CN205601712U - A divide device for storage box - Google Patents

Abstract

The utility model discloses the division device includes: the first and second adj. Tabular screen work spares, through including rotation axis's pivot piecing devices joint each other rotatably, screen work spare includes: coupling part, it extends along rotation axis, tip including the marginal portion surface, marginal portion supports on the surface by being located relative position's internal surface each other when screen work spare is in development condition, the main part is located between the tip and coupling part of screen work spare separately. Consequently the internal surface portion of the second surface of the adj. Tabular screen work spare among the coupling part forms the concave part of dividing the device towards each other, and the concave part sets up along rotation axis, is used for holding locking device, and rotation axis and connecting wire are set to the pivot piecing devices has an interval, and connecting wire perpendicular to rotation axis extends and connect the point on screen work spare marginal portion surface each other, when dividing the device at the biggest development condition the point lies in and leaves rotation axis position the farthest away.

Description

Division device for storage box

Technical field

This utility model relates to the division device of storage box.

Background technology

A kind of collapsible shelf for refrigerator is understood from EP 17 90 250 A.

Utility model content

Task of the present utility model is to provide a kind of division device for storage box, uses this division device, can do storage box simply and operate flexibly.

According to this utility model, division device includes: the first and second tabular screen work parts, wherein screen work part is engaged with each other by the pivot fitting device including rotation axis is rotatable, wherein screen work part respectively includes first surface and second surface, described second surface is positioned at the position relative with first surface, and wherein screen work part respectively includes:

-connecting portion, described connecting portion extends along described rotation axis, and wherein the connecting portion of screen work part is engaged with each other by pivot fitting device,

-including the end on edge part surface, the sensing on described edge part surface is away from rotation axis, and when screen work part is in deployed condition, described edge part surface is provided for abutting against the inner surface of position relative to each other together and places,

-main part, described main body section between end and the connecting portion of respective screen work part,

Wherein pivot fitting device is embodied such, that be exactly rotation axis be a rotation axis spaced out with connecting line, described connecting line is perpendicular to rotation axis and extends, and being connected to each other by the point on screen work part edge part surface, described point is positioned at the corresponding device maximum deployed condition that divides and leaves the position that rotation axis is farthest.

According to the embodiment of division device, in screen work part includes that in two selectable guides is as the first guide

(a) guide rail

(b) guide member

Guide various in the case of, according to the first guide, locking device includes profiled part, described profiled part includes the second guide corresponding in selectable guide (a) or (b), described second guide coordinates with selectable first guide, locking device can move towards the direction of rotation axis relative to screen work part between off-position and latched position, in these cases, the contact surface of profiled part contacts with the second surface of a respective screen work part, described contact surface is positioned at relative to rotation axis and as to be mutually facing, so that locking screen work part prevents it from folding, the folding of described screen work part corresponds to second surface and moves towards each other.

nullAccording to the embodiment dividing device，Divide device and include the locking device of profiled part，Described profiled part uses that guide is engaged in screen work part，Wherein profiled part includes the guide member of holding member form，Described profiled part includes may select the second guide corresponding in (a) or (b)，Described second guide may select guide with first and coordinates，Described profiled part can be relative to screen work part，Direction towards rotation axis，Moved between off-position and latched position，In these cases，The contact surface (described contact surface is in relative to rotation axis and as to be mutually facing) of profiled part sticking department，Contact with in the second surface of respective screen work part，So that locking screen work part prevents the folding of screen work part，Corresponding described folding，Second surface is moved toward each other.

In the case of dividing device embodiment, divide device and include recess, described recess utilizes inner surface portion to shape, described inner surface portion face each other and be arranged on the connecting portion of tabular screen work part second surface, so when dividing device and being in deployed condition to be locked, by profiled part is inserted recess, outer surface relative to each other can be made to enter into the state contacted with inner surface portion, so that locking divides the deployed condition of device, the second surface of tabular screen work part is prevented to be moved toward each other.

In the case of dividing device embodiment, recess can include one in following shape, and the direction towards rotation axis is observed:

-trapezoidal,

-triangle, the therefore shape of special right angled triangle, in the case of right-angle triangle, right angle is positioned at the position of rotation axis.

In the case of dividing device embodiment, pivot fitting device includes shaft member, described shaft member is positioned at axle recess, its axis recess is formed from Part I recess and Part II recess, in the first screen work part that described Part I recess is implemented in screen work part, in the second screen work part that described Part II recess is implemented in screen work part.

In the case of dividing device embodiment, locking device includes profiled part, described profiled part includes guide rail and guide member, the most described profiled part can move towards the direction of rotation axis along guide rail between lock-out state and release conditions, on the connecting portion of during wherein guide rail is embodied in screen work part, and guide member is embodied on profiled part, otherwise or too.

In the case of dividing device embodiment, screen work part is designed to, for its cross section, described cross section is under any circumstance with extension at a right angle with the direction of rotation axis, connecting portion and main part are under any circumstance to extend the most at an angle, and it is so designed, that is exactly the position that rotation axis is positioned at the rotation axis spaced out with connecting line, described connecting line is perpendicular to rotation axis and extends and be connected to each other by the point on screen work part edge part surface, when the point on described edge part surface is positioned at response division device maximum deployed condition, leave the position of rotation axis maximum distance.

In the case of dividing device embodiment, the edge part surface of each end has molded surface design, is used for producing frictional connection between edge part surface and inner surface, and described inner surface is positioned at and as to be mutually facing.

In the directional information being previously mentioned within a context, described directional information can relate to the trend on contour line or surface, or the direction of machine components can be related to, such as axle or bar, the expression on " edge " here can particularly show the local of moving towards of the following meaning, contour line or surface tangent and be different from reference direction or reference axis, for involved by directional information, respectively according to directional information or the longitudinal axis of longitudinal extended line, such as machine components, become the angle of maximum 45 degree preferably at most 30 degree.

The utility model has the advantage of, use this division device storage box can be done simply and operate flexibly.

Accompanying drawing explanation

Appended for use numeral is described below by embodiment of the present utility model:

Fig. 1 shows have the automotive interior dividing three kinds of exemplary application of device according to storage box of the present utility model；

Fig. 2 shows the cross sectional view dividing device embodiment being in open mode according to this utility model, described division device partly launches about rotation axis, and between two inner surfacies of two face each other of frame mounting, it is in the first confined state, abuts against the inner surface of frame mounting in the outer end of this state demarcation device；

Fig. 3 shows that in the way of cross sectional view Fig. 2 divides the embodiment of device, wherein divide device and be in fully deployed state, and between two inner surfacies of two face each other of frame mounting, it is in the second confined state, inner surface at the outer end supporting framework device of this state demarcation device, and dividing device and be fixed to the inner surface of frame mounting, the most fully deployed open state uses the locking member locking of locking device；

Fig. 4 shows according to this utility model, is according to the partially unfolded open state of Fig. 2, divides the axonometric chart of device embodiment as shown in Figures 2 and 3；

Fig. 5 shows the utility model according to Fig. 2 to 4, in the axonometric chart of Fig. 4, is in the embodiment dividing device according to the fully deployed open state of Fig. 3, and wherein locking member is not located at the locked state according to Fig. 3；

Fig. 6 shows the utility model according to Fig. 2 to 5, in the axonometric chart of Fig. 4, is in the embodiment dividing device according to the fully deployed open state of Fig. 3, and wherein locking member is in the locked state according to Fig. 3；

Fig. 7 shows the cross sectional view dividing device embodiment of the utility model according to Fig. 2, and wherein locking member is not located at the locked state according to Fig. 3；

Fig. 8 shows the utility model according to Fig. 2, and the embodiment dividing device in Fig. 7 cross sectional view, wherein locking member is in the locked state according to Fig. 3；

Fig. 9 shows that in Fig. 2 cross sectional view, Fig. 2 divides device further embodiment, wherein, as being compared with Fig. 2, locking device is selectable mode, wherein divide device and be in the state of fully deployed opening, and between two inner surfacies of two face each other of frame mounting, it is in the second confined state, outer end portion at this state demarcation device bears against the inner surface of frame mounting, and dividing device and be fixed to the inner surface of frame mounting, the most fully deployed open state uses the locking member locking of locking device；

Figure 10 shows the division device further embodiment including locking device further embodiment in a perspective view, wherein divides device and is in the state of fully deployed opening, and the locking member of locking device is in locked state；

Figure 11 shows the axonometric chart of display locking device embodiment in Fig. 10；

Figure 12 shows the axonometric chart as the locking device further embodiment compared with the embodiment of the locking device shown in fig. 11；

Figure 13 shows the axonometric chart as the locking device further embodiment compared with the embodiment of the locking device shown in figs. 11 and 12；

Figure 14 shows division device further embodiment in a perspective view, wherein divides device and is in the state of fully deployed opening, and the locking member of locking device is in locked state；

Figure 15 and 16 is the another embodiment dividing device, and wherein surface, marginal portion is embodied as having tumor body.

Detailed description of the invention

Fig. 1 shows the inside IR of motor vehicles, and the inside IR of described motor vehicles includes the inside IR being implemented in motor vehicles according to of the present utility model three exemplary application dividing device 1 for storage box or storage device, described storage box or storage device.Be fixed to coordinate system KS-F of motor vehicles, by longitudinal vehicle axle X, lateral vehicle axle Y Z-shaped with vertical axle for vehicle become, it is included in Fig. 1.

Being provided specifically for inserting frame mounting R according to division device 1 of the present utility model, described frame mounting R is disposed in the inside IR of motor vehicles, and includes two sidewalls R1, R2.Sidewall R1, R2 include inner surface R3 or R4, two of which inner surface R3 or R4 respectively, are respectively set at so that the position faced each other, are therefore arranged on the position faced each other.According to the embodiment of frame mounting R, inner surface R3 or R4, at least blockiness ground, on the smooth longitudinal extended line of each of which, are respectively relative to extend each other.Frame mounting R also is able to include transverse wall R5, R6, and described transverse wall R5, R6 are separated from one another and sidewall R1, R2 are connected to each other in their end.Frame mounting R also can be embodied such, that is, transverse wall R5, R6 supporting side walls R1, R2 rely on each other.Division device 1 is arranged to it and is inserted between sidewall R3, R4 and therefore against sidewall R3, R4.

Sidewall R3, R4 and, if applicable, transverse wall R5, R6, car body supporting assembly or vehicle body assembly can be arranged on, the paneling part of such as vehicle, sidewall and transverse wall are therefore, it is possible to respectively become the part of car body supporting assembly or intraware, therefore, it is possible to become their overall part.

Storage box divides first example of device 1 application, and the embodiment of frame mounting R is attached in FIG, in the inside of vehicle as the inner assembly of console B2 independence.In shown design, the embodiment of frame mounting R is disposed on upper surface B21, and is alternatively secured to there, and described upper surface B21 points to the direction of Z.Frame mounting R also is able to be positioned in the recess of console 20, and the most such recess can be embodied in upper surface B21 or side surface B22.Sidewall R3, R4 are therefore, it is possible to become the wall portion of console B2.

In second embodiment shown in FIG, frame mounting R is integrated into instrument board B3 as storage device.

Fig. 1 also show instrument panel shell part B 4, and frame mounting 10 is embodied in this instrument panel shell part B 4.

Divide device 1 and include the first tabular screen work part 11 and the second tabular screen work part 12.Screen work part 11,12 uses pivot fitting device 30 to be rotatably engaged with each other, and wherein pivot fitting device 30 forms rotation axis A.

Each in screen work part 11,12 includes first surface 11a or 12a and second surface 11b or 12b respectively, described first surface 11a or 12a can be provided for receiving object, and described second surface 11b or 12b lays respectively at and respective position contrary for first surface 11a or 12a.Divide device 1 to enable in particular to so be inserted between two inner surfacies R3, R4, that is exactly first surface 11a, 12a (example of B3 and B4 as using Fig. 1 to use) towards the direction in opposite direction with gravity, therefore points to the upwardly direction in opposite direction relative to gravity.

Screen work part 11, each in 12 includes that connecting portion 13 or 14, end 15 or 16, and main part 21 or 22, described main part 21 or 22 lay respectively between respective end 15 or 16 and respective connecting portion 13 or 14 respectively.Especially, screen work part 11, each in 12 can integrally be implemented.Connecting portion 13,14 extends along rotation axis A, and wherein the connecting portion 13 or 14 of screen work part 11 or 12 is engaged each other by pivot fitting device 30 respectively.

In the case of dividing device 1 embodiment, pivot fitting device 30 is arranged to rotation axis A and is positioned at the position of the rotation axis spaced out with connecting line, described connecting line is perpendicular to rotation axis A and extends and by screen work part 11, the point on 12 edge part surfaces is connected to each other, when the point on described edge part surface is positioned at response division device 1 maximum deployed condition, leave the position of rotation axis A maximum distance.

In the case of dividing device 1 shown in Fig. 2 to 6, pivot fitting device 30 includes shaft member 21, and it includes

The connector portions 23 of-connecting portion 13, described connector portions 23 extends towards the direction of rotation axis A, and

The connector portions 24 of-connecting portion 14, described connector portions 24 extends towards the direction of rotation axis A, and towards the direction observation of rotation axis A, is positioned at the downstream of the connector portions 23 of connecting portion 13,

Connector portions 23 and 24 is along the sectional circumferencial direction of shaft member 21.

Therefore the connector portions 23 of connecting portion 13 includes joint inner surface 23b, and the connector portions 24 of connecting portion 14 includes joint inner surface 24b, and these joint inner surfacies are arranged against shaft member 21.Such as connector portions 23 in the case of Fig. 4 embodiment, 24 respective joint inner surface 23b or 24b form the inner surface of respective cavity respectively.Or, in the case of Fig. 3 embodiment, joint inner surface 23b or 24b " in bottom ", namely second surface 11b respectively, the position of that side of 12b arranges opening, and such joint inner surface 23b or 24b surrounds shaft member 21 by halves towards the circumferencial direction of shaft member 21.

Joint inner surface 24b is therefore, it is possible to be arranged to they outer surfaces 32 against shaft member 21.Joint inner surface 23b or 24b only blockiness ground is against the outer surface 32 of shaft member 21.

Connector portions 23,24 can be set to one, the most as seen in the embodiment of fig. 4.Alternately, connector portions 23, or connector portions 24, or two connector portions 23,24 can be set to multistage, such as two sections, and such multiple connector portions section.

Such as, the first connector portions in connector portions 23,24, such as connector portions 23, it is arranged to include two sections of two connector portions sections, and for another connector portions 24 (the first connector portions is 23) or 23 (the first connector portions is 24), it is set to one section, and towards the direction observation of rotation axis A, it is disposed between two connector portions sections of the first connector portions 23,24.First connector portions 23,24 can be arranged in along rotation axis A relative to the center dividing device 1 extended line.

In the case of dividing device 1 embodiment, pivot fitting device 30 does not include single shaft member 21, but pivot fitting device 30 is arranged to, and observes with the angle relative to rotation axis A right angle, and connector portions 23,24 is engaged with each other.Therefore the first connector portions in connector portions 23,24 enables in particular to be formed as shaft member, and the second connector portions in connector portions 23,24 can be shaped such, that is exactly that it includes that the first connector portions in connector portions 23,24, described first connector portions are formed shaft member, in order to be embodied as joint.

Screen work part 11,12 includes end 15 or 16 and main part 17 or 18 the most respectively, and described end 15 or 16 includes edge part surface 17 or 18 respectively.Main part 21,22 is between respective end 15 or 16 and the connecting portion 13,14 of respective screen work part 11,12.

Each main part is preferably implemented, that is exactly its region, surface, being respectively first surface 11a or 12a, in the way of un-flexed, level or plane extend, and such object can be placed in this associated frame members device R on the region, surface of the main part dividing device 1 horizontal positioned.These regions, surface also are able to include depression, and in these cave in, object can portion's shape be fitted.

Edge part surface 17 or 18 each looks onto the direction away from rotation axis A, and is pressed against these inner surfacies 11a, 12a against inner surface 11a, 12a that application apparatus is relative together when screen work part 11,12 is in deployed condition.From this point of view, end 15 or 16 can include respectively as first surface 11a or the surface in 12a portion, respectively as surface and the edge part surface 17 or 18 of second surface 11b or 12b part.Face away from the edge part surface 17 or 18 in rotation axis A direction, therefore between first surface 11a and second surface 11b.When screen work part 11,12 is in open mode, end 15 or 16 is provided for against relative inner surface 11a, 12a.

End 15,16, it is possible to formed from respective tabular connecting portion 25 or 26, and respective contact site 27 or 28, described tabular connecting portion 25 or 26 is connected to respective main part 21,22, and the most integrated setting.Therefore contact site 27 or 28 the most only crosses the partial-length direction extension towards rotation axis A of connecting portion 25 or 26, the most in turn, contact site 27 or 28, is able to be formed from some sections.Especially, contact site 27 or 28, it is able to be set at least one flange.The most therefore contact site 27 or 28 enables in particular to be set to multiple flange, and the direction towards rotation axis A is observed, and described flange is one by one along going down.

For this purpose, end 15,16 can be broadened setting, and implements in the way of foot-shape the most especially, as shown in Figure 2, therefore, it is possible to have sufficient shape.As selectable for this scheme, contact site 27 or 28 the most also can be formed as plate-shaped flanges, and described plate-shaped flanges is connected respectively to respective contact site 27 or 28, and around it.

Datum plane or central plane can be arranged separately main part 21,22 and connecting portion 25 or 26, and connecting portion 13 or 14, the most respective datum level is so defined, that is exactly that it connects the center in respective partial cross sectional region, and described cross section extends towards the thickness direction RD of each part and faces the direction of rotation axis A.

For this point, each in screen work part 11,12 can be arranged to, and contact site 27 or 28 from the datum plane of contact site 27 or 28, towards the direction relative to datum plane extended line right angle and extends along thickness direction respectively.Therefore, the most ready for contact site 27 or 28, towards the direction relative to datum plane extended line right angle and extending a certain amount along thickness direction, described amount is respectively the twice of each main body 21 or 22 average thickness, and therefore implements in the way of foot-shape.

Edge part surface 17 or 18 is able to be carried out in a different manner.Especially, edge part surface 17 or 18 is able to be level.Edge part surface 17 or 18 also is able to be plane and the most especially un-flexed respectively.

Edge part surface 17 or 18, each can be configured with, as shown in Figure 2, including the protruding and profile of depression.Especially, edge part surface 17 or 18, it is able to be carried out there is fluting, wherein fluting can extend along the direction of rotation axis A or extend with right angle relative to it.Fluting can be implemented in an elongated manner and therefore enable in particular to extend parallel to each other.In the case of Fig. 2 to the embodiment of 4, fluting direction extension (Fig. 4) along rotation axis A and the direction along rotation axis A extend as the fluting extended.

In the case of Fig. 2 to 16 embodiment, each inner surface portion 13b or the 14b of each second surface 11b or 12b of each tabular screen work part 11 or 12 position with face each other in connecting portion 13,14.Inner surface portion 13b or 14b, each, therefore forming the recess 40 dividing device 1, described recess 40 at least blockiness ground extends for accommodating locking device 50 along the direction of rotation axis A.

Direction towards rotation axis A is observed, and recess 40 can be with trapezoidal shaping.As trapezoidal another kind of selection, recess 40 can shape with triangle, therefore enables in particular to the shape with right angled triangle, and in the case of right angled triangle, right angle is positioned at the position of rotation axis A.

Locking device 50 coordinates with inner surface portion 13b or the 14b of recess 40 respectively so that division device 1 is locked in open mode under locked state by locking device 50.Locking device 50 is therefore, it is possible to move between release conditions and lock-out state.Locking device 50 and each inner surface portion 13b or 14b, enable in particular to so arrange, that is, divides device 1 and uses locking device 50 to be locked in full opening of state.

The state (in this condition, divide device 1 and use locking device 50 to lock) partly or completely launched, therefore, it is possible to use arresting stop to define, observes from folded state.For this purpose, arresting stop is particular enable to by the first screen work part that (if the first screen work part is 11, then the second screen work part is 12 relative to the second screen work part；If the second screen work part is 12, then the first screen work part is 11) the design of connecting portion 13 or 14 realize, the stopping surface F2 stopping surface or edge surface F1 and the second screen work part of such first screen work part realizes contact, as, for example, second connecting portion 14 or 13 (Fig. 2) or the second main part 21 or 22, is in locked deployed condition.Therefore arresting stop is formed by stopping surface or edge surface F1, F2.

In Fig. 2, the angle folding WK dividing device 1 shows in an exemplary fashion for defining the state launched or open.Divide device 1 angle folding WK defined by angle WK as shown in Figure 2, described angle WK between the datum level RE1 and the datum level RE2 of the second main part 22 of the first main part 21 near.If angle folding WK is relatively small or equal to 0, divides device 1 and is in its position folded, and if angle folding WK is relatively big, divide device 1 and be in its position launched.In the case of expanded position, dividing device 1 in this position and use locking device 50 to be locked, angle folding WK can be 180 degree ± 20 degree.

Locking device 50 in state in action at use, locking device 50 locks screen work part 11,12 in a state, therefore it is in locked state, locking device 50 stops screen work part 11,12 can return to further folded state from they locked deployed conditions, the existence of arresting stop simultaneously stops screen work part 11,12 to increase the folding of that side of angle folding WK further, and this folding makes first surface 11a or 12a close to each other.

In one embodiment, locking device 50 includes profiled part 51, described profiled part 51 includes sticking department 52, described sticking department 52, under the deployed condition dividing device 1, engage with recess 40 in the way of shape is sealed, when profiled part 51 is in the locked position, in order to the division device 1 that will be locked is locked in deployed condition.

Divide device 1 to be not necessarily required to implement recess 40.With or without recess 40, dividing device 1 can be embodied such, that is, in screen work part 11,12 includes that one in two selectable guides 60 as the first corresponding guide, the selectable guide of said two is

(a) guide rail 61

(b) guide member 62

By described first guide, locking device 50 including profiled part 51 can be relative to screen work part 11, 12, direction towards rotation axis A, moved between off-position and latched position, described profiled part 51 includes may select the second guide corresponding in (a) or (b), described second guide coordinates with selectable first guide, in these cases, contact surface 13b of profiled part 51, 14b, with respective screen work part 11, the second surface 11b of 12, a contact in 12b, so as locking screen work part 11, 12 prevent screen work part 11, the folding of 12, corresponding described folding, second surface 11b, 12b is moved toward each other.

In the case of dividing device 1 embodiment, divide device 1 and include that locking device 50, described locking device 50 use that guide 60 is engaged in screen work part 11,12.Locking device 50 includes profiled part 51, described profiled part 51 is formed from being implemented to the holding member 55 of guide member 62 and including contact surface 13b, the sticking department 52 of 14b, described contact surface 13b, 14b is in and as to be mutually facing, them can be made to contact respectively with second surface 11b or 12b, when screen work part 11,12 is in lock-out state, be the most namely in the state that they are locked.

nullIn the case of dividing device 1 embodiment，Can be that profiled part 51 is ready further，It is allowed to include the guide member 62 of holding member 55 form，Described profiled part 51 includes may select the second guide corresponding in (a) or (b)，Described second guide may select guide with selectable first and coordinates，Described profiled part 51 is relative to screen work part 11、12，Direction towards rotation axis A，Moved between off-position and latched position，In these cases，Contact surface 13b of profiled part 51 sticking department 52，14b (described contact surface 13b，14b is in relative to rotation axis A and as to be mutually facing)，With respective screen work part 11、The second surface 11b of 12，A contact in 12b，So as locking screen work part 11、12 prevent screen work part 11、The folding of 12，Corresponding described folding，Second surface 11b，12b is moved toward each other.

In the case of dividing device 1 embodiment, inner surface portion 13b or 14b form recess 40 respectively, the outer surface 53,54 of sticking department 52 the most at least blockiness ground is against forming inner surface portion 13b or the 14b of recess 40, when screen work part 11,12 is in lock-out state and when profiled part 51 is in along rotation axis A relative to when dividing the locked position of device 1 extended line.

In the case of profiled part shown in Fig. 1 to 6, holding member 55 be profiled part " on " part, two outer surfaces 53,54 of lock part 52 all extend from this part.

Fig. 4 shows locking device 50 and the profiled part 51 being in release conditions, and in the case of this state, profiled part 51 is positioned at the outside of recess 40, and wherein screen work part 11,12 is not located at state to be locked, because angle folding WK is the biggest.Fig. 5 is shown that remaining at the profiled part 51 of release conditions, and in the case of this state, profiled part 51 is positioned at the outside of recess 40, and wherein screen work part 11,12 is in state to be locked.In the diagram of Fig. 6, profiled part 51 is moved into recess 40 and thus into locked state by blockiness.

In principle, locking device 50, especially profiled part 51 can be the parts being located away from screen work part 11,12, or are engaged to their part, and wherein profiled part 51 can be provided by guide 60 to the joint of screen work part 11,12.

Using guide 60, the holding member 55 of profiled part 51, to the joint of screen work part 11, therefore arrives the joint of screen work part 11,12, shows with the help of Fig. 7 and 8.

In the illustrated embodiment, holding member 55 has the endoporus 56 of inwall 56a by formation, implements in the way of tubulose, and is connected to lock part 52 by web.The interior diameter d55 of holding member 55 is so provided that to be exactly that the endoporus 56 of inwall 56a can accommodate rotation axis A, and the holding member 55 guided by rotation axis A towards its longitudinal direction, it is possible to be front and back moved along it.Guide rail 61 and rotation axis A are embodied such, that is, the pipe portion of holding member 55 is in guide rail 61 and directed on rotation axis A.Therefore rotation axis A protrudes into guide rail 61 with its end 65, and the pipe portion of such holding member 55 is directed between rotation axis A and guide rail 61.

As an option, profiled part 51 includes recess 57, and described recess 57, towards screen work part 11 or 12 opening, is the first screen work part 11 in an illustrated embodiment, so part 23c of blank area 23 can be accommodated by described recess, when the pipe parts of holding member 55 moves into guide rail 61.In the case of embodiment, in the case of the embodiment, part 23c of blank area 23 is not carried out, and profiled part 51 also can be carried out does not has recess.

In another embodiment, rotation axis A is shaped such, that is, it does not extends into guide rail 61.In the case of rotation axis A embodiment, the pipe parts of holding member 55 is guided by the inwall 61a of guide rail 61.

Annular uphill slope 59 (using this uphill slope, fixed relative to the position of rotation of rotation axis A profiled part 51) can be embodied on profiled part 51, because recess 69 is embodied in guide rail 61.In the region of guide rail 61, the moving region that recess crosses annular uphill slope 59 along rotation axis A extends, described annular uphill slope 59, due to the motion of profiled part 51, defines between release conditions and lock-out state.

Locking member 68 (the axially-extending line towards rotation axis A is observed, and extend into guide rail 61), it is possible to be disposed in the outer end of screen work part 11 or 12, the first screen work part 11 therefore, lead to outside screen work part 11 at this outer end guide rail 61.Described locking is used as to stop the block of annular uphill slope 59, and defines and be extended position relative to the maximum of guide rail 61 profiled part 51, and this is shown in the figure 7.Locking member 68 also affects profiled part 51 for dividing the joint of device 1.

It addition, locking device 58 also can be embodied in profiled part 51 or screen work part 11 or 12, it illustrated embodiment is the first screen work part 11.Using locking device 58, the locked position of profiled part 51 can be towards the direction of rotation axis A, and relative to screen work part 11 or 12, the first screen work part 11 therefore is fixed.Locking device 58 includes guide recess 58a, locking member 58b, and pre-tensioning device 58d, described locking member 58b can move in guide recess 58a and enable in particular to be carried out in the way of aciculiform, using described pre-tensioning device 58d, locking member 58b is pre-tensioned into the latched position being extended.Recess 23d is embodied in part 23c of blank area 23, the end portion of locking member 58b can be moved in this recess, when profiled part 51 is in locked position, it is positioned at the position of recess 23d at this locked position locking member 58b the most vertical extended line relative to rotation axis A.Holding member 55 blockiness is moved into guide rail 61 by correspondence, and locking member 58b compresses pre-tensioning device 58d until locking member 58b arrives part 23c of blank area 23, enters into, in this position locking member 58b, the position being extended and being pre-tensioned.

Figure 10 and 11 shows guide 60 further embodiment, and in the case of the embodiment, guide member 62 is disposed in the outer surface of lock part 52 and implements into prolongation molded body.The directed track of guide member 62 61 is accommodated, and described guide rail 61 is embodied in screen work part 11 or 12, is in the first screen work part 11 in described embodiment.

Guide rail 61 can be implemented in a different manner.Longitudinal extended line towards guide rail 61 or guide member 62 is observed, and it can have triangle or trapezoidal cross section (Figure 10,11), circular cross section (Figure 12) or web shape cross section (Figure 13).

Figure 14 shows division device 1, and in that case, pivot fitting is implemented as articulated joint.

Implementing respectively for surface, marginal portion 17 and 18 shown in Figure 15 has tumor body 17c or 18c.

Claims (10)

1. one kind divides device (1), it is characterised in that described division device (1) including: the first and second plates Shape screen work part (11,12), wherein said screen work part (11,12) is by including the pivot of rotation axis (A) Piecing devices (30) are rotatably engaged with each other, wherein screen work part (11,12) include first surface (11a, 12a) and second surface (11b, 12b), described second surface (11b, 12b) be positioned at first surface (11a, 12b) relative position, wherein screen work part (11,12) including:

-connecting portion (13,14), described connecting portion (13,14) extends along rotation axis (A), Qi Zhongge The connecting portion (13,14) of frame member (11,12) is engaged with each other by pivot fitting device (30),

-include the end (15,16) of edge part surface (17,18), described edge part surface (17,18) Sensing away from rotation axis (A), and when screen work part (11,12) is in deployed condition, described edge Surface, portion (17,18) abuts against the inner surface (R3, R4) of position relative to each other together,

-main part (21,22), described main body section is in the end (15,16) of respective screen work part (11,12) And between connecting portion (13,14),

Wherein pivot fitting device (30) is arranged to, and rotation axis (A) and connecting line are kept at a distance (d), institute State connecting line be perpendicular to rotation axis (A) extend and by the point on screen work part (11,12) edge part surface each other Connecting, described point is positioned at the corresponding maximum deployed condition of device (1) that divides and leaves the position that rotation axis (A) is farthest Put.

Division device (1) the most according to claim 1, it is characterised in that in screen work part (11,12) Included in following (a) and the selectable guide of (b) the two (60) guide dress as first Put,

(a) guide rail (61)

(b) guide member (62)

Locking device (50) include profiled part (51), described profiled part (51) include two selectable Another in guide (a) and (b) is as the second corresponding guide, described second guide and first Guide coordinates, and by the first guide, locking device (50) can be relative to screen work part (11,12) Direction along rotation axis (A) is moved between off-position and latched position, thereby, and profiled part (51) Relative to rotation axis (A) be positioned at the contact surface (13b, 14b) of position relative to each other with corresponding one Second surface (11b, 12b) contact of screen work part (11,12), in order to locking screen work part (11,12) prevents It folds, and the folding of described screen work part (11,12) corresponds to second surface (11b, 12b) and moves towards each other.

Division device (1) the most according to claim 2, it is characterised in that divide device (1) and include tool Have the locking device (50) of profiled part (51), described profiled part (51) utilize guide (60) with A joint in screen work part (11,12),

Wherein profiled part (51) includes the guide member (62) of (55) form in holding member, this guide portion Part (62) constitutes the second corresponding guide in selectable (a) and (b), and the second guide is drawn with first Leading device to coordinate, described profiled part can be relative to screen work part (11,12), towards rotation axis (A) Direction, is moved between off-position and latched position, thereby, and the sticking department (52) of profiled part (51) The contact surface (13b, 14b) that as to be mutually facing it is in, with corresponding one relative to rotation axis (A) Individual screen work part second surface (11b, 12b) contact, in order to locking screen work part (11,12) prevent screen work part (11, 12) folding, corresponding described folding, second surface (11b, 12b) is moved toward each other.

Division device (1) the most according to claim 2, it is characterised in that divide device (1) and include recessed Portion (40), described recess (40) is formed by inner surface portion (13b, 14b), described inner surface portion (13b, 14b) face each other and be arranged on the connecting portion of tabular screen work part (11,12) second surface (11b, 12b) In in (13,14) one, so when dividing device (1) and being in deployed condition to be locked, logical Cross and profiled part (51) is inserted recess (40), it is possible to make outer surface (53,54) relative to each other and interior table Face (13b, 14b) contact, in order to locking divide device (1) deployed condition, prevent tabular screen work part (11, 12) second surface (11b, 12b) is moved toward each other.

Division device (1) the most according to claim 3, it is characterised in that divide device (1) and include recessed Portion (40), described recess (40) is formed by inner surface portion (13b, 14b), described inner surface portion (13b, 14b) face each other and be arranged on the connecting portion of tabular screen work part (11,12) second surface (11b, 12b) In (13,14), so when dividing device (1) and being in deployed condition to be locked, by by molding Parts (51) insert recess (40), it is possible to make outer surface (53,54) relative to each other and inner surface portion (13b, 14b) contact, in order to locking divides the deployed condition of device (1), prevents the of tabular screen work part (11,12) (11b, 12b) is moved toward each other on two surfaces.

Division device (1) the most according to claim 4, it is characterised in that along rotation axis (A) Direction is observed, and recess (40) has one of following shape:

-trapezoidal,

The shape of-triangle, particularly right angled triangle, in the case of right-angle triangle, right angle is positioned at The position of rotation axis (A).

Division device (1) the most according to claim 1, it is characterised in that pivot fitting device (30) Including shaft member (21), described shaft member (21) is positioned in axle recess, and its axis recess is by Part I recess and Two part recesses are formed, and described Part I recess is arranged in the first screen work part in screen work part (11,12), Described Part II recess is arranged in the second screen work part in screen work part (11,12).

Division device (1) the most according to claim 1, it is characterised in that locking device (50) includes Profiled part (51), described profiled part (51) includes guide rail (61) or guide member (62), so Described profiled part (51) and can be released at lock-out state along rotation axis (A) direction along described guide rail Put and move between state, the connecting portion of during wherein guide rail (61) is arranged on screen work part (11,12) On (13,14), and guide member (62) is arranged at profiled part (51), or on the contrary.

Division device (1) the most according to claim 1, it is characterised in that screen work part (11,12) sets Counting into, for its transversal face, it is to extend at a right angle with rotation axis (A) direction, connecting portion (13, 14) extend angularly in relation to one another with main part (17,18), and be designed to, rotation axis (A) be connected Line is kept at a distance (d), and described connecting line is perpendicular to rotation axis (A) and extends and by screen work part (11,12) The point on edge part surface is connected to each other, and described point is positioned at the corresponding maximum deployed condition of device (1) that divides and leaves rotation The position that axis (A) is farthest.

Division device (1) the most according to claim 1, it is characterised in that each end (15,16) Edge part surface (17,18) there is molded surface be designed at edge part surface (17,18) and inner surface Producing frictional connection between (R3, R4), described inner surface (R3, R4) is positioned at and as to be mutually facing.