioning through hole 18 and the second positioning through hole 28 expose, attractive in appearance not in appearance, so the first lid 3, second lid 4 can be used first positioning through hole 18 and the second positioning through hole 28 to be covered respectively, the first positioning through hole 18 and the second positioning through hole 28 is avoided to expose.
As shown in Figure 7 and Figure 8, the arc surfaced of the second hinge 2 all in indent between the part in spirogyrate on the first hinge 1 between the part in spirogyrate on the first limited wall 19 and the first frame 12 and the second limited wall 29 and the second frame 22.
The arc surfaced shape of indent and the shape of wire 5 are suitable, not only inside can space larger, more wires 5 can be held, and wire 5 to be embedded between the first limited wall 19 and the first frame 12 and between the second limited wall 29 and the second frame 22 after, wire 5 and the first hinge 1 or the second hinge 2 can be made to fit closely, ensure that wire 5 is stressed more even everywhere.
As shown in Fig. 9, Figure 10 and Figure 11, electronic equipment provided by the present invention, comprises casing 9, cabinet door 8 and is arranged at the bunching box that the invention described above between casing 9 and cabinet door 8 provides, wherein:
Cabinet door 8 is flexibly connected by hinge 7 or drive-connecting shaft with casing 9, and cabinet door 8 can rotate around the pivot center of hinge 7 or drive-connecting shaft opposite case 9;
The first guide through hole 15 on bunching box and the axial line of the first guide through hole 15 and the pivot center of hinge 7 or drive-connecting shaft coincide;
First outer surface level 13 is arranged on cabinet door 8 or casing 9, and the first outer surface level 13 offers the first line outlet 61 as shown in figure 11;
Second outer surface level 23 is arranged on casing 9 or cabinet door 8, the second outer surface level 23 offers the second line outlet 62 as shown in figure 11;
The wire 5 passing the first line outlet 61 or the second line outlet 62 penetrates the second line outlet 62 or the first line outlet 61 after the first guide through hole 15 on bunching box and the first guide through hole 15.
Because the embodiment of the present invention has the technical characteristic identical with the bunching box that the invention described above embodiment provides, so both not only have unicity but also can produce identical technique effect, solve identical technical problem.Certainly, in the present embodiment, cabinet door 8 can also be flexibly connected by other syndetons outside hinge 7 or drive-connecting shaft with casing 9.
As shown in Figure 9 and Figure 10, in the present embodiment, the first outer surface level 13 is arranged on casing 9, and the second outer surface level 23 is arranged on cabinet door 8.Certainly, both can turn upside down respectively in the position of the first outer surface level 13 and the second outer surface level 23, also can replace each other.
In the present embodiment, electronic equipment is preferably refrigerator or refrigerator-freezer.As shown in Figure 9 and Figure 10, between the cabinet door 8 of refrigerator or refrigerator-freezer and casing 9, be provided with many wires 5, so be suitable for the bunching box adopting the invention described above to provide.
Certainly, bunching box provided by the invention can also be applied on other electronic equipments outside refrigerator or refrigerator-freezer, such as: temperature incubation chamber, chromatography case etc.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.